2 * Authors.....: Jens Steube <jens.steube@gmail.com>
3 * Gabriele Gristina <matrix@hashcat.net>
4 * magnum <john.magnum@hushmail.com>
15 #include <rp_kernel_on_cpu.h>
18 const char *PROGNAME
= "hashcat";
19 const uint VERSION_BIN
= 300;
20 const uint RESTORE_MIN
= 300;
22 double TARGET_MS_PROFILE
[4] = { 2, 12, 96, 480 };
24 #define INCR_RULES 10000
25 #define INCR_SALTS 100000
26 #define INCR_MASKS 1000
32 #define MARKOV_THRESHOLD 0
33 #define MARKOV_DISABLE 0
34 #define MARKOV_CLASSIC 0
38 #define RESTORE_TIMER 60
39 #define RESTORE_DISABLE 0
41 #define STATUS_TIMER 10
42 #define MACHINE_READABLE 0
44 #define WEAK_HASH_THRESHOLD 100
49 #define REMOVE_TIMER 60
53 #define POTFILE_DISABLE 0
56 #define RP_GEN_FUNC_MIN 1
57 #define RP_GEN_FUNC_MAX 4
59 #define RULE_BUF_L ":"
60 #define RULE_BUF_R ":"
65 #define HEX_WORDLIST 0
66 #define OUTFILE_FORMAT 3
67 #define OUTFILE_AUTOHEX 1
68 #define OUTFILE_CHECK_TIMER 5
71 #define SEGMENT_SIZE 32
73 #define INCREMENT_MIN 1
74 #define INCREMENT_MAX PW_MAX
78 #define NVIDIA_SPIN_DAMP 100
79 #define GPU_TEMP_DISABLE 0
80 #define GPU_TEMP_ABORT 90
81 #define GPU_TEMP_RETAIN 0
82 #define WORKLOAD_PROFILE 2
83 #define KERNEL_ACCEL 0
84 #define KERNEL_LOOPS 0
85 #define KERNEL_RULES 1024
86 #define KERNEL_COMBS 1024
87 #define KERNEL_BFS 1024
88 #define KERNEL_THREADS_MAX 256
89 #define KERNEL_THREADS_MAX_CPU 16
90 #define POWERTUNE_ENABLE 0
91 #define LOGFILE_DISABLE 0
93 #define OPENCL_VECTOR_WIDTH 0
95 #define WL_MODE_STDIN 1
96 #define WL_MODE_FILE 2
97 #define WL_MODE_MASK 3
99 #define HL_MODE_FILE 4
100 #define HL_MODE_ARG 5
102 #define HLFMTS_CNT 11
103 #define HLFMT_HASHCAT 0
104 #define HLFMT_PWDUMP 1
105 #define HLFMT_PASSWD 2
106 #define HLFMT_SHADOW 3
109 #define HLFMT_NETNTLM1 7
110 #define HLFMT_NETNTLM2 8
111 #define HLFMT_NSLDAP 9
112 #define HLFMT_NSLDAPS 10
114 #define HLFMT_TEXT_HASHCAT "native hashcat"
115 #define HLFMT_TEXT_PWDUMP "pwdump"
116 #define HLFMT_TEXT_PASSWD "passwd"
117 #define HLFMT_TEXT_SHADOW "shadow"
118 #define HLFMT_TEXT_DCC "DCC"
119 #define HLFMT_TEXT_DCC2 "DCC 2"
120 #define HLFMT_TEXT_NETNTLM1 "NetNTLMv1"
121 #define HLFMT_TEXT_NETNTLM2 "NetNTLMv2"
122 #define HLFMT_TEXT_NSLDAP "nsldap"
123 #define HLFMT_TEXT_NSLDAPS "nsldaps"
125 #define ATTACK_MODE_STRAIGHT 0
126 #define ATTACK_MODE_COMBI 1
127 #define ATTACK_MODE_TOGGLE 2
128 #define ATTACK_MODE_BF 3
129 #define ATTACK_MODE_PERM 4
130 #define ATTACK_MODE_TABLE 5
131 #define ATTACK_MODE_HYBRID1 6
132 #define ATTACK_MODE_HYBRID2 7
133 #define ATTACK_MODE_NONE 100
135 #define ATTACK_KERN_STRAIGHT 0
136 #define ATTACK_KERN_COMBI 1
137 #define ATTACK_KERN_BF 3
138 #define ATTACK_KERN_NONE 100
140 #define ATTACK_EXEC_OUTSIDE_KERNEL 10
141 #define ATTACK_EXEC_INSIDE_KERNEL 11
143 #define COMBINATOR_MODE_BASE_LEFT 10001
144 #define COMBINATOR_MODE_BASE_RIGHT 10002
146 #define MIN(a,b) (((a) < (b)) ? (a) : (b))
147 #define MAX(a,b) (((a) > (b)) ? (a) : (b))
149 #define MAX_CUT_TRIES 4
151 #define MAX_DICTSTAT 10000
153 #define NUM_DEFAULT_BENCHMARK_ALGORITHMS 143
155 #define NVIDIA_100PERCENTCPU_WORKAROUND 100
157 #define global_free(attr) \
159 myfree ((void *) data.attr); \
164 #define local_free(attr) \
166 myfree ((void *) attr); \
171 #if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__)
172 #define HC_API_CALL __stdcall
177 static uint default_benchmark_algorithms
[NUM_DEFAULT_BENCHMARK_ALGORITHMS
] =
328 static void (*get_next_word_func
) (char *, u32
, u32
*, u32
*);
334 static unsigned int full01
= 0x01010101;
335 static unsigned int full80
= 0x80808080;
337 int SUPPRESS_OUTPUT
= 0;
339 hc_thread_mutex_t mux_adl
;
340 hc_thread_mutex_t mux_counter
;
341 hc_thread_mutex_t mux_dispatcher
;
342 hc_thread_mutex_t mux_display
;
344 hc_global_data_t data
;
346 const char *PROMPT
= "[s]tatus [p]ause [r]esume [b]ypass [c]heckpoint [q]uit => ";
348 const char *USAGE_MINI
[] =
350 "Usage: %s [options]... hash|hashfile|hccapfile [dictionary|mask|directory]...",
352 "Try --help for more help.",
356 const char *USAGE_BIG
[] =
358 "%s, advanced password recovery",
360 "Usage: %s [options]... hash|hashfile|hccapfile [dictionary|mask|directory]...",
364 " Options Short / Long | Type | Description | Example",
365 "===============================|======|======================================================|=======================",
366 " -m, --hash-type | Num | Hash-type, see references below | -m 1000",
367 " -a, --attack-mode | Num | Attack-mode, see references below | -a 3",
368 " -V, --version | | Print version |",
369 " -h, --help | | Print help |",
370 " --quiet | | Suppress output |",
371 " --hex-charset | | Assume charset is given in hex |",
372 " --hex-salt | | Assume salt is given in hex |",
373 " --hex-wordlist | | Assume words in wordlist is given in hex |",
374 " --force | | Ignore warnings |",
375 " --status | | Enable automatic update of the status-screen |",
376 " --status-timer | Num | Sets seconds between status-screen update to X | --status-timer=1",
377 " --machine-readable | | Display the status view in a machine readable format |",
378 " --loopback | | Add new plains to induct directory |",
379 " --weak-hash-threshold | Num | Threshold X when to stop checking for weak hashes | --weak=0",
380 " --markov-hcstat | File | Specify hcstat file to use | --markov-hc=my.hcstat",
381 " --markov-disable | | Disables markov-chains, emulates classic brute-force |",
382 " --markov-classic | | Enables classic markov-chains, no per-position |",
383 " -t, --markov-threshold | Num | Threshold X when to stop accepting new markov-chains | -t 50",
384 " --runtime | Num | Abort session after X seconds of runtime | --runtime=10",
385 " --session | Str | Define specific session name | --session=mysession",
386 " --restore | | Restore session from --session |",
387 " --restore-disable | | Do not write restore file |",
388 " -o, --outfile | File | Define outfile for recovered hash | -o outfile.txt",
389 " --outfile-format | Num | Define outfile-format X for recovered hash | --outfile-format=7",
390 " --outfile-autohex-disable | | Disable the use of $HEX[] in output plains |",
391 " --outfile-check-timer | Num | Sets seconds between outfile checks to X | --outfile-check=30",
392 " -p, --separator | Char | Separator char for hashlists and outfile | -p :",
393 " --stdout | | Do not crack a hash, instead print candidates only |",
394 " --show | | Show cracked passwords only |",
395 " --left | | Show un-cracked passwords only |",
396 " --username | | Enable ignoring of usernames in hashfile |",
397 " --remove | | Enable remove of hash once it is cracked |",
398 " --remove-timer | Num | Update input hash file each X seconds | --remove-timer=30",
399 " --potfile-disable | | Do not write potfile |",
400 " --potfile-path | Dir | Specific path to potfile | --potfile-path=my.pot",
401 " --debug-mode | Num | Defines the debug mode (hybrid only by using rules) | --debug-mode=4",
402 " --debug-file | File | Output file for debugging rules | --debug-file=good.log",
403 " --induction-dir | Dir | Specify the induction directory to use for loopback | --induction=inducts",
404 " --outfile-check-dir | Dir | Specify the outfile directory to monitor for plains | --outfile-check-dir=x",
405 " --logfile-disable | | Disable the logfile |",
406 " --truecrypt-keyfiles | File | Keyfiles used, separate with comma | --truecrypt-key=x.png",
407 " --veracrypt-keyfiles | File | Keyfiles used, separate with comma | --veracrypt-key=x.txt",
408 " --veracrypt-pim | Num | VeraCrypt personal iterations multiplier | --veracrypt-pim=1000",
409 " -b, --benchmark | | Run benchmark |",
410 " -c, --segment-size | Num | Sets size in MB to cache from the wordfile to X | -c 32",
411 " --bitmap-min | Num | Sets minimum bits allowed for bitmaps to X | --bitmap-min=24",
412 " --bitmap-max | Num | Sets maximum bits allowed for bitmaps to X | --bitmap-min=24",
413 " --cpu-affinity | Str | Locks to CPU devices, separate with comma | --cpu-affinity=1,2,3",
414 " --opencl-platforms | Str | OpenCL platforms to use, separate with comma | --opencl-platforms=2",
415 " -d, --opencl-devices | Str | OpenCL devices to use, separate with comma | -d 1",
416 " --opencl-device-types | Str | OpenCL device-types to use, separate with comma | --opencl-device-type=1",
417 " --opencl-vector-width | Num | Manual override OpenCL vector-width to X | --opencl-vector=4",
418 " -w, --workload-profile | Num | Enable a specific workload profile, see pool below | -w 3",
419 " -n, --kernel-accel | Num | Manual workload tuning, set outerloop step size to X | -n 64",
420 " -u, --kernel-loops | Num | Manual workload tuning, set innerloop step size to X | -u 256",
421 " --nvidia-spin-damp | Num | Workaround NVidias CPU burning loop bug, in percent | --nvidia-spin-damp=50",
422 " --gpu-temp-disable | | Disable temperature and fanspeed reads and triggers |",
424 " --gpu-temp-abort | Num | Abort if GPU temperature reaches X degrees celsius | --gpu-temp-abort=100",
425 " --gpu-temp-retain | Num | Try to retain GPU temperature at X degrees celsius | --gpu-temp-retain=95",
426 " --powertune-enable | | Enable power tuning, restores settings when finished |",
428 " --scrypt-tmto | Num | Manually override TMTO value for scrypt to X | --scrypt-tmto=3",
429 " -s, --skip | Num | Skip X words from the start | -s 1000000",
430 " -l, --limit | Num | Limit X words from the start + skipped words | -l 1000000",
431 " --keyspace | | Show keyspace base:mod values and quit |",
432 " -j, --rule-left | Rule | Single Rule applied to each word from left wordlist | -j 'c'",
433 " -k, --rule-right | Rule | Single Rule applied to each word from right wordlist | -k '^-'",
434 " -r, --rules-file | File | Multiple Rules applied to each word from wordlists | -r rules/best64.rule",
435 " -g, --generate-rules | Num | Generate X random rules | -g 10000",
436 " --generate-rules-func-min | Num | Force min X funcs per rule |",
437 " --generate-rules-func-max | Num | Force max X funcs per rule |",
438 " --generate-rules-seed | Num | Force RNG seed set to X |",
439 " -1, --custom-charset1 | CS | User-defined charset ?1 | -1 ?l?d?u",
440 " -2, --custom-charset2 | CS | User-defined charset ?2 | -2 ?l?d?s",
441 " -3, --custom-charset3 | CS | User-defined charset ?3 |",
442 " -4, --custom-charset4 | CS | User-defined charset ?4 |",
443 " -i, --increment | | Enable mask increment mode |",
444 " --increment-min | Num | Start mask incrementing at X | --increment-min=4",
445 " --increment-max | Num | Stop mask incrementing at X | --increment-max=8",
447 "- [ Hash modes ] -",
449 " # | Name | Category",
450 " ======+==================================================+======================================",
451 " 900 | MD4 | Raw Hash",
452 " 0 | MD5 | Raw Hash",
453 " 5100 | Half MD5 | Raw Hash",
454 " 100 | SHA1 | Raw Hash",
455 " 10800 | SHA-384 | Raw Hash",
456 " 1400 | SHA-256 | Raw Hash",
457 " 1700 | SHA-512 | Raw Hash",
458 " 5000 | SHA-3(Keccak) | Raw Hash",
459 " 10100 | SipHash | Raw Hash",
460 " 6000 | RipeMD160 | Raw Hash",
461 " 6100 | Whirlpool | Raw Hash",
462 " 6900 | GOST R 34.11-94 | Raw Hash",
463 " 11700 | GOST R 34.11-2012 (Streebog) 256-bit | Raw Hash",
464 " 11800 | GOST R 34.11-2012 (Streebog) 512-bit | Raw Hash",
465 " 10 | md5($pass.$salt) | Raw Hash, Salted and / or Iterated",
466 " 20 | md5($salt.$pass) | Raw Hash, Salted and / or Iterated",
467 " 30 | md5(unicode($pass).$salt) | Raw Hash, Salted and / or Iterated",
468 " 40 | md5($salt.unicode($pass)) | Raw Hash, Salted and / or Iterated",
469 " 3800 | md5($salt.$pass.$salt) | Raw Hash, Salted and / or Iterated",
470 " 3710 | md5($salt.md5($pass)) | Raw Hash, Salted and / or Iterated",
471 " 2600 | md5(md5($pass) | Raw Hash, Salted and / or Iterated",
472 " 4300 | md5(strtoupper(md5($pass))) | Raw Hash, Salted and / or Iterated",
473 " 4400 | md5(sha1($pass)) | Raw Hash, Salted and / or Iterated",
474 " 110 | sha1($pass.$salt) | Raw Hash, Salted and / or Iterated",
475 " 120 | sha1($salt.$pass) | Raw Hash, Salted and / or Iterated",
476 " 130 | sha1(unicode($pass).$salt) | Raw Hash, Salted and / or Iterated",
477 " 140 | sha1($salt.unicode($pass)) | Raw Hash, Salted and / or Iterated",
478 " 4500 | sha1(sha1($pass) | Raw Hash, Salted and / or Iterated",
479 " 4700 | sha1(md5($pass)) | Raw Hash, Salted and / or Iterated",
480 " 4900 | sha1($salt.$pass.$salt) | Raw Hash, Salted and / or Iterated",
481 " 1410 | sha256($pass.$salt) | Raw Hash, Salted and / or Iterated",
482 " 1420 | sha256($salt.$pass) | Raw Hash, Salted and / or Iterated",
483 " 1430 | sha256(unicode($pass).$salt) | Raw Hash, Salted and / or Iterated",
484 " 1440 | sha256($salt.unicode($pass)) | Raw Hash, Salted and / or Iterated",
485 " 1710 | sha512($pass.$salt) | Raw Hash, Salted and / or Iterated",
486 " 1720 | sha512($salt.$pass) | Raw Hash, Salted and / or Iterated",
487 " 1730 | sha512(unicode($pass).$salt) | Raw Hash, Salted and / or Iterated",
488 " 1740 | sha512($salt.unicode($pass)) | Raw Hash, Salted and / or Iterated",
489 " 50 | HMAC-MD5 (key = $pass) | Raw Hash, Authenticated",
490 " 60 | HMAC-MD5 (key = $salt) | Raw Hash, Authenticated",
491 " 150 | HMAC-SHA1 (key = $pass) | Raw Hash, Authenticated",
492 " 160 | HMAC-SHA1 (key = $salt) | Raw Hash, Authenticated",
493 " 1450 | HMAC-SHA256 (key = $pass) | Raw Hash, Authenticated",
494 " 1460 | HMAC-SHA256 (key = $salt) | Raw Hash, Authenticated",
495 " 1750 | HMAC-SHA512 (key = $pass) | Raw Hash, Authenticated",
496 " 1760 | HMAC-SHA512 (key = $salt) | Raw Hash, Authenticated",
497 " 400 | phpass | Generic KDF",
498 " 8900 | scrypt | Generic KDF",
499 " 11900 | PBKDF2-HMAC-MD5 | Generic KDF",
500 " 12000 | PBKDF2-HMAC-SHA1 | Generic KDF",
501 " 10900 | PBKDF2-HMAC-SHA256 | Generic KDF",
502 " 12100 | PBKDF2-HMAC-SHA512 | Generic KDF",
503 " 23 | Skype | Network protocols",
504 " 2500 | WPA/WPA2 | Network protocols",
505 " 4800 | iSCSI CHAP authentication, MD5(Chap) | Network protocols",
506 " 5300 | IKE-PSK MD5 | Network protocols",
507 " 5400 | IKE-PSK SHA1 | Network protocols",
508 " 5500 | NetNTLMv1 | Network protocols",
509 " 5500 | NetNTLMv1 + ESS | Network protocols",
510 " 5600 | NetNTLMv2 | Network protocols",
511 " 7300 | IPMI2 RAKP HMAC-SHA1 | Network protocols",
512 " 7500 | Kerberos 5 AS-REQ Pre-Auth etype 23 | Network protocols",
513 " 8300 | DNSSEC (NSEC3) | Network protocols",
514 " 10200 | Cram MD5 | Network protocols",
515 " 11100 | PostgreSQL CRAM (MD5) | Network protocols",
516 " 11200 | MySQL CRAM (SHA1) | Network protocols",
517 " 11400 | SIP digest authentication (MD5) | Network protocols",
518 " 13100 | Kerberos 5 TGS-REP etype 23 | Network protocols",
519 " 121 | SMF (Simple Machines Forum) | Forums, CMS, E-Commerce, Frameworks",
520 " 400 | phpBB3 | Forums, CMS, E-Commerce, Frameworks",
521 " 2611 | vBulletin < v3.8.5 | Forums, CMS, E-Commerce, Frameworks",
522 " 2711 | vBulletin > v3.8.5 | Forums, CMS, E-Commerce, Frameworks",
523 " 2811 | MyBB | Forums, CMS, E-Commerce, Frameworks",
524 " 2811 | IPB (Invison Power Board) | Forums, CMS, E-Commerce, Frameworks",
525 " 8400 | WBB3 (Woltlab Burning Board) | Forums, CMS, E-Commerce, Frameworks",
526 " 11 | Joomla < 2.5.18 | Forums, CMS, E-Commerce, Frameworks",
527 " 400 | Joomla > 2.5.18 | Forums, CMS, E-Commerce, Frameworks",
528 " 400 | Wordpress | Forums, CMS, E-Commerce, Frameworks",
529 " 2612 | PHPS | Forums, CMS, E-Commerce, Frameworks",
530 " 7900 | Drupal7 | Forums, CMS, E-Commerce, Frameworks",
531 " 21 | osCommerce | Forums, CMS, E-Commerce, Frameworks",
532 " 21 | xt:Commerce | Forums, CMS, E-Commerce, Frameworks",
533 " 11000 | PrestaShop | Forums, CMS, E-Commerce, Frameworks",
534 " 124 | Django (SHA-1) | Forums, CMS, E-Commerce, Frameworks",
535 " 10000 | Django (PBKDF2-SHA256) | Forums, CMS, E-Commerce, Frameworks",
536 " 3711 | Mediawiki B type | Forums, CMS, E-Commerce, Frameworks",
537 " 7600 | Redmine | Forums, CMS, E-Commerce, Frameworks",
538 " 12 | PostgreSQL | Database Server",
539 " 131 | MSSQL(2000) | Database Server",
540 " 132 | MSSQL(2005) | Database Server",
541 " 1731 | MSSQL(2012) | Database Server",
542 " 1731 | MSSQL(2014) | Database Server",
543 " 200 | MySQL323 | Database Server",
544 " 300 | MySQL4.1/MySQL5 | Database Server",
545 " 3100 | Oracle H: Type (Oracle 7+) | Database Server",
546 " 112 | Oracle S: Type (Oracle 11+) | Database Server",
547 " 12300 | Oracle T: Type (Oracle 12+) | Database Server",
548 " 8000 | Sybase ASE | Database Server",
549 " 141 | EPiServer 6.x < v4 | HTTP, SMTP, LDAP Server",
550 " 1441 | EPiServer 6.x > v4 | HTTP, SMTP, LDAP Server",
551 " 1600 | Apache $apr1$ | HTTP, SMTP, LDAP Server",
552 " 12600 | ColdFusion 10+ | HTTP, SMTP, LDAP Server",
553 " 1421 | hMailServer | HTTP, SMTP, LDAP Server",
554 " 101 | nsldap, SHA-1(Base64), Netscape LDAP SHA | HTTP, SMTP, LDAP Server",
555 " 111 | nsldaps, SSHA-1(Base64), Netscape LDAP SSHA | HTTP, SMTP, LDAP Server",
556 " 1711 | SSHA-512(Base64), LDAP {SSHA512} | HTTP, SMTP, LDAP Server",
557 " 11500 | CRC32 | Checksums",
558 " 3000 | LM | Operating-Systems",
559 " 1000 | NTLM | Operating-Systems",
560 " 1100 | Domain Cached Credentials (DCC), MS Cache | Operating-Systems",
561 " 2100 | Domain Cached Credentials 2 (DCC2), MS Cache 2 | Operating-Systems",
562 " 12800 | MS-AzureSync PBKDF2-HMAC-SHA256 | Operating-Systems",
563 " 1500 | descrypt, DES(Unix), Traditional DES | Operating-Systems",
564 " 12400 | BSDiCrypt, Extended DES | Operating-Systems",
565 " 500 | md5crypt $1$, MD5(Unix) | Operating-Systems",
566 " 3200 | bcrypt $2*$, Blowfish(Unix) | Operating-Systems",
567 " 7400 | sha256crypt $5$, SHA256(Unix) | Operating-Systems",
568 " 1800 | sha512crypt $6$, SHA512(Unix) | Operating-Systems",
569 " 122 | OSX v10.4, OSX v10.5, OSX v10.6 | Operating-Systems",
570 " 1722 | OSX v10.7 | Operating-Systems",
571 " 7100 | OSX v10.8, OSX v10.9, OSX v10.10 | Operating-Systems",
572 " 6300 | AIX {smd5} | Operating-Systems",
573 " 6700 | AIX {ssha1} | Operating-Systems",
574 " 6400 | AIX {ssha256} | Operating-Systems",
575 " 6500 | AIX {ssha512} | Operating-Systems",
576 " 2400 | Cisco-PIX | Operating-Systems",
577 " 2410 | Cisco-ASA | Operating-Systems",
578 " 500 | Cisco-IOS $1$ | Operating-Systems",
579 " 5700 | Cisco-IOS $4$ | Operating-Systems",
580 " 9200 | Cisco-IOS $8$ | Operating-Systems",
581 " 9300 | Cisco-IOS $9$ | Operating-Systems",
582 " 22 | Juniper Netscreen/SSG (ScreenOS) | Operating-Systems",
583 " 501 | Juniper IVE | Operating-Systems",
584 " 5800 | Android PIN | Operating-Systems",
585 " 13800 | Windows 8+ phone PIN/Password | Operating-Systems",
586 " 8100 | Citrix Netscaler | Operating-Systems",
587 " 8500 | RACF | Operating-Systems",
588 " 7200 | GRUB 2 | Operating-Systems",
589 " 9900 | Radmin2 | Operating-Systems",
590 " 125 | ArubaOS | Operating-Systems",
591 " 7700 | SAP CODVN B (BCODE) | Enterprise Application Software (EAS)",
592 " 7800 | SAP CODVN F/G (PASSCODE) | Enterprise Application Software (EAS)",
593 " 10300 | SAP CODVN H (PWDSALTEDHASH) iSSHA-1 | Enterprise Application Software (EAS)",
594 " 8600 | Lotus Notes/Domino 5 | Enterprise Application Software (EAS)",
595 " 8700 | Lotus Notes/Domino 6 | Enterprise Application Software (EAS)",
596 " 9100 | Lotus Notes/Domino 8 | Enterprise Application Software (EAS)",
597 " 133 | PeopleSoft | Enterprise Application Software (EAS)",
598 " 13500 | PeopleSoft Token | Enterprise Application Software (EAS)",
599 " 11600 | 7-Zip | Archives",
600 " 12500 | RAR3-hp | Archives",
601 " 13000 | RAR5 | Archives",
602 " 13200 | AxCrypt | Archives",
603 " 13300 | AxCrypt in memory SHA1 | Archives",
604 " 13600 | WinZip | Archives",
605 " 62XY | TrueCrypt | Full-Disk encryptions (FDE)",
606 " X | 1 = PBKDF2-HMAC-RipeMD160 | Full-Disk encryptions (FDE)",
607 " X | 2 = PBKDF2-HMAC-SHA512 | Full-Disk encryptions (FDE)",
608 " X | 3 = PBKDF2-HMAC-Whirlpool | Full-Disk encryptions (FDE)",
609 " X | 4 = PBKDF2-HMAC-RipeMD160 + boot-mode | Full-Disk encryptions (FDE)",
610 " Y | 1 = XTS 512 bit pure AES | Full-Disk encryptions (FDE)",
611 " Y | 1 = XTS 512 bit pure Serpent | Full-Disk encryptions (FDE)",
612 " Y | 1 = XTS 512 bit pure Twofish | Full-Disk encryptions (FDE)",
613 " Y | 2 = XTS 1024 bit pure AES | Full-Disk encryptions (FDE)",
614 " Y | 2 = XTS 1024 bit pure Serpent | Full-Disk encryptions (FDE)",
615 " Y | 2 = XTS 1024 bit pure Twofish | Full-Disk encryptions (FDE)",
616 " Y | 2 = XTS 1024 bit cascaded AES-Twofish | Full-Disk encryptions (FDE)",
617 " Y | 2 = XTS 1024 bit cascaded Serpent-AES | Full-Disk encryptions (FDE)",
618 " Y | 2 = XTS 1024 bit cascaded Twofish-Serpent | Full-Disk encryptions (FDE)",
619 " Y | 3 = XTS 1536 bit all | Full-Disk encryptions (FDE)",
620 " 8800 | Android FDE < v4.3 | Full-Disk encryptions (FDE)",
621 " 12900 | Android FDE (Samsung DEK) | Full-Disk encryptions (FDE)",
622 " 12200 | eCryptfs | Full-Disk encryptions (FDE)",
623 " 137XY | VeraCrypt | Full-Disk encryptions (FDE)",
624 " X | 1 = PBKDF2-HMAC-RipeMD160 | Full-Disk encryptions (FDE)",
625 " X | 2 = PBKDF2-HMAC-SHA512 | Full-Disk encryptions (FDE)",
626 " X | 3 = PBKDF2-HMAC-Whirlpool | Full-Disk encryptions (FDE)",
627 " X | 4 = PBKDF2-HMAC-RipeMD160 + boot-mode | Full-Disk encryptions (FDE)",
628 " X | 5 = PBKDF2-HMAC-SHA256 | Full-Disk encryptions (FDE)",
629 " X | 6 = PBKDF2-HMAC-SHA256 + boot-mode | Full-Disk encryptions (FDE)",
630 " Y | 1 = XTS 512 bit pure AES | Full-Disk encryptions (FDE)",
631 " Y | 1 = XTS 512 bit pure Serpent | Full-Disk encryptions (FDE)",
632 " Y | 1 = XTS 512 bit pure Twofish | Full-Disk encryptions (FDE)",
633 " Y | 2 = XTS 1024 bit pure AES | Full-Disk encryptions (FDE)",
634 " Y | 2 = XTS 1024 bit pure Serpent | Full-Disk encryptions (FDE)",
635 " Y | 2 = XTS 1024 bit pure Twofish | Full-Disk encryptions (FDE)",
636 " Y | 2 = XTS 1024 bit cascaded AES-Twofish | Full-Disk encryptions (FDE)",
637 " Y | 2 = XTS 1024 bit cascaded Serpent-AES | Full-Disk encryptions (FDE)",
638 " Y | 2 = XTS 1024 bit cascaded Twofish-Serpent | Full-Disk encryptions (FDE)",
639 " Y | 3 = XTS 1536 bit all | Full-Disk encryptions (FDE)",
640 " 9700 | MS Office <= 2003 $0|$1, MD5 + RC4 | Documents",
641 " 9710 | MS Office <= 2003 $0|$1, MD5 + RC4, collider #1 | Documents",
642 " 9720 | MS Office <= 2003 $0|$1, MD5 + RC4, collider #2 | Documents",
643 " 9800 | MS Office <= 2003 $3|$4, SHA1 + RC4 | Documents",
644 " 9810 | MS Office <= 2003 $3|$4, SHA1 + RC4, collider #1 | Documents",
645 " 9820 | MS Office <= 2003 $3|$4, SHA1 + RC4, collider #2 | Documents",
646 " 9400 | MS Office 2007 | Documents",
647 " 9500 | MS Office 2010 | Documents",
648 " 9600 | MS Office 2013 | Documents",
649 " 10400 | PDF 1.1 - 1.3 (Acrobat 2 - 4) | Documents",
650 " 10410 | PDF 1.1 - 1.3 (Acrobat 2 - 4), collider #1 | Documents",
651 " 10420 | PDF 1.1 - 1.3 (Acrobat 2 - 4), collider #2 | Documents",
652 " 10500 | PDF 1.4 - 1.6 (Acrobat 5 - 8) | Documents",
653 " 10600 | PDF 1.7 Level 3 (Acrobat 9) | Documents",
654 " 10700 | PDF 1.7 Level 8 (Acrobat 10 - 11) | Documents",
655 " 9000 | Password Safe v2 | Password Managers",
656 " 5200 | Password Safe v3 | Password Managers",
657 " 6800 | Lastpass + Lastpass sniffed | Password Managers",
658 " 6600 | 1Password, agilekeychain | Password Managers",
659 " 8200 | 1Password, cloudkeychain | Password Managers",
660 " 11300 | Bitcoin/Litecoin wallet.dat | Password Managers",
661 " 12700 | Blockchain, My Wallet | Password Managers",
662 " 13400 | Keepass 1 (AES/Twofish) and Keepass 2 (AES) | Password Managers",
664 "- [ Outfile Formats ] -",
670 " 3 | hash[:salt]:plain",
672 " 5 | hash[:salt]:hex_plain",
673 " 6 | plain:hex_plain",
674 " 7 | hash[:salt]:plain:hex_plain",
676 " 9 | hash[:salt]:crack_pos",
677 " 10 | plain:crack_pos",
678 " 11 | hash[:salt]:plain:crack_pos",
679 " 12 | hex_plain:crack_pos",
680 " 13 | hash[:salt]:hex_plain:crack_pos",
681 " 14 | plain:hex_plain:crack_pos",
682 " 15 | hash[:salt]:plain:hex_plain:crack_pos",
684 "- [ Rule Debugging Modes ] -",
689 " 2 | Original-Word",
690 " 3 | Original-Word:Finding-Rule",
691 " 4 | Original-Word:Finding-Rule:Processed-Word",
693 "- [ Attack Modes ] -",
700 " 6 | Hybrid Wordlist + Mask",
701 " 7 | Hybrid Mask + Wordlist",
703 "- [ Built-in Charsets ] -",
707 " l | abcdefghijklmnopqrstuvwxyz",
708 " u | ABCDEFGHIJKLMNOPQRSTUVWXYZ",
710 " s | !\"#$%%&'()*+,-./:;<=>?@[\\]^_`{|}~",
714 "- [ OpenCL Device Types ] -",
717 " ===+=============",
720 " 3 | FPGA, DSP, Co-Processor",
722 "- [ Workload Profiles ] -",
724 " # | Performance | Runtime | Power Consumption | Desktop Impact",
725 " ===+=============+=========+===================+=================",
726 " 1 | Low | 2 ms | Low | Minimal",
727 " 2 | Default | 12 ms | Economic | Noticeable",
728 " 3 | High | 96 ms | High | Unresponsive",
729 " 4 | Nightmare | 480 ms | Insane | Headless",
731 "If you have no idea what just happened then visit the following pages:",
733 "* https://hashcat.net/wiki/#howtos_videos_papers_articles_etc_in_the_wild",
734 "* https://hashcat.net/wiki/#frequently_asked_questions",
740 * hashcat specific functions
743 static double get_avg_exec_time (hc_device_param_t
*device_param
, const int last_num_entries
)
745 int exec_pos
= (int) device_param
->exec_pos
- last_num_entries
;
747 if (exec_pos
< 0) exec_pos
+= EXEC_CACHE
;
749 double exec_ms_sum
= 0;
753 for (int i
= 0; i
< last_num_entries
; i
++)
755 double exec_ms
= device_param
->exec_ms
[(exec_pos
+ i
) % EXEC_CACHE
];
759 exec_ms_sum
+= exec_ms
;
765 if (exec_ms_cnt
== 0) return 0;
767 return exec_ms_sum
/ exec_ms_cnt
;
770 void status_display_machine_readable ()
774 fprintf (out
, "STATUS\t%u\t", data
.devices_status
);
780 fprintf (out
, "SPEED\t");
782 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
784 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
786 if (device_param
->skipped
) continue;
791 for (int i
= 0; i
< SPEED_CACHE
; i
++)
793 speed_cnt
+= device_param
->speed_cnt
[i
];
794 speed_ms
+= device_param
->speed_ms
[i
];
797 speed_cnt
/= SPEED_CACHE
;
798 speed_ms
/= SPEED_CACHE
;
800 fprintf (out
, "%llu\t%f\t", (unsigned long long int) speed_cnt
, speed_ms
);
807 fprintf (out
, "EXEC_RUNTIME\t");
809 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
811 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
813 if (device_param
->skipped
) continue;
815 double exec_ms_avg
= get_avg_exec_time (device_param
, EXEC_CACHE
);
817 fprintf (out
, "%f\t", exec_ms_avg
);
824 u64 words_cur
= get_lowest_words_done ();
826 fprintf (out
, "CURKU\t%llu\t", (unsigned long long int) words_cur
);
832 u64 progress_total
= data
.words_cnt
* data
.salts_cnt
;
835 u64 all_rejected
= 0;
836 u64 all_restored
= 0;
838 for (uint salt_pos
= 0; salt_pos
< data
.salts_cnt
; salt_pos
++)
840 all_done
+= data
.words_progress_done
[salt_pos
];
841 all_rejected
+= data
.words_progress_rejected
[salt_pos
];
842 all_restored
+= data
.words_progress_restored
[salt_pos
];
845 u64 progress_cur
= all_restored
+ all_done
+ all_rejected
;
846 u64 progress_end
= progress_total
;
848 u64 progress_skip
= 0;
852 progress_skip
= MIN (data
.skip
, data
.words_base
) * data
.salts_cnt
;
854 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
) progress_skip
*= data
.kernel_rules_cnt
;
855 else if (data
.attack_kern
== ATTACK_KERN_COMBI
) progress_skip
*= data
.combs_cnt
;
856 else if (data
.attack_kern
== ATTACK_KERN_BF
) progress_skip
*= data
.bfs_cnt
;
861 progress_end
= MIN (data
.limit
, data
.words_base
) * data
.salts_cnt
;
863 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
) progress_end
*= data
.kernel_rules_cnt
;
864 else if (data
.attack_kern
== ATTACK_KERN_COMBI
) progress_end
*= data
.combs_cnt
;
865 else if (data
.attack_kern
== ATTACK_KERN_BF
) progress_end
*= data
.bfs_cnt
;
868 u64 progress_cur_relative_skip
= progress_cur
- progress_skip
;
869 u64 progress_end_relative_skip
= progress_end
- progress_skip
;
871 fprintf (out
, "PROGRESS\t%llu\t%llu\t", (unsigned long long int) progress_cur_relative_skip
, (unsigned long long int) progress_end_relative_skip
);
877 fprintf (out
, "RECHASH\t%u\t%u\t", data
.digests_done
, data
.digests_cnt
);
878 fprintf (out
, "RECSALT\t%u\t%u\t", data
.salts_done
, data
.salts_cnt
);
885 if (data
.gpu_temp_disable
== 0)
887 fprintf (out
, "TEMP\t");
889 hc_thread_mutex_lock (mux_adl
);
891 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
893 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
895 if (device_param
->skipped
) continue;
897 int temp
= hm_get_temperature_with_device_id (device_id
);
899 fprintf (out
, "%d\t", temp
);
902 hc_thread_mutex_unlock (mux_adl
);
922 void status_display ()
924 if (data
.devices_status
== STATUS_INIT
) return;
925 if (data
.devices_status
== STATUS_STARTING
) return;
926 if (data
.devices_status
== STATUS_BYPASS
) return;
928 if (data
.machine_readable
== 1)
930 status_display_machine_readable ();
935 char tmp_buf
[1000] = { 0 };
939 log_info ("Session.Name...: %s", data
.session
);
941 char *status_type
= strstatus (data
.devices_status
);
943 uint hash_mode
= data
.hash_mode
;
945 char *hash_type
= strhashtype (hash_mode
); // not a bug
947 log_info ("Status.........: %s", status_type
);
953 if (data
.rp_files_cnt
)
957 for (i
= 0, tmp_len
= 0; i
< data
.rp_files_cnt
- 1 && tmp_len
< sizeof (tmp_buf
); i
++)
959 tmp_len
+= snprintf (tmp_buf
+ tmp_len
, sizeof (tmp_buf
) - tmp_len
, "File (%s), ", data
.rp_files
[i
]);
962 snprintf (tmp_buf
+ tmp_len
, sizeof (tmp_buf
) - tmp_len
, "File (%s)", data
.rp_files
[i
]);
964 log_info ("Rules.Type.....: %s", tmp_buf
);
971 log_info ("Rules.Type.....: Generated (%u)", data
.rp_gen
);
973 if (data
.rp_gen_seed
)
975 log_info ("Rules.Seed.....: %u", data
.rp_gen_seed
);
983 if (data
.attack_mode
== ATTACK_MODE_STRAIGHT
)
985 if (data
.wordlist_mode
== WL_MODE_FILE
)
987 if (data
.dictfile
!= NULL
) log_info ("Input.Mode.....: File (%s)", data
.dictfile
);
989 else if (data
.wordlist_mode
== WL_MODE_STDIN
)
991 log_info ("Input.Mode.....: Pipe");
994 else if (data
.attack_mode
== ATTACK_MODE_COMBI
)
996 if (data
.dictfile
!= NULL
) log_info ("Input.Left.....: File (%s)", data
.dictfile
);
997 if (data
.dictfile2
!= NULL
) log_info ("Input.Right....: File (%s)", data
.dictfile2
);
999 else if (data
.attack_mode
== ATTACK_MODE_BF
)
1001 char *mask
= data
.mask
;
1005 uint mask_len
= data
.css_cnt
;
1007 tmp_len
+= snprintf (tmp_buf
+ tmp_len
, sizeof (tmp_buf
) - tmp_len
, "Mask (%s)", mask
);
1011 if (data
.opti_type
& OPTI_TYPE_SINGLE_HASH
)
1013 if (data
.opti_type
& OPTI_TYPE_APPENDED_SALT
)
1015 mask_len
-= data
.salts_buf
[0].salt_len
;
1019 if (data
.opts_type
& OPTS_TYPE_PT_UNICODE
) mask_len
/= 2;
1021 tmp_len
+= snprintf (tmp_buf
+ tmp_len
, sizeof (tmp_buf
) - tmp_len
, " [%i]", mask_len
);
1024 if (data
.maskcnt
> 1)
1026 float mask_percentage
= (float) data
.maskpos
/ (float) data
.maskcnt
;
1028 tmp_len
+= snprintf (tmp_buf
+ tmp_len
, sizeof (tmp_buf
) - tmp_len
, " (%.02f%%)", mask_percentage
* 100);
1031 log_info ("Input.Mode.....: %s", tmp_buf
);
1036 else if (data
.attack_mode
== ATTACK_MODE_HYBRID1
)
1038 if (data
.dictfile
!= NULL
) log_info ("Input.Left.....: File (%s)", data
.dictfile
);
1039 if (data
.mask
!= NULL
) log_info ("Input.Right....: Mask (%s) [%i]", data
.mask
, data
.css_cnt
);
1041 else if (data
.attack_mode
== ATTACK_MODE_HYBRID2
)
1043 if (data
.mask
!= NULL
) log_info ("Input.Left.....: Mask (%s) [%i]", data
.mask
, data
.css_cnt
);
1044 if (data
.dictfile
!= NULL
) log_info ("Input.Right....: File (%s)", data
.dictfile
);
1047 if (data
.digests_cnt
== 1)
1049 if (data
.hash_mode
== 2500)
1051 wpa_t
*wpa
= (wpa_t
*) data
.esalts_buf
;
1053 log_info ("Hash.Target....: %s (%02x:%02x:%02x:%02x:%02x:%02x <-> %02x:%02x:%02x:%02x:%02x:%02x)",
1054 (char *) data
.salts_buf
[0].salt_buf
,
1068 else if (data
.hash_mode
== 5200)
1070 log_info ("Hash.Target....: File (%s)", data
.hashfile
);
1072 else if (data
.hash_mode
== 9000)
1074 log_info ("Hash.Target....: File (%s)", data
.hashfile
);
1076 else if ((data
.hash_mode
>= 6200) && (data
.hash_mode
<= 6299))
1078 log_info ("Hash.Target....: File (%s)", data
.hashfile
);
1080 else if ((data
.hash_mode
>= 13700) && (data
.hash_mode
<= 13799))
1082 log_info ("Hash.Target....: File (%s)", data
.hashfile
);
1086 char out_buf
[HCBUFSIZ
] = { 0 };
1088 ascii_digest (out_buf
, 0, 0);
1091 if (strlen (out_buf
) > 40)
1099 log_info ("Hash.Target....: %s", out_buf
);
1104 if (data
.hash_mode
== 3000)
1106 char out_buf1
[32] = { 0 };
1107 char out_buf2
[32] = { 0 };
1109 ascii_digest (out_buf1
, 0, 0);
1110 ascii_digest (out_buf2
, 0, 1);
1112 log_info ("Hash.Target....: %s, %s", out_buf1
, out_buf2
);
1116 log_info ("Hash.Target....: File (%s)", data
.hashfile
);
1120 log_info ("Hash.Type......: %s", hash_type
);
1126 u64 speed_cnt
[DEVICES_MAX
] = { 0 };
1127 double speed_ms
[DEVICES_MAX
] = { 0 };
1129 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1131 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1133 if (device_param
->skipped
) continue;
1135 speed_cnt
[device_id
] = 0;
1136 speed_ms
[device_id
] = 0;
1138 for (int i
= 0; i
< SPEED_CACHE
; i
++)
1140 speed_cnt
[device_id
] += device_param
->speed_cnt
[i
];
1141 speed_ms
[device_id
] += device_param
->speed_ms
[i
];
1144 speed_cnt
[device_id
] /= SPEED_CACHE
;
1145 speed_ms
[device_id
] /= SPEED_CACHE
;
1148 double hashes_all_ms
= 0;
1150 double hashes_dev_ms
[DEVICES_MAX
] = { 0 };
1152 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1154 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1156 if (device_param
->skipped
) continue;
1158 hashes_dev_ms
[device_id
] = 0;
1160 if (speed_ms
[device_id
])
1162 hashes_dev_ms
[device_id
] = (double) speed_cnt
[device_id
] / speed_ms
[device_id
];
1164 hashes_all_ms
+= hashes_dev_ms
[device_id
];
1172 double exec_all_ms
[DEVICES_MAX
] = { 0 };
1174 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1176 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1178 if (device_param
->skipped
) continue;
1180 double exec_ms_avg
= get_avg_exec_time (device_param
, EXEC_CACHE
);
1182 exec_all_ms
[device_id
] = exec_ms_avg
;
1189 double ms_running
= 0;
1191 hc_timer_get (data
.timer_running
, ms_running
);
1193 double ms_paused
= data
.ms_paused
;
1195 if (data
.devices_status
== STATUS_PAUSED
)
1197 double ms_paused_tmp
= 0;
1199 hc_timer_get (data
.timer_paused
, ms_paused_tmp
);
1201 ms_paused
+= ms_paused_tmp
;
1206 __time64_t sec_run
= ms_running
/ 1000;
1210 time_t sec_run
= ms_running
/ 1000;
1216 char display_run
[32] = { 0 };
1220 struct tm
*tmp
= NULL
;
1224 tmp
= _gmtime64 (&sec_run
);
1228 tmp
= gmtime (&sec_run
);
1234 memset (&tm_run
, 0, sizeof (tm_run
));
1236 memcpy (&tm_run
, tmp
, sizeof (tm_run
));
1238 format_timer_display (&tm_run
, display_run
, sizeof (tm_run
));
1240 char *start
= ctime (&data
.proc_start
);
1242 size_t start_len
= strlen (start
);
1244 if (start
[start_len
- 1] == '\n') start
[start_len
- 1] = 0;
1245 if (start
[start_len
- 2] == '\r') start
[start_len
- 2] = 0;
1247 log_info ("Time.Started...: %s (%s)", start
, display_run
);
1252 log_info ("Time.Started...: 0 secs");
1259 u64 progress_total
= data
.words_cnt
* data
.salts_cnt
;
1262 u64 all_rejected
= 0;
1263 u64 all_restored
= 0;
1265 u64 progress_noneed
= 0;
1267 for (uint salt_pos
= 0; salt_pos
< data
.salts_cnt
; salt_pos
++)
1269 all_done
+= data
.words_progress_done
[salt_pos
];
1270 all_rejected
+= data
.words_progress_rejected
[salt_pos
];
1271 all_restored
+= data
.words_progress_restored
[salt_pos
];
1273 // Important for ETA only
1275 if (data
.salts_shown
[salt_pos
] == 1)
1277 const u64 all
= data
.words_progress_done
[salt_pos
]
1278 + data
.words_progress_rejected
[salt_pos
]
1279 + data
.words_progress_restored
[salt_pos
];
1281 const u64 left
= data
.words_cnt
- all
;
1283 progress_noneed
+= left
;
1287 u64 progress_cur
= all_restored
+ all_done
+ all_rejected
;
1288 u64 progress_end
= progress_total
;
1290 u64 progress_skip
= 0;
1294 progress_skip
= MIN (data
.skip
, data
.words_base
) * data
.salts_cnt
;
1296 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
) progress_skip
*= data
.kernel_rules_cnt
;
1297 else if (data
.attack_kern
== ATTACK_KERN_COMBI
) progress_skip
*= data
.combs_cnt
;
1298 else if (data
.attack_kern
== ATTACK_KERN_BF
) progress_skip
*= data
.bfs_cnt
;
1303 progress_end
= MIN (data
.limit
, data
.words_base
) * data
.salts_cnt
;
1305 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
) progress_end
*= data
.kernel_rules_cnt
;
1306 else if (data
.attack_kern
== ATTACK_KERN_COMBI
) progress_end
*= data
.combs_cnt
;
1307 else if (data
.attack_kern
== ATTACK_KERN_BF
) progress_end
*= data
.bfs_cnt
;
1310 u64 progress_cur_relative_skip
= progress_cur
- progress_skip
;
1311 u64 progress_end_relative_skip
= progress_end
- progress_skip
;
1313 if ((data
.wordlist_mode
== WL_MODE_FILE
) || (data
.wordlist_mode
== WL_MODE_MASK
))
1315 if (data
.devices_status
!= STATUS_CRACKED
)
1318 __time64_t sec_etc
= 0;
1325 u64 progress_left_relative_skip
= progress_end_relative_skip
- progress_cur_relative_skip
;
1327 u64 ms_left
= (progress_left_relative_skip
- progress_noneed
) / hashes_all_ms
;
1329 sec_etc
= ms_left
/ 1000;
1334 //log_info ("Time.Estimated.: 0 secs");
1336 else if ((u64
) sec_etc
> ETC_MAX
)
1338 log_info ("Time.Estimated.: > 10 Years");
1342 char display_etc
[32] = { 0 };
1346 struct tm
*tmp
= NULL
;
1350 tmp
= _gmtime64 (&sec_etc
);
1354 tmp
= gmtime (&sec_etc
);
1360 memset (&tm_etc
, 0, sizeof (tm_etc
));
1362 memcpy (&tm_etc
, tmp
, sizeof (tm_etc
));
1364 format_timer_display (&tm_etc
, display_etc
, sizeof (display_etc
));
1372 char *etc
= ctime (&now
);
1374 size_t etc_len
= strlen (etc
);
1376 if (etc
[etc_len
- 1] == '\n') etc
[etc_len
- 1] = 0;
1377 if (etc
[etc_len
- 2] == '\r') etc
[etc_len
- 2] = 0;
1379 log_info ("Time.Estimated.: %s (%s)", etc
, display_etc
);
1385 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1387 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1389 if (device_param
->skipped
) continue;
1391 char display_dev_cur
[16] = { 0 };
1393 strncpy (display_dev_cur
, "0.00", 4);
1395 format_speed_display (hashes_dev_ms
[device_id
] * 1000, display_dev_cur
, sizeof (display_dev_cur
));
1397 log_info ("Speed.Dev.#%d...: %9sH/s (%0.2fms)", device_id
+ 1, display_dev_cur
, exec_all_ms
[device_id
]);
1400 char display_all_cur
[16] = { 0 };
1402 strncpy (display_all_cur
, "0.00", 4);
1404 format_speed_display (hashes_all_ms
* 1000, display_all_cur
, sizeof (display_all_cur
));
1406 if (data
.devices_active
> 1) log_info ("Speed.Dev.#*...: %9sH/s", display_all_cur
);
1408 const float digests_percent
= (float) data
.digests_done
/ data
.digests_cnt
;
1409 const float salts_percent
= (float) data
.salts_done
/ data
.salts_cnt
;
1411 log_info ("Recovered......: %u/%u (%.2f%%) Digests, %u/%u (%.2f%%) Salts", data
.digests_done
, data
.digests_cnt
, digests_percent
* 100, data
.salts_done
, data
.salts_cnt
, salts_percent
* 100);
1415 if (data
.digests_cnt
> 100)
1417 time_t now
= time (NULL
);
1419 int cpt_cur_min
= 0;
1420 int cpt_cur_hour
= 0;
1421 int cpt_cur_day
= 0;
1423 for (int i
= 0; i
< CPT_BUF
; i
++)
1425 const uint cracked
= data
.cpt_buf
[i
].cracked
;
1426 const time_t timestamp
= data
.cpt_buf
[i
].timestamp
;
1428 if ((timestamp
+ 60) > now
)
1430 cpt_cur_min
+= cracked
;
1433 if ((timestamp
+ 3600) > now
)
1435 cpt_cur_hour
+= cracked
;
1438 if ((timestamp
+ 86400) > now
)
1440 cpt_cur_day
+= cracked
;
1444 double ms_real
= ms_running
- ms_paused
;
1446 float cpt_avg_min
= (float) data
.cpt_total
/ ((ms_real
/ 1000) / 60);
1447 float cpt_avg_hour
= (float) data
.cpt_total
/ ((ms_real
/ 1000) / 3600);
1448 float cpt_avg_day
= (float) data
.cpt_total
/ ((ms_real
/ 1000) / 86400);
1450 if ((data
.cpt_start
+ 86400) < now
)
1452 log_info ("Recovered/Time.: CUR:%llu,%llu,%llu AVG:%0.2f,%0.2f,%0.2f (Min,Hour,Day)",
1460 else if ((data
.cpt_start
+ 3600) < now
)
1462 log_info ("Recovered/Time.: CUR:%llu,%llu,N/A AVG:%0.2f,%0.2f,%0.2f (Min,Hour,Day)",
1469 else if ((data
.cpt_start
+ 60) < now
)
1471 log_info ("Recovered/Time.: CUR:%llu,N/A,N/A AVG:%0.2f,%0.2f,%0.2f (Min,Hour,Day)",
1479 log_info ("Recovered/Time.: CUR:N/A,N/A,N/A AVG:%0.2f,%0.2f,%0.2f (Min,Hour,Day)",
1488 u64 restore_point
= get_lowest_words_done ();
1490 u64 restore_total
= data
.words_base
;
1492 float percent_restore
= 0;
1494 if (restore_total
!= 0) percent_restore
= (float) restore_point
/ (float) restore_total
;
1496 if (progress_end_relative_skip
)
1498 if ((data
.wordlist_mode
== WL_MODE_FILE
) || (data
.wordlist_mode
== WL_MODE_MASK
))
1500 float percent_finished
= (float) progress_cur_relative_skip
/ (float) progress_end_relative_skip
;
1501 float percent_rejected
= 0.0;
1505 percent_rejected
= (float) (all_rejected
) / (float) progress_cur
;
1508 log_info ("Progress.......: %llu/%llu (%.02f%%)", (unsigned long long int) progress_cur_relative_skip
, (unsigned long long int) progress_end_relative_skip
, percent_finished
* 100);
1509 log_info ("Rejected.......: %llu/%llu (%.02f%%)", (unsigned long long int) all_rejected
, (unsigned long long int) progress_cur_relative_skip
, percent_rejected
* 100);
1511 if (data
.restore_disable
== 0)
1513 if (percent_finished
!= 1)
1515 log_info ("Restore.Point..: %llu/%llu (%.02f%%)", (unsigned long long int) restore_point
, (unsigned long long int) restore_total
, percent_restore
* 100);
1522 if ((data
.wordlist_mode
== WL_MODE_FILE
) || (data
.wordlist_mode
== WL_MODE_MASK
))
1524 log_info ("Progress.......: %llu/%llu (%.02f%%)", (u64
) 0, (u64
) 0, (float) 100);
1525 log_info ("Rejected.......: %llu/%llu (%.02f%%)", (u64
) 0, (u64
) 0, (float) 100);
1527 if (data
.restore_disable
== 0)
1529 log_info ("Restore.Point..: %llu/%llu (%.02f%%)", (u64
) 0, (u64
) 0, (float) 100);
1534 log_info ("Progress.......: %llu", (unsigned long long int) progress_cur_relative_skip
);
1535 log_info ("Rejected.......: %llu", (unsigned long long int) all_rejected
);
1537 // --restore not allowed if stdin is used -- really? why?
1539 //if (data.restore_disable == 0)
1541 // log_info ("Restore.Point..: %llu", (unsigned long long int) restore_point);
1548 if (data
.devices_status
== STATUS_EXHAUSTED
) return;
1549 if (data
.devices_status
== STATUS_CRACKED
) return;
1550 if (data
.devices_status
== STATUS_ABORTED
) return;
1551 if (data
.devices_status
== STATUS_QUIT
) return;
1553 if (data
.gpu_temp_disable
== 0)
1555 hc_thread_mutex_lock (mux_adl
);
1557 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1559 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1561 if (device_param
->skipped
) continue;
1563 const int num_temperature
= hm_get_temperature_with_device_id (device_id
);
1564 const int num_fanspeed
= hm_get_fanspeed_with_device_id (device_id
);
1565 const int num_utilization
= hm_get_utilization_with_device_id (device_id
);
1566 const int num_corespeed
= hm_get_corespeed_with_device_id (device_id
);
1567 const int num_memoryspeed
= hm_get_memoryspeed_with_device_id (device_id
);
1568 const int num_buslanes
= hm_get_buslanes_with_device_id (device_id
);
1569 const int num_throttle
= hm_get_throttle_with_device_id (device_id
);
1571 char output_buf
[256] = { 0 };
1575 if (num_temperature
>= 0)
1577 snprintf (output_buf
+ output_len
, sizeof (output_buf
) - output_len
, " Temp:%3uc", num_temperature
);
1579 output_len
= strlen (output_buf
);
1582 if (num_fanspeed
>= 0)
1584 snprintf (output_buf
+ output_len
, sizeof (output_buf
) - output_len
, " Fan:%3u%%", num_fanspeed
);
1586 output_len
= strlen (output_buf
);
1589 if (num_utilization
>= 0)
1591 snprintf (output_buf
+ output_len
, sizeof (output_buf
) - output_len
, " Util:%3u%%", num_utilization
);
1593 output_len
= strlen (output_buf
);
1596 if (num_corespeed
>= 0)
1598 snprintf (output_buf
+ output_len
, sizeof (output_buf
) - output_len
, " Core:%4uMhz", num_corespeed
);
1600 output_len
= strlen (output_buf
);
1603 if (num_memoryspeed
>= 0)
1605 snprintf (output_buf
+ output_len
, sizeof (output_buf
) - output_len
, " Mem:%4uMhz", num_memoryspeed
);
1607 output_len
= strlen (output_buf
);
1610 if (num_buslanes
>= 0)
1612 snprintf (output_buf
+ output_len
, sizeof (output_buf
) - output_len
, " Lanes:%u", num_buslanes
);
1614 output_len
= strlen (output_buf
);
1617 if (num_throttle
== 1)
1619 snprintf (output_buf
+ output_len
, sizeof (output_buf
) - output_len
, " *Throttled*");
1621 output_len
= strlen (output_buf
);
1624 if (output_len
== 0)
1626 snprintf (output_buf
+ output_len
, sizeof (output_buf
) - output_len
, " N/A");
1628 output_len
= strlen (output_buf
);
1631 log_info ("HWMon.Dev.#%d...:%s", device_id
+ 1, output_buf
);
1634 hc_thread_mutex_unlock (mux_adl
);
1637 #endif // HAVE_HWMON
1640 static void status_benchmark_automate ()
1642 u64 speed_cnt
[DEVICES_MAX
] = { 0 };
1643 double speed_ms
[DEVICES_MAX
] = { 0 };
1645 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1647 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1649 if (device_param
->skipped
) continue;
1651 speed_cnt
[device_id
] = device_param
->speed_cnt
[0];
1652 speed_ms
[device_id
] = device_param
->speed_ms
[0];
1655 double hashes_dev_ms
[DEVICES_MAX
] = { 0 };
1657 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1659 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1661 if (device_param
->skipped
) continue;
1663 hashes_dev_ms
[device_id
] = 0;
1665 if (speed_ms
[device_id
])
1667 hashes_dev_ms
[device_id
] = (double) speed_cnt
[device_id
] / speed_ms
[device_id
];
1671 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1673 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1675 if (device_param
->skipped
) continue;
1677 log_info ("%u:%u:%llu", device_id
+ 1, data
.hash_mode
, (unsigned long long int) (hashes_dev_ms
[device_id
] * 1000));
1681 static void status_benchmark ()
1683 if (data
.devices_status
== STATUS_INIT
) return;
1684 if (data
.devices_status
== STATUS_STARTING
) return;
1685 if (data
.devices_status
== STATUS_BYPASS
) return;
1687 if (data
.machine_readable
== 1)
1689 status_benchmark_automate ();
1694 u64 speed_cnt
[DEVICES_MAX
] = { 0 };
1695 double speed_ms
[DEVICES_MAX
] = { 0 };
1697 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1699 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1701 if (device_param
->skipped
) continue;
1703 speed_cnt
[device_id
] = device_param
->speed_cnt
[0];
1704 speed_ms
[device_id
] = device_param
->speed_ms
[0];
1707 double hashes_all_ms
= 0;
1709 double hashes_dev_ms
[DEVICES_MAX
] = { 0 };
1711 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1713 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1715 if (device_param
->skipped
) continue;
1717 hashes_dev_ms
[device_id
] = 0;
1719 if (speed_ms
[device_id
])
1721 hashes_dev_ms
[device_id
] = (double) speed_cnt
[device_id
] / speed_ms
[device_id
];
1723 hashes_all_ms
+= hashes_dev_ms
[device_id
];
1731 double exec_all_ms
[DEVICES_MAX
] = { 0 };
1733 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1735 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1737 if (device_param
->skipped
) continue;
1739 double exec_ms_avg
= get_avg_exec_time (device_param
, EXEC_CACHE
);
1741 exec_all_ms
[device_id
] = exec_ms_avg
;
1744 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
1746 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
1748 if (device_param
->skipped
) continue;
1750 char display_dev_cur
[16] = { 0 };
1752 strncpy (display_dev_cur
, "0.00", 4);
1754 format_speed_display (hashes_dev_ms
[device_id
] * 1000, display_dev_cur
, sizeof (display_dev_cur
));
1756 log_info ("Speed.Dev.#%d.: %9sH/s (%0.2fms)", device_id
+ 1, display_dev_cur
, exec_all_ms
[device_id
]);
1759 char display_all_cur
[16] = { 0 };
1761 strncpy (display_all_cur
, "0.00", 4);
1763 format_speed_display (hashes_all_ms
* 1000, display_all_cur
, sizeof (display_all_cur
));
1765 if (data
.devices_active
> 1) log_info ("Speed.Dev.#*.: %9sH/s", display_all_cur
);
1769 * hashcat -only- functions
1772 static void generate_source_kernel_filename (const uint attack_exec
, const uint attack_kern
, const uint kern_type
, char *shared_dir
, char *source_file
)
1774 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
1776 if (attack_kern
== ATTACK_KERN_STRAIGHT
)
1777 snprintf (source_file
, 255, "%s/OpenCL/m%05d_a0.cl", shared_dir
, (int) kern_type
);
1778 else if (attack_kern
== ATTACK_KERN_COMBI
)
1779 snprintf (source_file
, 255, "%s/OpenCL/m%05d_a1.cl", shared_dir
, (int) kern_type
);
1780 else if (attack_kern
== ATTACK_KERN_BF
)
1781 snprintf (source_file
, 255, "%s/OpenCL/m%05d_a3.cl", shared_dir
, (int) kern_type
);
1784 snprintf (source_file
, 255, "%s/OpenCL/m%05d.cl", shared_dir
, (int) kern_type
);
1787 static void generate_cached_kernel_filename (const uint attack_exec
, const uint attack_kern
, const uint kern_type
, char *profile_dir
, const char *device_name_chksum
, char *cached_file
)
1789 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
1791 if (attack_kern
== ATTACK_KERN_STRAIGHT
)
1792 snprintf (cached_file
, 255, "%s/kernels/m%05d_a0.%s.kernel", profile_dir
, (int) kern_type
, device_name_chksum
);
1793 else if (attack_kern
== ATTACK_KERN_COMBI
)
1794 snprintf (cached_file
, 255, "%s/kernels/m%05d_a1.%s.kernel", profile_dir
, (int) kern_type
, device_name_chksum
);
1795 else if (attack_kern
== ATTACK_KERN_BF
)
1796 snprintf (cached_file
, 255, "%s/kernels/m%05d_a3.%s.kernel", profile_dir
, (int) kern_type
, device_name_chksum
);
1800 snprintf (cached_file
, 255, "%s/kernels/m%05d.%s.kernel", profile_dir
, (int) kern_type
, device_name_chksum
);
1804 static void generate_source_kernel_mp_filename (const uint opti_type
, const uint opts_type
, char *shared_dir
, char *source_file
)
1806 if ((opti_type
& OPTI_TYPE_BRUTE_FORCE
) && (opts_type
& OPTS_TYPE_PT_GENERATE_BE
))
1808 snprintf (source_file
, 255, "%s/OpenCL/markov_be.cl", shared_dir
);
1812 snprintf (source_file
, 255, "%s/OpenCL/markov_le.cl", shared_dir
);
1816 static void generate_cached_kernel_mp_filename (const uint opti_type
, const uint opts_type
, char *profile_dir
, const char *device_name_chksum
, char *cached_file
)
1818 if ((opti_type
& OPTI_TYPE_BRUTE_FORCE
) && (opts_type
& OPTS_TYPE_PT_GENERATE_BE
))
1820 snprintf (cached_file
, 255, "%s/kernels/markov_be.%s.kernel", profile_dir
, device_name_chksum
);
1824 snprintf (cached_file
, 255, "%s/kernels/markov_le.%s.kernel", profile_dir
, device_name_chksum
);
1828 static void generate_source_kernel_amp_filename (const uint attack_kern
, char *shared_dir
, char *source_file
)
1830 snprintf (source_file
, 255, "%s/OpenCL/amp_a%d.cl", shared_dir
, attack_kern
);
1833 static void generate_cached_kernel_amp_filename (const uint attack_kern
, char *profile_dir
, const char *device_name_chksum
, char *cached_file
)
1835 snprintf (cached_file
, 255, "%s/kernels/amp_a%d.%s.kernel", profile_dir
, attack_kern
, device_name_chksum
);
1838 static uint
convert_from_hex (char *line_buf
, const uint line_len
)
1840 if (line_len
& 1) return (line_len
); // not in hex
1842 if (data
.hex_wordlist
== 1)
1847 for (i
= 0, j
= 0; j
< line_len
; i
+= 1, j
+= 2)
1849 line_buf
[i
] = hex_to_u8 ((const u8
*) &line_buf
[j
]);
1852 memset (line_buf
+ i
, 0, line_len
- i
);
1856 else if (line_len
>= 6) // $HEX[] = 6
1858 if (line_buf
[0] != '$') return (line_len
);
1859 if (line_buf
[1] != 'H') return (line_len
);
1860 if (line_buf
[2] != 'E') return (line_len
);
1861 if (line_buf
[3] != 'X') return (line_len
);
1862 if (line_buf
[4] != '[') return (line_len
);
1863 if (line_buf
[line_len
- 1] != ']') return (line_len
);
1868 for (i
= 0, j
= 5; j
< line_len
- 1; i
+= 1, j
+= 2)
1870 line_buf
[i
] = hex_to_u8 ((const u8
*) &line_buf
[j
]);
1873 memset (line_buf
+ i
, 0, line_len
- i
);
1881 static void clear_prompt ()
1883 fputc ('\r', stdout
);
1885 for (size_t i
= 0; i
< strlen (PROMPT
); i
++)
1887 fputc (' ', stdout
);
1890 fputc ('\r', stdout
);
1895 static void gidd_to_pw_t (hc_device_param_t
*device_param
, const u64 gidd
, pw_t
*pw
)
1897 hc_clEnqueueReadBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_pws_buf
, CL_TRUE
, gidd
* sizeof (pw_t
), sizeof (pw_t
), pw
, 0, NULL
, NULL
);
1900 static void check_hash (hc_device_param_t
*device_param
, plain_t
*plain
)
1902 char *outfile
= data
.outfile
;
1903 uint quiet
= data
.quiet
;
1904 FILE *pot_fp
= data
.pot_fp
;
1905 uint loopback
= data
.loopback
;
1906 uint debug_mode
= data
.debug_mode
;
1907 char *debug_file
= data
.debug_file
;
1909 char debug_rule_buf
[BLOCK_SIZE
] = { 0 };
1910 int debug_rule_len
= 0; // -1 error
1911 uint debug_plain_len
= 0;
1913 u8 debug_plain_ptr
[BLOCK_SIZE
] = { 0 };
1917 char out_buf
[HCBUFSIZ
] = { 0 };
1919 const u32 salt_pos
= plain
->salt_pos
;
1920 const u32 digest_pos
= plain
->digest_pos
; // relative
1921 const u32 gidvid
= plain
->gidvid
;
1922 const u32 il_pos
= plain
->il_pos
;
1924 ascii_digest (out_buf
, salt_pos
, digest_pos
);
1928 u64 crackpos
= device_param
->words_off
;
1930 uint plain_buf
[16] = { 0 };
1932 u8
*plain_ptr
= (u8
*) plain_buf
;
1934 unsigned int plain_len
= 0;
1936 if (data
.attack_mode
== ATTACK_MODE_STRAIGHT
)
1940 gidd_to_pw_t (device_param
, gidvid
, &pw
);
1942 for (int i
= 0; i
< 16; i
++)
1944 plain_buf
[i
] = pw
.i
[i
];
1947 plain_len
= pw
.pw_len
;
1949 const uint off
= device_param
->innerloop_pos
+ il_pos
;
1956 if ((debug_mode
== 1) || (debug_mode
== 3) || (debug_mode
== 4))
1958 memset (debug_rule_buf
, 0, sizeof (debug_rule_buf
));
1960 debug_rule_len
= kernel_rule_to_cpu_rule (debug_rule_buf
, &data
.kernel_rules_buf
[off
]);
1964 if ((debug_mode
== 2) || (debug_mode
== 3) || (debug_mode
== 4))
1966 memset (debug_plain_ptr
, 0, sizeof (debug_plain_ptr
));
1968 memcpy (debug_plain_ptr
, plain_ptr
, plain_len
);
1970 debug_plain_len
= plain_len
;
1974 plain_len
= apply_rules (data
.kernel_rules_buf
[off
].cmds
, &plain_buf
[0], &plain_buf
[4], plain_len
);
1977 crackpos
*= data
.kernel_rules_cnt
;
1978 crackpos
+= device_param
->innerloop_pos
+ il_pos
;
1980 if (plain_len
> data
.pw_max
) plain_len
= data
.pw_max
;
1982 else if (data
.attack_mode
== ATTACK_MODE_COMBI
)
1986 gidd_to_pw_t (device_param
, gidvid
, &pw
);
1988 for (int i
= 0; i
< 16; i
++)
1990 plain_buf
[i
] = pw
.i
[i
];
1993 plain_len
= pw
.pw_len
;
1995 char *comb_buf
= (char *) device_param
->combs_buf
[il_pos
].i
;
1996 uint comb_len
= device_param
->combs_buf
[il_pos
].pw_len
;
1998 if (data
.combs_mode
== COMBINATOR_MODE_BASE_LEFT
)
2000 memcpy (plain_ptr
+ plain_len
, comb_buf
, comb_len
);
2004 memmove (plain_ptr
+ comb_len
, plain_ptr
, plain_len
);
2006 memcpy (plain_ptr
, comb_buf
, comb_len
);
2009 plain_len
+= comb_len
;
2012 crackpos
*= data
.combs_cnt
;
2013 crackpos
+= device_param
->innerloop_pos
+ il_pos
;
2015 if (data
.pw_max
!= PW_DICTMAX1
)
2017 if (plain_len
> data
.pw_max
) plain_len
= data
.pw_max
;
2020 else if (data
.attack_mode
== ATTACK_MODE_BF
)
2022 u64 l_off
= device_param
->kernel_params_mp_l_buf64
[3] + gidvid
;
2023 u64 r_off
= device_param
->kernel_params_mp_r_buf64
[3] + il_pos
;
2025 uint l_start
= device_param
->kernel_params_mp_l_buf32
[5];
2026 uint r_start
= device_param
->kernel_params_mp_r_buf32
[5];
2028 uint l_stop
= device_param
->kernel_params_mp_l_buf32
[4];
2029 uint r_stop
= device_param
->kernel_params_mp_r_buf32
[4];
2031 sp_exec (l_off
, (char *) plain_ptr
+ l_start
, data
.root_css_buf
, data
.markov_css_buf
, l_start
, l_start
+ l_stop
);
2032 sp_exec (r_off
, (char *) plain_ptr
+ r_start
, data
.root_css_buf
, data
.markov_css_buf
, r_start
, r_start
+ r_stop
);
2034 plain_len
= data
.css_cnt
;
2037 crackpos
*= data
.bfs_cnt
;
2038 crackpos
+= device_param
->innerloop_pos
+ il_pos
;
2040 else if (data
.attack_mode
== ATTACK_MODE_HYBRID1
)
2044 gidd_to_pw_t (device_param
, gidvid
, &pw
);
2046 for (int i
= 0; i
< 16; i
++)
2048 plain_buf
[i
] = pw
.i
[i
];
2051 plain_len
= pw
.pw_len
;
2053 u64 off
= device_param
->kernel_params_mp_buf64
[3] + il_pos
;
2056 uint stop
= device_param
->kernel_params_mp_buf32
[4];
2058 sp_exec (off
, (char *) plain_ptr
+ plain_len
, data
.root_css_buf
, data
.markov_css_buf
, start
, start
+ stop
);
2060 plain_len
+= start
+ stop
;
2063 crackpos
*= data
.combs_cnt
;
2064 crackpos
+= device_param
->innerloop_pos
+ il_pos
;
2066 if (data
.pw_max
!= PW_DICTMAX1
)
2068 if (plain_len
> data
.pw_max
) plain_len
= data
.pw_max
;
2071 else if (data
.attack_mode
== ATTACK_MODE_HYBRID2
)
2075 gidd_to_pw_t (device_param
, gidvid
, &pw
);
2077 for (int i
= 0; i
< 16; i
++)
2079 plain_buf
[i
] = pw
.i
[i
];
2082 plain_len
= pw
.pw_len
;
2084 u64 off
= device_param
->kernel_params_mp_buf64
[3] + il_pos
;
2087 uint stop
= device_param
->kernel_params_mp_buf32
[4];
2089 memmove (plain_ptr
+ stop
, plain_ptr
, plain_len
);
2091 sp_exec (off
, (char *) plain_ptr
, data
.root_css_buf
, data
.markov_css_buf
, start
, start
+ stop
);
2093 plain_len
+= start
+ stop
;
2096 crackpos
*= data
.combs_cnt
;
2097 crackpos
+= device_param
->innerloop_pos
+ il_pos
;
2099 if (data
.pw_max
!= PW_DICTMAX1
)
2101 if (plain_len
> data
.pw_max
) plain_len
= data
.pw_max
;
2105 if (data
.attack_mode
== ATTACK_MODE_BF
)
2107 if (data
.opti_type
& OPTI_TYPE_BRUTE_FORCE
) // lots of optimizations can happen here
2109 if (data
.opti_type
& OPTI_TYPE_SINGLE_HASH
)
2111 if (data
.opti_type
& OPTI_TYPE_APPENDED_SALT
)
2113 plain_len
= plain_len
- data
.salts_buf
[0].salt_len
;
2117 if (data
.opts_type
& OPTS_TYPE_PT_UNICODE
)
2119 for (uint i
= 0, j
= 0; i
< plain_len
; i
+= 2, j
+= 1)
2121 plain_ptr
[j
] = plain_ptr
[i
];
2124 plain_len
= plain_len
/ 2;
2129 // if enabled, update also the potfile
2135 fprintf (pot_fp
, "%s:", out_buf
);
2137 format_plain (pot_fp
, plain_ptr
, plain_len
, 1);
2139 fputc ('\n', pot_fp
);
2143 unlock_file (pot_fp
);
2148 FILE *out_fp
= NULL
;
2150 if (outfile
!= NULL
)
2152 if ((out_fp
= fopen (outfile
, "ab")) == NULL
)
2154 log_error ("ERROR: %s: %s", outfile
, strerror (errno
));
2165 if (quiet
== 0) clear_prompt ();
2168 format_output (out_fp
, out_buf
, plain_ptr
, plain_len
, crackpos
, NULL
, 0);
2170 if (outfile
!= NULL
)
2172 if (out_fp
!= stdout
)
2179 if ((data
.wordlist_mode
== WL_MODE_FILE
) || (data
.wordlist_mode
== WL_MODE_MASK
))
2181 if ((data
.devices_status
!= STATUS_CRACKED
) && (data
.status
!= 1))
2183 if (quiet
== 0) fprintf (stdout
, "%s", PROMPT
);
2184 if (quiet
== 0) fflush (stdout
);
2193 char *loopback_file
= data
.loopback_file
;
2197 if ((fb_fp
= fopen (loopback_file
, "ab")) != NULL
)
2201 format_plain (fb_fp
, plain_ptr
, plain_len
, 1);
2203 fputc ('\n', fb_fp
);
2209 // (rule) debug mode
2211 // the next check implies that:
2212 // - (data.attack_mode == ATTACK_MODE_STRAIGHT)
2215 if ((debug_plain_len
> 0) || (debug_rule_len
> 0))
2217 if (debug_rule_len
< 0) debug_rule_len
= 0;
2219 if ((quiet
== 0) && (debug_file
== NULL
)) clear_prompt ();
2221 format_debug (debug_file
, debug_mode
, debug_plain_ptr
, debug_plain_len
, plain_ptr
, plain_len
, debug_rule_buf
, debug_rule_len
);
2223 if ((quiet
== 0) && (debug_file
== NULL
))
2225 fprintf (stdout
, "%s", PROMPT
);
2232 static void check_cracked (hc_device_param_t
*device_param
, const uint salt_pos
)
2234 salt_t
*salt_buf
= &data
.salts_buf
[salt_pos
];
2238 hc_clEnqueueReadBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_result
, CL_TRUE
, 0, sizeof (u32
), &num_cracked
, 0, NULL
, NULL
);
2242 // display hack (for weak hashes etc, it could be that there is still something to clear on the current line)
2246 plain_t
*cracked
= (plain_t
*) mycalloc (num_cracked
, sizeof (plain_t
));
2248 hc_clEnqueueReadBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_plain_bufs
, CL_TRUE
, 0, num_cracked
* sizeof (plain_t
), cracked
, 0, NULL
, NULL
);
2250 uint cpt_cracked
= 0;
2252 for (uint i
= 0; i
< num_cracked
; i
++)
2254 const uint hash_pos
= cracked
[i
].hash_pos
;
2256 if (data
.digests_shown
[hash_pos
] == 1) continue;
2258 hc_thread_mutex_lock (mux_display
);
2260 if ((data
.opts_type
& OPTS_TYPE_PT_NEVERCRACK
) == 0)
2262 data
.digests_shown
[hash_pos
] = 1;
2264 data
.digests_done
++;
2268 salt_buf
->digests_done
++;
2270 if (salt_buf
->digests_done
== salt_buf
->digests_cnt
)
2272 data
.salts_shown
[salt_pos
] = 1;
2278 if (data
.salts_done
== data
.salts_cnt
) data
.devices_status
= STATUS_CRACKED
;
2280 hc_thread_mutex_unlock (mux_display
);
2282 check_hash (device_param
, &cracked
[i
]);
2287 if (cpt_cracked
> 0)
2289 hc_thread_mutex_lock (mux_display
);
2291 data
.cpt_buf
[data
.cpt_pos
].timestamp
= time (NULL
);
2292 data
.cpt_buf
[data
.cpt_pos
].cracked
= cpt_cracked
;
2296 data
.cpt_total
+= cpt_cracked
;
2298 if (data
.cpt_pos
== CPT_BUF
) data
.cpt_pos
= 0;
2300 hc_thread_mutex_unlock (mux_display
);
2303 if (data
.opts_type
& OPTS_TYPE_PT_NEVERCRACK
)
2305 // we need to reset cracked state on the device
2306 // otherwise host thinks again and again the hash was cracked
2307 // and returns invalid password each time
2309 memset (data
.digests_shown_tmp
, 0, salt_buf
->digests_cnt
* sizeof (uint
));
2311 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_digests_shown
, CL_TRUE
, salt_buf
->digests_offset
* sizeof (uint
), salt_buf
->digests_cnt
* sizeof (uint
), &data
.digests_shown_tmp
[salt_buf
->digests_offset
], 0, NULL
, NULL
);
2316 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_result
, CL_TRUE
, 0, sizeof (u32
), &num_cracked
, 0, NULL
, NULL
);
2320 static void process_stdout (hc_device_param_t
*device_param
, const uint pws_cnt
)
2322 char out_buf
[HCBUFSIZ
] = { 0 };
2324 uint plain_buf
[16] = { 0 };
2326 u8
*plain_ptr
= (u8
*) plain_buf
;
2330 const uint il_cnt
= device_param
->kernel_params_buf32
[27]; // ugly, i know
2332 if (data
.attack_mode
== ATTACK_MODE_STRAIGHT
)
2336 for (uint gidvid
= 0; gidvid
< pws_cnt
; gidvid
++)
2338 gidd_to_pw_t (device_param
, gidvid
, &pw
);
2340 const uint pos
= device_param
->innerloop_pos
;
2342 for (uint il_pos
= 0; il_pos
< il_cnt
; il_pos
++)
2344 for (int i
= 0; i
< 8; i
++)
2346 plain_buf
[i
] = pw
.i
[i
];
2349 plain_len
= pw
.pw_len
;
2351 plain_len
= apply_rules (data
.kernel_rules_buf
[pos
+ il_pos
].cmds
, &plain_buf
[0], &plain_buf
[4], plain_len
);
2353 if (plain_len
> data
.pw_max
) plain_len
= data
.pw_max
;
2355 format_output (stdout
, out_buf
, plain_ptr
, plain_len
, 0, NULL
, 0);
2359 else if (data
.attack_mode
== ATTACK_MODE_COMBI
)
2363 for (uint gidvid
= 0; gidvid
< pws_cnt
; gidvid
++)
2365 gidd_to_pw_t (device_param
, gidvid
, &pw
);
2367 for (uint il_pos
= 0; il_pos
< il_cnt
; il_pos
++)
2369 for (int i
= 0; i
< 8; i
++)
2371 plain_buf
[i
] = pw
.i
[i
];
2374 plain_len
= pw
.pw_len
;
2376 char *comb_buf
= (char *) device_param
->combs_buf
[il_pos
].i
;
2377 uint comb_len
= device_param
->combs_buf
[il_pos
].pw_len
;
2379 if (data
.combs_mode
== COMBINATOR_MODE_BASE_LEFT
)
2381 memcpy (plain_ptr
+ plain_len
, comb_buf
, comb_len
);
2385 memmove (plain_ptr
+ comb_len
, plain_ptr
, plain_len
);
2387 memcpy (plain_ptr
, comb_buf
, comb_len
);
2390 plain_len
+= comb_len
;
2392 if (data
.pw_max
!= PW_DICTMAX1
)
2394 if (plain_len
> data
.pw_max
) plain_len
= data
.pw_max
;
2397 format_output (stdout
, out_buf
, plain_ptr
, plain_len
, 0, NULL
, 0);
2401 else if (data
.attack_mode
== ATTACK_MODE_BF
)
2403 for (uint gidvid
= 0; gidvid
< pws_cnt
; gidvid
++)
2405 for (uint il_pos
= 0; il_pos
< il_cnt
; il_pos
++)
2407 u64 l_off
= device_param
->kernel_params_mp_l_buf64
[3] + gidvid
;
2408 u64 r_off
= device_param
->kernel_params_mp_r_buf64
[3] + il_pos
;
2410 uint l_start
= device_param
->kernel_params_mp_l_buf32
[5];
2411 uint r_start
= device_param
->kernel_params_mp_r_buf32
[5];
2413 uint l_stop
= device_param
->kernel_params_mp_l_buf32
[4];
2414 uint r_stop
= device_param
->kernel_params_mp_r_buf32
[4];
2416 sp_exec (l_off
, (char *) plain_ptr
+ l_start
, data
.root_css_buf
, data
.markov_css_buf
, l_start
, l_start
+ l_stop
);
2417 sp_exec (r_off
, (char *) plain_ptr
+ r_start
, data
.root_css_buf
, data
.markov_css_buf
, r_start
, r_start
+ r_stop
);
2419 plain_len
= data
.css_cnt
;
2421 format_output (stdout
, out_buf
, plain_ptr
, plain_len
, 0, NULL
, 0);
2425 else if (data
.attack_mode
== ATTACK_MODE_HYBRID1
)
2429 for (uint gidvid
= 0; gidvid
< pws_cnt
; gidvid
++)
2431 gidd_to_pw_t (device_param
, gidvid
, &pw
);
2433 for (uint il_pos
= 0; il_pos
< il_cnt
; il_pos
++)
2435 for (int i
= 0; i
< 8; i
++)
2437 plain_buf
[i
] = pw
.i
[i
];
2440 plain_len
= pw
.pw_len
;
2442 u64 off
= device_param
->kernel_params_mp_buf64
[3] + il_pos
;
2445 uint stop
= device_param
->kernel_params_mp_buf32
[4];
2447 sp_exec (off
, (char *) plain_ptr
+ plain_len
, data
.root_css_buf
, data
.markov_css_buf
, start
, start
+ stop
);
2449 plain_len
+= start
+ stop
;
2451 format_output (stdout
, out_buf
, plain_ptr
, plain_len
, 0, NULL
, 0);
2455 else if (data
.attack_mode
== ATTACK_MODE_HYBRID2
)
2459 for (uint gidvid
= 0; gidvid
< pws_cnt
; gidvid
++)
2461 gidd_to_pw_t (device_param
, gidvid
, &pw
);
2463 for (uint il_pos
= 0; il_pos
< il_cnt
; il_pos
++)
2465 for (int i
= 0; i
< 8; i
++)
2467 plain_buf
[i
] = pw
.i
[i
];
2470 plain_len
= pw
.pw_len
;
2472 u64 off
= device_param
->kernel_params_mp_buf64
[3] + il_pos
;
2475 uint stop
= device_param
->kernel_params_mp_buf32
[4];
2477 memmove (plain_ptr
+ stop
, plain_ptr
, plain_len
);
2479 sp_exec (off
, (char *) plain_ptr
, data
.root_css_buf
, data
.markov_css_buf
, start
, start
+ stop
);
2481 plain_len
+= start
+ stop
;
2483 format_output (stdout
, out_buf
, plain_ptr
, plain_len
, 0, NULL
, 0);
2489 static void save_hash ()
2491 char *hashfile
= data
.hashfile
;
2493 char new_hashfile
[256] = { 0 };
2494 char old_hashfile
[256] = { 0 };
2496 snprintf (new_hashfile
, 255, "%s.new", hashfile
);
2497 snprintf (old_hashfile
, 255, "%s.old", hashfile
);
2499 unlink (new_hashfile
);
2501 char separator
= data
.separator
;
2503 FILE *fp
= fopen (new_hashfile
, "wb");
2507 log_error ("ERROR: %s: %s", new_hashfile
, strerror (errno
));
2512 for (uint salt_pos
= 0; salt_pos
< data
.salts_cnt
; salt_pos
++)
2514 if (data
.salts_shown
[salt_pos
] == 1) continue;
2516 salt_t
*salt_buf
= &data
.salts_buf
[salt_pos
];
2518 for (uint digest_pos
= 0; digest_pos
< salt_buf
->digests_cnt
; digest_pos
++)
2520 uint idx
= salt_buf
->digests_offset
+ digest_pos
;
2522 if (data
.digests_shown
[idx
] == 1) continue;
2524 if (data
.hash_mode
!= 2500)
2526 if (data
.username
== 1)
2528 user_t
*user
= data
.hash_info
[idx
]->user
;
2532 for (i
= 0; i
< user
->user_len
; i
++) fputc (user
->user_name
[i
], fp
);
2534 fputc (separator
, fp
);
2537 char out_buf
[HCBUFSIZ
]; // scratch buffer
2541 ascii_digest (out_buf
, salt_pos
, digest_pos
);
2543 fputs (out_buf
, fp
);
2551 to_hccap_t (&hccap
, salt_pos
, digest_pos
);
2553 fwrite (&hccap
, sizeof (hccap_t
), 1, fp
);
2562 unlink (old_hashfile
);
2564 if (rename (hashfile
, old_hashfile
) != 0)
2566 log_error ("ERROR: Rename file '%s' to '%s': %s", hashfile
, old_hashfile
, strerror (errno
));
2573 if (rename (new_hashfile
, hashfile
) != 0)
2575 log_error ("ERROR: Rename file '%s' to '%s': %s", new_hashfile
, hashfile
, strerror (errno
));
2580 unlink (old_hashfile
);
2583 static void run_kernel (const uint kern_run
, hc_device_param_t
*device_param
, const uint num
, const uint event_update
, const uint iteration
)
2585 uint num_elements
= num
;
2587 device_param
->kernel_params_buf32
[30] = data
.combs_mode
;
2588 device_param
->kernel_params_buf32
[31] = num
;
2590 uint kernel_threads
= device_param
->kernel_threads
;
2592 while (num_elements
% kernel_threads
) num_elements
++;
2594 cl_kernel kernel
= NULL
;
2598 case KERN_RUN_1
: kernel
= device_param
->kernel1
; break;
2599 case KERN_RUN_12
: kernel
= device_param
->kernel12
; break;
2600 case KERN_RUN_2
: kernel
= device_param
->kernel2
; break;
2601 case KERN_RUN_23
: kernel
= device_param
->kernel23
; break;
2602 case KERN_RUN_3
: kernel
= device_param
->kernel3
; break;
2605 hc_clSetKernelArg (data
.ocl
, kernel
, 21, sizeof (cl_uint
), device_param
->kernel_params
[21]);
2606 hc_clSetKernelArg (data
.ocl
, kernel
, 22, sizeof (cl_uint
), device_param
->kernel_params
[22]);
2607 hc_clSetKernelArg (data
.ocl
, kernel
, 23, sizeof (cl_uint
), device_param
->kernel_params
[23]);
2608 hc_clSetKernelArg (data
.ocl
, kernel
, 24, sizeof (cl_uint
), device_param
->kernel_params
[24]);
2609 hc_clSetKernelArg (data
.ocl
, kernel
, 25, sizeof (cl_uint
), device_param
->kernel_params
[25]);
2610 hc_clSetKernelArg (data
.ocl
, kernel
, 26, sizeof (cl_uint
), device_param
->kernel_params
[26]);
2611 hc_clSetKernelArg (data
.ocl
, kernel
, 27, sizeof (cl_uint
), device_param
->kernel_params
[27]);
2612 hc_clSetKernelArg (data
.ocl
, kernel
, 28, sizeof (cl_uint
), device_param
->kernel_params
[28]);
2613 hc_clSetKernelArg (data
.ocl
, kernel
, 29, sizeof (cl_uint
), device_param
->kernel_params
[29]);
2614 hc_clSetKernelArg (data
.ocl
, kernel
, 30, sizeof (cl_uint
), device_param
->kernel_params
[30]);
2615 hc_clSetKernelArg (data
.ocl
, kernel
, 31, sizeof (cl_uint
), device_param
->kernel_params
[31]);
2619 if ((data
.opts_type
& OPTS_TYPE_PT_BITSLICE
) && (data
.attack_mode
== ATTACK_MODE_BF
))
2621 const size_t global_work_size
[3] = { num_elements
, 32, 1 };
2622 const size_t local_work_size
[3] = { kernel_threads
/ 32, 32, 1 };
2624 hc_clEnqueueNDRangeKernel (data
.ocl
, device_param
->command_queue
, kernel
, 2, NULL
, global_work_size
, local_work_size
, 0, NULL
, &event
);
2628 if (kern_run
== KERN_RUN_2
)
2630 if (data
.opti_type
& OPTI_TYPE_SLOW_HASH_SIMD
)
2632 num_elements
= CEIL ((float) num_elements
/ device_param
->vector_width
);
2636 while (num_elements
% kernel_threads
) num_elements
++;
2638 const size_t global_work_size
[3] = { num_elements
, 1, 1 };
2639 const size_t local_work_size
[3] = { kernel_threads
, 1, 1 };
2641 hc_clEnqueueNDRangeKernel (data
.ocl
, device_param
->command_queue
, kernel
, 1, NULL
, global_work_size
, local_work_size
, 0, NULL
, &event
);
2644 hc_clFlush (data
.ocl
, device_param
->command_queue
);
2646 if (device_param
->nvidia_spin_damp
)
2648 if (data
.devices_status
== STATUS_RUNNING
)
2650 if (iteration
< EXPECTED_ITERATIONS
)
2654 case KERN_RUN_1
: if (device_param
->exec_us_prev1
[iteration
]) usleep (device_param
->exec_us_prev1
[iteration
] * device_param
->nvidia_spin_damp
); break;
2655 case KERN_RUN_2
: if (device_param
->exec_us_prev2
[iteration
]) usleep (device_param
->exec_us_prev2
[iteration
] * device_param
->nvidia_spin_damp
); break;
2656 case KERN_RUN_3
: if (device_param
->exec_us_prev3
[iteration
]) usleep (device_param
->exec_us_prev3
[iteration
] * device_param
->nvidia_spin_damp
); break;
2662 hc_clWaitForEvents (data
.ocl
, 1, &event
);
2664 cl_ulong time_start
;
2667 hc_clGetEventProfilingInfo (data
.ocl
, event
, CL_PROFILING_COMMAND_START
, sizeof (time_start
), &time_start
, NULL
);
2668 hc_clGetEventProfilingInfo (data
.ocl
, event
, CL_PROFILING_COMMAND_END
, sizeof (time_end
), &time_end
, NULL
);
2670 const double exec_us
= (double) (time_end
- time_start
) / 1000;
2672 if (data
.devices_status
== STATUS_RUNNING
)
2674 if (iteration
< EXPECTED_ITERATIONS
)
2678 case KERN_RUN_1
: device_param
->exec_us_prev1
[iteration
] = exec_us
; break;
2679 case KERN_RUN_2
: device_param
->exec_us_prev2
[iteration
] = exec_us
; break;
2680 case KERN_RUN_3
: device_param
->exec_us_prev3
[iteration
] = exec_us
; break;
2687 uint exec_pos
= device_param
->exec_pos
;
2689 device_param
->exec_ms
[exec_pos
] = exec_us
/ 1000;
2693 if (exec_pos
== EXEC_CACHE
)
2698 device_param
->exec_pos
= exec_pos
;
2701 hc_clReleaseEvent (data
.ocl
, event
);
2703 hc_clFinish (data
.ocl
, device_param
->command_queue
);
2706 static void run_kernel_mp (const uint kern_run
, hc_device_param_t
*device_param
, const uint num
)
2708 uint num_elements
= num
;
2712 case KERN_RUN_MP
: device_param
->kernel_params_mp_buf32
[8] = num
; break;
2713 case KERN_RUN_MP_R
: device_param
->kernel_params_mp_r_buf32
[8] = num
; break;
2714 case KERN_RUN_MP_L
: device_param
->kernel_params_mp_l_buf32
[9] = num
; break;
2717 // causes problems with special threads like in bcrypt
2718 // const uint kernel_threads = device_param->kernel_threads;
2720 uint kernel_threads
= device_param
->kernel_threads
;
2722 while (num_elements
% kernel_threads
) num_elements
++;
2724 cl_kernel kernel
= NULL
;
2728 case KERN_RUN_MP
: kernel
= device_param
->kernel_mp
; break;
2729 case KERN_RUN_MP_R
: kernel
= device_param
->kernel_mp_r
; break;
2730 case KERN_RUN_MP_L
: kernel
= device_param
->kernel_mp_l
; break;
2735 case KERN_RUN_MP
: hc_clSetKernelArg (data
.ocl
, kernel
, 3, sizeof (cl_ulong
), device_param
->kernel_params_mp
[3]);
2736 hc_clSetKernelArg (data
.ocl
, kernel
, 4, sizeof (cl_uint
), device_param
->kernel_params_mp
[4]);
2737 hc_clSetKernelArg (data
.ocl
, kernel
, 5, sizeof (cl_uint
), device_param
->kernel_params_mp
[5]);
2738 hc_clSetKernelArg (data
.ocl
, kernel
, 6, sizeof (cl_uint
), device_param
->kernel_params_mp
[6]);
2739 hc_clSetKernelArg (data
.ocl
, kernel
, 7, sizeof (cl_uint
), device_param
->kernel_params_mp
[7]);
2740 hc_clSetKernelArg (data
.ocl
, kernel
, 8, sizeof (cl_uint
), device_param
->kernel_params_mp
[8]);
2742 case KERN_RUN_MP_R
: hc_clSetKernelArg (data
.ocl
, kernel
, 3, sizeof (cl_ulong
), device_param
->kernel_params_mp_r
[3]);
2743 hc_clSetKernelArg (data
.ocl
, kernel
, 4, sizeof (cl_uint
), device_param
->kernel_params_mp_r
[4]);
2744 hc_clSetKernelArg (data
.ocl
, kernel
, 5, sizeof (cl_uint
), device_param
->kernel_params_mp_r
[5]);
2745 hc_clSetKernelArg (data
.ocl
, kernel
, 6, sizeof (cl_uint
), device_param
->kernel_params_mp_r
[6]);
2746 hc_clSetKernelArg (data
.ocl
, kernel
, 7, sizeof (cl_uint
), device_param
->kernel_params_mp_r
[7]);
2747 hc_clSetKernelArg (data
.ocl
, kernel
, 8, sizeof (cl_uint
), device_param
->kernel_params_mp_r
[8]);
2749 case KERN_RUN_MP_L
: hc_clSetKernelArg (data
.ocl
, kernel
, 3, sizeof (cl_ulong
), device_param
->kernel_params_mp_l
[3]);
2750 hc_clSetKernelArg (data
.ocl
, kernel
, 4, sizeof (cl_uint
), device_param
->kernel_params_mp_l
[4]);
2751 hc_clSetKernelArg (data
.ocl
, kernel
, 5, sizeof (cl_uint
), device_param
->kernel_params_mp_l
[5]);
2752 hc_clSetKernelArg (data
.ocl
, kernel
, 6, sizeof (cl_uint
), device_param
->kernel_params_mp_l
[6]);
2753 hc_clSetKernelArg (data
.ocl
, kernel
, 7, sizeof (cl_uint
), device_param
->kernel_params_mp_l
[7]);
2754 hc_clSetKernelArg (data
.ocl
, kernel
, 8, sizeof (cl_uint
), device_param
->kernel_params_mp_l
[8]);
2755 hc_clSetKernelArg (data
.ocl
, kernel
, 9, sizeof (cl_uint
), device_param
->kernel_params_mp_l
[9]);
2759 const size_t global_work_size
[3] = { num_elements
, 1, 1 };
2760 const size_t local_work_size
[3] = { kernel_threads
, 1, 1 };
2762 hc_clEnqueueNDRangeKernel (data
.ocl
, device_param
->command_queue
, kernel
, 1, NULL
, global_work_size
, local_work_size
, 0, NULL
, NULL
);
2764 hc_clFlush (data
.ocl
, device_param
->command_queue
);
2766 hc_clFinish (data
.ocl
, device_param
->command_queue
);
2769 static void run_kernel_tm (hc_device_param_t
*device_param
)
2771 const uint num_elements
= 1024; // fixed
2773 uint kernel_threads
= 32;
2775 cl_kernel kernel
= device_param
->kernel_tm
;
2777 const size_t global_work_size
[3] = { num_elements
, 1, 1 };
2778 const size_t local_work_size
[3] = { kernel_threads
, 1, 1 };
2780 hc_clEnqueueNDRangeKernel (data
.ocl
, device_param
->command_queue
, kernel
, 1, NULL
, global_work_size
, local_work_size
, 0, NULL
, NULL
);
2782 hc_clFlush (data
.ocl
, device_param
->command_queue
);
2784 hc_clFinish (data
.ocl
, device_param
->command_queue
);
2787 static void run_kernel_amp (hc_device_param_t
*device_param
, const uint num
)
2789 uint num_elements
= num
;
2791 device_param
->kernel_params_amp_buf32
[5] = data
.combs_mode
;
2792 device_param
->kernel_params_amp_buf32
[6] = num_elements
;
2794 // causes problems with special threads like in bcrypt
2795 // const uint kernel_threads = device_param->kernel_threads;
2797 uint kernel_threads
= device_param
->kernel_threads
;
2799 while (num_elements
% kernel_threads
) num_elements
++;
2801 cl_kernel kernel
= device_param
->kernel_amp
;
2803 hc_clSetKernelArg (data
.ocl
, kernel
, 5, sizeof (cl_uint
), device_param
->kernel_params_amp
[5]);
2804 hc_clSetKernelArg (data
.ocl
, kernel
, 6, sizeof (cl_uint
), device_param
->kernel_params_amp
[6]);
2806 const size_t global_work_size
[3] = { num_elements
, 1, 1 };
2807 const size_t local_work_size
[3] = { kernel_threads
, 1, 1 };
2809 hc_clEnqueueNDRangeKernel (data
.ocl
, device_param
->command_queue
, kernel
, 1, NULL
, global_work_size
, local_work_size
, 0, NULL
, NULL
);
2811 hc_clFlush (data
.ocl
, device_param
->command_queue
);
2813 hc_clFinish (data
.ocl
, device_param
->command_queue
);
2816 static void run_kernel_memset (hc_device_param_t
*device_param
, cl_mem buf
, const uint value
, const uint num
)
2818 const u32 num16d
= num
/ 16;
2819 const u32 num16m
= num
% 16;
2823 device_param
->kernel_params_memset_buf32
[1] = value
;
2824 device_param
->kernel_params_memset_buf32
[2] = num16d
;
2826 uint kernel_threads
= device_param
->kernel_threads
;
2828 uint num_elements
= num16d
;
2830 while (num_elements
% kernel_threads
) num_elements
++;
2832 cl_kernel kernel
= device_param
->kernel_memset
;
2834 hc_clSetKernelArg (data
.ocl
, kernel
, 0, sizeof (cl_mem
), (void *) &buf
);
2835 hc_clSetKernelArg (data
.ocl
, kernel
, 1, sizeof (cl_uint
), device_param
->kernel_params_memset
[1]);
2836 hc_clSetKernelArg (data
.ocl
, kernel
, 2, sizeof (cl_uint
), device_param
->kernel_params_memset
[2]);
2838 const size_t global_work_size
[3] = { num_elements
, 1, 1 };
2839 const size_t local_work_size
[3] = { kernel_threads
, 1, 1 };
2841 hc_clEnqueueNDRangeKernel (data
.ocl
, device_param
->command_queue
, kernel
, 1, NULL
, global_work_size
, local_work_size
, 0, NULL
, NULL
);
2843 hc_clFlush (data
.ocl
, device_param
->command_queue
);
2845 hc_clFinish (data
.ocl
, device_param
->command_queue
);
2857 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, buf
, CL_TRUE
, num16d
* 16, num16m
, tmp
, 0, NULL
, NULL
);
2861 static void run_kernel_bzero (hc_device_param_t
*device_param
, cl_mem buf
, const size_t size
)
2863 run_kernel_memset (device_param
, buf
, 0, size
);
2868 if (device_param->opencl_v12 && device_param->platform_vendor_id == VENDOR_ID_AMD)
2870 // So far tested, amd is the only supporting this OpenCL 1.2 function without segfaulting
2872 const cl_uchar zero = 0;
2874 rc = hc_clEnqueueFillBuffer (data.ocl, device_param->command_queue, buf, &zero, sizeof (cl_uchar), 0, size, 0, NULL, NULL);
2879 // NOTE: clEnqueueFillBuffer () always fails with -59
2880 // IOW, it's not supported by Nvidia drivers <= 352.21, also pocl segfaults, also on apple
2881 // How's that possible, OpenCL 1.2 support is advertised??
2882 // We need to workaround...
2884 #define FILLSZ 0x100000
2886 char *tmp = (char *) mymalloc (FILLSZ);
2888 for (size_t i = 0; i < size; i += FILLSZ)
2890 const size_t left = size - i;
2892 const size_t fillsz = MIN (FILLSZ, left);
2894 hc_clEnqueueWriteBuffer (data.ocl, device_param->command_queue, buf, CL_TRUE, i, fillsz, tmp, 0, NULL, NULL);
2902 static void choose_kernel (hc_device_param_t
*device_param
, const uint attack_exec
, const uint attack_mode
, const uint opts_type
, const salt_t
*salt_buf
, const uint highest_pw_len
, const uint pws_cnt
, const uint fast_iteration
)
2904 if (data
.hash_mode
== 2000)
2906 process_stdout (device_param
, pws_cnt
);
2911 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
2913 if (attack_mode
== ATTACK_MODE_BF
)
2915 if (opts_type
& OPTS_TYPE_PT_BITSLICE
)
2917 const uint size_tm
= 32 * sizeof (bs_word_t
);
2919 run_kernel_bzero (device_param
, device_param
->d_tm_c
, size_tm
);
2921 run_kernel_tm (device_param
);
2923 hc_clEnqueueCopyBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_tm_c
, device_param
->d_bfs_c
, 0, 0, size_tm
, 0, NULL
, NULL
);
2927 if (highest_pw_len
< 16)
2929 run_kernel (KERN_RUN_1
, device_param
, pws_cnt
, true, fast_iteration
);
2931 else if (highest_pw_len
< 32)
2933 run_kernel (KERN_RUN_2
, device_param
, pws_cnt
, true, fast_iteration
);
2937 run_kernel (KERN_RUN_3
, device_param
, pws_cnt
, true, fast_iteration
);
2942 run_kernel_amp (device_param
, pws_cnt
);
2944 run_kernel (KERN_RUN_1
, device_param
, pws_cnt
, false, 0);
2946 if (opts_type
& OPTS_TYPE_HOOK12
)
2948 run_kernel (KERN_RUN_12
, device_param
, pws_cnt
, false, 0);
2950 hc_clEnqueueReadBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_hooks
, CL_TRUE
, 0, device_param
->size_hooks
, device_param
->hooks_buf
, 0, NULL
, NULL
);
2952 // do something with data
2954 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_hooks
, CL_TRUE
, 0, device_param
->size_hooks
, device_param
->hooks_buf
, 0, NULL
, NULL
);
2957 uint iter
= salt_buf
->salt_iter
;
2959 uint loop_step
= device_param
->kernel_loops
;
2961 for (uint loop_pos
= 0, slow_iteration
= 0; loop_pos
< iter
; loop_pos
+= loop_step
, slow_iteration
++)
2963 uint loop_left
= iter
- loop_pos
;
2965 loop_left
= MIN (loop_left
, loop_step
);
2967 device_param
->kernel_params_buf32
[25] = loop_pos
;
2968 device_param
->kernel_params_buf32
[26] = loop_left
;
2970 run_kernel (KERN_RUN_2
, device_param
, pws_cnt
, true, slow_iteration
);
2972 if (data
.devices_status
== STATUS_CRACKED
) break;
2973 if (data
.devices_status
== STATUS_ABORTED
) break;
2974 if (data
.devices_status
== STATUS_QUIT
) break;
2980 const float iter_part
= (float) (loop_pos
+ loop_left
) / iter
;
2982 const u64 perf_sum_all
= pws_cnt
* iter_part
;
2986 hc_timer_get (device_param
->timer_speed
, speed_ms
);
2988 const u32 speed_pos
= device_param
->speed_pos
;
2990 device_param
->speed_cnt
[speed_pos
] = perf_sum_all
;
2992 device_param
->speed_ms
[speed_pos
] = speed_ms
;
2994 if (data
.benchmark
== 1)
2996 if (speed_ms
> 4096) data
.devices_status
= STATUS_ABORTED
;
3000 if (opts_type
& OPTS_TYPE_HOOK23
)
3002 run_kernel (KERN_RUN_23
, device_param
, pws_cnt
, false, 0);
3004 hc_clEnqueueReadBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_hooks
, CL_TRUE
, 0, device_param
->size_hooks
, device_param
->hooks_buf
, 0, NULL
, NULL
);
3006 // do something with data
3008 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_hooks
, CL_TRUE
, 0, device_param
->size_hooks
, device_param
->hooks_buf
, 0, NULL
, NULL
);
3011 run_kernel (KERN_RUN_3
, device_param
, pws_cnt
, false, 0);
3015 static int run_rule_engine (const int rule_len
, const char *rule_buf
)
3021 else if (rule_len
== 1)
3023 if (rule_buf
[0] == RULE_OP_MANGLE_NOOP
) return 0;
3029 static void run_copy (hc_device_param_t
*device_param
, const uint pws_cnt
)
3031 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
)
3033 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_pws_buf
, CL_TRUE
, 0, pws_cnt
* sizeof (pw_t
), device_param
->pws_buf
, 0, NULL
, NULL
);
3035 else if (data
.attack_kern
== ATTACK_KERN_COMBI
)
3037 if (data
.attack_mode
== ATTACK_MODE_COMBI
)
3039 if (data
.combs_mode
== COMBINATOR_MODE_BASE_RIGHT
)
3041 if (data
.opts_type
& OPTS_TYPE_PT_ADD01
)
3043 for (u32 i
= 0; i
< pws_cnt
; i
++)
3045 const u32 pw_len
= device_param
->pws_buf
[i
].pw_len
;
3047 u8
*ptr
= (u8
*) device_param
->pws_buf
[i
].i
;
3052 else if (data
.opts_type
& OPTS_TYPE_PT_ADD80
)
3054 for (u32 i
= 0; i
< pws_cnt
; i
++)
3056 const u32 pw_len
= device_param
->pws_buf
[i
].pw_len
;
3058 u8
*ptr
= (u8
*) device_param
->pws_buf
[i
].i
;
3065 else if (data
.attack_mode
== ATTACK_MODE_HYBRID2
)
3067 if (data
.opts_type
& OPTS_TYPE_PT_ADD01
)
3069 for (u32 i
= 0; i
< pws_cnt
; i
++)
3071 const u32 pw_len
= device_param
->pws_buf
[i
].pw_len
;
3073 u8
*ptr
= (u8
*) device_param
->pws_buf
[i
].i
;
3078 else if (data
.opts_type
& OPTS_TYPE_PT_ADD80
)
3080 for (u32 i
= 0; i
< pws_cnt
; i
++)
3082 const u32 pw_len
= device_param
->pws_buf
[i
].pw_len
;
3084 u8
*ptr
= (u8
*) device_param
->pws_buf
[i
].i
;
3091 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_pws_buf
, CL_TRUE
, 0, pws_cnt
* sizeof (pw_t
), device_param
->pws_buf
, 0, NULL
, NULL
);
3093 else if (data
.attack_kern
== ATTACK_KERN_BF
)
3095 const u64 off
= device_param
->words_off
;
3097 device_param
->kernel_params_mp_l_buf64
[3] = off
;
3099 run_kernel_mp (KERN_RUN_MP_L
, device_param
, pws_cnt
);
3103 static double try_run (hc_device_param_t
*device_param
, const u32 kernel_accel
, const u32 kernel_loops
)
3105 const u32 kernel_power_try
= device_param
->device_processors
* device_param
->kernel_threads
* kernel_accel
;
3107 device_param
->kernel_params_buf32
[25] = 0;
3108 device_param
->kernel_params_buf32
[26] = kernel_loops
; // not a bug, both need to be set
3109 device_param
->kernel_params_buf32
[27] = kernel_loops
; // because there's two variables for inner iters for slow and fast hashes
3111 if (data
.attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
3113 run_kernel (KERN_RUN_1
, device_param
, kernel_power_try
, true, 0);
3117 run_kernel (KERN_RUN_2
, device_param
, kernel_power_try
, true, 0);
3120 const double exec_ms_prev
= get_avg_exec_time (device_param
, 1);
3122 return exec_ms_prev
;
3125 static void autotune (hc_device_param_t
*device_param
)
3127 const double target_ms
= TARGET_MS_PROFILE
[data
.workload_profile
- 1];
3129 const u32 kernel_accel_min
= device_param
->kernel_accel_min
;
3130 const u32 kernel_accel_max
= device_param
->kernel_accel_max
;
3132 const u32 kernel_loops_min
= device_param
->kernel_loops_min
;
3133 const u32 kernel_loops_max
= device_param
->kernel_loops_max
;
3135 u32 kernel_accel
= kernel_accel_min
;
3136 u32 kernel_loops
= kernel_loops_min
;
3138 // in this case the user specified a fixed -u and -n on the commandline
3139 // no way to tune anything
3140 // but we need to run a few caching rounds
3142 if ((kernel_loops_min
== kernel_loops_max
) && (kernel_accel_min
== kernel_accel_max
))
3144 if (data
.hash_mode
!= 2000)
3146 try_run (device_param
, kernel_accel
, kernel_loops
);
3147 try_run (device_param
, kernel_accel
, kernel_loops
);
3148 try_run (device_param
, kernel_accel
, kernel_loops
);
3149 try_run (device_param
, kernel_accel
, kernel_loops
);
3152 device_param
->kernel_accel
= kernel_accel
;
3153 device_param
->kernel_loops
= kernel_loops
;
3155 const u32 kernel_power
= device_param
->device_processors
* device_param
->kernel_threads
* device_param
->kernel_accel
;
3157 device_param
->kernel_power
= kernel_power
;
3162 // from here it's clear we are allowed to autotune
3163 // so let's init some fake words
3165 const u32 kernel_power_max
= device_param
->device_processors
* device_param
->kernel_threads
* kernel_accel_max
;
3167 if (data
.attack_kern
== ATTACK_KERN_BF
)
3169 run_kernel_memset (device_param
, device_param
->d_pws_buf
, 7, kernel_power_max
* sizeof (pw_t
));
3173 for (u32 i
= 0; i
< kernel_power_max
; i
++)
3175 device_param
->pws_buf
[i
].i
[0] = i
;
3176 device_param
->pws_buf
[i
].i
[1] = 0x01234567;
3177 device_param
->pws_buf
[i
].pw_len
= 7 + (i
& 7);
3180 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_pws_buf
, CL_TRUE
, 0, kernel_power_max
* sizeof (pw_t
), device_param
->pws_buf
, 0, NULL
, NULL
);
3183 if (data
.attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
3185 if (data
.kernel_rules_cnt
> 1)
3187 hc_clEnqueueCopyBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_rules
, device_param
->d_rules_c
, 0, 0, MIN (kernel_loops_max
, KERNEL_RULES
) * sizeof (kernel_rule_t
), 0, NULL
, NULL
);
3192 run_kernel_amp (device_param
, kernel_power_max
);
3195 #define VERIFIER_CNT 1
3197 // first find out highest kernel-loops that stays below target_ms
3199 if (kernel_loops_min
< kernel_loops_max
)
3201 for (kernel_loops
= kernel_loops_max
; kernel_loops
> kernel_loops_min
; kernel_loops
>>= 1)
3203 double exec_ms
= try_run (device_param
, kernel_accel_min
, kernel_loops
);
3205 for (int i
= 0; i
< VERIFIER_CNT
; i
++)
3207 double exec_ms_v
= try_run (device_param
, kernel_accel_min
, kernel_loops
);
3209 exec_ms
= MIN (exec_ms
, exec_ms_v
);
3212 if (exec_ms
< target_ms
) break;
3216 // now the same for kernel-accel but with the new kernel-loops from previous loop set
3218 #define STEPS_CNT 10
3220 if (kernel_accel_min
< kernel_accel_max
)
3222 for (int i
= 0; i
< STEPS_CNT
; i
++)
3224 const u32 kernel_accel_try
= 1 << i
;
3226 if (kernel_accel_try
< kernel_accel_min
) continue;
3227 if (kernel_accel_try
> kernel_accel_max
) break;
3229 double exec_ms
= try_run (device_param
, kernel_accel_try
, kernel_loops
);
3231 for (int i
= 0; i
< VERIFIER_CNT
; i
++)
3233 double exec_ms_v
= try_run (device_param
, kernel_accel_try
, kernel_loops
);
3235 exec_ms
= MIN (exec_ms
, exec_ms_v
);
3238 if (exec_ms
> target_ms
) break;
3240 kernel_accel
= kernel_accel_try
;
3244 // at this point we want to know the actual runtime for the following reason:
3245 // we need a reference for the balancing loop following up, and this
3246 // the balancing loop can have an effect that the creates a new opportunity, for example:
3247 // if the target is 95 ms and the current runtime is 48ms the above loop
3248 // stopped the execution because the previous exec_ms was > 95ms
3249 // due to the rebalance it's possible that the runtime reduces from 48ms to 47ms
3250 // and this creates the possibility to double the workload -> 47 * 2 = 95ms, which is < 96ms
3252 double exec_ms_pre_final
= try_run (device_param
, kernel_accel
, kernel_loops
);
3254 for (int i
= 0; i
< VERIFIER_CNT
; i
++)
3256 double exec_ms_pre_final_v
= try_run (device_param
, kernel_accel
, kernel_loops
);
3258 exec_ms_pre_final
= MIN (exec_ms_pre_final
, exec_ms_pre_final_v
);
3261 u32 diff
= kernel_loops
- kernel_accel
;
3263 if ((kernel_loops_min
< kernel_loops_max
) && (kernel_accel_min
< kernel_accel_max
))
3265 u32 kernel_accel_orig
= kernel_accel
;
3266 u32 kernel_loops_orig
= kernel_loops
;
3268 for (u32 f
= 1; f
< 1024; f
++)
3270 const u32 kernel_accel_try
= (float) kernel_accel_orig
* f
;
3271 const u32 kernel_loops_try
= (float) kernel_loops_orig
/ f
;
3273 if (kernel_accel_try
> kernel_accel_max
) break;
3274 if (kernel_loops_try
< kernel_loops_min
) break;
3276 u32 diff_new
= kernel_loops_try
- kernel_accel_try
;
3278 if (diff_new
> diff
) break;
3282 double exec_ms
= try_run (device_param
, kernel_accel_try
, kernel_loops_try
);
3284 for (int i
= 0; i
< VERIFIER_CNT
; i
++)
3286 double exec_ms_v
= try_run (device_param
, kernel_accel_try
, kernel_loops_try
);
3288 exec_ms
= MIN (exec_ms
, exec_ms_v
);
3291 if (exec_ms
< exec_ms_pre_final
)
3293 exec_ms_pre_final
= exec_ms
;
3295 kernel_accel
= kernel_accel_try
;
3296 kernel_loops
= kernel_loops_try
;
3301 const double exec_left
= target_ms
/ exec_ms_pre_final
;
3303 const double accel_left
= kernel_accel_max
/ kernel_accel
;
3305 const double exec_accel_min
= MIN (exec_left
, accel_left
); // we want that to be int
3307 if (exec_accel_min
>= 1.0)
3309 // this is safe to not overflow kernel_accel_max because of accel_left
3311 kernel_accel
= (double) kernel_accel
* exec_accel_min
;
3314 // reset them fake words
3317 memset (device_param->pws_buf, 0, kernel_power_max * sizeof (pw_t));
3319 hc_clEnqueueWriteBuffer (data.ocl, device_param->command_queue, device_param->d_pws_buf, CL_TRUE, 0, kernel_power_max * sizeof (pw_t), device_param->pws_buf, 0, NULL, NULL);
3320 hc_clEnqueueWriteBuffer (data.ocl, device_param->command_queue, device_param->d_pws_amp_buf, CL_TRUE, 0, kernel_power_max * sizeof (pw_t), device_param->pws_buf, 0, NULL, NULL);
3323 run_kernel_memset (device_param
, device_param
->d_pws_buf
, 0, kernel_power_max
* sizeof (pw_t
));
3325 if (data
.attack_exec
== ATTACK_EXEC_OUTSIDE_KERNEL
)
3327 run_kernel_memset (device_param
, device_param
->d_pws_amp_buf
, 0, kernel_power_max
* sizeof (pw_t
));
3332 device_param
->exec_pos
= 0;
3334 memset (device_param
->exec_ms
, 0, EXEC_CACHE
* sizeof (double));
3336 memset (device_param
->exec_us_prev1
, 0, EXPECTED_ITERATIONS
* sizeof (double));
3337 memset (device_param
->exec_us_prev2
, 0, EXPECTED_ITERATIONS
* sizeof (double));
3338 memset (device_param
->exec_us_prev3
, 0, EXPECTED_ITERATIONS
* sizeof (double));
3342 device_param
->kernel_accel
= kernel_accel
;
3343 device_param
->kernel_loops
= kernel_loops
;
3345 const u32 kernel_power
= device_param
->device_processors
* device_param
->kernel_threads
* device_param
->kernel_accel
;
3347 device_param
->kernel_power
= kernel_power
;
3351 if (data
.quiet
== 0)
3355 log_info ("Device #%u: autotuned kernel-accel to %u\n"
3356 "Device #%u: autotuned kernel-loops to %u\n",
3357 device_param
->device_id
+ 1, kernel_accel
,
3358 device_param
->device_id
+ 1, kernel_loops
);
3360 fprintf (stdout
, "%s", PROMPT
);
3368 static void run_cracker (hc_device_param_t
*device_param
, const uint pws_cnt
)
3370 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
3374 uint speed_pos
= device_param
->speed_pos
;
3377 if (device_param
->timer_speed
.tv_sec
== 0)
3379 hc_timer_set (&device_param
->timer_speed
);
3384 if (device_param
->timer_speed
.QuadPart
== 0)
3386 hc_timer_set (&device_param
->timer_speed
);
3390 // find higest password length, this is for optimization stuff
3392 uint highest_pw_len
= 0;
3394 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
)
3397 else if (data
.attack_kern
== ATTACK_KERN_COMBI
)
3400 else if (data
.attack_kern
== ATTACK_KERN_BF
)
3402 highest_pw_len
= device_param
->kernel_params_mp_l_buf32
[4]
3403 + device_param
->kernel_params_mp_l_buf32
[5];
3408 uint innerloop_step
= 0;
3409 uint innerloop_cnt
= 0;
3411 if (data
.attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
) innerloop_step
= device_param
->kernel_loops
;
3412 else innerloop_step
= 1;
3414 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
) innerloop_cnt
= data
.kernel_rules_cnt
;
3415 else if (data
.attack_kern
== ATTACK_KERN_COMBI
) innerloop_cnt
= data
.combs_cnt
;
3416 else if (data
.attack_kern
== ATTACK_KERN_BF
) innerloop_cnt
= data
.bfs_cnt
;
3418 // loop start: most outer loop = salt iteration, then innerloops (if multi)
3420 for (uint salt_pos
= 0; salt_pos
< data
.salts_cnt
; salt_pos
++)
3422 while (data
.devices_status
== STATUS_PAUSED
) hc_sleep (1);
3424 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
3426 if (data
.devices_status
== STATUS_CRACKED
) break;
3427 if (data
.devices_status
== STATUS_ABORTED
) break;
3428 if (data
.devices_status
== STATUS_QUIT
) break;
3429 if (data
.devices_status
== STATUS_BYPASS
) break;
3431 salt_t
*salt_buf
= &data
.salts_buf
[salt_pos
];
3433 device_param
->kernel_params_buf32
[24] = salt_pos
;
3434 device_param
->kernel_params_buf32
[28] = salt_buf
->digests_cnt
;
3435 device_param
->kernel_params_buf32
[29] = salt_buf
->digests_offset
;
3437 FILE *combs_fp
= device_param
->combs_fp
;
3439 if (data
.attack_mode
== ATTACK_MODE_COMBI
)
3446 for (uint innerloop_pos
= 0; innerloop_pos
< innerloop_cnt
; innerloop_pos
+= innerloop_step
)
3448 while (data
.devices_status
== STATUS_PAUSED
) hc_sleep (1);
3450 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
3452 if (data
.devices_status
== STATUS_CRACKED
) break;
3453 if (data
.devices_status
== STATUS_ABORTED
) break;
3454 if (data
.devices_status
== STATUS_QUIT
) break;
3455 if (data
.devices_status
== STATUS_BYPASS
) break;
3457 uint fast_iteration
= 0;
3459 uint innerloop_left
= innerloop_cnt
- innerloop_pos
;
3461 if (innerloop_left
> innerloop_step
)
3463 innerloop_left
= innerloop_step
;
3468 device_param
->innerloop_pos
= innerloop_pos
;
3469 device_param
->innerloop_left
= innerloop_left
;
3471 device_param
->kernel_params_buf32
[27] = innerloop_left
;
3473 // i think we can get rid of this
3474 if (innerloop_left
== 0)
3476 puts ("bug, how should this happen????\n");
3481 if (data
.salts_shown
[salt_pos
] == 1)
3483 data
.words_progress_done
[salt_pos
] += (u64
) pws_cnt
* (u64
) innerloop_left
;
3488 // initialize amplifiers
3490 if (data
.attack_mode
== ATTACK_MODE_COMBI
)
3494 while (i
< innerloop_left
)
3496 if (feof (combs_fp
)) break;
3498 int line_len
= fgetl (combs_fp
, line_buf
);
3500 if (line_len
>= PW_MAX1
) continue;
3502 line_len
= convert_from_hex (line_buf
, line_len
);
3504 char *line_buf_new
= line_buf
;
3506 if (run_rule_engine (data
.rule_len_r
, data
.rule_buf_r
))
3508 char rule_buf_out
[BLOCK_SIZE
] = { 0 };
3510 int rule_len_out
= _old_apply_rule (data
.rule_buf_r
, data
.rule_len_r
, line_buf
, line_len
, rule_buf_out
);
3512 if (rule_len_out
< 0)
3514 data
.words_progress_rejected
[salt_pos
] += pws_cnt
;
3519 line_len
= rule_len_out
;
3521 line_buf_new
= rule_buf_out
;
3524 line_len
= MIN (line_len
, PW_DICTMAX
);
3526 u8
*ptr
= (u8
*) device_param
->combs_buf
[i
].i
;
3528 memcpy (ptr
, line_buf_new
, line_len
);
3530 memset (ptr
+ line_len
, 0, PW_DICTMAX1
- line_len
);
3532 if (data
.opts_type
& OPTS_TYPE_PT_UPPER
)
3534 uppercase (ptr
, line_len
);
3537 if (data
.combs_mode
== COMBINATOR_MODE_BASE_LEFT
)
3539 if (data
.opts_type
& OPTS_TYPE_PT_ADD80
)
3541 ptr
[line_len
] = 0x80;
3544 if (data
.opts_type
& OPTS_TYPE_PT_ADD01
)
3546 ptr
[line_len
] = 0x01;
3550 device_param
->combs_buf
[i
].pw_len
= line_len
;
3555 for (uint j
= i
; j
< innerloop_left
; j
++)
3557 device_param
->combs_buf
[j
].i
[0] = 0;
3558 device_param
->combs_buf
[j
].i
[1] = 0;
3559 device_param
->combs_buf
[j
].i
[2] = 0;
3560 device_param
->combs_buf
[j
].i
[3] = 0;
3561 device_param
->combs_buf
[j
].i
[4] = 0;
3562 device_param
->combs_buf
[j
].i
[5] = 0;
3563 device_param
->combs_buf
[j
].i
[6] = 0;
3564 device_param
->combs_buf
[j
].i
[7] = 0;
3566 device_param
->combs_buf
[j
].pw_len
= 0;
3571 else if (data
.attack_mode
== ATTACK_MODE_BF
)
3573 u64 off
= innerloop_pos
;
3575 device_param
->kernel_params_mp_r_buf64
[3] = off
;
3577 run_kernel_mp (KERN_RUN_MP_R
, device_param
, innerloop_left
);
3579 else if (data
.attack_mode
== ATTACK_MODE_HYBRID1
)
3581 u64 off
= innerloop_pos
;
3583 device_param
->kernel_params_mp_buf64
[3] = off
;
3585 run_kernel_mp (KERN_RUN_MP
, device_param
, innerloop_left
);
3587 else if (data
.attack_mode
== ATTACK_MODE_HYBRID2
)
3589 u64 off
= innerloop_pos
;
3591 device_param
->kernel_params_mp_buf64
[3] = off
;
3593 run_kernel_mp (KERN_RUN_MP
, device_param
, innerloop_left
);
3598 if (data
.attack_mode
== ATTACK_MODE_STRAIGHT
)
3600 hc_clEnqueueCopyBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_rules
, device_param
->d_rules_c
, innerloop_pos
* sizeof (kernel_rule_t
), 0, innerloop_left
* sizeof (kernel_rule_t
), 0, NULL
, NULL
);
3602 else if (data
.attack_mode
== ATTACK_MODE_COMBI
)
3604 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_combs_c
, CL_TRUE
, 0, innerloop_left
* sizeof (comb_t
), device_param
->combs_buf
, 0, NULL
, NULL
);
3606 else if (data
.attack_mode
== ATTACK_MODE_BF
)
3608 hc_clEnqueueCopyBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bfs
, device_param
->d_bfs_c
, 0, 0, innerloop_left
* sizeof (bf_t
), 0, NULL
, NULL
);
3610 else if (data
.attack_mode
== ATTACK_MODE_HYBRID1
)
3612 hc_clEnqueueCopyBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_combs
, device_param
->d_combs_c
, 0, 0, innerloop_left
* sizeof (comb_t
), 0, NULL
, NULL
);
3614 else if (data
.attack_mode
== ATTACK_MODE_HYBRID2
)
3616 hc_clEnqueueCopyBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_combs
, device_param
->d_combs_c
, 0, 0, innerloop_left
* sizeof (comb_t
), 0, NULL
, NULL
);
3619 if (data
.benchmark
== 1)
3621 hc_timer_set (&device_param
->timer_speed
);
3624 choose_kernel (device_param
, data
.attack_exec
, data
.attack_mode
, data
.opts_type
, salt_buf
, highest_pw_len
, pws_cnt
, fast_iteration
);
3626 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
3628 if (data
.devices_status
== STATUS_CRACKED
) break;
3629 if (data
.devices_status
== STATUS_ABORTED
) break;
3630 if (data
.devices_status
== STATUS_QUIT
) break;
3636 if (data
.benchmark
== 0)
3638 check_cracked (device_param
, salt_pos
);
3645 u64 perf_sum_all
= (u64
) pws_cnt
* (u64
) innerloop_left
;
3647 hc_thread_mutex_lock (mux_counter
);
3649 data
.words_progress_done
[salt_pos
] += perf_sum_all
;
3651 hc_thread_mutex_unlock (mux_counter
);
3659 hc_timer_get (device_param
->timer_speed
, speed_ms
);
3661 hc_timer_set (&device_param
->timer_speed
);
3665 //hc_thread_mutex_lock (mux_display);
3667 device_param
->speed_cnt
[speed_pos
] = perf_sum_all
;
3669 device_param
->speed_ms
[speed_pos
] = speed_ms
;
3671 //hc_thread_mutex_unlock (mux_display);
3675 if (speed_pos
== SPEED_CACHE
)
3684 if (data
.benchmark
== 1) break;
3688 device_param
->speed_pos
= speed_pos
;
3693 static void load_segment (wl_data_t
*wl_data
, FILE *fd
)
3695 // NOTE: use (never changing) ->incr here instead of ->avail otherwise the buffer gets bigger and bigger
3699 wl_data
->cnt
= fread (wl_data
->buf
, 1, wl_data
->incr
- 1000, fd
);
3701 wl_data
->buf
[wl_data
->cnt
] = 0;
3703 if (wl_data
->cnt
== 0) return;
3705 if (wl_data
->buf
[wl_data
->cnt
- 1] == '\n') return;
3709 if (wl_data
->cnt
== wl_data
->avail
)
3711 wl_data
->buf
= (char *) myrealloc (wl_data
->buf
, wl_data
->avail
, wl_data
->incr
);
3713 wl_data
->avail
+= wl_data
->incr
;
3716 const int c
= fgetc (fd
);
3718 if (c
== EOF
) break;
3720 wl_data
->buf
[wl_data
->cnt
] = (char) c
;
3724 if (c
== '\n') break;
3727 // ensure stream ends with a newline
3729 if (wl_data
->buf
[wl_data
->cnt
- 1] != '\n')
3733 wl_data
->buf
[wl_data
->cnt
- 1] = '\n';
3739 static void get_next_word_lm (char *buf
, u32 sz
, u32
*len
, u32
*off
)
3743 for (u32 i
= 0; i
< sz
; i
++, ptr
++)
3745 if (*ptr
>= 'a' && *ptr
<= 'z') *ptr
-= 0x20;
3755 if (*ptr
!= '\n') continue;
3759 if ((i
> 0) && (buf
[i
- 1] == '\r')) i
--;
3770 static void get_next_word_uc (char *buf
, u32 sz
, u32
*len
, u32
*off
)
3774 for (u32 i
= 0; i
< sz
; i
++, ptr
++)
3776 if (*ptr
>= 'a' && *ptr
<= 'z') *ptr
-= 0x20;
3778 if (*ptr
!= '\n') continue;
3782 if ((i
> 0) && (buf
[i
- 1] == '\r')) i
--;
3793 static void get_next_word_std (char *buf
, u32 sz
, u32
*len
, u32
*off
)
3797 for (u32 i
= 0; i
< sz
; i
++, ptr
++)
3799 if (*ptr
!= '\n') continue;
3803 if ((i
> 0) && (buf
[i
- 1] == '\r')) i
--;
3814 static void get_next_word (wl_data_t
*wl_data
, FILE *fd
, char **out_buf
, uint
*out_len
)
3816 while (wl_data
->pos
< wl_data
->cnt
)
3821 char *ptr
= wl_data
->buf
+ wl_data
->pos
;
3823 get_next_word_func (ptr
, wl_data
->cnt
- wl_data
->pos
, &len
, &off
);
3825 wl_data
->pos
+= off
;
3827 if (run_rule_engine (data
.rule_len_l
, data
.rule_buf_l
))
3829 char rule_buf_out
[BLOCK_SIZE
] = { 0 };
3831 int rule_len_out
= -1;
3833 if (len
< BLOCK_SIZE
)
3835 rule_len_out
= _old_apply_rule (data
.rule_buf_l
, data
.rule_len_l
, ptr
, len
, rule_buf_out
);
3838 if (rule_len_out
< 0)
3843 if (rule_len_out
> PW_MAX
)
3864 fprintf (stderr
, "BUG feof()!!\n");
3869 load_segment (wl_data
, fd
);
3871 get_next_word (wl_data
, fd
, out_buf
, out_len
);
3875 static u64
count_words (wl_data_t
*wl_data
, FILE *fd
, char *dictfile
, dictstat_t
*dictstat_base
, size_t *dictstat_nmemb
)
3879 static u64
count_words (wl_data_t
*wl_data
, FILE *fd
, char *dictfile
, dictstat_t
*dictstat_base
, uint
*dictstat_nmemb
)
3889 fstat (fileno (fd
), &d
.stat
);
3893 _fstat64 (fileno (fd
), &d
.stat
);
3897 d
.stat
.st_nlink
= 0;
3901 d
.stat
.st_atime
= 0;
3904 d
.stat
.st_blksize
= 0;
3905 d
.stat
.st_blocks
= 0;
3908 if (d
.stat
.st_size
== 0) return 0;
3910 dictstat_t
*d_cache
= (dictstat_t
*) lfind (&d
, dictstat_base
, dictstat_nmemb
, sizeof (dictstat_t
), sort_by_dictstat
);
3912 if (run_rule_engine (data
.rule_len_l
, data
.rule_buf_l
) == 0)
3916 u64 cnt
= d_cache
->cnt
;
3920 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
)
3922 keyspace
*= data
.kernel_rules_cnt
;
3924 else if (data
.attack_kern
== ATTACK_KERN_COMBI
)
3926 keyspace
*= data
.combs_cnt
;
3929 if (data
.quiet
== 0) log_info ("Cache-hit dictionary stats %s: %llu bytes, %llu words, %llu keyspace", dictfile
, (unsigned long long int) d
.stat
.st_size
, (unsigned long long int) cnt
, (unsigned long long int) keyspace
);
3930 if (data
.quiet
== 0) log_info ("");
3932 hc_signal (sigHandler_default
);
3947 load_segment (wl_data
, fd
);
3949 comp
+= wl_data
->cnt
;
3953 while (i
< wl_data
->cnt
)
3958 get_next_word_func (wl_data
->buf
+ i
, wl_data
->cnt
- i
, &len
, &off
);
3960 if (run_rule_engine (data
.rule_len_l
, data
.rule_buf_l
))
3962 char rule_buf_out
[BLOCK_SIZE
] = { 0 };
3964 int rule_len_out
= -1;
3966 if (len
< BLOCK_SIZE
)
3968 rule_len_out
= _old_apply_rule (data
.rule_buf_l
, data
.rule_len_l
, wl_data
->buf
+ i
, len
, rule_buf_out
);
3971 if (rule_len_out
< 0)
3983 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
)
3985 cnt
+= data
.kernel_rules_cnt
;
3987 else if (data
.attack_kern
== ATTACK_KERN_COMBI
)
3989 cnt
+= data
.combs_cnt
;
4002 if ((now
- prev
) == 0) continue;
4004 float percent
= (float) comp
/ (float) d
.stat
.st_size
;
4006 if (data
.quiet
== 0) log_info_nn ("Generating dictionary stats for %s: %llu bytes (%.2f%%), %llu words, %llu keyspace", dictfile
, (unsigned long long int) comp
, percent
* 100, (unsigned long long int) cnt2
, (unsigned long long int) cnt
);
4011 if (data
.quiet
== 0) log_info ("Generated dictionary stats for %s: %llu bytes, %llu words, %llu keyspace", dictfile
, (unsigned long long int) comp
, (unsigned long long int) cnt2
, (unsigned long long int) cnt
);
4012 if (data
.quiet
== 0) log_info ("");
4014 lsearch (&d
, dictstat_base
, dictstat_nmemb
, sizeof (dictstat_t
), sort_by_dictstat
);
4016 hc_signal (sigHandler_default
);
4021 static void *thread_monitor (void *p
)
4023 uint runtime_check
= 0;
4024 uint remove_check
= 0;
4025 uint status_check
= 0;
4026 uint restore_check
= 0;
4028 uint restore_left
= data
.restore_timer
;
4029 uint remove_left
= data
.remove_timer
;
4030 uint status_left
= data
.status_timer
;
4033 uint hwmon_check
= 0;
4035 int slowdown_warnings
= 0;
4037 // these variables are mainly used for fan control
4039 int *fan_speed_chgd
= (int *) mycalloc (data
.devices_cnt
, sizeof (int));
4041 // temperature controller "loopback" values
4043 int *temp_diff_old
= (int *) mycalloc (data
.devices_cnt
, sizeof (int));
4044 int *temp_diff_sum
= (int *) mycalloc (data
.devices_cnt
, sizeof (int));
4046 int temp_threshold
= 1; // degrees celcius
4048 int fan_speed_min
= 15; // in percentage
4049 int fan_speed_max
= 100;
4051 time_t last_temp_check_time
;
4052 #endif // HAVE_HWMON
4054 uint sleep_time
= 1;
4061 if (data
.restore_timer
)
4066 if ((data
.remove
== 1) && (data
.hashlist_mode
== HL_MODE_FILE
))
4071 if (data
.status
== 1)
4077 if (data
.gpu_temp_disable
== 0)
4079 time (&last_temp_check_time
);
4085 if ((runtime_check
== 0) && (remove_check
== 0) && (status_check
== 0) && (restore_check
== 0))
4088 if (hwmon_check
== 0)
4093 while ((data
.devices_status
!= STATUS_EXHAUSTED
) && (data
.devices_status
!= STATUS_CRACKED
) && (data
.devices_status
!= STATUS_ABORTED
) && (data
.devices_status
!= STATUS_QUIT
))
4095 hc_sleep (sleep_time
);
4097 if (data
.devices_status
!= STATUS_RUNNING
) continue;
4101 if (hwmon_check
== 1)
4103 hc_thread_mutex_lock (mux_adl
);
4105 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
4107 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
4109 if (device_param
->skipped
) continue;
4111 if (device_param
->device_vendor_id
== VENDOR_ID_NV
)
4115 NV_GPU_PERF_POLICIES_INFO_PARAMS_V1 perfPolicies_info
= { 0 };
4116 NV_GPU_PERF_POLICIES_STATUS_PARAMS_V1 perfPolicies_status
= { 0 };
4118 perfPolicies_info
.version
= MAKE_NVAPI_VERSION (NV_GPU_PERF_POLICIES_INFO_PARAMS_V1
, 1);
4119 perfPolicies_status
.version
= MAKE_NVAPI_VERSION (NV_GPU_PERF_POLICIES_STATUS_PARAMS_V1
, 1);
4121 hm_NvAPI_GPU_GetPerfPoliciesInfo (data
.hm_nvapi
, data
.hm_device
[device_id
].nvapi
, &perfPolicies_info
);
4123 perfPolicies_status
.info_value
= perfPolicies_info
.info_value
;
4125 hm_NvAPI_GPU_GetPerfPoliciesStatus (data
.hm_nvapi
, data
.hm_device
[device_id
].nvapi
, &perfPolicies_status
);
4127 if (perfPolicies_status
.throttle
& 2)
4129 if (slowdown_warnings
< 3)
4131 if (data
.quiet
== 0) clear_prompt ();
4133 log_info ("WARNING: Drivers temperature threshold hit on GPU #%d, expect performance to drop...", device_id
+ 1);
4135 if (slowdown_warnings
== 2)
4140 if (data
.quiet
== 0) fprintf (stdout
, "%s", PROMPT
);
4141 if (data
.quiet
== 0) fflush (stdout
);
4143 slowdown_warnings
++;
4148 slowdown_warnings
= 0;
4154 hc_thread_mutex_unlock (mux_adl
);
4157 if (hwmon_check
== 1)
4159 hc_thread_mutex_lock (mux_adl
);
4161 time_t temp_check_time
;
4163 time (&temp_check_time
);
4165 uint Ta
= temp_check_time
- last_temp_check_time
; // set Ta = sleep_time; is not good enough (see --remove etc)
4167 if (Ta
== 0) Ta
= 1;
4169 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
4171 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
4173 if (device_param
->skipped
) continue;
4175 if ((data
.devices_param
[device_id
].device_type
& CL_DEVICE_TYPE_GPU
) == 0) continue;
4177 const int temperature
= hm_get_temperature_with_device_id (device_id
);
4179 if (temperature
> (int) data
.gpu_temp_abort
)
4181 log_error ("ERROR: Temperature limit on GPU %d reached, aborting...", device_id
+ 1);
4183 if (data
.devices_status
!= STATUS_QUIT
) myabort ();
4188 const int gpu_temp_retain
= data
.gpu_temp_retain
;
4190 if (gpu_temp_retain
)
4192 if (data
.hm_device
[device_id
].fan_set_supported
== 1)
4194 int temp_cur
= temperature
;
4196 int temp_diff_new
= gpu_temp_retain
- temp_cur
;
4198 temp_diff_sum
[device_id
] = temp_diff_sum
[device_id
] + temp_diff_new
;
4200 // calculate Ta value (time difference in seconds between the last check and this check)
4202 last_temp_check_time
= temp_check_time
;
4208 // PID controller (3-term controller: proportional - Kp, integral - Ki, derivative - Kd)
4210 int fan_diff_required
= (int) (Kp
* (float)temp_diff_new
+ Ki
* Ta
* (float)temp_diff_sum
[device_id
] + Kd
* ((float)(temp_diff_new
- temp_diff_old
[device_id
])) / Ta
);
4212 if (abs (fan_diff_required
) >= temp_threshold
)
4214 const int fan_speed_cur
= hm_get_fanspeed_with_device_id (device_id
);
4216 int fan_speed_level
= fan_speed_cur
;
4218 if (fan_speed_chgd
[device_id
] == 0) fan_speed_level
= temp_cur
;
4220 int fan_speed_new
= fan_speed_level
- fan_diff_required
;
4222 if (fan_speed_new
> fan_speed_max
) fan_speed_new
= fan_speed_max
;
4223 if (fan_speed_new
< fan_speed_min
) fan_speed_new
= fan_speed_min
;
4225 if (fan_speed_new
!= fan_speed_cur
)
4227 int freely_change_fan_speed
= (fan_speed_chgd
[device_id
] == 1);
4228 int fan_speed_must_change
= (fan_speed_new
> fan_speed_cur
);
4230 if ((freely_change_fan_speed
== 1) || (fan_speed_must_change
== 1))
4232 if (device_param
->device_vendor_id
== VENDOR_ID_AMD
)
4234 hm_set_fanspeed_with_device_id_adl (device_id
, fan_speed_new
, 1);
4236 else if (device_param
->device_vendor_id
== VENDOR_ID_NV
)
4239 hm_set_fanspeed_with_device_id_xnvctrl (device_id
, fan_speed_new
);
4243 fan_speed_chgd
[device_id
] = 1;
4246 temp_diff_old
[device_id
] = temp_diff_new
;
4253 hc_thread_mutex_unlock (mux_adl
);
4255 #endif // HAVE_HWMON
4257 if (restore_check
== 1)
4261 if (restore_left
== 0)
4263 if (data
.restore_disable
== 0) cycle_restore ();
4265 restore_left
= data
.restore_timer
;
4269 if ((runtime_check
== 1) && (data
.runtime_start
> 0))
4273 time (&runtime_cur
);
4275 int runtime_left
= data
.runtime_start
+ data
.runtime
- runtime_cur
;
4277 if (runtime_left
<= 0)
4279 if (data
.benchmark
== 0)
4281 if (data
.quiet
== 0) log_info ("\nNOTE: Runtime limit reached, aborting...\n");
4284 if (data
.devices_status
!= STATUS_QUIT
) myabort ();
4288 if (remove_check
== 1)
4292 if (remove_left
== 0)
4294 if (data
.digests_saved
!= data
.digests_done
)
4296 data
.digests_saved
= data
.digests_done
;
4301 remove_left
= data
.remove_timer
;
4305 if (status_check
== 1)
4309 if (status_left
== 0)
4311 //hc_thread_mutex_lock (mux_display);
4313 if (data
.quiet
== 0) clear_prompt ();
4315 if (data
.quiet
== 0) log_info ("");
4319 if (data
.quiet
== 0) log_info ("");
4321 //hc_thread_mutex_unlock (mux_display);
4323 status_left
= data
.status_timer
;
4329 myfree (fan_speed_chgd
);
4331 myfree (temp_diff_old
);
4332 myfree (temp_diff_sum
);
4340 static void *thread_outfile_remove (void *p
)
4342 // some hash-dependent constants
4343 char *outfile_dir
= data
.outfile_check_directory
;
4344 uint dgst_size
= data
.dgst_size
;
4345 uint isSalted
= data
.isSalted
;
4346 uint esalt_size
= data
.esalt_size
;
4347 uint hash_mode
= data
.hash_mode
;
4349 uint outfile_check_timer
= data
.outfile_check_timer
;
4351 char separator
= data
.separator
;
4353 // some hash-dependent functions
4354 int (*sort_by_digest
) (const void *, const void *) = data
.sort_by_digest
;
4355 int (*parse_func
) (char *, uint
, hash_t
*) = data
.parse_func
;
4358 hash_t hash_buf
= { 0, 0, 0, 0, 0 };
4360 hash_buf
.digest
= mymalloc (dgst_size
);
4362 if (isSalted
) hash_buf
.salt
= (salt_t
*) mymalloc (sizeof (salt_t
));
4364 if (esalt_size
) hash_buf
.esalt
= (void *) mymalloc (esalt_size
);
4366 uint digest_buf
[64] = { 0 };
4368 outfile_data_t
*out_info
= NULL
;
4370 char **out_files
= NULL
;
4372 time_t folder_mtime
= 0;
4376 uint check_left
= outfile_check_timer
; // or 1 if we want to check it at startup
4378 while ((data
.devices_status
!= STATUS_EXHAUSTED
) && (data
.devices_status
!= STATUS_CRACKED
) && (data
.devices_status
!= STATUS_ABORTED
) && (data
.devices_status
!= STATUS_QUIT
))
4382 if (data
.devices_status
!= STATUS_RUNNING
) continue;
4386 if (check_left
== 0)
4388 struct stat outfile_check_stat
;
4390 if (stat (outfile_dir
, &outfile_check_stat
) == 0)
4392 uint is_dir
= S_ISDIR (outfile_check_stat
.st_mode
);
4396 if (outfile_check_stat
.st_mtime
> folder_mtime
)
4398 char **out_files_new
= scan_directory (outfile_dir
);
4400 int out_cnt_new
= count_dictionaries (out_files_new
);
4402 outfile_data_t
*out_info_new
= NULL
;
4404 if (out_cnt_new
> 0)
4406 out_info_new
= (outfile_data_t
*) mycalloc (out_cnt_new
, sizeof (outfile_data_t
));
4408 for (int i
= 0; i
< out_cnt_new
; i
++)
4410 out_info_new
[i
].file_name
= out_files_new
[i
];
4412 // check if there are files that we have seen/checked before (and not changed)
4414 for (int j
= 0; j
< out_cnt
; j
++)
4416 if (strcmp (out_info
[j
].file_name
, out_info_new
[i
].file_name
) == 0)
4418 struct stat outfile_stat
;
4420 if (stat (out_info_new
[i
].file_name
, &outfile_stat
) == 0)
4422 if (outfile_stat
.st_ctime
== out_info
[j
].ctime
)
4424 out_info_new
[i
].ctime
= out_info
[j
].ctime
;
4425 out_info_new
[i
].seek
= out_info
[j
].seek
;
4433 local_free (out_info
);
4434 local_free (out_files
);
4436 out_files
= out_files_new
;
4437 out_cnt
= out_cnt_new
;
4438 out_info
= out_info_new
;
4440 folder_mtime
= outfile_check_stat
.st_mtime
;
4443 for (int j
= 0; j
< out_cnt
; j
++)
4445 FILE *fp
= fopen (out_info
[j
].file_name
, "rb");
4449 //hc_thread_mutex_lock (mux_display);
4452 struct stat outfile_stat
;
4454 fstat (fileno (fp
), &outfile_stat
);
4458 struct stat64 outfile_stat
;
4460 _fstat64 (fileno (fp
), &outfile_stat
);
4463 if (outfile_stat
.st_ctime
> out_info
[j
].ctime
)
4465 out_info
[j
].ctime
= outfile_stat
.st_ctime
;
4466 out_info
[j
].seek
= 0;
4469 fseek (fp
, out_info
[j
].seek
, SEEK_SET
);
4471 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
4475 char *ptr
= fgets (line_buf
, HCBUFSIZ
- 1, fp
);
4477 if (ptr
== NULL
) break;
4479 int line_len
= strlen (line_buf
);
4481 if (line_len
<= 0) continue;
4483 int iter
= MAX_CUT_TRIES
;
4485 for (uint i
= line_len
- 1; i
&& iter
; i
--, line_len
--)
4487 if (line_buf
[i
] != separator
) continue;
4489 int parser_status
= PARSER_OK
;
4491 if ((hash_mode
!= 2500) && (hash_mode
!= 6800))
4493 parser_status
= parse_func (line_buf
, line_len
- 1, &hash_buf
);
4498 if (parser_status
== PARSER_OK
)
4500 for (uint salt_pos
= 0; (found
== 0) && (salt_pos
< data
.salts_cnt
); salt_pos
++)
4502 if (data
.salts_shown
[salt_pos
] == 1) continue;
4504 salt_t
*salt_buf
= &data
.salts_buf
[salt_pos
];
4506 for (uint digest_pos
= 0; (found
== 0) && (digest_pos
< salt_buf
->digests_cnt
); digest_pos
++)
4508 uint idx
= salt_buf
->digests_offset
+ digest_pos
;
4510 if (data
.digests_shown
[idx
] == 1) continue;
4514 if (hash_mode
== 6800)
4516 if (i
== salt_buf
->salt_len
)
4518 cracked
= (memcmp (line_buf
, salt_buf
->salt_buf
, salt_buf
->salt_len
) == 0);
4521 else if (hash_mode
== 2500)
4523 // BSSID : MAC1 : MAC2 (:plain)
4524 if (i
== (salt_buf
->salt_len
+ 1 + 12 + 1 + 12))
4526 cracked
= (memcmp (line_buf
, salt_buf
->salt_buf
, salt_buf
->salt_len
) == 0);
4528 if (!cracked
) continue;
4530 // now compare MAC1 and MAC2 too, since we have this additional info
4531 char *mac1_pos
= line_buf
+ salt_buf
->salt_len
+ 1;
4532 char *mac2_pos
= mac1_pos
+ 12 + 1;
4534 wpa_t
*wpas
= (wpa_t
*) data
.esalts_buf
;
4535 wpa_t
*wpa
= &wpas
[salt_pos
];
4537 // compare hex string(s) vs binary MAC address(es)
4539 for (uint i
= 0, j
= 0; i
< 6; i
++, j
+= 2)
4541 if (wpa
->orig_mac1
[i
] != hex_to_u8 ((const u8
*) &mac1_pos
[j
]))
4550 if (!cracked
) continue;
4552 for (uint i
= 0, j
= 0; i
< 6; i
++, j
+= 2)
4554 if (wpa
->orig_mac2
[i
] != hex_to_u8 ((const u8
*) &mac2_pos
[j
]))
4565 char *digests_buf_ptr
= (char *) data
.digests_buf
;
4567 memcpy (digest_buf
, digests_buf_ptr
+ (data
.salts_buf
[salt_pos
].digests_offset
* dgst_size
) + (digest_pos
* dgst_size
), dgst_size
);
4569 cracked
= (sort_by_digest (digest_buf
, hash_buf
.digest
) == 0);
4576 data
.digests_shown
[idx
] = 1;
4578 data
.digests_done
++;
4580 salt_buf
->digests_done
++;
4582 if (salt_buf
->digests_done
== salt_buf
->digests_cnt
)
4584 data
.salts_shown
[salt_pos
] = 1;
4588 if (data
.salts_done
== data
.salts_cnt
) data
.devices_status
= STATUS_CRACKED
;
4593 if (data
.devices_status
== STATUS_CRACKED
) break;
4599 if (data
.devices_status
== STATUS_CRACKED
) break;
4604 if (data
.devices_status
== STATUS_CRACKED
) break;
4609 out_info
[j
].seek
= ftell (fp
);
4611 //hc_thread_mutex_unlock (mux_display);
4619 check_left
= outfile_check_timer
;
4623 if (esalt_size
) local_free (hash_buf
.esalt
);
4625 if (isSalted
) local_free (hash_buf
.salt
);
4627 local_free (hash_buf
.digest
);
4629 local_free (out_info
);
4631 local_free (out_files
);
4638 static void pw_add (hc_device_param_t
*device_param
, const u8
*pw_buf
, const int pw_len
)
4640 //if (device_param->pws_cnt < device_param->kernel_power)
4642 pw_t
*pw
= (pw_t
*) device_param
->pws_buf
+ device_param
->pws_cnt
;
4644 u8
*ptr
= (u8
*) pw
->i
;
4646 memcpy (ptr
, pw_buf
, pw_len
);
4648 memset (ptr
+ pw_len
, 0, sizeof (pw
->i
) - pw_len
);
4650 pw
->pw_len
= pw_len
;
4652 device_param
->pws_cnt
++;
4656 // fprintf (stderr, "BUG pw_add()!!\n");
4662 static void set_kernel_power_final (const u64 kernel_power_final
)
4664 if (data
.quiet
== 0)
4670 log_info ("INFO: approaching final keyspace, workload adjusted");
4673 fprintf (stdout
, "%s", PROMPT
);
4678 data
.kernel_power_final
= kernel_power_final
;
4681 static u32
get_power (hc_device_param_t
*device_param
)
4683 const u64 kernel_power_final
= data
.kernel_power_final
;
4685 if (kernel_power_final
)
4687 const double device_factor
= (double) device_param
->hardware_power
/ data
.hardware_power_all
;
4689 const u64 words_left_device
= CEIL ((double) kernel_power_final
* device_factor
);
4691 // work should be at least the hardware power available without any accelerator
4693 const u64 work
= MAX (words_left_device
, device_param
->hardware_power
);
4698 return device_param
->kernel_power
;
4701 static uint
get_work (hc_device_param_t
*device_param
, const u64 max
)
4703 hc_thread_mutex_lock (mux_dispatcher
);
4705 const u64 words_cur
= data
.words_cur
;
4706 const u64 words_base
= (data
.limit
== 0) ? data
.words_base
: data
.limit
;
4708 device_param
->words_off
= words_cur
;
4710 const u64 kernel_power_all
= data
.kernel_power_all
;
4712 const u64 words_left
= words_base
- words_cur
;
4714 if (words_left
< kernel_power_all
)
4716 if (data
.kernel_power_final
== 0)
4718 set_kernel_power_final (words_left
);
4722 const u32 kernel_power
= get_power (device_param
);
4724 uint work
= MIN (words_left
, kernel_power
);
4726 work
= MIN (work
, max
);
4728 data
.words_cur
+= work
;
4730 hc_thread_mutex_unlock (mux_dispatcher
);
4735 static void *thread_autotune (void *p
)
4737 hc_device_param_t
*device_param
= (hc_device_param_t
*) p
;
4739 if (device_param
->skipped
) return NULL
;
4741 autotune (device_param
);
4746 static void *thread_calc_stdin (void *p
)
4748 hc_device_param_t
*device_param
= (hc_device_param_t
*) p
;
4750 if (device_param
->skipped
) return NULL
;
4752 char *buf
= (char *) mymalloc (HCBUFSIZ
);
4754 const uint attack_kern
= data
.attack_kern
;
4756 while ((data
.devices_status
!= STATUS_EXHAUSTED
) && (data
.devices_status
!= STATUS_CRACKED
) && (data
.devices_status
!= STATUS_ABORTED
) && (data
.devices_status
!= STATUS_QUIT
))
4758 hc_thread_mutex_lock (mux_dispatcher
);
4760 if (feof (stdin
) != 0)
4762 hc_thread_mutex_unlock (mux_dispatcher
);
4769 while (words_cur
< device_param
->kernel_power
)
4771 char *line_buf
= fgets (buf
, HCBUFSIZ
- 1, stdin
);
4773 if (line_buf
== NULL
) break;
4775 uint line_len
= in_superchop (line_buf
);
4777 line_len
= convert_from_hex (line_buf
, line_len
);
4779 // post-process rule engine
4781 if (run_rule_engine (data
.rule_len_l
, data
.rule_buf_l
))
4783 char rule_buf_out
[BLOCK_SIZE
] = { 0 };
4785 int rule_len_out
= -1;
4787 if (line_len
< BLOCK_SIZE
)
4789 rule_len_out
= _old_apply_rule (data
.rule_buf_l
, data
.rule_len_l
, line_buf
, line_len
, rule_buf_out
);
4792 if (rule_len_out
< 0) continue;
4794 line_buf
= rule_buf_out
;
4795 line_len
= rule_len_out
;
4798 if (line_len
> PW_MAX
)
4803 // hmm that's always the case, or?
4805 if (attack_kern
== ATTACK_KERN_STRAIGHT
)
4807 if ((line_len
< data
.pw_min
) || (line_len
> data
.pw_max
))
4809 hc_thread_mutex_lock (mux_counter
);
4811 for (uint salt_pos
= 0; salt_pos
< data
.salts_cnt
; salt_pos
++)
4813 data
.words_progress_rejected
[salt_pos
] += data
.kernel_rules_cnt
;
4816 hc_thread_mutex_unlock (mux_counter
);
4822 pw_add (device_param
, (u8
*) line_buf
, line_len
);
4826 if (data
.devices_status
== STATUS_CRACKED
) break;
4827 if (data
.devices_status
== STATUS_ABORTED
) break;
4828 if (data
.devices_status
== STATUS_QUIT
) break;
4829 if (data
.devices_status
== STATUS_BYPASS
) break;
4832 hc_thread_mutex_unlock (mux_dispatcher
);
4834 if (data
.devices_status
== STATUS_CRACKED
) break;
4835 if (data
.devices_status
== STATUS_ABORTED
) break;
4836 if (data
.devices_status
== STATUS_QUIT
) break;
4837 if (data
.devices_status
== STATUS_BYPASS
) break;
4841 const uint pws_cnt
= device_param
->pws_cnt
;
4845 run_copy (device_param
, pws_cnt
);
4847 run_cracker (device_param
, pws_cnt
);
4849 device_param
->pws_cnt
= 0;
4853 if (attack_kern == ATTACK_KERN_STRAIGHT)
4855 run_kernel_bzero (device_param, device_param->d_rules_c, device_param->size_rules_c);
4857 else if (attack_kern == ATTACK_KERN_COMBI)
4859 run_kernel_bzero (device_param, device_param->d_combs_c, device_param->size_combs);
4865 device_param
->kernel_accel
= 0;
4866 device_param
->kernel_loops
= 0;
4873 static void *thread_calc (void *p
)
4875 hc_device_param_t
*device_param
= (hc_device_param_t
*) p
;
4877 if (device_param
->skipped
) return NULL
;
4879 const uint attack_mode
= data
.attack_mode
;
4880 const uint attack_kern
= data
.attack_kern
;
4882 if (attack_mode
== ATTACK_MODE_BF
)
4884 while ((data
.devices_status
!= STATUS_EXHAUSTED
) && (data
.devices_status
!= STATUS_CRACKED
) && (data
.devices_status
!= STATUS_ABORTED
) && (data
.devices_status
!= STATUS_QUIT
))
4886 const uint work
= get_work (device_param
, -1);
4888 if (work
== 0) break;
4890 const u64 words_off
= device_param
->words_off
;
4891 const u64 words_fin
= words_off
+ work
;
4893 const uint pws_cnt
= work
;
4895 device_param
->pws_cnt
= pws_cnt
;
4899 run_copy (device_param
, pws_cnt
);
4901 run_cracker (device_param
, pws_cnt
);
4903 device_param
->pws_cnt
= 0;
4907 run_kernel_bzero (device_param, device_param->d_bfs_c, device_param->size_bfs);
4911 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
4913 if (data
.devices_status
== STATUS_CRACKED
) break;
4914 if (data
.devices_status
== STATUS_ABORTED
) break;
4915 if (data
.devices_status
== STATUS_QUIT
) break;
4916 if (data
.devices_status
== STATUS_BYPASS
) break;
4918 if (data
.benchmark
== 1) break;
4920 device_param
->words_done
= words_fin
;
4925 const uint segment_size
= data
.segment_size
;
4927 char *dictfile
= data
.dictfile
;
4929 if (attack_mode
== ATTACK_MODE_COMBI
)
4931 if (data
.combs_mode
== COMBINATOR_MODE_BASE_RIGHT
)
4933 dictfile
= data
.dictfile2
;
4937 FILE *fd
= fopen (dictfile
, "rb");
4941 log_error ("ERROR: %s: %s", dictfile
, strerror (errno
));
4946 if (attack_mode
== ATTACK_MODE_COMBI
)
4948 const uint combs_mode
= data
.combs_mode
;
4950 if (combs_mode
== COMBINATOR_MODE_BASE_LEFT
)
4952 const char *dictfilec
= data
.dictfile2
;
4954 FILE *combs_fp
= fopen (dictfilec
, "rb");
4956 if (combs_fp
== NULL
)
4958 log_error ("ERROR: %s: %s", dictfilec
, strerror (errno
));
4965 device_param
->combs_fp
= combs_fp
;
4967 else if (combs_mode
== COMBINATOR_MODE_BASE_RIGHT
)
4969 const char *dictfilec
= data
.dictfile
;
4971 FILE *combs_fp
= fopen (dictfilec
, "rb");
4973 if (combs_fp
== NULL
)
4975 log_error ("ERROR: %s: %s", dictfilec
, strerror (errno
));
4982 device_param
->combs_fp
= combs_fp
;
4986 wl_data_t
*wl_data
= (wl_data_t
*) mymalloc (sizeof (wl_data_t
));
4988 wl_data
->buf
= (char *) mymalloc (segment_size
);
4989 wl_data
->avail
= segment_size
;
4990 wl_data
->incr
= segment_size
;
4996 while ((data
.devices_status
!= STATUS_EXHAUSTED
) && (data
.devices_status
!= STATUS_CRACKED
) && (data
.devices_status
!= STATUS_ABORTED
) && (data
.devices_status
!= STATUS_QUIT
))
5005 const uint work
= get_work (device_param
, max
);
5007 if (work
== 0) break;
5011 words_off
= device_param
->words_off
;
5012 words_fin
= words_off
+ work
;
5017 for ( ; words_cur
< words_off
; words_cur
++) get_next_word (wl_data
, fd
, &line_buf
, &line_len
);
5019 for ( ; words_cur
< words_fin
; words_cur
++)
5021 get_next_word (wl_data
, fd
, &line_buf
, &line_len
);
5023 line_len
= convert_from_hex (line_buf
, line_len
);
5025 // post-process rule engine
5027 if (run_rule_engine (data
.rule_len_l
, data
.rule_buf_l
))
5029 char rule_buf_out
[BLOCK_SIZE
] = { 0 };
5031 int rule_len_out
= -1;
5033 if (line_len
< BLOCK_SIZE
)
5035 rule_len_out
= _old_apply_rule (data
.rule_buf_l
, data
.rule_len_l
, line_buf
, line_len
, rule_buf_out
);
5038 if (rule_len_out
< 0) continue;
5040 line_buf
= rule_buf_out
;
5041 line_len
= rule_len_out
;
5044 if (attack_kern
== ATTACK_KERN_STRAIGHT
)
5046 if ((line_len
< data
.pw_min
) || (line_len
> data
.pw_max
))
5050 hc_thread_mutex_lock (mux_counter
);
5052 for (uint salt_pos
= 0; salt_pos
< data
.salts_cnt
; salt_pos
++)
5054 data
.words_progress_rejected
[salt_pos
] += data
.kernel_rules_cnt
;
5057 hc_thread_mutex_unlock (mux_counter
);
5062 else if (attack_kern
== ATTACK_KERN_COMBI
)
5064 // do not check if minimum restriction is satisfied (line_len >= data.pw_min) here
5065 // since we still need to combine the plains
5067 if (line_len
> data
.pw_max
)
5071 hc_thread_mutex_lock (mux_counter
);
5073 for (uint salt_pos
= 0; salt_pos
< data
.salts_cnt
; salt_pos
++)
5075 data
.words_progress_rejected
[salt_pos
] += data
.combs_cnt
;
5078 hc_thread_mutex_unlock (mux_counter
);
5084 pw_add (device_param
, (u8
*) line_buf
, line_len
);
5086 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
5088 if (data
.devices_status
== STATUS_CRACKED
) break;
5089 if (data
.devices_status
== STATUS_ABORTED
) break;
5090 if (data
.devices_status
== STATUS_QUIT
) break;
5091 if (data
.devices_status
== STATUS_BYPASS
) break;
5094 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
5096 if (data
.devices_status
== STATUS_CRACKED
) break;
5097 if (data
.devices_status
== STATUS_ABORTED
) break;
5098 if (data
.devices_status
== STATUS_QUIT
) break;
5099 if (data
.devices_status
== STATUS_BYPASS
) break;
5102 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
5104 if (data
.devices_status
== STATUS_CRACKED
) break;
5105 if (data
.devices_status
== STATUS_ABORTED
) break;
5106 if (data
.devices_status
== STATUS_QUIT
) break;
5107 if (data
.devices_status
== STATUS_BYPASS
) break;
5113 const uint pws_cnt
= device_param
->pws_cnt
;
5117 run_copy (device_param
, pws_cnt
);
5119 run_cracker (device_param
, pws_cnt
);
5121 device_param
->pws_cnt
= 0;
5125 if (attack_kern == ATTACK_KERN_STRAIGHT)
5127 run_kernel_bzero (device_param, device_param->d_rules_c, device_param->size_rules_c);
5129 else if (attack_kern == ATTACK_KERN_COMBI)
5131 run_kernel_bzero (device_param, device_param->d_combs_c, device_param->size_combs);
5136 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
5138 if (data
.devices_status
== STATUS_CRACKED
) break;
5139 if (data
.devices_status
== STATUS_ABORTED
) break;
5140 if (data
.devices_status
== STATUS_QUIT
) break;
5141 if (data
.devices_status
== STATUS_BYPASS
) break;
5143 if (words_fin
== 0) break;
5145 device_param
->words_done
= words_fin
;
5148 if (attack_mode
== ATTACK_MODE_COMBI
)
5150 fclose (device_param
->combs_fp
);
5153 free (wl_data
->buf
);
5159 device_param
->kernel_accel
= 0;
5160 device_param
->kernel_loops
= 0;
5165 static void weak_hash_check (hc_device_param_t
*device_param
, const uint salt_pos
)
5169 log_error ("ERROR: %s : Invalid argument", __func__
);
5174 salt_t
*salt_buf
= &data
.salts_buf
[salt_pos
];
5176 device_param
->kernel_params_buf32
[24] = salt_pos
;
5177 device_param
->kernel_params_buf32
[27] = 1;
5178 device_param
->kernel_params_buf32
[28] = salt_buf
->digests_cnt
;
5179 device_param
->kernel_params_buf32
[29] = salt_buf
->digests_offset
;
5180 device_param
->kernel_params_buf32
[30] = 0;
5181 device_param
->kernel_params_buf32
[31] = 1;
5183 char *dictfile_old
= data
.dictfile
;
5185 const char *weak_hash_check
= "weak-hash-check";
5187 data
.dictfile
= (char *) weak_hash_check
;
5189 uint cmd0_rule_old
= data
.kernel_rules_buf
[0].cmds
[0];
5191 data
.kernel_rules_buf
[0].cmds
[0] = 0;
5197 if (data
.attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
5199 run_kernel (KERN_RUN_1
, device_param
, 1, false, 0);
5203 run_kernel (KERN_RUN_1
, device_param
, 1, false, 0);
5205 uint loop_step
= 16;
5207 const uint iter
= salt_buf
->salt_iter
;
5209 for (uint loop_pos
= 0; loop_pos
< iter
; loop_pos
+= loop_step
)
5211 uint loop_left
= iter
- loop_pos
;
5213 loop_left
= MIN (loop_left
, loop_step
);
5215 device_param
->kernel_params_buf32
[25] = loop_pos
;
5216 device_param
->kernel_params_buf32
[26] = loop_left
;
5218 run_kernel (KERN_RUN_2
, device_param
, 1, false, 0);
5221 run_kernel (KERN_RUN_3
, device_param
, 1, false, 0);
5228 check_cracked (device_param
, salt_pos
);
5234 device_param
->kernel_params_buf32
[24] = 0;
5235 device_param
->kernel_params_buf32
[25] = 0;
5236 device_param
->kernel_params_buf32
[26] = 0;
5237 device_param
->kernel_params_buf32
[27] = 0;
5238 device_param
->kernel_params_buf32
[28] = 0;
5239 device_param
->kernel_params_buf32
[29] = 0;
5240 device_param
->kernel_params_buf32
[30] = 0;
5241 device_param
->kernel_params_buf32
[31] = 0;
5243 data
.dictfile
= dictfile_old
;
5245 data
.kernel_rules_buf
[0].cmds
[0] = cmd0_rule_old
;
5250 static void hlfmt_hash_hashcat (char *line_buf
, int line_len
, char **hashbuf_pos
, int *hashbuf_len
)
5252 if (data
.username
== 0)
5254 *hashbuf_pos
= line_buf
;
5255 *hashbuf_len
= line_len
;
5259 char *pos
= line_buf
;
5262 for (int i
= 0; i
< line_len
; i
++, pos
++, len
--)
5264 if (line_buf
[i
] == data
.separator
)
5279 static void hlfmt_user_hashcat (char *line_buf
, int line_len
, char **userbuf_pos
, int *userbuf_len
)
5286 for (int i
= 0; i
< line_len
; i
++)
5288 if (line_buf
[i
] == data
.separator
)
5297 if (pos
== NULL
) pos
= line_buf
+ i
;
5309 static int hlfmt_detect_pwdump (char *line_buf
, int line_len
)
5316 for (int i
= 0; i
< line_len
; i
++)
5318 if (line_buf
[i
] == ':')
5325 if (sep_cnt
== 2) sep2_len
++;
5326 if (sep_cnt
== 3) sep3_len
++;
5329 if ((sep_cnt
== 6) && ((sep2_len
== 32) || (sep3_len
== 32))) return 1;
5334 static void hlfmt_hash_pwdump (char *line_buf
, int line_len
, char **hashbuf_pos
, int *hashbuf_len
)
5341 for (int i
= 0; i
< line_len
; i
++)
5343 if (line_buf
[i
] == ':')
5350 if (data
.hash_mode
== 1000)
5354 if (pos
== NULL
) pos
= line_buf
+ i
;
5359 else if (data
.hash_mode
== 3000)
5363 if (pos
== NULL
) pos
= line_buf
+ i
;
5374 static void hlfmt_user_pwdump (char *line_buf
, int line_len
, char **userbuf_pos
, int *userbuf_len
)
5381 for (int i
= 0; i
< line_len
; i
++)
5383 if (line_buf
[i
] == ':')
5392 if (pos
== NULL
) pos
= line_buf
+ i
;
5404 static int hlfmt_detect_passwd (char *line_buf
, int line_len
)
5408 char sep5_first
= 0;
5409 char sep6_first
= 0;
5411 for (int i
= 0; i
< line_len
; i
++)
5413 if (line_buf
[i
] == ':')
5420 if (sep_cnt
== 5) if (sep5_first
== 0) sep5_first
= line_buf
[i
];
5421 if (sep_cnt
== 6) if (sep6_first
== 0) sep6_first
= line_buf
[i
];
5424 if ((sep_cnt
== 6) && ((sep5_first
== '/') || (sep6_first
== '/'))) return 1;
5429 static void hlfmt_hash_passwd (char *line_buf
, int line_len
, char **hashbuf_pos
, int *hashbuf_len
)
5436 for (int i
= 0; i
< line_len
; i
++)
5438 if (line_buf
[i
] == ':')
5447 if (pos
== NULL
) pos
= line_buf
+ i
;
5457 static void hlfmt_user_passwd (char *line_buf
, int line_len
, char **userbuf_pos
, int *userbuf_len
)
5464 for (int i
= 0; i
< line_len
; i
++)
5466 if (line_buf
[i
] == ':')
5475 if (pos
== NULL
) pos
= line_buf
+ i
;
5487 static int hlfmt_detect_shadow (char *line_buf
, int line_len
)
5491 for (int i
= 0; i
< line_len
; i
++)
5493 if (line_buf
[i
] == ':') sep_cnt
++;
5496 if (sep_cnt
== 8) return 1;
5501 static void hlfmt_hash_shadow (char *line_buf
, int line_len
, char **hashbuf_pos
, int *hashbuf_len
)
5503 hlfmt_hash_passwd (line_buf
, line_len
, hashbuf_pos
, hashbuf_len
);
5506 static void hlfmt_user_shadow (char *line_buf
, int line_len
, char **userbuf_pos
, int *userbuf_len
)
5508 hlfmt_user_passwd (line_buf
, line_len
, userbuf_pos
, userbuf_len
);
5513 static void hlfmt_hash (uint hashfile_format
, char *line_buf
, int line_len
, char **hashbuf_pos
, int *hashbuf_len
)
5515 switch (hashfile_format
)
5517 case HLFMT_HASHCAT
: hlfmt_hash_hashcat (line_buf
, line_len
, hashbuf_pos
, hashbuf_len
); break;
5518 case HLFMT_PWDUMP
: hlfmt_hash_pwdump (line_buf
, line_len
, hashbuf_pos
, hashbuf_len
); break;
5519 case HLFMT_PASSWD
: hlfmt_hash_passwd (line_buf
, line_len
, hashbuf_pos
, hashbuf_len
); break;
5520 case HLFMT_SHADOW
: hlfmt_hash_shadow (line_buf
, line_len
, hashbuf_pos
, hashbuf_len
); break;
5524 static void hlfmt_user (uint hashfile_format
, char *line_buf
, int line_len
, char **userbuf_pos
, int *userbuf_len
)
5526 switch (hashfile_format
)
5528 case HLFMT_HASHCAT
: hlfmt_user_hashcat (line_buf
, line_len
, userbuf_pos
, userbuf_len
); break;
5529 case HLFMT_PWDUMP
: hlfmt_user_pwdump (line_buf
, line_len
, userbuf_pos
, userbuf_len
); break;
5530 case HLFMT_PASSWD
: hlfmt_user_passwd (line_buf
, line_len
, userbuf_pos
, userbuf_len
); break;
5531 case HLFMT_SHADOW
: hlfmt_user_shadow (line_buf
, line_len
, userbuf_pos
, userbuf_len
); break;
5535 char *strhlfmt (const uint hashfile_format
)
5537 switch (hashfile_format
)
5539 case HLFMT_HASHCAT
: return ((char *) HLFMT_TEXT_HASHCAT
); break;
5540 case HLFMT_PWDUMP
: return ((char *) HLFMT_TEXT_PWDUMP
); break;
5541 case HLFMT_PASSWD
: return ((char *) HLFMT_TEXT_PASSWD
); break;
5542 case HLFMT_SHADOW
: return ((char *) HLFMT_TEXT_SHADOW
); break;
5543 case HLFMT_DCC
: return ((char *) HLFMT_TEXT_DCC
); break;
5544 case HLFMT_DCC2
: return ((char *) HLFMT_TEXT_DCC2
); break;
5545 case HLFMT_NETNTLM1
: return ((char *) HLFMT_TEXT_NETNTLM1
); break;
5546 case HLFMT_NETNTLM2
: return ((char *) HLFMT_TEXT_NETNTLM2
); break;
5547 case HLFMT_NSLDAP
: return ((char *) HLFMT_TEXT_NSLDAP
); break;
5548 case HLFMT_NSLDAPS
: return ((char *) HLFMT_TEXT_NSLDAPS
); break;
5551 return ((char *) "Unknown");
5554 static uint
hlfmt_detect (FILE *fp
, uint max_check
)
5556 // Exception: those formats are wrongly detected as HLFMT_SHADOW, prevent it
5558 if (data
.hash_mode
== 5300) return HLFMT_HASHCAT
;
5559 if (data
.hash_mode
== 5400) return HLFMT_HASHCAT
;
5561 uint
*formats_cnt
= (uint
*) mycalloc (HLFMTS_CNT
, sizeof (uint
));
5565 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
5569 int line_len
= fgetl (fp
, line_buf
);
5571 if (line_len
== 0) continue;
5573 if (hlfmt_detect_pwdump (line_buf
, line_len
)) formats_cnt
[HLFMT_PWDUMP
]++;
5574 if (hlfmt_detect_passwd (line_buf
, line_len
)) formats_cnt
[HLFMT_PASSWD
]++;
5575 if (hlfmt_detect_shadow (line_buf
, line_len
)) formats_cnt
[HLFMT_SHADOW
]++;
5577 if (num_check
== max_check
) break;
5584 uint hashlist_format
= HLFMT_HASHCAT
;
5586 for (int i
= 1; i
< HLFMTS_CNT
; i
++)
5588 if (formats_cnt
[i
- 1] >= formats_cnt
[i
]) continue;
5590 hashlist_format
= i
;
5595 return hashlist_format
;
5599 * some further helper function
5602 // wrapper around mymalloc for ADL
5604 #if defined(HAVE_HWMON)
5605 void *HC_API_CALL
ADL_Main_Memory_Alloc (const int iSize
)
5607 return mymalloc (iSize
);
5611 static uint
generate_bitmaps (const uint digests_cnt
, const uint dgst_size
, const uint dgst_shifts
, char *digests_buf_ptr
, const uint bitmap_mask
, const uint bitmap_size
, uint
*bitmap_a
, uint
*bitmap_b
, uint
*bitmap_c
, uint
*bitmap_d
, const u64 collisions_max
)
5615 const uint dgst_pos0
= data
.dgst_pos0
;
5616 const uint dgst_pos1
= data
.dgst_pos1
;
5617 const uint dgst_pos2
= data
.dgst_pos2
;
5618 const uint dgst_pos3
= data
.dgst_pos3
;
5620 memset (bitmap_a
, 0, bitmap_size
);
5621 memset (bitmap_b
, 0, bitmap_size
);
5622 memset (bitmap_c
, 0, bitmap_size
);
5623 memset (bitmap_d
, 0, bitmap_size
);
5625 for (uint i
= 0; i
< digests_cnt
; i
++)
5627 uint
*digest_ptr
= (uint
*) digests_buf_ptr
;
5629 digests_buf_ptr
+= dgst_size
;
5631 const uint val0
= 1u << (digest_ptr
[dgst_pos0
] & 0x1f);
5632 const uint val1
= 1u << (digest_ptr
[dgst_pos1
] & 0x1f);
5633 const uint val2
= 1u << (digest_ptr
[dgst_pos2
] & 0x1f);
5634 const uint val3
= 1u << (digest_ptr
[dgst_pos3
] & 0x1f);
5636 const uint idx0
= (digest_ptr
[dgst_pos0
] >> dgst_shifts
) & bitmap_mask
;
5637 const uint idx1
= (digest_ptr
[dgst_pos1
] >> dgst_shifts
) & bitmap_mask
;
5638 const uint idx2
= (digest_ptr
[dgst_pos2
] >> dgst_shifts
) & bitmap_mask
;
5639 const uint idx3
= (digest_ptr
[dgst_pos3
] >> dgst_shifts
) & bitmap_mask
;
5641 if (bitmap_a
[idx0
] & val0
) collisions
++;
5642 if (bitmap_b
[idx1
] & val1
) collisions
++;
5643 if (bitmap_c
[idx2
] & val2
) collisions
++;
5644 if (bitmap_d
[idx3
] & val3
) collisions
++;
5646 bitmap_a
[idx0
] |= val0
;
5647 bitmap_b
[idx1
] |= val1
;
5648 bitmap_c
[idx2
] |= val2
;
5649 bitmap_d
[idx3
] |= val3
;
5651 if (collisions
>= collisions_max
) return 0x7fffffff;
5662 void SetConsoleWindowSize (const int x
)
5664 HANDLE h
= GetStdHandle (STD_OUTPUT_HANDLE
);
5666 if (h
== INVALID_HANDLE_VALUE
) return;
5668 CONSOLE_SCREEN_BUFFER_INFO bufferInfo
;
5670 if (!GetConsoleScreenBufferInfo (h
, &bufferInfo
)) return;
5672 SMALL_RECT
*sr
= &bufferInfo
.srWindow
;
5674 sr
->Right
= MAX (sr
->Right
, x
- 1);
5678 co
.X
= sr
->Right
+ 1;
5681 if (!SetConsoleScreenBufferSize (h
, co
)) return;
5683 if (!SetConsoleWindowInfo (h
, TRUE
, sr
)) return;
5687 int main (int argc
, char **argv
)
5690 SetConsoleWindowSize (132);
5694 * To help users a bit
5697 char *compute
= getenv ("COMPUTE");
5701 static char display
[100];
5703 snprintf (display
, sizeof (display
) - 1, "DISPLAY=%s", compute
);
5709 if (getenv ("DISPLAY") == NULL
)
5710 putenv ((char *) "DISPLAY=:0");
5713 if (getenv ("GPU_MAX_ALLOC_PERCENT") == NULL
)
5714 putenv ((char *) "GPU_MAX_ALLOC_PERCENT=100");
5716 if (getenv ("CPU_MAX_ALLOC_PERCENT") == NULL
)
5717 putenv ((char *) "CPU_MAX_ALLOC_PERCENT=100");
5719 if (getenv ("GPU_USE_SYNC_OBJECTS") == NULL
)
5720 putenv ((char *) "GPU_USE_SYNC_OBJECTS=1");
5722 if (getenv ("CUDA_CACHE_DISABLE") == NULL
)
5723 putenv ((char *) "CUDA_CACHE_DISABLE=1");
5725 if (getenv ("POCL_KERNEL_CACHE") == NULL
)
5726 putenv ((char *) "POCL_KERNEL_CACHE=0");
5734 memset (&data
, 0, sizeof (hc_global_data_t
));
5740 data
.proc_start
= proc_start
;
5743 char **myargv
= argv
;
5745 hc_thread_mutex_init (mux_dispatcher
);
5746 hc_thread_mutex_init (mux_counter
);
5747 hc_thread_mutex_init (mux_display
);
5748 hc_thread_mutex_init (mux_adl
);
5751 * commandline parameters
5755 uint version
= VERSION
;
5757 uint benchmark
= BENCHMARK
;
5758 uint stdout_flag
= STDOUT_FLAG
;
5761 uint username
= USERNAME
;
5762 uint remove
= REMOVE
;
5763 uint remove_timer
= REMOVE_TIMER
;
5766 uint keyspace
= KEYSPACE
;
5767 uint potfile_disable
= POTFILE_DISABLE
;
5768 char *potfile_path
= NULL
;
5769 uint debug_mode
= DEBUG_MODE
;
5770 char *debug_file
= NULL
;
5771 char *induction_dir
= NULL
;
5772 char *outfile_check_dir
= NULL
;
5774 uint runtime
= RUNTIME
;
5775 uint hash_mode
= HASH_MODE
;
5776 uint attack_mode
= ATTACK_MODE
;
5777 uint markov_disable
= MARKOV_DISABLE
;
5778 uint markov_classic
= MARKOV_CLASSIC
;
5779 uint markov_threshold
= MARKOV_THRESHOLD
;
5780 char *markov_hcstat
= NULL
;
5781 char *outfile
= NULL
;
5782 uint outfile_format
= OUTFILE_FORMAT
;
5783 uint outfile_autohex
= OUTFILE_AUTOHEX
;
5784 uint outfile_check_timer
= OUTFILE_CHECK_TIMER
;
5785 uint restore
= RESTORE
;
5786 uint restore_timer
= RESTORE_TIMER
;
5787 uint restore_disable
= RESTORE_DISABLE
;
5788 uint status
= STATUS
;
5789 uint status_timer
= STATUS_TIMER
;
5790 uint machine_readable
= MACHINE_READABLE
;
5791 uint loopback
= LOOPBACK
;
5792 uint weak_hash_threshold
= WEAK_HASH_THRESHOLD
;
5793 char *session
= NULL
;
5794 uint hex_charset
= HEX_CHARSET
;
5795 uint hex_salt
= HEX_SALT
;
5796 uint hex_wordlist
= HEX_WORDLIST
;
5797 uint rp_gen
= RP_GEN
;
5798 uint rp_gen_func_min
= RP_GEN_FUNC_MIN
;
5799 uint rp_gen_func_max
= RP_GEN_FUNC_MAX
;
5800 uint rp_gen_seed
= RP_GEN_SEED
;
5801 char *rule_buf_l
= (char *) RULE_BUF_L
;
5802 char *rule_buf_r
= (char *) RULE_BUF_R
;
5803 uint increment
= INCREMENT
;
5804 uint increment_min
= INCREMENT_MIN
;
5805 uint increment_max
= INCREMENT_MAX
;
5806 char *cpu_affinity
= NULL
;
5807 OCL_PTR
*ocl
= NULL
;
5808 char *opencl_devices
= NULL
;
5809 char *opencl_platforms
= NULL
;
5810 char *opencl_device_types
= NULL
;
5811 uint opencl_vector_width
= OPENCL_VECTOR_WIDTH
;
5812 char *truecrypt_keyfiles
= NULL
;
5813 char *veracrypt_keyfiles
= NULL
;
5814 uint veracrypt_pim
= 0;
5815 uint workload_profile
= WORKLOAD_PROFILE
;
5816 uint kernel_accel
= KERNEL_ACCEL
;
5817 uint kernel_loops
= KERNEL_LOOPS
;
5818 uint nvidia_spin_damp
= NVIDIA_SPIN_DAMP
;
5819 uint gpu_temp_disable
= GPU_TEMP_DISABLE
;
5821 uint gpu_temp_abort
= GPU_TEMP_ABORT
;
5822 uint gpu_temp_retain
= GPU_TEMP_RETAIN
;
5823 uint powertune_enable
= POWERTUNE_ENABLE
;
5825 uint logfile_disable
= LOGFILE_DISABLE
;
5826 uint segment_size
= SEGMENT_SIZE
;
5827 uint scrypt_tmto
= SCRYPT_TMTO
;
5828 char separator
= SEPARATOR
;
5829 uint bitmap_min
= BITMAP_MIN
;
5830 uint bitmap_max
= BITMAP_MAX
;
5831 char *custom_charset_1
= NULL
;
5832 char *custom_charset_2
= NULL
;
5833 char *custom_charset_3
= NULL
;
5834 char *custom_charset_4
= NULL
;
5836 #define IDX_HELP 'h'
5837 #define IDX_VERSION 'V'
5838 #define IDX_VERSION_LOWER 'v'
5839 #define IDX_QUIET 0xff02
5840 #define IDX_SHOW 0xff03
5841 #define IDX_LEFT 0xff04
5842 #define IDX_REMOVE 0xff05
5843 #define IDX_REMOVE_TIMER 0xff37
5844 #define IDX_SKIP 's'
5845 #define IDX_LIMIT 'l'
5846 #define IDX_KEYSPACE 0xff35
5847 #define IDX_POTFILE_DISABLE 0xff06
5848 #define IDX_POTFILE_PATH 0xffe0
5849 #define IDX_DEBUG_MODE 0xff43
5850 #define IDX_DEBUG_FILE 0xff44
5851 #define IDX_INDUCTION_DIR 0xff46
5852 #define IDX_OUTFILE_CHECK_DIR 0xff47
5853 #define IDX_USERNAME 0xff07
5854 #define IDX_FORCE 0xff08
5855 #define IDX_RUNTIME 0xff09
5856 #define IDX_BENCHMARK 'b'
5857 #define IDX_STDOUT_FLAG 0xff77
5858 #define IDX_HASH_MODE 'm'
5859 #define IDX_ATTACK_MODE 'a'
5860 #define IDX_RP_FILE 'r'
5861 #define IDX_RP_GEN 'g'
5862 #define IDX_RP_GEN_FUNC_MIN 0xff10
5863 #define IDX_RP_GEN_FUNC_MAX 0xff11
5864 #define IDX_RP_GEN_SEED 0xff34
5865 #define IDX_RULE_BUF_L 'j'
5866 #define IDX_RULE_BUF_R 'k'
5867 #define IDX_INCREMENT 'i'
5868 #define IDX_INCREMENT_MIN 0xff12
5869 #define IDX_INCREMENT_MAX 0xff13
5870 #define IDX_OUTFILE 'o'
5871 #define IDX_OUTFILE_FORMAT 0xff14
5872 #define IDX_OUTFILE_AUTOHEX_DISABLE 0xff39
5873 #define IDX_OUTFILE_CHECK_TIMER 0xff45
5874 #define IDX_RESTORE 0xff15
5875 #define IDX_RESTORE_DISABLE 0xff27
5876 #define IDX_STATUS 0xff17
5877 #define IDX_STATUS_TIMER 0xff18
5878 #define IDX_MACHINE_READABLE 0xff50
5879 #define IDX_LOOPBACK 0xff38
5880 #define IDX_WEAK_HASH_THRESHOLD 0xff42
5881 #define IDX_SESSION 0xff19
5882 #define IDX_HEX_CHARSET 0xff20
5883 #define IDX_HEX_SALT 0xff21
5884 #define IDX_HEX_WORDLIST 0xff40
5885 #define IDX_MARKOV_DISABLE 0xff22
5886 #define IDX_MARKOV_CLASSIC 0xff23
5887 #define IDX_MARKOV_THRESHOLD 't'
5888 #define IDX_MARKOV_HCSTAT 0xff24
5889 #define IDX_CPU_AFFINITY 0xff25
5890 #define IDX_OPENCL_DEVICES 'd'
5891 #define IDX_OPENCL_PLATFORMS 0xff72
5892 #define IDX_OPENCL_DEVICE_TYPES 0xff73
5893 #define IDX_OPENCL_VECTOR_WIDTH 0xff74
5894 #define IDX_WORKLOAD_PROFILE 'w'
5895 #define IDX_KERNEL_ACCEL 'n'
5896 #define IDX_KERNEL_LOOPS 'u'
5897 #define IDX_NVIDIA_SPIN_DAMP 0xff79
5898 #define IDX_GPU_TEMP_DISABLE 0xff29
5899 #define IDX_GPU_TEMP_ABORT 0xff30
5900 #define IDX_GPU_TEMP_RETAIN 0xff31
5901 #define IDX_POWERTUNE_ENABLE 0xff41
5902 #define IDX_LOGFILE_DISABLE 0xff51
5903 #define IDX_TRUECRYPT_KEYFILES 0xff52
5904 #define IDX_VERACRYPT_KEYFILES 0xff53
5905 #define IDX_VERACRYPT_PIM 0xff54
5906 #define IDX_SCRYPT_TMTO 0xff61
5907 #define IDX_SEGMENT_SIZE 'c'
5908 #define IDX_SEPARATOR 'p'
5909 #define IDX_BITMAP_MIN 0xff70
5910 #define IDX_BITMAP_MAX 0xff71
5911 #define IDX_CUSTOM_CHARSET_1 '1'
5912 #define IDX_CUSTOM_CHARSET_2 '2'
5913 #define IDX_CUSTOM_CHARSET_3 '3'
5914 #define IDX_CUSTOM_CHARSET_4 '4'
5916 char short_options
[] = "hVvm:a:r:j:k:g:o:t:d:n:u:c:p:s:l:1:2:3:4:ibw:";
5918 struct option long_options
[] =
5920 {"help", no_argument
, 0, IDX_HELP
},
5921 {"version", no_argument
, 0, IDX_VERSION
},
5922 {"quiet", no_argument
, 0, IDX_QUIET
},
5923 {"show", no_argument
, 0, IDX_SHOW
},
5924 {"left", no_argument
, 0, IDX_LEFT
},
5925 {"username", no_argument
, 0, IDX_USERNAME
},
5926 {"remove", no_argument
, 0, IDX_REMOVE
},
5927 {"remove-timer", required_argument
, 0, IDX_REMOVE_TIMER
},
5928 {"skip", required_argument
, 0, IDX_SKIP
},
5929 {"limit", required_argument
, 0, IDX_LIMIT
},
5930 {"keyspace", no_argument
, 0, IDX_KEYSPACE
},
5931 {"potfile-disable", no_argument
, 0, IDX_POTFILE_DISABLE
},
5932 {"potfile-path", required_argument
, 0, IDX_POTFILE_PATH
},
5933 {"debug-mode", required_argument
, 0, IDX_DEBUG_MODE
},
5934 {"debug-file", required_argument
, 0, IDX_DEBUG_FILE
},
5935 {"induction-dir", required_argument
, 0, IDX_INDUCTION_DIR
},
5936 {"outfile-check-dir", required_argument
, 0, IDX_OUTFILE_CHECK_DIR
},
5937 {"force", no_argument
, 0, IDX_FORCE
},
5938 {"benchmark", no_argument
, 0, IDX_BENCHMARK
},
5939 {"stdout", no_argument
, 0, IDX_STDOUT_FLAG
},
5940 {"restore", no_argument
, 0, IDX_RESTORE
},
5941 {"restore-disable", no_argument
, 0, IDX_RESTORE_DISABLE
},
5942 {"status", no_argument
, 0, IDX_STATUS
},
5943 {"status-timer", required_argument
, 0, IDX_STATUS_TIMER
},
5944 {"machine-readable", no_argument
, 0, IDX_MACHINE_READABLE
},
5945 {"loopback", no_argument
, 0, IDX_LOOPBACK
},
5946 {"weak-hash-threshold", required_argument
, 0, IDX_WEAK_HASH_THRESHOLD
},
5947 {"session", required_argument
, 0, IDX_SESSION
},
5948 {"runtime", required_argument
, 0, IDX_RUNTIME
},
5949 {"generate-rules", required_argument
, 0, IDX_RP_GEN
},
5950 {"generate-rules-func-min", required_argument
, 0, IDX_RP_GEN_FUNC_MIN
},
5951 {"generate-rules-func-max", required_argument
, 0, IDX_RP_GEN_FUNC_MAX
},
5952 {"generate-rules-seed", required_argument
, 0, IDX_RP_GEN_SEED
},
5953 {"rule-left", required_argument
, 0, IDX_RULE_BUF_L
},
5954 {"rule-right", required_argument
, 0, IDX_RULE_BUF_R
},
5955 {"hash-type", required_argument
, 0, IDX_HASH_MODE
},
5956 {"attack-mode", required_argument
, 0, IDX_ATTACK_MODE
},
5957 {"rules-file", required_argument
, 0, IDX_RP_FILE
},
5958 {"outfile", required_argument
, 0, IDX_OUTFILE
},
5959 {"outfile-format", required_argument
, 0, IDX_OUTFILE_FORMAT
},
5960 {"outfile-autohex-disable", no_argument
, 0, IDX_OUTFILE_AUTOHEX_DISABLE
},
5961 {"outfile-check-timer", required_argument
, 0, IDX_OUTFILE_CHECK_TIMER
},
5962 {"hex-charset", no_argument
, 0, IDX_HEX_CHARSET
},
5963 {"hex-salt", no_argument
, 0, IDX_HEX_SALT
},
5964 {"hex-wordlist", no_argument
, 0, IDX_HEX_WORDLIST
},
5965 {"markov-disable", no_argument
, 0, IDX_MARKOV_DISABLE
},
5966 {"markov-classic", no_argument
, 0, IDX_MARKOV_CLASSIC
},
5967 {"markov-threshold", required_argument
, 0, IDX_MARKOV_THRESHOLD
},
5968 {"markov-hcstat", required_argument
, 0, IDX_MARKOV_HCSTAT
},
5969 {"cpu-affinity", required_argument
, 0, IDX_CPU_AFFINITY
},
5970 {"opencl-devices", required_argument
, 0, IDX_OPENCL_DEVICES
},
5971 {"opencl-platforms", required_argument
, 0, IDX_OPENCL_PLATFORMS
},
5972 {"opencl-device-types", required_argument
, 0, IDX_OPENCL_DEVICE_TYPES
},
5973 {"opencl-vector-width", required_argument
, 0, IDX_OPENCL_VECTOR_WIDTH
},
5974 {"workload-profile", required_argument
, 0, IDX_WORKLOAD_PROFILE
},
5975 {"kernel-accel", required_argument
, 0, IDX_KERNEL_ACCEL
},
5976 {"kernel-loops", required_argument
, 0, IDX_KERNEL_LOOPS
},
5977 {"nvidia-spin-damp", required_argument
, 0, IDX_NVIDIA_SPIN_DAMP
},
5978 {"gpu-temp-disable", no_argument
, 0, IDX_GPU_TEMP_DISABLE
},
5980 {"gpu-temp-abort", required_argument
, 0, IDX_GPU_TEMP_ABORT
},
5981 {"gpu-temp-retain", required_argument
, 0, IDX_GPU_TEMP_RETAIN
},
5982 {"powertune-enable", no_argument
, 0, IDX_POWERTUNE_ENABLE
},
5983 #endif // HAVE_HWMON
5984 {"logfile-disable", no_argument
, 0, IDX_LOGFILE_DISABLE
},
5985 {"truecrypt-keyfiles", required_argument
, 0, IDX_TRUECRYPT_KEYFILES
},
5986 {"veracrypt-keyfiles", required_argument
, 0, IDX_VERACRYPT_KEYFILES
},
5987 {"veracrypt-pim", required_argument
, 0, IDX_VERACRYPT_PIM
},
5988 {"segment-size", required_argument
, 0, IDX_SEGMENT_SIZE
},
5989 {"scrypt-tmto", required_argument
, 0, IDX_SCRYPT_TMTO
},
5990 {"seperator", required_argument
, 0, IDX_SEPARATOR
},
5991 {"separator", required_argument
, 0, IDX_SEPARATOR
},
5992 {"bitmap-min", required_argument
, 0, IDX_BITMAP_MIN
},
5993 {"bitmap-max", required_argument
, 0, IDX_BITMAP_MAX
},
5994 {"increment", no_argument
, 0, IDX_INCREMENT
},
5995 {"increment-min", required_argument
, 0, IDX_INCREMENT_MIN
},
5996 {"increment-max", required_argument
, 0, IDX_INCREMENT_MAX
},
5997 {"custom-charset1", required_argument
, 0, IDX_CUSTOM_CHARSET_1
},
5998 {"custom-charset2", required_argument
, 0, IDX_CUSTOM_CHARSET_2
},
5999 {"custom-charset3", required_argument
, 0, IDX_CUSTOM_CHARSET_3
},
6000 {"custom-charset4", required_argument
, 0, IDX_CUSTOM_CHARSET_4
},
6004 uint rp_files_cnt
= 0;
6006 char **rp_files
= (char **) mycalloc (argc
, sizeof (char *));
6008 int option_index
= 0;
6014 while (((c
= getopt_long (argc
, argv
, short_options
, long_options
, &option_index
)) != -1) && optopt
== 0)
6018 case IDX_HELP
: usage
= 1; break;
6020 case IDX_VERSION_LOWER
: version
= 1; break;
6021 case IDX_RESTORE
: restore
= 1; break;
6022 case IDX_SESSION
: session
= optarg
; break;
6023 case IDX_SHOW
: show
= 1; break;
6024 case IDX_LEFT
: left
= 1; break;
6025 case '?': return (-1);
6031 log_error ("ERROR: Invalid argument specified");
6042 log_info ("%s", VERSION_TAG
);
6049 usage_big_print (PROGNAME
);
6055 * session needs to be set, always!
6058 if (session
== NULL
) session
= (char *) PROGNAME
;
6061 * folders, as discussed on https://github.com/hashcat/hashcat/issues/20
6064 char *exec_path
= get_exec_path ();
6068 char *resolved_install_folder
= realpath (INSTALL_FOLDER
, NULL
);
6069 char *resolved_exec_path
= realpath (exec_path
, NULL
);
6071 char *install_dir
= get_install_dir (resolved_exec_path
);
6072 char *profile_dir
= NULL
;
6073 char *session_dir
= NULL
;
6074 char *shared_dir
= NULL
;
6076 if (strcmp (install_dir
, resolved_install_folder
) == 0)
6078 struct passwd
*pw
= getpwuid (getuid ());
6080 const char *homedir
= pw
->pw_dir
;
6082 profile_dir
= get_profile_dir (homedir
);
6083 session_dir
= get_session_dir (profile_dir
);
6084 shared_dir
= strdup (SHARED_FOLDER
);
6086 mkdir (profile_dir
, 0700);
6087 mkdir (session_dir
, 0700);
6091 profile_dir
= install_dir
;
6092 session_dir
= install_dir
;
6093 shared_dir
= install_dir
;
6096 myfree (resolved_install_folder
);
6097 myfree (resolved_exec_path
);
6101 char *install_dir
= get_install_dir (exec_path
);
6102 char *profile_dir
= install_dir
;
6103 char *session_dir
= install_dir
;
6104 char *shared_dir
= install_dir
;
6108 data
.install_dir
= install_dir
;
6109 data
.profile_dir
= profile_dir
;
6110 data
.session_dir
= session_dir
;
6111 data
.shared_dir
= shared_dir
;
6116 * kernel cache, we need to make sure folder exist
6119 int kernels_folder_size
= strlen (profile_dir
) + 1 + 7 + 1 + 1;
6121 char *kernels_folder
= (char *) mymalloc (kernels_folder_size
);
6123 snprintf (kernels_folder
, kernels_folder_size
- 1, "%s/kernels", profile_dir
);
6125 mkdir (kernels_folder
, 0700);
6127 myfree (kernels_folder
);
6133 size_t session_size
= strlen (session_dir
) + 1 + strlen (session
) + 32;
6135 data
.session
= session
;
6137 char *eff_restore_file
= (char *) mymalloc (session_size
);
6138 char *new_restore_file
= (char *) mymalloc (session_size
);
6140 snprintf (eff_restore_file
, session_size
- 1, "%s/%s.restore", data
.session_dir
, session
);
6141 snprintf (new_restore_file
, session_size
- 1, "%s/%s.restore.new", data
.session_dir
, session
);
6143 data
.eff_restore_file
= eff_restore_file
;
6144 data
.new_restore_file
= new_restore_file
;
6146 if (((show
== 1) || (left
== 1)) && (restore
== 1))
6148 if (show
== 1) log_error ("ERROR: Mixing --restore parameter and --show is not supported");
6149 else log_error ("ERROR: Mixing --restore parameter and --left is not supported");
6154 // this allows the user to use --show and --left while cracking (i.e. while another instance of hashcat is running)
6155 if ((show
== 1) || (left
== 1))
6157 restore_disable
= 1;
6162 data
.restore_disable
= restore_disable
;
6164 restore_data_t
*rd
= init_restore (argc
, argv
);
6174 read_restore (eff_restore_file
, rd
);
6176 if (rd
->version_bin
< RESTORE_MIN
)
6178 log_error ("ERROR: Incompatible restore-file version");
6187 rd
->pid
= getpid ();
6189 rd
->pid
= GetCurrentProcessId ();
6193 uint hash_mode_chgd
= 0;
6194 uint runtime_chgd
= 0;
6195 uint kernel_loops_chgd
= 0;
6196 uint kernel_accel_chgd
= 0;
6197 uint nvidia_spin_damp_chgd
= 0;
6198 uint attack_mode_chgd
= 0;
6199 uint outfile_format_chgd
= 0;
6200 uint rp_gen_seed_chgd
= 0;
6201 uint remove_timer_chgd
= 0;
6202 uint increment_min_chgd
= 0;
6203 uint increment_max_chgd
= 0;
6204 uint workload_profile_chgd
= 0;
6205 uint opencl_vector_width_chgd
= 0;
6211 while (((c
= getopt_long (myargc
, myargv
, short_options
, long_options
, &option_index
)) != -1) && optopt
== 0)
6215 //case IDX_HELP: usage = 1; break;
6216 //case IDX_VERSION: version = 1; break;
6217 //case IDX_RESTORE: restore = 1; break;
6218 case IDX_QUIET
: quiet
= 1; break;
6219 //case IDX_SHOW: show = 1; break;
6220 case IDX_SHOW
: break;
6221 //case IDX_LEFT: left = 1; break;
6222 case IDX_LEFT
: break;
6223 case IDX_USERNAME
: username
= 1; break;
6224 case IDX_REMOVE
: remove
= 1; break;
6225 case IDX_REMOVE_TIMER
: remove_timer
= atoi (optarg
);
6226 remove_timer_chgd
= 1; break;
6227 case IDX_POTFILE_DISABLE
: potfile_disable
= 1; break;
6228 case IDX_POTFILE_PATH
: potfile_path
= optarg
; break;
6229 case IDX_DEBUG_MODE
: debug_mode
= atoi (optarg
); break;
6230 case IDX_DEBUG_FILE
: debug_file
= optarg
; break;
6231 case IDX_INDUCTION_DIR
: induction_dir
= optarg
; break;
6232 case IDX_OUTFILE_CHECK_DIR
: outfile_check_dir
= optarg
; break;
6233 case IDX_FORCE
: force
= 1; break;
6234 case IDX_SKIP
: skip
= atoll (optarg
); break;
6235 case IDX_LIMIT
: limit
= atoll (optarg
); break;
6236 case IDX_KEYSPACE
: keyspace
= 1; break;
6237 case IDX_BENCHMARK
: benchmark
= 1; break;
6238 case IDX_STDOUT_FLAG
: stdout_flag
= 1; break;
6239 case IDX_RESTORE
: break;
6240 case IDX_RESTORE_DISABLE
: restore_disable
= 1; break;
6241 case IDX_STATUS
: status
= 1; break;
6242 case IDX_STATUS_TIMER
: status_timer
= atoi (optarg
); break;
6243 case IDX_MACHINE_READABLE
: machine_readable
= 1; break;
6244 case IDX_LOOPBACK
: loopback
= 1; break;
6245 case IDX_WEAK_HASH_THRESHOLD
: weak_hash_threshold
= atoi (optarg
); break;
6246 //case IDX_SESSION: session = optarg; break;
6247 case IDX_SESSION
: break;
6248 case IDX_HASH_MODE
: hash_mode
= atoi (optarg
);
6249 hash_mode_chgd
= 1; break;
6250 case IDX_RUNTIME
: runtime
= atoi (optarg
);
6251 runtime_chgd
= 1; break;
6252 case IDX_ATTACK_MODE
: attack_mode
= atoi (optarg
);
6253 attack_mode_chgd
= 1; break;
6254 case IDX_RP_FILE
: rp_files
[rp_files_cnt
++] = optarg
; break;
6255 case IDX_RP_GEN
: rp_gen
= atoi (optarg
); break;
6256 case IDX_RP_GEN_FUNC_MIN
: rp_gen_func_min
= atoi (optarg
); break;
6257 case IDX_RP_GEN_FUNC_MAX
: rp_gen_func_max
= atoi (optarg
); break;
6258 case IDX_RP_GEN_SEED
: rp_gen_seed
= atoi (optarg
);
6259 rp_gen_seed_chgd
= 1; break;
6260 case IDX_RULE_BUF_L
: rule_buf_l
= optarg
; break;
6261 case IDX_RULE_BUF_R
: rule_buf_r
= optarg
; break;
6262 case IDX_MARKOV_DISABLE
: markov_disable
= 1; break;
6263 case IDX_MARKOV_CLASSIC
: markov_classic
= 1; break;
6264 case IDX_MARKOV_THRESHOLD
: markov_threshold
= atoi (optarg
); break;
6265 case IDX_MARKOV_HCSTAT
: markov_hcstat
= optarg
; break;
6266 case IDX_OUTFILE
: outfile
= optarg
; break;
6267 case IDX_OUTFILE_FORMAT
: outfile_format
= atoi (optarg
);
6268 outfile_format_chgd
= 1; break;
6269 case IDX_OUTFILE_AUTOHEX_DISABLE
: outfile_autohex
= 0; break;
6270 case IDX_OUTFILE_CHECK_TIMER
: outfile_check_timer
= atoi (optarg
); break;
6271 case IDX_HEX_CHARSET
: hex_charset
= 1; break;
6272 case IDX_HEX_SALT
: hex_salt
= 1; break;
6273 case IDX_HEX_WORDLIST
: hex_wordlist
= 1; break;
6274 case IDX_CPU_AFFINITY
: cpu_affinity
= optarg
; break;
6275 case IDX_OPENCL_DEVICES
: opencl_devices
= optarg
; break;
6276 case IDX_OPENCL_PLATFORMS
: opencl_platforms
= optarg
; break;
6277 case IDX_OPENCL_DEVICE_TYPES
: opencl_device_types
= optarg
; break;
6278 case IDX_OPENCL_VECTOR_WIDTH
: opencl_vector_width
= atoi (optarg
);
6279 opencl_vector_width_chgd
= 1; break;
6280 case IDX_WORKLOAD_PROFILE
: workload_profile
= atoi (optarg
);
6281 workload_profile_chgd
= 1; break;
6282 case IDX_KERNEL_ACCEL
: kernel_accel
= atoi (optarg
);
6283 kernel_accel_chgd
= 1; break;
6284 case IDX_KERNEL_LOOPS
: kernel_loops
= atoi (optarg
);
6285 kernel_loops_chgd
= 1; break;
6286 case IDX_NVIDIA_SPIN_DAMP
: nvidia_spin_damp
= atoi (optarg
);
6287 nvidia_spin_damp_chgd
= 1; break;
6288 case IDX_GPU_TEMP_DISABLE
: gpu_temp_disable
= 1; break;
6290 case IDX_GPU_TEMP_ABORT
: gpu_temp_abort
= atoi (optarg
); break;
6291 case IDX_GPU_TEMP_RETAIN
: gpu_temp_retain
= atoi (optarg
); break;
6292 case IDX_POWERTUNE_ENABLE
: powertune_enable
= 1; break;
6293 #endif // HAVE_HWMON
6294 case IDX_LOGFILE_DISABLE
: logfile_disable
= 1; break;
6295 case IDX_TRUECRYPT_KEYFILES
: truecrypt_keyfiles
= optarg
; break;
6296 case IDX_VERACRYPT_KEYFILES
: veracrypt_keyfiles
= optarg
; break;
6297 case IDX_VERACRYPT_PIM
: veracrypt_pim
= atoi (optarg
); break;
6298 case IDX_SEGMENT_SIZE
: segment_size
= atoi (optarg
); break;
6299 case IDX_SCRYPT_TMTO
: scrypt_tmto
= atoi (optarg
); break;
6300 case IDX_SEPARATOR
: separator
= optarg
[0]; break;
6301 case IDX_BITMAP_MIN
: bitmap_min
= atoi (optarg
); break;
6302 case IDX_BITMAP_MAX
: bitmap_max
= atoi (optarg
); break;
6303 case IDX_INCREMENT
: increment
= 1; break;
6304 case IDX_INCREMENT_MIN
: increment_min
= atoi (optarg
);
6305 increment_min_chgd
= 1; break;
6306 case IDX_INCREMENT_MAX
: increment_max
= atoi (optarg
);
6307 increment_max_chgd
= 1; break;
6308 case IDX_CUSTOM_CHARSET_1
: custom_charset_1
= optarg
; break;
6309 case IDX_CUSTOM_CHARSET_2
: custom_charset_2
= optarg
; break;
6310 case IDX_CUSTOM_CHARSET_3
: custom_charset_3
= optarg
; break;
6311 case IDX_CUSTOM_CHARSET_4
: custom_charset_4
= optarg
; break;
6314 log_error ("ERROR: Invalid argument specified");
6321 log_error ("ERROR: Invalid argument specified");
6327 * Inform user things getting started,
6328 * - this is giving us a visual header before preparations start, so we do not need to clear them afterwards
6329 * - we do not need to check algorithm_pos
6336 if (machine_readable
== 0)
6338 log_info ("%s (%s) starting in benchmark-mode...", PROGNAME
, VERSION_TAG
);
6340 log_info ("Note: Reported benchmark cracking speed = real cracking speed");
6341 log_info ("To verify, run hashcat like this: only_one_hash.txt -a 3 -w 3 ?b?b?b?b?b?b?b");
6346 log_info ("# %s (%s) %s", PROGNAME
, VERSION_TAG
, ctime (&proc_start
));
6349 else if (restore
== 1)
6351 log_info ("%s (%s) starting in restore-mode...", PROGNAME
, VERSION_TAG
);
6354 else if (stdout_flag
== 1)
6360 log_info ("%s (%s) starting...", PROGNAME
, VERSION_TAG
);
6369 if (attack_mode
> 7)
6371 log_error ("ERROR: Invalid attack-mode specified");
6376 if (runtime_chgd
&& runtime
== 0) // just added to remove compiler warnings for runtime_chgd
6378 log_error ("ERROR: Invalid runtime specified");
6383 if (hash_mode_chgd
&& hash_mode
> 13800) // just added to remove compiler warnings for hash_mode_chgd
6385 log_error ("ERROR: Invalid hash-type specified");
6390 // renamed hash modes
6404 log_error ("Old -m specified, use -m %d instead", n
);
6412 if ((hash_mode
== 2500) || (hash_mode
== 5200) || ((hash_mode
>= 6200) && (hash_mode
<= 6299)) || ((hash_mode
>= 13700) && (hash_mode
<= 13799)))
6414 log_error ("ERROR: Mixing support for user names and hashes of type %s is not supported", strhashtype (hash_mode
));
6420 if (outfile_format
> 16)
6422 log_error ("ERROR: Invalid outfile-format specified");
6429 if (outfile_format_chgd
== 1)
6431 if (outfile_format
> 1)
6433 log_error ("ERROR: Mixing outfile-format > 1 is not allowed together with left parameter");
6440 outfile_format
= OUTFILE_FMT_HASH
;
6446 if (outfile_format_chgd
== 1)
6448 if ((outfile_format
> 7) && (outfile_format
< 16))
6450 log_error ("ERROR: Mixing outfile-format > 7 is not allowed together with show parameter");
6457 if (increment_min
< INCREMENT_MIN
)
6459 log_error ("ERROR: Invalid increment-min specified");
6464 if (increment_max
> INCREMENT_MAX
)
6466 log_error ("ERROR: Invalid increment-max specified");
6471 if (increment_min
> increment_max
)
6473 log_error ("ERROR: Invalid increment-min specified");
6478 if ((increment
== 1) && (attack_mode
== ATTACK_MODE_STRAIGHT
))
6480 log_error ("ERROR: increment is not allowed in attack-mode 0");
6485 if ((increment
== 0) && (increment_min_chgd
== 1))
6487 log_error ("ERROR: increment-min is only supported together with increment switch");
6492 if ((increment
== 0) && (increment_max_chgd
== 1))
6494 log_error ("ERROR: increment-max is only supported together with increment switch");
6499 if (rp_files_cnt
&& rp_gen
)
6501 log_error ("ERROR: Use of both rules-file and rules-generate is not supported");
6506 if (rp_files_cnt
|| rp_gen
)
6508 if (attack_mode
!= ATTACK_MODE_STRAIGHT
)
6510 log_error ("ERROR: Use of rules-file or rules-generate only allowed in attack-mode 0");
6516 if (rp_gen_func_min
> rp_gen_func_max
)
6518 log_error ("ERROR: Invalid rp-gen-func-min specified");
6523 if (kernel_accel_chgd
== 1)
6527 log_info ("The manual use of the option -n (or --kernel-accel) is outdated");
6528 log_info ("Please consider using the option -w instead");
6529 log_info ("You can use --force to override this but do not post error reports if you do so");
6535 if (kernel_accel
< 1)
6537 log_error ("ERROR: Invalid kernel-accel specified");
6542 if (kernel_accel
> 1024)
6544 log_error ("ERROR: Invalid kernel-accel specified");
6550 if (kernel_loops_chgd
== 1)
6554 log_info ("The manual use of the option -u (or --kernel-loops) is outdated");
6555 log_info ("Please consider using the option -w instead");
6556 log_info ("You can use --force to override this but do not post error reports if you do so");
6562 if (kernel_loops
< 1)
6564 log_error ("ERROR: Invalid kernel-loops specified");
6569 if (kernel_loops
> 1024)
6571 log_error ("ERROR: Invalid kernel-loops specified");
6577 if ((workload_profile
< 1) || (workload_profile
> 4))
6579 log_error ("ERROR: workload-profile %i not available", workload_profile
);
6584 if (opencl_vector_width_chgd
&& (!is_power_of_2(opencl_vector_width
) || opencl_vector_width
> 16))
6586 log_error ("ERROR: opencl-vector-width %i not allowed", opencl_vector_width
);
6591 if (show
== 1 || left
== 1)
6593 attack_mode
= ATTACK_MODE_NONE
;
6597 log_error ("ERROR: Mixing remove parameter not allowed with show parameter or left parameter");
6602 if (potfile_disable
== 1)
6604 log_error ("ERROR: Mixing potfile-disable parameter not allowed with show parameter or left parameter");
6610 uint attack_kern
= ATTACK_KERN_NONE
;
6612 switch (attack_mode
)
6614 case ATTACK_MODE_STRAIGHT
: attack_kern
= ATTACK_KERN_STRAIGHT
; break;
6615 case ATTACK_MODE_COMBI
: attack_kern
= ATTACK_KERN_COMBI
; break;
6616 case ATTACK_MODE_BF
: attack_kern
= ATTACK_KERN_BF
; break;
6617 case ATTACK_MODE_HYBRID1
: attack_kern
= ATTACK_KERN_COMBI
; break;
6618 case ATTACK_MODE_HYBRID2
: attack_kern
= ATTACK_KERN_COMBI
; break;
6623 if (myargv
[optind
] != 0)
6625 log_error ("ERROR: Invalid argument for benchmark mode specified");
6630 if (attack_mode_chgd
== 1)
6632 if (attack_mode
!= ATTACK_MODE_BF
)
6634 log_error ("ERROR: Only attack-mode 3 allowed in benchmark mode");
6642 if (stdout_flag
== 1) // no hash here
6649 int num_additional_params
= 1;
6651 if (attack_kern
== ATTACK_KERN_COMBI
)
6653 num_additional_params
= 2;
6656 int keyspace_wordlist_specified
= myargc
- optind
- num_additional_params
;
6658 if (keyspace_wordlist_specified
== 0) optind
--;
6661 if (attack_kern
== ATTACK_KERN_NONE
)
6663 if ((optind
+ 1) != myargc
)
6665 usage_mini_print (myargv
[0]);
6670 else if (attack_kern
== ATTACK_KERN_STRAIGHT
)
6672 if ((optind
+ 1) > myargc
)
6674 usage_mini_print (myargv
[0]);
6679 else if (attack_kern
== ATTACK_KERN_COMBI
)
6681 if ((optind
+ 3) != myargc
)
6683 usage_mini_print (myargv
[0]);
6688 else if (attack_kern
== ATTACK_KERN_BF
)
6690 if ((optind
+ 1) > myargc
)
6692 usage_mini_print (myargv
[0]);
6699 usage_mini_print (myargv
[0]);
6705 if (skip
!= 0 && limit
!= 0)
6714 log_error ("ERROR: Mixing show parameter not supported with keyspace parameter");
6720 log_error ("ERROR: Mixing left parameter not supported wiht keyspace parameter");
6725 potfile_disable
= 1;
6727 restore_disable
= 1;
6731 weak_hash_threshold
= 0;
6736 if (stdout_flag
== 1)
6740 restore_disable
= 1;
6742 potfile_disable
= 1;
6743 weak_hash_threshold
= 0;
6744 gpu_temp_disable
= 1;
6747 outfile_format
= OUTFILE_FMT_PLAIN
;
6748 kernel_accel
= 1024;
6749 kernel_loops
= 1024;
6751 outfile_check_timer
= 0;
6754 if (remove_timer_chgd
== 1)
6758 log_error ("ERROR: Parameter remove-timer require parameter remove enabled");
6763 if (remove_timer
< 1)
6765 log_error ("ERROR: Parameter remove-timer must have a value greater than or equal to 1");
6773 if (attack_mode
== ATTACK_MODE_STRAIGHT
)
6775 if ((rp_files_cnt
== 0) && (rp_gen
== 0))
6777 log_error ("ERROR: Parameter loopback not allowed without rules-file or rules-generate");
6784 log_error ("ERROR: Parameter loopback allowed in attack-mode 0 only");
6792 if (attack_mode
!= ATTACK_MODE_STRAIGHT
)
6794 log_error ("ERROR: Parameter debug-mode option is only available with attack-mode 0");
6799 if ((rp_files_cnt
== 0) && (rp_gen
== 0))
6801 log_error ("ERROR: Parameter debug-mode not allowed without rules-file or rules-generate");
6809 log_error ("ERROR: Invalid debug-mode specified");
6814 if (debug_file
!= NULL
)
6818 log_error ("ERROR: Parameter debug-file requires parameter debug-mode to be set");
6824 if (induction_dir
!= NULL
)
6826 if (attack_mode
== ATTACK_MODE_BF
)
6828 log_error ("ERROR: Parameter induction-dir not allowed with brute-force attacks");
6834 if (attack_mode
!= ATTACK_MODE_STRAIGHT
)
6836 if ((weak_hash_threshold
!= WEAK_HASH_THRESHOLD
) && (weak_hash_threshold
!= 0))
6838 log_error ("ERROR: setting --weak-hash-threshold allowed only in straight-attack mode");
6843 weak_hash_threshold
= 0;
6846 if (nvidia_spin_damp
> 100)
6848 log_error ("ERROR: setting --nvidia-spin-damp must be between 0 and 100 (inclusive)");
6855 * induction directory
6858 char *induction_directory
= NULL
;
6860 if (attack_mode
!= ATTACK_MODE_BF
)
6862 if (induction_dir
== NULL
)
6864 induction_directory
= (char *) mymalloc (session_size
);
6866 snprintf (induction_directory
, session_size
- 1, "%s/%s.%s", session_dir
, session
, INDUCT_DIR
);
6868 // create induction folder if it does not already exist
6872 if (rmdir (induction_directory
) == -1)
6874 if (errno
== ENOENT
)
6876 // good, we can ignore
6878 else if (errno
== ENOTEMPTY
)
6880 char *induction_directory_mv
= (char *) mymalloc (session_size
);
6882 snprintf (induction_directory_mv
, session_size
- 1, "%s/%s.induct.%d", session_dir
, session
, (int) proc_start
);
6884 if (rename (induction_directory
, induction_directory_mv
) != 0)
6886 log_error ("ERROR: Rename directory %s to %s: %s", induction_directory
, induction_directory_mv
, strerror (errno
));
6893 log_error ("ERROR: %s: %s", induction_directory
, strerror (errno
));
6899 if (mkdir (induction_directory
, 0700) == -1)
6901 log_error ("ERROR: %s: %s", induction_directory
, strerror (errno
));
6909 induction_directory
= induction_dir
;
6913 data
.induction_directory
= induction_directory
;
6919 size_t loopback_size
= strlen (session_dir
) + 1 + session_size
+ strlen (LOOPBACK_FILE
) + 12;
6921 char *loopback_file
= (char *) mymalloc (loopback_size
);
6927 char tuning_db_file
[256] = { 0 };
6929 snprintf (tuning_db_file
, sizeof (tuning_db_file
) - 1, "%s/%s", shared_dir
, TUNING_DB_FILE
);
6931 tuning_db_t
*tuning_db
= tuning_db_init (tuning_db_file
);
6934 * outfile-check directory
6937 char *outfile_check_directory
= NULL
;
6939 if (outfile_check_dir
== NULL
)
6941 outfile_check_directory
= (char *) mymalloc (session_size
);
6943 snprintf (outfile_check_directory
, session_size
- 1, "%s/%s.%s", session_dir
, session
, OUTFILES_DIR
);
6947 outfile_check_directory
= outfile_check_dir
;
6950 data
.outfile_check_directory
= outfile_check_directory
;
6954 struct stat outfile_check_stat
;
6956 if (stat (outfile_check_directory
, &outfile_check_stat
) == 0)
6958 uint is_dir
= S_ISDIR (outfile_check_stat
.st_mode
);
6962 log_error ("ERROR: Directory specified in outfile-check '%s' is not a valid directory", outfile_check_directory
);
6967 else if (outfile_check_dir
== NULL
)
6969 if (mkdir (outfile_check_directory
, 0700) == -1)
6971 log_error ("ERROR: %s: %s", outfile_check_directory
, strerror (errno
));
6979 * special other stuff
6982 if (hash_mode
== 9710)
6985 outfile_format_chgd
= 1;
6988 if (hash_mode
== 9810)
6991 outfile_format_chgd
= 1;
6994 if (hash_mode
== 10410)
6997 outfile_format_chgd
= 1;
7004 data
.hash_mode
= hash_mode
;
7005 data
.restore
= restore
;
7006 data
.restore_timer
= restore_timer
;
7007 data
.restore_disable
= restore_disable
;
7008 data
.status
= status
;
7009 data
.status_timer
= status_timer
;
7010 data
.machine_readable
= machine_readable
;
7011 data
.loopback
= loopback
;
7012 data
.runtime
= runtime
;
7013 data
.remove
= remove
;
7014 data
.remove_timer
= remove_timer
;
7015 data
.debug_mode
= debug_mode
;
7016 data
.debug_file
= debug_file
;
7017 data
.username
= username
;
7019 data
.outfile
= outfile
;
7020 data
.outfile_format
= outfile_format
;
7021 data
.outfile_autohex
= outfile_autohex
;
7022 data
.hex_charset
= hex_charset
;
7023 data
.hex_salt
= hex_salt
;
7024 data
.hex_wordlist
= hex_wordlist
;
7025 data
.separator
= separator
;
7026 data
.rp_files
= rp_files
;
7027 data
.rp_files_cnt
= rp_files_cnt
;
7028 data
.rp_gen
= rp_gen
;
7029 data
.rp_gen_seed
= rp_gen_seed
;
7031 data
.benchmark
= benchmark
;
7035 data
.powertune_enable
= powertune_enable
;
7037 data
.logfile_disable
= logfile_disable
;
7038 data
.truecrypt_keyfiles
= truecrypt_keyfiles
;
7039 data
.veracrypt_keyfiles
= veracrypt_keyfiles
;
7040 data
.veracrypt_pim
= veracrypt_pim
;
7041 data
.scrypt_tmto
= scrypt_tmto
;
7042 data
.workload_profile
= workload_profile
;
7050 set_cpu_affinity (cpu_affinity
);
7053 if (rp_gen_seed_chgd
== 0)
7059 srand (rp_gen_seed
);
7066 if (logfile_disable
== 0)
7068 size_t logfile_size
= strlen (session_dir
) + 1 + strlen (session
) + 32;
7070 char *logfile
= (char *) mymalloc (logfile_size
);
7072 snprintf (logfile
, logfile_size
- 1, "%s/%s.log", session_dir
, session
);
7074 data
.logfile
= logfile
;
7076 char *topid
= logfile_generate_topid ();
7081 // logfile_append() checks for logfile_disable internally to make it easier from here
7083 #define logfile_top_msg(msg) logfile_append ("%s\t%s", data.topid, (msg));
7084 #define logfile_sub_msg(msg) logfile_append ("%s\t%s\t%s", data.topid, data.subid, (msg));
7085 #define logfile_top_var_uint64(var,val) logfile_append ("%s\t%s\t%llu", data.topid, (var), (val));
7086 #define logfile_sub_var_uint64(var,val) logfile_append ("%s\t%s\t%s\t%llu", data.topid, data.subid, (var), (val));
7087 #define logfile_top_var_uint(var,val) logfile_append ("%s\t%s\t%u", data.topid, (var), (val));
7088 #define logfile_sub_var_uint(var,val) logfile_append ("%s\t%s\t%s\t%u", data.topid, data.subid, (var), (val));
7089 #define logfile_top_var_char(var,val) logfile_append ("%s\t%s\t%c", data.topid, (var), (val));
7090 #define logfile_sub_var_char(var,val) logfile_append ("%s\t%s\t%s\t%c", data.topid, data.subid, (var), (val));
7091 #define logfile_top_var_string(var,val) if ((val) != NULL) logfile_append ("%s\t%s\t%s", data.topid, (var), (val));
7092 #define logfile_sub_var_string(var,val) if ((val) != NULL) logfile_append ("%s\t%s\t%s\t%s", data.topid, data.subid, (var), (val));
7094 #define logfile_top_uint64(var) logfile_top_var_uint64 (#var, (var));
7095 #define logfile_sub_uint64(var) logfile_sub_var_uint64 (#var, (var));
7096 #define logfile_top_uint(var) logfile_top_var_uint (#var, (var));
7097 #define logfile_sub_uint(var) logfile_sub_var_uint (#var, (var));
7098 #define logfile_top_char(var) logfile_top_var_char (#var, (var));
7099 #define logfile_sub_char(var) logfile_sub_var_char (#var, (var));
7100 #define logfile_top_string(var) logfile_top_var_string (#var, (var));
7101 #define logfile_sub_string(var) logfile_sub_var_string (#var, (var));
7103 logfile_top_msg ("START");
7105 logfile_top_uint (attack_mode
);
7106 logfile_top_uint (attack_kern
);
7107 logfile_top_uint (benchmark
);
7108 logfile_top_uint (stdout_flag
);
7109 logfile_top_uint (bitmap_min
);
7110 logfile_top_uint (bitmap_max
);
7111 logfile_top_uint (debug_mode
);
7112 logfile_top_uint (force
);
7113 logfile_top_uint (kernel_accel
);
7114 logfile_top_uint (kernel_loops
);
7115 logfile_top_uint (nvidia_spin_damp
);
7116 logfile_top_uint (gpu_temp_disable
);
7118 logfile_top_uint (gpu_temp_abort
);
7119 logfile_top_uint (gpu_temp_retain
);
7121 logfile_top_uint (hash_mode
);
7122 logfile_top_uint (hex_charset
);
7123 logfile_top_uint (hex_salt
);
7124 logfile_top_uint (hex_wordlist
);
7125 logfile_top_uint (increment
);
7126 logfile_top_uint (increment_max
);
7127 logfile_top_uint (increment_min
);
7128 logfile_top_uint (keyspace
);
7129 logfile_top_uint (left
);
7130 logfile_top_uint (logfile_disable
);
7131 logfile_top_uint (loopback
);
7132 logfile_top_uint (markov_classic
);
7133 logfile_top_uint (markov_disable
);
7134 logfile_top_uint (markov_threshold
);
7135 logfile_top_uint (outfile_autohex
);
7136 logfile_top_uint (outfile_check_timer
);
7137 logfile_top_uint (outfile_format
);
7138 logfile_top_uint (potfile_disable
);
7139 logfile_top_string (potfile_path
);
7140 #if defined(HAVE_HWMON)
7141 logfile_top_uint (powertune_enable
);
7143 logfile_top_uint (scrypt_tmto
);
7144 logfile_top_uint (quiet
);
7145 logfile_top_uint (remove
);
7146 logfile_top_uint (remove_timer
);
7147 logfile_top_uint (restore
);
7148 logfile_top_uint (restore_disable
);
7149 logfile_top_uint (restore_timer
);
7150 logfile_top_uint (rp_gen
);
7151 logfile_top_uint (rp_gen_func_max
);
7152 logfile_top_uint (rp_gen_func_min
);
7153 logfile_top_uint (rp_gen_seed
);
7154 logfile_top_uint (runtime
);
7155 logfile_top_uint (segment_size
);
7156 logfile_top_uint (show
);
7157 logfile_top_uint (status
);
7158 logfile_top_uint (machine_readable
);
7159 logfile_top_uint (status_timer
);
7160 logfile_top_uint (usage
);
7161 logfile_top_uint (username
);
7162 logfile_top_uint (version
);
7163 logfile_top_uint (weak_hash_threshold
);
7164 logfile_top_uint (workload_profile
);
7165 logfile_top_uint64 (limit
);
7166 logfile_top_uint64 (skip
);
7167 logfile_top_char (separator
);
7168 logfile_top_string (cpu_affinity
);
7169 logfile_top_string (custom_charset_1
);
7170 logfile_top_string (custom_charset_2
);
7171 logfile_top_string (custom_charset_3
);
7172 logfile_top_string (custom_charset_4
);
7173 logfile_top_string (debug_file
);
7174 logfile_top_string (opencl_devices
);
7175 logfile_top_string (opencl_platforms
);
7176 logfile_top_string (opencl_device_types
);
7177 logfile_top_uint (opencl_vector_width
);
7178 logfile_top_string (induction_dir
);
7179 logfile_top_string (markov_hcstat
);
7180 logfile_top_string (outfile
);
7181 logfile_top_string (outfile_check_dir
);
7182 logfile_top_string (rule_buf_l
);
7183 logfile_top_string (rule_buf_r
);
7184 logfile_top_string (session
);
7185 logfile_top_string (truecrypt_keyfiles
);
7186 logfile_top_string (veracrypt_keyfiles
);
7187 logfile_top_uint (veracrypt_pim
);
7190 * Init OpenCL library loader
7195 ocl
= (OCL_PTR
*) mymalloc (sizeof (OCL_PTR
));
7203 * OpenCL platform selection
7206 u32 opencl_platforms_filter
= setup_opencl_platforms_filter (opencl_platforms
);
7209 * OpenCL device selection
7212 u32 devices_filter
= setup_devices_filter (opencl_devices
);
7215 * OpenCL device type selection
7218 cl_device_type device_types_filter
= setup_device_types_filter (opencl_device_types
);
7227 * disable useless stuff for benchmark
7232 restore_disable
= 1;
7233 potfile_disable
= 1;
7234 weak_hash_threshold
= 0;
7235 nvidia_spin_damp
= 0;
7236 gpu_temp_disable
= 1;
7237 outfile_check_timer
= 0;
7240 if (powertune_enable
== 1)
7242 gpu_temp_disable
= 0;
7246 data
.status_timer
= status_timer
;
7247 data
.restore_timer
= restore_timer
;
7248 data
.restore_disable
= restore_disable
;
7249 data
.outfile_check_timer
= outfile_check_timer
;
7252 * force attack mode to be bruteforce
7255 attack_mode
= ATTACK_MODE_BF
;
7256 attack_kern
= ATTACK_KERN_BF
;
7258 if (workload_profile_chgd
== 0)
7260 workload_profile
= 3;
7262 data
.workload_profile
= workload_profile
;
7272 uint attack_exec
= 0;
7276 uint esalt_size
= 0;
7278 uint dgst_pos0
= -1;
7279 uint dgst_pos1
= -1;
7280 uint dgst_pos2
= -1;
7281 uint dgst_pos3
= -1;
7283 int (*parse_func
) (char *, uint
, hash_t
*);
7284 int (*sort_by_digest
) (const void *, const void *);
7286 uint algorithm_pos
= 0;
7287 uint algorithm_max
= 1;
7289 uint
*algorithms
= default_benchmark_algorithms
;
7291 if (benchmark
== 1 && hash_mode_chgd
== 0) algorithm_max
= NUM_DEFAULT_BENCHMARK_ALGORITHMS
;
7293 for (algorithm_pos
= 0; algorithm_pos
< algorithm_max
; algorithm_pos
++)
7296 * We need to reset 'rd' in benchmark mode otherwise when the user hits 'bypass'
7297 * the following algos are skipped entirely
7300 if (algorithm_pos
> 0)
7304 rd
= init_restore (argc
, argv
);
7310 * update hash_mode in case of multihash benchmark
7315 if (hash_mode_chgd
== 0)
7317 hash_mode
= algorithms
[algorithm_pos
];
7319 data
.hash_mode
= hash_mode
;
7329 case 0: hash_type
= HASH_TYPE_MD5
;
7330 salt_type
= SALT_TYPE_NONE
;
7331 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7332 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7333 | OPTS_TYPE_PT_ADD80
7334 | OPTS_TYPE_PT_ADDBITS14
;
7335 kern_type
= KERN_TYPE_MD5
;
7336 dgst_size
= DGST_SIZE_4_4
;
7337 parse_func
= md5_parse_hash
;
7338 sort_by_digest
= sort_by_digest_4_4
;
7339 opti_type
= OPTI_TYPE_ZERO_BYTE
7340 | OPTI_TYPE_PRECOMPUTE_INIT
7341 | OPTI_TYPE_PRECOMPUTE_MERKLE
7342 | OPTI_TYPE_MEET_IN_MIDDLE
7343 | OPTI_TYPE_EARLY_SKIP
7344 | OPTI_TYPE_NOT_ITERATED
7345 | OPTI_TYPE_NOT_SALTED
7346 | OPTI_TYPE_RAW_HASH
;
7353 case 10: hash_type
= HASH_TYPE_MD5
;
7354 salt_type
= SALT_TYPE_INTERN
;
7355 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7356 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7357 | OPTS_TYPE_ST_ADD80
7358 | OPTS_TYPE_ST_ADDBITS14
;
7359 kern_type
= KERN_TYPE_MD5_PWSLT
;
7360 dgst_size
= DGST_SIZE_4_4
;
7361 parse_func
= md5s_parse_hash
;
7362 sort_by_digest
= sort_by_digest_4_4
;
7363 opti_type
= OPTI_TYPE_ZERO_BYTE
7364 | OPTI_TYPE_PRECOMPUTE_INIT
7365 | OPTI_TYPE_PRECOMPUTE_MERKLE
7366 | OPTI_TYPE_MEET_IN_MIDDLE
7367 | OPTI_TYPE_EARLY_SKIP
7368 | OPTI_TYPE_NOT_ITERATED
7369 | OPTI_TYPE_APPENDED_SALT
7370 | OPTI_TYPE_RAW_HASH
;
7377 case 11: hash_type
= HASH_TYPE_MD5
;
7378 salt_type
= SALT_TYPE_INTERN
;
7379 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7380 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7381 | OPTS_TYPE_ST_ADD80
7382 | OPTS_TYPE_ST_ADDBITS14
;
7383 kern_type
= KERN_TYPE_MD5_PWSLT
;
7384 dgst_size
= DGST_SIZE_4_4
;
7385 parse_func
= joomla_parse_hash
;
7386 sort_by_digest
= sort_by_digest_4_4
;
7387 opti_type
= OPTI_TYPE_ZERO_BYTE
7388 | OPTI_TYPE_PRECOMPUTE_INIT
7389 | OPTI_TYPE_PRECOMPUTE_MERKLE
7390 | OPTI_TYPE_MEET_IN_MIDDLE
7391 | OPTI_TYPE_EARLY_SKIP
7392 | OPTI_TYPE_NOT_ITERATED
7393 | OPTI_TYPE_APPENDED_SALT
7394 | OPTI_TYPE_RAW_HASH
;
7401 case 12: hash_type
= HASH_TYPE_MD5
;
7402 salt_type
= SALT_TYPE_INTERN
;
7403 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7404 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7405 | OPTS_TYPE_ST_ADD80
7406 | OPTS_TYPE_ST_ADDBITS14
;
7407 kern_type
= KERN_TYPE_MD5_PWSLT
;
7408 dgst_size
= DGST_SIZE_4_4
;
7409 parse_func
= postgresql_parse_hash
;
7410 sort_by_digest
= sort_by_digest_4_4
;
7411 opti_type
= OPTI_TYPE_ZERO_BYTE
7412 | OPTI_TYPE_PRECOMPUTE_INIT
7413 | OPTI_TYPE_PRECOMPUTE_MERKLE
7414 | OPTI_TYPE_MEET_IN_MIDDLE
7415 | OPTI_TYPE_EARLY_SKIP
7416 | OPTI_TYPE_NOT_ITERATED
7417 | OPTI_TYPE_APPENDED_SALT
7418 | OPTI_TYPE_RAW_HASH
;
7425 case 20: hash_type
= HASH_TYPE_MD5
;
7426 salt_type
= SALT_TYPE_INTERN
;
7427 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7428 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7429 | OPTS_TYPE_PT_ADD80
7430 | OPTS_TYPE_PT_ADDBITS14
;
7431 kern_type
= KERN_TYPE_MD5_SLTPW
;
7432 dgst_size
= DGST_SIZE_4_4
;
7433 parse_func
= md5s_parse_hash
;
7434 sort_by_digest
= sort_by_digest_4_4
;
7435 opti_type
= OPTI_TYPE_ZERO_BYTE
7436 | OPTI_TYPE_PRECOMPUTE_INIT
7437 | OPTI_TYPE_PRECOMPUTE_MERKLE
7438 | OPTI_TYPE_EARLY_SKIP
7439 | OPTI_TYPE_NOT_ITERATED
7440 | OPTI_TYPE_PREPENDED_SALT
7441 | OPTI_TYPE_RAW_HASH
;
7448 case 21: hash_type
= HASH_TYPE_MD5
;
7449 salt_type
= SALT_TYPE_INTERN
;
7450 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7451 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7452 | OPTS_TYPE_PT_ADD80
7453 | OPTS_TYPE_PT_ADDBITS14
;
7454 kern_type
= KERN_TYPE_MD5_SLTPW
;
7455 dgst_size
= DGST_SIZE_4_4
;
7456 parse_func
= osc_parse_hash
;
7457 sort_by_digest
= sort_by_digest_4_4
;
7458 opti_type
= OPTI_TYPE_ZERO_BYTE
7459 | OPTI_TYPE_PRECOMPUTE_INIT
7460 | OPTI_TYPE_PRECOMPUTE_MERKLE
7461 | OPTI_TYPE_EARLY_SKIP
7462 | OPTI_TYPE_NOT_ITERATED
7463 | OPTI_TYPE_PREPENDED_SALT
7464 | OPTI_TYPE_RAW_HASH
;
7471 case 22: hash_type
= HASH_TYPE_MD5
;
7472 salt_type
= SALT_TYPE_EMBEDDED
;
7473 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7474 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7475 | OPTS_TYPE_PT_ADD80
7476 | OPTS_TYPE_PT_ADDBITS14
;
7477 kern_type
= KERN_TYPE_MD5_SLTPW
;
7478 dgst_size
= DGST_SIZE_4_4
;
7479 parse_func
= netscreen_parse_hash
;
7480 sort_by_digest
= sort_by_digest_4_4
;
7481 opti_type
= OPTI_TYPE_ZERO_BYTE
7482 | OPTI_TYPE_PRECOMPUTE_INIT
7483 | OPTI_TYPE_PRECOMPUTE_MERKLE
7484 | OPTI_TYPE_EARLY_SKIP
7485 | OPTI_TYPE_NOT_ITERATED
7486 | OPTI_TYPE_PREPENDED_SALT
7487 | OPTI_TYPE_RAW_HASH
;
7494 case 23: hash_type
= HASH_TYPE_MD5
;
7495 salt_type
= SALT_TYPE_EMBEDDED
;
7496 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7497 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7498 | OPTS_TYPE_PT_ADD80
7499 | OPTS_TYPE_PT_ADDBITS14
;
7500 kern_type
= KERN_TYPE_MD5_SLTPW
;
7501 dgst_size
= DGST_SIZE_4_4
;
7502 parse_func
= skype_parse_hash
;
7503 sort_by_digest
= sort_by_digest_4_4
;
7504 opti_type
= OPTI_TYPE_ZERO_BYTE
7505 | OPTI_TYPE_PRECOMPUTE_INIT
7506 | OPTI_TYPE_PRECOMPUTE_MERKLE
7507 | OPTI_TYPE_EARLY_SKIP
7508 | OPTI_TYPE_NOT_ITERATED
7509 | OPTI_TYPE_PREPENDED_SALT
7510 | OPTI_TYPE_RAW_HASH
;
7517 case 30: hash_type
= HASH_TYPE_MD5
;
7518 salt_type
= SALT_TYPE_INTERN
;
7519 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7520 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7521 | OPTS_TYPE_PT_UNICODE
7522 | OPTS_TYPE_ST_ADD80
7523 | OPTS_TYPE_ST_ADDBITS14
;
7524 kern_type
= KERN_TYPE_MD5_PWUSLT
;
7525 dgst_size
= DGST_SIZE_4_4
;
7526 parse_func
= md5s_parse_hash
;
7527 sort_by_digest
= sort_by_digest_4_4
;
7528 opti_type
= OPTI_TYPE_ZERO_BYTE
7529 | OPTI_TYPE_PRECOMPUTE_INIT
7530 | OPTI_TYPE_PRECOMPUTE_MERKLE
7531 | OPTI_TYPE_MEET_IN_MIDDLE
7532 | OPTI_TYPE_EARLY_SKIP
7533 | OPTI_TYPE_NOT_ITERATED
7534 | OPTI_TYPE_APPENDED_SALT
7535 | OPTI_TYPE_RAW_HASH
;
7542 case 40: hash_type
= HASH_TYPE_MD5
;
7543 salt_type
= SALT_TYPE_INTERN
;
7544 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7545 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7546 | OPTS_TYPE_PT_ADD80
7547 | OPTS_TYPE_PT_ADDBITS14
7548 | OPTS_TYPE_PT_UNICODE
;
7549 kern_type
= KERN_TYPE_MD5_SLTPWU
;
7550 dgst_size
= DGST_SIZE_4_4
;
7551 parse_func
= md5s_parse_hash
;
7552 sort_by_digest
= sort_by_digest_4_4
;
7553 opti_type
= OPTI_TYPE_ZERO_BYTE
7554 | OPTI_TYPE_PRECOMPUTE_INIT
7555 | OPTI_TYPE_PRECOMPUTE_MERKLE
7556 | OPTI_TYPE_EARLY_SKIP
7557 | OPTI_TYPE_NOT_ITERATED
7558 | OPTI_TYPE_PREPENDED_SALT
7559 | OPTI_TYPE_RAW_HASH
;
7566 case 50: hash_type
= HASH_TYPE_MD5
;
7567 salt_type
= SALT_TYPE_INTERN
;
7568 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7569 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7570 | OPTS_TYPE_ST_ADD80
7571 | OPTS_TYPE_ST_ADDBITS14
;
7572 kern_type
= KERN_TYPE_HMACMD5_PW
;
7573 dgst_size
= DGST_SIZE_4_4
;
7574 parse_func
= hmacmd5_parse_hash
;
7575 sort_by_digest
= sort_by_digest_4_4
;
7576 opti_type
= OPTI_TYPE_ZERO_BYTE
7577 | OPTI_TYPE_NOT_ITERATED
;
7584 case 60: hash_type
= HASH_TYPE_MD5
;
7585 salt_type
= SALT_TYPE_INTERN
;
7586 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7587 opts_type
= OPTS_TYPE_PT_GENERATE_LE
7588 | OPTS_TYPE_PT_ADD80
7589 | OPTS_TYPE_PT_ADDBITS14
;
7590 kern_type
= KERN_TYPE_HMACMD5_SLT
;
7591 dgst_size
= DGST_SIZE_4_4
;
7592 parse_func
= hmacmd5_parse_hash
;
7593 sort_by_digest
= sort_by_digest_4_4
;
7594 opti_type
= OPTI_TYPE_ZERO_BYTE
7595 | OPTI_TYPE_NOT_ITERATED
;
7602 case 100: hash_type
= HASH_TYPE_SHA1
;
7603 salt_type
= SALT_TYPE_NONE
;
7604 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7605 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7606 | OPTS_TYPE_PT_ADD80
7607 | OPTS_TYPE_PT_ADDBITS15
;
7608 kern_type
= KERN_TYPE_SHA1
;
7609 dgst_size
= DGST_SIZE_4_5
;
7610 parse_func
= sha1_parse_hash
;
7611 sort_by_digest
= sort_by_digest_4_5
;
7612 opti_type
= OPTI_TYPE_ZERO_BYTE
7613 | OPTI_TYPE_PRECOMPUTE_INIT
7614 | OPTI_TYPE_PRECOMPUTE_MERKLE
7615 | OPTI_TYPE_EARLY_SKIP
7616 | OPTI_TYPE_NOT_ITERATED
7617 | OPTI_TYPE_NOT_SALTED
7618 | OPTI_TYPE_RAW_HASH
;
7625 case 101: hash_type
= HASH_TYPE_SHA1
;
7626 salt_type
= SALT_TYPE_NONE
;
7627 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7628 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7629 | OPTS_TYPE_PT_ADD80
7630 | OPTS_TYPE_PT_ADDBITS15
;
7631 kern_type
= KERN_TYPE_SHA1
;
7632 dgst_size
= DGST_SIZE_4_5
;
7633 parse_func
= sha1b64_parse_hash
;
7634 sort_by_digest
= sort_by_digest_4_5
;
7635 opti_type
= OPTI_TYPE_ZERO_BYTE
7636 | OPTI_TYPE_PRECOMPUTE_INIT
7637 | OPTI_TYPE_PRECOMPUTE_MERKLE
7638 | OPTI_TYPE_EARLY_SKIP
7639 | OPTI_TYPE_NOT_ITERATED
7640 | OPTI_TYPE_NOT_SALTED
7641 | OPTI_TYPE_RAW_HASH
;
7648 case 110: hash_type
= HASH_TYPE_SHA1
;
7649 salt_type
= SALT_TYPE_INTERN
;
7650 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7651 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7652 | OPTS_TYPE_ST_ADD80
7653 | OPTS_TYPE_ST_ADDBITS15
;
7654 kern_type
= KERN_TYPE_SHA1_PWSLT
;
7655 dgst_size
= DGST_SIZE_4_5
;
7656 parse_func
= sha1s_parse_hash
;
7657 sort_by_digest
= sort_by_digest_4_5
;
7658 opti_type
= OPTI_TYPE_ZERO_BYTE
7659 | OPTI_TYPE_PRECOMPUTE_INIT
7660 | OPTI_TYPE_PRECOMPUTE_MERKLE
7661 | OPTI_TYPE_EARLY_SKIP
7662 | OPTI_TYPE_NOT_ITERATED
7663 | OPTI_TYPE_APPENDED_SALT
7664 | OPTI_TYPE_RAW_HASH
;
7671 case 111: hash_type
= HASH_TYPE_SHA1
;
7672 salt_type
= SALT_TYPE_EMBEDDED
;
7673 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7674 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7675 | OPTS_TYPE_ST_ADD80
7676 | OPTS_TYPE_ST_ADDBITS15
;
7677 kern_type
= KERN_TYPE_SHA1_PWSLT
;
7678 dgst_size
= DGST_SIZE_4_5
;
7679 parse_func
= sha1b64s_parse_hash
;
7680 sort_by_digest
= sort_by_digest_4_5
;
7681 opti_type
= OPTI_TYPE_ZERO_BYTE
7682 | OPTI_TYPE_PRECOMPUTE_INIT
7683 | OPTI_TYPE_PRECOMPUTE_MERKLE
7684 | OPTI_TYPE_EARLY_SKIP
7685 | OPTI_TYPE_NOT_ITERATED
7686 | OPTI_TYPE_APPENDED_SALT
7687 | OPTI_TYPE_RAW_HASH
;
7694 case 112: hash_type
= HASH_TYPE_SHA1
;
7695 salt_type
= SALT_TYPE_INTERN
;
7696 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7697 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7698 | OPTS_TYPE_ST_ADD80
7699 | OPTS_TYPE_ST_ADDBITS15
7701 kern_type
= KERN_TYPE_SHA1_PWSLT
;
7702 dgst_size
= DGST_SIZE_4_5
;
7703 parse_func
= oracles_parse_hash
;
7704 sort_by_digest
= sort_by_digest_4_5
;
7705 opti_type
= OPTI_TYPE_ZERO_BYTE
7706 | OPTI_TYPE_PRECOMPUTE_INIT
7707 | OPTI_TYPE_PRECOMPUTE_MERKLE
7708 | OPTI_TYPE_EARLY_SKIP
7709 | OPTI_TYPE_NOT_ITERATED
7710 | OPTI_TYPE_APPENDED_SALT
7711 | OPTI_TYPE_RAW_HASH
;
7718 case 120: hash_type
= HASH_TYPE_SHA1
;
7719 salt_type
= SALT_TYPE_INTERN
;
7720 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7721 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7722 | OPTS_TYPE_PT_ADD80
7723 | OPTS_TYPE_PT_ADDBITS15
;
7724 kern_type
= KERN_TYPE_SHA1_SLTPW
;
7725 dgst_size
= DGST_SIZE_4_5
;
7726 parse_func
= sha1s_parse_hash
;
7727 sort_by_digest
= sort_by_digest_4_5
;
7728 opti_type
= OPTI_TYPE_ZERO_BYTE
7729 | OPTI_TYPE_PRECOMPUTE_INIT
7730 | OPTI_TYPE_PRECOMPUTE_MERKLE
7731 | OPTI_TYPE_EARLY_SKIP
7732 | OPTI_TYPE_NOT_ITERATED
7733 | OPTI_TYPE_PREPENDED_SALT
7734 | OPTI_TYPE_RAW_HASH
;
7741 case 121: hash_type
= HASH_TYPE_SHA1
;
7742 salt_type
= SALT_TYPE_INTERN
;
7743 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7744 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7745 | OPTS_TYPE_PT_ADD80
7746 | OPTS_TYPE_PT_ADDBITS15
7747 | OPTS_TYPE_ST_LOWER
;
7748 kern_type
= KERN_TYPE_SHA1_SLTPW
;
7749 dgst_size
= DGST_SIZE_4_5
;
7750 parse_func
= smf_parse_hash
;
7751 sort_by_digest
= sort_by_digest_4_5
;
7752 opti_type
= OPTI_TYPE_ZERO_BYTE
7753 | OPTI_TYPE_PRECOMPUTE_INIT
7754 | OPTI_TYPE_PRECOMPUTE_MERKLE
7755 | OPTI_TYPE_EARLY_SKIP
7756 | OPTI_TYPE_NOT_ITERATED
7757 | OPTI_TYPE_PREPENDED_SALT
7758 | OPTI_TYPE_RAW_HASH
;
7765 case 122: hash_type
= HASH_TYPE_SHA1
;
7766 salt_type
= SALT_TYPE_EMBEDDED
;
7767 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7768 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7769 | OPTS_TYPE_PT_ADD80
7770 | OPTS_TYPE_PT_ADDBITS15
7772 kern_type
= KERN_TYPE_SHA1_SLTPW
;
7773 dgst_size
= DGST_SIZE_4_5
;
7774 parse_func
= osx1_parse_hash
;
7775 sort_by_digest
= sort_by_digest_4_5
;
7776 opti_type
= OPTI_TYPE_ZERO_BYTE
7777 | OPTI_TYPE_PRECOMPUTE_INIT
7778 | OPTI_TYPE_PRECOMPUTE_MERKLE
7779 | OPTI_TYPE_EARLY_SKIP
7780 | OPTI_TYPE_NOT_ITERATED
7781 | OPTI_TYPE_PREPENDED_SALT
7782 | OPTI_TYPE_RAW_HASH
;
7789 case 124: hash_type
= HASH_TYPE_SHA1
;
7790 salt_type
= SALT_TYPE_EMBEDDED
;
7791 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7792 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7793 | OPTS_TYPE_PT_ADD80
7794 | OPTS_TYPE_PT_ADDBITS15
;
7795 kern_type
= KERN_TYPE_SHA1_SLTPW
;
7796 dgst_size
= DGST_SIZE_4_5
;
7797 parse_func
= djangosha1_parse_hash
;
7798 sort_by_digest
= sort_by_digest_4_5
;
7799 opti_type
= OPTI_TYPE_ZERO_BYTE
7800 | OPTI_TYPE_PRECOMPUTE_INIT
7801 | OPTI_TYPE_PRECOMPUTE_MERKLE
7802 | OPTI_TYPE_EARLY_SKIP
7803 | OPTI_TYPE_NOT_ITERATED
7804 | OPTI_TYPE_PREPENDED_SALT
7805 | OPTI_TYPE_RAW_HASH
;
7812 case 125: hash_type
= HASH_TYPE_SHA1
;
7813 salt_type
= SALT_TYPE_EMBEDDED
;
7814 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7815 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7816 | OPTS_TYPE_PT_ADD80
7817 | OPTS_TYPE_PT_ADDBITS15
7819 kern_type
= KERN_TYPE_SHA1_SLTPW
;
7820 dgst_size
= DGST_SIZE_4_5
;
7821 parse_func
= arubaos_parse_hash
;
7822 sort_by_digest
= sort_by_digest_4_5
;
7823 opti_type
= OPTI_TYPE_ZERO_BYTE
7824 | OPTI_TYPE_PRECOMPUTE_INIT
7825 | OPTI_TYPE_PRECOMPUTE_MERKLE
7826 | OPTI_TYPE_EARLY_SKIP
7827 | OPTI_TYPE_NOT_ITERATED
7828 | OPTI_TYPE_PREPENDED_SALT
7829 | OPTI_TYPE_RAW_HASH
;
7836 case 130: hash_type
= HASH_TYPE_SHA1
;
7837 salt_type
= SALT_TYPE_INTERN
;
7838 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7839 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7840 | OPTS_TYPE_PT_UNICODE
7841 | OPTS_TYPE_ST_ADD80
7842 | OPTS_TYPE_ST_ADDBITS15
;
7843 kern_type
= KERN_TYPE_SHA1_PWUSLT
;
7844 dgst_size
= DGST_SIZE_4_5
;
7845 parse_func
= sha1s_parse_hash
;
7846 sort_by_digest
= sort_by_digest_4_5
;
7847 opti_type
= OPTI_TYPE_ZERO_BYTE
7848 | OPTI_TYPE_PRECOMPUTE_INIT
7849 | OPTI_TYPE_PRECOMPUTE_MERKLE
7850 | OPTI_TYPE_EARLY_SKIP
7851 | OPTI_TYPE_NOT_ITERATED
7852 | OPTI_TYPE_APPENDED_SALT
7853 | OPTI_TYPE_RAW_HASH
;
7860 case 131: hash_type
= HASH_TYPE_SHA1
;
7861 salt_type
= SALT_TYPE_EMBEDDED
;
7862 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7863 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7864 | OPTS_TYPE_PT_UNICODE
7865 | OPTS_TYPE_PT_UPPER
7866 | OPTS_TYPE_ST_ADD80
7867 | OPTS_TYPE_ST_ADDBITS15
7869 kern_type
= KERN_TYPE_SHA1_PWUSLT
;
7870 dgst_size
= DGST_SIZE_4_5
;
7871 parse_func
= mssql2000_parse_hash
;
7872 sort_by_digest
= sort_by_digest_4_5
;
7873 opti_type
= OPTI_TYPE_ZERO_BYTE
7874 | OPTI_TYPE_PRECOMPUTE_INIT
7875 | OPTI_TYPE_PRECOMPUTE_MERKLE
7876 | OPTI_TYPE_EARLY_SKIP
7877 | OPTI_TYPE_NOT_ITERATED
7878 | OPTI_TYPE_APPENDED_SALT
7879 | OPTI_TYPE_RAW_HASH
;
7886 case 132: hash_type
= HASH_TYPE_SHA1
;
7887 salt_type
= SALT_TYPE_EMBEDDED
;
7888 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7889 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7890 | OPTS_TYPE_PT_UNICODE
7891 | OPTS_TYPE_ST_ADD80
7892 | OPTS_TYPE_ST_ADDBITS15
7894 kern_type
= KERN_TYPE_SHA1_PWUSLT
;
7895 dgst_size
= DGST_SIZE_4_5
;
7896 parse_func
= mssql2005_parse_hash
;
7897 sort_by_digest
= sort_by_digest_4_5
;
7898 opti_type
= OPTI_TYPE_ZERO_BYTE
7899 | OPTI_TYPE_PRECOMPUTE_INIT
7900 | OPTI_TYPE_PRECOMPUTE_MERKLE
7901 | OPTI_TYPE_EARLY_SKIP
7902 | OPTI_TYPE_NOT_ITERATED
7903 | OPTI_TYPE_APPENDED_SALT
7904 | OPTI_TYPE_RAW_HASH
;
7911 case 133: hash_type
= HASH_TYPE_SHA1
;
7912 salt_type
= SALT_TYPE_EMBEDDED
;
7913 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7914 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7915 | OPTS_TYPE_PT_UNICODE
7916 | OPTS_TYPE_ST_ADD80
7917 | OPTS_TYPE_ST_ADDBITS15
;
7918 kern_type
= KERN_TYPE_SHA1_PWUSLT
;
7919 dgst_size
= DGST_SIZE_4_5
;
7920 parse_func
= peoplesoft_parse_hash
;
7921 sort_by_digest
= sort_by_digest_4_5
;
7922 opti_type
= OPTI_TYPE_ZERO_BYTE
7923 | OPTI_TYPE_PRECOMPUTE_INIT
7924 | OPTI_TYPE_PRECOMPUTE_MERKLE
7925 | OPTI_TYPE_EARLY_SKIP
7926 | OPTI_TYPE_NOT_ITERATED
7927 | OPTI_TYPE_APPENDED_SALT
7928 | OPTI_TYPE_RAW_HASH
;
7935 case 140: hash_type
= HASH_TYPE_SHA1
;
7936 salt_type
= SALT_TYPE_INTERN
;
7937 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7938 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7939 | OPTS_TYPE_PT_ADD80
7940 | OPTS_TYPE_PT_ADDBITS15
7941 | OPTS_TYPE_PT_UNICODE
;
7942 kern_type
= KERN_TYPE_SHA1_SLTPWU
;
7943 dgst_size
= DGST_SIZE_4_5
;
7944 parse_func
= sha1s_parse_hash
;
7945 sort_by_digest
= sort_by_digest_4_5
;
7946 opti_type
= OPTI_TYPE_ZERO_BYTE
7947 | OPTI_TYPE_PRECOMPUTE_INIT
7948 | OPTI_TYPE_PRECOMPUTE_MERKLE
7949 | OPTI_TYPE_EARLY_SKIP
7950 | OPTI_TYPE_NOT_ITERATED
7951 | OPTI_TYPE_PREPENDED_SALT
7952 | OPTI_TYPE_RAW_HASH
;
7959 case 141: hash_type
= HASH_TYPE_SHA1
;
7960 salt_type
= SALT_TYPE_EMBEDDED
;
7961 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7962 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7963 | OPTS_TYPE_PT_ADD80
7964 | OPTS_TYPE_PT_ADDBITS15
7965 | OPTS_TYPE_PT_UNICODE
7966 | OPTS_TYPE_ST_BASE64
;
7967 kern_type
= KERN_TYPE_SHA1_SLTPWU
;
7968 dgst_size
= DGST_SIZE_4_5
;
7969 parse_func
= episerver_parse_hash
;
7970 sort_by_digest
= sort_by_digest_4_5
;
7971 opti_type
= OPTI_TYPE_ZERO_BYTE
7972 | OPTI_TYPE_PRECOMPUTE_INIT
7973 | OPTI_TYPE_PRECOMPUTE_MERKLE
7974 | OPTI_TYPE_EARLY_SKIP
7975 | OPTI_TYPE_NOT_ITERATED
7976 | OPTI_TYPE_PREPENDED_SALT
7977 | OPTI_TYPE_RAW_HASH
;
7984 case 150: hash_type
= HASH_TYPE_SHA1
;
7985 salt_type
= SALT_TYPE_INTERN
;
7986 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
7987 opts_type
= OPTS_TYPE_PT_GENERATE_BE
7988 | OPTS_TYPE_ST_ADD80
7989 | OPTS_TYPE_ST_ADDBITS15
;
7990 kern_type
= KERN_TYPE_HMACSHA1_PW
;
7991 dgst_size
= DGST_SIZE_4_5
;
7992 parse_func
= hmacsha1_parse_hash
;
7993 sort_by_digest
= sort_by_digest_4_5
;
7994 opti_type
= OPTI_TYPE_ZERO_BYTE
7995 | OPTI_TYPE_NOT_ITERATED
;
8002 case 160: hash_type
= HASH_TYPE_SHA1
;
8003 salt_type
= SALT_TYPE_INTERN
;
8004 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8005 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8006 | OPTS_TYPE_PT_ADD80
8007 | OPTS_TYPE_PT_ADDBITS15
;
8008 kern_type
= KERN_TYPE_HMACSHA1_SLT
;
8009 dgst_size
= DGST_SIZE_4_5
;
8010 parse_func
= hmacsha1_parse_hash
;
8011 sort_by_digest
= sort_by_digest_4_5
;
8012 opti_type
= OPTI_TYPE_ZERO_BYTE
8013 | OPTI_TYPE_NOT_ITERATED
;
8020 case 190: hash_type
= HASH_TYPE_SHA1
;
8021 salt_type
= SALT_TYPE_NONE
;
8022 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8023 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8024 | OPTS_TYPE_PT_ADD80
8025 | OPTS_TYPE_PT_ADDBITS15
;
8026 kern_type
= KERN_TYPE_SHA1_LINKEDIN
;
8027 dgst_size
= DGST_SIZE_4_5
;
8028 parse_func
= sha1linkedin_parse_hash
;
8029 sort_by_digest
= sort_by_digest_4_5
;
8030 opti_type
= OPTI_TYPE_ZERO_BYTE
8031 | OPTI_TYPE_PRECOMPUTE_INIT
8032 | OPTI_TYPE_EARLY_SKIP
8033 | OPTI_TYPE_NOT_ITERATED
8034 | OPTI_TYPE_NOT_SALTED
;
8041 case 200: hash_type
= HASH_TYPE_MYSQL
;
8042 salt_type
= SALT_TYPE_NONE
;
8043 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8045 kern_type
= KERN_TYPE_MYSQL
;
8046 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
8047 parse_func
= mysql323_parse_hash
;
8048 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
8049 opti_type
= OPTI_TYPE_ZERO_BYTE
;
8056 case 300: hash_type
= HASH_TYPE_SHA1
;
8057 salt_type
= SALT_TYPE_NONE
;
8058 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8059 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8060 | OPTS_TYPE_PT_ADD80
8061 | OPTS_TYPE_PT_ADDBITS15
;
8062 kern_type
= KERN_TYPE_MYSQL41
;
8063 dgst_size
= DGST_SIZE_4_5
;
8064 parse_func
= sha1_parse_hash
;
8065 sort_by_digest
= sort_by_digest_4_5
;
8066 opti_type
= OPTI_TYPE_ZERO_BYTE
8067 | OPTI_TYPE_PRECOMPUTE_INIT
8068 | OPTI_TYPE_PRECOMPUTE_MERKLE
8069 | OPTI_TYPE_EARLY_SKIP
8070 | OPTI_TYPE_NOT_ITERATED
8071 | OPTI_TYPE_NOT_SALTED
;
8078 case 400: hash_type
= HASH_TYPE_MD5
;
8079 salt_type
= SALT_TYPE_EMBEDDED
;
8080 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
8081 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
8082 kern_type
= KERN_TYPE_PHPASS
;
8083 dgst_size
= DGST_SIZE_4_4
;
8084 parse_func
= phpass_parse_hash
;
8085 sort_by_digest
= sort_by_digest_4_4
;
8086 opti_type
= OPTI_TYPE_ZERO_BYTE
8087 | OPTI_TYPE_SLOW_HASH_SIMD
;
8094 case 500: hash_type
= HASH_TYPE_MD5
;
8095 salt_type
= SALT_TYPE_EMBEDDED
;
8096 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
8097 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
8098 kern_type
= KERN_TYPE_MD5CRYPT
;
8099 dgst_size
= DGST_SIZE_4_4
;
8100 parse_func
= md5crypt_parse_hash
;
8101 sort_by_digest
= sort_by_digest_4_4
;
8102 opti_type
= OPTI_TYPE_ZERO_BYTE
;
8109 case 501: hash_type
= HASH_TYPE_MD5
;
8110 salt_type
= SALT_TYPE_EMBEDDED
;
8111 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
8112 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8113 | OPTS_TYPE_HASH_COPY
;
8114 kern_type
= KERN_TYPE_MD5CRYPT
;
8115 dgst_size
= DGST_SIZE_4_4
;
8116 parse_func
= juniper_parse_hash
;
8117 sort_by_digest
= sort_by_digest_4_4
;
8118 opti_type
= OPTI_TYPE_ZERO_BYTE
;
8125 case 900: hash_type
= HASH_TYPE_MD4
;
8126 salt_type
= SALT_TYPE_NONE
;
8127 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8128 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8129 | OPTS_TYPE_PT_ADD80
8130 | OPTS_TYPE_PT_ADDBITS14
;
8131 kern_type
= KERN_TYPE_MD4
;
8132 dgst_size
= DGST_SIZE_4_4
;
8133 parse_func
= md4_parse_hash
;
8134 sort_by_digest
= sort_by_digest_4_4
;
8135 opti_type
= OPTI_TYPE_ZERO_BYTE
8136 | OPTI_TYPE_PRECOMPUTE_INIT
8137 | OPTI_TYPE_PRECOMPUTE_MERKLE
8138 | OPTI_TYPE_MEET_IN_MIDDLE
8139 | OPTI_TYPE_EARLY_SKIP
8140 | OPTI_TYPE_NOT_ITERATED
8141 | OPTI_TYPE_NOT_SALTED
8142 | OPTI_TYPE_RAW_HASH
;
8149 case 1000: hash_type
= HASH_TYPE_MD4
;
8150 salt_type
= SALT_TYPE_NONE
;
8151 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8152 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8153 | OPTS_TYPE_PT_ADD80
8154 | OPTS_TYPE_PT_ADDBITS14
8155 | OPTS_TYPE_PT_UNICODE
;
8156 kern_type
= KERN_TYPE_MD4_PWU
;
8157 dgst_size
= DGST_SIZE_4_4
;
8158 parse_func
= md4_parse_hash
;
8159 sort_by_digest
= sort_by_digest_4_4
;
8160 opti_type
= OPTI_TYPE_ZERO_BYTE
8161 | OPTI_TYPE_PRECOMPUTE_INIT
8162 | OPTI_TYPE_PRECOMPUTE_MERKLE
8163 | OPTI_TYPE_MEET_IN_MIDDLE
8164 | OPTI_TYPE_EARLY_SKIP
8165 | OPTI_TYPE_NOT_ITERATED
8166 | OPTI_TYPE_NOT_SALTED
8167 | OPTI_TYPE_RAW_HASH
;
8174 case 1100: hash_type
= HASH_TYPE_MD4
;
8175 salt_type
= SALT_TYPE_INTERN
;
8176 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8177 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8178 | OPTS_TYPE_PT_ADD80
8179 | OPTS_TYPE_PT_ADDBITS14
8180 | OPTS_TYPE_PT_UNICODE
8181 | OPTS_TYPE_ST_ADD80
8182 | OPTS_TYPE_ST_UNICODE
8183 | OPTS_TYPE_ST_LOWER
;
8184 kern_type
= KERN_TYPE_MD44_PWUSLT
;
8185 dgst_size
= DGST_SIZE_4_4
;
8186 parse_func
= dcc_parse_hash
;
8187 sort_by_digest
= sort_by_digest_4_4
;
8188 opti_type
= OPTI_TYPE_ZERO_BYTE
8189 | OPTI_TYPE_PRECOMPUTE_INIT
8190 | OPTI_TYPE_PRECOMPUTE_MERKLE
8191 | OPTI_TYPE_EARLY_SKIP
8192 | OPTI_TYPE_NOT_ITERATED
;
8199 case 1400: hash_type
= HASH_TYPE_SHA256
;
8200 salt_type
= SALT_TYPE_NONE
;
8201 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8202 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8203 | OPTS_TYPE_PT_ADD80
8204 | OPTS_TYPE_PT_ADDBITS15
;
8205 kern_type
= KERN_TYPE_SHA256
;
8206 dgst_size
= DGST_SIZE_4_8
;
8207 parse_func
= sha256_parse_hash
;
8208 sort_by_digest
= sort_by_digest_4_8
;
8209 opti_type
= OPTI_TYPE_ZERO_BYTE
8210 | OPTI_TYPE_PRECOMPUTE_INIT
8211 | OPTI_TYPE_PRECOMPUTE_MERKLE
8212 | OPTI_TYPE_EARLY_SKIP
8213 | OPTI_TYPE_NOT_ITERATED
8214 | OPTI_TYPE_NOT_SALTED
8215 | OPTI_TYPE_RAW_HASH
;
8222 case 1410: hash_type
= HASH_TYPE_SHA256
;
8223 salt_type
= SALT_TYPE_INTERN
;
8224 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8225 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8226 | OPTS_TYPE_ST_ADD80
8227 | OPTS_TYPE_ST_ADDBITS15
;
8228 kern_type
= KERN_TYPE_SHA256_PWSLT
;
8229 dgst_size
= DGST_SIZE_4_8
;
8230 parse_func
= sha256s_parse_hash
;
8231 sort_by_digest
= sort_by_digest_4_8
;
8232 opti_type
= OPTI_TYPE_ZERO_BYTE
8233 | OPTI_TYPE_PRECOMPUTE_INIT
8234 | OPTI_TYPE_PRECOMPUTE_MERKLE
8235 | OPTI_TYPE_EARLY_SKIP
8236 | OPTI_TYPE_NOT_ITERATED
8237 | OPTI_TYPE_APPENDED_SALT
8238 | OPTI_TYPE_RAW_HASH
;
8245 case 1420: hash_type
= HASH_TYPE_SHA256
;
8246 salt_type
= SALT_TYPE_INTERN
;
8247 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8248 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8249 | OPTS_TYPE_PT_ADD80
8250 | OPTS_TYPE_PT_ADDBITS15
;
8251 kern_type
= KERN_TYPE_SHA256_SLTPW
;
8252 dgst_size
= DGST_SIZE_4_8
;
8253 parse_func
= sha256s_parse_hash
;
8254 sort_by_digest
= sort_by_digest_4_8
;
8255 opti_type
= OPTI_TYPE_ZERO_BYTE
8256 | OPTI_TYPE_PRECOMPUTE_INIT
8257 | OPTI_TYPE_PRECOMPUTE_MERKLE
8258 | OPTI_TYPE_EARLY_SKIP
8259 | OPTI_TYPE_NOT_ITERATED
8260 | OPTI_TYPE_PREPENDED_SALT
8261 | OPTI_TYPE_RAW_HASH
;
8268 case 1421: hash_type
= HASH_TYPE_SHA256
;
8269 salt_type
= SALT_TYPE_EMBEDDED
;
8270 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8271 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8272 | OPTS_TYPE_PT_ADD80
8273 | OPTS_TYPE_PT_ADDBITS15
;
8274 kern_type
= KERN_TYPE_SHA256_SLTPW
;
8275 dgst_size
= DGST_SIZE_4_8
;
8276 parse_func
= hmailserver_parse_hash
;
8277 sort_by_digest
= sort_by_digest_4_8
;
8278 opti_type
= OPTI_TYPE_ZERO_BYTE
8279 | OPTI_TYPE_PRECOMPUTE_INIT
8280 | OPTI_TYPE_PRECOMPUTE_MERKLE
8281 | OPTI_TYPE_EARLY_SKIP
8282 | OPTI_TYPE_NOT_ITERATED
8283 | OPTI_TYPE_PREPENDED_SALT
8284 | OPTI_TYPE_RAW_HASH
;
8291 case 1430: hash_type
= HASH_TYPE_SHA256
;
8292 salt_type
= SALT_TYPE_INTERN
;
8293 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8294 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8295 | OPTS_TYPE_PT_UNICODE
8296 | OPTS_TYPE_ST_ADD80
8297 | OPTS_TYPE_ST_ADDBITS15
;
8298 kern_type
= KERN_TYPE_SHA256_PWUSLT
;
8299 dgst_size
= DGST_SIZE_4_8
;
8300 parse_func
= sha256s_parse_hash
;
8301 sort_by_digest
= sort_by_digest_4_8
;
8302 opti_type
= OPTI_TYPE_ZERO_BYTE
8303 | OPTI_TYPE_PRECOMPUTE_INIT
8304 | OPTI_TYPE_PRECOMPUTE_MERKLE
8305 | OPTI_TYPE_EARLY_SKIP
8306 | OPTI_TYPE_NOT_ITERATED
8307 | OPTI_TYPE_APPENDED_SALT
8308 | OPTI_TYPE_RAW_HASH
;
8315 case 1440: hash_type
= HASH_TYPE_SHA256
;
8316 salt_type
= SALT_TYPE_INTERN
;
8317 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8318 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8319 | OPTS_TYPE_PT_ADD80
8320 | OPTS_TYPE_PT_ADDBITS15
8321 | OPTS_TYPE_PT_UNICODE
;
8322 kern_type
= KERN_TYPE_SHA256_SLTPWU
;
8323 dgst_size
= DGST_SIZE_4_8
;
8324 parse_func
= sha256s_parse_hash
;
8325 sort_by_digest
= sort_by_digest_4_8
;
8326 opti_type
= OPTI_TYPE_ZERO_BYTE
8327 | OPTI_TYPE_PRECOMPUTE_INIT
8328 | OPTI_TYPE_PRECOMPUTE_MERKLE
8329 | OPTI_TYPE_EARLY_SKIP
8330 | OPTI_TYPE_NOT_ITERATED
8331 | OPTI_TYPE_PREPENDED_SALT
8332 | OPTI_TYPE_RAW_HASH
;
8339 case 1441: hash_type
= HASH_TYPE_SHA256
;
8340 salt_type
= SALT_TYPE_EMBEDDED
;
8341 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8342 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8343 | OPTS_TYPE_PT_ADD80
8344 | OPTS_TYPE_PT_ADDBITS15
8345 | OPTS_TYPE_PT_UNICODE
8346 | OPTS_TYPE_ST_BASE64
;
8347 kern_type
= KERN_TYPE_SHA256_SLTPWU
;
8348 dgst_size
= DGST_SIZE_4_8
;
8349 parse_func
= episerver4_parse_hash
;
8350 sort_by_digest
= sort_by_digest_4_8
;
8351 opti_type
= OPTI_TYPE_ZERO_BYTE
8352 | OPTI_TYPE_PRECOMPUTE_INIT
8353 | OPTI_TYPE_PRECOMPUTE_MERKLE
8354 | OPTI_TYPE_EARLY_SKIP
8355 | OPTI_TYPE_NOT_ITERATED
8356 | OPTI_TYPE_PREPENDED_SALT
8357 | OPTI_TYPE_RAW_HASH
;
8364 case 1450: hash_type
= HASH_TYPE_SHA256
;
8365 salt_type
= SALT_TYPE_INTERN
;
8366 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8367 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8368 | OPTS_TYPE_ST_ADD80
;
8369 kern_type
= KERN_TYPE_HMACSHA256_PW
;
8370 dgst_size
= DGST_SIZE_4_8
;
8371 parse_func
= hmacsha256_parse_hash
;
8372 sort_by_digest
= sort_by_digest_4_8
;
8373 opti_type
= OPTI_TYPE_ZERO_BYTE
8374 | OPTI_TYPE_NOT_ITERATED
;
8381 case 1460: hash_type
= HASH_TYPE_SHA256
;
8382 salt_type
= SALT_TYPE_INTERN
;
8383 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8384 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8385 | OPTS_TYPE_PT_ADD80
8386 | OPTS_TYPE_PT_ADDBITS15
;
8387 kern_type
= KERN_TYPE_HMACSHA256_SLT
;
8388 dgst_size
= DGST_SIZE_4_8
;
8389 parse_func
= hmacsha256_parse_hash
;
8390 sort_by_digest
= sort_by_digest_4_8
;
8391 opti_type
= OPTI_TYPE_ZERO_BYTE
8392 | OPTI_TYPE_NOT_ITERATED
;
8399 case 1500: hash_type
= HASH_TYPE_DESCRYPT
;
8400 salt_type
= SALT_TYPE_EMBEDDED
;
8401 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8402 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8403 | OPTS_TYPE_PT_BITSLICE
;
8404 kern_type
= KERN_TYPE_DESCRYPT
;
8405 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
8406 parse_func
= descrypt_parse_hash
;
8407 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
8408 opti_type
= OPTI_TYPE_ZERO_BYTE
8409 | OPTI_TYPE_PRECOMPUTE_PERMUT
;
8416 case 1600: hash_type
= HASH_TYPE_MD5
;
8417 salt_type
= SALT_TYPE_EMBEDDED
;
8418 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
8419 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
8420 kern_type
= KERN_TYPE_APR1CRYPT
;
8421 dgst_size
= DGST_SIZE_4_4
;
8422 parse_func
= md5apr1_parse_hash
;
8423 sort_by_digest
= sort_by_digest_4_4
;
8424 opti_type
= OPTI_TYPE_ZERO_BYTE
;
8431 case 1700: hash_type
= HASH_TYPE_SHA512
;
8432 salt_type
= SALT_TYPE_NONE
;
8433 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8434 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8435 | OPTS_TYPE_PT_ADD80
8436 | OPTS_TYPE_PT_ADDBITS15
;
8437 kern_type
= KERN_TYPE_SHA512
;
8438 dgst_size
= DGST_SIZE_8_8
;
8439 parse_func
= sha512_parse_hash
;
8440 sort_by_digest
= sort_by_digest_8_8
;
8441 opti_type
= OPTI_TYPE_ZERO_BYTE
8442 | OPTI_TYPE_PRECOMPUTE_INIT
8443 | OPTI_TYPE_PRECOMPUTE_MERKLE
8444 | OPTI_TYPE_EARLY_SKIP
8445 | OPTI_TYPE_NOT_ITERATED
8446 | OPTI_TYPE_NOT_SALTED
8447 | OPTI_TYPE_USES_BITS_64
8448 | OPTI_TYPE_RAW_HASH
;
8455 case 1710: hash_type
= HASH_TYPE_SHA512
;
8456 salt_type
= SALT_TYPE_INTERN
;
8457 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8458 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8459 | OPTS_TYPE_ST_ADD80
8460 | OPTS_TYPE_ST_ADDBITS15
;
8461 kern_type
= KERN_TYPE_SHA512_PWSLT
;
8462 dgst_size
= DGST_SIZE_8_8
;
8463 parse_func
= sha512s_parse_hash
;
8464 sort_by_digest
= sort_by_digest_8_8
;
8465 opti_type
= OPTI_TYPE_ZERO_BYTE
8466 | OPTI_TYPE_PRECOMPUTE_INIT
8467 | OPTI_TYPE_PRECOMPUTE_MERKLE
8468 | OPTI_TYPE_EARLY_SKIP
8469 | OPTI_TYPE_NOT_ITERATED
8470 | OPTI_TYPE_APPENDED_SALT
8471 | OPTI_TYPE_USES_BITS_64
8472 | OPTI_TYPE_RAW_HASH
;
8479 case 1711: hash_type
= HASH_TYPE_SHA512
;
8480 salt_type
= SALT_TYPE_EMBEDDED
;
8481 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8482 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8483 | OPTS_TYPE_ST_ADD80
8484 | OPTS_TYPE_ST_ADDBITS15
;
8485 kern_type
= KERN_TYPE_SHA512_PWSLT
;
8486 dgst_size
= DGST_SIZE_8_8
;
8487 parse_func
= sha512b64s_parse_hash
;
8488 sort_by_digest
= sort_by_digest_8_8
;
8489 opti_type
= OPTI_TYPE_ZERO_BYTE
8490 | OPTI_TYPE_PRECOMPUTE_INIT
8491 | OPTI_TYPE_PRECOMPUTE_MERKLE
8492 | OPTI_TYPE_EARLY_SKIP
8493 | OPTI_TYPE_NOT_ITERATED
8494 | OPTI_TYPE_APPENDED_SALT
8495 | OPTI_TYPE_USES_BITS_64
8496 | OPTI_TYPE_RAW_HASH
;
8503 case 1720: hash_type
= HASH_TYPE_SHA512
;
8504 salt_type
= SALT_TYPE_INTERN
;
8505 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8506 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8507 | OPTS_TYPE_PT_ADD80
8508 | OPTS_TYPE_PT_ADDBITS15
;
8509 kern_type
= KERN_TYPE_SHA512_SLTPW
;
8510 dgst_size
= DGST_SIZE_8_8
;
8511 parse_func
= sha512s_parse_hash
;
8512 sort_by_digest
= sort_by_digest_8_8
;
8513 opti_type
= OPTI_TYPE_ZERO_BYTE
8514 | OPTI_TYPE_PRECOMPUTE_INIT
8515 | OPTI_TYPE_PRECOMPUTE_MERKLE
8516 | OPTI_TYPE_EARLY_SKIP
8517 | OPTI_TYPE_NOT_ITERATED
8518 | OPTI_TYPE_PREPENDED_SALT
8519 | OPTI_TYPE_USES_BITS_64
8520 | OPTI_TYPE_RAW_HASH
;
8527 case 1722: hash_type
= HASH_TYPE_SHA512
;
8528 salt_type
= SALT_TYPE_EMBEDDED
;
8529 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8530 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8531 | OPTS_TYPE_PT_ADD80
8532 | OPTS_TYPE_PT_ADDBITS15
8534 kern_type
= KERN_TYPE_SHA512_SLTPW
;
8535 dgst_size
= DGST_SIZE_8_8
;
8536 parse_func
= osx512_parse_hash
;
8537 sort_by_digest
= sort_by_digest_8_8
;
8538 opti_type
= OPTI_TYPE_ZERO_BYTE
8539 | OPTI_TYPE_PRECOMPUTE_INIT
8540 | OPTI_TYPE_PRECOMPUTE_MERKLE
8541 | OPTI_TYPE_EARLY_SKIP
8542 | OPTI_TYPE_NOT_ITERATED
8543 | OPTI_TYPE_PREPENDED_SALT
8544 | OPTI_TYPE_USES_BITS_64
8545 | OPTI_TYPE_RAW_HASH
;
8552 case 1730: hash_type
= HASH_TYPE_SHA512
;
8553 salt_type
= SALT_TYPE_INTERN
;
8554 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8555 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8556 | OPTS_TYPE_PT_UNICODE
8557 | OPTS_TYPE_ST_ADD80
8558 | OPTS_TYPE_ST_ADDBITS15
;
8559 kern_type
= KERN_TYPE_SHA512_PWSLTU
;
8560 dgst_size
= DGST_SIZE_8_8
;
8561 parse_func
= sha512s_parse_hash
;
8562 sort_by_digest
= sort_by_digest_8_8
;
8563 opti_type
= OPTI_TYPE_ZERO_BYTE
8564 | OPTI_TYPE_PRECOMPUTE_INIT
8565 | OPTI_TYPE_PRECOMPUTE_MERKLE
8566 | OPTI_TYPE_EARLY_SKIP
8567 | OPTI_TYPE_NOT_ITERATED
8568 | OPTI_TYPE_APPENDED_SALT
8569 | OPTI_TYPE_USES_BITS_64
8570 | OPTI_TYPE_RAW_HASH
;
8577 case 1731: hash_type
= HASH_TYPE_SHA512
;
8578 salt_type
= SALT_TYPE_EMBEDDED
;
8579 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8580 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8581 | OPTS_TYPE_PT_UNICODE
8582 | OPTS_TYPE_ST_ADD80
8583 | OPTS_TYPE_ST_ADDBITS15
8585 kern_type
= KERN_TYPE_SHA512_PWSLTU
;
8586 dgst_size
= DGST_SIZE_8_8
;
8587 parse_func
= mssql2012_parse_hash
;
8588 sort_by_digest
= sort_by_digest_8_8
;
8589 opti_type
= OPTI_TYPE_ZERO_BYTE
8590 | OPTI_TYPE_PRECOMPUTE_INIT
8591 | OPTI_TYPE_PRECOMPUTE_MERKLE
8592 | OPTI_TYPE_EARLY_SKIP
8593 | OPTI_TYPE_NOT_ITERATED
8594 | OPTI_TYPE_APPENDED_SALT
8595 | OPTI_TYPE_USES_BITS_64
8596 | OPTI_TYPE_RAW_HASH
;
8603 case 1740: hash_type
= HASH_TYPE_SHA512
;
8604 salt_type
= SALT_TYPE_INTERN
;
8605 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8606 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8607 | OPTS_TYPE_PT_ADD80
8608 | OPTS_TYPE_PT_ADDBITS15
8609 | OPTS_TYPE_PT_UNICODE
;
8610 kern_type
= KERN_TYPE_SHA512_SLTPWU
;
8611 dgst_size
= DGST_SIZE_8_8
;
8612 parse_func
= sha512s_parse_hash
;
8613 sort_by_digest
= sort_by_digest_8_8
;
8614 opti_type
= OPTI_TYPE_ZERO_BYTE
8615 | OPTI_TYPE_PRECOMPUTE_INIT
8616 | OPTI_TYPE_PRECOMPUTE_MERKLE
8617 | OPTI_TYPE_EARLY_SKIP
8618 | OPTI_TYPE_NOT_ITERATED
8619 | OPTI_TYPE_PREPENDED_SALT
8620 | OPTI_TYPE_USES_BITS_64
8621 | OPTI_TYPE_RAW_HASH
;
8628 case 1750: hash_type
= HASH_TYPE_SHA512
;
8629 salt_type
= SALT_TYPE_INTERN
;
8630 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8631 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8632 | OPTS_TYPE_ST_ADD80
;
8633 kern_type
= KERN_TYPE_HMACSHA512_PW
;
8634 dgst_size
= DGST_SIZE_8_8
;
8635 parse_func
= hmacsha512_parse_hash
;
8636 sort_by_digest
= sort_by_digest_8_8
;
8637 opti_type
= OPTI_TYPE_ZERO_BYTE
8638 | OPTI_TYPE_USES_BITS_64
8639 | OPTI_TYPE_NOT_ITERATED
;
8646 case 1760: hash_type
= HASH_TYPE_SHA512
;
8647 salt_type
= SALT_TYPE_INTERN
;
8648 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8649 opts_type
= OPTS_TYPE_PT_GENERATE_BE
8650 | OPTS_TYPE_PT_ADD80
8651 | OPTS_TYPE_PT_ADDBITS15
;
8652 kern_type
= KERN_TYPE_HMACSHA512_SLT
;
8653 dgst_size
= DGST_SIZE_8_8
;
8654 parse_func
= hmacsha512_parse_hash
;
8655 sort_by_digest
= sort_by_digest_8_8
;
8656 opti_type
= OPTI_TYPE_ZERO_BYTE
8657 | OPTI_TYPE_USES_BITS_64
8658 | OPTI_TYPE_NOT_ITERATED
;
8665 case 1800: hash_type
= HASH_TYPE_SHA512
;
8666 salt_type
= SALT_TYPE_EMBEDDED
;
8667 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
8668 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
8669 kern_type
= KERN_TYPE_SHA512CRYPT
;
8670 dgst_size
= DGST_SIZE_8_8
;
8671 parse_func
= sha512crypt_parse_hash
;
8672 sort_by_digest
= sort_by_digest_8_8
;
8673 opti_type
= OPTI_TYPE_ZERO_BYTE
8674 | OPTI_TYPE_USES_BITS_64
;
8681 case 2000: hash_type
= HASH_TYPE_STDOUT
;
8682 salt_type
= SALT_TYPE_NONE
;
8683 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8684 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
8686 dgst_size
= DGST_SIZE_4_4
;
8688 sort_by_digest
= NULL
;
8696 case 2100: hash_type
= HASH_TYPE_DCC2
;
8697 salt_type
= SALT_TYPE_EMBEDDED
;
8698 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
8699 opts_type
= OPTS_TYPE_PT_GENERATE_LE
// should be OPTS_TYPE_PT_GENERATE_BE
8700 | OPTS_TYPE_ST_LOWER
8701 | OPTS_TYPE_ST_UNICODE
;
8702 kern_type
= KERN_TYPE_DCC2
;
8703 dgst_size
= DGST_SIZE_4_4
;
8704 parse_func
= dcc2_parse_hash
;
8705 sort_by_digest
= sort_by_digest_4_4
;
8706 opti_type
= OPTI_TYPE_ZERO_BYTE
8707 | OPTI_TYPE_SLOW_HASH_SIMD
;
8714 case 2400: hash_type
= HASH_TYPE_MD5
;
8715 salt_type
= SALT_TYPE_NONE
;
8716 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8717 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
8718 kern_type
= KERN_TYPE_MD5PIX
;
8719 dgst_size
= DGST_SIZE_4_4
;
8720 parse_func
= md5pix_parse_hash
;
8721 sort_by_digest
= sort_by_digest_4_4
;
8722 opti_type
= OPTI_TYPE_ZERO_BYTE
8723 | OPTI_TYPE_PRECOMPUTE_INIT
8724 | OPTI_TYPE_PRECOMPUTE_MERKLE
8725 | OPTI_TYPE_EARLY_SKIP
8726 | OPTI_TYPE_NOT_ITERATED
8727 | OPTI_TYPE_NOT_SALTED
;
8734 case 2410: hash_type
= HASH_TYPE_MD5
;
8735 salt_type
= SALT_TYPE_INTERN
;
8736 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8737 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
8738 kern_type
= KERN_TYPE_MD5ASA
;
8739 dgst_size
= DGST_SIZE_4_4
;
8740 parse_func
= md5asa_parse_hash
;
8741 sort_by_digest
= sort_by_digest_4_4
;
8742 opti_type
= OPTI_TYPE_ZERO_BYTE
8743 | OPTI_TYPE_PRECOMPUTE_INIT
8744 | OPTI_TYPE_PRECOMPUTE_MERKLE
8745 | OPTI_TYPE_EARLY_SKIP
8746 | OPTI_TYPE_NOT_ITERATED
;
8753 case 2500: hash_type
= HASH_TYPE_WPA
;
8754 salt_type
= SALT_TYPE_EMBEDDED
;
8755 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
8756 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
8757 kern_type
= KERN_TYPE_WPA
;
8758 dgst_size
= DGST_SIZE_4_4
;
8759 parse_func
= wpa_parse_hash
;
8760 sort_by_digest
= sort_by_digest_4_4
;
8761 opti_type
= OPTI_TYPE_ZERO_BYTE
8762 | OPTI_TYPE_SLOW_HASH_SIMD
;
8769 case 2600: hash_type
= HASH_TYPE_MD5
;
8770 salt_type
= SALT_TYPE_VIRTUAL
;
8771 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8772 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8773 | OPTS_TYPE_PT_ADD80
8774 | OPTS_TYPE_PT_ADDBITS14
8775 | OPTS_TYPE_ST_ADD80
;
8776 kern_type
= KERN_TYPE_MD55_PWSLT1
;
8777 dgst_size
= DGST_SIZE_4_4
;
8778 parse_func
= md5md5_parse_hash
;
8779 sort_by_digest
= sort_by_digest_4_4
;
8780 opti_type
= OPTI_TYPE_ZERO_BYTE
8781 | OPTI_TYPE_PRECOMPUTE_INIT
8782 | OPTI_TYPE_PRECOMPUTE_MERKLE
8783 | OPTI_TYPE_EARLY_SKIP
;
8790 case 2611: hash_type
= HASH_TYPE_MD5
;
8791 salt_type
= SALT_TYPE_INTERN
;
8792 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8793 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8794 | OPTS_TYPE_PT_ADD80
8795 | OPTS_TYPE_PT_ADDBITS14
8796 | OPTS_TYPE_ST_ADD80
;
8797 kern_type
= KERN_TYPE_MD55_PWSLT1
;
8798 dgst_size
= DGST_SIZE_4_4
;
8799 parse_func
= vb3_parse_hash
;
8800 sort_by_digest
= sort_by_digest_4_4
;
8801 opti_type
= OPTI_TYPE_ZERO_BYTE
8802 | OPTI_TYPE_PRECOMPUTE_INIT
8803 | OPTI_TYPE_PRECOMPUTE_MERKLE
8804 | OPTI_TYPE_EARLY_SKIP
;
8811 case 2612: hash_type
= HASH_TYPE_MD5
;
8812 salt_type
= SALT_TYPE_EMBEDDED
;
8813 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8814 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8815 | OPTS_TYPE_PT_ADD80
8816 | OPTS_TYPE_PT_ADDBITS14
8817 | OPTS_TYPE_ST_ADD80
8819 kern_type
= KERN_TYPE_MD55_PWSLT1
;
8820 dgst_size
= DGST_SIZE_4_4
;
8821 parse_func
= phps_parse_hash
;
8822 sort_by_digest
= sort_by_digest_4_4
;
8823 opti_type
= OPTI_TYPE_ZERO_BYTE
8824 | OPTI_TYPE_PRECOMPUTE_INIT
8825 | OPTI_TYPE_PRECOMPUTE_MERKLE
8826 | OPTI_TYPE_EARLY_SKIP
;
8833 case 2711: hash_type
= HASH_TYPE_MD5
;
8834 salt_type
= SALT_TYPE_INTERN
;
8835 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8836 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8837 | OPTS_TYPE_PT_ADD80
8838 | OPTS_TYPE_PT_ADDBITS14
8839 | OPTS_TYPE_ST_ADD80
;
8840 kern_type
= KERN_TYPE_MD55_PWSLT2
;
8841 dgst_size
= DGST_SIZE_4_4
;
8842 parse_func
= vb30_parse_hash
;
8843 sort_by_digest
= sort_by_digest_4_4
;
8844 opti_type
= OPTI_TYPE_ZERO_BYTE
8845 | OPTI_TYPE_PRECOMPUTE_INIT
8846 | OPTI_TYPE_EARLY_SKIP
;
8853 case 2811: hash_type
= HASH_TYPE_MD5
;
8854 salt_type
= SALT_TYPE_INTERN
;
8855 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8856 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8857 | OPTS_TYPE_PT_ADD80
8858 | OPTS_TYPE_PT_ADDBITS14
;
8859 kern_type
= KERN_TYPE_MD55_SLTPW
;
8860 dgst_size
= DGST_SIZE_4_4
;
8861 parse_func
= ipb2_parse_hash
;
8862 sort_by_digest
= sort_by_digest_4_4
;
8863 opti_type
= OPTI_TYPE_ZERO_BYTE
8864 | OPTI_TYPE_PRECOMPUTE_INIT
8865 | OPTI_TYPE_EARLY_SKIP
;
8872 case 3000: hash_type
= HASH_TYPE_LM
;
8873 salt_type
= SALT_TYPE_NONE
;
8874 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8875 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8876 | OPTS_TYPE_PT_UPPER
8877 | OPTS_TYPE_PT_BITSLICE
;
8878 kern_type
= KERN_TYPE_LM
;
8879 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
8880 parse_func
= lm_parse_hash
;
8881 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
8882 opti_type
= OPTI_TYPE_ZERO_BYTE
8883 | OPTI_TYPE_PRECOMPUTE_PERMUT
;
8890 case 3100: hash_type
= HASH_TYPE_ORACLEH
;
8891 salt_type
= SALT_TYPE_INTERN
;
8892 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8893 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8894 | OPTS_TYPE_PT_UPPER
8895 | OPTS_TYPE_ST_UPPER
;
8896 kern_type
= KERN_TYPE_ORACLEH
;
8897 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
8898 parse_func
= oracleh_parse_hash
;
8899 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
8900 opti_type
= OPTI_TYPE_ZERO_BYTE
;
8907 case 3200: hash_type
= HASH_TYPE_BCRYPT
;
8908 salt_type
= SALT_TYPE_EMBEDDED
;
8909 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
8910 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8911 | OPTS_TYPE_ST_GENERATE_LE
;
8912 kern_type
= KERN_TYPE_BCRYPT
;
8913 dgst_size
= DGST_SIZE_4_6
;
8914 parse_func
= bcrypt_parse_hash
;
8915 sort_by_digest
= sort_by_digest_4_6
;
8916 opti_type
= OPTI_TYPE_ZERO_BYTE
;
8923 case 3710: hash_type
= HASH_TYPE_MD5
;
8924 salt_type
= SALT_TYPE_INTERN
;
8925 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8926 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8927 | OPTS_TYPE_PT_ADD80
8928 | OPTS_TYPE_PT_ADDBITS14
;
8929 kern_type
= KERN_TYPE_MD5_SLT_MD5_PW
;
8930 dgst_size
= DGST_SIZE_4_4
;
8931 parse_func
= md5s_parse_hash
;
8932 sort_by_digest
= sort_by_digest_4_4
;
8933 opti_type
= OPTI_TYPE_ZERO_BYTE
8934 | OPTI_TYPE_PRECOMPUTE_INIT
8935 | OPTI_TYPE_PRECOMPUTE_MERKLE
8936 | OPTI_TYPE_EARLY_SKIP
;
8943 case 3711: hash_type
= HASH_TYPE_MD5
;
8944 salt_type
= SALT_TYPE_EMBEDDED
;
8945 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8946 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8947 | OPTS_TYPE_PT_ADD80
8948 | OPTS_TYPE_PT_ADDBITS14
;
8949 kern_type
= KERN_TYPE_MD5_SLT_MD5_PW
;
8950 dgst_size
= DGST_SIZE_4_4
;
8951 parse_func
= mediawiki_b_parse_hash
;
8952 sort_by_digest
= sort_by_digest_4_4
;
8953 opti_type
= OPTI_TYPE_ZERO_BYTE
8954 | OPTI_TYPE_PRECOMPUTE_INIT
8955 | OPTI_TYPE_PRECOMPUTE_MERKLE
8956 | OPTI_TYPE_EARLY_SKIP
;
8963 case 3800: hash_type
= HASH_TYPE_MD5
;
8964 salt_type
= SALT_TYPE_INTERN
;
8965 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8966 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8967 | OPTS_TYPE_ST_ADDBITS14
;
8968 kern_type
= KERN_TYPE_MD5_SLT_PW_SLT
;
8969 dgst_size
= DGST_SIZE_4_4
;
8970 parse_func
= md5s_parse_hash
;
8971 sort_by_digest
= sort_by_digest_4_4
;
8972 opti_type
= OPTI_TYPE_ZERO_BYTE
8973 | OPTI_TYPE_PRECOMPUTE_INIT
8974 | OPTI_TYPE_PRECOMPUTE_MERKLE
8975 | OPTI_TYPE_EARLY_SKIP
8976 | OPTI_TYPE_NOT_ITERATED
8977 | OPTI_TYPE_RAW_HASH
;
8984 case 4300: hash_type
= HASH_TYPE_MD5
;
8985 salt_type
= SALT_TYPE_VIRTUAL
;
8986 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
8987 opts_type
= OPTS_TYPE_PT_GENERATE_LE
8988 | OPTS_TYPE_PT_ADD80
8989 | OPTS_TYPE_PT_ADDBITS14
8990 | OPTS_TYPE_ST_ADD80
;
8991 kern_type
= KERN_TYPE_MD5U5_PWSLT1
;
8992 dgst_size
= DGST_SIZE_4_4
;
8993 parse_func
= md5md5_parse_hash
;
8994 sort_by_digest
= sort_by_digest_4_4
;
8995 opti_type
= OPTI_TYPE_ZERO_BYTE
8996 | OPTI_TYPE_PRECOMPUTE_INIT
8997 | OPTI_TYPE_PRECOMPUTE_MERKLE
8998 | OPTI_TYPE_EARLY_SKIP
;
9006 case 4400: hash_type
= HASH_TYPE_MD5
;
9007 salt_type
= SALT_TYPE_NONE
;
9008 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9009 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9010 | OPTS_TYPE_PT_ADD80
9011 | OPTS_TYPE_PT_ADDBITS15
;
9012 kern_type
= KERN_TYPE_MD5_SHA1
;
9013 dgst_size
= DGST_SIZE_4_4
;
9014 parse_func
= md5_parse_hash
;
9015 sort_by_digest
= sort_by_digest_4_4
;
9016 opti_type
= OPTI_TYPE_ZERO_BYTE
9017 | OPTI_TYPE_PRECOMPUTE_INIT
9018 | OPTI_TYPE_PRECOMPUTE_MERKLE
9019 | OPTI_TYPE_EARLY_SKIP
9020 | OPTI_TYPE_NOT_ITERATED
9021 | OPTI_TYPE_NOT_SALTED
9022 | OPTI_TYPE_RAW_HASH
;
9029 case 4500: hash_type
= HASH_TYPE_SHA1
;
9030 salt_type
= SALT_TYPE_NONE
;
9031 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9032 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9033 | OPTS_TYPE_PT_ADD80
9034 | OPTS_TYPE_PT_ADDBITS15
;
9035 kern_type
= KERN_TYPE_SHA11
;
9036 dgst_size
= DGST_SIZE_4_5
;
9037 parse_func
= sha1_parse_hash
;
9038 sort_by_digest
= sort_by_digest_4_5
;
9039 opti_type
= OPTI_TYPE_ZERO_BYTE
9040 | OPTI_TYPE_PRECOMPUTE_INIT
9041 | OPTI_TYPE_PRECOMPUTE_MERKLE
9042 | OPTI_TYPE_EARLY_SKIP
9043 | OPTI_TYPE_NOT_SALTED
;
9050 case 4700: hash_type
= HASH_TYPE_SHA1
;
9051 salt_type
= SALT_TYPE_NONE
;
9052 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9053 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9054 | OPTS_TYPE_PT_ADD80
9055 | OPTS_TYPE_PT_ADDBITS14
;
9056 kern_type
= KERN_TYPE_SHA1_MD5
;
9057 dgst_size
= DGST_SIZE_4_5
;
9058 parse_func
= sha1_parse_hash
;
9059 sort_by_digest
= sort_by_digest_4_5
;
9060 opti_type
= OPTI_TYPE_ZERO_BYTE
9061 | OPTI_TYPE_PRECOMPUTE_INIT
9062 | OPTI_TYPE_PRECOMPUTE_MERKLE
9063 | OPTI_TYPE_EARLY_SKIP
9064 | OPTI_TYPE_NOT_ITERATED
9065 | OPTI_TYPE_NOT_SALTED
9066 | OPTI_TYPE_RAW_HASH
;
9073 case 4800: hash_type
= HASH_TYPE_MD5
;
9074 salt_type
= SALT_TYPE_EMBEDDED
;
9075 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9076 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9077 | OPTS_TYPE_PT_ADDBITS14
;
9078 kern_type
= KERN_TYPE_MD5_CHAP
;
9079 dgst_size
= DGST_SIZE_4_4
;
9080 parse_func
= chap_parse_hash
;
9081 sort_by_digest
= sort_by_digest_4_4
;
9082 opti_type
= OPTI_TYPE_ZERO_BYTE
9083 | OPTI_TYPE_PRECOMPUTE_INIT
9084 | OPTI_TYPE_PRECOMPUTE_MERKLE
9085 | OPTI_TYPE_MEET_IN_MIDDLE
9086 | OPTI_TYPE_EARLY_SKIP
9087 | OPTI_TYPE_NOT_ITERATED
9088 | OPTI_TYPE_RAW_HASH
;
9095 case 4900: hash_type
= HASH_TYPE_SHA1
;
9096 salt_type
= SALT_TYPE_INTERN
;
9097 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9098 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9099 kern_type
= KERN_TYPE_SHA1_SLT_PW_SLT
;
9100 dgst_size
= DGST_SIZE_4_5
;
9101 parse_func
= sha1s_parse_hash
;
9102 sort_by_digest
= sort_by_digest_4_5
;
9103 opti_type
= OPTI_TYPE_ZERO_BYTE
9104 | OPTI_TYPE_PRECOMPUTE_INIT
9105 | OPTI_TYPE_PRECOMPUTE_MERKLE
9106 | OPTI_TYPE_EARLY_SKIP
;
9113 case 5000: hash_type
= HASH_TYPE_KECCAK
;
9114 salt_type
= SALT_TYPE_EMBEDDED
;
9115 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9116 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9117 | OPTS_TYPE_PT_ADD01
;
9118 kern_type
= KERN_TYPE_KECCAK
;
9119 dgst_size
= DGST_SIZE_8_25
;
9120 parse_func
= keccak_parse_hash
;
9121 sort_by_digest
= sort_by_digest_8_25
;
9122 opti_type
= OPTI_TYPE_ZERO_BYTE
9123 | OPTI_TYPE_USES_BITS_64
9124 | OPTI_TYPE_RAW_HASH
;
9131 case 5100: hash_type
= HASH_TYPE_MD5H
;
9132 salt_type
= SALT_TYPE_NONE
;
9133 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9134 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9135 | OPTS_TYPE_PT_ADD80
9136 | OPTS_TYPE_PT_ADDBITS14
;
9137 kern_type
= KERN_TYPE_MD5H
;
9138 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
9139 parse_func
= md5half_parse_hash
;
9140 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
9141 opti_type
= OPTI_TYPE_ZERO_BYTE
9142 | OPTI_TYPE_RAW_HASH
;
9149 case 5200: hash_type
= HASH_TYPE_SHA256
;
9150 salt_type
= SALT_TYPE_EMBEDDED
;
9151 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9152 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9153 kern_type
= KERN_TYPE_PSAFE3
;
9154 dgst_size
= DGST_SIZE_4_8
;
9155 parse_func
= psafe3_parse_hash
;
9156 sort_by_digest
= sort_by_digest_4_8
;
9157 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9164 case 5300: hash_type
= HASH_TYPE_MD5
;
9165 salt_type
= SALT_TYPE_EMBEDDED
;
9166 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9167 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9168 | OPTS_TYPE_ST_ADD80
;
9169 kern_type
= KERN_TYPE_IKEPSK_MD5
;
9170 dgst_size
= DGST_SIZE_4_4
;
9171 parse_func
= ikepsk_md5_parse_hash
;
9172 sort_by_digest
= sort_by_digest_4_4
;
9173 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9180 case 5400: hash_type
= HASH_TYPE_SHA1
;
9181 salt_type
= SALT_TYPE_EMBEDDED
;
9182 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9183 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9184 | OPTS_TYPE_ST_ADD80
;
9185 kern_type
= KERN_TYPE_IKEPSK_SHA1
;
9186 dgst_size
= DGST_SIZE_4_5
;
9187 parse_func
= ikepsk_sha1_parse_hash
;
9188 sort_by_digest
= sort_by_digest_4_5
;
9189 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9196 case 5500: hash_type
= HASH_TYPE_NETNTLM
;
9197 salt_type
= SALT_TYPE_EMBEDDED
;
9198 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9199 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9200 | OPTS_TYPE_PT_ADD80
9201 | OPTS_TYPE_PT_ADDBITS14
9202 | OPTS_TYPE_PT_UNICODE
9204 kern_type
= KERN_TYPE_NETNTLMv1
;
9205 dgst_size
= DGST_SIZE_4_4
;
9206 parse_func
= netntlmv1_parse_hash
;
9207 sort_by_digest
= sort_by_digest_4_4
;
9208 opti_type
= OPTI_TYPE_ZERO_BYTE
9209 | OPTI_TYPE_PRECOMPUTE_PERMUT
;
9216 case 5600: hash_type
= HASH_TYPE_MD5
;
9217 salt_type
= SALT_TYPE_EMBEDDED
;
9218 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9219 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9220 | OPTS_TYPE_PT_ADD80
9221 | OPTS_TYPE_PT_ADDBITS14
9222 | OPTS_TYPE_PT_UNICODE
;
9223 kern_type
= KERN_TYPE_NETNTLMv2
;
9224 dgst_size
= DGST_SIZE_4_4
;
9225 parse_func
= netntlmv2_parse_hash
;
9226 sort_by_digest
= sort_by_digest_4_4
;
9227 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9234 case 5700: hash_type
= HASH_TYPE_SHA256
;
9235 salt_type
= SALT_TYPE_NONE
;
9236 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9237 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9238 | OPTS_TYPE_PT_ADD80
9239 | OPTS_TYPE_PT_ADDBITS15
;
9240 kern_type
= KERN_TYPE_SHA256
;
9241 dgst_size
= DGST_SIZE_4_8
;
9242 parse_func
= cisco4_parse_hash
;
9243 sort_by_digest
= sort_by_digest_4_8
;
9244 opti_type
= OPTI_TYPE_ZERO_BYTE
9245 | OPTI_TYPE_PRECOMPUTE_INIT
9246 | OPTI_TYPE_PRECOMPUTE_MERKLE
9247 | OPTI_TYPE_EARLY_SKIP
9248 | OPTI_TYPE_NOT_ITERATED
9249 | OPTI_TYPE_NOT_SALTED
9250 | OPTI_TYPE_RAW_HASH
;
9257 case 5800: hash_type
= HASH_TYPE_SHA1
;
9258 salt_type
= SALT_TYPE_INTERN
;
9259 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9260 opts_type
= OPTS_TYPE_PT_GENERATE_LE
// should be OPTS_TYPE_PT_GENERATE_BE
9261 | OPTS_TYPE_ST_ADD80
;
9262 kern_type
= KERN_TYPE_ANDROIDPIN
;
9263 dgst_size
= DGST_SIZE_4_5
;
9264 parse_func
= androidpin_parse_hash
;
9265 sort_by_digest
= sort_by_digest_4_5
;
9266 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9273 case 6000: hash_type
= HASH_TYPE_RIPEMD160
;
9274 salt_type
= SALT_TYPE_NONE
;
9275 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9276 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9277 | OPTS_TYPE_PT_ADD80
;
9278 kern_type
= KERN_TYPE_RIPEMD160
;
9279 dgst_size
= DGST_SIZE_4_5
;
9280 parse_func
= ripemd160_parse_hash
;
9281 sort_by_digest
= sort_by_digest_4_5
;
9282 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9289 case 6100: hash_type
= HASH_TYPE_WHIRLPOOL
;
9290 salt_type
= SALT_TYPE_NONE
;
9291 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9292 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9293 | OPTS_TYPE_PT_ADD80
;
9294 kern_type
= KERN_TYPE_WHIRLPOOL
;
9295 dgst_size
= DGST_SIZE_4_16
;
9296 parse_func
= whirlpool_parse_hash
;
9297 sort_by_digest
= sort_by_digest_4_16
;
9298 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9305 case 6211: hash_type
= HASH_TYPE_RIPEMD160
;
9306 salt_type
= SALT_TYPE_EMBEDDED
;
9307 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9308 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9309 kern_type
= KERN_TYPE_TCRIPEMD160_XTS512
;
9310 dgst_size
= DGST_SIZE_4_5
;
9311 parse_func
= truecrypt_parse_hash_2k
;
9312 sort_by_digest
= sort_by_digest_4_5
;
9313 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9320 case 6212: hash_type
= HASH_TYPE_RIPEMD160
;
9321 salt_type
= SALT_TYPE_EMBEDDED
;
9322 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9323 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9324 kern_type
= KERN_TYPE_TCRIPEMD160_XTS1024
;
9325 dgst_size
= DGST_SIZE_4_5
;
9326 parse_func
= truecrypt_parse_hash_2k
;
9327 sort_by_digest
= sort_by_digest_4_5
;
9328 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9335 case 6213: hash_type
= HASH_TYPE_RIPEMD160
;
9336 salt_type
= SALT_TYPE_EMBEDDED
;
9337 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9338 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9339 kern_type
= KERN_TYPE_TCRIPEMD160_XTS1536
;
9340 dgst_size
= DGST_SIZE_4_5
;
9341 parse_func
= truecrypt_parse_hash_2k
;
9342 sort_by_digest
= sort_by_digest_4_5
;
9343 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9350 case 6221: hash_type
= HASH_TYPE_SHA512
;
9351 salt_type
= SALT_TYPE_EMBEDDED
;
9352 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9353 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9354 kern_type
= KERN_TYPE_TCSHA512_XTS512
;
9355 dgst_size
= DGST_SIZE_8_8
;
9356 parse_func
= truecrypt_parse_hash_1k
;
9357 sort_by_digest
= sort_by_digest_8_8
;
9358 opti_type
= OPTI_TYPE_ZERO_BYTE
9359 | OPTI_TYPE_USES_BITS_64
;
9366 case 6222: hash_type
= HASH_TYPE_SHA512
;
9367 salt_type
= SALT_TYPE_EMBEDDED
;
9368 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9369 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9370 kern_type
= KERN_TYPE_TCSHA512_XTS1024
;
9371 dgst_size
= DGST_SIZE_8_8
;
9372 parse_func
= truecrypt_parse_hash_1k
;
9373 sort_by_digest
= sort_by_digest_8_8
;
9374 opti_type
= OPTI_TYPE_ZERO_BYTE
9375 | OPTI_TYPE_USES_BITS_64
;
9382 case 6223: hash_type
= HASH_TYPE_SHA512
;
9383 salt_type
= SALT_TYPE_EMBEDDED
;
9384 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9385 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9386 kern_type
= KERN_TYPE_TCSHA512_XTS1536
;
9387 dgst_size
= DGST_SIZE_8_8
;
9388 parse_func
= truecrypt_parse_hash_1k
;
9389 sort_by_digest
= sort_by_digest_8_8
;
9390 opti_type
= OPTI_TYPE_ZERO_BYTE
9391 | OPTI_TYPE_USES_BITS_64
;
9398 case 6231: hash_type
= HASH_TYPE_WHIRLPOOL
;
9399 salt_type
= SALT_TYPE_EMBEDDED
;
9400 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9401 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9402 kern_type
= KERN_TYPE_TCWHIRLPOOL_XTS512
;
9403 dgst_size
= DGST_SIZE_4_8
;
9404 parse_func
= truecrypt_parse_hash_1k
;
9405 sort_by_digest
= sort_by_digest_4_8
;
9406 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9413 case 6232: hash_type
= HASH_TYPE_WHIRLPOOL
;
9414 salt_type
= SALT_TYPE_EMBEDDED
;
9415 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9416 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9417 kern_type
= KERN_TYPE_TCWHIRLPOOL_XTS1024
;
9418 dgst_size
= DGST_SIZE_4_8
;
9419 parse_func
= truecrypt_parse_hash_1k
;
9420 sort_by_digest
= sort_by_digest_4_8
;
9421 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9428 case 6233: hash_type
= HASH_TYPE_WHIRLPOOL
;
9429 salt_type
= SALT_TYPE_EMBEDDED
;
9430 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9431 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9432 kern_type
= KERN_TYPE_TCWHIRLPOOL_XTS1536
;
9433 dgst_size
= DGST_SIZE_4_8
;
9434 parse_func
= truecrypt_parse_hash_1k
;
9435 sort_by_digest
= sort_by_digest_4_8
;
9436 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9443 case 6241: hash_type
= HASH_TYPE_RIPEMD160
;
9444 salt_type
= SALT_TYPE_EMBEDDED
;
9445 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9446 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9447 kern_type
= KERN_TYPE_TCRIPEMD160_XTS512
;
9448 dgst_size
= DGST_SIZE_4_5
;
9449 parse_func
= truecrypt_parse_hash_1k
;
9450 sort_by_digest
= sort_by_digest_4_5
;
9451 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9458 case 6242: hash_type
= HASH_TYPE_RIPEMD160
;
9459 salt_type
= SALT_TYPE_EMBEDDED
;
9460 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9461 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9462 kern_type
= KERN_TYPE_TCRIPEMD160_XTS1024
;
9463 dgst_size
= DGST_SIZE_4_5
;
9464 parse_func
= truecrypt_parse_hash_1k
;
9465 sort_by_digest
= sort_by_digest_4_5
;
9466 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9473 case 6243: hash_type
= HASH_TYPE_RIPEMD160
;
9474 salt_type
= SALT_TYPE_EMBEDDED
;
9475 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9476 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9477 kern_type
= KERN_TYPE_TCRIPEMD160_XTS1536
;
9478 dgst_size
= DGST_SIZE_4_5
;
9479 parse_func
= truecrypt_parse_hash_1k
;
9480 sort_by_digest
= sort_by_digest_4_5
;
9481 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9488 case 6300: hash_type
= HASH_TYPE_MD5
;
9489 salt_type
= SALT_TYPE_EMBEDDED
;
9490 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9491 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9492 kern_type
= KERN_TYPE_MD5AIX
;
9493 dgst_size
= DGST_SIZE_4_4
;
9494 parse_func
= md5aix_parse_hash
;
9495 sort_by_digest
= sort_by_digest_4_4
;
9496 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9503 case 6400: hash_type
= HASH_TYPE_SHA256
;
9504 salt_type
= SALT_TYPE_EMBEDDED
;
9505 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9506 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9507 kern_type
= KERN_TYPE_SHA256AIX
;
9508 dgst_size
= DGST_SIZE_4_8
;
9509 parse_func
= sha256aix_parse_hash
;
9510 sort_by_digest
= sort_by_digest_4_8
;
9511 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9518 case 6500: hash_type
= HASH_TYPE_SHA512
;
9519 salt_type
= SALT_TYPE_EMBEDDED
;
9520 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9521 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9522 kern_type
= KERN_TYPE_SHA512AIX
;
9523 dgst_size
= DGST_SIZE_8_8
;
9524 parse_func
= sha512aix_parse_hash
;
9525 sort_by_digest
= sort_by_digest_8_8
;
9526 opti_type
= OPTI_TYPE_ZERO_BYTE
9527 | OPTI_TYPE_USES_BITS_64
;
9534 case 6600: hash_type
= HASH_TYPE_AES
;
9535 salt_type
= SALT_TYPE_EMBEDDED
;
9536 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9537 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9538 kern_type
= KERN_TYPE_AGILEKEY
;
9539 dgst_size
= DGST_SIZE_4_5
; // because kernel uses _SHA1_
9540 parse_func
= agilekey_parse_hash
;
9541 sort_by_digest
= sort_by_digest_4_5
;
9542 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9549 case 6700: hash_type
= HASH_TYPE_SHA1
;
9550 salt_type
= SALT_TYPE_EMBEDDED
;
9551 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9552 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9553 kern_type
= KERN_TYPE_SHA1AIX
;
9554 dgst_size
= DGST_SIZE_4_5
;
9555 parse_func
= sha1aix_parse_hash
;
9556 sort_by_digest
= sort_by_digest_4_5
;
9557 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9564 case 6800: hash_type
= HASH_TYPE_AES
;
9565 salt_type
= SALT_TYPE_EMBEDDED
;
9566 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9567 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9568 kern_type
= KERN_TYPE_LASTPASS
;
9569 dgst_size
= DGST_SIZE_4_8
; // because kernel uses _SHA256_
9570 parse_func
= lastpass_parse_hash
;
9571 sort_by_digest
= sort_by_digest_4_8
;
9572 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9579 case 6900: hash_type
= HASH_TYPE_GOST
;
9580 salt_type
= SALT_TYPE_NONE
;
9581 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9582 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9583 kern_type
= KERN_TYPE_GOST
;
9584 dgst_size
= DGST_SIZE_4_8
;
9585 parse_func
= gost_parse_hash
;
9586 sort_by_digest
= sort_by_digest_4_8
;
9587 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9594 case 7100: hash_type
= HASH_TYPE_SHA512
;
9595 salt_type
= SALT_TYPE_EMBEDDED
;
9596 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9597 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9598 kern_type
= KERN_TYPE_PBKDF2_SHA512
;
9599 dgst_size
= DGST_SIZE_8_16
;
9600 parse_func
= sha512osx_parse_hash
;
9601 sort_by_digest
= sort_by_digest_8_16
;
9602 opti_type
= OPTI_TYPE_ZERO_BYTE
9603 | OPTI_TYPE_USES_BITS_64
9604 | OPTI_TYPE_SLOW_HASH_SIMD
;
9611 case 7200: hash_type
= HASH_TYPE_SHA512
;
9612 salt_type
= SALT_TYPE_EMBEDDED
;
9613 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9614 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9615 kern_type
= KERN_TYPE_PBKDF2_SHA512
;
9616 dgst_size
= DGST_SIZE_8_16
;
9617 parse_func
= sha512grub_parse_hash
;
9618 sort_by_digest
= sort_by_digest_8_16
;
9619 opti_type
= OPTI_TYPE_ZERO_BYTE
9620 | OPTI_TYPE_USES_BITS_64
9621 | OPTI_TYPE_SLOW_HASH_SIMD
;
9628 case 7300: hash_type
= HASH_TYPE_SHA1
;
9629 salt_type
= SALT_TYPE_EMBEDDED
;
9630 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9631 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9632 | OPTS_TYPE_ST_ADD80
9633 | OPTS_TYPE_ST_ADDBITS15
;
9634 kern_type
= KERN_TYPE_RAKP
;
9635 dgst_size
= DGST_SIZE_4_5
;
9636 parse_func
= rakp_parse_hash
;
9637 sort_by_digest
= sort_by_digest_4_5
;
9638 opti_type
= OPTI_TYPE_ZERO_BYTE
9639 | OPTI_TYPE_NOT_ITERATED
;
9646 case 7400: hash_type
= HASH_TYPE_SHA256
;
9647 salt_type
= SALT_TYPE_EMBEDDED
;
9648 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9649 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9650 kern_type
= KERN_TYPE_SHA256CRYPT
;
9651 dgst_size
= DGST_SIZE_4_8
;
9652 parse_func
= sha256crypt_parse_hash
;
9653 sort_by_digest
= sort_by_digest_4_8
;
9654 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9661 case 7500: hash_type
= HASH_TYPE_KRB5PA
;
9662 salt_type
= SALT_TYPE_EMBEDDED
;
9663 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9664 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9665 kern_type
= KERN_TYPE_KRB5PA
;
9666 dgst_size
= DGST_SIZE_4_4
;
9667 parse_func
= krb5pa_parse_hash
;
9668 sort_by_digest
= sort_by_digest_4_4
;
9669 opti_type
= OPTI_TYPE_ZERO_BYTE
9670 | OPTI_TYPE_NOT_ITERATED
;
9677 case 7600: hash_type
= HASH_TYPE_SHA1
;
9678 salt_type
= SALT_TYPE_INTERN
;
9679 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9680 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9681 | OPTS_TYPE_PT_ADD80
9682 | OPTS_TYPE_PT_ADDBITS15
;
9683 kern_type
= KERN_TYPE_SHA1_SLT_SHA1_PW
;
9684 dgst_size
= DGST_SIZE_4_5
;
9685 parse_func
= redmine_parse_hash
;
9686 sort_by_digest
= sort_by_digest_4_5
;
9687 opti_type
= OPTI_TYPE_ZERO_BYTE
9688 | OPTI_TYPE_PRECOMPUTE_INIT
9689 | OPTI_TYPE_EARLY_SKIP
9690 | OPTI_TYPE_NOT_ITERATED
9691 | OPTI_TYPE_PREPENDED_SALT
;
9698 case 7700: hash_type
= HASH_TYPE_SAPB
;
9699 salt_type
= SALT_TYPE_EMBEDDED
;
9700 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9701 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9702 | OPTS_TYPE_PT_UPPER
9703 | OPTS_TYPE_ST_UPPER
;
9704 kern_type
= KERN_TYPE_SAPB
;
9705 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
9706 parse_func
= sapb_parse_hash
;
9707 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
9708 opti_type
= OPTI_TYPE_ZERO_BYTE
9709 | OPTI_TYPE_PRECOMPUTE_INIT
9710 | OPTI_TYPE_NOT_ITERATED
;
9717 case 7800: hash_type
= HASH_TYPE_SAPG
;
9718 salt_type
= SALT_TYPE_EMBEDDED
;
9719 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9720 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9721 | OPTS_TYPE_ST_ADD80
9722 | OPTS_TYPE_ST_UPPER
;
9723 kern_type
= KERN_TYPE_SAPG
;
9724 dgst_size
= DGST_SIZE_4_5
;
9725 parse_func
= sapg_parse_hash
;
9726 sort_by_digest
= sort_by_digest_4_5
;
9727 opti_type
= OPTI_TYPE_ZERO_BYTE
9728 | OPTI_TYPE_PRECOMPUTE_INIT
9729 | OPTI_TYPE_NOT_ITERATED
;
9736 case 7900: hash_type
= HASH_TYPE_SHA512
;
9737 salt_type
= SALT_TYPE_EMBEDDED
;
9738 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9739 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9740 kern_type
= KERN_TYPE_DRUPAL7
;
9741 dgst_size
= DGST_SIZE_8_8
;
9742 parse_func
= drupal7_parse_hash
;
9743 sort_by_digest
= sort_by_digest_8_8
;
9744 opti_type
= OPTI_TYPE_ZERO_BYTE
9745 | OPTI_TYPE_USES_BITS_64
;
9752 case 8000: hash_type
= HASH_TYPE_SHA256
;
9753 salt_type
= SALT_TYPE_EMBEDDED
;
9754 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9755 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9756 | OPTS_TYPE_PT_UNICODE
9757 | OPTS_TYPE_ST_ADD80
9759 kern_type
= KERN_TYPE_SYBASEASE
;
9760 dgst_size
= DGST_SIZE_4_8
;
9761 parse_func
= sybasease_parse_hash
;
9762 sort_by_digest
= sort_by_digest_4_8
;
9763 opti_type
= OPTI_TYPE_ZERO_BYTE
9764 | OPTI_TYPE_PRECOMPUTE_INIT
9765 | OPTI_TYPE_EARLY_SKIP
9766 | OPTI_TYPE_NOT_ITERATED
9767 | OPTI_TYPE_RAW_HASH
;
9774 case 8100: hash_type
= HASH_TYPE_SHA1
;
9775 salt_type
= SALT_TYPE_EMBEDDED
;
9776 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9777 opts_type
= OPTS_TYPE_PT_GENERATE_BE
;
9778 kern_type
= KERN_TYPE_NETSCALER
;
9779 dgst_size
= DGST_SIZE_4_5
;
9780 parse_func
= netscaler_parse_hash
;
9781 sort_by_digest
= sort_by_digest_4_5
;
9782 opti_type
= OPTI_TYPE_ZERO_BYTE
9783 | OPTI_TYPE_PRECOMPUTE_INIT
9784 | OPTI_TYPE_PRECOMPUTE_MERKLE
9785 | OPTI_TYPE_EARLY_SKIP
9786 | OPTI_TYPE_NOT_ITERATED
9787 | OPTI_TYPE_PREPENDED_SALT
9788 | OPTI_TYPE_RAW_HASH
;
9795 case 8200: hash_type
= HASH_TYPE_SHA256
;
9796 salt_type
= SALT_TYPE_EMBEDDED
;
9797 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9798 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9799 kern_type
= KERN_TYPE_CLOUDKEY
;
9800 dgst_size
= DGST_SIZE_4_8
;
9801 parse_func
= cloudkey_parse_hash
;
9802 sort_by_digest
= sort_by_digest_4_8
;
9803 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9810 case 8300: hash_type
= HASH_TYPE_SHA1
;
9811 salt_type
= SALT_TYPE_EMBEDDED
;
9812 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9813 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9815 | OPTS_TYPE_ST_ADD80
;
9816 kern_type
= KERN_TYPE_NSEC3
;
9817 dgst_size
= DGST_SIZE_4_5
;
9818 parse_func
= nsec3_parse_hash
;
9819 sort_by_digest
= sort_by_digest_4_5
;
9820 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9827 case 8400: hash_type
= HASH_TYPE_SHA1
;
9828 salt_type
= SALT_TYPE_INTERN
;
9829 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9830 opts_type
= OPTS_TYPE_PT_GENERATE_BE
9831 | OPTS_TYPE_PT_ADD80
9832 | OPTS_TYPE_PT_ADDBITS15
;
9833 kern_type
= KERN_TYPE_WBB3
;
9834 dgst_size
= DGST_SIZE_4_5
;
9835 parse_func
= wbb3_parse_hash
;
9836 sort_by_digest
= sort_by_digest_4_5
;
9837 opti_type
= OPTI_TYPE_ZERO_BYTE
9838 | OPTI_TYPE_PRECOMPUTE_INIT
9839 | OPTI_TYPE_NOT_ITERATED
;
9846 case 8500: hash_type
= HASH_TYPE_DESRACF
;
9847 salt_type
= SALT_TYPE_EMBEDDED
;
9848 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9849 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9850 | OPTS_TYPE_ST_UPPER
;
9851 kern_type
= KERN_TYPE_RACF
;
9852 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
9853 parse_func
= racf_parse_hash
;
9854 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
9855 opti_type
= OPTI_TYPE_ZERO_BYTE
9856 | OPTI_TYPE_PRECOMPUTE_PERMUT
;
9863 case 8600: hash_type
= HASH_TYPE_LOTUS5
;
9864 salt_type
= SALT_TYPE_NONE
;
9865 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9866 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9867 kern_type
= KERN_TYPE_LOTUS5
;
9868 dgst_size
= DGST_SIZE_4_4
;
9869 parse_func
= lotus5_parse_hash
;
9870 sort_by_digest
= sort_by_digest_4_4
;
9871 opti_type
= OPTI_TYPE_EARLY_SKIP
9872 | OPTI_TYPE_NOT_ITERATED
9873 | OPTI_TYPE_NOT_SALTED
9874 | OPTI_TYPE_RAW_HASH
;
9881 case 8700: hash_type
= HASH_TYPE_LOTUS6
;
9882 salt_type
= SALT_TYPE_EMBEDDED
;
9883 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
9884 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9885 kern_type
= KERN_TYPE_LOTUS6
;
9886 dgst_size
= DGST_SIZE_4_4
;
9887 parse_func
= lotus6_parse_hash
;
9888 sort_by_digest
= sort_by_digest_4_4
;
9889 opti_type
= OPTI_TYPE_EARLY_SKIP
9890 | OPTI_TYPE_NOT_ITERATED
9891 | OPTI_TYPE_RAW_HASH
;
9898 case 8800: hash_type
= HASH_TYPE_ANDROIDFDE
;
9899 salt_type
= SALT_TYPE_EMBEDDED
;
9900 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9901 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9902 kern_type
= KERN_TYPE_ANDROIDFDE
;
9903 dgst_size
= DGST_SIZE_4_4
;
9904 parse_func
= androidfde_parse_hash
;
9905 sort_by_digest
= sort_by_digest_4_4
;
9906 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9913 case 8900: hash_type
= HASH_TYPE_SCRYPT
;
9914 salt_type
= SALT_TYPE_EMBEDDED
;
9915 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9916 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9917 kern_type
= KERN_TYPE_SCRYPT
;
9918 dgst_size
= DGST_SIZE_4_8
;
9919 parse_func
= scrypt_parse_hash
;
9920 sort_by_digest
= sort_by_digest_4_8
;
9921 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9928 case 9000: hash_type
= HASH_TYPE_SHA1
;
9929 salt_type
= SALT_TYPE_EMBEDDED
;
9930 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9931 opts_type
= OPTS_TYPE_PT_GENERATE_LE
9932 | OPTS_TYPE_ST_GENERATE_LE
;
9933 kern_type
= KERN_TYPE_PSAFE2
;
9934 dgst_size
= DGST_SIZE_4_5
;
9935 parse_func
= psafe2_parse_hash
;
9936 sort_by_digest
= sort_by_digest_4_5
;
9937 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9944 case 9100: hash_type
= HASH_TYPE_LOTUS8
;
9945 salt_type
= SALT_TYPE_EMBEDDED
;
9946 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9947 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9948 kern_type
= KERN_TYPE_LOTUS8
;
9949 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
9950 parse_func
= lotus8_parse_hash
;
9951 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
9952 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9959 case 9200: hash_type
= HASH_TYPE_SHA256
;
9960 salt_type
= SALT_TYPE_EMBEDDED
;
9961 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9962 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
9963 kern_type
= KERN_TYPE_PBKDF2_SHA256
;
9964 dgst_size
= DGST_SIZE_4_32
;
9965 parse_func
= cisco8_parse_hash
;
9966 sort_by_digest
= sort_by_digest_4_32
;
9967 opti_type
= OPTI_TYPE_ZERO_BYTE
9968 | OPTI_TYPE_SLOW_HASH_SIMD
;
9975 case 9300: hash_type
= HASH_TYPE_SCRYPT
;
9976 salt_type
= SALT_TYPE_EMBEDDED
;
9977 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9978 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9979 kern_type
= KERN_TYPE_SCRYPT
;
9980 dgst_size
= DGST_SIZE_4_8
;
9981 parse_func
= cisco9_parse_hash
;
9982 sort_by_digest
= sort_by_digest_4_8
;
9983 opti_type
= OPTI_TYPE_ZERO_BYTE
;
9990 case 9400: hash_type
= HASH_TYPE_OFFICE2007
;
9991 salt_type
= SALT_TYPE_EMBEDDED
;
9992 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
9993 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
9994 kern_type
= KERN_TYPE_OFFICE2007
;
9995 dgst_size
= DGST_SIZE_4_4
;
9996 parse_func
= office2007_parse_hash
;
9997 sort_by_digest
= sort_by_digest_4_4
;
9998 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10005 case 9500: hash_type
= HASH_TYPE_OFFICE2010
;
10006 salt_type
= SALT_TYPE_EMBEDDED
;
10007 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10008 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10009 kern_type
= KERN_TYPE_OFFICE2010
;
10010 dgst_size
= DGST_SIZE_4_4
;
10011 parse_func
= office2010_parse_hash
;
10012 sort_by_digest
= sort_by_digest_4_4
;
10013 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10020 case 9600: hash_type
= HASH_TYPE_OFFICE2013
;
10021 salt_type
= SALT_TYPE_EMBEDDED
;
10022 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10023 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10024 kern_type
= KERN_TYPE_OFFICE2013
;
10025 dgst_size
= DGST_SIZE_4_4
;
10026 parse_func
= office2013_parse_hash
;
10027 sort_by_digest
= sort_by_digest_4_4
;
10028 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10035 case 9700: hash_type
= HASH_TYPE_OLDOFFICE01
;
10036 salt_type
= SALT_TYPE_EMBEDDED
;
10037 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10038 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10039 | OPTS_TYPE_PT_ADD80
10040 | OPTS_TYPE_PT_UNICODE
;
10041 kern_type
= KERN_TYPE_OLDOFFICE01
;
10042 dgst_size
= DGST_SIZE_4_4
;
10043 parse_func
= oldoffice01_parse_hash
;
10044 sort_by_digest
= sort_by_digest_4_4
;
10045 opti_type
= OPTI_TYPE_ZERO_BYTE
10046 | OPTI_TYPE_PRECOMPUTE_INIT
10047 | OPTI_TYPE_NOT_ITERATED
;
10054 case 9710: hash_type
= HASH_TYPE_OLDOFFICE01
;
10055 salt_type
= SALT_TYPE_EMBEDDED
;
10056 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10057 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10058 | OPTS_TYPE_PT_ADD80
;
10059 kern_type
= KERN_TYPE_OLDOFFICE01CM1
;
10060 dgst_size
= DGST_SIZE_4_4
;
10061 parse_func
= oldoffice01cm1_parse_hash
;
10062 sort_by_digest
= sort_by_digest_4_4
;
10063 opti_type
= OPTI_TYPE_ZERO_BYTE
10064 | OPTI_TYPE_PRECOMPUTE_INIT
10065 | OPTI_TYPE_NOT_ITERATED
;
10072 case 9720: hash_type
= HASH_TYPE_OLDOFFICE01
;
10073 salt_type
= SALT_TYPE_EMBEDDED
;
10074 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10075 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10076 | OPTS_TYPE_PT_ADD80
10077 | OPTS_TYPE_PT_UNICODE
10078 | OPTS_TYPE_PT_NEVERCRACK
;
10079 kern_type
= KERN_TYPE_OLDOFFICE01CM2
;
10080 dgst_size
= DGST_SIZE_4_4
;
10081 parse_func
= oldoffice01cm2_parse_hash
;
10082 sort_by_digest
= sort_by_digest_4_4
;
10083 opti_type
= OPTI_TYPE_ZERO_BYTE
10084 | OPTI_TYPE_PRECOMPUTE_INIT
10085 | OPTI_TYPE_NOT_ITERATED
;
10092 case 9800: hash_type
= HASH_TYPE_OLDOFFICE34
;
10093 salt_type
= SALT_TYPE_EMBEDDED
;
10094 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10095 opts_type
= OPTS_TYPE_PT_GENERATE_BE
10096 | OPTS_TYPE_PT_ADD80
10097 | OPTS_TYPE_PT_UNICODE
;
10098 kern_type
= KERN_TYPE_OLDOFFICE34
;
10099 dgst_size
= DGST_SIZE_4_4
;
10100 parse_func
= oldoffice34_parse_hash
;
10101 sort_by_digest
= sort_by_digest_4_4
;
10102 opti_type
= OPTI_TYPE_ZERO_BYTE
10103 | OPTI_TYPE_PRECOMPUTE_INIT
10104 | OPTI_TYPE_NOT_ITERATED
;
10111 case 9810: hash_type
= HASH_TYPE_OLDOFFICE34
;
10112 salt_type
= SALT_TYPE_EMBEDDED
;
10113 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10114 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10115 kern_type
= KERN_TYPE_OLDOFFICE34CM1
;
10116 dgst_size
= DGST_SIZE_4_4
;
10117 parse_func
= oldoffice34cm1_parse_hash
;
10118 sort_by_digest
= sort_by_digest_4_4
;
10119 opti_type
= OPTI_TYPE_ZERO_BYTE
10120 | OPTI_TYPE_PRECOMPUTE_INIT
10121 | OPTI_TYPE_NOT_ITERATED
;
10128 case 9820: hash_type
= HASH_TYPE_OLDOFFICE34
;
10129 salt_type
= SALT_TYPE_EMBEDDED
;
10130 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10131 opts_type
= OPTS_TYPE_PT_GENERATE_BE
10132 | OPTS_TYPE_PT_ADD80
10133 | OPTS_TYPE_PT_UNICODE
10134 | OPTS_TYPE_PT_NEVERCRACK
;
10135 kern_type
= KERN_TYPE_OLDOFFICE34CM2
;
10136 dgst_size
= DGST_SIZE_4_4
;
10137 parse_func
= oldoffice34cm2_parse_hash
;
10138 sort_by_digest
= sort_by_digest_4_4
;
10139 opti_type
= OPTI_TYPE_ZERO_BYTE
10140 | OPTI_TYPE_PRECOMPUTE_INIT
10141 | OPTI_TYPE_NOT_ITERATED
;
10148 case 9900: hash_type
= HASH_TYPE_MD5
;
10149 salt_type
= SALT_TYPE_NONE
;
10150 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10151 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10152 kern_type
= KERN_TYPE_RADMIN2
;
10153 dgst_size
= DGST_SIZE_4_4
;
10154 parse_func
= radmin2_parse_hash
;
10155 sort_by_digest
= sort_by_digest_4_4
;
10156 opti_type
= OPTI_TYPE_ZERO_BYTE
10157 | OPTI_TYPE_PRECOMPUTE_INIT
10158 | OPTI_TYPE_EARLY_SKIP
10159 | OPTI_TYPE_NOT_ITERATED
10160 | OPTI_TYPE_NOT_SALTED
;
10167 case 10000: hash_type
= HASH_TYPE_SHA256
;
10168 salt_type
= SALT_TYPE_EMBEDDED
;
10169 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10170 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
10171 kern_type
= KERN_TYPE_PBKDF2_SHA256
;
10172 dgst_size
= DGST_SIZE_4_32
;
10173 parse_func
= djangopbkdf2_parse_hash
;
10174 sort_by_digest
= sort_by_digest_4_32
;
10175 opti_type
= OPTI_TYPE_ZERO_BYTE
10176 | OPTI_TYPE_SLOW_HASH_SIMD
;
10183 case 10100: hash_type
= HASH_TYPE_SIPHASH
;
10184 salt_type
= SALT_TYPE_EMBEDDED
;
10185 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10186 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10187 kern_type
= KERN_TYPE_SIPHASH
;
10188 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
10189 parse_func
= siphash_parse_hash
;
10190 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
10191 opti_type
= OPTI_TYPE_ZERO_BYTE
10192 | OPTI_TYPE_NOT_ITERATED
10193 | OPTI_TYPE_RAW_HASH
;
10200 case 10200: hash_type
= HASH_TYPE_MD5
;
10201 salt_type
= SALT_TYPE_EMBEDDED
;
10202 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10203 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10204 | OPTS_TYPE_ST_ADD80
10205 | OPTS_TYPE_ST_ADDBITS14
;
10206 kern_type
= KERN_TYPE_HMACMD5_PW
;
10207 dgst_size
= DGST_SIZE_4_4
;
10208 parse_func
= crammd5_parse_hash
;
10209 sort_by_digest
= sort_by_digest_4_4
;
10210 opti_type
= OPTI_TYPE_ZERO_BYTE
10211 | OPTI_TYPE_NOT_ITERATED
;
10218 case 10300: hash_type
= HASH_TYPE_SHA1
;
10219 salt_type
= SALT_TYPE_EMBEDDED
;
10220 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10221 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
10222 kern_type
= KERN_TYPE_SAPH_SHA1
;
10223 dgst_size
= DGST_SIZE_4_5
;
10224 parse_func
= saph_sha1_parse_hash
;
10225 sort_by_digest
= sort_by_digest_4_5
;
10226 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10233 case 10400: hash_type
= HASH_TYPE_PDFU16
;
10234 salt_type
= SALT_TYPE_EMBEDDED
;
10235 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10236 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10237 kern_type
= KERN_TYPE_PDF11
;
10238 dgst_size
= DGST_SIZE_4_4
;
10239 parse_func
= pdf11_parse_hash
;
10240 sort_by_digest
= sort_by_digest_4_4
;
10241 opti_type
= OPTI_TYPE_ZERO_BYTE
10242 | OPTI_TYPE_NOT_ITERATED
;
10249 case 10410: hash_type
= HASH_TYPE_PDFU16
;
10250 salt_type
= SALT_TYPE_EMBEDDED
;
10251 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10252 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10253 kern_type
= KERN_TYPE_PDF11CM1
;
10254 dgst_size
= DGST_SIZE_4_4
;
10255 parse_func
= pdf11cm1_parse_hash
;
10256 sort_by_digest
= sort_by_digest_4_4
;
10257 opti_type
= OPTI_TYPE_ZERO_BYTE
10258 | OPTI_TYPE_NOT_ITERATED
;
10265 case 10420: hash_type
= HASH_TYPE_PDFU16
;
10266 salt_type
= SALT_TYPE_EMBEDDED
;
10267 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10268 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10269 kern_type
= KERN_TYPE_PDF11CM2
;
10270 dgst_size
= DGST_SIZE_4_4
;
10271 parse_func
= pdf11cm2_parse_hash
;
10272 sort_by_digest
= sort_by_digest_4_4
;
10273 opti_type
= OPTI_TYPE_ZERO_BYTE
10274 | OPTI_TYPE_NOT_ITERATED
;
10281 case 10500: hash_type
= HASH_TYPE_PDFU16
;
10282 salt_type
= SALT_TYPE_EMBEDDED
;
10283 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10284 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10285 kern_type
= KERN_TYPE_PDF14
;
10286 dgst_size
= DGST_SIZE_4_4
;
10287 parse_func
= pdf14_parse_hash
;
10288 sort_by_digest
= sort_by_digest_4_4
;
10289 opti_type
= OPTI_TYPE_ZERO_BYTE
10290 | OPTI_TYPE_NOT_ITERATED
;
10297 case 10600: hash_type
= HASH_TYPE_SHA256
;
10298 salt_type
= SALT_TYPE_EMBEDDED
;
10299 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10300 opts_type
= OPTS_TYPE_PT_GENERATE_BE
10301 | OPTS_TYPE_ST_ADD80
10302 | OPTS_TYPE_ST_ADDBITS15
10303 | OPTS_TYPE_HASH_COPY
;
10304 kern_type
= KERN_TYPE_SHA256_PWSLT
;
10305 dgst_size
= DGST_SIZE_4_8
;
10306 parse_func
= pdf17l3_parse_hash
;
10307 sort_by_digest
= sort_by_digest_4_8
;
10308 opti_type
= OPTI_TYPE_ZERO_BYTE
10309 | OPTI_TYPE_PRECOMPUTE_INIT
10310 | OPTI_TYPE_PRECOMPUTE_MERKLE
10311 | OPTI_TYPE_EARLY_SKIP
10312 | OPTI_TYPE_NOT_ITERATED
10313 | OPTI_TYPE_APPENDED_SALT
10314 | OPTI_TYPE_RAW_HASH
;
10321 case 10700: hash_type
= HASH_TYPE_PDFU32
;
10322 salt_type
= SALT_TYPE_EMBEDDED
;
10323 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10324 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10325 | OPTS_TYPE_HASH_COPY
;
10326 kern_type
= KERN_TYPE_PDF17L8
;
10327 dgst_size
= DGST_SIZE_4_8
;
10328 parse_func
= pdf17l8_parse_hash
;
10329 sort_by_digest
= sort_by_digest_4_8
;
10330 opti_type
= OPTI_TYPE_ZERO_BYTE
10331 | OPTI_TYPE_NOT_ITERATED
;
10338 case 10800: hash_type
= HASH_TYPE_SHA384
;
10339 salt_type
= SALT_TYPE_NONE
;
10340 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10341 opts_type
= OPTS_TYPE_PT_GENERATE_BE
10342 | OPTS_TYPE_PT_ADD80
10343 | OPTS_TYPE_PT_ADDBITS15
;
10344 kern_type
= KERN_TYPE_SHA384
;
10345 dgst_size
= DGST_SIZE_8_8
;
10346 parse_func
= sha384_parse_hash
;
10347 sort_by_digest
= sort_by_digest_8_8
;
10348 opti_type
= OPTI_TYPE_ZERO_BYTE
10349 | OPTI_TYPE_PRECOMPUTE_INIT
10350 | OPTI_TYPE_PRECOMPUTE_MERKLE
10351 | OPTI_TYPE_EARLY_SKIP
10352 | OPTI_TYPE_NOT_ITERATED
10353 | OPTI_TYPE_NOT_SALTED
10354 | OPTI_TYPE_USES_BITS_64
10355 | OPTI_TYPE_RAW_HASH
;
10362 case 10900: hash_type
= HASH_TYPE_PBKDF2_SHA256
;
10363 salt_type
= SALT_TYPE_EMBEDDED
;
10364 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10365 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10366 | OPTS_TYPE_ST_BASE64
10367 | OPTS_TYPE_HASH_COPY
;
10368 kern_type
= KERN_TYPE_PBKDF2_SHA256
;
10369 dgst_size
= DGST_SIZE_4_32
;
10370 parse_func
= pbkdf2_sha256_parse_hash
;
10371 sort_by_digest
= sort_by_digest_4_32
;
10372 opti_type
= OPTI_TYPE_ZERO_BYTE
10373 | OPTI_TYPE_SLOW_HASH_SIMD
;
10380 case 11000: hash_type
= HASH_TYPE_MD5
;
10381 salt_type
= SALT_TYPE_INTERN
;
10382 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10383 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10384 | OPTS_TYPE_PT_ADD80
;
10385 kern_type
= KERN_TYPE_PRESTASHOP
;
10386 dgst_size
= DGST_SIZE_4_4
;
10387 parse_func
= prestashop_parse_hash
;
10388 sort_by_digest
= sort_by_digest_4_4
;
10389 opti_type
= OPTI_TYPE_ZERO_BYTE
10390 | OPTI_TYPE_PRECOMPUTE_INIT
10391 | OPTI_TYPE_NOT_ITERATED
10392 | OPTI_TYPE_PREPENDED_SALT
;
10399 case 11100: hash_type
= HASH_TYPE_MD5
;
10400 salt_type
= SALT_TYPE_EMBEDDED
;
10401 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10402 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10403 | OPTS_TYPE_ST_ADD80
;
10404 kern_type
= KERN_TYPE_POSTGRESQL_AUTH
;
10405 dgst_size
= DGST_SIZE_4_4
;
10406 parse_func
= postgresql_auth_parse_hash
;
10407 sort_by_digest
= sort_by_digest_4_4
;
10408 opti_type
= OPTI_TYPE_ZERO_BYTE
10409 | OPTI_TYPE_PRECOMPUTE_INIT
10410 | OPTI_TYPE_PRECOMPUTE_MERKLE
10411 | OPTI_TYPE_EARLY_SKIP
;
10418 case 11200: hash_type
= HASH_TYPE_SHA1
;
10419 salt_type
= SALT_TYPE_EMBEDDED
;
10420 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10421 opts_type
= OPTS_TYPE_PT_GENERATE_BE
10422 | OPTS_TYPE_PT_ADD80
10423 | OPTS_TYPE_ST_HEX
;
10424 kern_type
= KERN_TYPE_MYSQL_AUTH
;
10425 dgst_size
= DGST_SIZE_4_5
;
10426 parse_func
= mysql_auth_parse_hash
;
10427 sort_by_digest
= sort_by_digest_4_5
;
10428 opti_type
= OPTI_TYPE_ZERO_BYTE
10429 | OPTI_TYPE_EARLY_SKIP
;
10436 case 11300: hash_type
= HASH_TYPE_BITCOIN_WALLET
;
10437 salt_type
= SALT_TYPE_EMBEDDED
;
10438 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10439 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10441 | OPTS_TYPE_ST_ADD80
;
10442 kern_type
= KERN_TYPE_BITCOIN_WALLET
;
10443 dgst_size
= DGST_SIZE_4_4
;
10444 parse_func
= bitcoin_wallet_parse_hash
;
10445 sort_by_digest
= sort_by_digest_4_4
;
10446 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10453 case 11400: hash_type
= HASH_TYPE_MD5
;
10454 salt_type
= SALT_TYPE_EMBEDDED
;
10455 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10456 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10457 | OPTS_TYPE_PT_ADD80
10458 | OPTS_TYPE_HASH_COPY
;
10459 kern_type
= KERN_TYPE_SIP_AUTH
;
10460 dgst_size
= DGST_SIZE_4_4
;
10461 parse_func
= sip_auth_parse_hash
;
10462 sort_by_digest
= sort_by_digest_4_4
;
10463 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10470 case 11500: hash_type
= HASH_TYPE_CRC32
;
10471 salt_type
= SALT_TYPE_INTERN
;
10472 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10473 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10474 | OPTS_TYPE_ST_GENERATE_LE
10475 | OPTS_TYPE_ST_HEX
;
10476 kern_type
= KERN_TYPE_CRC32
;
10477 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
10478 parse_func
= crc32_parse_hash
;
10479 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
10480 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10487 case 11600: hash_type
= HASH_TYPE_AES
;
10488 salt_type
= SALT_TYPE_EMBEDDED
;
10489 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10490 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10491 | OPTS_TYPE_PT_NEVERCRACK
;
10492 kern_type
= KERN_TYPE_SEVEN_ZIP
;
10493 dgst_size
= DGST_SIZE_4_4
; // originally DGST_SIZE_4_2
10494 parse_func
= seven_zip_parse_hash
;
10495 sort_by_digest
= sort_by_digest_4_4
; // originally sort_by_digest_4_2
10496 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10503 case 11700: hash_type
= HASH_TYPE_GOST_2012SBOG_256
;
10504 salt_type
= SALT_TYPE_NONE
;
10505 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10506 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10507 | OPTS_TYPE_PT_ADD01
;
10508 kern_type
= KERN_TYPE_GOST_2012SBOG_256
;
10509 dgst_size
= DGST_SIZE_4_8
;
10510 parse_func
= gost2012sbog_256_parse_hash
;
10511 sort_by_digest
= sort_by_digest_4_8
;
10512 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10519 case 11800: hash_type
= HASH_TYPE_GOST_2012SBOG_512
;
10520 salt_type
= SALT_TYPE_NONE
;
10521 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10522 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10523 | OPTS_TYPE_PT_ADD01
;
10524 kern_type
= KERN_TYPE_GOST_2012SBOG_512
;
10525 dgst_size
= DGST_SIZE_4_16
;
10526 parse_func
= gost2012sbog_512_parse_hash
;
10527 sort_by_digest
= sort_by_digest_4_16
;
10528 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10535 case 11900: hash_type
= HASH_TYPE_PBKDF2_MD5
;
10536 salt_type
= SALT_TYPE_EMBEDDED
;
10537 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10538 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10539 | OPTS_TYPE_ST_BASE64
10540 | OPTS_TYPE_HASH_COPY
;
10541 kern_type
= KERN_TYPE_PBKDF2_MD5
;
10542 dgst_size
= DGST_SIZE_4_32
;
10543 parse_func
= pbkdf2_md5_parse_hash
;
10544 sort_by_digest
= sort_by_digest_4_32
;
10545 opti_type
= OPTI_TYPE_ZERO_BYTE
10546 | OPTI_TYPE_SLOW_HASH_SIMD
;
10553 case 12000: hash_type
= HASH_TYPE_PBKDF2_SHA1
;
10554 salt_type
= SALT_TYPE_EMBEDDED
;
10555 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10556 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10557 | OPTS_TYPE_ST_BASE64
10558 | OPTS_TYPE_HASH_COPY
;
10559 kern_type
= KERN_TYPE_PBKDF2_SHA1
;
10560 dgst_size
= DGST_SIZE_4_32
;
10561 parse_func
= pbkdf2_sha1_parse_hash
;
10562 sort_by_digest
= sort_by_digest_4_32
;
10563 opti_type
= OPTI_TYPE_ZERO_BYTE
10564 | OPTI_TYPE_SLOW_HASH_SIMD
;
10571 case 12100: hash_type
= HASH_TYPE_PBKDF2_SHA512
;
10572 salt_type
= SALT_TYPE_EMBEDDED
;
10573 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10574 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10575 | OPTS_TYPE_ST_BASE64
10576 | OPTS_TYPE_HASH_COPY
;
10577 kern_type
= KERN_TYPE_PBKDF2_SHA512
;
10578 dgst_size
= DGST_SIZE_8_16
;
10579 parse_func
= pbkdf2_sha512_parse_hash
;
10580 sort_by_digest
= sort_by_digest_8_16
;
10581 opti_type
= OPTI_TYPE_ZERO_BYTE
10582 | OPTI_TYPE_USES_BITS_64
10583 | OPTI_TYPE_SLOW_HASH_SIMD
;
10590 case 12200: hash_type
= HASH_TYPE_ECRYPTFS
;
10591 salt_type
= SALT_TYPE_EMBEDDED
;
10592 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10593 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10594 kern_type
= KERN_TYPE_ECRYPTFS
;
10595 dgst_size
= DGST_SIZE_8_8
;
10596 parse_func
= ecryptfs_parse_hash
;
10597 sort_by_digest
= sort_by_digest_8_8
;
10598 opti_type
= OPTI_TYPE_ZERO_BYTE
10599 | OPTI_TYPE_USES_BITS_64
;
10606 case 12300: hash_type
= HASH_TYPE_ORACLET
;
10607 salt_type
= SALT_TYPE_EMBEDDED
;
10608 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10609 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10610 kern_type
= KERN_TYPE_ORACLET
;
10611 dgst_size
= DGST_SIZE_8_16
;
10612 parse_func
= oraclet_parse_hash
;
10613 sort_by_digest
= sort_by_digest_8_16
;
10614 opti_type
= OPTI_TYPE_ZERO_BYTE
10615 | OPTI_TYPE_USES_BITS_64
;
10622 case 12400: hash_type
= HASH_TYPE_BSDICRYPT
;
10623 salt_type
= SALT_TYPE_EMBEDDED
;
10624 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10625 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10626 kern_type
= KERN_TYPE_BSDICRYPT
;
10627 dgst_size
= DGST_SIZE_4_4
;
10628 parse_func
= bsdicrypt_parse_hash
;
10629 sort_by_digest
= sort_by_digest_4_4
;
10630 opti_type
= OPTI_TYPE_ZERO_BYTE
10631 | OPTI_TYPE_PRECOMPUTE_PERMUT
;
10638 case 12500: hash_type
= HASH_TYPE_RAR3HP
;
10639 salt_type
= SALT_TYPE_EMBEDDED
;
10640 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10641 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10642 kern_type
= KERN_TYPE_RAR3
;
10643 dgst_size
= DGST_SIZE_4_4
;
10644 parse_func
= rar3hp_parse_hash
;
10645 sort_by_digest
= sort_by_digest_4_4
;
10646 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10653 case 12600: hash_type
= HASH_TYPE_SHA256
;
10654 salt_type
= SALT_TYPE_INTERN
;
10655 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10656 opts_type
= OPTS_TYPE_PT_GENERATE_BE
10657 | OPTS_TYPE_PT_ADD80
;
10658 kern_type
= KERN_TYPE_CF10
;
10659 dgst_size
= DGST_SIZE_4_8
;
10660 parse_func
= cf10_parse_hash
;
10661 sort_by_digest
= sort_by_digest_4_8
;
10662 opti_type
= OPTI_TYPE_ZERO_BYTE
10663 | OPTI_TYPE_PRECOMPUTE_INIT
10664 | OPTI_TYPE_EARLY_SKIP
10665 | OPTI_TYPE_NOT_ITERATED
;
10672 case 12700: hash_type
= HASH_TYPE_AES
;
10673 salt_type
= SALT_TYPE_EMBEDDED
;
10674 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10675 opts_type
= OPTS_TYPE_PT_GENERATE_LE
10676 | OPTS_TYPE_HASH_COPY
;
10677 kern_type
= KERN_TYPE_MYWALLET
;
10678 dgst_size
= DGST_SIZE_4_5
; // because kernel uses _SHA1_
10679 parse_func
= mywallet_parse_hash
;
10680 sort_by_digest
= sort_by_digest_4_5
;
10681 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10688 case 12800: hash_type
= HASH_TYPE_PBKDF2_SHA256
;
10689 salt_type
= SALT_TYPE_EMBEDDED
;
10690 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10691 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10692 kern_type
= KERN_TYPE_MS_DRSR
;
10693 dgst_size
= DGST_SIZE_4_8
;
10694 parse_func
= ms_drsr_parse_hash
;
10695 sort_by_digest
= sort_by_digest_4_8
;
10696 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10703 case 12900: hash_type
= HASH_TYPE_PBKDF2_SHA256
;
10704 salt_type
= SALT_TYPE_EMBEDDED
;
10705 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10706 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10707 kern_type
= KERN_TYPE_ANDROIDFDE_SAMSUNG
;
10708 dgst_size
= DGST_SIZE_4_8
;
10709 parse_func
= androidfde_samsung_parse_hash
;
10710 sort_by_digest
= sort_by_digest_4_8
;
10711 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10718 case 13000: hash_type
= HASH_TYPE_PBKDF2_SHA256
;
10719 salt_type
= SALT_TYPE_EMBEDDED
;
10720 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10721 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10722 kern_type
= KERN_TYPE_RAR5
;
10723 dgst_size
= DGST_SIZE_4_4
;
10724 parse_func
= rar5_parse_hash
;
10725 sort_by_digest
= sort_by_digest_4_4
;
10726 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10733 case 13100: hash_type
= HASH_TYPE_KRB5TGS
;
10734 salt_type
= SALT_TYPE_EMBEDDED
;
10735 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10736 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10737 kern_type
= KERN_TYPE_KRB5TGS
;
10738 dgst_size
= DGST_SIZE_4_4
;
10739 parse_func
= krb5tgs_parse_hash
;
10740 sort_by_digest
= sort_by_digest_4_4
;
10741 opti_type
= OPTI_TYPE_ZERO_BYTE
10742 | OPTI_TYPE_NOT_ITERATED
;
10749 case 13200: hash_type
= HASH_TYPE_AES
;
10750 salt_type
= SALT_TYPE_EMBEDDED
;
10751 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10752 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10753 kern_type
= KERN_TYPE_AXCRYPT
;
10754 dgst_size
= DGST_SIZE_4_4
;
10755 parse_func
= axcrypt_parse_hash
;
10756 sort_by_digest
= sort_by_digest_4_4
;
10757 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10764 case 13300: hash_type
= HASH_TYPE_SHA1
;
10765 salt_type
= SALT_TYPE_NONE
;
10766 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10767 opts_type
= OPTS_TYPE_PT_GENERATE_BE
10768 | OPTS_TYPE_PT_ADD80
10769 | OPTS_TYPE_PT_ADDBITS15
;
10770 kern_type
= KERN_TYPE_SHA1_AXCRYPT
;
10771 dgst_size
= DGST_SIZE_4_5
;
10772 parse_func
= sha1axcrypt_parse_hash
;
10773 sort_by_digest
= sort_by_digest_4_5
;
10774 opti_type
= OPTI_TYPE_ZERO_BYTE
10775 | OPTI_TYPE_PRECOMPUTE_INIT
10776 | OPTI_TYPE_EARLY_SKIP
10777 | OPTI_TYPE_NOT_ITERATED
10778 | OPTI_TYPE_NOT_SALTED
;
10785 case 13400: hash_type
= HASH_TYPE_AES
;
10786 salt_type
= SALT_TYPE_EMBEDDED
;
10787 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10788 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10789 kern_type
= KERN_TYPE_KEEPASS
;
10790 dgst_size
= DGST_SIZE_4_4
;
10791 parse_func
= keepass_parse_hash
;
10792 sort_by_digest
= sort_by_digest_4_4
;
10793 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10800 case 13500: hash_type
= HASH_TYPE_SHA1
;
10801 salt_type
= SALT_TYPE_EMBEDDED
;
10802 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
10803 opts_type
= OPTS_TYPE_PT_GENERATE_BE
10804 | OPTS_TYPE_PT_UNICODE
10805 | OPTS_TYPE_PT_ADD80
;
10806 kern_type
= KERN_TYPE_PSTOKEN
;
10807 dgst_size
= DGST_SIZE_4_5
;
10808 parse_func
= pstoken_parse_hash
;
10809 sort_by_digest
= sort_by_digest_4_5
;
10810 opti_type
= OPTI_TYPE_ZERO_BYTE
10811 | OPTI_TYPE_PRECOMPUTE_INIT
10812 | OPTI_TYPE_EARLY_SKIP
10813 | OPTI_TYPE_NOT_ITERATED
10814 | OPTI_TYPE_PREPENDED_SALT
10815 | OPTI_TYPE_RAW_HASH
;
10822 case 13600: hash_type
= HASH_TYPE_PBKDF2_SHA1
;
10823 salt_type
= SALT_TYPE_EMBEDDED
;
10824 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10825 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10826 kern_type
= KERN_TYPE_ZIP2
;
10827 dgst_size
= DGST_SIZE_4_4
;
10828 parse_func
= zip2_parse_hash
;
10829 sort_by_digest
= sort_by_digest_4_4
;
10830 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10837 case 13711: hash_type
= HASH_TYPE_RIPEMD160
;
10838 salt_type
= SALT_TYPE_EMBEDDED
;
10839 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10840 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10841 kern_type
= KERN_TYPE_TCRIPEMD160_XTS512
;
10842 dgst_size
= DGST_SIZE_4_5
;
10843 parse_func
= veracrypt_parse_hash_655331
;
10844 sort_by_digest
= sort_by_digest_4_5
;
10845 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10852 case 13712: hash_type
= HASH_TYPE_RIPEMD160
;
10853 salt_type
= SALT_TYPE_EMBEDDED
;
10854 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10855 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10856 kern_type
= KERN_TYPE_TCRIPEMD160_XTS1024
;
10857 dgst_size
= DGST_SIZE_4_5
;
10858 parse_func
= veracrypt_parse_hash_655331
;
10859 sort_by_digest
= sort_by_digest_4_5
;
10860 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10867 case 13713: hash_type
= HASH_TYPE_RIPEMD160
;
10868 salt_type
= SALT_TYPE_EMBEDDED
;
10869 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10870 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10871 kern_type
= KERN_TYPE_TCRIPEMD160_XTS1536
;
10872 dgst_size
= DGST_SIZE_4_5
;
10873 parse_func
= veracrypt_parse_hash_655331
;
10874 sort_by_digest
= sort_by_digest_4_5
;
10875 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10882 case 13721: hash_type
= HASH_TYPE_SHA512
;
10883 salt_type
= SALT_TYPE_EMBEDDED
;
10884 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10885 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
10886 kern_type
= KERN_TYPE_TCSHA512_XTS512
;
10887 dgst_size
= DGST_SIZE_8_8
;
10888 parse_func
= veracrypt_parse_hash_500000
;
10889 sort_by_digest
= sort_by_digest_8_8
;
10890 opti_type
= OPTI_TYPE_ZERO_BYTE
10891 | OPTI_TYPE_USES_BITS_64
;
10898 case 13722: hash_type
= HASH_TYPE_SHA512
;
10899 salt_type
= SALT_TYPE_EMBEDDED
;
10900 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10901 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
10902 kern_type
= KERN_TYPE_TCSHA512_XTS1024
;
10903 dgst_size
= DGST_SIZE_8_8
;
10904 parse_func
= veracrypt_parse_hash_500000
;
10905 sort_by_digest
= sort_by_digest_8_8
;
10906 opti_type
= OPTI_TYPE_ZERO_BYTE
10907 | OPTI_TYPE_USES_BITS_64
;
10914 case 13723: hash_type
= HASH_TYPE_SHA512
;
10915 salt_type
= SALT_TYPE_EMBEDDED
;
10916 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10917 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
10918 kern_type
= KERN_TYPE_TCSHA512_XTS1536
;
10919 dgst_size
= DGST_SIZE_8_8
;
10920 parse_func
= veracrypt_parse_hash_500000
;
10921 sort_by_digest
= sort_by_digest_8_8
;
10922 opti_type
= OPTI_TYPE_ZERO_BYTE
10923 | OPTI_TYPE_USES_BITS_64
;
10930 case 13731: hash_type
= HASH_TYPE_WHIRLPOOL
;
10931 salt_type
= SALT_TYPE_EMBEDDED
;
10932 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10933 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10934 kern_type
= KERN_TYPE_TCWHIRLPOOL_XTS512
;
10935 dgst_size
= DGST_SIZE_4_8
;
10936 parse_func
= veracrypt_parse_hash_500000
;
10937 sort_by_digest
= sort_by_digest_4_8
;
10938 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10945 case 13732: hash_type
= HASH_TYPE_WHIRLPOOL
;
10946 salt_type
= SALT_TYPE_EMBEDDED
;
10947 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10948 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10949 kern_type
= KERN_TYPE_TCWHIRLPOOL_XTS1024
;
10950 dgst_size
= DGST_SIZE_4_8
;
10951 parse_func
= veracrypt_parse_hash_500000
;
10952 sort_by_digest
= sort_by_digest_4_8
;
10953 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10960 case 13733: hash_type
= HASH_TYPE_WHIRLPOOL
;
10961 salt_type
= SALT_TYPE_EMBEDDED
;
10962 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10963 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10964 kern_type
= KERN_TYPE_TCWHIRLPOOL_XTS1536
;
10965 dgst_size
= DGST_SIZE_4_8
;
10966 parse_func
= veracrypt_parse_hash_500000
;
10967 sort_by_digest
= sort_by_digest_4_8
;
10968 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10975 case 13741: hash_type
= HASH_TYPE_RIPEMD160
;
10976 salt_type
= SALT_TYPE_EMBEDDED
;
10977 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10978 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10979 kern_type
= KERN_TYPE_TCRIPEMD160_XTS512
;
10980 dgst_size
= DGST_SIZE_4_5
;
10981 parse_func
= veracrypt_parse_hash_327661
;
10982 sort_by_digest
= sort_by_digest_4_5
;
10983 opti_type
= OPTI_TYPE_ZERO_BYTE
;
10990 case 13742: hash_type
= HASH_TYPE_RIPEMD160
;
10991 salt_type
= SALT_TYPE_EMBEDDED
;
10992 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
10993 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
10994 kern_type
= KERN_TYPE_TCRIPEMD160_XTS1024
;
10995 dgst_size
= DGST_SIZE_4_5
;
10996 parse_func
= veracrypt_parse_hash_327661
;
10997 sort_by_digest
= sort_by_digest_4_5
;
10998 opti_type
= OPTI_TYPE_ZERO_BYTE
;
11005 case 13743: hash_type
= HASH_TYPE_RIPEMD160
;
11006 salt_type
= SALT_TYPE_EMBEDDED
;
11007 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
11008 opts_type
= OPTS_TYPE_PT_GENERATE_LE
;
11009 kern_type
= KERN_TYPE_TCRIPEMD160_XTS1536
;
11010 dgst_size
= DGST_SIZE_4_5
;
11011 parse_func
= veracrypt_parse_hash_327661
;
11012 sort_by_digest
= sort_by_digest_4_5
;
11013 opti_type
= OPTI_TYPE_ZERO_BYTE
;
11020 case 13751: hash_type
= HASH_TYPE_SHA256
;
11021 salt_type
= SALT_TYPE_EMBEDDED
;
11022 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
11023 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
11024 kern_type
= KERN_TYPE_VCSHA256_XTS512
;
11025 dgst_size
= DGST_SIZE_4_8
;
11026 parse_func
= veracrypt_parse_hash_500000
;
11027 sort_by_digest
= sort_by_digest_4_8
;
11028 opti_type
= OPTI_TYPE_ZERO_BYTE
;
11035 case 13752: hash_type
= HASH_TYPE_SHA256
;
11036 salt_type
= SALT_TYPE_EMBEDDED
;
11037 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
11038 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
11039 kern_type
= KERN_TYPE_VCSHA256_XTS1024
;
11040 dgst_size
= DGST_SIZE_4_8
;
11041 parse_func
= veracrypt_parse_hash_500000
;
11042 sort_by_digest
= sort_by_digest_4_8
;
11043 opti_type
= OPTI_TYPE_ZERO_BYTE
;
11050 case 13753: hash_type
= HASH_TYPE_SHA256
;
11051 salt_type
= SALT_TYPE_EMBEDDED
;
11052 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
11053 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
11054 kern_type
= KERN_TYPE_VCSHA256_XTS1536
;
11055 dgst_size
= DGST_SIZE_4_8
;
11056 parse_func
= veracrypt_parse_hash_500000
;
11057 sort_by_digest
= sort_by_digest_4_8
;
11058 opti_type
= OPTI_TYPE_ZERO_BYTE
;
11065 case 13761: hash_type
= HASH_TYPE_SHA256
;
11066 salt_type
= SALT_TYPE_EMBEDDED
;
11067 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
11068 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
11069 kern_type
= KERN_TYPE_VCSHA256_XTS512
;
11070 dgst_size
= DGST_SIZE_4_8
;
11071 parse_func
= veracrypt_parse_hash_200000
;
11072 sort_by_digest
= sort_by_digest_4_8
;
11073 opti_type
= OPTI_TYPE_ZERO_BYTE
;
11080 case 13762: hash_type
= HASH_TYPE_SHA256
;
11081 salt_type
= SALT_TYPE_EMBEDDED
;
11082 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
11083 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
11084 kern_type
= KERN_TYPE_VCSHA256_XTS1024
;
11085 dgst_size
= DGST_SIZE_4_8
;
11086 parse_func
= veracrypt_parse_hash_200000
;
11087 sort_by_digest
= sort_by_digest_4_8
;
11088 opti_type
= OPTI_TYPE_ZERO_BYTE
;
11095 case 13763: hash_type
= HASH_TYPE_SHA256
;
11096 salt_type
= SALT_TYPE_EMBEDDED
;
11097 attack_exec
= ATTACK_EXEC_OUTSIDE_KERNEL
;
11098 opts_type
= OPTS_TYPE_PT_GENERATE_LE
; // should be OPTS_TYPE_PT_GENERATE_BE
11099 kern_type
= KERN_TYPE_VCSHA256_XTS1536
;
11100 dgst_size
= DGST_SIZE_4_8
;
11101 parse_func
= veracrypt_parse_hash_200000
;
11102 sort_by_digest
= sort_by_digest_4_8
;
11103 opti_type
= OPTI_TYPE_ZERO_BYTE
;
11110 case 13800: hash_type
= HASH_TYPE_SHA256
;
11111 salt_type
= SALT_TYPE_EMBEDDED
;
11112 attack_exec
= ATTACK_EXEC_INSIDE_KERNEL
;
11113 opts_type
= OPTS_TYPE_PT_GENERATE_BE
11114 | OPTS_TYPE_PT_UNICODE
;
11115 kern_type
= KERN_TYPE_WIN8PHONE
;
11116 dgst_size
= DGST_SIZE_4_8
;
11117 parse_func
= win8phone_parse_hash
;
11118 sort_by_digest
= sort_by_digest_4_8
;
11119 opti_type
= OPTI_TYPE_ZERO_BYTE
11120 | OPTI_TYPE_PRECOMPUTE_INIT
11121 | OPTI_TYPE_EARLY_SKIP
11122 | OPTI_TYPE_NOT_ITERATED
11123 | OPTI_TYPE_RAW_HASH
;
11130 default: usage_mini_print (PROGNAME
); return (-1);
11137 data
.parse_func
= parse_func
;
11145 if (salt_type
== SALT_TYPE_INTERN
)
11147 opts_type
|= OPTS_TYPE_ST_HEX
;
11151 log_error ("ERROR: Parameter hex-salt not valid for hash-type %u", hash_mode
);
11157 uint isSalted
= ((salt_type
== SALT_TYPE_INTERN
)
11158 | (salt_type
== SALT_TYPE_EXTERN
)
11159 | (salt_type
== SALT_TYPE_EMBEDDED
)
11160 | (salt_type
== SALT_TYPE_VIRTUAL
));
11162 sort_by_digest
= sort_by_digest_p0p1
; // overruled by 64 bit digest
11164 data
.hash_type
= hash_type
;
11165 data
.attack_mode
= attack_mode
;
11166 data
.attack_kern
= attack_kern
;
11167 data
.attack_exec
= attack_exec
;
11168 data
.kern_type
= kern_type
;
11169 data
.opts_type
= opts_type
;
11170 data
.dgst_size
= dgst_size
;
11171 data
.salt_type
= salt_type
;
11172 data
.isSalted
= isSalted
;
11173 data
.sort_by_digest
= sort_by_digest
;
11174 data
.dgst_pos0
= dgst_pos0
;
11175 data
.dgst_pos1
= dgst_pos1
;
11176 data
.dgst_pos2
= dgst_pos2
;
11177 data
.dgst_pos3
= dgst_pos3
;
11183 case 2500: esalt_size
= sizeof (wpa_t
); break;
11184 case 5300: esalt_size
= sizeof (ikepsk_t
); break;
11185 case 5400: esalt_size
= sizeof (ikepsk_t
); break;
11186 case 5500: esalt_size
= sizeof (netntlm_t
); break;
11187 case 5600: esalt_size
= sizeof (netntlm_t
); break;
11188 case 6211: esalt_size
= sizeof (tc_t
); break;
11189 case 6212: esalt_size
= sizeof (tc_t
); break;
11190 case 6213: esalt_size
= sizeof (tc_t
); break;
11191 case 6221: esalt_size
= sizeof (tc_t
); break;
11192 case 6222: esalt_size
= sizeof (tc_t
); break;
11193 case 6223: esalt_size
= sizeof (tc_t
); break;
11194 case 6231: esalt_size
= sizeof (tc_t
); break;
11195 case 6232: esalt_size
= sizeof (tc_t
); break;
11196 case 6233: esalt_size
= sizeof (tc_t
); break;
11197 case 6241: esalt_size
= sizeof (tc_t
); break;
11198 case 6242: esalt_size
= sizeof (tc_t
); break;
11199 case 6243: esalt_size
= sizeof (tc_t
); break;
11200 case 6600: esalt_size
= sizeof (agilekey_t
); break;
11201 case 7100: esalt_size
= sizeof (pbkdf2_sha512_t
); break;
11202 case 7200: esalt_size
= sizeof (pbkdf2_sha512_t
); break;
11203 case 7300: esalt_size
= sizeof (rakp_t
); break;
11204 case 7500: esalt_size
= sizeof (krb5pa_t
); break;
11205 case 8200: esalt_size
= sizeof (cloudkey_t
); break;
11206 case 8800: esalt_size
= sizeof (androidfde_t
); break;
11207 case 9200: esalt_size
= sizeof (pbkdf2_sha256_t
); break;
11208 case 9400: esalt_size
= sizeof (office2007_t
); break;
11209 case 9500: esalt_size
= sizeof (office2010_t
); break;
11210 case 9600: esalt_size
= sizeof (office2013_t
); break;
11211 case 9700: esalt_size
= sizeof (oldoffice01_t
); break;
11212 case 9710: esalt_size
= sizeof (oldoffice01_t
); break;
11213 case 9720: esalt_size
= sizeof (oldoffice01_t
); break;
11214 case 9800: esalt_size
= sizeof (oldoffice34_t
); break;
11215 case 9810: esalt_size
= sizeof (oldoffice34_t
); break;
11216 case 9820: esalt_size
= sizeof (oldoffice34_t
); break;
11217 case 10000: esalt_size
= sizeof (pbkdf2_sha256_t
); break;
11218 case 10200: esalt_size
= sizeof (cram_md5_t
); break;
11219 case 10400: esalt_size
= sizeof (pdf_t
); break;
11220 case 10410: esalt_size
= sizeof (pdf_t
); break;
11221 case 10420: esalt_size
= sizeof (pdf_t
); break;
11222 case 10500: esalt_size
= sizeof (pdf_t
); break;
11223 case 10600: esalt_size
= sizeof (pdf_t
); break;
11224 case 10700: esalt_size
= sizeof (pdf_t
); break;
11225 case 10900: esalt_size
= sizeof (pbkdf2_sha256_t
); break;
11226 case 11300: esalt_size
= sizeof (bitcoin_wallet_t
); break;
11227 case 11400: esalt_size
= sizeof (sip_t
); break;
11228 case 11600: esalt_size
= sizeof (seven_zip_t
); break;
11229 case 11900: esalt_size
= sizeof (pbkdf2_md5_t
); break;
11230 case 12000: esalt_size
= sizeof (pbkdf2_sha1_t
); break;
11231 case 12100: esalt_size
= sizeof (pbkdf2_sha512_t
); break;
11232 case 13000: esalt_size
= sizeof (rar5_t
); break;
11233 case 13100: esalt_size
= sizeof (krb5tgs_t
); break;
11234 case 13400: esalt_size
= sizeof (keepass_t
); break;
11235 case 13500: esalt_size
= sizeof (pstoken_t
); break;
11236 case 13600: esalt_size
= sizeof (zip2_t
); break;
11237 case 13711: esalt_size
= sizeof (tc_t
); break;
11238 case 13712: esalt_size
= sizeof (tc_t
); break;
11239 case 13713: esalt_size
= sizeof (tc_t
); break;
11240 case 13721: esalt_size
= sizeof (tc_t
); break;
11241 case 13722: esalt_size
= sizeof (tc_t
); break;
11242 case 13723: esalt_size
= sizeof (tc_t
); break;
11243 case 13731: esalt_size
= sizeof (tc_t
); break;
11244 case 13732: esalt_size
= sizeof (tc_t
); break;
11245 case 13733: esalt_size
= sizeof (tc_t
); break;
11246 case 13741: esalt_size
= sizeof (tc_t
); break;
11247 case 13742: esalt_size
= sizeof (tc_t
); break;
11248 case 13743: esalt_size
= sizeof (tc_t
); break;
11249 case 13751: esalt_size
= sizeof (tc_t
); break;
11250 case 13752: esalt_size
= sizeof (tc_t
); break;
11251 case 13753: esalt_size
= sizeof (tc_t
); break;
11252 case 13761: esalt_size
= sizeof (tc_t
); break;
11253 case 13762: esalt_size
= sizeof (tc_t
); break;
11254 case 13763: esalt_size
= sizeof (tc_t
); break;
11255 case 13800: esalt_size
= sizeof (win8phone_t
); break;
11258 data
.esalt_size
= esalt_size
;
11261 * choose dictionary parser
11264 if (hash_type
== HASH_TYPE_LM
)
11266 get_next_word_func
= get_next_word_lm
;
11268 else if (opts_type
& OPTS_TYPE_PT_UPPER
)
11270 get_next_word_func
= get_next_word_uc
;
11274 get_next_word_func
= get_next_word_std
;
11281 dictstat_t
*dictstat_base
= (dictstat_t
*) mycalloc (MAX_DICTSTAT
, sizeof (dictstat_t
));
11284 size_t dictstat_nmemb
= 0;
11288 uint dictstat_nmemb
= 0;
11291 char dictstat
[256] = { 0 };
11293 FILE *dictstat_fp
= NULL
;
11297 snprintf (dictstat
, sizeof (dictstat
) - 1, "%s/%s", profile_dir
, DICTSTAT_FILENAME
);
11299 dictstat_fp
= fopen (dictstat
, "rb");
11304 struct stat tmpstat
;
11306 fstat (fileno (dictstat_fp
), &tmpstat
);
11310 struct stat64 tmpstat
;
11312 _fstat64 (fileno (dictstat_fp
), &tmpstat
);
11315 if (tmpstat
.st_mtime
< COMPTIME
)
11317 /* with v0.15 the format changed so we have to ensure user is using a good version
11318 since there is no version-header in the dictstat file */
11320 fclose (dictstat_fp
);
11326 while (!feof (dictstat_fp
))
11330 if (fread (&d
, sizeof (dictstat_t
), 1, dictstat_fp
) == 0) continue;
11332 lsearch (&d
, dictstat_base
, &dictstat_nmemb
, sizeof (dictstat_t
), sort_by_dictstat
);
11334 if (dictstat_nmemb
== (MAX_DICTSTAT
- 1000))
11336 log_error ("ERROR: There are too many entries in the %s database. You have to remove/rename it.", dictstat
);
11342 fclose (dictstat_fp
);
11351 char potfile
[256] = { 0 };
11353 if (potfile_path
== NULL
)
11355 snprintf (potfile
, sizeof (potfile
) - 1, "%s/%s", profile_dir
, POTFILE_FILENAME
);
11359 strncpy (potfile
, potfile_path
, sizeof (potfile
) - 1);
11362 data
.pot_fp
= NULL
;
11364 FILE *out_fp
= NULL
;
11365 FILE *pot_fp
= NULL
;
11367 if (show
== 1 || left
== 1)
11369 pot_fp
= fopen (potfile
, "rb");
11371 if (pot_fp
== NULL
)
11373 log_error ("ERROR: %s: %s", potfile
, strerror (errno
));
11378 if (outfile
!= NULL
)
11380 if ((out_fp
= fopen (outfile
, "ab")) == NULL
)
11382 log_error ("ERROR: %s: %s", outfile
, strerror (errno
));
11396 if (potfile_disable
== 0)
11398 pot_fp
= fopen (potfile
, "ab");
11400 if (pot_fp
== NULL
)
11402 log_error ("ERROR: %s: %s", potfile
, strerror (errno
));
11407 data
.pot_fp
= pot_fp
;
11414 uint pot_avail
= 0;
11416 if (show
== 1 || left
== 1)
11418 SUPPRESS_OUTPUT
= 1;
11420 pot_avail
= count_lines (pot_fp
);
11424 pot
= (pot_t
*) mycalloc (pot_avail
, sizeof (pot_t
));
11426 uint pot_hashes_avail
= 0;
11430 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
11432 while (!feof (pot_fp
))
11436 int line_len
= fgetl (pot_fp
, line_buf
);
11438 if (line_len
== 0) continue;
11440 char *plain_buf
= line_buf
+ line_len
;
11442 pot_t
*pot_ptr
= &pot
[pot_cnt
];
11444 hash_t
*hashes_buf
= &pot_ptr
->hash
;
11446 // we do not initialize all hashes_buf->digest etc at the beginning, since many lines may not be
11447 // valid lines of this specific hash type (otherwise it would be more waste of memory than gain)
11449 if (pot_cnt
== pot_hashes_avail
)
11453 for (pos
= 0; pos
< INCR_POT
; pos
++)
11455 if ((pot_cnt
+ pos
) >= pot_avail
) break;
11457 pot_t
*tmp_pot
= &pot
[pot_cnt
+ pos
];
11459 hash_t
*tmp_hash
= &tmp_pot
->hash
;
11461 tmp_hash
->digest
= mymalloc (dgst_size
);
11465 tmp_hash
->salt
= (salt_t
*) mymalloc (sizeof (salt_t
));
11470 tmp_hash
->esalt
= mymalloc (esalt_size
);
11473 pot_hashes_avail
++;
11481 int iter
= MAX_CUT_TRIES
;
11485 for (int i
= line_len
- 1; i
; i
--, plain_len
++, plain_buf
--, line_len
--)
11487 if (line_buf
[i
] == ':')
11495 if (data
.hash_mode
!= 2500)
11497 parser_status
= parse_func (line_buf
, line_len
, hashes_buf
);
11501 int max_salt_size
= sizeof (hashes_buf
->salt
->salt_buf
);
11503 if (line_len
> max_salt_size
)
11505 parser_status
= PARSER_GLOBAL_LENGTH
;
11509 memset (&hashes_buf
->salt
->salt_buf
, 0, max_salt_size
);
11511 memcpy (&hashes_buf
->salt
->salt_buf
, line_buf
, line_len
);
11513 hashes_buf
->salt
->salt_len
= line_len
;
11515 parser_status
= PARSER_OK
;
11519 // if NOT parsed without error, we add the ":" to the plain
11521 if (parser_status
== PARSER_GLOBAL_LENGTH
|| parser_status
== PARSER_HASH_LENGTH
|| parser_status
== PARSER_SALT_LENGTH
)
11527 } while ((parser_status
== PARSER_GLOBAL_LENGTH
|| parser_status
== PARSER_HASH_LENGTH
|| parser_status
== PARSER_SALT_LENGTH
) && --iter
);
11529 if (parser_status
< PARSER_GLOBAL_ZERO
)
11531 // log_info ("WARNING: Potfile '%s' in line %u (%s): %s", potfile, line_num, line_buf, strparser (parser_status));
11536 if (plain_len
>= 255) continue;
11538 memcpy (pot_ptr
->plain_buf
, plain_buf
, plain_len
);
11540 pot_ptr
->plain_len
= plain_len
;
11549 SUPPRESS_OUTPUT
= 0;
11551 qsort (pot
, pot_cnt
, sizeof (pot_t
), sort_by_pot
);
11558 uint pw_min
= PW_MIN
;
11559 uint pw_max
= PW_MAX
;
11563 case 125: if (pw_max
> 32) pw_max
= 32;
11565 case 400: if (pw_max
> 40) pw_max
= 40;
11567 case 500: if (pw_max
> 16) pw_max
= 16;
11569 case 1500: if (pw_max
> 8) pw_max
= 8;
11571 case 1600: if (pw_max
> 16) pw_max
= 16;
11573 case 1800: if (pw_max
> 16) pw_max
= 16;
11575 case 2100: if (pw_max
> 16) pw_max
= 16;
11577 case 2500: if (pw_min
< 8) pw_min
= 8;
11579 case 3000: if (pw_max
> 7) pw_max
= 7;
11581 case 5200: if (pw_max
> 24) pw_max
= 24;
11583 case 5800: if (pw_max
> 16) pw_max
= 16;
11585 case 6300: if (pw_max
> 16) pw_max
= 16;
11587 case 7400: if (pw_max
> 16) pw_max
= 16;
11589 case 7700: if (pw_max
> 8) pw_max
= 8;
11591 case 7900: if (pw_max
> 48) pw_max
= 48;
11593 case 8500: if (pw_max
> 8) pw_max
= 8;
11595 case 8600: if (pw_max
> 16) pw_max
= 16;
11597 case 9710: pw_min
= 5;
11600 case 9810: pw_min
= 5;
11603 case 10410: pw_min
= 5;
11606 case 10300: if (pw_max
< 3) pw_min
= 3;
11607 if (pw_max
> 40) pw_max
= 40;
11609 case 10500: if (pw_max
< 3) pw_min
= 3;
11610 if (pw_max
> 40) pw_max
= 40;
11612 case 10700: if (pw_max
> 16) pw_max
= 16;
11614 case 11300: if (pw_max
> 40) pw_max
= 40;
11616 case 11600: if (pw_max
> 32) pw_max
= 32;
11618 case 12500: if (pw_max
> 20) pw_max
= 20;
11620 case 12800: if (pw_max
> 24) pw_max
= 24;
11624 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
11626 switch (attack_kern
)
11628 case ATTACK_KERN_STRAIGHT
: if (pw_max
> PW_DICTMAX
) pw_max
= PW_DICTMAX1
;
11630 case ATTACK_KERN_COMBI
: if (pw_max
> PW_DICTMAX
) pw_max
= PW_DICTMAX1
;
11636 * charsets : keep them together for more easy maintainnce
11639 cs_t mp_sys
[6] = { { { 0 }, 0 } };
11640 cs_t mp_usr
[4] = { { { 0 }, 0 } };
11642 mp_setup_sys (mp_sys
);
11644 if (custom_charset_1
) mp_setup_usr (mp_sys
, mp_usr
, custom_charset_1
, 0);
11645 if (custom_charset_2
) mp_setup_usr (mp_sys
, mp_usr
, custom_charset_2
, 1);
11646 if (custom_charset_3
) mp_setup_usr (mp_sys
, mp_usr
, custom_charset_3
, 2);
11647 if (custom_charset_4
) mp_setup_usr (mp_sys
, mp_usr
, custom_charset_4
, 3);
11650 * load hashes, part I: find input mode, count hashes
11653 uint hashlist_mode
= 0;
11654 uint hashlist_format
= HLFMT_HASHCAT
;
11656 uint hashes_avail
= 0;
11658 if ((benchmark
== 0) && (stdout_flag
== 0))
11662 hashlist_mode
= (stat (myargv
[optind
], &f
) == 0) ? HL_MODE_FILE
: HL_MODE_ARG
;
11664 if ((hash_mode
== 2500) ||
11665 (hash_mode
== 5200) ||
11666 ((hash_mode
>= 6200) && (hash_mode
<= 6299)) ||
11667 ((hash_mode
>= 13700) && (hash_mode
<= 13799)) ||
11668 (hash_mode
== 9000))
11670 hashlist_mode
= HL_MODE_ARG
;
11672 char *hashfile
= myargv
[optind
];
11674 data
.hashfile
= hashfile
;
11676 logfile_top_var_string ("target", hashfile
);
11679 if (hashlist_mode
== HL_MODE_ARG
)
11681 if (hash_mode
== 2500)
11685 if (stat (data
.hashfile
, &st
) == -1)
11687 log_error ("ERROR: %s: %s", data
.hashfile
, strerror (errno
));
11692 hashes_avail
= st
.st_size
/ sizeof (hccap_t
);
11699 else if (hashlist_mode
== HL_MODE_FILE
)
11701 char *hashfile
= myargv
[optind
];
11703 data
.hashfile
= hashfile
;
11705 logfile_top_var_string ("target", hashfile
);
11709 if ((fp
= fopen (hashfile
, "rb")) == NULL
)
11711 log_error ("ERROR: %s: %s", hashfile
, strerror (errno
));
11716 if (data
.quiet
== 0) log_info_nn ("Counting lines in %s", hashfile
);
11718 hashes_avail
= count_lines (fp
);
11722 if (hashes_avail
== 0)
11724 log_error ("ERROR: hashfile is empty or corrupt");
11731 hashlist_format
= hlfmt_detect (fp
, 100); // 100 = max numbers to "scan". could be hashes_avail, too
11733 if ((remove
== 1) && (hashlist_format
!= HLFMT_HASHCAT
))
11735 log_error ("ERROR: remove not supported in native hashfile-format mode");
11747 hashlist_mode
= HL_MODE_ARG
;
11752 if (hash_mode
== 3000) hashes_avail
*= 2;
11754 data
.hashlist_mode
= hashlist_mode
;
11755 data
.hashlist_format
= hashlist_format
;
11757 logfile_top_uint (hashlist_mode
);
11758 logfile_top_uint (hashlist_format
);
11761 * load hashes, part II: allocate required memory, set pointers
11764 hash_t
*hashes_buf
= NULL
;
11765 void *digests_buf
= NULL
;
11766 salt_t
*salts_buf
= NULL
;
11767 void *esalts_buf
= NULL
;
11769 hashes_buf
= (hash_t
*) mycalloc (hashes_avail
, sizeof (hash_t
));
11771 digests_buf
= (void *) mycalloc (hashes_avail
, dgst_size
);
11773 if ((username
&& (remove
|| show
)) || (opts_type
& OPTS_TYPE_HASH_COPY
))
11777 for (hash_pos
= 0; hash_pos
< hashes_avail
; hash_pos
++)
11779 hashinfo_t
*hash_info
= (hashinfo_t
*) mymalloc (sizeof (hashinfo_t
));
11781 hashes_buf
[hash_pos
].hash_info
= hash_info
;
11783 if (username
&& (remove
|| show
|| left
))
11785 hash_info
->user
= (user_t
*) mymalloc (sizeof (user_t
));
11790 hash_info
->orighash
= (char *) mymalloc (256);
11797 salts_buf
= (salt_t
*) mycalloc (hashes_avail
, sizeof (salt_t
));
11801 esalts_buf
= (void *) mycalloc (hashes_avail
, esalt_size
);
11806 salts_buf
= (salt_t
*) mycalloc (1, sizeof (salt_t
));
11809 for (uint hash_pos
= 0; hash_pos
< hashes_avail
; hash_pos
++)
11811 hashes_buf
[hash_pos
].digest
= ((char *) digests_buf
) + (hash_pos
* dgst_size
);
11815 hashes_buf
[hash_pos
].salt
= &salts_buf
[hash_pos
];
11819 hashes_buf
[hash_pos
].esalt
= ((char *) esalts_buf
) + (hash_pos
* esalt_size
);
11824 hashes_buf
[hash_pos
].salt
= &salts_buf
[0];
11829 * load hashes, part III: parse hashes or generate them if benchmark
11832 uint hashes_cnt
= 0;
11834 if (benchmark
== 0)
11838 // useless to read hash file for keyspace, cheat a little bit w/ optind
11840 else if (stdout_flag
== 1)
11842 // useless to read hash file for stdout, cheat a little bit w/ optind
11844 else if (hashes_avail
== 0)
11847 else if (hashlist_mode
== HL_MODE_ARG
)
11849 char *input_buf
= myargv
[optind
];
11851 uint input_len
= strlen (input_buf
);
11853 logfile_top_var_string ("target", input_buf
);
11855 char *hash_buf
= NULL
;
11858 hlfmt_hash (hashlist_format
, input_buf
, input_len
, &hash_buf
, &hash_len
);
11860 bool hash_fmt_error
= 0;
11862 if (hash_len
< 1) hash_fmt_error
= 1;
11863 if (hash_buf
== NULL
) hash_fmt_error
= 1;
11865 if (hash_fmt_error
)
11867 log_info ("WARNING: failed to parse hashes using the '%s' format", strhlfmt (hashlist_format
));
11871 if (opts_type
& OPTS_TYPE_HASH_COPY
)
11873 hashinfo_t
*hash_info_tmp
= hashes_buf
[hashes_cnt
].hash_info
;
11875 hash_info_tmp
->orighash
= mystrdup (hash_buf
);
11880 memset (hashes_buf
[0].salt
, 0, sizeof (salt_t
));
11883 int parser_status
= PARSER_OK
;
11885 if (hash_mode
== 2500)
11889 log_error ("ERROR: hccap file not specified");
11894 hashlist_mode
= HL_MODE_FILE
;
11896 data
.hashlist_mode
= hashlist_mode
;
11898 FILE *fp
= fopen (hash_buf
, "rb");
11902 log_error ("ERROR: %s: %s", hash_buf
, strerror (errno
));
11907 if (hashes_avail
< 1)
11909 log_error ("ERROR: hccap file is empty or corrupt");
11916 uint hccap_size
= sizeof (hccap_t
);
11918 char *in
= (char *) mymalloc (hccap_size
);
11922 int n
= fread (in
, hccap_size
, 1, fp
);
11926 if (hashes_cnt
< 1) parser_status
= PARSER_HCCAP_FILE_SIZE
;
11931 parser_status
= parse_func (in
, hccap_size
, &hashes_buf
[hashes_cnt
]);
11933 if (parser_status
!= PARSER_OK
)
11935 log_info ("WARNING: Hash '%s': %s", hash_buf
, strparser (parser_status
));
11940 // hack: append MAC1 and MAC2 s.t. in --show and --left the line matches with the .pot file format (i.e. ESSID:MAC1:MAC2)
11942 if ((show
== 1) || (left
== 1))
11944 salt_t
*tmp_salt
= hashes_buf
[hashes_cnt
].salt
;
11946 char *salt_ptr
= (char *) tmp_salt
->salt_buf
;
11948 int cur_pos
= tmp_salt
->salt_len
;
11949 int rem_len
= sizeof (hashes_buf
[hashes_cnt
].salt
->salt_buf
) - cur_pos
;
11951 wpa_t
*wpa
= (wpa_t
*) hashes_buf
[hashes_cnt
].esalt
;
11953 // do the appending task
11955 snprintf (salt_ptr
+ cur_pos
,
11957 ":%02x%02x%02x%02x%02x%02x:%02x%02x%02x%02x%02x%02x",
11969 wpa
->orig_mac2
[5]);
11971 // memset () the remaining part of the salt
11973 cur_pos
= tmp_salt
->salt_len
+ 1 + 12 + 1 + 12;
11974 rem_len
= sizeof (hashes_buf
[hashes_cnt
].salt
->salt_buf
) - cur_pos
;
11976 if (rem_len
> 0) memset (salt_ptr
+ cur_pos
, 0, rem_len
);
11978 tmp_salt
->salt_len
+= 1 + 12 + 1 + 12;
11981 if (show
== 1) handle_show_request (pot
, pot_cnt
, (char *) hashes_buf
[hashes_cnt
].salt
->salt_buf
, hashes_buf
[hashes_cnt
].salt
->salt_len
, &hashes_buf
[hashes_cnt
], sort_by_salt_buf
, out_fp
);
11982 if (left
== 1) handle_left_request (pot
, pot_cnt
, (char *) hashes_buf
[hashes_cnt
].salt
->salt_buf
, hashes_buf
[hashes_cnt
].salt
->salt_len
, &hashes_buf
[hashes_cnt
], sort_by_salt_buf
, out_fp
);
11991 else if (hash_mode
== 3000)
11993 if (hash_len
== 32)
11995 parser_status
= parse_func (hash_buf
, 16, &hashes_buf
[hashes_cnt
]);
11997 hash_t
*lm_hash_left
= NULL
;
11999 if (parser_status
== PARSER_OK
)
12001 lm_hash_left
= &hashes_buf
[hashes_cnt
];
12007 log_info ("WARNING: Hash '%s': %s", input_buf
, strparser (parser_status
));
12010 parser_status
= parse_func (hash_buf
+ 16, 16, &hashes_buf
[hashes_cnt
]);
12012 hash_t
*lm_hash_right
= NULL
;
12014 if (parser_status
== PARSER_OK
)
12016 lm_hash_right
= &hashes_buf
[hashes_cnt
];
12022 log_info ("WARNING: Hash '%s': %s", input_buf
, strparser (parser_status
));
12027 if ((lm_hash_left
!= NULL
) && (lm_hash_right
!= NULL
))
12029 if (show
== 1) handle_show_request_lm (pot
, pot_cnt
, input_buf
, input_len
, lm_hash_left
, lm_hash_right
, sort_by_pot
, out_fp
);
12030 if (left
== 1) handle_left_request_lm (pot
, pot_cnt
, input_buf
, input_len
, lm_hash_left
, lm_hash_right
, sort_by_pot
, out_fp
);
12035 parser_status
= parse_func (hash_buf
, hash_len
, &hashes_buf
[hashes_cnt
]);
12037 if (parser_status
== PARSER_OK
)
12039 if (show
== 1) handle_show_request (pot
, pot_cnt
, input_buf
, input_len
, &hashes_buf
[hashes_cnt
], sort_by_pot
, out_fp
);
12040 if (left
== 1) handle_left_request (pot
, pot_cnt
, input_buf
, input_len
, &hashes_buf
[hashes_cnt
], sort_by_pot
, out_fp
);
12043 if (parser_status
== PARSER_OK
)
12049 log_info ("WARNING: Hash '%s': %s", input_buf
, strparser (parser_status
));
12055 parser_status
= parse_func (hash_buf
, hash_len
, &hashes_buf
[hashes_cnt
]);
12057 if (parser_status
== PARSER_OK
)
12059 if (show
== 1) handle_show_request (pot
, pot_cnt
, input_buf
, input_len
, &hashes_buf
[hashes_cnt
], sort_by_pot
, out_fp
);
12060 if (left
== 1) handle_left_request (pot
, pot_cnt
, input_buf
, input_len
, &hashes_buf
[hashes_cnt
], sort_by_pot
, out_fp
);
12063 if (parser_status
== PARSER_OK
)
12069 log_info ("WARNING: Hash '%s': %s", input_buf
, strparser (parser_status
));
12074 else if (hashlist_mode
== HL_MODE_FILE
)
12076 char *hashfile
= data
.hashfile
;
12080 if ((fp
= fopen (hashfile
, "rb")) == NULL
)
12082 log_error ("ERROR: %s: %s", hashfile
, strerror (errno
));
12089 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
12095 int line_len
= fgetl (fp
, line_buf
);
12097 if (line_len
== 0) continue;
12099 char *hash_buf
= NULL
;
12102 hlfmt_hash (hashlist_format
, line_buf
, line_len
, &hash_buf
, &hash_len
);
12104 bool hash_fmt_error
= 0;
12106 if (hash_len
< 1) hash_fmt_error
= 1;
12107 if (hash_buf
== NULL
) hash_fmt_error
= 1;
12109 if (hash_fmt_error
)
12111 log_info ("WARNING: failed to parse hashes using the '%s' format", strhlfmt (hashlist_format
));
12118 char *user_buf
= NULL
;
12121 hlfmt_user (hashlist_format
, line_buf
, line_len
, &user_buf
, &user_len
);
12123 if (remove
|| show
)
12125 user_t
**user
= &hashes_buf
[hashes_cnt
].hash_info
->user
;
12127 *user
= (user_t
*) mymalloc (sizeof (user_t
));
12129 user_t
*user_ptr
= *user
;
12131 if (user_buf
!= NULL
)
12133 user_ptr
->user_name
= mystrdup (user_buf
);
12137 user_ptr
->user_name
= mystrdup ("");
12140 user_ptr
->user_len
= user_len
;
12144 if (opts_type
& OPTS_TYPE_HASH_COPY
)
12146 hashinfo_t
*hash_info_tmp
= hashes_buf
[hashes_cnt
].hash_info
;
12148 hash_info_tmp
->orighash
= mystrdup (hash_buf
);
12153 memset (hashes_buf
[hashes_cnt
].salt
, 0, sizeof (salt_t
));
12156 if (hash_mode
== 3000)
12158 if (hash_len
== 32)
12160 int parser_status
= parse_func (hash_buf
, 16, &hashes_buf
[hashes_cnt
]);
12162 if (parser_status
< PARSER_GLOBAL_ZERO
)
12164 log_info ("WARNING: Hashfile '%s' in line %u (%s): %s", data
.hashfile
, line_num
, line_buf
, strparser (parser_status
));
12169 hash_t
*lm_hash_left
= &hashes_buf
[hashes_cnt
];
12173 parser_status
= parse_func (hash_buf
+ 16, 16, &hashes_buf
[hashes_cnt
]);
12175 if (parser_status
< PARSER_GLOBAL_ZERO
)
12177 log_info ("WARNING: Hashfile '%s' in line %u (%s): %s", data
.hashfile
, line_num
, line_buf
, strparser (parser_status
));
12182 hash_t
*lm_hash_right
= &hashes_buf
[hashes_cnt
];
12184 if (data
.quiet
== 0) if ((hashes_cnt
% 0x20000) == 0) log_info_nn ("Parsed Hashes: %u/%u (%0.2f%%)", hashes_cnt
, hashes_avail
, ((float) hashes_cnt
/ hashes_avail
) * 100);
12190 if (show
== 1) handle_show_request_lm (pot
, pot_cnt
, line_buf
, line_len
, lm_hash_left
, lm_hash_right
, sort_by_pot
, out_fp
);
12191 if (left
== 1) handle_left_request_lm (pot
, pot_cnt
, line_buf
, line_len
, lm_hash_left
, lm_hash_right
, sort_by_pot
, out_fp
);
12195 int parser_status
= parse_func (hash_buf
, hash_len
, &hashes_buf
[hashes_cnt
]);
12197 if (parser_status
< PARSER_GLOBAL_ZERO
)
12199 log_info ("WARNING: Hashfile '%s' in line %u (%s): %s", data
.hashfile
, line_num
, line_buf
, strparser (parser_status
));
12204 if (data
.quiet
== 0) if ((hashes_cnt
% 0x20000) == 0) log_info_nn ("Parsed Hashes: %u/%u (%0.2f%%)", hashes_cnt
, hashes_avail
, ((float) hashes_cnt
/ hashes_avail
) * 100);
12206 if (show
== 1) handle_show_request (pot
, pot_cnt
, line_buf
, line_len
, &hashes_buf
[hashes_cnt
], sort_by_pot
, out_fp
);
12207 if (left
== 1) handle_left_request (pot
, pot_cnt
, line_buf
, line_len
, &hashes_buf
[hashes_cnt
], sort_by_pot
, out_fp
);
12214 int parser_status
= parse_func (hash_buf
, hash_len
, &hashes_buf
[hashes_cnt
]);
12216 if (parser_status
< PARSER_GLOBAL_ZERO
)
12218 log_info ("WARNING: Hashfile '%s' in line %u (%s): %s", data
.hashfile
, line_num
, line_buf
, strparser (parser_status
));
12223 if (data
.quiet
== 0) if ((hashes_cnt
% 0x20000) == 0) log_info_nn ("Parsed Hashes: %u/%u (%0.2f%%)", hashes_cnt
, hashes_avail
, ((float) hashes_cnt
/ hashes_avail
) * 100);
12225 if (show
== 1) handle_show_request (pot
, pot_cnt
, line_buf
, line_len
, &hashes_buf
[hashes_cnt
], sort_by_pot
, out_fp
);
12226 if (left
== 1) handle_left_request (pot
, pot_cnt
, line_buf
, line_len
, &hashes_buf
[hashes_cnt
], sort_by_pot
, out_fp
);
12236 if (data
.quiet
== 0) log_info_nn ("Parsed Hashes: %u/%u (%0.2f%%)", hashes_avail
, hashes_avail
, 100.00);
12238 if ((out_fp
!= NULL
) && (out_fp
!= stdout
)) fclose (out_fp
);
12245 hashes_buf
[0].salt
->salt_len
= 8;
12247 // special salt handling
12251 case 1500: hashes_buf
[0].salt
->salt_len
= 2;
12252 hashes_buf
[0].salt
->salt_buf
[0] = 388; // pure magic
12254 case 1731: hashes_buf
[0].salt
->salt_len
= 4;
12256 case 2410: hashes_buf
[0].salt
->salt_len
= 4;
12258 case 2500: memcpy (hashes_buf
[0].salt
->salt_buf
, "hashcat.net", 11);
12260 case 3100: hashes_buf
[0].salt
->salt_len
= 1;
12262 case 5000: hashes_buf
[0].salt
->keccak_mdlen
= 32;
12264 case 5800: hashes_buf
[0].salt
->salt_len
= 16;
12266 case 6800: hashes_buf
[0].salt
->salt_len
= 32;
12268 case 8400: hashes_buf
[0].salt
->salt_len
= 40;
12270 case 8800: hashes_buf
[0].salt
->salt_len
= 16;
12272 case 8900: hashes_buf
[0].salt
->salt_len
= 16;
12273 hashes_buf
[0].salt
->scrypt_N
= 1024;
12274 hashes_buf
[0].salt
->scrypt_r
= 1;
12275 hashes_buf
[0].salt
->scrypt_p
= 1;
12277 case 9100: hashes_buf
[0].salt
->salt_len
= 16;
12279 case 9300: hashes_buf
[0].salt
->salt_len
= 14;
12280 hashes_buf
[0].salt
->scrypt_N
= 16384;
12281 hashes_buf
[0].salt
->scrypt_r
= 1;
12282 hashes_buf
[0].salt
->scrypt_p
= 1;
12284 case 9400: hashes_buf
[0].salt
->salt_len
= 16;
12286 case 9500: hashes_buf
[0].salt
->salt_len
= 16;
12288 case 9600: hashes_buf
[0].salt
->salt_len
= 16;
12290 case 9700: hashes_buf
[0].salt
->salt_len
= 16;
12292 case 9710: hashes_buf
[0].salt
->salt_len
= 16;
12294 case 9720: hashes_buf
[0].salt
->salt_len
= 16;
12296 case 9800: hashes_buf
[0].salt
->salt_len
= 16;
12298 case 9810: hashes_buf
[0].salt
->salt_len
= 16;
12300 case 9820: hashes_buf
[0].salt
->salt_len
= 16;
12302 case 10300: hashes_buf
[0].salt
->salt_len
= 12;
12304 case 11500: hashes_buf
[0].salt
->salt_len
= 4;
12306 case 11600: hashes_buf
[0].salt
->salt_len
= 4;
12308 case 12400: hashes_buf
[0].salt
->salt_len
= 4;
12310 case 12500: hashes_buf
[0].salt
->salt_len
= 8;
12312 case 12600: hashes_buf
[0].salt
->salt_len
= 64;
12316 // special esalt handling
12320 case 2500: ((wpa_t
*) hashes_buf
[0].esalt
)->eapol_size
= 128;
12322 case 5300: ((ikepsk_t
*) hashes_buf
[0].esalt
)->nr_len
= 1;
12323 ((ikepsk_t
*) hashes_buf
[0].esalt
)->msg_len
= 1;
12325 case 5400: ((ikepsk_t
*) hashes_buf
[0].esalt
)->nr_len
= 1;
12326 ((ikepsk_t
*) hashes_buf
[0].esalt
)->msg_len
= 1;
12328 case 5500: ((netntlm_t
*) hashes_buf
[0].esalt
)->user_len
= 1;
12329 ((netntlm_t
*) hashes_buf
[0].esalt
)->domain_len
= 1;
12330 ((netntlm_t
*) hashes_buf
[0].esalt
)->srvchall_len
= 1;
12331 ((netntlm_t
*) hashes_buf
[0].esalt
)->clichall_len
= 1;
12333 case 5600: ((netntlm_t
*) hashes_buf
[0].esalt
)->user_len
= 1;
12334 ((netntlm_t
*) hashes_buf
[0].esalt
)->domain_len
= 1;
12335 ((netntlm_t
*) hashes_buf
[0].esalt
)->srvchall_len
= 1;
12336 ((netntlm_t
*) hashes_buf
[0].esalt
)->clichall_len
= 1;
12338 case 7300: ((rakp_t
*) hashes_buf
[0].esalt
)->salt_len
= 32;
12340 case 10400: ((pdf_t
*) hashes_buf
[0].esalt
)->id_len
= 16;
12341 ((pdf_t
*) hashes_buf
[0].esalt
)->o_len
= 32;
12342 ((pdf_t
*) hashes_buf
[0].esalt
)->u_len
= 32;
12344 case 10410: ((pdf_t
*) hashes_buf
[0].esalt
)->id_len
= 16;
12345 ((pdf_t
*) hashes_buf
[0].esalt
)->o_len
= 32;
12346 ((pdf_t
*) hashes_buf
[0].esalt
)->u_len
= 32;
12348 case 10420: ((pdf_t
*) hashes_buf
[0].esalt
)->id_len
= 16;
12349 ((pdf_t
*) hashes_buf
[0].esalt
)->o_len
= 32;
12350 ((pdf_t
*) hashes_buf
[0].esalt
)->u_len
= 32;
12352 case 10500: ((pdf_t
*) hashes_buf
[0].esalt
)->id_len
= 16;
12353 ((pdf_t
*) hashes_buf
[0].esalt
)->o_len
= 32;
12354 ((pdf_t
*) hashes_buf
[0].esalt
)->u_len
= 32;
12356 case 10600: ((pdf_t
*) hashes_buf
[0].esalt
)->id_len
= 16;
12357 ((pdf_t
*) hashes_buf
[0].esalt
)->o_len
= 127;
12358 ((pdf_t
*) hashes_buf
[0].esalt
)->u_len
= 127;
12360 case 10700: ((pdf_t
*) hashes_buf
[0].esalt
)->id_len
= 16;
12361 ((pdf_t
*) hashes_buf
[0].esalt
)->o_len
= 127;
12362 ((pdf_t
*) hashes_buf
[0].esalt
)->u_len
= 127;
12364 case 11600: ((seven_zip_t
*) hashes_buf
[0].esalt
)->iv_len
= 16;
12365 ((seven_zip_t
*) hashes_buf
[0].esalt
)->data_len
= 112;
12366 ((seven_zip_t
*) hashes_buf
[0].esalt
)->unpack_size
= 112;
12368 case 13400: ((keepass_t
*) hashes_buf
[0].esalt
)->version
= 2;
12370 case 13500: ((pstoken_t
*) hashes_buf
[0].esalt
)->salt_len
= 113;
12372 case 13600: ((zip2_t
*) hashes_buf
[0].esalt
)->salt_len
= 16;
12373 ((zip2_t
*) hashes_buf
[0].esalt
)->data_len
= 32;
12374 ((zip2_t
*) hashes_buf
[0].esalt
)->mode
= 3;
12383 case 5200: data
.hashfile
= mystrdup ("hashcat.psafe3");
12385 case 5300: data
.hashfile
= mystrdup ("hashcat.ikemd5");
12387 case 5400: data
.hashfile
= mystrdup ("hashcat.ikesha1");
12389 case 6211: data
.hashfile
= mystrdup ("hashcat.tc");
12391 case 6212: data
.hashfile
= mystrdup ("hashcat.tc");
12393 case 6213: data
.hashfile
= mystrdup ("hashcat.tc");
12395 case 6221: data
.hashfile
= mystrdup ("hashcat.tc");
12397 case 6222: data
.hashfile
= mystrdup ("hashcat.tc");
12399 case 6223: data
.hashfile
= mystrdup ("hashcat.tc");
12401 case 6231: data
.hashfile
= mystrdup ("hashcat.tc");
12403 case 6232: data
.hashfile
= mystrdup ("hashcat.tc");
12405 case 6233: data
.hashfile
= mystrdup ("hashcat.tc");
12407 case 6241: data
.hashfile
= mystrdup ("hashcat.tc");
12409 case 6242: data
.hashfile
= mystrdup ("hashcat.tc");
12411 case 6243: data
.hashfile
= mystrdup ("hashcat.tc");
12413 case 6600: data
.hashfile
= mystrdup ("hashcat.agilekey");
12415 case 8200: data
.hashfile
= mystrdup ("hashcat.cloudkey");
12417 case 9000: data
.hashfile
= mystrdup ("hashcat.psafe2");
12419 case 13711: data
.hashfile
= mystrdup ("hashcat.vc");
12421 case 13712: data
.hashfile
= mystrdup ("hashcat.vc");
12423 case 13713: data
.hashfile
= mystrdup ("hashcat.vc");
12425 case 13721: data
.hashfile
= mystrdup ("hashcat.vc");
12427 case 13722: data
.hashfile
= mystrdup ("hashcat.vc");
12429 case 13723: data
.hashfile
= mystrdup ("hashcat.vc");
12431 case 13731: data
.hashfile
= mystrdup ("hashcat.vc");
12433 case 13732: data
.hashfile
= mystrdup ("hashcat.vc");
12435 case 13733: data
.hashfile
= mystrdup ("hashcat.vc");
12437 case 13741: data
.hashfile
= mystrdup ("hashcat.vc");
12439 case 13742: data
.hashfile
= mystrdup ("hashcat.vc");
12441 case 13743: data
.hashfile
= mystrdup ("hashcat.vc");
12443 case 13751: data
.hashfile
= mystrdup ("hashcat.vc");
12445 case 13752: data
.hashfile
= mystrdup ("hashcat.vc");
12447 case 13753: data
.hashfile
= mystrdup ("hashcat.vc");
12449 case 13761: data
.hashfile
= mystrdup ("hashcat.vc");
12451 case 13762: data
.hashfile
= mystrdup ("hashcat.vc");
12453 case 13763: data
.hashfile
= mystrdup ("hashcat.vc");
12457 // set default iterations
12461 case 400: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PHPASS
;
12463 case 500: hashes_buf
[0].salt
->salt_iter
= ROUNDS_MD5CRYPT
;
12465 case 501: hashes_buf
[0].salt
->salt_iter
= ROUNDS_MD5CRYPT
;
12467 case 1600: hashes_buf
[0].salt
->salt_iter
= ROUNDS_MD5CRYPT
;
12469 case 1800: hashes_buf
[0].salt
->salt_iter
= ROUNDS_SHA512CRYPT
;
12471 case 2100: hashes_buf
[0].salt
->salt_iter
= ROUNDS_DCC2
;
12473 case 2500: hashes_buf
[0].salt
->salt_iter
= ROUNDS_WPA2
;
12475 case 3200: hashes_buf
[0].salt
->salt_iter
= ROUNDS_BCRYPT
;
12477 case 5200: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PSAFE3
;
12479 case 5800: hashes_buf
[0].salt
->salt_iter
= ROUNDS_ANDROIDPIN
- 1;
12481 case 6211: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_2K
;
12483 case 6212: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_2K
;
12485 case 6213: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_2K
;
12487 case 6221: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12489 case 6222: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12491 case 6223: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12493 case 6231: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12495 case 6232: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12497 case 6233: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12499 case 6241: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12501 case 6242: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12503 case 6243: hashes_buf
[0].salt
->salt_iter
= ROUNDS_TRUECRYPT_1K
;
12505 case 6300: hashes_buf
[0].salt
->salt_iter
= ROUNDS_MD5CRYPT
;
12507 case 6400: hashes_buf
[0].salt
->salt_iter
= ROUNDS_SHA256AIX
;
12509 case 6500: hashes_buf
[0].salt
->salt_iter
= ROUNDS_SHA512AIX
;
12511 case 6700: hashes_buf
[0].salt
->salt_iter
= ROUNDS_SHA1AIX
;
12513 case 6600: hashes_buf
[0].salt
->salt_iter
= ROUNDS_AGILEKEY
;
12515 case 6800: hashes_buf
[0].salt
->salt_iter
= ROUNDS_LASTPASS
;
12517 case 7100: hashes_buf
[0].salt
->salt_iter
= ROUNDS_SHA512OSX
;
12519 case 7200: hashes_buf
[0].salt
->salt_iter
= ROUNDS_GRUB
;
12521 case 7400: hashes_buf
[0].salt
->salt_iter
= ROUNDS_SHA256CRYPT
;
12523 case 7900: hashes_buf
[0].salt
->salt_iter
= ROUNDS_DRUPAL7
;
12525 case 8200: hashes_buf
[0].salt
->salt_iter
= ROUNDS_CLOUDKEY
;
12527 case 8300: hashes_buf
[0].salt
->salt_iter
= ROUNDS_NSEC3
;
12529 case 8800: hashes_buf
[0].salt
->salt_iter
= ROUNDS_ANDROIDFDE
;
12531 case 8900: hashes_buf
[0].salt
->salt_iter
= 1;
12533 case 9000: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PSAFE2
;
12535 case 9100: hashes_buf
[0].salt
->salt_iter
= ROUNDS_LOTUS8
;
12537 case 9200: hashes_buf
[0].salt
->salt_iter
= ROUNDS_CISCO8
;
12539 case 9300: hashes_buf
[0].salt
->salt_iter
= 1;
12541 case 9400: hashes_buf
[0].salt
->salt_iter
= ROUNDS_OFFICE2007
;
12543 case 9500: hashes_buf
[0].salt
->salt_iter
= ROUNDS_OFFICE2010
;
12545 case 9600: hashes_buf
[0].salt
->salt_iter
= ROUNDS_OFFICE2013
;
12547 case 10000: hashes_buf
[0].salt
->salt_iter
= ROUNDS_DJANGOPBKDF2
;
12549 case 10300: hashes_buf
[0].salt
->salt_iter
= ROUNDS_SAPH_SHA1
- 1;
12551 case 10500: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PDF14
;
12553 case 10700: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PDF17L8
;
12555 case 10900: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PBKDF2_SHA256
- 1;
12557 case 11300: hashes_buf
[0].salt
->salt_iter
= ROUNDS_BITCOIN_WALLET
- 1;
12559 case 11600: hashes_buf
[0].salt
->salt_iter
= ROUNDS_SEVEN_ZIP
;
12561 case 11900: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PBKDF2_MD5
- 1;
12563 case 12000: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PBKDF2_SHA1
- 1;
12565 case 12100: hashes_buf
[0].salt
->salt_iter
= ROUNDS_PBKDF2_SHA512
- 1;
12567 case 12200: hashes_buf
[0].salt
->salt_iter
= ROUNDS_ECRYPTFS
- 1;
12569 case 12300: hashes_buf
[0].salt
->salt_iter
= ROUNDS_ORACLET
- 1;
12571 case 12400: hashes_buf
[0].salt
->salt_iter
= ROUNDS_BSDICRYPT
- 1;
12573 case 12500: hashes_buf
[0].salt
->salt_iter
= ROUNDS_RAR3
;
12575 case 12700: hashes_buf
[0].salt
->salt_iter
= ROUNDS_MYWALLET
;
12577 case 12800: hashes_buf
[0].salt
->salt_iter
= ROUNDS_MS_DRSR
- 1;
12579 case 12900: hashes_buf
[0].salt
->salt_iter
= ROUNDS_ANDROIDFDE_SAMSUNG
- 1;
12581 case 13000: hashes_buf
[0].salt
->salt_iter
= ROUNDS_RAR5
- 1;
12583 case 13200: hashes_buf
[0].salt
->salt_iter
= ROUNDS_AXCRYPT
;
12585 case 13400: hashes_buf
[0].salt
->salt_iter
= ROUNDS_KEEPASS
;
12587 case 13600: hashes_buf
[0].salt
->salt_iter
= ROUNDS_ZIP2
;
12589 case 13711: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_655331
;
12591 case 13712: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_655331
;
12593 case 13713: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_655331
;
12595 case 13721: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12597 case 13722: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12599 case 13723: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12601 case 13731: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12603 case 13732: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12605 case 13733: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12607 case 13741: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_327661
;
12609 case 13742: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_327661
;
12611 case 13743: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_327661
;
12613 case 13751: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12615 case 13752: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12617 case 13753: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_500000
;
12619 case 13761: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_200000
;
12621 case 13762: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_200000
;
12623 case 13763: hashes_buf
[0].salt
->salt_iter
= ROUNDS_VERACRYPT_200000
;
12630 if (show
== 1 || left
== 1)
12632 for (uint i
= 0; i
< pot_cnt
; i
++)
12634 pot_t
*pot_ptr
= &pot
[i
];
12636 hash_t
*hashes_buf
= &pot_ptr
->hash
;
12638 local_free (hashes_buf
->digest
);
12642 local_free (hashes_buf
->salt
);
12648 if (data
.quiet
== 0) log_info_nn ("");
12653 if ((keyspace
== 0) && (stdout_flag
== 0))
12655 if (hashes_cnt
== 0)
12657 log_error ("ERROR: No hashes loaded");
12664 * Sanity check for hashfile vs outfile (should not point to the same physical file)
12667 if (data
.outfile
!= NULL
)
12669 if (data
.hashfile
!= NULL
)
12672 struct stat tmpstat_outfile
;
12673 struct stat tmpstat_hashfile
;
12677 struct stat64 tmpstat_outfile
;
12678 struct stat64 tmpstat_hashfile
;
12681 FILE *tmp_outfile_fp
= fopen (data
.outfile
, "r");
12683 if (tmp_outfile_fp
)
12686 fstat (fileno (tmp_outfile_fp
), &tmpstat_outfile
);
12690 _fstat64 (fileno (tmp_outfile_fp
), &tmpstat_outfile
);
12693 fclose (tmp_outfile_fp
);
12696 FILE *tmp_hashfile_fp
= fopen (data
.hashfile
, "r");
12698 if (tmp_hashfile_fp
)
12701 fstat (fileno (tmp_hashfile_fp
), &tmpstat_hashfile
);
12705 _fstat64 (fileno (tmp_hashfile_fp
), &tmpstat_hashfile
);
12708 fclose (tmp_hashfile_fp
);
12711 if (tmp_outfile_fp
&& tmp_outfile_fp
)
12713 tmpstat_outfile
.st_mode
= 0;
12714 tmpstat_outfile
.st_nlink
= 0;
12715 tmpstat_outfile
.st_uid
= 0;
12716 tmpstat_outfile
.st_gid
= 0;
12717 tmpstat_outfile
.st_rdev
= 0;
12718 tmpstat_outfile
.st_atime
= 0;
12720 tmpstat_hashfile
.st_mode
= 0;
12721 tmpstat_hashfile
.st_nlink
= 0;
12722 tmpstat_hashfile
.st_uid
= 0;
12723 tmpstat_hashfile
.st_gid
= 0;
12724 tmpstat_hashfile
.st_rdev
= 0;
12725 tmpstat_hashfile
.st_atime
= 0;
12728 tmpstat_outfile
.st_blksize
= 0;
12729 tmpstat_outfile
.st_blocks
= 0;
12731 tmpstat_hashfile
.st_blksize
= 0;
12732 tmpstat_hashfile
.st_blocks
= 0;
12736 if (memcmp (&tmpstat_outfile
, &tmpstat_hashfile
, sizeof (struct stat
)) == 0)
12738 log_error ("ERROR: Hashfile and Outfile are not allowed to point to the same file");
12745 if (memcmp (&tmpstat_outfile
, &tmpstat_hashfile
, sizeof (struct stat64
)) == 0)
12747 log_error ("ERROR: Hashfile and Outfile are not allowed to point to the same file");
12757 * Remove duplicates
12760 if (data
.quiet
== 0) log_info_nn ("Removing duplicate hashes...");
12764 qsort (hashes_buf
, hashes_cnt
, sizeof (hash_t
), sort_by_hash
);
12768 qsort (hashes_buf
, hashes_cnt
, sizeof (hash_t
), sort_by_hash_no_salt
);
12771 uint hashes_cnt_orig
= hashes_cnt
;
12775 for (uint hashes_pos
= 1; hashes_pos
< hashes_cnt_orig
; hashes_pos
++)
12779 if (sort_by_salt (hashes_buf
[hashes_pos
].salt
, hashes_buf
[hashes_pos
- 1].salt
) == 0)
12781 if (sort_by_digest (hashes_buf
[hashes_pos
].digest
, hashes_buf
[hashes_pos
- 1].digest
) == 0) continue;
12786 if (sort_by_digest (hashes_buf
[hashes_pos
].digest
, hashes_buf
[hashes_pos
- 1].digest
) == 0) continue;
12789 if (hashes_pos
> hashes_cnt
)
12791 memcpy (&hashes_buf
[hashes_cnt
], &hashes_buf
[hashes_pos
], sizeof (hash_t
));
12801 uint potfile_remove_cracks
= 0;
12803 if (potfile_disable
== 0)
12807 hash_buf
.digest
= mymalloc (dgst_size
);
12808 hash_buf
.salt
= NULL
;
12809 hash_buf
.esalt
= NULL
;
12810 hash_buf
.hash_info
= NULL
;
12811 hash_buf
.cracked
= 0;
12815 hash_buf
.salt
= (salt_t
*) mymalloc (sizeof (salt_t
));
12820 hash_buf
.esalt
= mymalloc (esalt_size
);
12823 if (quiet
== 0) log_info_nn ("Comparing hashes with potfile entries...");
12825 // no solution for these special hash types (for instane because they use hashfile in output etc)
12826 if ((hash_mode
!= 5200) &&
12827 !((hash_mode
>= 6200) && (hash_mode
<= 6299)) &&
12828 !((hash_mode
>= 13700) && (hash_mode
<= 13799)) &&
12829 (hash_mode
!= 9000))
12831 FILE *fp
= fopen (potfile
, "rb");
12835 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
12837 // to be safe work with a copy (because of line_len loop, i etc)
12838 // moved up here because it's easier to handle continue case
12841 char *line_buf_cpy
= (char *) mymalloc (HCBUFSIZ
);
12845 char *ptr
= fgets (line_buf
, HCBUFSIZ
- 1, fp
);
12847 if (ptr
== NULL
) break;
12849 int line_len
= strlen (line_buf
);
12851 if (line_len
== 0) continue;
12853 int iter
= MAX_CUT_TRIES
;
12855 for (int i
= line_len
- 1; i
&& iter
; i
--, line_len
--)
12857 if (line_buf
[i
] != ':') continue;
12861 memset (hash_buf
.salt
, 0, sizeof (salt_t
));
12864 hash_t
*found
= NULL
;
12866 if (hash_mode
== 6800)
12868 if (i
< 64) // 64 = 16 * uint in salt_buf[]
12870 // manipulate salt_buf
12871 memcpy (hash_buf
.salt
->salt_buf
, line_buf
, i
);
12873 hash_buf
.salt
->salt_len
= i
;
12875 found
= (hash_t
*) bsearch (&hash_buf
, hashes_buf
, hashes_cnt
, sizeof (hash_t
), sort_by_hash_t_salt
);
12878 else if (hash_mode
== 2500)
12880 if (i
< 64) // 64 = 16 * uint in salt_buf[]
12882 // here we have in line_buf: ESSID:MAC1:MAC2 (without the plain)
12883 // manipulate salt_buf
12885 memcpy (line_buf_cpy
, line_buf
, i
);
12887 char *mac2_pos
= strrchr (line_buf_cpy
, ':');
12889 if (mac2_pos
== NULL
) continue;
12894 if (strlen (mac2_pos
) != 12) continue;
12896 char *mac1_pos
= strrchr (line_buf_cpy
, ':');
12898 if (mac1_pos
== NULL
) continue;
12903 if (strlen (mac1_pos
) != 12) continue;
12905 uint essid_length
= mac1_pos
- line_buf_cpy
- 1;
12907 // here we need the ESSID
12908 memcpy (hash_buf
.salt
->salt_buf
, line_buf_cpy
, essid_length
);
12910 hash_buf
.salt
->salt_len
= essid_length
;
12912 found
= (hash_t
*) bsearch (&hash_buf
, hashes_buf
, hashes_cnt
, sizeof (hash_t
), sort_by_hash_t_salt_hccap
);
12916 wpa_t
*wpa
= (wpa_t
*) found
->esalt
;
12918 // compare hex string(s) vs binary MAC address(es)
12920 for (uint i
= 0, j
= 0; i
< 6; i
++, j
+= 2)
12922 if (wpa
->orig_mac1
[i
] != hex_to_u8 ((const u8
*) &mac1_pos
[j
]))
12931 if (!found
) continue;
12933 for (uint i
= 0, j
= 0; i
< 6; i
++, j
+= 2)
12935 if (wpa
->orig_mac2
[i
] != hex_to_u8 ((const u8
*) &mac2_pos
[j
]))
12947 int parser_status
= parse_func (line_buf
, line_len
- 1, &hash_buf
);
12949 if (parser_status
== PARSER_OK
)
12953 found
= (hash_t
*) bsearch (&hash_buf
, hashes_buf
, hashes_cnt
, sizeof (hash_t
), sort_by_hash
);
12957 found
= (hash_t
*) bsearch (&hash_buf
, hashes_buf
, hashes_cnt
, sizeof (hash_t
), sort_by_hash_no_salt
);
12962 if (found
== NULL
) continue;
12964 if (!found
->cracked
) potfile_remove_cracks
++;
12966 found
->cracked
= 1;
12974 myfree (line_buf_cpy
);
12984 local_free (hash_buf
.esalt
);
12989 local_free (hash_buf
.salt
);
12992 local_free (hash_buf
.digest
);
12996 * Now generate all the buffers required for later
12999 void *digests_buf_new
= (void *) mycalloc (hashes_avail
, dgst_size
);
13001 salt_t
*salts_buf_new
= NULL
;
13002 void *esalts_buf_new
= NULL
;
13006 salts_buf_new
= (salt_t
*) mycalloc (hashes_avail
, sizeof (salt_t
));
13010 esalts_buf_new
= (void *) mycalloc (hashes_avail
, esalt_size
);
13015 salts_buf_new
= (salt_t
*) mycalloc (1, sizeof (salt_t
));
13018 if (data
.quiet
== 0) log_info_nn ("Structuring salts for cracking task...");
13020 uint digests_cnt
= hashes_cnt
;
13021 uint digests_done
= 0;
13023 size_t size_digests
= digests_cnt
* dgst_size
;
13024 size_t size_shown
= digests_cnt
* sizeof (uint
);
13026 uint
*digests_shown
= (uint
*) mymalloc (size_shown
);
13027 uint
*digests_shown_tmp
= (uint
*) mymalloc (size_shown
);
13029 uint salts_cnt
= 0;
13030 uint salts_done
= 0;
13032 hashinfo_t
**hash_info
= NULL
;
13034 if ((username
&& (remove
|| show
)) || (opts_type
& OPTS_TYPE_HASH_COPY
))
13036 hash_info
= (hashinfo_t
**) mymalloc (hashes_cnt
* sizeof (hashinfo_t
*));
13038 if (username
&& (remove
|| show
))
13042 for (user_pos
= 0; user_pos
< hashes_cnt
; user_pos
++)
13044 hash_info
[user_pos
] = (hashinfo_t
*) mycalloc (hashes_cnt
, sizeof (hashinfo_t
));
13046 hash_info
[user_pos
]->user
= (user_t
*) mymalloc (sizeof (user_t
));
13051 uint
*salts_shown
= (uint
*) mymalloc (size_shown
);
13056 // copied from inner loop
13058 salt_buf
= &salts_buf_new
[salts_cnt
];
13060 memcpy (salt_buf
, hashes_buf
[0].salt
, sizeof (salt_t
));
13064 memcpy (((char *) esalts_buf_new
) + (salts_cnt
* esalt_size
), hashes_buf
[0].esalt
, esalt_size
);
13067 salt_buf
->digests_cnt
= 0;
13068 salt_buf
->digests_done
= 0;
13069 salt_buf
->digests_offset
= 0;
13074 if (hashes_buf
[0].cracked
== 1)
13076 digests_shown
[0] = 1;
13080 salt_buf
->digests_done
++;
13083 salt_buf
->digests_cnt
++;
13085 memcpy (((char *) digests_buf_new
) + (0 * dgst_size
), hashes_buf
[0].digest
, dgst_size
);
13087 if ((username
&& (remove
|| show
)) || (opts_type
& OPTS_TYPE_HASH_COPY
))
13089 hash_info
[0] = hashes_buf
[0].hash_info
;
13092 // copy from inner loop
13094 for (uint hashes_pos
= 1; hashes_pos
< hashes_cnt
; hashes_pos
++)
13098 if (sort_by_salt (hashes_buf
[hashes_pos
].salt
, hashes_buf
[hashes_pos
- 1].salt
) != 0)
13100 salt_buf
= &salts_buf_new
[salts_cnt
];
13102 memcpy (salt_buf
, hashes_buf
[hashes_pos
].salt
, sizeof (salt_t
));
13106 memcpy (((char *) esalts_buf_new
) + (salts_cnt
* esalt_size
), hashes_buf
[hashes_pos
].esalt
, esalt_size
);
13109 salt_buf
->digests_cnt
= 0;
13110 salt_buf
->digests_done
= 0;
13111 salt_buf
->digests_offset
= hashes_pos
;
13117 if (hashes_buf
[hashes_pos
].cracked
== 1)
13119 digests_shown
[hashes_pos
] = 1;
13123 salt_buf
->digests_done
++;
13126 salt_buf
->digests_cnt
++;
13128 memcpy (((char *) digests_buf_new
) + (hashes_pos
* dgst_size
), hashes_buf
[hashes_pos
].digest
, dgst_size
);
13130 if ((username
&& (remove
|| show
)) || (opts_type
& OPTS_TYPE_HASH_COPY
))
13132 hash_info
[hashes_pos
] = hashes_buf
[hashes_pos
].hash_info
;
13136 for (uint salt_pos
= 0; salt_pos
< salts_cnt
; salt_pos
++)
13138 salt_t
*salt_buf
= &salts_buf_new
[salt_pos
];
13140 if (salt_buf
->digests_done
== salt_buf
->digests_cnt
)
13142 salts_shown
[salt_pos
] = 1;
13147 if (salts_done
== salts_cnt
) data
.devices_status
= STATUS_CRACKED
;
13150 local_free (digests_buf
);
13151 local_free (salts_buf
);
13152 local_free (esalts_buf
);
13154 digests_buf
= digests_buf_new
;
13155 salts_buf
= salts_buf_new
;
13156 esalts_buf
= esalts_buf_new
;
13158 local_free (hashes_buf
);
13161 * special modification not set from parser
13166 case 6211: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13167 case 6212: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13168 case 6213: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13169 case 6221: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13170 case 6222: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13171 case 6223: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13172 case 6231: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13173 case 6232: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13174 case 6233: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13175 case 6241: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13176 case 6242: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13177 case 6243: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13178 case 13711: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13179 case 13712: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13180 case 13713: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13181 case 13721: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13182 case 13722: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13183 case 13723: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13184 case 13731: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13185 case 13732: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13186 case 13733: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13187 case 13741: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13188 case 13742: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13189 case 13743: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13190 case 13751: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13191 case 13752: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13192 case 13753: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13193 case 13761: salts_buf
->truecrypt_mdlen
= 1 * 512; break;
13194 case 13762: salts_buf
->truecrypt_mdlen
= 2 * 512; break;
13195 case 13763: salts_buf
->truecrypt_mdlen
= 3 * 512; break;
13198 if (truecrypt_keyfiles
)
13200 uint
*keyfile_buf
= ((tc_t
*) esalts_buf
)->keyfile_buf
;
13202 char *keyfiles
= strdup (truecrypt_keyfiles
);
13204 char *keyfile
= strtok (keyfiles
, ",");
13208 truecrypt_crc32 (keyfile
, (u8
*) keyfile_buf
);
13210 } while ((keyfile
= strtok (NULL
, ",")) != NULL
);
13215 if (veracrypt_keyfiles
)
13217 uint
*keyfile_buf
= ((tc_t
*) esalts_buf
)->keyfile_buf
;
13219 char *keyfiles
= strdup (veracrypt_keyfiles
);
13221 char *keyfile
= strtok (keyfiles
, ",");
13225 truecrypt_crc32 (keyfile
, (u8
*) keyfile_buf
);
13227 } while ((keyfile
= strtok (NULL
, ",")) != NULL
);
13232 data
.digests_cnt
= digests_cnt
;
13233 data
.digests_done
= digests_done
;
13234 data
.digests_buf
= digests_buf
;
13235 data
.digests_shown
= digests_shown
;
13236 data
.digests_shown_tmp
= digests_shown_tmp
;
13238 data
.salts_cnt
= salts_cnt
;
13239 data
.salts_done
= salts_done
;
13240 data
.salts_buf
= salts_buf
;
13241 data
.salts_shown
= salts_shown
;
13243 data
.esalts_buf
= esalts_buf
;
13244 data
.hash_info
= hash_info
;
13247 * Automatic Optimizers
13250 if (salts_cnt
== 1)
13251 opti_type
|= OPTI_TYPE_SINGLE_SALT
;
13253 if (digests_cnt
== 1)
13254 opti_type
|= OPTI_TYPE_SINGLE_HASH
;
13256 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
13257 opti_type
|= OPTI_TYPE_NOT_ITERATED
;
13259 if (attack_mode
== ATTACK_MODE_BF
)
13260 opti_type
|= OPTI_TYPE_BRUTE_FORCE
;
13262 data
.opti_type
= opti_type
;
13264 if (opti_type
& OPTI_TYPE_BRUTE_FORCE
)
13266 if (opti_type
& OPTI_TYPE_SINGLE_HASH
)
13268 if (opti_type
& OPTI_TYPE_APPENDED_SALT
)
13270 if (opts_type
& OPTS_TYPE_ST_ADD80
)
13272 opts_type
&= ~OPTS_TYPE_ST_ADD80
;
13273 opts_type
|= OPTS_TYPE_PT_ADD80
;
13276 if (opts_type
& OPTS_TYPE_ST_ADDBITS14
)
13278 opts_type
&= ~OPTS_TYPE_ST_ADDBITS14
;
13279 opts_type
|= OPTS_TYPE_PT_ADDBITS14
;
13282 if (opts_type
& OPTS_TYPE_ST_ADDBITS15
)
13284 opts_type
&= ~OPTS_TYPE_ST_ADDBITS15
;
13285 opts_type
|= OPTS_TYPE_PT_ADDBITS15
;
13292 * Some algorithm, like descrypt, can benefit from JIT compilation
13295 int force_jit_compilation
= -1;
13297 if (hash_mode
== 8900)
13299 force_jit_compilation
= 8900;
13301 else if (hash_mode
== 9300)
13303 force_jit_compilation
= 8900;
13305 else if (hash_mode
== 1500 && attack_mode
== ATTACK_MODE_BF
&& data
.salts_cnt
== 1)
13307 force_jit_compilation
= 1500;
13311 * generate bitmap tables
13314 const uint bitmap_shift1
= 5;
13315 const uint bitmap_shift2
= 13;
13317 if (bitmap_max
< bitmap_min
) bitmap_max
= bitmap_min
;
13319 uint
*bitmap_s1_a
= (uint
*) mymalloc ((1 << bitmap_max
) * sizeof (uint
));
13320 uint
*bitmap_s1_b
= (uint
*) mymalloc ((1 << bitmap_max
) * sizeof (uint
));
13321 uint
*bitmap_s1_c
= (uint
*) mymalloc ((1 << bitmap_max
) * sizeof (uint
));
13322 uint
*bitmap_s1_d
= (uint
*) mymalloc ((1 << bitmap_max
) * sizeof (uint
));
13323 uint
*bitmap_s2_a
= (uint
*) mymalloc ((1 << bitmap_max
) * sizeof (uint
));
13324 uint
*bitmap_s2_b
= (uint
*) mymalloc ((1 << bitmap_max
) * sizeof (uint
));
13325 uint
*bitmap_s2_c
= (uint
*) mymalloc ((1 << bitmap_max
) * sizeof (uint
));
13326 uint
*bitmap_s2_d
= (uint
*) mymalloc ((1 << bitmap_max
) * sizeof (uint
));
13333 for (bitmap_bits
= bitmap_min
; bitmap_bits
< bitmap_max
; bitmap_bits
++)
13335 if (data
.quiet
== 0) log_info_nn ("Generating bitmap tables with %u bits...", bitmap_bits
);
13337 bitmap_nums
= 1 << bitmap_bits
;
13339 bitmap_mask
= bitmap_nums
- 1;
13341 bitmap_size
= bitmap_nums
* sizeof (uint
);
13343 if ((hashes_cnt
& bitmap_mask
) == hashes_cnt
) break;
13345 if (generate_bitmaps (digests_cnt
, dgst_size
, bitmap_shift1
, (char *) data
.digests_buf
, bitmap_mask
, bitmap_size
, bitmap_s1_a
, bitmap_s1_b
, bitmap_s1_c
, bitmap_s1_d
, digests_cnt
/ 2) == 0x7fffffff) continue;
13346 if (generate_bitmaps (digests_cnt
, dgst_size
, bitmap_shift2
, (char *) data
.digests_buf
, bitmap_mask
, bitmap_size
, bitmap_s1_a
, bitmap_s1_b
, bitmap_s1_c
, bitmap_s1_d
, digests_cnt
/ 2) == 0x7fffffff) continue;
13351 bitmap_nums
= 1 << bitmap_bits
;
13353 bitmap_mask
= bitmap_nums
- 1;
13355 bitmap_size
= bitmap_nums
* sizeof (uint
);
13357 generate_bitmaps (digests_cnt
, dgst_size
, bitmap_shift1
, (char *) data
.digests_buf
, bitmap_mask
, bitmap_size
, bitmap_s1_a
, bitmap_s1_b
, bitmap_s1_c
, bitmap_s1_d
, -1);
13358 generate_bitmaps (digests_cnt
, dgst_size
, bitmap_shift2
, (char *) data
.digests_buf
, bitmap_mask
, bitmap_size
, bitmap_s2_a
, bitmap_s2_b
, bitmap_s2_c
, bitmap_s2_d
, -1);
13361 * prepare quick rule
13364 data
.rule_buf_l
= rule_buf_l
;
13365 data
.rule_buf_r
= rule_buf_r
;
13367 int rule_len_l
= (int) strlen (rule_buf_l
);
13368 int rule_len_r
= (int) strlen (rule_buf_r
);
13370 data
.rule_len_l
= rule_len_l
;
13371 data
.rule_len_r
= rule_len_r
;
13377 uint
*all_kernel_rules_cnt
= NULL
;
13379 kernel_rule_t
**all_kernel_rules_buf
= NULL
;
13383 all_kernel_rules_cnt
= (uint
*) mycalloc (rp_files_cnt
, sizeof (uint
));
13385 all_kernel_rules_buf
= (kernel_rule_t
**) mycalloc (rp_files_cnt
, sizeof (kernel_rule_t
*));
13388 char *rule_buf
= (char *) mymalloc (HCBUFSIZ
);
13392 for (uint i
= 0; i
< rp_files_cnt
; i
++)
13394 uint kernel_rules_avail
= 0;
13396 uint kernel_rules_cnt
= 0;
13398 kernel_rule_t
*kernel_rules_buf
= NULL
;
13400 char *rp_file
= rp_files
[i
];
13402 char in
[BLOCK_SIZE
] = { 0 };
13403 char out
[BLOCK_SIZE
] = { 0 };
13407 uint rule_line
= 0;
13409 if ((fp
= fopen (rp_file
, "rb")) == NULL
)
13411 log_error ("ERROR: %s: %s", rp_file
, strerror (errno
));
13418 memset (rule_buf
, 0, HCBUFSIZ
);
13420 rule_len
= fgetl (fp
, rule_buf
);
13424 if (rule_len
== 0) continue;
13426 if (rule_buf
[0] == '#') continue;
13428 if (kernel_rules_avail
== kernel_rules_cnt
)
13430 kernel_rules_buf
= (kernel_rule_t
*) myrealloc (kernel_rules_buf
, kernel_rules_avail
* sizeof (kernel_rule_t
), INCR_RULES
* sizeof (kernel_rule_t
));
13432 kernel_rules_avail
+= INCR_RULES
;
13435 memset (in
, 0, BLOCK_SIZE
);
13436 memset (out
, 0, BLOCK_SIZE
);
13438 int result
= _old_apply_rule (rule_buf
, rule_len
, in
, 1, out
);
13442 log_info ("WARNING: Skipping invalid or unsupported rule in file %s in line %u: %s", rp_file
, rule_line
, rule_buf
);
13447 if (cpu_rule_to_kernel_rule (rule_buf
, rule_len
, &kernel_rules_buf
[kernel_rules_cnt
]) == -1)
13449 log_info ("WARNING: Cannot convert rule for use on device in file %s in line %u: %s", rp_file
, rule_line
, rule_buf
);
13451 memset (&kernel_rules_buf
[kernel_rules_cnt
], 0, sizeof (kernel_rule_t
)); // needs to be cleared otherwise we could have some remaining data
13457 if (rulefind (&kernel_rules_buf[kernel_rules_cnt], kernel_rules_buf, kernel_rules_cnt, sizeof (kernel_rule_t), sort_by_kernel_rule))
13459 log_info ("Duplicate rule for use on device in file %s in line %u: %s", rp_file, rule_line, rule_buf);
13465 kernel_rules_cnt
++;
13470 all_kernel_rules_cnt
[i
] = kernel_rules_cnt
;
13472 all_kernel_rules_buf
[i
] = kernel_rules_buf
;
13476 * merge rules or automatic rule generator
13479 uint kernel_rules_cnt
= 0;
13481 kernel_rule_t
*kernel_rules_buf
= NULL
;
13483 if (attack_mode
== ATTACK_MODE_STRAIGHT
)
13487 kernel_rules_cnt
= 1;
13489 uint
*repeats
= (uint
*) mycalloc (rp_files_cnt
+ 1, sizeof (uint
));
13491 repeats
[0] = kernel_rules_cnt
;
13493 for (uint i
= 0; i
< rp_files_cnt
; i
++)
13495 kernel_rules_cnt
*= all_kernel_rules_cnt
[i
];
13497 repeats
[i
+ 1] = kernel_rules_cnt
;
13500 kernel_rules_buf
= (kernel_rule_t
*) mycalloc (kernel_rules_cnt
, sizeof (kernel_rule_t
));
13502 memset (kernel_rules_buf
, 0, kernel_rules_cnt
* sizeof (kernel_rule_t
));
13504 for (uint i
= 0; i
< kernel_rules_cnt
; i
++)
13508 kernel_rule_t
*out
= &kernel_rules_buf
[i
];
13510 for (uint j
= 0; j
< rp_files_cnt
; j
++)
13512 uint in_off
= (i
/ repeats
[j
]) % all_kernel_rules_cnt
[j
];
13515 kernel_rule_t
*in
= &all_kernel_rules_buf
[j
][in_off
];
13517 for (in_pos
= 0; in
->cmds
[in_pos
]; in_pos
++, out_pos
++)
13519 if (out_pos
== RULES_MAX
- 1)
13521 // log_info ("WARNING: Truncating chaining of rule %d and rule %d as maximum number of function calls per rule exceeded", i, in_off);
13526 out
->cmds
[out_pos
] = in
->cmds
[in_pos
];
13531 local_free (repeats
);
13535 uint kernel_rules_avail
= 0;
13537 while (kernel_rules_cnt
< rp_gen
)
13539 if (kernel_rules_avail
== kernel_rules_cnt
)
13541 kernel_rules_buf
= (kernel_rule_t
*) myrealloc (kernel_rules_buf
, kernel_rules_avail
* sizeof (kernel_rule_t
), INCR_RULES
* sizeof (kernel_rule_t
));
13543 kernel_rules_avail
+= INCR_RULES
;
13546 memset (rule_buf
, 0, HCBUFSIZ
);
13548 rule_len
= (int) generate_random_rule (rule_buf
, rp_gen_func_min
, rp_gen_func_max
);
13550 if (cpu_rule_to_kernel_rule (rule_buf
, rule_len
, &kernel_rules_buf
[kernel_rules_cnt
]) == -1) continue;
13552 kernel_rules_cnt
++;
13560 * generate NOP rules
13563 if (kernel_rules_cnt
== 0)
13565 kernel_rules_buf
= (kernel_rule_t
*) mymalloc (sizeof (kernel_rule_t
));
13567 kernel_rules_buf
[kernel_rules_cnt
].cmds
[0] = RULE_OP_MANGLE_NOOP
;
13569 kernel_rules_cnt
++;
13572 data
.kernel_rules_cnt
= kernel_rules_cnt
;
13573 data
.kernel_rules_buf
= kernel_rules_buf
;
13576 * OpenCL platforms: detect
13579 cl_platform_id platforms
[CL_PLATFORMS_MAX
] = { 0 };
13580 cl_device_id platform_devices
[DEVICES_MAX
] = { 0 };
13582 cl_uint platforms_cnt
= 0;
13583 cl_uint platform_devices_cnt
= 0;
13587 hc_clGetPlatformIDs (data
.ocl
, CL_PLATFORMS_MAX
, platforms
, &platforms_cnt
);
13589 if (platforms_cnt
== 0)
13592 log_info ("ATTENTION! No OpenCL compatible platform found");
13594 log_info ("You're probably missing the OpenCL runtime installation");
13595 log_info (" AMD users require AMD drivers 14.9 or later (recommended 15.12 or later)");
13596 log_info (" Intel users require Intel OpenCL Runtime 14.2 or later (recommended 15.1 or later)");
13597 log_info (" NVidia users require NVidia drivers 346.59 or later (recommended 361.x or later)");
13603 if (opencl_platforms_filter
!= (uint
) -1)
13605 uint platform_cnt_mask
= ~(((uint
) -1 >> platforms_cnt
) << platforms_cnt
);
13607 if (opencl_platforms_filter
> platform_cnt_mask
)
13609 log_error ("ERROR: The platform selected by the --opencl-platforms parameter is larger than the number of available platforms (%d)", platforms_cnt
);
13617 * OpenCL device types:
13618 * In case the user did not specify --opencl-device-types and the user runs hashcat in a system with only a CPU only he probably want to use that CPU.
13619 * In such a case, automatically enable CPU device type support, since it's disabled by default.
13622 if (opencl_device_types
== NULL
)
13624 cl_device_type device_types_all
= 0;
13626 for (uint platform_id
= 0; platform_id
< platforms_cnt
; platform_id
++)
13628 if ((opencl_platforms_filter
& (1 << platform_id
)) == 0) continue;
13630 cl_platform_id platform
= platforms
[platform_id
];
13632 hc_clGetDeviceIDs (data
.ocl
, platform
, CL_DEVICE_TYPE_ALL
, DEVICES_MAX
, platform_devices
, &platform_devices_cnt
);
13634 for (uint platform_devices_id
= 0; platform_devices_id
< platform_devices_cnt
; platform_devices_id
++)
13636 cl_device_id device
= platform_devices
[platform_devices_id
];
13638 cl_device_type device_type
;
13640 hc_clGetDeviceInfo (data
.ocl
, device
, CL_DEVICE_TYPE
, sizeof (device_type
), &device_type
, NULL
);
13642 device_types_all
|= device_type
;
13646 if ((device_types_all
& (CL_DEVICE_TYPE_GPU
| CL_DEVICE_TYPE_ACCELERATOR
)) == 0)
13648 device_types_filter
|= CL_DEVICE_TYPE_CPU
;
13653 * OpenCL devices: simply push all devices from all platforms into the same device array
13657 int need_nvapi
= 0;
13659 int need_xnvctrl
= 0;
13661 hc_device_param_t
*devices_param
= (hc_device_param_t
*) mycalloc (DEVICES_MAX
, sizeof (hc_device_param_t
));
13663 data
.devices_param
= devices_param
;
13665 uint devices_cnt
= 0;
13667 uint devices_active
= 0;
13669 for (uint platform_id
= 0; platform_id
< platforms_cnt
; platform_id
++)
13671 if ((opencl_platforms_filter
& (1 << platform_id
)) == 0) continue;
13673 cl_platform_id platform
= platforms
[platform_id
];
13675 hc_clGetDeviceIDs (data
.ocl
, platform
, CL_DEVICE_TYPE_ALL
, DEVICES_MAX
, platform_devices
, &platform_devices_cnt
);
13677 char platform_vendor
[INFOSZ
] = { 0 };
13679 hc_clGetPlatformInfo (data
.ocl
, platform
, CL_PLATFORM_VENDOR
, sizeof (platform_vendor
), platform_vendor
, NULL
);
13681 // find our own platform vendor because pocl and mesa are pushing original vendor_id through opencl
13682 // this causes trouble with vendor id based macros
13683 // we'll assign generic to those without special optimization available
13685 cl_uint platform_vendor_id
= 0;
13687 if (strcmp (platform_vendor
, CL_VENDOR_AMD
) == 0)
13689 platform_vendor_id
= VENDOR_ID_AMD
;
13691 else if (strcmp (platform_vendor
, CL_VENDOR_AMD_USE_INTEL
) == 0)
13693 platform_vendor_id
= VENDOR_ID_AMD_USE_INTEL
;
13695 else if (strcmp (platform_vendor
, CL_VENDOR_APPLE
) == 0)
13697 platform_vendor_id
= VENDOR_ID_APPLE
;
13699 else if (strcmp (platform_vendor
, CL_VENDOR_INTEL_BEIGNET
) == 0)
13701 platform_vendor_id
= VENDOR_ID_INTEL_BEIGNET
;
13703 else if (strcmp (platform_vendor
, CL_VENDOR_INTEL_SDK
) == 0)
13705 platform_vendor_id
= VENDOR_ID_INTEL_SDK
;
13707 else if (strcmp (platform_vendor
, CL_VENDOR_MESA
) == 0)
13709 platform_vendor_id
= VENDOR_ID_MESA
;
13711 else if (strcmp (platform_vendor
, CL_VENDOR_NV
) == 0)
13713 platform_vendor_id
= VENDOR_ID_NV
;
13715 else if (strcmp (platform_vendor
, CL_VENDOR_POCL
) == 0)
13717 platform_vendor_id
= VENDOR_ID_POCL
;
13721 platform_vendor_id
= VENDOR_ID_GENERIC
;
13724 for (uint platform_devices_id
= 0; platform_devices_id
< platform_devices_cnt
; platform_devices_id
++)
13726 size_t param_value_size
= 0;
13728 const uint device_id
= devices_cnt
;
13730 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
13732 device_param
->platform_vendor_id
= platform_vendor_id
;
13734 device_param
->device
= platform_devices
[platform_devices_id
];
13736 device_param
->device_id
= device_id
;
13738 device_param
->platform_devices_id
= platform_devices_id
;
13742 cl_device_type device_type
;
13744 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_TYPE
, sizeof (device_type
), &device_type
, NULL
);
13746 device_type
&= ~CL_DEVICE_TYPE_DEFAULT
;
13748 device_param
->device_type
= device_type
;
13752 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_NAME
, 0, NULL
, ¶m_value_size
);
13754 char *device_name
= (char *) mymalloc (param_value_size
);
13756 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_NAME
, param_value_size
, device_name
, NULL
);
13758 device_param
->device_name
= device_name
;
13762 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_VENDOR
, 0, NULL
, ¶m_value_size
);
13764 char *device_vendor
= (char *) mymalloc (param_value_size
);
13766 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_VENDOR
, param_value_size
, device_vendor
, NULL
);
13768 device_param
->device_vendor
= device_vendor
;
13770 cl_uint device_vendor_id
= 0;
13772 if (strcmp (device_vendor
, CL_VENDOR_AMD
) == 0)
13774 device_vendor_id
= VENDOR_ID_AMD
;
13776 else if (strcmp (device_vendor
, CL_VENDOR_AMD_USE_INTEL
) == 0)
13778 device_vendor_id
= VENDOR_ID_AMD_USE_INTEL
;
13780 else if (strcmp (device_vendor
, CL_VENDOR_APPLE
) == 0)
13782 device_vendor_id
= VENDOR_ID_APPLE
;
13784 else if (strcmp (device_vendor
, CL_VENDOR_INTEL_BEIGNET
) == 0)
13786 device_vendor_id
= VENDOR_ID_INTEL_BEIGNET
;
13788 else if (strcmp (device_vendor
, CL_VENDOR_INTEL_SDK
) == 0)
13790 device_vendor_id
= VENDOR_ID_INTEL_SDK
;
13792 else if (strcmp (device_vendor
, CL_VENDOR_MESA
) == 0)
13794 device_vendor_id
= VENDOR_ID_MESA
;
13796 else if (strcmp (device_vendor
, CL_VENDOR_NV
) == 0)
13798 device_vendor_id
= VENDOR_ID_NV
;
13800 else if (strcmp (device_vendor
, CL_VENDOR_POCL
) == 0)
13802 device_vendor_id
= VENDOR_ID_POCL
;
13806 device_vendor_id
= VENDOR_ID_GENERIC
;
13809 device_param
->device_vendor_id
= device_vendor_id
;
13813 tuning_db_entry_t
*tuningdb_entry
= tuning_db_search (tuning_db
, device_param
, attack_mode
, hash_mode
);
13817 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_VERSION
, 0, NULL
, ¶m_value_size
);
13819 char *device_version
= (char *) mymalloc (param_value_size
);
13821 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_VERSION
, param_value_size
, device_version
, NULL
);
13823 device_param
->device_version
= device_version
;
13825 // device_opencl_version
13827 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_OPENCL_C_VERSION
, 0, NULL
, ¶m_value_size
);
13829 char *device_opencl_version
= (char *) mymalloc (param_value_size
);
13831 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_OPENCL_C_VERSION
, param_value_size
, device_opencl_version
, NULL
);
13833 device_param
->opencl_v12
= device_opencl_version
[9] > '1' || device_opencl_version
[11] >= '2';
13835 myfree (device_opencl_version
);
13839 cl_uint vector_width
;
13841 if (opencl_vector_width_chgd
== 0)
13843 if (tuningdb_entry
== NULL
|| tuningdb_entry
->vector_width
== -1)
13845 if (opti_type
& OPTI_TYPE_USES_BITS_64
)
13847 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_NATIVE_VECTOR_WIDTH_LONG
, sizeof (vector_width
), &vector_width
, NULL
);
13851 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_NATIVE_VECTOR_WIDTH_INT
, sizeof (vector_width
), &vector_width
, NULL
);
13856 vector_width
= (cl_uint
) tuningdb_entry
->vector_width
;
13861 vector_width
= opencl_vector_width
;
13864 if (vector_width
> 16) vector_width
= 16;
13866 device_param
->vector_width
= vector_width
;
13868 // max_compute_units
13870 cl_uint device_processors
;
13872 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_MAX_COMPUTE_UNITS
, sizeof (device_processors
), &device_processors
, NULL
);
13874 device_param
->device_processors
= device_processors
;
13876 // device_maxmem_alloc
13877 // note we'll limit to 2gb, otherwise this causes all kinds of weird errors because of possible integer overflows in opencl runtimes
13879 cl_ulong device_maxmem_alloc
;
13881 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_MAX_MEM_ALLOC_SIZE
, sizeof (device_maxmem_alloc
), &device_maxmem_alloc
, NULL
);
13883 device_param
->device_maxmem_alloc
= MIN (device_maxmem_alloc
, 0x7fffffff);
13885 // device_global_mem
13887 cl_ulong device_global_mem
;
13889 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_GLOBAL_MEM_SIZE
, sizeof (device_global_mem
), &device_global_mem
, NULL
);
13891 device_param
->device_global_mem
= device_global_mem
;
13893 // max_work_group_size
13895 size_t device_maxworkgroup_size
;
13897 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_MAX_WORK_GROUP_SIZE
, sizeof (device_maxworkgroup_size
), &device_maxworkgroup_size
, NULL
);
13899 device_param
->device_maxworkgroup_size
= device_maxworkgroup_size
;
13901 // max_clock_frequency
13903 cl_uint device_maxclock_frequency
;
13905 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_MAX_CLOCK_FREQUENCY
, sizeof (device_maxclock_frequency
), &device_maxclock_frequency
, NULL
);
13907 device_param
->device_maxclock_frequency
= device_maxclock_frequency
;
13909 // device_endian_little
13911 cl_bool device_endian_little
;
13913 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_ENDIAN_LITTLE
, sizeof (device_endian_little
), &device_endian_little
, NULL
);
13915 if (device_endian_little
== CL_FALSE
)
13917 log_info ("Device #%u: WARNING: not little endian device", device_id
+ 1);
13919 device_param
->skipped
= 1;
13922 // device_available
13924 cl_bool device_available
;
13926 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_AVAILABLE
, sizeof (device_available
), &device_available
, NULL
);
13928 if (device_available
== CL_FALSE
)
13930 log_info ("Device #%u: WARNING: device not available", device_id
+ 1);
13932 device_param
->skipped
= 1;
13935 // device_compiler_available
13937 cl_bool device_compiler_available
;
13939 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_COMPILER_AVAILABLE
, sizeof (device_compiler_available
), &device_compiler_available
, NULL
);
13941 if (device_compiler_available
== CL_FALSE
)
13943 log_info ("Device #%u: WARNING: device no compiler available", device_id
+ 1);
13945 device_param
->skipped
= 1;
13948 // device_execution_capabilities
13950 cl_device_exec_capabilities device_execution_capabilities
;
13952 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_EXECUTION_CAPABILITIES
, sizeof (device_execution_capabilities
), &device_execution_capabilities
, NULL
);
13954 if ((device_execution_capabilities
& CL_EXEC_KERNEL
) == 0)
13956 log_info ("Device #%u: WARNING: device does not support executing kernels", device_id
+ 1);
13958 device_param
->skipped
= 1;
13961 // device_extensions
13963 size_t device_extensions_size
;
13965 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_EXTENSIONS
, 0, NULL
, &device_extensions_size
);
13967 char *device_extensions
= mymalloc (device_extensions_size
+ 1);
13969 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_EXTENSIONS
, device_extensions_size
, device_extensions
, NULL
);
13971 if (strstr (device_extensions
, "base_atomics") == 0)
13973 log_info ("Device #%u: WARNING: device does not support base atomics", device_id
+ 1);
13975 device_param
->skipped
= 1;
13978 if (strstr (device_extensions
, "byte_addressable_store") == 0)
13980 log_info ("Device #%u: WARNING: device does not support byte addressable store", device_id
+ 1);
13982 device_param
->skipped
= 1;
13985 myfree (device_extensions
);
13987 // device_local_mem_size
13989 cl_ulong device_local_mem_size
;
13991 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_LOCAL_MEM_SIZE
, sizeof (device_local_mem_size
), &device_local_mem_size
, NULL
);
13993 if (device_local_mem_size
< 32768)
13995 log_info ("Device #%u: WARNING: device local mem size is too small", device_id
+ 1);
13997 device_param
->skipped
= 1;
14000 // If there's both an Intel CPU and an AMD OpenCL runtime it's a tricky situation
14001 // Both platforms support CPU device types and therefore both will try to use 100% of the physical resources
14002 // This results in both utilizing it for 50%
14003 // However, Intel has much better SIMD control over their own hardware
14004 // It makes sense to give them full control over their own hardware
14006 if (device_type
& CL_DEVICE_TYPE_CPU
)
14008 if (device_param
->device_vendor_id
== VENDOR_ID_AMD_USE_INTEL
)
14010 if (data
.force
== 0)
14012 if (algorithm_pos
== 0)
14014 log_info ("Device #%u: WARNING: not native intel opencl runtime, expect massive speed loss", device_id
+ 1);
14015 log_info (" You can use --force to override this but do not post error reports if you do so");
14018 device_param
->skipped
= 1;
14025 device_param
->skipped
|= ((devices_filter
& (1 << device_id
)) == 0);
14026 device_param
->skipped
|= ((device_types_filter
& (device_type
)) == 0);
14030 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DRIVER_VERSION
, 0, NULL
, ¶m_value_size
);
14032 char *driver_version
= (char *) mymalloc (param_value_size
);
14034 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DRIVER_VERSION
, param_value_size
, driver_version
, NULL
);
14036 device_param
->driver_version
= driver_version
;
14038 // device_name_chksum
14040 char *device_name_chksum
= (char *) mymalloc (INFOSZ
);
14043 snprintf (device_name_chksum
, INFOSZ
- 1, "%u-%u-%u-%s-%s-%s-%u", 64, device_param
->platform_vendor_id
, device_param
->vector_width
, device_param
->device_name
, device_param
->device_version
, device_param
->driver_version
, COMPTIME
);
14045 snprintf (device_name_chksum
, INFOSZ
- 1, "%u-%u-%u-%s-%s-%s-%u", 32, device_param
->platform_vendor_id
, device_param
->vector_width
, device_param
->device_name
, device_param
->device_version
, device_param
->driver_version
, COMPTIME
);
14048 uint device_name_digest
[4] = { 0 };
14050 md5_64 ((uint
*) device_name_chksum
, device_name_digest
);
14052 snprintf (device_name_chksum
, INFOSZ
- 1, "%08x", device_name_digest
[0]);
14054 device_param
->device_name_chksum
= device_name_chksum
;
14056 // device_processor_cores
14058 if (device_param
->device_type
& CL_DEVICE_TYPE_GPU
)
14060 if ((device_param
->platform_vendor_id
== VENDOR_ID_AMD
) && (device_param
->device_vendor_id
== VENDOR_ID_AMD
))
14065 if ((device_param
->platform_vendor_id
== VENDOR_ID_NV
) && (device_param
->device_vendor_id
== VENDOR_ID_NV
))
14079 // device_processor_cores
14081 if (device_type
& CL_DEVICE_TYPE_CPU
)
14083 cl_uint device_processor_cores
= 1;
14085 device_param
->device_processor_cores
= device_processor_cores
;
14088 if (device_type
& CL_DEVICE_TYPE_GPU
)
14090 if (device_vendor_id
== VENDOR_ID_AMD
)
14092 cl_uint device_processor_cores
= 0;
14094 #define CL_DEVICE_WAVEFRONT_WIDTH_AMD 0x4043
14096 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_WAVEFRONT_WIDTH_AMD
, sizeof (device_processor_cores
), &device_processor_cores
, NULL
);
14098 device_param
->device_processor_cores
= device_processor_cores
;
14100 else if (device_vendor_id
== VENDOR_ID_NV
)
14102 cl_uint kernel_exec_timeout
= 0;
14104 #define CL_DEVICE_KERNEL_EXEC_TIMEOUT_NV 0x4005
14106 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_KERNEL_EXEC_TIMEOUT_NV
, sizeof (kernel_exec_timeout
), &kernel_exec_timeout
, NULL
);
14108 device_param
->kernel_exec_timeout
= kernel_exec_timeout
;
14110 cl_uint device_processor_cores
= 0;
14112 #define CL_DEVICE_WARP_SIZE_NV 0x4003
14114 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_WARP_SIZE_NV
, sizeof (device_processor_cores
), &device_processor_cores
, NULL
);
14116 device_param
->device_processor_cores
= device_processor_cores
;
14118 cl_uint sm_minor
= 0;
14119 cl_uint sm_major
= 0;
14121 #define CL_DEVICE_COMPUTE_CAPABILITY_MAJOR_NV 0x4000
14122 #define CL_DEVICE_COMPUTE_CAPABILITY_MINOR_NV 0x4001
14124 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_COMPUTE_CAPABILITY_MINOR_NV
, sizeof (sm_minor
), &sm_minor
, NULL
);
14125 hc_clGetDeviceInfo (data
.ocl
, device_param
->device
, CL_DEVICE_COMPUTE_CAPABILITY_MAJOR_NV
, sizeof (sm_major
), &sm_major
, NULL
);
14127 device_param
->sm_minor
= sm_minor
;
14128 device_param
->sm_major
= sm_major
;
14130 // CPU burning loop damper
14131 // Value is given as number between 0-100
14134 device_param
->nvidia_spin_damp
= (double) nvidia_spin_damp
;
14136 if (nvidia_spin_damp_chgd
== 0)
14138 if (data
.attack_mode
== ATTACK_MODE_STRAIGHT
)
14141 * the workaround is not a friend of rule based attacks
14142 * the words from the wordlist combined with fast and slow rules cause
14143 * fluctuations which cause inaccurate wait time estimations
14144 * using a reduced damping percentage almost compensates this
14147 device_param
->nvidia_spin_damp
= 64;
14151 device_param
->nvidia_spin_damp
/= 100;
14155 cl_uint device_processor_cores
= 1;
14157 device_param
->device_processor_cores
= device_processor_cores
;
14163 if ((benchmark
== 1 || quiet
== 0) && (algorithm_pos
== 0))
14165 if (machine_readable
== 0)
14167 if (device_param
->skipped
== 0)
14169 log_info ("Device #%u: %s, %lu/%lu MB allocatable, %uMCU",
14172 (unsigned int) (device_maxmem_alloc
/ 1024 / 1024),
14173 (unsigned int) (device_global_mem
/ 1024 / 1024),
14174 (unsigned int) device_processors
);
14178 log_info ("Device #%u: %s, skipped",
14185 // common driver check
14187 if (device_param
->skipped
== 0)
14189 if (device_type
& CL_DEVICE_TYPE_GPU
)
14191 if (platform_vendor_id
== VENDOR_ID_AMD
)
14193 int catalyst_check
= (force
== 1) ? 0 : 1;
14195 int catalyst_warn
= 0;
14197 int catalyst_broken
= 0;
14199 if (catalyst_check
== 1)
14203 // v14.9 and higher
14204 if (atoi (device_param
->driver_version
) >= 1573)
14209 catalyst_check
= 0;
14212 if (catalyst_broken
== 1)
14215 log_info ("ATTENTION! The installed catalyst driver in your system is known to be broken!");
14216 log_info ("It will pass over cracked hashes and does not report them as cracked");
14217 log_info ("You are STRONGLY encouraged not to use it");
14218 log_info ("You can use --force to override this but do not post error reports if you do so");
14224 if (catalyst_warn
== 1)
14227 log_info ("ATTENTION! Unsupported or incorrect installed catalyst driver detected!");
14228 log_info ("You are STRONGLY encouraged to use the official supported catalyst driver for good reasons");
14229 log_info ("See hashcat's homepage for official supported catalyst drivers");
14231 log_info ("Also see: http://hashcat.net/wiki/doku.php?id=upgrading_amd_drivers_how_to");
14233 log_info ("You can use --force to override this but do not post error reports if you do so");
14239 else if (platform_vendor_id
== VENDOR_ID_NV
)
14241 if (device_param
->kernel_exec_timeout
!= 0)
14243 if (data
.quiet
== 0) log_info ("Device #%u: WARNING! Kernel exec timeout is not disabled, it might cause you errors of code 702", device_id
+ 1);
14244 if (data
.quiet
== 0) log_info (" See the wiki on how to disable it: https://hashcat.net/wiki/doku.php?id=timeout_patch");
14249 /* turns out pocl still creates segfaults (because of llvm)
14250 if (device_type & CL_DEVICE_TYPE_CPU)
14252 if (platform_vendor_id == VENDOR_ID_AMD)
14257 log_info ("ATTENTION! OpenCL support for CPU of catalyst driver is not reliable.");
14258 log_info ("You are STRONGLY encouraged not to use it");
14259 log_info ("You can use --force to override this but do not post error reports if you do so");
14260 log_info ("A good alternative is the free pocl >= v0.13, but make sure to use a LLVM >= v3.8");
14270 * kernel accel and loops tuning db adjustment
14273 device_param
->kernel_accel_min
= 1;
14274 device_param
->kernel_accel_max
= 1024;
14276 device_param
->kernel_loops_min
= 1;
14277 device_param
->kernel_loops_max
= 1024;
14279 tuning_db_entry_t
*tuningdb_entry
= tuning_db_search (tuning_db
, device_param
, attack_mode
, hash_mode
);
14281 if (tuningdb_entry
)
14283 u32 _kernel_accel
= tuningdb_entry
->kernel_accel
;
14284 u32 _kernel_loops
= tuningdb_entry
->kernel_loops
;
14288 device_param
->kernel_accel_min
= _kernel_accel
;
14289 device_param
->kernel_accel_max
= _kernel_accel
;
14294 if (workload_profile
== 1)
14296 _kernel_loops
= (_kernel_loops
> 8) ? _kernel_loops
/ 8 : 1;
14298 else if (workload_profile
== 2)
14300 _kernel_loops
= (_kernel_loops
> 4) ? _kernel_loops
/ 4 : 1;
14303 device_param
->kernel_loops_min
= _kernel_loops
;
14304 device_param
->kernel_loops_max
= _kernel_loops
;
14308 // commandline parameters overwrite tuningdb entries
14312 device_param
->kernel_accel_min
= kernel_accel
;
14313 device_param
->kernel_accel_max
= kernel_accel
;
14318 device_param
->kernel_loops_min
= kernel_loops
;
14319 device_param
->kernel_loops_max
= kernel_loops
;
14335 if (keyspace
== 0 && devices_active
== 0)
14337 log_error ("ERROR: No devices found/left");
14342 // additional check to see if the user has chosen a device that is not within the range of available devices (i.e. larger than devices_cnt)
14344 if (devices_filter
!= (uint
) -1)
14346 uint devices_cnt_mask
= ~(((uint
) -1 >> devices_cnt
) << devices_cnt
);
14348 if (devices_filter
> devices_cnt_mask
)
14350 log_error ("ERROR: The device specified by the --opencl-devices parameter is larger than the number of available devices (%d)", devices_cnt
);
14356 data
.devices_cnt
= devices_cnt
;
14358 data
.devices_active
= devices_active
;
14360 if ((benchmark
== 1 || quiet
== 0) && (algorithm_pos
== 0))
14362 if (machine_readable
== 0)
14373 hm_attrs_t hm_adapters_adl
[DEVICES_MAX
] = { { 0 } };
14374 hm_attrs_t hm_adapters_nvapi
[DEVICES_MAX
] = { { 0 } };
14375 hm_attrs_t hm_adapters_nvml
[DEVICES_MAX
] = { { 0 } };
14376 hm_attrs_t hm_adapters_xnvctrl
[DEVICES_MAX
] = { { 0 } };
14378 if (gpu_temp_disable
== 0)
14380 ADL_PTR
*adl
= (ADL_PTR
*) mymalloc (sizeof (ADL_PTR
));
14381 NVAPI_PTR
*nvapi
= (NVAPI_PTR
*) mymalloc (sizeof (NVAPI_PTR
));
14382 NVML_PTR
*nvml
= (NVML_PTR
*) mymalloc (sizeof (NVML_PTR
));
14383 XNVCTRL_PTR
*xnvctrl
= (XNVCTRL_PTR
*) mymalloc (sizeof (XNVCTRL_PTR
));
14385 data
.hm_adl
= NULL
;
14386 data
.hm_nvapi
= NULL
;
14387 data
.hm_nvml
= NULL
;
14388 data
.hm_xnvctrl
= NULL
;
14390 if ((need_nvml
== 1) && (nvml_init (nvml
) == 0))
14392 data
.hm_nvml
= nvml
;
14397 if (hm_NVML_nvmlInit (data
.hm_nvml
) == NVML_SUCCESS
)
14399 HM_ADAPTER_NVML nvmlGPUHandle
[DEVICES_MAX
] = { 0 };
14401 int tmp_in
= hm_get_adapter_index_nvml (nvmlGPUHandle
);
14405 for (int i
= 0; i
< tmp_in
; i
++)
14407 hm_adapters_nvml
[tmp_out
++].nvml
= nvmlGPUHandle
[i
];
14410 for (int i
= 0; i
< tmp_out
; i
++)
14412 unsigned int speed
;
14414 if (hm_NVML_nvmlDeviceGetFanSpeed (data
.hm_nvml
, 0, hm_adapters_nvml
[i
].nvml
, &speed
) == NVML_SUCCESS
) hm_adapters_nvml
[i
].fan_get_supported
= 1;
14416 hm_NVML_nvmlDeviceSetComputeMode (data
.hm_nvml
, 1, hm_adapters_nvml
[i
].nvml
, NVML_COMPUTEMODE_EXCLUSIVE_PROCESS
);
14418 hm_NVML_nvmlDeviceSetGpuOperationMode (data
.hm_nvml
, 1, hm_adapters_nvml
[i
].nvml
, NVML_GOM_ALL_ON
);
14423 if ((need_nvapi
== 1) && (nvapi_init (nvapi
) == 0))
14425 data
.hm_nvapi
= nvapi
;
14430 if (hm_NvAPI_Initialize (data
.hm_nvapi
) == NVAPI_OK
)
14432 HM_ADAPTER_NVAPI nvGPUHandle
[DEVICES_MAX
] = { 0 };
14434 int tmp_in
= hm_get_adapter_index_nvapi (nvGPUHandle
);
14438 for (int i
= 0; i
< tmp_in
; i
++)
14440 hm_adapters_nvapi
[tmp_out
++].nvapi
= nvGPUHandle
[i
];
14445 if ((need_xnvctrl
== 1) && (xnvctrl_init (xnvctrl
) == 0))
14447 data
.hm_xnvctrl
= xnvctrl
;
14450 if (data
.hm_xnvctrl
)
14452 if (hm_XNVCTRL_XOpenDisplay (data
.hm_xnvctrl
) == 0)
14454 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
14456 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
14458 if ((device_param
->device_type
& CL_DEVICE_TYPE_GPU
) == 0) continue;
14460 hm_adapters_xnvctrl
[device_id
].xnvctrl
= device_id
;
14464 if (get_fan_speed_current (data
.hm_xnvctrl
, device_id
, &speed
) == 0) hm_adapters_xnvctrl
[device_id
].fan_get_supported
= 1;
14469 if ((need_adl
== 1) && (adl_init (adl
) == 0))
14476 if (hm_ADL_Main_Control_Create (data
.hm_adl
, ADL_Main_Memory_Alloc
, 0) == ADL_OK
)
14478 // total number of adapters
14480 int hm_adapters_num
;
14482 if (get_adapters_num_adl (data
.hm_adl
, &hm_adapters_num
) != 0) return (-1);
14486 LPAdapterInfo lpAdapterInfo
= hm_get_adapter_info_adl (data
.hm_adl
, hm_adapters_num
);
14488 if (lpAdapterInfo
== NULL
) return (-1);
14490 // get a list (of ids of) valid/usable adapters
14492 int num_adl_adapters
= 0;
14494 u32
*valid_adl_device_list
= hm_get_list_valid_adl_adapters (hm_adapters_num
, &num_adl_adapters
, lpAdapterInfo
);
14496 if (num_adl_adapters
> 0)
14498 hc_thread_mutex_lock (mux_adl
);
14500 // hm_get_opencl_busid_devid (hm_adapters_adl, devices_all_cnt, devices_all);
14502 hm_get_adapter_index_adl (hm_adapters_adl
, valid_adl_device_list
, num_adl_adapters
, lpAdapterInfo
);
14504 hm_get_overdrive_version (data
.hm_adl
, hm_adapters_adl
, valid_adl_device_list
, num_adl_adapters
, lpAdapterInfo
);
14505 hm_check_fanspeed_control (data
.hm_adl
, hm_adapters_adl
, valid_adl_device_list
, num_adl_adapters
, lpAdapterInfo
);
14507 hc_thread_mutex_unlock (mux_adl
);
14510 myfree (valid_adl_device_list
);
14511 myfree (lpAdapterInfo
);
14515 if (data
.hm_adl
== NULL
&& data
.hm_nvml
== NULL
&& data
.hm_xnvctrl
== NULL
)
14517 gpu_temp_disable
= 1;
14522 * OpenCL devices: allocate buffer for device specific information
14525 int *temp_retain_fanspeed_value
= (int *) mycalloc (data
.devices_cnt
, sizeof (int));
14526 int *temp_retain_fanpolicy_value
= (int *) mycalloc (data
.devices_cnt
, sizeof (int));
14528 ADLOD6MemClockState
*od_clock_mem_status
= (ADLOD6MemClockState
*) mycalloc (data
.devices_cnt
, sizeof (ADLOD6MemClockState
));
14530 int *od_power_control_status
= (int *) mycalloc (data
.devices_cnt
, sizeof (int));
14532 unsigned int *nvml_power_limit
= (unsigned int *) mycalloc (data
.devices_cnt
, sizeof (unsigned int));
14535 * User-defined GPU temp handling
14538 if (gpu_temp_disable
== 1)
14540 gpu_temp_abort
= 0;
14541 gpu_temp_retain
= 0;
14544 if ((gpu_temp_abort
!= 0) && (gpu_temp_retain
!= 0))
14546 if (gpu_temp_abort
< gpu_temp_retain
)
14548 log_error ("ERROR: invalid values for gpu-temp-abort. Parameter gpu-temp-abort is less than gpu-temp-retain.");
14554 data
.gpu_temp_disable
= gpu_temp_disable
;
14555 data
.gpu_temp_abort
= gpu_temp_abort
;
14556 data
.gpu_temp_retain
= gpu_temp_retain
;
14560 * enable custom signal handler(s)
14563 if (benchmark
== 0)
14565 hc_signal (sigHandler_default
);
14569 hc_signal (sigHandler_benchmark
);
14576 if (data
.quiet
== 0)
14578 log_info ("Hashes: %u hashes; %u unique digests, %u unique salts", hashes_cnt_orig
, digests_cnt
, salts_cnt
);
14580 log_info ("Bitmaps: %u bits, %u entries, 0x%08x mask, %u bytes, %u/%u rotates", bitmap_bits
, bitmap_nums
, bitmap_mask
, bitmap_size
, bitmap_shift1
, bitmap_shift2
);
14582 if (attack_mode
== ATTACK_MODE_STRAIGHT
)
14584 log_info ("Rules: %u", kernel_rules_cnt
);
14589 log_info ("Applicable Optimizers:");
14591 for (uint i
= 0; i
< 32; i
++)
14593 const uint opti_bit
= 1u << i
;
14595 if (opti_type
& opti_bit
) log_info ("* %s", stroptitype (opti_bit
));
14600 * Watchdog and Temperature balance
14604 if (gpu_temp_disable
== 0 && data
.hm_adl
== NULL
&& data
.hm_nvml
== NULL
&& data
.hm_xnvctrl
== NULL
)
14606 log_info ("Watchdog: Hardware Monitoring Interface not found on your system");
14609 if (gpu_temp_abort
== 0)
14611 log_info ("Watchdog: Temperature abort trigger disabled");
14615 log_info ("Watchdog: Temperature abort trigger set to %uc", gpu_temp_abort
);
14618 if (gpu_temp_retain
== 0)
14620 log_info ("Watchdog: Temperature retain trigger disabled");
14624 log_info ("Watchdog: Temperature retain trigger set to %uc", gpu_temp_retain
);
14627 if (data
.quiet
== 0) log_info ("");
14637 if (gpu_temp_disable
== 0)
14639 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
14641 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
14643 if ((device_param
->device_type
& CL_DEVICE_TYPE_GPU
) == 0) continue;
14645 if (device_param
->skipped
) continue;
14647 const uint platform_devices_id
= device_param
->platform_devices_id
;
14649 if (device_param
->device_vendor_id
== VENDOR_ID_AMD
)
14651 data
.hm_device
[device_id
].adl
= hm_adapters_adl
[platform_devices_id
].adl
;
14652 data
.hm_device
[device_id
].nvapi
= 0;
14653 data
.hm_device
[device_id
].nvml
= 0;
14654 data
.hm_device
[device_id
].xnvctrl
= 0;
14655 data
.hm_device
[device_id
].od_version
= hm_adapters_adl
[platform_devices_id
].od_version
;
14656 data
.hm_device
[device_id
].fan_get_supported
= hm_adapters_adl
[platform_devices_id
].fan_get_supported
;
14657 data
.hm_device
[device_id
].fan_set_supported
= 0;
14660 if (device_param
->device_vendor_id
== VENDOR_ID_NV
)
14662 data
.hm_device
[device_id
].adl
= 0;
14663 data
.hm_device
[device_id
].nvapi
= hm_adapters_nvapi
[platform_devices_id
].nvapi
;
14664 data
.hm_device
[device_id
].nvml
= hm_adapters_nvml
[platform_devices_id
].nvml
;
14665 data
.hm_device
[device_id
].xnvctrl
= hm_adapters_xnvctrl
[platform_devices_id
].xnvctrl
;
14666 data
.hm_device
[device_id
].od_version
= 0;
14667 data
.hm_device
[device_id
].fan_get_supported
= hm_adapters_nvml
[platform_devices_id
].fan_get_supported
;
14668 data
.hm_device
[device_id
].fan_set_supported
= 0;
14674 * powertune on user request
14677 if (powertune_enable
== 1)
14679 hc_thread_mutex_lock (mux_adl
);
14681 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
14683 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
14685 if (device_param
->skipped
) continue;
14687 if (data
.devices_param
[device_id
].device_vendor_id
== VENDOR_ID_AMD
)
14691 * with AMD r9 295x cards it seems that we need to set the powertune value just AFTER the ocl init stuff
14692 * otherwise after hc_clCreateContext () etc, powertune value was set back to "normal" and cards unfortunately
14693 * were not working @ full speed (setting hm_ADL_Overdrive_PowerControl_Set () here seems to fix the problem)
14694 * Driver / ADL bug?
14697 if (data
.hm_device
[device_id
].od_version
== 6)
14701 // check powertune capabilities first, if not available then skip device
14703 int powertune_supported
= 0;
14705 if ((ADL_rc
= hm_ADL_Overdrive6_PowerControl_Caps (data
.hm_adl
, data
.hm_device
[device_id
].adl
, &powertune_supported
)) != ADL_OK
)
14707 log_error ("ERROR: Failed to get ADL PowerControl Capabilities");
14712 // first backup current value, we will restore it later
14714 if (powertune_supported
!= 0)
14716 // powercontrol settings
14718 ADLOD6PowerControlInfo powertune
= {0, 0, 0, 0, 0};
14720 if ((ADL_rc
= hm_ADL_Overdrive_PowerControlInfo_Get (data
.hm_adl
, data
.hm_device
[device_id
].adl
, &powertune
)) == ADL_OK
)
14722 ADL_rc
= hm_ADL_Overdrive_PowerControl_Get (data
.hm_adl
, data
.hm_device
[device_id
].adl
, &od_power_control_status
[device_id
]);
14725 if (ADL_rc
!= ADL_OK
)
14727 log_error ("ERROR: Failed to get current ADL PowerControl settings");
14732 if ((ADL_rc
= hm_ADL_Overdrive_PowerControl_Set (data
.hm_adl
, data
.hm_device
[device_id
].adl
, powertune
.iMaxValue
)) != ADL_OK
)
14734 log_error ("ERROR: Failed to set new ADL PowerControl values");
14741 memset (&od_clock_mem_status
[device_id
], 0, sizeof (ADLOD6MemClockState
));
14743 od_clock_mem_status
[device_id
].state
.iNumberOfPerformanceLevels
= 2;
14745 if ((ADL_rc
= hm_ADL_Overdrive_StateInfo_Get (data
.hm_adl
, data
.hm_device
[device_id
].adl
, ADL_OD6_GETSTATEINFO_CUSTOM_PERFORMANCE
, &od_clock_mem_status
[device_id
])) != ADL_OK
)
14747 log_error ("ERROR: Failed to get ADL memory and engine clock frequency");
14752 // Query capabilities only to see if profiles were not "damaged", if so output a warning but do accept the users profile settings
14754 ADLOD6Capabilities caps
= {0, 0, 0, {0, 0, 0}, {0, 0, 0}, 0, 0};
14756 if ((ADL_rc
= hm_ADL_Overdrive_Capabilities_Get (data
.hm_adl
, data
.hm_device
[device_id
].adl
, &caps
)) != ADL_OK
)
14758 log_error ("ERROR: Failed to get ADL device capabilities");
14763 int engine_clock_max
= caps
.sEngineClockRange
.iMax
* 0.6666;
14764 int memory_clock_max
= caps
.sMemoryClockRange
.iMax
* 0.6250;
14766 int warning_trigger_engine
= (int) (0.25 * (float) engine_clock_max
);
14767 int warning_trigger_memory
= (int) (0.25 * (float) memory_clock_max
);
14769 int engine_clock_profile_max
= od_clock_mem_status
[device_id
].state
.aLevels
[1].iEngineClock
;
14770 int memory_clock_profile_max
= od_clock_mem_status
[device_id
].state
.aLevels
[1].iMemoryClock
;
14772 // warning if profile has too low max values
14774 if ((engine_clock_max
- engine_clock_profile_max
) > warning_trigger_engine
)
14776 log_info ("WARN: the custom profile seems to have too low maximum engine clock values. You therefore may not reach full performance");
14779 if ((memory_clock_max
- memory_clock_profile_max
) > warning_trigger_memory
)
14781 log_info ("WARN: the custom profile seems to have too low maximum memory clock values. You therefore may not reach full performance");
14784 ADLOD6StateInfo
*performance_state
= (ADLOD6StateInfo
*) mycalloc (1, sizeof (ADLOD6StateInfo
) + sizeof (ADLOD6PerformanceLevel
));
14786 performance_state
->iNumberOfPerformanceLevels
= 2;
14788 performance_state
->aLevels
[0].iEngineClock
= engine_clock_profile_max
;
14789 performance_state
->aLevels
[1].iEngineClock
= engine_clock_profile_max
;
14790 performance_state
->aLevels
[0].iMemoryClock
= memory_clock_profile_max
;
14791 performance_state
->aLevels
[1].iMemoryClock
= memory_clock_profile_max
;
14793 if ((ADL_rc
= hm_ADL_Overdrive_State_Set (data
.hm_adl
, data
.hm_device
[device_id
].adl
, ADL_OD6_SETSTATE_PERFORMANCE
, performance_state
)) != ADL_OK
)
14795 log_info ("ERROR: Failed to set ADL performance state");
14800 local_free (performance_state
);
14803 // set powertune value only
14805 if (powertune_supported
!= 0)
14808 ADLOD6PowerControlInfo powertune
= {0, 0, 0, 0, 0};
14810 if ((ADL_rc
= hm_ADL_Overdrive_PowerControlInfo_Get (data
.hm_adl
, data
.hm_device
[device_id
].adl
, &powertune
)) != ADL_OK
)
14812 log_error ("ERROR: Failed to get current ADL PowerControl settings");
14817 if ((ADL_rc
= hm_ADL_Overdrive_PowerControl_Set (data
.hm_adl
, data
.hm_device
[device_id
].adl
, powertune
.iMaxValue
)) != ADL_OK
)
14819 log_error ("ERROR: Failed to set new ADL PowerControl values");
14827 if (data
.devices_param
[device_id
].device_vendor_id
== VENDOR_ID_NV
)
14829 // first backup current value, we will restore it later
14831 unsigned int limit
;
14833 int powertune_supported
= 0;
14835 if (hm_NVML_nvmlDeviceGetPowerManagementLimit (data
.hm_nvml
, 0, data
.hm_device
[device_id
].nvml
, &limit
) == NVML_SUCCESS
)
14837 powertune_supported
= 1;
14840 // if backup worked, activate the maximum allowed
14842 if (powertune_supported
!= 0)
14844 unsigned int minLimit
;
14845 unsigned int maxLimit
;
14847 if (hm_NVML_nvmlDeviceGetPowerManagementLimitConstraints (data
.hm_nvml
, 0, data
.hm_device
[device_id
].nvml
, &minLimit
, &maxLimit
) == NVML_SUCCESS
)
14851 if (hm_NVML_nvmlDeviceSetPowerManagementLimit (data
.hm_nvml
, 0, data
.hm_device
[device_id
].nvml
, maxLimit
) == NVML_SUCCESS
)
14853 // now we can be sure we need to reset later
14855 nvml_power_limit
[device_id
] = limit
;
14863 hc_thread_mutex_unlock (mux_adl
);
14866 #endif // HAVE_HWMON
14869 if (benchmark
== 1) log_info ("Hashmode: %d", data
.hash_mode
);
14872 if (data
.quiet
== 0) log_info_nn ("Initializing device kernels and memory...");
14874 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
14880 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
14882 if (device_param
->skipped
) continue;
14885 * device properties
14888 const char *device_name_chksum
= device_param
->device_name_chksum
;
14889 const u32 device_processors
= device_param
->device_processors
;
14890 const u32 device_processor_cores
= device_param
->device_processor_cores
;
14893 * create context for each device
14896 device_param
->context
= hc_clCreateContext (data
.ocl
, NULL
, 1, &device_param
->device
, NULL
, NULL
);
14899 * create command-queue
14902 // not supported with NV
14903 // device_param->command_queue = hc_clCreateCommandQueueWithProperties (device_param->context, device_param->device, NULL);
14905 device_param
->command_queue
= hc_clCreateCommandQueue (data
.ocl
, device_param
->context
, device_param
->device
, CL_QUEUE_PROFILING_ENABLE
);
14908 * kernel threads: some algorithms need a fixed kernel-threads count
14909 * because of shared memory usage or bitslice
14910 * there needs to be some upper limit, otherwise there's too much overhead
14913 uint kernel_threads
= MIN (KERNEL_THREADS_MAX
, device_param
->device_maxworkgroup_size
);
14915 if (device_param
->device_type
& CL_DEVICE_TYPE_CPU
)
14917 kernel_threads
= KERNEL_THREADS_MAX_CPU
;
14920 if (hash_mode
== 1500) kernel_threads
= 64; // DES
14921 if (hash_mode
== 3000) kernel_threads
= 64; // DES
14922 if (hash_mode
== 3200) kernel_threads
= 8; // Blowfish
14923 if (hash_mode
== 7500) kernel_threads
= 64; // RC4
14924 if (hash_mode
== 9000) kernel_threads
= 8; // Blowfish
14925 if (hash_mode
== 9700) kernel_threads
= 64; // RC4
14926 if (hash_mode
== 9710) kernel_threads
= 64; // RC4
14927 if (hash_mode
== 9800) kernel_threads
= 64; // RC4
14928 if (hash_mode
== 9810) kernel_threads
= 64; // RC4
14929 if (hash_mode
== 10400) kernel_threads
= 64; // RC4
14930 if (hash_mode
== 10410) kernel_threads
= 64; // RC4
14931 if (hash_mode
== 10500) kernel_threads
= 64; // RC4
14932 if (hash_mode
== 13100) kernel_threads
= 64; // RC4
14934 device_param
->kernel_threads
= kernel_threads
;
14936 device_param
->hardware_power
= device_processors
* kernel_threads
;
14939 * create input buffers on device : calculate size of fixed memory buffers
14942 size_t size_root_css
= SP_PW_MAX
* sizeof (cs_t
);
14943 size_t size_markov_css
= SP_PW_MAX
* CHARSIZ
* sizeof (cs_t
);
14945 device_param
->size_root_css
= size_root_css
;
14946 device_param
->size_markov_css
= size_markov_css
;
14948 size_t size_results
= sizeof (uint
);
14950 device_param
->size_results
= size_results
;
14952 size_t size_rules
= kernel_rules_cnt
* sizeof (kernel_rule_t
);
14953 size_t size_rules_c
= KERNEL_RULES
* sizeof (kernel_rule_t
);
14955 size_t size_plains
= digests_cnt
* sizeof (plain_t
);
14956 size_t size_salts
= salts_cnt
* sizeof (salt_t
);
14957 size_t size_esalts
= salts_cnt
* esalt_size
;
14959 device_param
->size_plains
= size_plains
;
14960 device_param
->size_digests
= size_digests
;
14961 device_param
->size_shown
= size_shown
;
14962 device_param
->size_salts
= size_salts
;
14964 size_t size_combs
= KERNEL_COMBS
* sizeof (comb_t
);
14965 size_t size_bfs
= KERNEL_BFS
* sizeof (bf_t
);
14966 size_t size_tm
= 32 * sizeof (bs_word_t
);
14970 size_t size_scryptV
= 1;
14972 if ((hash_mode
== 8900) || (hash_mode
== 9300))
14974 uint tmto_start
= 0;
14975 uint tmto_stop
= 10;
14979 tmto_start
= scrypt_tmto
;
14983 // in case the user did not specify the tmto manually
14984 // use some values known to run best (tested on 290x for AMD and 980ti for NV)
14985 // but set the lower end only in case the user has a device with too less memory
14987 if (hash_mode
== 8900)
14989 if (device_param
->device_vendor_id
== VENDOR_ID_AMD
)
14993 else if (device_param
->device_vendor_id
== VENDOR_ID_NV
)
14998 else if (hash_mode
== 9300)
15000 if (device_param
->device_vendor_id
== VENDOR_ID_AMD
)
15004 else if (device_param
->device_vendor_id
== VENDOR_ID_NV
)
15011 for (uint tmto
= tmto_start
; tmto
< tmto_stop
; tmto
++)
15013 // TODO: in theory the following calculation needs to be done per salt, not global
15014 // we assume all hashes have the same scrypt settings
15016 size_scryptV
= (128 * data
.salts_buf
[0].scrypt_r
) * data
.salts_buf
[0].scrypt_N
;
15018 size_scryptV
/= 1 << tmto
;
15020 size_scryptV
*= device_processors
* device_processor_cores
;
15022 if (size_scryptV
> device_param
->device_maxmem_alloc
)
15024 if (quiet
== 0) log_info ("WARNING: not enough device memory allocatable to use --scrypt-tmto %d, increasing...", tmto
);
15029 for (uint salts_pos
= 0; salts_pos
< data
.salts_cnt
; salts_pos
++)
15031 data
.salts_buf
[salts_pos
].scrypt_tmto
= tmto
;
15032 data
.salts_buf
[salts_pos
].scrypt_phy
= device_processors
* device_processor_cores
;
15038 if (data
.salts_buf
[0].scrypt_phy
== 0)
15040 log_error ("ERROR: can't allocate enough device memory");
15045 if (quiet
== 0) log_info ("SCRYPT tmto optimizer value set to: %u, mem: %u\n", data
.salts_buf
[0].scrypt_tmto
, size_scryptV
);
15049 * some algorithms need a fixed kernel-loops count
15052 if (hash_mode
== 1500 && attack_mode
== ATTACK_MODE_BF
)
15054 const u32 kernel_loops_fixed
= 1024;
15056 device_param
->kernel_loops_min
= kernel_loops_fixed
;
15057 device_param
->kernel_loops_max
= kernel_loops_fixed
;
15060 if (hash_mode
== 3000 && attack_mode
== ATTACK_MODE_BF
)
15062 const u32 kernel_loops_fixed
= 1024;
15064 device_param
->kernel_loops_min
= kernel_loops_fixed
;
15065 device_param
->kernel_loops_max
= kernel_loops_fixed
;
15068 if (hash_mode
== 8900)
15070 const u32 kernel_loops_fixed
= 1;
15072 device_param
->kernel_loops_min
= kernel_loops_fixed
;
15073 device_param
->kernel_loops_max
= kernel_loops_fixed
;
15076 if (hash_mode
== 9300)
15078 const u32 kernel_loops_fixed
= 1;
15080 device_param
->kernel_loops_min
= kernel_loops_fixed
;
15081 device_param
->kernel_loops_max
= kernel_loops_fixed
;
15084 if (hash_mode
== 12500)
15086 const u32 kernel_loops_fixed
= ROUNDS_RAR3
/ 16;
15088 device_param
->kernel_loops_min
= kernel_loops_fixed
;
15089 device_param
->kernel_loops_max
= kernel_loops_fixed
;
15093 * some algorithms have a maximum kernel-loops count
15096 if (device_param
->kernel_loops_min
< device_param
->kernel_loops_max
)
15098 u32 innerloop_cnt
= 0;
15100 if (data
.attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
15102 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
) innerloop_cnt
= data
.kernel_rules_cnt
;
15103 else if (data
.attack_kern
== ATTACK_KERN_COMBI
) innerloop_cnt
= data
.combs_cnt
;
15104 else if (data
.attack_kern
== ATTACK_KERN_BF
) innerloop_cnt
= data
.bfs_cnt
;
15108 innerloop_cnt
= data
.salts_buf
[0].salt_iter
;
15111 if ((innerloop_cnt
>= device_param
->kernel_loops_min
) &&
15112 (innerloop_cnt
<= device_param
->kernel_loops_max
))
15114 device_param
->kernel_loops_max
= innerloop_cnt
;
15118 u32 kernel_accel_min
= device_param
->kernel_accel_min
;
15119 u32 kernel_accel_max
= device_param
->kernel_accel_max
;
15121 // find out if we would request too much memory on memory blocks which are based on kernel_accel
15123 size_t size_pws
= 4;
15124 size_t size_tmps
= 4;
15125 size_t size_hooks
= 4;
15127 while (kernel_accel_max
>= kernel_accel_min
)
15129 const u32 kernel_power_max
= device_processors
* kernel_threads
* kernel_accel_max
;
15133 size_pws
= kernel_power_max
* sizeof (pw_t
);
15139 case 400: size_tmps
= kernel_power_max
* sizeof (phpass_tmp_t
); break;
15140 case 500: size_tmps
= kernel_power_max
* sizeof (md5crypt_tmp_t
); break;
15141 case 501: size_tmps
= kernel_power_max
* sizeof (md5crypt_tmp_t
); break;
15142 case 1600: size_tmps
= kernel_power_max
* sizeof (md5crypt_tmp_t
); break;
15143 case 1800: size_tmps
= kernel_power_max
* sizeof (sha512crypt_tmp_t
); break;
15144 case 2100: size_tmps
= kernel_power_max
* sizeof (dcc2_tmp_t
); break;
15145 case 2500: size_tmps
= kernel_power_max
* sizeof (wpa_tmp_t
); break;
15146 case 3200: size_tmps
= kernel_power_max
* sizeof (bcrypt_tmp_t
); break;
15147 case 5200: size_tmps
= kernel_power_max
* sizeof (pwsafe3_tmp_t
); break;
15148 case 5800: size_tmps
= kernel_power_max
* sizeof (androidpin_tmp_t
); break;
15149 case 6211: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15150 case 6212: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15151 case 6213: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15152 case 6221: size_tmps
= kernel_power_max
* sizeof (tc64_tmp_t
); break;
15153 case 6222: size_tmps
= kernel_power_max
* sizeof (tc64_tmp_t
); break;
15154 case 6223: size_tmps
= kernel_power_max
* sizeof (tc64_tmp_t
); break;
15155 case 6231: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15156 case 6232: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15157 case 6233: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15158 case 6241: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15159 case 6242: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15160 case 6243: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15161 case 6300: size_tmps
= kernel_power_max
* sizeof (md5crypt_tmp_t
); break;
15162 case 6400: size_tmps
= kernel_power_max
* sizeof (sha256aix_tmp_t
); break;
15163 case 6500: size_tmps
= kernel_power_max
* sizeof (sha512aix_tmp_t
); break;
15164 case 6600: size_tmps
= kernel_power_max
* sizeof (agilekey_tmp_t
); break;
15165 case 6700: size_tmps
= kernel_power_max
* sizeof (sha1aix_tmp_t
); break;
15166 case 6800: size_tmps
= kernel_power_max
* sizeof (lastpass_tmp_t
); break;
15167 case 7100: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha512_tmp_t
); break;
15168 case 7200: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha512_tmp_t
); break;
15169 case 7400: size_tmps
= kernel_power_max
* sizeof (sha256crypt_tmp_t
); break;
15170 case 7900: size_tmps
= kernel_power_max
* sizeof (drupal7_tmp_t
); break;
15171 case 8200: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha512_tmp_t
); break;
15172 case 8800: size_tmps
= kernel_power_max
* sizeof (androidfde_tmp_t
); break;
15173 case 8900: size_tmps
= kernel_power_max
* sizeof (scrypt_tmp_t
); break;
15174 case 9000: size_tmps
= kernel_power_max
* sizeof (pwsafe2_tmp_t
); break;
15175 case 9100: size_tmps
= kernel_power_max
* sizeof (lotus8_tmp_t
); break;
15176 case 9200: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha256_tmp_t
); break;
15177 case 9300: size_tmps
= kernel_power_max
* sizeof (scrypt_tmp_t
); break;
15178 case 9400: size_tmps
= kernel_power_max
* sizeof (office2007_tmp_t
); break;
15179 case 9500: size_tmps
= kernel_power_max
* sizeof (office2010_tmp_t
); break;
15180 case 9600: size_tmps
= kernel_power_max
* sizeof (office2013_tmp_t
); break;
15181 case 10000: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha256_tmp_t
); break;
15182 case 10200: size_tmps
= kernel_power_max
* sizeof (cram_md5_t
); break;
15183 case 10300: size_tmps
= kernel_power_max
* sizeof (saph_sha1_tmp_t
); break;
15184 case 10500: size_tmps
= kernel_power_max
* sizeof (pdf14_tmp_t
); break;
15185 case 10700: size_tmps
= kernel_power_max
* sizeof (pdf17l8_tmp_t
); break;
15186 case 10900: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha256_tmp_t
); break;
15187 case 11300: size_tmps
= kernel_power_max
* sizeof (bitcoin_wallet_tmp_t
); break;
15188 case 11600: size_tmps
= kernel_power_max
* sizeof (seven_zip_tmp_t
); break;
15189 case 11900: size_tmps
= kernel_power_max
* sizeof (pbkdf2_md5_tmp_t
); break;
15190 case 12000: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha1_tmp_t
); break;
15191 case 12100: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha512_tmp_t
); break;
15192 case 12200: size_tmps
= kernel_power_max
* sizeof (ecryptfs_tmp_t
); break;
15193 case 12300: size_tmps
= kernel_power_max
* sizeof (oraclet_tmp_t
); break;
15194 case 12400: size_tmps
= kernel_power_max
* sizeof (bsdicrypt_tmp_t
); break;
15195 case 12500: size_tmps
= kernel_power_max
* sizeof (rar3_tmp_t
); break;
15196 case 12700: size_tmps
= kernel_power_max
* sizeof (mywallet_tmp_t
); break;
15197 case 12800: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha256_tmp_t
); break;
15198 case 12900: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha256_tmp_t
); break;
15199 case 13000: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha256_tmp_t
); break;
15200 case 13200: size_tmps
= kernel_power_max
* sizeof (axcrypt_tmp_t
); break;
15201 case 13400: size_tmps
= kernel_power_max
* sizeof (keepass_tmp_t
); break;
15202 case 13600: size_tmps
= kernel_power_max
* sizeof (pbkdf2_sha1_tmp_t
); break;
15203 case 13711: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15204 case 13712: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15205 case 13713: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15206 case 13721: size_tmps
= kernel_power_max
* sizeof (tc64_tmp_t
); break;
15207 case 13722: size_tmps
= kernel_power_max
* sizeof (tc64_tmp_t
); break;
15208 case 13723: size_tmps
= kernel_power_max
* sizeof (tc64_tmp_t
); break;
15209 case 13731: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15210 case 13732: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15211 case 13733: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15212 case 13741: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15213 case 13742: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15214 case 13743: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15215 case 13751: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15216 case 13752: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15217 case 13753: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15218 case 13761: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15219 case 13762: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15220 case 13763: size_tmps
= kernel_power_max
* sizeof (tc_tmp_t
); break;
15225 if ((opts_type
& OPTS_TYPE_HOOK12
) || (opts_type
& OPTS_TYPE_HOOK23
))
15232 // now check if all device-memory sizes which depend on the kernel_accel_max amplifier are within its boundaries
15233 // if not, decrease amplifier and try again
15237 const u64 size_total
15254 + size_pws
// not a bug
15265 // Don't ask me, ask AMD!
15267 if (size_total
> device_param
->device_maxmem_alloc
) skip
= 1;
15268 if (size_total
> device_param
->device_global_mem
) skip
= 1;
15272 kernel_accel_max
--;
15281 if (kernel_accel_max == 0)
15283 log_error ("Device #%u: Device does not provide enough allocatable device-memory to handle hash-type %u", device_id + 1, data.hash_mode);
15289 device_param
->kernel_accel_min
= kernel_accel_min
;
15290 device_param
->kernel_accel_max
= kernel_accel_max
;
15293 if (kernel_accel_max < kernel_accel)
15295 if (quiet == 0) log_info ("Device #%u: Reduced maximum kernel-accel to %u", device_id + 1, kernel_accel_max);
15297 device_param->kernel_accel = kernel_accel_max;
15301 device_param
->size_bfs
= size_bfs
;
15302 device_param
->size_combs
= size_combs
;
15303 device_param
->size_rules
= size_rules
;
15304 device_param
->size_rules_c
= size_rules_c
;
15305 device_param
->size_pws
= size_pws
;
15306 device_param
->size_tmps
= size_tmps
;
15307 device_param
->size_hooks
= size_hooks
;
15310 * default building options
15313 char build_opts
[1024] = { 0 };
15315 // we don't have sm_* on vendors not NV but it doesn't matter
15318 snprintf (build_opts
, sizeof (build_opts
) - 1, "-I \"%s\\OpenCL\\\" -I '%s\\OpenCL\\' -I %s\\OpenCL\\ -I\"%s\\OpenCL\\\" -I'%s\\OpenCL\\' -I%s\\OpenCL\\", shared_dir
, shared_dir
, shared_dir
, shared_dir
, shared_dir
, shared_dir
);
15320 snprintf (build_opts
, sizeof (build_opts
) - 1, "-I \"%s/OpenCL/\" -I '%s/OpenCL/' -I %s/OpenCL/ -I\"%s/OpenCL/\" -I'%s/OpenCL/' -I%s/OpenCL/", shared_dir
, shared_dir
, shared_dir
, shared_dir
, shared_dir
, shared_dir
);
15323 char build_opts_new
[1024] = { 0 };
15325 snprintf (build_opts_new
, sizeof (build_opts_new
) - 1, "%s -DVENDOR_ID=%u -DCUDA_ARCH=%d -DVECT_SIZE=%u -DDEVICE_TYPE=%u -DKERN_TYPE=%u -D_unroll -cl-std=CL1.1", build_opts
, device_param
->device_vendor_id
, (device_param
->sm_major
* 100) + device_param
->sm_minor
, device_param
->vector_width
, (u32
) device_param
->device_type
, kern_type
);
15327 strncpy (build_opts
, build_opts_new
, sizeof (build_opts
) - 1);
15330 if (device_param->device_vendor_id == VENDOR_ID_INTEL_SDK)
15332 // we do vectorizing much better than the auto-vectorizer
15334 snprintf (build_opts_new, sizeof (build_opts_new) - 1, "%s -cl-opt-disable", build_opts);
15336 strncpy (build_opts, build_opts_new, sizeof (build_opts) - 1);
15341 log_info ("Device #%u: build_opts '%s'\n", device_id
+ 1, build_opts
);
15350 * kernel source filename
15353 char source_file
[256] = { 0 };
15355 generate_source_kernel_filename (attack_exec
, attack_kern
, kern_type
, shared_dir
, source_file
);
15359 if (stat (source_file
, &sst
) == -1)
15361 log_error ("ERROR: %s: %s", source_file
, strerror (errno
));
15367 * kernel cached filename
15370 char cached_file
[256] = { 0 };
15372 generate_cached_kernel_filename (attack_exec
, attack_kern
, kern_type
, profile_dir
, device_name_chksum
, cached_file
);
15378 if ((stat (cached_file
, &cst
) == -1) || cst
.st_size
== 0)
15384 * kernel compile or load
15387 size_t *kernel_lengths
= (size_t *) mymalloc (sizeof (size_t));
15389 const u8
**kernel_sources
= (const u8
**) mymalloc (sizeof (u8
*));
15391 if (force_jit_compilation
== -1)
15395 if (quiet
== 0) log_info ("Device #%u: Kernel %s not found in cache! Building may take a while...", device_id
+ 1, cached_file
);
15397 load_kernel (source_file
, 1, kernel_lengths
, kernel_sources
);
15399 device_param
->program
= hc_clCreateProgramWithSource (data
.ocl
, device_param
->context
, 1, (const char **) kernel_sources
, NULL
);
15401 int rc
= hc_clBuildProgram (data
.ocl
, device_param
->program
, 1, &device_param
->device
, build_opts
, NULL
, NULL
, false);
15404 size_t build_log_size
= 0;
15406 hc_clGetProgramBuildInfo (data
.ocl
, device_param
->program
, device_param
->device
, CL_PROGRAM_BUILD_LOG
, 0, NULL
, &build_log_size
);
15408 if (build_log_size
> 1)
15410 char *build_log
= (char *) malloc (build_log_size
+ 1);
15412 memset (build_log
, 0, build_log_size
+ 1);
15414 hc_clGetProgramBuildInfo (data
.ocl
, device_param
->program
, device_param
->device
, CL_PROGRAM_BUILD_LOG
, build_log_size
, build_log
, NULL
);
15424 device_param
->skipped
= true;
15426 log_info ("Device #%u: Kernel %s build failure. Proceed without this device.", device_id
+ 1, source_file
);
15431 size_t binary_size
;
15433 hc_clGetProgramInfo (data
.ocl
, device_param
->program
, CL_PROGRAM_BINARY_SIZES
, sizeof (size_t), &binary_size
, NULL
);
15435 u8
*binary
= (u8
*) mymalloc (binary_size
);
15437 hc_clGetProgramInfo (data
.ocl
, device_param
->program
, CL_PROGRAM_BINARIES
, sizeof (binary
), &binary
, NULL
);
15439 writeProgramBin (cached_file
, binary
, binary_size
);
15441 local_free (binary
);
15446 log_info ("Device #%u: Kernel %s (%ld bytes)", device_id
+ 1, cached_file
, cst
.st_size
);
15449 load_kernel (cached_file
, 1, kernel_lengths
, kernel_sources
);
15451 device_param
->program
= hc_clCreateProgramWithBinary (data
.ocl
, device_param
->context
, 1, &device_param
->device
, kernel_lengths
, (const u8
**) kernel_sources
, NULL
);
15453 hc_clBuildProgram (data
.ocl
, device_param
->program
, 1, &device_param
->device
, build_opts
, NULL
, NULL
, true);
15459 log_info ("Device #%u: Kernel %s (%ld bytes)", device_id
+ 1, source_file
, sst
.st_size
);
15462 load_kernel (source_file
, 1, kernel_lengths
, kernel_sources
);
15464 device_param
->program
= hc_clCreateProgramWithSource (data
.ocl
, device_param
->context
, 1, (const char **) kernel_sources
, NULL
);
15466 char build_opts_update
[1024] = { 0 };
15468 if (force_jit_compilation
== 1500)
15470 snprintf (build_opts_update
, sizeof (build_opts_update
) - 1, "%s -DDESCRYPT_SALT=%d", build_opts
, data
.salts_buf
[0].salt_buf
[0]);
15472 else if (force_jit_compilation
== 8900)
15474 snprintf (build_opts_update
, sizeof (build_opts_update
) - 1, "%s -DSCRYPT_N=%d -DSCRYPT_R=%d -DSCRYPT_P=%d -DSCRYPT_TMTO=%d", build_opts
, data
.salts_buf
[0].scrypt_N
, data
.salts_buf
[0].scrypt_r
, data
.salts_buf
[0].scrypt_p
, 1 << data
.salts_buf
[0].scrypt_tmto
);
15478 snprintf (build_opts_update
, sizeof (build_opts_update
) - 1, "%s", build_opts
);
15481 int rc
= hc_clBuildProgram (data
.ocl
, device_param
->program
, 1, &device_param
->device
, build_opts_update
, NULL
, NULL
, false);
15484 size_t build_log_size
= 0;
15486 hc_clGetProgramBuildInfo (data
.ocl
, device_param
->program
, device_param
->device
, CL_PROGRAM_BUILD_LOG
, 0, NULL
, &build_log_size
);
15488 if (build_log_size
> 1)
15490 char *build_log
= (char *) malloc (build_log_size
+ 1);
15492 memset (build_log
, 0, build_log_size
+ 1);
15494 hc_clGetProgramBuildInfo (data
.ocl
, device_param
->program
, device_param
->device
, CL_PROGRAM_BUILD_LOG
, build_log_size
, build_log
, NULL
);
15504 device_param
->skipped
= true;
15506 log_info ("Device #%u: Kernel %s build failure. Proceed without this device.", device_id
+ 1, source_file
);
15510 local_free (kernel_lengths
);
15511 local_free (kernel_sources
[0]);
15512 local_free (kernel_sources
);
15516 * word generator kernel
15519 if (attack_mode
!= ATTACK_MODE_STRAIGHT
)
15522 * kernel mp source filename
15525 char source_file
[256] = { 0 };
15527 generate_source_kernel_mp_filename (opti_type
, opts_type
, shared_dir
, source_file
);
15531 if (stat (source_file
, &sst
) == -1)
15533 log_error ("ERROR: %s: %s", source_file
, strerror (errno
));
15539 * kernel mp cached filename
15542 char cached_file
[256] = { 0 };
15544 generate_cached_kernel_mp_filename (opti_type
, opts_type
, profile_dir
, device_name_chksum
, cached_file
);
15550 if (stat (cached_file
, &cst
) == -1)
15556 * kernel compile or load
15559 size_t *kernel_lengths
= (size_t *) mymalloc (sizeof (size_t));
15561 const u8
**kernel_sources
= (const u8
**) mymalloc (sizeof (u8
*));
15565 if (quiet
== 0) log_info ("Device #%u: Kernel %s not found in cache! Building may take a while...", device_id
+ 1, cached_file
);
15566 if (quiet
== 0) log_info ("");
15568 load_kernel (source_file
, 1, kernel_lengths
, kernel_sources
);
15570 device_param
->program_mp
= hc_clCreateProgramWithSource (data
.ocl
, device_param
->context
, 1, (const char **) kernel_sources
, NULL
);
15572 int rc
= hc_clBuildProgram (data
.ocl
, device_param
->program_mp
, 1, &device_param
->device
, build_opts
, NULL
, NULL
, false);
15576 device_param
->skipped
= true;
15578 log_info ("Device #%u: Kernel %s build failure. Proceed without this device.", device_id
+ 1, source_file
);
15583 size_t binary_size
;
15585 hc_clGetProgramInfo (data
.ocl
, device_param
->program_mp
, CL_PROGRAM_BINARY_SIZES
, sizeof (size_t), &binary_size
, NULL
);
15587 u8
*binary
= (u8
*) mymalloc (binary_size
);
15589 hc_clGetProgramInfo (data
.ocl
, device_param
->program_mp
, CL_PROGRAM_BINARIES
, sizeof (binary
), &binary
, NULL
);
15591 writeProgramBin (cached_file
, binary
, binary_size
);
15593 local_free (binary
);
15598 log_info ("Device #%u: Kernel %s (%ld bytes)", device_id
+ 1, cached_file
, cst
.st_size
);
15601 load_kernel (cached_file
, 1, kernel_lengths
, kernel_sources
);
15603 device_param
->program_mp
= hc_clCreateProgramWithBinary (data
.ocl
, device_param
->context
, 1, &device_param
->device
, kernel_lengths
, (const u8
**) kernel_sources
, NULL
);
15605 hc_clBuildProgram (data
.ocl
, device_param
->program_mp
, 1, &device_param
->device
, build_opts
, NULL
, NULL
, true);
15608 local_free (kernel_lengths
);
15609 local_free (kernel_sources
[0]);
15610 local_free (kernel_sources
);
15617 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
15624 * kernel amp source filename
15627 char source_file
[256] = { 0 };
15629 generate_source_kernel_amp_filename (attack_kern
, shared_dir
, source_file
);
15633 if (stat (source_file
, &sst
) == -1)
15635 log_error ("ERROR: %s: %s", source_file
, strerror (errno
));
15641 * kernel amp cached filename
15644 char cached_file
[256] = { 0 };
15646 generate_cached_kernel_amp_filename (attack_kern
, profile_dir
, device_name_chksum
, cached_file
);
15652 if (stat (cached_file
, &cst
) == -1)
15658 * kernel compile or load
15661 size_t *kernel_lengths
= (size_t *) mymalloc (sizeof (size_t));
15663 const u8
**kernel_sources
= (const u8
**) mymalloc (sizeof (u8
*));
15667 if (quiet
== 0) log_info ("Device #%u: Kernel %s not found in cache! Building may take a while...", device_id
+ 1, cached_file
);
15668 if (quiet
== 0) log_info ("");
15670 load_kernel (source_file
, 1, kernel_lengths
, kernel_sources
);
15672 device_param
->program_amp
= hc_clCreateProgramWithSource (data
.ocl
, device_param
->context
, 1, (const char **) kernel_sources
, NULL
);
15674 int rc
= hc_clBuildProgram (data
.ocl
, device_param
->program_amp
, 1, &device_param
->device
, build_opts
, NULL
, NULL
, false);
15678 device_param
->skipped
= true;
15680 log_info ("Device #%u: Kernel %s build failure. Proceed without this device.", device_id
+ 1, source_file
);
15685 size_t binary_size
;
15687 hc_clGetProgramInfo (data
.ocl
, device_param
->program_amp
, CL_PROGRAM_BINARY_SIZES
, sizeof (size_t), &binary_size
, NULL
);
15689 u8
*binary
= (u8
*) mymalloc (binary_size
);
15691 hc_clGetProgramInfo (data
.ocl
, device_param
->program_amp
, CL_PROGRAM_BINARIES
, sizeof (binary
), &binary
, NULL
);
15693 writeProgramBin (cached_file
, binary
, binary_size
);
15695 local_free (binary
);
15700 if (quiet
== 0) log_info ("Device #%u: Kernel %s (%ld bytes)", device_id
+ 1, cached_file
, cst
.st_size
);
15703 load_kernel (cached_file
, 1, kernel_lengths
, kernel_sources
);
15705 device_param
->program_amp
= hc_clCreateProgramWithBinary (data
.ocl
, device_param
->context
, 1, &device_param
->device
, kernel_lengths
, (const u8
**) kernel_sources
, NULL
);
15707 hc_clBuildProgram (data
.ocl
, device_param
->program_amp
, 1, &device_param
->device
, build_opts
, NULL
, NULL
, true);
15710 local_free (kernel_lengths
);
15711 local_free (kernel_sources
[0]);
15712 local_free (kernel_sources
);
15715 // some algorithm collide too fast, make that impossible
15717 if (benchmark
== 1)
15719 ((uint
*) digests_buf
)[0] = -1;
15720 ((uint
*) digests_buf
)[1] = -1;
15721 ((uint
*) digests_buf
)[2] = -1;
15722 ((uint
*) digests_buf
)[3] = -1;
15729 device_param
->d_pws_buf
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_pws
, NULL
);
15730 device_param
->d_pws_amp_buf
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_pws
, NULL
);
15731 device_param
->d_tmps
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_WRITE
, size_tmps
, NULL
);
15732 device_param
->d_hooks
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_WRITE
, size_hooks
, NULL
);
15733 device_param
->d_bitmap_s1_a
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, bitmap_size
, NULL
);
15734 device_param
->d_bitmap_s1_b
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, bitmap_size
, NULL
);
15735 device_param
->d_bitmap_s1_c
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, bitmap_size
, NULL
);
15736 device_param
->d_bitmap_s1_d
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, bitmap_size
, NULL
);
15737 device_param
->d_bitmap_s2_a
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, bitmap_size
, NULL
);
15738 device_param
->d_bitmap_s2_b
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, bitmap_size
, NULL
);
15739 device_param
->d_bitmap_s2_c
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, bitmap_size
, NULL
);
15740 device_param
->d_bitmap_s2_d
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, bitmap_size
, NULL
);
15741 device_param
->d_plain_bufs
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_WRITE
, size_plains
, NULL
);
15742 device_param
->d_digests_buf
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_digests
, NULL
);
15743 device_param
->d_digests_shown
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_WRITE
, size_shown
, NULL
);
15744 device_param
->d_salt_bufs
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_salts
, NULL
);
15745 device_param
->d_result
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_WRITE
, size_results
, NULL
);
15746 device_param
->d_scryptV_buf
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_WRITE
, size_scryptV
, NULL
);
15748 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bitmap_s1_a
, CL_TRUE
, 0, bitmap_size
, bitmap_s1_a
, 0, NULL
, NULL
);
15749 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bitmap_s1_b
, CL_TRUE
, 0, bitmap_size
, bitmap_s1_b
, 0, NULL
, NULL
);
15750 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bitmap_s1_c
, CL_TRUE
, 0, bitmap_size
, bitmap_s1_c
, 0, NULL
, NULL
);
15751 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bitmap_s1_d
, CL_TRUE
, 0, bitmap_size
, bitmap_s1_d
, 0, NULL
, NULL
);
15752 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bitmap_s2_a
, CL_TRUE
, 0, bitmap_size
, bitmap_s2_a
, 0, NULL
, NULL
);
15753 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bitmap_s2_b
, CL_TRUE
, 0, bitmap_size
, bitmap_s2_b
, 0, NULL
, NULL
);
15754 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bitmap_s2_c
, CL_TRUE
, 0, bitmap_size
, bitmap_s2_c
, 0, NULL
, NULL
);
15755 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_bitmap_s2_d
, CL_TRUE
, 0, bitmap_size
, bitmap_s2_d
, 0, NULL
, NULL
);
15756 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_digests_buf
, CL_TRUE
, 0, size_digests
, data
.digests_buf
, 0, NULL
, NULL
);
15757 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_digests_shown
, CL_TRUE
, 0, size_shown
, data
.digests_shown
, 0, NULL
, NULL
);
15758 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_salt_bufs
, CL_TRUE
, 0, size_salts
, data
.salts_buf
, 0, NULL
, NULL
);
15764 if (attack_kern
== ATTACK_KERN_STRAIGHT
)
15766 device_param
->d_rules
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_rules
, NULL
);
15767 device_param
->d_rules_c
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_rules_c
, NULL
);
15769 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_rules
, CL_TRUE
, 0, size_rules
, kernel_rules_buf
, 0, NULL
, NULL
);
15771 else if (attack_kern
== ATTACK_KERN_COMBI
)
15773 device_param
->d_combs
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_combs
, NULL
);
15774 device_param
->d_combs_c
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_combs
, NULL
);
15775 device_param
->d_root_css_buf
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_root_css
, NULL
);
15776 device_param
->d_markov_css_buf
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_markov_css
, NULL
);
15778 else if (attack_kern
== ATTACK_KERN_BF
)
15780 device_param
->d_bfs
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_bfs
, NULL
);
15781 device_param
->d_bfs_c
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_bfs
, NULL
);
15782 device_param
->d_tm_c
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_tm
, NULL
);
15783 device_param
->d_root_css_buf
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_root_css
, NULL
);
15784 device_param
->d_markov_css_buf
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_markov_css
, NULL
);
15789 device_param
->d_esalt_bufs
= hc_clCreateBuffer (data
.ocl
, device_param
->context
, CL_MEM_READ_ONLY
, size_esalts
, NULL
);
15791 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_esalt_bufs
, CL_TRUE
, 0, size_esalts
, data
.esalts_buf
, 0, NULL
, NULL
);
15798 pw_t
*pws_buf
= (pw_t
*) mymalloc (size_pws
);
15800 device_param
->pws_buf
= pws_buf
;
15802 comb_t
*combs_buf
= (comb_t
*) mycalloc (KERNEL_COMBS
, sizeof (comb_t
));
15804 device_param
->combs_buf
= combs_buf
;
15806 void *hooks_buf
= mymalloc (size_hooks
);
15808 device_param
->hooks_buf
= hooks_buf
;
15814 device_param
->kernel_params_buf32
[21] = bitmap_mask
;
15815 device_param
->kernel_params_buf32
[22] = bitmap_shift1
;
15816 device_param
->kernel_params_buf32
[23] = bitmap_shift2
;
15817 device_param
->kernel_params_buf32
[24] = 0; // salt_pos
15818 device_param
->kernel_params_buf32
[25] = 0; // loop_pos
15819 device_param
->kernel_params_buf32
[26] = 0; // loop_cnt
15820 device_param
->kernel_params_buf32
[27] = 0; // kernel_rules_cnt
15821 device_param
->kernel_params_buf32
[28] = 0; // digests_cnt
15822 device_param
->kernel_params_buf32
[29] = 0; // digests_offset
15823 device_param
->kernel_params_buf32
[30] = 0; // combs_mode
15824 device_param
->kernel_params_buf32
[31] = 0; // gid_max
15826 device_param
->kernel_params
[ 0] = (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
15827 ? &device_param
->d_pws_buf
15828 : &device_param
->d_pws_amp_buf
;
15829 device_param
->kernel_params
[ 1] = &device_param
->d_rules_c
;
15830 device_param
->kernel_params
[ 2] = &device_param
->d_combs_c
;
15831 device_param
->kernel_params
[ 3] = &device_param
->d_bfs_c
;
15832 device_param
->kernel_params
[ 4] = &device_param
->d_tmps
;
15833 device_param
->kernel_params
[ 5] = &device_param
->d_hooks
;
15834 device_param
->kernel_params
[ 6] = &device_param
->d_bitmap_s1_a
;
15835 device_param
->kernel_params
[ 7] = &device_param
->d_bitmap_s1_b
;
15836 device_param
->kernel_params
[ 8] = &device_param
->d_bitmap_s1_c
;
15837 device_param
->kernel_params
[ 9] = &device_param
->d_bitmap_s1_d
;
15838 device_param
->kernel_params
[10] = &device_param
->d_bitmap_s2_a
;
15839 device_param
->kernel_params
[11] = &device_param
->d_bitmap_s2_b
;
15840 device_param
->kernel_params
[12] = &device_param
->d_bitmap_s2_c
;
15841 device_param
->kernel_params
[13] = &device_param
->d_bitmap_s2_d
;
15842 device_param
->kernel_params
[14] = &device_param
->d_plain_bufs
;
15843 device_param
->kernel_params
[15] = &device_param
->d_digests_buf
;
15844 device_param
->kernel_params
[16] = &device_param
->d_digests_shown
;
15845 device_param
->kernel_params
[17] = &device_param
->d_salt_bufs
;
15846 device_param
->kernel_params
[18] = &device_param
->d_esalt_bufs
;
15847 device_param
->kernel_params
[19] = &device_param
->d_result
;
15848 device_param
->kernel_params
[20] = &device_param
->d_scryptV_buf
;
15849 device_param
->kernel_params
[21] = &device_param
->kernel_params_buf32
[21];
15850 device_param
->kernel_params
[22] = &device_param
->kernel_params_buf32
[22];
15851 device_param
->kernel_params
[23] = &device_param
->kernel_params_buf32
[23];
15852 device_param
->kernel_params
[24] = &device_param
->kernel_params_buf32
[24];
15853 device_param
->kernel_params
[25] = &device_param
->kernel_params_buf32
[25];
15854 device_param
->kernel_params
[26] = &device_param
->kernel_params_buf32
[26];
15855 device_param
->kernel_params
[27] = &device_param
->kernel_params_buf32
[27];
15856 device_param
->kernel_params
[28] = &device_param
->kernel_params_buf32
[28];
15857 device_param
->kernel_params
[29] = &device_param
->kernel_params_buf32
[29];
15858 device_param
->kernel_params
[30] = &device_param
->kernel_params_buf32
[30];
15859 device_param
->kernel_params
[31] = &device_param
->kernel_params_buf32
[31];
15861 device_param
->kernel_params_mp_buf64
[3] = 0;
15862 device_param
->kernel_params_mp_buf32
[4] = 0;
15863 device_param
->kernel_params_mp_buf32
[5] = 0;
15864 device_param
->kernel_params_mp_buf32
[6] = 0;
15865 device_param
->kernel_params_mp_buf32
[7] = 0;
15866 device_param
->kernel_params_mp_buf32
[8] = 0;
15868 device_param
->kernel_params_mp
[0] = NULL
;
15869 device_param
->kernel_params_mp
[1] = NULL
;
15870 device_param
->kernel_params_mp
[2] = NULL
;
15871 device_param
->kernel_params_mp
[3] = &device_param
->kernel_params_mp_buf64
[3];
15872 device_param
->kernel_params_mp
[4] = &device_param
->kernel_params_mp_buf32
[4];
15873 device_param
->kernel_params_mp
[5] = &device_param
->kernel_params_mp_buf32
[5];
15874 device_param
->kernel_params_mp
[6] = &device_param
->kernel_params_mp_buf32
[6];
15875 device_param
->kernel_params_mp
[7] = &device_param
->kernel_params_mp_buf32
[7];
15876 device_param
->kernel_params_mp
[8] = &device_param
->kernel_params_mp_buf32
[8];
15878 device_param
->kernel_params_mp_l_buf64
[3] = 0;
15879 device_param
->kernel_params_mp_l_buf32
[4] = 0;
15880 device_param
->kernel_params_mp_l_buf32
[5] = 0;
15881 device_param
->kernel_params_mp_l_buf32
[6] = 0;
15882 device_param
->kernel_params_mp_l_buf32
[7] = 0;
15883 device_param
->kernel_params_mp_l_buf32
[8] = 0;
15884 device_param
->kernel_params_mp_l_buf32
[9] = 0;
15886 device_param
->kernel_params_mp_l
[0] = NULL
;
15887 device_param
->kernel_params_mp_l
[1] = NULL
;
15888 device_param
->kernel_params_mp_l
[2] = NULL
;
15889 device_param
->kernel_params_mp_l
[3] = &device_param
->kernel_params_mp_l_buf64
[3];
15890 device_param
->kernel_params_mp_l
[4] = &device_param
->kernel_params_mp_l_buf32
[4];
15891 device_param
->kernel_params_mp_l
[5] = &device_param
->kernel_params_mp_l_buf32
[5];
15892 device_param
->kernel_params_mp_l
[6] = &device_param
->kernel_params_mp_l_buf32
[6];
15893 device_param
->kernel_params_mp_l
[7] = &device_param
->kernel_params_mp_l_buf32
[7];
15894 device_param
->kernel_params_mp_l
[8] = &device_param
->kernel_params_mp_l_buf32
[8];
15895 device_param
->kernel_params_mp_l
[9] = &device_param
->kernel_params_mp_l_buf32
[9];
15897 device_param
->kernel_params_mp_r_buf64
[3] = 0;
15898 device_param
->kernel_params_mp_r_buf32
[4] = 0;
15899 device_param
->kernel_params_mp_r_buf32
[5] = 0;
15900 device_param
->kernel_params_mp_r_buf32
[6] = 0;
15901 device_param
->kernel_params_mp_r_buf32
[7] = 0;
15902 device_param
->kernel_params_mp_r_buf32
[8] = 0;
15904 device_param
->kernel_params_mp_r
[0] = NULL
;
15905 device_param
->kernel_params_mp_r
[1] = NULL
;
15906 device_param
->kernel_params_mp_r
[2] = NULL
;
15907 device_param
->kernel_params_mp_r
[3] = &device_param
->kernel_params_mp_r_buf64
[3];
15908 device_param
->kernel_params_mp_r
[4] = &device_param
->kernel_params_mp_r_buf32
[4];
15909 device_param
->kernel_params_mp_r
[5] = &device_param
->kernel_params_mp_r_buf32
[5];
15910 device_param
->kernel_params_mp_r
[6] = &device_param
->kernel_params_mp_r_buf32
[6];
15911 device_param
->kernel_params_mp_r
[7] = &device_param
->kernel_params_mp_r_buf32
[7];
15912 device_param
->kernel_params_mp_r
[8] = &device_param
->kernel_params_mp_r_buf32
[8];
15914 device_param
->kernel_params_amp_buf32
[5] = 0; // combs_mode
15915 device_param
->kernel_params_amp_buf32
[6] = 0; // gid_max
15917 device_param
->kernel_params_amp
[0] = &device_param
->d_pws_buf
;
15918 device_param
->kernel_params_amp
[1] = &device_param
->d_pws_amp_buf
;
15919 device_param
->kernel_params_amp
[2] = &device_param
->d_rules_c
;
15920 device_param
->kernel_params_amp
[3] = &device_param
->d_combs_c
;
15921 device_param
->kernel_params_amp
[4] = &device_param
->d_bfs_c
;
15922 device_param
->kernel_params_amp
[5] = &device_param
->kernel_params_amp_buf32
[5];
15923 device_param
->kernel_params_amp
[6] = &device_param
->kernel_params_amp_buf32
[6];
15925 device_param
->kernel_params_tm
[0] = &device_param
->d_bfs_c
;
15926 device_param
->kernel_params_tm
[1] = &device_param
->d_tm_c
;
15928 device_param
->kernel_params_memset_buf32
[1] = 0; // value
15929 device_param
->kernel_params_memset_buf32
[2] = 0; // gid_max
15931 device_param
->kernel_params_memset
[0] = NULL
;
15932 device_param
->kernel_params_memset
[1] = &device_param
->kernel_params_memset_buf32
[1];
15933 device_param
->kernel_params_memset
[2] = &device_param
->kernel_params_memset_buf32
[2];
15939 size_t kernel_wgs_tmp
;
15941 char kernel_name
[64] = { 0 };
15943 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
15945 if (opti_type
& OPTI_TYPE_SINGLE_HASH
)
15947 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_s%02d", kern_type
, 4);
15949 device_param
->kernel1
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15951 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_s%02d", kern_type
, 8);
15953 device_param
->kernel2
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15955 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_s%02d", kern_type
, 16);
15957 device_param
->kernel3
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15961 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_m%02d", kern_type
, 4);
15963 device_param
->kernel1
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15965 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_m%02d", kern_type
, 8);
15967 device_param
->kernel2
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15969 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_m%02d", kern_type
, 16);
15971 device_param
->kernel3
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15974 if (data
.attack_mode
== ATTACK_MODE_BF
)
15976 if (opts_type
& OPTS_TYPE_PT_BITSLICE
)
15978 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_tm", kern_type
);
15980 device_param
->kernel_tm
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15982 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel_tm
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
15988 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_init", kern_type
);
15990 device_param
->kernel1
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15992 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_loop", kern_type
);
15994 device_param
->kernel2
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
15996 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_comp", kern_type
);
15998 device_param
->kernel3
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
16000 if (opts_type
& OPTS_TYPE_HOOK12
)
16002 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_hook12", kern_type
);
16004 device_param
->kernel12
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
16006 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel12
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16009 if (opts_type
& OPTS_TYPE_HOOK23
)
16011 snprintf (kernel_name
, sizeof (kernel_name
) - 1, "m%05d_hook23", kern_type
);
16013 device_param
->kernel23
= hc_clCreateKernel (data
.ocl
, device_param
->program
, kernel_name
);
16015 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel23
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16019 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel1
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16020 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel2
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16021 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel3
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16023 for (uint i
= 0; i
<= 20; i
++)
16025 hc_clSetKernelArg (data
.ocl
, device_param
->kernel1
, i
, sizeof (cl_mem
), device_param
->kernel_params
[i
]);
16026 hc_clSetKernelArg (data
.ocl
, device_param
->kernel2
, i
, sizeof (cl_mem
), device_param
->kernel_params
[i
]);
16027 hc_clSetKernelArg (data
.ocl
, device_param
->kernel3
, i
, sizeof (cl_mem
), device_param
->kernel_params
[i
]);
16029 if (opts_type
& OPTS_TYPE_HOOK12
) hc_clSetKernelArg (data
.ocl
, device_param
->kernel12
, i
, sizeof (cl_mem
), device_param
->kernel_params
[i
]);
16030 if (opts_type
& OPTS_TYPE_HOOK23
) hc_clSetKernelArg (data
.ocl
, device_param
->kernel23
, i
, sizeof (cl_mem
), device_param
->kernel_params
[i
]);
16033 for (uint i
= 21; i
<= 31; i
++)
16035 hc_clSetKernelArg (data
.ocl
, device_param
->kernel1
, i
, sizeof (cl_uint
), device_param
->kernel_params
[i
]);
16036 hc_clSetKernelArg (data
.ocl
, device_param
->kernel2
, i
, sizeof (cl_uint
), device_param
->kernel_params
[i
]);
16037 hc_clSetKernelArg (data
.ocl
, device_param
->kernel3
, i
, sizeof (cl_uint
), device_param
->kernel_params
[i
]);
16039 if (opts_type
& OPTS_TYPE_HOOK12
) hc_clSetKernelArg (data
.ocl
, device_param
->kernel12
, i
, sizeof (cl_uint
), device_param
->kernel_params
[i
]);
16040 if (opts_type
& OPTS_TYPE_HOOK23
) hc_clSetKernelArg (data
.ocl
, device_param
->kernel23
, i
, sizeof (cl_uint
), device_param
->kernel_params
[i
]);
16045 device_param
->kernel_memset
= hc_clCreateKernel (data
.ocl
, device_param
->program
, "gpu_memset");
16047 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel_memset
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16049 hc_clSetKernelArg (data
.ocl
, device_param
->kernel_memset
, 0, sizeof (cl_mem
), device_param
->kernel_params_memset
[0]);
16050 hc_clSetKernelArg (data
.ocl
, device_param
->kernel_memset
, 1, sizeof (cl_uint
), device_param
->kernel_params_memset
[1]);
16051 hc_clSetKernelArg (data
.ocl
, device_param
->kernel_memset
, 2, sizeof (cl_uint
), device_param
->kernel_params_memset
[2]);
16055 if (attack_mode
== ATTACK_MODE_BF
)
16057 device_param
->kernel_mp_l
= hc_clCreateKernel (data
.ocl
, device_param
->program_mp
, "l_markov");
16058 device_param
->kernel_mp_r
= hc_clCreateKernel (data
.ocl
, device_param
->program_mp
, "r_markov");
16060 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel_mp_l
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16061 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel_mp_r
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16063 if (opts_type
& OPTS_TYPE_PT_BITSLICE
)
16065 hc_clSetKernelArg (data
.ocl
, device_param
->kernel_tm
, 0, sizeof (cl_mem
), device_param
->kernel_params_tm
[0]);
16066 hc_clSetKernelArg (data
.ocl
, device_param
->kernel_tm
, 1, sizeof (cl_mem
), device_param
->kernel_params_tm
[1]);
16069 else if (attack_mode
== ATTACK_MODE_HYBRID1
)
16071 device_param
->kernel_mp
= hc_clCreateKernel (data
.ocl
, device_param
->program_mp
, "C_markov");
16073 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel_mp
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16075 else if (attack_mode
== ATTACK_MODE_HYBRID2
)
16077 device_param
->kernel_mp
= hc_clCreateKernel (data
.ocl
, device_param
->program_mp
, "C_markov");
16079 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel_mp
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16082 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
16088 device_param
->kernel_amp
= hc_clCreateKernel (data
.ocl
, device_param
->program_amp
, "amp");
16090 hc_clGetKernelWorkGroupInfo (data
.ocl
, device_param
->kernel_amp
, device_param
->device
, CL_KERNEL_WORK_GROUP_SIZE
, sizeof (size_t), &kernel_wgs_tmp
, NULL
); kernel_threads
= MIN (kernel_threads
, kernel_wgs_tmp
);
16093 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
16099 for (uint i
= 0; i
< 5; i
++)
16101 hc_clSetKernelArg (data
.ocl
, device_param
->kernel_amp
, i
, sizeof (cl_mem
), device_param
->kernel_params_amp
[i
]);
16104 for (uint i
= 5; i
< 7; i
++)
16106 hc_clSetKernelArg (data
.ocl
, device_param
->kernel_amp
, i
, sizeof (cl_uint
), device_param
->kernel_params_amp
[i
]);
16110 // maybe this has been updated by clGetKernelWorkGroupInfo()
16111 // value can only be decreased, so we don't need to reallocate buffers
16113 device_param
->kernel_threads
= kernel_threads
;
16115 // zero some data buffers
16117 run_kernel_bzero (device_param
, device_param
->d_pws_buf
, size_pws
);
16118 run_kernel_bzero (device_param
, device_param
->d_pws_amp_buf
, size_pws
);
16119 run_kernel_bzero (device_param
, device_param
->d_tmps
, size_tmps
);
16120 run_kernel_bzero (device_param
, device_param
->d_hooks
, size_hooks
);
16121 run_kernel_bzero (device_param
, device_param
->d_plain_bufs
, size_plains
);
16122 run_kernel_bzero (device_param
, device_param
->d_result
, size_results
);
16128 if (attack_kern
== ATTACK_KERN_STRAIGHT
)
16130 run_kernel_bzero (device_param
, device_param
->d_rules_c
, size_rules_c
);
16132 else if (attack_kern
== ATTACK_KERN_COMBI
)
16134 run_kernel_bzero (device_param
, device_param
->d_combs
, size_combs
);
16135 run_kernel_bzero (device_param
, device_param
->d_combs_c
, size_combs
);
16136 run_kernel_bzero (device_param
, device_param
->d_root_css_buf
, size_root_css
);
16137 run_kernel_bzero (device_param
, device_param
->d_markov_css_buf
, size_markov_css
);
16139 else if (attack_kern
== ATTACK_KERN_BF
)
16141 run_kernel_bzero (device_param
, device_param
->d_bfs
, size_bfs
);
16142 run_kernel_bzero (device_param
, device_param
->d_bfs_c
, size_bfs
);
16143 run_kernel_bzero (device_param
, device_param
->d_tm_c
, size_tm
);
16144 run_kernel_bzero (device_param
, device_param
->d_root_css_buf
, size_root_css
);
16145 run_kernel_bzero (device_param
, device_param
->d_markov_css_buf
, size_markov_css
);
16148 #if defined(HAVE_HWMON)
16151 * Store initial fanspeed if gpu_temp_retain is enabled
16154 if (gpu_temp_disable
== 0)
16156 if (gpu_temp_retain
!= 0)
16158 hc_thread_mutex_lock (mux_adl
);
16160 if (data
.hm_device
[device_id
].fan_get_supported
== 1)
16162 const int fanspeed
= hm_get_fanspeed_with_device_id (device_id
);
16163 const int fanpolicy
= hm_get_fanpolicy_with_device_id (device_id
);
16165 temp_retain_fanspeed_value
[device_id
] = fanspeed
;
16166 temp_retain_fanpolicy_value
[device_id
] = fanpolicy
;
16168 // we also set it to tell the OS we take control over the fan and it's automatic controller
16169 // if it was set to automatic. we do not control user-defined fanspeeds.
16171 if (fanpolicy
== 1)
16173 data
.hm_device
[device_id
].fan_set_supported
= 1;
16177 if (device_param
->device_vendor_id
== VENDOR_ID_AMD
)
16179 rc
= hm_set_fanspeed_with_device_id_adl (device_id
, fanspeed
, 1);
16181 else if (device_param
->device_vendor_id
== VENDOR_ID_NV
)
16184 rc
= set_fan_control (data
.hm_xnvctrl
, data
.hm_device
[device_id
].xnvctrl
, NV_CTRL_GPU_COOLER_MANUAL_CONTROL_TRUE
);
16190 data
.hm_device
[device_id
].fan_set_supported
= 1;
16194 log_info ("WARNING: Failed to set initial fan speed for device #%u", device_id
+ 1);
16196 data
.hm_device
[device_id
].fan_set_supported
= 0;
16201 data
.hm_device
[device_id
].fan_set_supported
= 0;
16205 hc_thread_mutex_unlock (mux_adl
);
16209 #endif // HAVE_HWMON
16212 if (data
.quiet
== 0) log_info_nn ("");
16215 * In benchmark-mode, inform user which algorithm is checked
16218 if (benchmark
== 1)
16220 if (machine_readable
== 0)
16224 data
.quiet
= quiet
;
16226 char *hash_type
= strhashtype (data
.hash_mode
); // not a bug
16228 log_info ("Hashtype: %s", hash_type
);
16234 * keep track of the progress
16237 data
.words_progress_done
= (u64
*) mycalloc (data
.salts_cnt
, sizeof (u64
));
16238 data
.words_progress_rejected
= (u64
*) mycalloc (data
.salts_cnt
, sizeof (u64
));
16239 data
.words_progress_restored
= (u64
*) mycalloc (data
.salts_cnt
, sizeof (u64
));
16246 if (_setmode (_fileno (stdin
), _O_BINARY
) == -1)
16248 log_error ("ERROR: %s: %s", "stdin", strerror (errno
));
16253 if (_setmode (_fileno (stdout
), _O_BINARY
) == -1)
16255 log_error ("ERROR: %s: %s", "stdout", strerror (errno
));
16260 if (_setmode (_fileno (stderr
), _O_BINARY
) == -1)
16262 log_error ("ERROR: %s: %s", "stderr", strerror (errno
));
16272 segment_size
*= (1024 * 1024);
16274 data
.segment_size
= segment_size
;
16276 wl_data_t
*wl_data
= (wl_data_t
*) mymalloc (sizeof (wl_data_t
));
16278 wl_data
->buf
= (char *) mymalloc (segment_size
);
16279 wl_data
->avail
= segment_size
;
16280 wl_data
->incr
= segment_size
;
16284 uint wordlist_mode
= ((optind
+ 1) < myargc
) ? WL_MODE_FILE
: WL_MODE_STDIN
;
16286 data
.wordlist_mode
= wordlist_mode
;
16288 cs_t
*css_buf
= NULL
;
16292 char **masks
= NULL
;
16293 char **dictfiles
= NULL
;
16295 uint mask_from_file
= 0;
16297 if (attack_mode
== ATTACK_MODE_STRAIGHT
)
16299 if (wordlist_mode
== WL_MODE_FILE
)
16301 int wls_left
= myargc
- (optind
+ 1);
16303 for (int i
= 0; i
< wls_left
; i
++)
16305 char *l0_filename
= myargv
[optind
+ 1 + i
];
16307 struct stat l0_stat
;
16309 if (stat (l0_filename
, &l0_stat
) == -1)
16311 log_error ("ERROR: %s: %s", l0_filename
, strerror (errno
));
16316 uint is_dir
= S_ISDIR (l0_stat
.st_mode
);
16320 dictfiles
= (char **) myrealloc (dictfiles
, dictcnt
* sizeof (char *), sizeof (char *));
16324 dictfiles
[dictcnt
- 1] = l0_filename
;
16328 // do not allow --keyspace w/ a directory
16332 log_error ("ERROR: keyspace parameter is not allowed together with a directory");
16337 char **dictionary_files
= NULL
;
16339 dictionary_files
= scan_directory (l0_filename
);
16341 if (dictionary_files
!= NULL
)
16343 qsort (dictionary_files
, count_dictionaries (dictionary_files
), sizeof (char *), sort_by_stringptr
);
16345 for (int d
= 0; dictionary_files
[d
] != NULL
; d
++)
16347 char *l1_filename
= dictionary_files
[d
];
16349 struct stat l1_stat
;
16351 if (stat (l1_filename
, &l1_stat
) == -1)
16353 log_error ("ERROR: %s: %s", l1_filename
, strerror (errno
));
16358 if (S_ISREG (l1_stat
.st_mode
))
16360 dictfiles
= (char **) myrealloc (dictfiles
, dictcnt
* sizeof (char *), sizeof (char *));
16364 dictfiles
[dictcnt
- 1] = strdup (l1_filename
);
16369 local_free (dictionary_files
);
16375 log_error ("ERROR: No usable dictionary file found.");
16380 else if (wordlist_mode
== WL_MODE_STDIN
)
16385 else if (attack_mode
== ATTACK_MODE_COMBI
)
16389 char *dictfile1
= myargv
[optind
+ 1 + 0];
16390 char *dictfile2
= myargv
[optind
+ 1 + 1];
16392 // find the bigger dictionary and use as base
16397 struct stat tmp_stat
;
16399 if ((fp1
= fopen (dictfile1
, "rb")) == NULL
)
16401 log_error ("ERROR: %s: %s", dictfile1
, strerror (errno
));
16406 if (stat (dictfile1
, &tmp_stat
) == -1)
16408 log_error ("ERROR: %s: %s", dictfile1
, strerror (errno
));
16415 if (S_ISDIR (tmp_stat
.st_mode
))
16417 log_error ("ERROR: %s must be a regular file", dictfile1
, strerror (errno
));
16424 if ((fp2
= fopen (dictfile2
, "rb")) == NULL
)
16426 log_error ("ERROR: %s: %s", dictfile2
, strerror (errno
));
16433 if (stat (dictfile2
, &tmp_stat
) == -1)
16435 log_error ("ERROR: %s: %s", dictfile2
, strerror (errno
));
16443 if (S_ISDIR (tmp_stat
.st_mode
))
16445 log_error ("ERROR: %s must be a regular file", dictfile2
, strerror (errno
));
16453 data
.combs_cnt
= 1;
16457 const u64 words1_cnt
= count_words (wl_data
, fp1
, dictfile1
, dictstat_base
, &dictstat_nmemb
);
16459 data
.quiet
= quiet
;
16461 if (words1_cnt
== 0)
16463 log_error ("ERROR: %s: empty file", dictfile1
);
16471 data
.combs_cnt
= 1;
16475 const u64 words2_cnt
= count_words (wl_data
, fp2
, dictfile2
, dictstat_base
, &dictstat_nmemb
);
16477 data
.quiet
= quiet
;
16479 if (words2_cnt
== 0)
16481 log_error ("ERROR: %s: empty file", dictfile2
);
16492 data
.dictfile
= dictfile1
;
16493 data
.dictfile2
= dictfile2
;
16495 if (words1_cnt
>= words2_cnt
)
16497 data
.combs_cnt
= words2_cnt
;
16498 data
.combs_mode
= COMBINATOR_MODE_BASE_LEFT
;
16500 dictfiles
= &data
.dictfile
;
16506 data
.combs_cnt
= words1_cnt
;
16507 data
.combs_mode
= COMBINATOR_MODE_BASE_RIGHT
;
16509 dictfiles
= &data
.dictfile2
;
16513 // we also have to switch wordlist related rules!
16515 char *tmpc
= data
.rule_buf_l
;
16517 data
.rule_buf_l
= data
.rule_buf_r
;
16518 data
.rule_buf_r
= tmpc
;
16520 int tmpi
= data
.rule_len_l
;
16522 data
.rule_len_l
= data
.rule_len_r
;
16523 data
.rule_len_r
= tmpi
;
16526 else if (attack_mode
== ATTACK_MODE_BF
)
16532 if (benchmark
== 0)
16534 mask
= myargv
[optind
+ 1];
16536 masks
= (char **) mymalloc (INCR_MASKS
* sizeof (char *));
16538 if ((optind
+ 2) <= myargc
)
16540 struct stat file_stat
;
16542 if (stat (mask
, &file_stat
) == -1)
16546 masks
[maskcnt
- 1] = mystrdup (mask
);
16550 int wls_left
= myargc
- (optind
+ 1);
16552 uint masks_avail
= INCR_MASKS
;
16554 for (int i
= 0; i
< wls_left
; i
++)
16558 mask
= myargv
[optind
+ 1 + i
];
16560 if (stat (mask
, &file_stat
) == -1)
16562 log_error ("ERROR: %s: %s", mask
, strerror (errno
));
16568 uint is_file
= S_ISREG (file_stat
.st_mode
);
16574 if ((mask_fp
= fopen (mask
, "r")) == NULL
)
16576 log_error ("ERROR: %s: %s", mask
, strerror (errno
));
16581 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
16583 while (!feof (mask_fp
))
16585 memset (line_buf
, 0, HCBUFSIZ
);
16587 int line_len
= fgetl (mask_fp
, line_buf
);
16589 if (line_len
== 0) continue;
16591 if (line_buf
[0] == '#') continue;
16593 if (masks_avail
== maskcnt
)
16595 masks
= (char **) myrealloc (masks
, masks_avail
* sizeof (char *), INCR_MASKS
* sizeof (char *));
16597 masks_avail
+= INCR_MASKS
;
16600 masks
[maskcnt
] = mystrdup (line_buf
);
16611 log_error ("ERROR: %s: unsupported file-type", mask
);
16617 mask_from_file
= 1;
16622 custom_charset_1
= (char *) "?l?d?u";
16623 custom_charset_2
= (char *) "?l?d";
16624 custom_charset_3
= (char *) "?l?d*!$@_";
16626 mp_setup_usr (mp_sys
, mp_usr
, custom_charset_1
, 0);
16627 mp_setup_usr (mp_sys
, mp_usr
, custom_charset_2
, 1);
16628 mp_setup_usr (mp_sys
, mp_usr
, custom_charset_3
, 2);
16630 masks
[maskcnt
] = mystrdup ("?1?2?2?2?2?2?2?3?3?3?3?d?d?d?d");
16632 wordlist_mode
= WL_MODE_MASK
;
16634 data
.wordlist_mode
= wordlist_mode
;
16644 * generate full masks and charsets
16647 masks
= (char **) mymalloc (sizeof (char *));
16651 case 1731: pw_min
= 5;
16653 mask
= mystrdup ("?b?b?b?b?b");
16655 case 12500: pw_min
= 5;
16657 mask
= mystrdup ("?b?b?b?b?b");
16659 default: pw_min
= 7;
16661 mask
= mystrdup ("?b?b?b?b?b?b?b");
16667 masks
[maskcnt
- 1] = mystrdup (mask
);
16669 wordlist_mode
= WL_MODE_MASK
;
16671 data
.wordlist_mode
= wordlist_mode
;
16676 dictfiles
= (char **) mycalloc (pw_max
, sizeof (char *));
16680 if (increment_min
> pw_min
) pw_min
= increment_min
;
16682 if (increment_max
< pw_max
) pw_max
= increment_max
;
16685 else if (attack_mode
== ATTACK_MODE_HYBRID1
)
16687 data
.combs_mode
= COMBINATOR_MODE_BASE_LEFT
;
16691 char *mask
= myargv
[myargc
- 1];
16695 masks
= (char **) mymalloc (1 * sizeof (char *));
16699 struct stat file_stat
;
16701 if (stat (mask
, &file_stat
) == -1)
16705 masks
[maskcnt
- 1] = mystrdup (mask
);
16709 uint is_file
= S_ISREG (file_stat
.st_mode
);
16715 if ((mask_fp
= fopen (mask
, "r")) == NULL
)
16717 log_error ("ERROR: %s: %s", mask
, strerror (errno
));
16722 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
16724 uint masks_avail
= 1;
16726 while (!feof (mask_fp
))
16728 memset (line_buf
, 0, HCBUFSIZ
);
16730 int line_len
= fgetl (mask_fp
, line_buf
);
16732 if (line_len
== 0) continue;
16734 if (line_buf
[0] == '#') continue;
16736 if (masks_avail
== maskcnt
)
16738 masks
= (char **) myrealloc (masks
, masks_avail
* sizeof (char *), INCR_MASKS
* sizeof (char *));
16740 masks_avail
+= INCR_MASKS
;
16743 masks
[maskcnt
] = mystrdup (line_buf
);
16752 mask_from_file
= 1;
16758 masks
[maskcnt
- 1] = mystrdup (mask
);
16764 int wls_left
= myargc
- (optind
+ 2);
16766 for (int i
= 0; i
< wls_left
; i
++)
16768 char *filename
= myargv
[optind
+ 1 + i
];
16770 struct stat file_stat
;
16772 if (stat (filename
, &file_stat
) == -1)
16774 log_error ("ERROR: %s: %s", filename
, strerror (errno
));
16779 uint is_dir
= S_ISDIR (file_stat
.st_mode
);
16783 dictfiles
= (char **) myrealloc (dictfiles
, dictcnt
* sizeof (char *), sizeof (char *));
16787 dictfiles
[dictcnt
- 1] = filename
;
16791 // do not allow --keyspace w/ a directory
16795 log_error ("ERROR: keyspace parameter is not allowed together with a directory");
16800 char **dictionary_files
= NULL
;
16802 dictionary_files
= scan_directory (filename
);
16804 if (dictionary_files
!= NULL
)
16806 qsort (dictionary_files
, count_dictionaries (dictionary_files
), sizeof (char *), sort_by_stringptr
);
16808 for (int d
= 0; dictionary_files
[d
] != NULL
; d
++)
16810 char *l1_filename
= dictionary_files
[d
];
16812 struct stat l1_stat
;
16814 if (stat (l1_filename
, &l1_stat
) == -1)
16816 log_error ("ERROR: %s: %s", l1_filename
, strerror (errno
));
16821 if (S_ISREG (l1_stat
.st_mode
))
16823 dictfiles
= (char **) myrealloc (dictfiles
, dictcnt
* sizeof (char *), sizeof (char *));
16827 dictfiles
[dictcnt
- 1] = strdup (l1_filename
);
16832 local_free (dictionary_files
);
16838 log_error ("ERROR: No usable dictionary file found.");
16847 uint mask_min
= increment_min
; // we can't reject smaller masks here
16848 uint mask_max
= (increment_max
< pw_max
) ? increment_max
: pw_max
;
16850 for (uint mask_cur
= mask_min
; mask_cur
<= mask_max
; mask_cur
++)
16852 char *cur_mask
= mp_get_truncated_mask (mask
, strlen (mask
), mask_cur
);
16854 if (cur_mask
== NULL
) break;
16856 masks
[maskcnt
] = cur_mask
;
16860 masks
= (char **) myrealloc (masks
, maskcnt
* sizeof (char *), sizeof (char *));
16864 else if (attack_mode
== ATTACK_MODE_HYBRID2
)
16866 data
.combs_mode
= COMBINATOR_MODE_BASE_RIGHT
;
16870 char *mask
= myargv
[optind
+ 1 + 0];
16874 masks
= (char **) mymalloc (1 * sizeof (char *));
16878 struct stat file_stat
;
16880 if (stat (mask
, &file_stat
) == -1)
16884 masks
[maskcnt
- 1] = mystrdup (mask
);
16888 uint is_file
= S_ISREG (file_stat
.st_mode
);
16894 if ((mask_fp
= fopen (mask
, "r")) == NULL
)
16896 log_error ("ERROR: %s: %s", mask
, strerror (errno
));
16901 char *line_buf
= (char *) mymalloc (HCBUFSIZ
);
16903 uint masks_avail
= 1;
16905 while (!feof (mask_fp
))
16907 memset (line_buf
, 0, HCBUFSIZ
);
16909 int line_len
= fgetl (mask_fp
, line_buf
);
16911 if (line_len
== 0) continue;
16913 if (line_buf
[0] == '#') continue;
16915 if (masks_avail
== maskcnt
)
16917 masks
= (char **) myrealloc (masks
, masks_avail
* sizeof (char *), INCR_MASKS
* sizeof (char *));
16919 masks_avail
+= INCR_MASKS
;
16922 masks
[maskcnt
] = mystrdup (line_buf
);
16931 mask_from_file
= 1;
16937 masks
[maskcnt
- 1] = mystrdup (mask
);
16943 int wls_left
= myargc
- (optind
+ 2);
16945 for (int i
= 0; i
< wls_left
; i
++)
16947 char *filename
= myargv
[optind
+ 2 + i
];
16949 struct stat file_stat
;
16951 if (stat (filename
, &file_stat
) == -1)
16953 log_error ("ERROR: %s: %s", filename
, strerror (errno
));
16958 uint is_dir
= S_ISDIR (file_stat
.st_mode
);
16962 dictfiles
= (char **) myrealloc (dictfiles
, dictcnt
* sizeof (char *), sizeof (char *));
16966 dictfiles
[dictcnt
- 1] = filename
;
16970 // do not allow --keyspace w/ a directory
16974 log_error ("ERROR: keyspace parameter is not allowed together with a directory");
16979 char **dictionary_files
= NULL
;
16981 dictionary_files
= scan_directory (filename
);
16983 if (dictionary_files
!= NULL
)
16985 qsort (dictionary_files
, count_dictionaries (dictionary_files
), sizeof (char *), sort_by_stringptr
);
16987 for (int d
= 0; dictionary_files
[d
] != NULL
; d
++)
16989 char *l1_filename
= dictionary_files
[d
];
16991 struct stat l1_stat
;
16993 if (stat (l1_filename
, &l1_stat
) == -1)
16995 log_error ("ERROR: %s: %s", l1_filename
, strerror (errno
));
17000 if (S_ISREG (l1_stat
.st_mode
))
17002 dictfiles
= (char **) myrealloc (dictfiles
, dictcnt
* sizeof (char *), sizeof (char *));
17006 dictfiles
[dictcnt
- 1] = strdup (l1_filename
);
17011 local_free (dictionary_files
);
17017 log_error ("ERROR: No usable dictionary file found.");
17026 uint mask_min
= increment_min
; // we can't reject smaller masks here
17027 uint mask_max
= (increment_max
< pw_max
) ? increment_max
: pw_max
;
17029 for (uint mask_cur
= mask_min
; mask_cur
<= mask_max
; mask_cur
++)
17031 char *cur_mask
= mp_get_truncated_mask (mask
, strlen (mask
), mask_cur
);
17033 if (cur_mask
== NULL
) break;
17035 masks
[maskcnt
] = cur_mask
;
17039 masks
= (char **) myrealloc (masks
, maskcnt
* sizeof (char *), sizeof (char *));
17044 data
.pw_min
= pw_min
;
17045 data
.pw_max
= pw_max
;
17051 if (weak_hash_threshold
>= salts_cnt
)
17053 hc_device_param_t
*device_param
= NULL
;
17055 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
17057 device_param
= &data
.devices_param
[device_id
];
17059 if (device_param
->skipped
) continue;
17064 if (data
.quiet
== 0) log_info_nn ("Checking for weak hashes...");
17066 for (uint salt_pos
= 0; salt_pos
< salts_cnt
; salt_pos
++)
17068 weak_hash_check (device_param
, salt_pos
);
17071 // Display hack, guarantee that there is at least one \r before real start
17073 //if (data.quiet == 0) log_info ("");
17077 * status and monitor threads
17080 if (data
.devices_status
!= STATUS_CRACKED
) data
.devices_status
= STATUS_STARTING
;
17082 uint i_threads_cnt
= 0;
17084 hc_thread_t
*i_threads
= (hc_thread_t
*) mycalloc (10, sizeof (hc_thread_t
));
17086 if ((data
.wordlist_mode
== WL_MODE_FILE
) || (data
.wordlist_mode
== WL_MODE_MASK
))
17088 if (stdout_flag
== 0)
17090 hc_thread_create (i_threads
[i_threads_cnt
], thread_keypress
, &benchmark
);
17096 if (wordlist_mode
== WL_MODE_STDIN
) data
.status
= 1;
17098 uint ni_threads_cnt
= 0;
17100 hc_thread_t
*ni_threads
= (hc_thread_t
*) mycalloc (10, sizeof (hc_thread_t
));
17102 if (stdout_flag
== 0)
17104 hc_thread_create (ni_threads
[ni_threads_cnt
], thread_monitor
, NULL
);
17115 if (outfile_check_timer
!= 0)
17117 if (data
.outfile_check_directory
!= NULL
)
17119 if ((hash_mode
!= 5200) &&
17120 !((hash_mode
>= 6200) && (hash_mode
<= 6299)) &&
17121 !((hash_mode
>= 13700) && (hash_mode
<= 13799)) &&
17122 (hash_mode
!= 9000))
17124 hc_thread_create (ni_threads
[ni_threads_cnt
], thread_outfile_remove
, NULL
);
17130 outfile_check_timer
= 0;
17135 outfile_check_timer
= 0;
17141 * Inform the user if we got some hashes remove because of the pot file remove feature
17144 if (data
.quiet
== 0)
17146 if (potfile_remove_cracks
> 0)
17148 if (potfile_remove_cracks
== 1) log_info ("INFO: removed 1 hash found in pot file\n");
17149 else log_info ("INFO: removed %u hashes found in pot file\n", potfile_remove_cracks
);
17153 data
.outfile_check_timer
= outfile_check_timer
;
17159 char **induction_dictionaries
= NULL
;
17161 int induction_dictionaries_cnt
= 0;
17163 hcstat_table_t
*root_table_buf
= NULL
;
17164 hcstat_table_t
*markov_table_buf
= NULL
;
17166 uint initial_restore_done
= 0;
17168 data
.maskcnt
= maskcnt
;
17170 for (uint maskpos
= rd
->maskpos
; maskpos
< maskcnt
; maskpos
++)
17172 if (data
.devices_status
== STATUS_CRACKED
) break;
17174 data
.devices_status
= STATUS_INIT
;
17176 if (maskpos
> rd
->maskpos
)
17181 rd
->maskpos
= maskpos
;
17182 data
.maskpos
= maskpos
;
17184 if (attack_mode
== ATTACK_MODE_HYBRID1
|| attack_mode
== ATTACK_MODE_HYBRID2
|| attack_mode
== ATTACK_MODE_BF
)
17186 char *mask
= masks
[maskpos
];
17188 if (mask_from_file
== 1)
17190 if (mask
[0] == '\\' && mask
[1] == '#') mask
++; // escaped comment sign (sharp) "\#"
17195 uint mask_offset
= 0;
17197 uint separator_cnt
;
17199 for (separator_cnt
= 0; separator_cnt
< 4; separator_cnt
++)
17201 str_ptr
= strstr (mask
+ mask_offset
, ",");
17203 if (str_ptr
== NULL
) break;
17205 str_pos
= str_ptr
- mask
;
17207 // escaped separator, i.e. "\,"
17211 if (mask
[str_pos
- 1] == '\\')
17215 mask_offset
= str_pos
+ 1;
17221 // reset the offset
17225 mask
[str_pos
] = '\0';
17227 switch (separator_cnt
)
17230 mp_reset_usr (mp_usr
, 0);
17232 custom_charset_1
= mask
;
17233 mp_setup_usr (mp_sys
, mp_usr
, custom_charset_1
, 0);
17237 mp_reset_usr (mp_usr
, 1);
17239 custom_charset_2
= mask
;
17240 mp_setup_usr (mp_sys
, mp_usr
, custom_charset_2
, 1);
17244 mp_reset_usr (mp_usr
, 2);
17246 custom_charset_3
= mask
;
17247 mp_setup_usr (mp_sys
, mp_usr
, custom_charset_3
, 2);
17251 mp_reset_usr (mp_usr
, 3);
17253 custom_charset_4
= mask
;
17254 mp_setup_usr (mp_sys
, mp_usr
, custom_charset_4
, 3);
17258 mask
= mask
+ str_pos
+ 1;
17262 if ((attack_mode
== ATTACK_MODE_HYBRID1
) || (attack_mode
== ATTACK_MODE_HYBRID2
))
17266 local_free (css_buf
);
17267 local_free (data
.root_css_buf
);
17268 local_free (data
.markov_css_buf
);
17270 local_free (masks
[maskpos
- 1]);
17273 css_buf
= mp_gen_css (mask
, strlen (mask
), mp_sys
, mp_usr
, &css_cnt
);
17276 data
.css_cnt
= css_cnt
;
17277 data
.css_buf
= css_buf
;
17279 uint uniq_tbls
[SP_PW_MAX
][CHARSIZ
] = { { 0 } };
17281 mp_css_to_uniq_tbl (css_cnt
, css_buf
, uniq_tbls
);
17283 if (root_table_buf
== NULL
) root_table_buf
= (hcstat_table_t
*) mycalloc (SP_ROOT_CNT
, sizeof (hcstat_table_t
));
17284 if (markov_table_buf
== NULL
) markov_table_buf
= (hcstat_table_t
*) mycalloc (SP_MARKOV_CNT
, sizeof (hcstat_table_t
));
17286 sp_setup_tbl (shared_dir
, markov_hcstat
, markov_disable
, markov_classic
, root_table_buf
, markov_table_buf
);
17288 markov_threshold
= (markov_threshold
!= 0) ? markov_threshold
: CHARSIZ
;
17290 cs_t
*root_css_buf
= (cs_t
*) mycalloc (SP_PW_MAX
, sizeof (cs_t
));
17291 cs_t
*markov_css_buf
= (cs_t
*) mycalloc (SP_PW_MAX
* CHARSIZ
, sizeof (cs_t
));
17293 data
.root_css_buf
= root_css_buf
;
17294 data
.markov_css_buf
= markov_css_buf
;
17296 sp_tbl_to_css (root_table_buf
, markov_table_buf
, root_css_buf
, markov_css_buf
, markov_threshold
, uniq_tbls
);
17298 data
.combs_cnt
= sp_get_sum (0, css_cnt
, root_css_buf
);
17300 local_free (root_table_buf
);
17301 local_free (markov_table_buf
);
17305 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
17307 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
17309 if (device_param
->skipped
) continue;
17311 device_param
->kernel_params_mp
[0] = &device_param
->d_combs
;
17312 device_param
->kernel_params_mp
[1] = &device_param
->d_root_css_buf
;
17313 device_param
->kernel_params_mp
[2] = &device_param
->d_markov_css_buf
;
17315 device_param
->kernel_params_mp_buf64
[3] = 0;
17316 device_param
->kernel_params_mp_buf32
[4] = css_cnt
;
17317 device_param
->kernel_params_mp_buf32
[5] = 0;
17318 device_param
->kernel_params_mp_buf32
[6] = 0;
17319 device_param
->kernel_params_mp_buf32
[7] = 0;
17321 if (attack_mode
== ATTACK_MODE_HYBRID1
)
17323 if (opts_type
& OPTS_TYPE_PT_ADD01
) device_param
->kernel_params_mp_buf32
[5] = full01
;
17324 if (opts_type
& OPTS_TYPE_PT_ADD80
) device_param
->kernel_params_mp_buf32
[5] = full80
;
17325 if (opts_type
& OPTS_TYPE_PT_ADDBITS14
) device_param
->kernel_params_mp_buf32
[6] = 1;
17326 if (opts_type
& OPTS_TYPE_PT_ADDBITS15
) device_param
->kernel_params_mp_buf32
[7] = 1;
17328 else if (attack_mode
== ATTACK_MODE_HYBRID2
)
17330 device_param
->kernel_params_mp_buf32
[5] = 0;
17331 device_param
->kernel_params_mp_buf32
[6] = 0;
17332 device_param
->kernel_params_mp_buf32
[7] = 0;
17335 for (uint i
= 0; i
< 3; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp
, i
, sizeof (cl_mem
), (void *) device_param
->kernel_params_mp
[i
]);
17336 for (uint i
= 3; i
< 4; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp
, i
, sizeof (cl_ulong
), (void *) device_param
->kernel_params_mp
[i
]);
17337 for (uint i
= 4; i
< 8; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp
, i
, sizeof (cl_uint
), (void *) device_param
->kernel_params_mp
[i
]);
17339 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_root_css_buf
, CL_TRUE
, 0, device_param
->size_root_css
, root_css_buf
, 0, NULL
, NULL
);
17340 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_markov_css_buf
, CL_TRUE
, 0, device_param
->size_markov_css
, markov_css_buf
, 0, NULL
, NULL
);
17343 else if (attack_mode
== ATTACK_MODE_BF
)
17345 dictcnt
= 0; // number of "sub-masks", i.e. when using incremental mode
17349 for (uint i
= 0; i
< dictcnt
; i
++)
17351 local_free (dictfiles
[i
]);
17354 for (uint pw_len
= MAX (1, pw_min
); pw_len
<= pw_max
; pw_len
++)
17356 char *l1_filename
= mp_get_truncated_mask (mask
, strlen (mask
), pw_len
);
17358 if (l1_filename
== NULL
) break;
17362 dictfiles
[dictcnt
- 1] = l1_filename
;
17369 dictfiles
[dictcnt
- 1] = mask
;
17374 log_error ("ERROR: Mask is too small");
17381 free (induction_dictionaries
);
17383 // induction_dictionaries_cnt = 0; // implied
17385 if (attack_mode
!= ATTACK_MODE_BF
)
17389 induction_dictionaries
= scan_directory (induction_directory
);
17391 induction_dictionaries_cnt
= count_dictionaries (induction_dictionaries
);
17395 if (induction_dictionaries_cnt
)
17397 qsort (induction_dictionaries
, induction_dictionaries_cnt
, sizeof (char *), sort_by_mtime
);
17401 * prevent the user from using --keyspace together w/ maskfile and or dictfile
17405 if ((maskcnt
> 1) || (dictcnt
> 1))
17407 log_error ("ERROR: --keyspace is not supported with --increment or mask files");
17413 for (uint dictpos
= rd
->dictpos
; dictpos
< dictcnt
; )
17415 char *subid
= logfile_generate_subid ();
17417 data
.subid
= subid
;
17419 logfile_sub_msg ("START");
17421 data
.devices_status
= STATUS_INIT
;
17423 memset (data
.words_progress_done
, 0, data
.salts_cnt
* sizeof (u64
));
17424 memset (data
.words_progress_rejected
, 0, data
.salts_cnt
* sizeof (u64
));
17425 memset (data
.words_progress_restored
, 0, data
.salts_cnt
* sizeof (u64
));
17427 memset (data
.cpt_buf
, 0, CPT_BUF
* sizeof (cpt_t
));
17431 data
.cpt_start
= time (NULL
);
17433 data
.cpt_total
= 0;
17435 if (data
.restore
== 0)
17437 rd
->words_cur
= skip
;
17444 data
.ms_paused
= 0;
17446 data
.kernel_power_final
= 0;
17448 data
.words_cur
= rd
->words_cur
;
17450 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
17452 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
17454 if (device_param
->skipped
) continue;
17456 device_param
->speed_pos
= 0;
17458 memset (device_param
->speed_cnt
, 0, SPEED_CACHE
* sizeof (u64
));
17459 memset (device_param
->speed_ms
, 0, SPEED_CACHE
* sizeof (double));
17461 device_param
->exec_pos
= 0;
17463 memset (device_param
->exec_ms
, 0, EXEC_CACHE
* sizeof (double));
17465 device_param
->outerloop_pos
= 0;
17466 device_param
->outerloop_left
= 0;
17467 device_param
->innerloop_pos
= 0;
17468 device_param
->innerloop_left
= 0;
17470 // some more resets:
17472 if (device_param
->pws_buf
) memset (device_param
->pws_buf
, 0, device_param
->size_pws
);
17474 device_param
->pws_cnt
= 0;
17476 device_param
->words_off
= 0;
17477 device_param
->words_done
= 0;
17480 // figure out some workload
17482 if (attack_mode
== ATTACK_MODE_STRAIGHT
)
17484 if (data
.wordlist_mode
== WL_MODE_FILE
)
17486 char *dictfile
= NULL
;
17488 if (induction_dictionaries_cnt
)
17490 dictfile
= induction_dictionaries
[0];
17494 dictfile
= dictfiles
[dictpos
];
17497 data
.dictfile
= dictfile
;
17499 logfile_sub_string (dictfile
);
17501 for (uint i
= 0; i
< rp_files_cnt
; i
++)
17503 logfile_sub_var_string ("rulefile", rp_files
[i
]);
17506 FILE *fd2
= fopen (dictfile
, "rb");
17510 log_error ("ERROR: %s: %s", dictfile
, strerror (errno
));
17515 data
.words_cnt
= count_words (wl_data
, fd2
, dictfile
, dictstat_base
, &dictstat_nmemb
);
17519 if (data
.words_cnt
== 0)
17521 if (data
.devices_status
== STATUS_CRACKED
) break;
17522 if (data
.devices_status
== STATUS_ABORTED
) break;
17530 else if (attack_mode
== ATTACK_MODE_COMBI
)
17532 char *dictfile
= data
.dictfile
;
17533 char *dictfile2
= data
.dictfile2
;
17535 logfile_sub_string (dictfile
);
17536 logfile_sub_string (dictfile2
);
17538 if (data
.combs_mode
== COMBINATOR_MODE_BASE_LEFT
)
17540 FILE *fd2
= fopen (dictfile
, "rb");
17544 log_error ("ERROR: %s: %s", dictfile
, strerror (errno
));
17549 data
.words_cnt
= count_words (wl_data
, fd2
, dictfile
, dictstat_base
, &dictstat_nmemb
);
17553 else if (data
.combs_mode
== COMBINATOR_MODE_BASE_RIGHT
)
17555 FILE *fd2
= fopen (dictfile2
, "rb");
17559 log_error ("ERROR: %s: %s", dictfile2
, strerror (errno
));
17564 data
.words_cnt
= count_words (wl_data
, fd2
, dictfile2
, dictstat_base
, &dictstat_nmemb
);
17569 if (data
.words_cnt
== 0)
17571 if (data
.devices_status
== STATUS_CRACKED
) break;
17572 if (data
.devices_status
== STATUS_ABORTED
) break;
17579 else if ((attack_mode
== ATTACK_MODE_HYBRID1
) || (attack_mode
== ATTACK_MODE_HYBRID2
))
17581 char *dictfile
= NULL
;
17583 if (induction_dictionaries_cnt
)
17585 dictfile
= induction_dictionaries
[0];
17589 dictfile
= dictfiles
[dictpos
];
17592 data
.dictfile
= dictfile
;
17594 char *mask
= data
.mask
;
17596 logfile_sub_string (dictfile
);
17597 logfile_sub_string (mask
);
17599 FILE *fd2
= fopen (dictfile
, "rb");
17603 log_error ("ERROR: %s: %s", dictfile
, strerror (errno
));
17608 data
.words_cnt
= count_words (wl_data
, fd2
, dictfile
, dictstat_base
, &dictstat_nmemb
);
17612 if (data
.words_cnt
== 0)
17614 if (data
.devices_status
== STATUS_CRACKED
) break;
17615 if (data
.devices_status
== STATUS_ABORTED
) break;
17622 else if (attack_mode
== ATTACK_MODE_BF
)
17624 local_free (css_buf
);
17625 local_free (data
.root_css_buf
);
17626 local_free (data
.markov_css_buf
);
17628 char *mask
= dictfiles
[dictpos
];
17630 logfile_sub_string (mask
);
17634 css_buf
= mp_gen_css (mask
, strlen (mask
), mp_sys
, mp_usr
, &css_cnt
);
17636 if (opts_type
& OPTS_TYPE_PT_UNICODE
)
17638 uint css_cnt_unicode
= css_cnt
* 2;
17640 cs_t
*css_buf_unicode
= (cs_t
*) mycalloc (css_cnt_unicode
, sizeof (cs_t
));
17642 for (uint i
= 0, j
= 0; i
< css_cnt
; i
+= 1, j
+= 2)
17644 memcpy (&css_buf_unicode
[j
+ 0], &css_buf
[i
], sizeof (cs_t
));
17646 css_buf_unicode
[j
+ 1].cs_buf
[0] = 0;
17647 css_buf_unicode
[j
+ 1].cs_len
= 1;
17652 css_buf
= css_buf_unicode
;
17653 css_cnt
= css_cnt_unicode
;
17656 // check if mask is not too large or too small for pw_min/pw_max (*2 if unicode)
17658 uint mask_min
= pw_min
;
17659 uint mask_max
= pw_max
;
17661 if (opts_type
& OPTS_TYPE_PT_UNICODE
)
17667 if ((css_cnt
< mask_min
) || (css_cnt
> mask_max
))
17669 if (css_cnt
< mask_min
)
17671 log_info ("WARNING: skipping mask '%s' because it is smaller than the minimum password length", mask
);
17674 if (css_cnt
> mask_max
)
17676 log_info ("WARNING: skipping mask '%s' because it is larger than the maximum password length", mask
);
17679 // skip to next mask
17683 rd
->dictpos
= dictpos
;
17685 logfile_sub_msg ("STOP");
17690 uint save_css_cnt
= css_cnt
;
17692 if (opti_type
& OPTI_TYPE_SINGLE_HASH
)
17694 if (opti_type
& OPTI_TYPE_APPENDED_SALT
)
17696 uint salt_len
= (uint
) data
.salts_buf
[0].salt_len
;
17697 char *salt_buf
= (char *) data
.salts_buf
[0].salt_buf
;
17699 uint css_cnt_salt
= css_cnt
+ salt_len
;
17701 cs_t
*css_buf_salt
= (cs_t
*) mycalloc (css_cnt_salt
, sizeof (cs_t
));
17703 memcpy (css_buf_salt
, css_buf
, css_cnt
* sizeof (cs_t
));
17705 for (uint i
= 0, j
= css_cnt
; i
< salt_len
; i
++, j
++)
17707 css_buf_salt
[j
].cs_buf
[0] = salt_buf
[i
];
17708 css_buf_salt
[j
].cs_len
= 1;
17713 css_buf
= css_buf_salt
;
17714 css_cnt
= css_cnt_salt
;
17719 data
.css_cnt
= css_cnt
;
17720 data
.css_buf
= css_buf
;
17722 if (maskpos
> 0 && dictpos
== 0) free (masks
[maskpos
- 1]);
17724 uint uniq_tbls
[SP_PW_MAX
][CHARSIZ
] = { { 0 } };
17726 mp_css_to_uniq_tbl (css_cnt
, css_buf
, uniq_tbls
);
17728 if (root_table_buf
== NULL
) root_table_buf
= (hcstat_table_t
*) mycalloc (SP_ROOT_CNT
, sizeof (hcstat_table_t
));
17729 if (markov_table_buf
== NULL
) markov_table_buf
= (hcstat_table_t
*) mycalloc (SP_MARKOV_CNT
, sizeof (hcstat_table_t
));
17731 sp_setup_tbl (shared_dir
, markov_hcstat
, markov_disable
, markov_classic
, root_table_buf
, markov_table_buf
);
17733 markov_threshold
= (markov_threshold
!= 0) ? markov_threshold
: CHARSIZ
;
17735 cs_t
*root_css_buf
= (cs_t
*) mycalloc (SP_PW_MAX
, sizeof (cs_t
));
17736 cs_t
*markov_css_buf
= (cs_t
*) mycalloc (SP_PW_MAX
* CHARSIZ
, sizeof (cs_t
));
17738 data
.root_css_buf
= root_css_buf
;
17739 data
.markov_css_buf
= markov_css_buf
;
17741 sp_tbl_to_css (root_table_buf
, markov_table_buf
, root_css_buf
, markov_css_buf
, markov_threshold
, uniq_tbls
);
17743 data
.words_cnt
= sp_get_sum (0, css_cnt
, root_css_buf
);
17745 local_free (root_table_buf
);
17746 local_free (markov_table_buf
);
17750 uint css_cnt_l
= css_cnt
;
17753 if (attack_exec
== ATTACK_EXEC_INSIDE_KERNEL
)
17755 if (save_css_cnt
< 6)
17759 else if (save_css_cnt
== 6)
17765 if (opts_type
& OPTS_TYPE_PT_UNICODE
)
17767 if (save_css_cnt
== 8 || save_css_cnt
== 10)
17778 if ((css_buf
[0].cs_len
* css_buf
[1].cs_len
* css_buf
[2].cs_len
) > 256)
17793 /* unfinished code?
17794 int sum = css_buf[css_cnt_r - 1].cs_len;
17796 for (uint i = 1; i < 4 && i < css_cnt; i++)
17798 if (sum > 1) break; // we really don't need alot of amplifier them for slow hashes
17802 sum *= css_buf[css_cnt_r - 1].cs_len;
17807 css_cnt_l
-= css_cnt_r
;
17809 data
.bfs_cnt
= sp_get_sum (0, css_cnt_r
, root_css_buf
);
17811 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
17813 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
17815 if (device_param
->skipped
) continue;
17817 device_param
->kernel_params_mp_l
[0] = &device_param
->d_pws_buf
;
17818 device_param
->kernel_params_mp_l
[1] = &device_param
->d_root_css_buf
;
17819 device_param
->kernel_params_mp_l
[2] = &device_param
->d_markov_css_buf
;
17821 device_param
->kernel_params_mp_l_buf64
[3] = 0;
17822 device_param
->kernel_params_mp_l_buf32
[4] = css_cnt_l
;
17823 device_param
->kernel_params_mp_l_buf32
[5] = css_cnt_r
;
17824 device_param
->kernel_params_mp_l_buf32
[6] = 0;
17825 device_param
->kernel_params_mp_l_buf32
[7] = 0;
17826 device_param
->kernel_params_mp_l_buf32
[8] = 0;
17828 if (opts_type
& OPTS_TYPE_PT_ADD01
) device_param
->kernel_params_mp_l_buf32
[6] = full01
;
17829 if (opts_type
& OPTS_TYPE_PT_ADD80
) device_param
->kernel_params_mp_l_buf32
[6] = full80
;
17830 if (opts_type
& OPTS_TYPE_PT_ADDBITS14
) device_param
->kernel_params_mp_l_buf32
[7] = 1;
17831 if (opts_type
& OPTS_TYPE_PT_ADDBITS15
) device_param
->kernel_params_mp_l_buf32
[8] = 1;
17833 device_param
->kernel_params_mp_r
[0] = &device_param
->d_bfs
;
17834 device_param
->kernel_params_mp_r
[1] = &device_param
->d_root_css_buf
;
17835 device_param
->kernel_params_mp_r
[2] = &device_param
->d_markov_css_buf
;
17837 device_param
->kernel_params_mp_r_buf64
[3] = 0;
17838 device_param
->kernel_params_mp_r_buf32
[4] = css_cnt_r
;
17839 device_param
->kernel_params_mp_r_buf32
[5] = 0;
17840 device_param
->kernel_params_mp_r_buf32
[6] = 0;
17841 device_param
->kernel_params_mp_r_buf32
[7] = 0;
17843 for (uint i
= 0; i
< 3; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp_l
, i
, sizeof (cl_mem
), (void *) device_param
->kernel_params_mp_l
[i
]);
17844 for (uint i
= 3; i
< 4; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp_l
, i
, sizeof (cl_ulong
), (void *) device_param
->kernel_params_mp_l
[i
]);
17845 for (uint i
= 4; i
< 9; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp_l
, i
, sizeof (cl_uint
), (void *) device_param
->kernel_params_mp_l
[i
]);
17847 for (uint i
= 0; i
< 3; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp_r
, i
, sizeof (cl_mem
), (void *) device_param
->kernel_params_mp_r
[i
]);
17848 for (uint i
= 3; i
< 4; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp_r
, i
, sizeof (cl_ulong
), (void *) device_param
->kernel_params_mp_r
[i
]);
17849 for (uint i
= 4; i
< 8; i
++) hc_clSetKernelArg (data
.ocl
, device_param
->kernel_mp_r
, i
, sizeof (cl_uint
), (void *) device_param
->kernel_params_mp_r
[i
]);
17851 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_root_css_buf
, CL_TRUE
, 0, device_param
->size_root_css
, root_css_buf
, 0, NULL
, NULL
);
17852 hc_clEnqueueWriteBuffer (data
.ocl
, device_param
->command_queue
, device_param
->d_markov_css_buf
, CL_TRUE
, 0, device_param
->size_markov_css
, markov_css_buf
, 0, NULL
, NULL
);
17856 u64 words_base
= data
.words_cnt
;
17858 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
)
17860 if (data
.kernel_rules_cnt
)
17862 words_base
/= data
.kernel_rules_cnt
;
17865 else if (data
.attack_kern
== ATTACK_KERN_COMBI
)
17867 if (data
.combs_cnt
)
17869 words_base
/= data
.combs_cnt
;
17872 else if (data
.attack_kern
== ATTACK_KERN_BF
)
17876 words_base
/= data
.bfs_cnt
;
17880 data
.words_base
= words_base
;
17884 log_info ("%llu", (unsigned long long int) words_base
);
17889 if (data
.words_cur
> data
.words_base
)
17891 log_error ("ERROR: restore value greater keyspace");
17896 if (data
.words_cur
)
17898 if (data
.attack_kern
== ATTACK_KERN_STRAIGHT
)
17900 for (uint i
= 0; i
< data
.salts_cnt
; i
++)
17902 data
.words_progress_restored
[i
] = data
.words_cur
* data
.kernel_rules_cnt
;
17905 else if (data
.attack_kern
== ATTACK_KERN_COMBI
)
17907 for (uint i
= 0; i
< data
.salts_cnt
; i
++)
17909 data
.words_progress_restored
[i
] = data
.words_cur
* data
.combs_cnt
;
17912 else if (data
.attack_kern
== ATTACK_KERN_BF
)
17914 for (uint i
= 0; i
< data
.salts_cnt
; i
++)
17916 data
.words_progress_restored
[i
] = data
.words_cur
* data
.bfs_cnt
;
17922 * Update loopback file
17931 uint random_num
= get_random_num (0, 9999);
17933 snprintf (loopback_file
, loopback_size
- 1, "%s/%s.%d_%i", induction_directory
, LOOPBACK_FILE
, (int) now
, random_num
);
17935 data
.loopback_file
= loopback_file
;
17939 * Update dictionary statistic
17944 dictstat_fp
= fopen (dictstat
, "wb");
17948 lock_file (dictstat_fp
);
17950 fwrite (dictstat_base
, sizeof (dictstat_t
), dictstat_nmemb
, dictstat_fp
);
17952 fclose (dictstat_fp
);
17957 * create autotune threads
17960 hc_thread_t
*c_threads
= (hc_thread_t
*) mycalloc (data
.devices_cnt
, sizeof (hc_thread_t
));
17962 data
.devices_status
= STATUS_AUTOTUNE
;
17964 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
17966 hc_device_param_t
*device_param
= &devices_param
[device_id
];
17968 hc_thread_create (c_threads
[device_id
], thread_autotune
, device_param
);
17971 hc_thread_wait (data
.devices_cnt
, c_threads
);
17974 * Inform user about possible slow speeds
17977 uint hardware_power_all
= 0;
17979 uint kernel_power_all
= 0;
17981 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
17983 hc_device_param_t
*device_param
= &devices_param
[device_id
];
17985 hardware_power_all
+= device_param
->hardware_power
;
17987 kernel_power_all
+= device_param
->kernel_power
;
17990 data
.hardware_power_all
= hardware_power_all
; // hardware_power_all is the same as kernel_power_all but without the influence of kernel_accel on the devices
17992 data
.kernel_power_all
= kernel_power_all
;
17994 if ((wordlist_mode
== WL_MODE_FILE
) || (wordlist_mode
== WL_MODE_MASK
))
17996 if (data
.words_base
< kernel_power_all
)
18000 log_info ("ATTENTION!");
18001 log_info (" The wordlist or mask you are using is too small.");
18002 log_info (" Therefore, hashcat is unable to utilize the full parallelization power of your device(s).");
18003 log_info (" The cracking speed will drop.");
18004 log_info (" Workaround: https://hashcat.net/wiki/doku.php?id=frequently_asked_questions#how_to_create_more_work_for_full_speed");
18011 * create cracker threads
18014 data
.devices_status
= STATUS_RUNNING
;
18016 if (initial_restore_done
== 0)
18018 if (data
.restore_disable
== 0) cycle_restore ();
18020 initial_restore_done
= 1;
18023 hc_timer_set (&data
.timer_running
);
18025 if ((wordlist_mode
== WL_MODE_FILE
) || (wordlist_mode
== WL_MODE_MASK
))
18027 if ((quiet
== 0) && (status
== 0) && (benchmark
== 0))
18029 if (quiet
== 0) fprintf (stdout
, "%s", PROMPT
);
18030 if (quiet
== 0) fflush (stdout
);
18033 else if (wordlist_mode
== WL_MODE_STDIN
)
18035 if (data
.quiet
== 0) log_info ("Starting attack in stdin mode...");
18036 if (data
.quiet
== 0) log_info ("");
18039 time_t runtime_start
;
18041 time (&runtime_start
);
18043 data
.runtime_start
= runtime_start
;
18045 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
18047 hc_device_param_t
*device_param
= &devices_param
[device_id
];
18049 if (wordlist_mode
== WL_MODE_STDIN
)
18051 hc_thread_create (c_threads
[device_id
], thread_calc_stdin
, device_param
);
18055 hc_thread_create (c_threads
[device_id
], thread_calc
, device_param
);
18059 hc_thread_wait (data
.devices_cnt
, c_threads
);
18061 local_free (c_threads
);
18067 logfile_sub_var_uint ("status-after-work", data
.devices_status
);
18069 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
18071 if (data
.devices_status
== STATUS_CRACKED
) break;
18072 if (data
.devices_status
== STATUS_ABORTED
) break;
18074 if (data
.devices_status
== STATUS_BYPASS
)
18076 data
.devices_status
= STATUS_RUNNING
;
18079 if (induction_dictionaries_cnt
)
18081 unlink (induction_dictionaries
[0]);
18084 free (induction_dictionaries
);
18086 if (attack_mode
!= ATTACK_MODE_BF
)
18088 induction_dictionaries
= scan_directory (induction_directory
);
18090 induction_dictionaries_cnt
= count_dictionaries (induction_dictionaries
);
18093 if (benchmark
== 0)
18095 if (((dictpos
+ 1) < dictcnt
) || ((maskpos
+ 1) < maskcnt
) || induction_dictionaries_cnt
)
18097 if (quiet
== 0) clear_prompt ();
18099 if (quiet
== 0) log_info ("");
18107 if (quiet
== 0) status_display ();
18110 if (quiet
== 0) log_info ("");
18114 if (attack_mode
== ATTACK_MODE_BF
)
18118 rd
->dictpos
= dictpos
;
18122 if (induction_dictionaries_cnt
)
18124 qsort (induction_dictionaries
, induction_dictionaries_cnt
, sizeof (char *), sort_by_mtime
);
18130 rd
->dictpos
= dictpos
;
18134 time_t runtime_stop
;
18136 time (&runtime_stop
);
18138 data
.runtime_stop
= runtime_stop
;
18140 logfile_sub_uint (runtime_start
);
18141 logfile_sub_uint (runtime_stop
);
18143 logfile_sub_msg ("STOP");
18145 global_free (subid
);
18148 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) check_checkpoint ();
18150 if (data
.devices_status
== STATUS_CRACKED
) break;
18151 if (data
.devices_status
== STATUS_ABORTED
) break;
18152 if (data
.devices_status
== STATUS_QUIT
) break;
18154 if (data
.devices_status
== STATUS_BYPASS
)
18156 data
.devices_status
= STATUS_RUNNING
;
18160 // problems could occur if already at startup everything was cracked (because of .pot file reading etc), we must set some variables here to avoid NULL pointers
18162 if (attack_mode
== ATTACK_MODE_STRAIGHT
)
18164 if (data
.wordlist_mode
== WL_MODE_FILE
)
18166 if (data
.dictfile
== NULL
)
18168 if (dictfiles
!= NULL
)
18170 data
.dictfile
= dictfiles
[0];
18172 hc_timer_set (&data
.timer_running
);
18177 // NOTE: combi is okay because it is already set beforehand
18178 else if (attack_mode
== ATTACK_MODE_HYBRID1
|| attack_mode
== ATTACK_MODE_HYBRID2
)
18180 if (data
.dictfile
== NULL
)
18182 if (dictfiles
!= NULL
)
18184 hc_timer_set (&data
.timer_running
);
18186 data
.dictfile
= dictfiles
[0];
18190 else if (attack_mode
== ATTACK_MODE_BF
)
18192 if (data
.mask
== NULL
)
18194 hc_timer_set (&data
.timer_running
);
18196 data
.mask
= masks
[0];
18200 if ((data
.devices_status
!= STATUS_CRACKED
) && (data
.devices_status
!= STATUS_ABORTED
) && (data
.devices_status
!= STATUS_QUIT
))
18202 data
.devices_status
= STATUS_EXHAUSTED
;
18205 // if cracked / aborted remove last induction dictionary
18207 for (int file_pos
= 0; file_pos
< induction_dictionaries_cnt
; file_pos
++)
18209 struct stat induct_stat
;
18211 if (stat (induction_dictionaries
[file_pos
], &induct_stat
) == 0)
18213 unlink (induction_dictionaries
[file_pos
]);
18217 // wait for non-interactive threads
18219 for (uint thread_idx
= 0; thread_idx
< ni_threads_cnt
; thread_idx
++)
18221 hc_thread_wait (1, &ni_threads
[thread_idx
]);
18224 local_free (ni_threads
);
18226 // wait for interactive threads
18228 for (uint thread_idx
= 0; thread_idx
< i_threads_cnt
; thread_idx
++)
18230 hc_thread_wait (1, &i_threads
[thread_idx
]);
18233 local_free (i_threads
);
18235 // we dont need restore file anymore
18236 if (data
.restore_disable
== 0)
18238 if ((data
.devices_status
== STATUS_EXHAUSTED
) || (data
.devices_status
== STATUS_CRACKED
))
18240 unlink (eff_restore_file
);
18241 unlink (new_restore_file
);
18249 // finally save left hashes
18251 if ((hashlist_mode
== HL_MODE_FILE
) && (remove
== 1) && (data
.digests_saved
!= data
.digests_done
))
18260 if (benchmark
== 1)
18262 status_benchmark ();
18264 if (machine_readable
== 0)
18271 if (quiet
== 0) clear_prompt ();
18273 if (quiet
== 0) log_info ("");
18281 if (quiet
== 0) status_display ();
18284 if (quiet
== 0) log_info ("");
18287 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
18289 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
18291 if (device_param
->skipped
) continue;
18293 local_free (device_param
->combs_buf
);
18295 local_free (device_param
->hooks_buf
);
18297 local_free (device_param
->device_name
);
18299 local_free (device_param
->device_name_chksum
);
18301 local_free (device_param
->device_version
);
18303 local_free (device_param
->driver_version
);
18305 if (device_param
->pws_buf
) myfree (device_param
->pws_buf
);
18306 if (device_param
->d_pws_buf
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_pws_buf
);
18307 if (device_param
->d_pws_amp_buf
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_pws_amp_buf
);
18308 if (device_param
->d_rules
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_rules
);
18309 if (device_param
->d_rules_c
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_rules_c
);
18310 if (device_param
->d_combs
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_combs
);
18311 if (device_param
->d_combs_c
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_combs_c
);
18312 if (device_param
->d_bfs
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bfs
);
18313 if (device_param
->d_bfs_c
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bfs_c
);
18314 if (device_param
->d_bitmap_s1_a
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bitmap_s1_a
);
18315 if (device_param
->d_bitmap_s1_b
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bitmap_s1_b
);
18316 if (device_param
->d_bitmap_s1_c
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bitmap_s1_c
);
18317 if (device_param
->d_bitmap_s1_d
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bitmap_s1_d
);
18318 if (device_param
->d_bitmap_s2_a
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bitmap_s2_a
);
18319 if (device_param
->d_bitmap_s2_b
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bitmap_s2_b
);
18320 if (device_param
->d_bitmap_s2_c
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bitmap_s2_c
);
18321 if (device_param
->d_bitmap_s2_d
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_bitmap_s2_d
);
18322 if (device_param
->d_plain_bufs
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_plain_bufs
);
18323 if (device_param
->d_digests_buf
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_digests_buf
);
18324 if (device_param
->d_digests_shown
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_digests_shown
);
18325 if (device_param
->d_salt_bufs
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_salt_bufs
);
18326 if (device_param
->d_esalt_bufs
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_esalt_bufs
);
18327 if (device_param
->d_tmps
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_tmps
);
18328 if (device_param
->d_hooks
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_hooks
);
18329 if (device_param
->d_result
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_result
);
18330 if (device_param
->d_scryptV_buf
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_scryptV_buf
);
18331 if (device_param
->d_root_css_buf
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_root_css_buf
);
18332 if (device_param
->d_markov_css_buf
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_markov_css_buf
);
18333 if (device_param
->d_tm_c
) hc_clReleaseMemObject (data
.ocl
, device_param
->d_tm_c
);
18335 if (device_param
->kernel1
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel1
);
18336 if (device_param
->kernel12
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel12
);
18337 if (device_param
->kernel2
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel2
);
18338 if (device_param
->kernel23
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel23
);
18339 if (device_param
->kernel3
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel3
);
18340 if (device_param
->kernel_mp
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel_mp
);
18341 if (device_param
->kernel_mp_l
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel_mp_l
);
18342 if (device_param
->kernel_mp_r
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel_mp_r
);
18343 if (device_param
->kernel_tm
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel_tm
);
18344 if (device_param
->kernel_amp
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel_amp
);
18345 if (device_param
->kernel_memset
) hc_clReleaseKernel (data
.ocl
, device_param
->kernel_memset
);
18347 if (device_param
->program
) hc_clReleaseProgram (data
.ocl
, device_param
->program
);
18348 if (device_param
->program_mp
) hc_clReleaseProgram (data
.ocl
, device_param
->program_mp
);
18349 if (device_param
->program_amp
) hc_clReleaseProgram (data
.ocl
, device_param
->program_amp
);
18351 if (device_param
->command_queue
) hc_clReleaseCommandQueue (data
.ocl
, device_param
->command_queue
);
18352 if (device_param
->context
) hc_clReleaseContext (data
.ocl
, device_param
->context
);
18355 // reset default fan speed
18358 if (gpu_temp_disable
== 0)
18360 if (gpu_temp_retain
!= 0) // VENDOR_ID_AMD is implied here
18362 hc_thread_mutex_lock (mux_adl
);
18364 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
18366 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
18368 if (device_param
->skipped
) continue;
18370 if (data
.hm_device
[device_id
].fan_set_supported
== 1)
18372 int fanspeed
= temp_retain_fanspeed_value
[device_id
];
18373 int fanpolicy
= temp_retain_fanpolicy_value
[device_id
];
18375 if (fanpolicy
== 1)
18379 if (device_param
->device_vendor_id
== VENDOR_ID_AMD
)
18381 rc
= hm_set_fanspeed_with_device_id_adl (device_id
, fanspeed
, 0);
18383 else if (device_param
->device_vendor_id
== VENDOR_ID_NV
)
18386 rc
= set_fan_control (data
.hm_xnvctrl
, data
.hm_device
[device_id
].xnvctrl
, NV_CTRL_GPU_COOLER_MANUAL_CONTROL_FALSE
);
18390 if (rc
== -1) log_info ("WARNING: Failed to restore default fan speed and policy for device #%", device_id
+ 1);
18395 hc_thread_mutex_unlock (mux_adl
);
18399 // reset power tuning
18401 if (powertune_enable
== 1) // VENDOR_ID_AMD is implied here
18403 hc_thread_mutex_lock (mux_adl
);
18405 for (uint device_id
= 0; device_id
< data
.devices_cnt
; device_id
++)
18407 hc_device_param_t
*device_param
= &data
.devices_param
[device_id
];
18409 if (device_param
->skipped
) continue;
18411 if (data
.devices_param
[device_id
].device_vendor_id
== VENDOR_ID_AMD
)
18413 if (data
.hm_device
[device_id
].od_version
== 6)
18415 // check powertune capabilities first, if not available then skip device
18417 int powertune_supported
= 0;
18419 if ((hm_ADL_Overdrive6_PowerControl_Caps (data
.hm_adl
, data
.hm_device
[device_id
].adl
, &powertune_supported
)) != ADL_OK
)
18421 log_error ("ERROR: Failed to get ADL PowerControl Capabilities");
18426 if (powertune_supported
!= 0)
18428 // powercontrol settings
18430 if ((hm_ADL_Overdrive_PowerControl_Set (data
.hm_adl
, data
.hm_device
[device_id
].adl
, od_power_control_status
[device_id
])) != ADL_OK
)
18432 log_info ("ERROR: Failed to restore the ADL PowerControl values");
18439 ADLOD6StateInfo
*performance_state
= (ADLOD6StateInfo
*) mycalloc (1, sizeof (ADLOD6StateInfo
) + sizeof (ADLOD6PerformanceLevel
));
18441 performance_state
->iNumberOfPerformanceLevels
= 2;
18443 performance_state
->aLevels
[0].iEngineClock
= od_clock_mem_status
[device_id
].state
.aLevels
[0].iEngineClock
;
18444 performance_state
->aLevels
[1].iEngineClock
= od_clock_mem_status
[device_id
].state
.aLevels
[1].iEngineClock
;
18445 performance_state
->aLevels
[0].iMemoryClock
= od_clock_mem_status
[device_id
].state
.aLevels
[0].iMemoryClock
;
18446 performance_state
->aLevels
[1].iMemoryClock
= od_clock_mem_status
[device_id
].state
.aLevels
[1].iMemoryClock
;
18448 if ((hm_ADL_Overdrive_State_Set (data
.hm_adl
, data
.hm_device
[device_id
].adl
, ADL_OD6_SETSTATE_PERFORMANCE
, performance_state
)) != ADL_OK
)
18450 log_info ("ERROR: Failed to restore ADL performance state");
18455 local_free (performance_state
);
18460 if (data
.devices_param
[device_id
].device_vendor_id
== VENDOR_ID_NV
)
18462 unsigned int limit
= nvml_power_limit
[device_id
];
18466 hm_NVML_nvmlDeviceSetPowerManagementLimit (data
.hm_nvml
, 0, data
.hm_device
[device_id
].nvml
, limit
);
18471 hc_thread_mutex_unlock (mux_adl
);
18474 if (gpu_temp_disable
== 0)
18478 hm_NVML_nvmlShutdown (data
.hm_nvml
);
18480 nvml_close (data
.hm_nvml
);
18482 data
.hm_nvml
= NULL
;
18487 hm_NvAPI_Unload (data
.hm_nvapi
);
18489 nvapi_close (data
.hm_nvapi
);
18491 data
.hm_nvapi
= NULL
;
18494 if (data
.hm_xnvctrl
)
18496 hm_XNVCTRL_XCloseDisplay (data
.hm_xnvctrl
);
18498 xnvctrl_close (data
.hm_xnvctrl
);
18500 data
.hm_xnvctrl
= NULL
;
18505 hm_ADL_Main_Control_Destroy (data
.hm_adl
);
18507 adl_close (data
.hm_adl
);
18509 data
.hm_adl
= NULL
;
18512 #endif // HAVE_HWMON
18516 local_free (masks
);
18518 local_free (dictstat_base
);
18520 for (uint pot_pos
= 0; pot_pos
< pot_cnt
; pot_pos
++)
18522 pot_t
*pot_ptr
= &pot
[pot_pos
];
18524 hash_t
*hash
= &pot_ptr
->hash
;
18526 local_free (hash
->digest
);
18530 local_free (hash
->salt
);
18536 local_free (all_kernel_rules_cnt
);
18537 local_free (all_kernel_rules_buf
);
18539 local_free (wl_data
->buf
);
18540 local_free (wl_data
);
18542 local_free (bitmap_s1_a
);
18543 local_free (bitmap_s1_b
);
18544 local_free (bitmap_s1_c
);
18545 local_free (bitmap_s1_d
);
18546 local_free (bitmap_s2_a
);
18547 local_free (bitmap_s2_b
);
18548 local_free (bitmap_s2_c
);
18549 local_free (bitmap_s2_d
);
18552 local_free (temp_retain_fanspeed_value
);
18553 local_free (od_clock_mem_status
);
18554 local_free (od_power_control_status
);
18555 local_free (nvml_power_limit
);
18558 global_free (devices_param
);
18560 global_free (kernel_rules_buf
);
18562 global_free (root_css_buf
);
18563 global_free (markov_css_buf
);
18565 global_free (digests_buf
);
18566 global_free (digests_shown
);
18567 global_free (digests_shown_tmp
);
18569 global_free (salts_buf
);
18570 global_free (salts_shown
);
18572 global_free (esalts_buf
);
18574 global_free (words_progress_done
);
18575 global_free (words_progress_rejected
);
18576 global_free (words_progress_restored
);
18578 if (pot_fp
) fclose (pot_fp
);
18580 if (data
.devices_status
== STATUS_QUIT
) break;
18583 // destroy others mutex
18585 hc_thread_mutex_delete (mux_dispatcher
);
18586 hc_thread_mutex_delete (mux_counter
);
18587 hc_thread_mutex_delete (mux_display
);
18588 hc_thread_mutex_delete (mux_adl
);
18592 local_free (eff_restore_file
);
18593 local_free (new_restore_file
);
18599 tuning_db_destroy (tuning_db
);
18603 local_free (loopback_file
);
18605 if (loopback
== 1) unlink (loopback_file
);
18607 // induction directory
18609 if (induction_dir
== NULL
)
18611 if (attack_mode
!= ATTACK_MODE_BF
)
18613 if (rmdir (induction_directory
) == -1)
18615 if (errno
== ENOENT
)
18617 // good, we can ignore
18619 else if (errno
== ENOTEMPTY
)
18621 // good, we can ignore
18625 log_error ("ERROR: %s: %s", induction_directory
, strerror (errno
));
18631 local_free (induction_directory
);
18635 // outfile-check directory
18637 if (outfile_check_dir
== NULL
)
18639 if (rmdir (outfile_check_directory
) == -1)
18641 if (errno
== ENOENT
)
18643 // good, we can ignore
18645 else if (errno
== ENOTEMPTY
)
18647 // good, we can ignore
18651 log_error ("ERROR: %s: %s", outfile_check_directory
, strerror (errno
));
18657 local_free (outfile_check_directory
);
18664 logfile_top_uint (proc_start
);
18665 logfile_top_uint (proc_stop
);
18667 logfile_top_msg ("STOP");
18669 if (quiet
== 0) log_info_nn ("Started: %s", ctime (&proc_start
));
18670 if (quiet
== 0) log_info_nn ("Stopped: %s", ctime (&proc_stop
));
18672 if (data
.ocl
) ocl_close (data
.ocl
);
18674 if (data
.devices_status
== STATUS_ABORTED
) return 2;
18675 if (data
.devices_status
== STATUS_QUIT
) return 2;
18676 if (data
.devices_status
== STATUS_STOP_AT_CHECKPOINT
) return 2;
18677 if (data
.devices_status
== STATUS_EXHAUSTED
) return 1;
18678 if (data
.devices_status
== STATUS_CRACKED
) return 0;