5 * Measure performance of various operations (Unix-specific)
7 * (c) 2004 Straylight/Edgeware
10 /*----- Licensing notice --------------------------------------------------*
12 * This file is part of Catacomb.
14 * Catacomb is free software; you can redistribute it and/or modify
15 * it under the terms of the GNU Library General Public License as
16 * published by the Free Software Foundation; either version 2 of the
17 * License, or (at your option) any later version.
19 * Catacomb is distributed in the hope that it will be useful,
20 * but WITHOUT ANY WARRANTY; without even the implied warranty of
21 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22 * GNU Library General Public License for more details.
24 * You should have received a copy of the GNU Library General Public
25 * License along with Catacomb; if not, write to the Free
26 * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
30 /*----- Header files ------------------------------------------------------*/
32 #define _FILE_OFFSET_BITS 64
44 #include <sys/types.h>
48 #include <mLib/alloc.h>
49 #include <mLib/dstr.h>
50 #include <mLib/mdwopt.h>
51 #include <mLib/quis.h>
52 #include <mLib/report.h>
62 #include "mpbarrett.h"
75 /*----- Options -----------------------------------------------------------*/
78 const char *name
; /* Pre-configured named thing */
79 unsigned fbits
; /* Field size bits */
80 unsigned gbits
; /* Group size bits */
81 unsigned n
; /* Number of factors */
82 unsigned i
; /* Number of intervals (or zero) */
83 double t
; /* Time for each interval (secs) */
84 unsigned f
; /* Flags */
85 #define OF_NOCHECK 1u /* Don't do group checking */
88 /*----- Job switch --------------------------------------------------------*/
90 /* --- Barrett exponentiation --- */
92 typedef struct bar_ctx
{
98 static void *bar_init(opts
*o
)
100 bar_ctx
*c
= CREATE(bar_ctx
);
107 if (dh_parse(&qd
, &gp
))
108 die(1, "bad prime group: %s", qd
.e
);
110 if (!o
->fbits
) o
->fbits
= 1024;
111 dh_gen(&gp
, o
->gbits
, o
->fbits
, 0, &rand_global
, pgen_evspin
, 0);
113 mpbarrett_create(&c
->b
, gp
.p
);
116 c
->e
= xmalloc(c
->n
* sizeof(group_expfactor
));
117 for (i
= 0; i
< c
->n
; i
++) {
118 c
->e
[i
].base
= mprand_range(MP_NEW
, gp
.p
, &rand_global
, 0);
119 c
->e
[i
].exp
= mprand_range(MP_NEW
, gp
.q
, &rand_global
, 0);
125 static void bar_run(void *cc
)
128 mp
*d
= mpbarrett_exp(&c
->b
, MP_NEW
, c
->e
[0].base
, c
->e
[0].exp
);
132 static void barsim_run(void *cc
)
135 mp
*d
= mpbarrett_mexp(&c
->b
, MP_NEW
, c
->e
, c
->n
);
139 /* --- Montgomery exponentiation --- */
141 typedef struct mont_ctx
{
147 static void *mont_init(opts
*o
)
149 mont_ctx
*c
= CREATE(mont_ctx
);
156 if (dh_parse(&qd
, &gp
))
157 die(1, "bad prime group: %s", qd
.e
);
159 if (!o
->fbits
) o
->fbits
= 1024;
160 dh_gen(&gp
, o
->gbits
, o
->fbits
, 0, &rand_global
, pgen_evspin
, 0);
162 mpmont_create(&c
->m
, gp
.p
);
165 c
->e
= xmalloc(c
->n
* sizeof(mp_expfactor
));
166 for (i
= 0; i
< c
->n
; i
++) {
167 c
->e
[i
].base
= mprand_range(MP_NEW
, gp
.p
, &rand_global
, 0);
168 c
->e
[i
].exp
= mprand_range(MP_NEW
, gp
.q
, &rand_global
, 0);
174 static void mont_run(void *cc
)
177 mp
*d
= mpmont_expr(&c
->m
, MP_NEW
, c
->e
[0].base
, c
->e
[0].exp
);
181 static void montsim_run(void *cc
)
184 mp
*d
= mpmont_mexpr(&c
->m
, MP_NEW
, c
->e
, c
->n
);
188 /* --- Group exponentiation --- */
190 typedef struct gr_ctx
{
196 static void *grp_init(opts
*o
)
198 gr_ctx
*c
= CREATE(gr_ctx
);
206 if (dh_parse(&qd
, &gp
))
207 die(1, "bad prime group: %s", qd
.e
);
209 if (!o
->fbits
) o
->fbits
= 1024;
210 dh_gen(&gp
, o
->gbits
, o
->fbits
, 0, &rand_global
, pgen_evspin
, 0);
212 c
->g
= group_prime(&gp
);
213 if (!(o
->f
& OF_NOCHECK
) && (e
= G_CHECK(c
->g
, &rand_global
)) != 0)
214 die(1, "bad group: %s", e
);
217 c
->e
= xmalloc(c
->n
* sizeof(group_expfactor
));
218 for (i
= 0; i
< c
->n
; i
++) {
219 c
->e
[i
].base
= G_CREATE(c
->g
);
220 G_FROMINT(c
->g
, c
->e
[i
].base
,
221 mprand_range(MP_NEW
, gp
.p
, &rand_global
, 0));
222 c
->e
[i
].exp
= mprand_range(MP_NEW
, gp
.q
, &rand_global
, 0);
228 static void *grec_init(opts
*o
)
230 gr_ctx
*c
= CREATE(gr_ctx
);
237 die(1, "can't generate elliptic curves");
238 if ((e
= ec_getinfo(&ei
, o
->name
)) != 0)
239 die(1, "bad curve: %s", e
);
240 c
->g
= group_ec(&ei
);
241 if (!(o
->f
& OF_NOCHECK
) && (e
= G_CHECK(c
->g
, &rand_global
)) != 0)
242 die(1, "bad group: %s", e
);
245 c
->e
= xmalloc(c
->n
* sizeof(group_expfactor
));
246 for (i
= 0; i
< c
->n
; i
++) {
247 c
->e
[i
].base
= G_CREATE(c
->g
);
248 ec_rand(ei
.c
, &p
, &rand_global
);
249 G_FROMEC(c
->g
, c
->e
[i
].base
, &p
);
250 c
->e
[i
].exp
= mprand_range(MP_NEW
, ei
.r
, &rand_global
, 0);
256 static void gr_run(void *cc
)
259 ge
*x
= G_CREATE(c
->g
);
260 G_EXP(c
->g
, x
, c
->e
[0].base
, c
->e
[0].exp
);
264 static void grsim_run(void *cc
)
267 ge
*x
= G_CREATE(c
->g
);
268 G_MEXP(c
->g
, x
, c
->e
, c
->n
);
274 typedef struct rsapriv_ctx
{
280 static void *rsapriv_init(opts
*o
)
282 rsapriv_ctx
*c
= CREATE(rsapriv_ctx
);
284 if (!o
->fbits
) o
->fbits
= 1024;
285 rsa_gen(&c
->rp
, o
->fbits
, &rand_global
, 0, pgen_evspin
, 0);
286 rsa_privcreate(&c
->rpc
, &c
->rp
, 0);
287 c
->m
= mprand_range(MP_NEW
, c
->rp
.n
, &rand_global
, 0);
291 static void *rsaprivblind_init(opts
*o
)
293 rsapriv_ctx
*c
= CREATE(rsapriv_ctx
);
295 if (!o
->fbits
) o
->fbits
= 1024;
296 rsa_gen(&c
->rp
, o
->fbits
, &rand_global
, 0, pgen_evspin
, 0);
297 rsa_privcreate(&c
->rpc
, &c
->rp
, fibrand_create(0));
298 c
->m
= mprand_range(MP_NEW
, c
->rp
.n
, &rand_global
, 0);
302 static void rsapriv_run(void *cc
)
305 mp
*d
= rsa_privop(&c
->rpc
, MP_NEW
, c
->m
);
309 typedef struct rsapub_ctx
{
315 static void *rsapub_init(opts
*o
)
317 rsapub_ctx
*c
= CREATE(rsapub_ctx
);
320 if (!o
->fbits
) o
->fbits
= 1024;
321 rsa_gen(&rp
, o
->fbits
, &rand_global
, 0, pgen_evspin
, 0);
322 c
->rp
.n
= MP_COPY(rp
.n
);
323 c
->rp
.e
= MP_COPY(rp
.e
);
325 rsa_pubcreate(&c
->rpc
, &c
->rp
);
326 c
->m
= mprand_range(MP_NEW
, c
->rp
.n
, &rand_global
, 0);
330 static void rsapub_run(void *cc
)
333 mp
*d
= rsa_pubop(&c
->rpc
, MP_NEW
, c
->m
);
337 /* --- Symmetric encryption --- */
339 typedef struct ksched_ctx
{
345 static void *ksched_init(opts
*o
)
347 ksched_ctx
*c
= CREATE(ksched_ctx
);
349 die(1, "must specify encryption scheme name");
350 if ((c
->c
= gcipher_byname(o
->name
)) == 0)
351 die(1, "encryption scheme `%s' not known", o
->name
);
352 c
->ksz
= keysz(o
->gbits
/8, c
->c
->keysz
);
353 c
->k
= xmalloc(c
->ksz
);
354 rand_get(RAND_GLOBAL
, c
->k
, c
->ksz
);
358 static void ksched_run(void *cc
)
361 gcipher
*gc
= GC_INIT(c
->c
, c
->k
, c
->ksz
);
365 typedef struct enc_ctx
{
372 static void *enc_init(opts
*o
)
374 enc_ctx
*c
= CREATE(enc_ctx
);
379 die(1, "must specify encryption scheme name");
380 if ((cc
= gcipher_byname(o
->name
)) == 0)
381 die(1, "encryption scheme `%s' not known", o
->name
);
382 ksz
= keysz(0, cc
->keysz
);
384 rand_get(RAND_GLOBAL
, k
, ksz
);
385 c
->c
= GC_INIT(cc
, k
, ksz
);
387 c
->sz
= o
->gbits ? o
->gbits
: 65536;
388 c
->n
= o
->n ? o
->n
: 16;
389 c
->m
= xmalloc(c
->sz
);
393 static void enc_run(void *cc
)
397 for (i
= 0; i
< c
->n
; i
++)
398 GC_ENCRYPT(c
->c
, c
->m
, c
->m
, c
->sz
);
401 /* --- Hashing --- */
403 typedef struct hash_ctx
{
410 static void *hash_init(opts
*o
)
412 hash_ctx
*c
= CREATE(hash_ctx
);
414 die(1, "must specify hash function name");
415 if ((c
->h
= ghash_byname(o
->name
)) == 0)
416 die(1, "hash function `%s' not known", o
->name
);
417 c
->sz
= o
->gbits ? o
->gbits
: 65536;
418 c
->n
= o
->n ? o
->n
: 16;
419 c
->m
= xmalloc(c
->sz
);
423 static void hash_run(void *cc
)
427 ghash
*h
= GH_INIT(c
->h
);
428 for (i
= 0; i
< c
->n
; i
++)
429 GH_HASH(h
, c
->m
, c
->sz
);
434 /* --- Job table --- */
436 typedef struct jobops
{
438 void *(*init
)(opts
*);
442 static const jobops jobtab
[] = {
443 { "g-prime-exp", grp_init
, gr_run
},
444 { "g-ec-mul", grec_init
, gr_run
},
445 { "g-prime-exp-sim", grp_init
, grsim_run
},
446 { "g-ec-mul-sim", grec_init
, grsim_run
},
447 { "barrett-exp", bar_init
, bar_run
},
448 { "barrett-exp-sim", bar_init
, barsim_run
},
449 { "mont-exp", mont_init
, mont_run
},
450 { "mont-exp-sim", mont_init
, montsim_run
},
451 { "rsa-priv", rsapriv_init
, rsapriv_run
},
452 { "rsa-priv-blind", rsaprivblind_init
, rsapriv_run
},
453 { "rsa-pub", rsapub_init
, rsapub_run
},
454 { "ksched", ksched_init
, ksched_run
},
455 { "enc", enc_init
, enc_run
},
456 { "hash", hash_init
, hash_run
},
460 /*----- Main code ---------------------------------------------------------*/
462 void version(FILE *fp
)
464 pquis(fp
, "$, Catacomb " VERSION
"\n");
467 static void usage(FILE *fp
)
469 pquis(fp
, "Usage: $ [-options] job\n");
472 static void help(FILE *fp
)
478 Various performance tests.\n\
482 -h, --help Show this help text.\n\
483 -v, --version Show program version number.\n\
484 -u, --usage Show terse usage message.\n\
485 -l, --list [ITEM...] List all the various names of things.\n\
487 -C, --name=NAME Select curve/DH-group/enc/hash name.\n\
488 -b, --field-bits Field size for g-prime and rsa.\n\
489 -q, --no-check Don't check field/group for validity.\n\
490 -B, --group-bits Group size for g-prime; key size for ksched;\n\
491 data size for enc and hash.\n\
492 -n, --factors=COUNT Number of factors for {exp,mul}-sim.\n\
493 -i, --intervals=COUNT Number of intervals to run for. [0; forever]\n\
494 -t, --time=TIME Length of an interval in seconds. [1]\n\
500 listtab[i].name, listtab[i].name) \
502 jobtab[i].name, jobtab[i].name) \
503 LI("Elliptic curves", ec, \
504 ectab[i].name, ectab[i].name) \
505 LI("Diffie-Hellman groups", dh, \
506 ptab[i].name, ptab[i].name) \
507 LI("Encryption algorithms", cipher, \
508 gciphertab[i], gciphertab[i]->name) \
509 LI("Hash functions", hash, \
510 ghashtab[i], ghashtab[i]->name)
512 MAKELISTTAB(listtab
, LISTS
)
514 static unsigned uarg(const char *what
, const char *p
)
519 u
= strtoul(p
, &q
, 0);
520 if (*q
|| u
> UINT_MAX
|| q
== p
|| errno
)
521 die(1, "bad %s `%s'", what
, p
);
525 static double farg(const char *what
, const char *p
)
531 if (*q
|| q
== p
|| errno
)
532 die(1, "bad %s `%s'", what
, p
);
536 int main(int argc
, char *argv
[])
541 struct timeval tv_next
, tv_now
;
545 clock_t c_start
, c_stop
;
552 static const struct option opts
[] = {
553 { "help", 0, 0, 'h' },
554 { "version", 0, 0, 'v' },
555 { "usage", 0, 0, 'u' },
556 { "list", 0, 0, 'l' },
557 { "name", OPTF_ARGREQ
, 0, 'C' },
558 { "field-bits", OPTF_ARGREQ
, 0, 'b' },
559 { "group-bits", OPTF_ARGREQ
, 0, 'B' },
560 { "factors", OPTF_ARGREQ
, 0, 'n' },
561 { "intervals", OPTF_ARGREQ
, 0, 'i' },
562 { "time", OPTF_ARGREQ
, 0, 't' },
563 { "no-check", 0, 0, 'q' },
567 i
= mdwopt(argc
, argv
, "hvulC:b:B:n:i:t:q", opts
, 0, 0, 0);
570 case 'h': help(stdout
); exit(0);
571 case 'v': version(stdout
); exit(0);
572 case 'u': usage(stdout
); exit(0);
573 case 'l': exit(displaylists(listtab
, argv
+ optind
));
574 case 'C': o
.name
= optarg
; break;
575 case 'b': o
.fbits
= uarg("field bits", optarg
); break;
576 case 'B': o
.gbits
= uarg("subgroup bits", optarg
); break;
577 case 'n': o
.n
= uarg("factor count", optarg
); break;
578 case 'i': o
.i
= uarg("interval count", optarg
); break;
579 case 't': o
.t
= farg("interval length", optarg
); break;
580 case 'q': o
.f
|= OF_NOCHECK
; break;
581 default: usage(stderr
); exit(1);
584 if (optind
+ 1 != argc
) { usage(stderr
); exit(1); }
586 for (j
= jobtab
; j
->name
; j
++)
587 if (strcmp(j
->name
, argv
[optind
]) == 0) break;
588 if (!j
->name
) die(1, "unknown job type `%s'", argv
[optind
]);
593 gettimeofday(&tv_now
, 0);
595 tv_addl(&tv_next
, &tv_now
, o
.t
, fmod(o
.t
* MILLION
, MILLION
));
601 gettimeofday(&tv_now
, 0);
602 } while (TV_CMP(&tv_now
, <, &tv_next
));
604 t
= (double)(c_stop
- c_start
)/CLOCKS_PER_SEC
;
607 printf("%5u: did = %5lu; /sec = %5f; avg /sec = %5f\n",
608 n
, ii
, ii
/t
, itot
/ttot
);
611 } while (!o
.i
|| n
< o
.i
);
616 /*----- That's all, folks -------------------------------------------------*/