#ifdef __linux__ #define _POSIX_C_SOURCE 200112L #endif #include #include #include #include #include #include #include #include #include "types.h" #include "likely.h" #include "vec.h" #include "base32.h" #include "cpucount.h" #include "keccak.h" #include "ed25519/ed25519.h" #include "ioutil.h" // additional 0 terminator is added by C static const char * const pkprefix = "== ed25519v1-public: type0 ==\0\0"; #define pkprefixlen (29 + 3) static const char * const skprefix = "== ed25519v1-secret: type0 ==\0\0"; #define skprefixlen (29 + 3) static const char * const checksumstr = ".onion checksum"; #define checksumstrlen 15 // output directory static char *workdir = 0; static size_t workdirlen = 0; static int quietflag = 0; static int wantdedup = 0; #define SECRET_LEN 64 #define PUBLIC_LEN 32 #define SEED_LEN 32 // with checksum + version num #define PUBONION_LEN (PUBLIC_LEN + 3) // with newline included #define ONIONLEN 62 static size_t onionendpos; // end of .onion within string static size_t direndpos; // end of dir before .onion within string static size_t printstartpos; // where to start printing from static size_t printlen; // precalculated, related to printstartpos static pthread_mutex_t fout_mutex; static FILE *fout; static size_t numneedgenerate = 0; static int numwords = 1; static pthread_mutex_t keysgenerated_mutex; static volatile size_t keysgenerated = 0; static volatile int endwork = 0; static void termhandler(int sig) { switch (sig) { case SIGTERM: case SIGINT: endwork = 1; break; } } #include "filters.h" #ifdef STATISTICS #define ADDNUMSUCCESS ++st->numsuccess.v #else #define ADDNUMSUCCESS do ; while (0) #endif // statistics, if enabled #ifdef STATISTICS struct statstruct { union { u32 v; size_t align; } numcalc; union { u32 v; size_t align; } numsuccess; union { u32 v; size_t align; } numrestart; } ; VEC_STRUCT(statsvec,struct statstruct); struct tstatstruct { u64 numcalc; u64 numsuccess; u64 numrestart; u32 oldnumcalc; u32 oldnumsuccess; u32 oldnumrestart; } ; VEC_STRUCT(tstatsvec,struct tstatstruct); #endif static void onionready(char *sname, const u8 *secret, const u8 *pubonion) { if (endwork) return; if (numneedgenerate) { pthread_mutex_lock(&keysgenerated_mutex); if (keysgenerated >= numneedgenerate) { pthread_mutex_unlock(&keysgenerated_mutex); return; } } if (createdir(sname,1) != 0) { if (numneedgenerate) pthread_mutex_unlock(&keysgenerated_mutex); return; } if (numneedgenerate) { ++keysgenerated; if (keysgenerated >= numneedgenerate) endwork = 1; pthread_mutex_unlock(&keysgenerated_mutex); } strcpy(&sname[onionendpos],"/hs_ed25519_secret_key"); writetofile(sname,secret,skprefixlen + SECRET_LEN,1); strcpy(&sname[onionendpos],"/hostname"); FILE *hfile = fopen(sname,"w"); if (hfile) { sname[onionendpos] = '\n'; fwrite(&sname[direndpos],ONIONLEN + 1,1,hfile); fclose(hfile); } strcpy(&sname[onionendpos],"/hs_ed25519_public_key"); writetofile(sname,pubonion,pkprefixlen + PUBLIC_LEN,0); if (fout) { sname[onionendpos] = '\n'; pthread_mutex_lock(&fout_mutex); fwrite(&sname[printstartpos],printlen,1,fout); fflush(fout); pthread_mutex_unlock(&fout_mutex); } } // little endian inc static void addsk32(u8 *sk) { register unsigned int c = 8; for (size_t i = 0;i < 32;++i) { c = (unsigned int)sk[i] + c; sk[i] = c & 0xFF; c >>= 8; // unsure if needed if (!c) break; } } // 0123 4567 xxxx --3--> 3456 7xxx // 0123 4567 xxxx --1--> 1234 567x static inline void shiftpk(u8 *dst,const u8 *src,size_t sbits) { size_t i,sbytes = sbits / 8; sbits %= 8; for (i = 0;i + sbytes < PUBLIC_LEN;++i) { dst[i] = (src[i+sbytes] << sbits) | (src[i+sbytes+1] >> (8 - sbits)); } for(;i < PUBLIC_LEN;++i) dst[i] = 0; } static void *dowork(void *task) { union pubonionunion { u8 raw[pkprefixlen + PUBLIC_LEN + 32]; struct { u64 prefix[4]; u64 key[4]; u64 hash[4]; } i; } pubonion; u8 * const pk = &pubonion.raw[pkprefixlen]; u8 secret[skprefixlen + SECRET_LEN]; u8 * const sk = &secret[skprefixlen]; u8 seed[SEED_LEN]; u8 hashsrc[checksumstrlen + PUBLIC_LEN + 1]; u8 wpk[PUBLIC_LEN + 1]; size_t i; char *sname; #ifdef STATISTICS struct statstruct *st = (struct statstruct *)task; #endif memcpy(secret,skprefix,skprefixlen); wpk[PUBLIC_LEN] = 0; memset(&pubonion,0,sizeof(pubonion)); memcpy(pubonion.raw,pkprefix,pkprefixlen); // write version later as it will be overwritten by hash memcpy(hashsrc,checksumstr,checksumstrlen); hashsrc[checksumstrlen + PUBLIC_LEN] = 0x03; // version sname = malloc(workdirlen + ONIONLEN + 63 + 1); if (!sname) abort(); if (workdir) memcpy(sname,workdir,workdirlen); initseed: randombytes(seed,sizeof(seed)); ed25519_seckey_expand(sk,seed); #ifdef STATISTICS ++st->numrestart.v; #endif again: if (unlikely(endwork)) goto end; ed25519_pubkey(pk,sk); #ifdef STATISTICS ++st->numcalc.v; #endif DOFILTER(i,pk,{ if (numwords > 1) { shiftpk(wpk,pk,filter_len(i)); size_t j; for (int w = 1;;) { DOFILTER(j,wpk,goto secondfind); goto next; secondfind: if (++w >= numwords) break; shiftpk(wpk,wpk,filter_len(j)); } } // sanity check if ((sk[0] & 248) != sk[0] || ((sk[31] & 63) | 64) != sk[31]) goto initseed; ADDNUMSUCCESS; // calc checksum memcpy(&hashsrc[checksumstrlen],pk,PUBLIC_LEN); FIPS202_SHA3_256(hashsrc,sizeof(hashsrc),&pk[PUBLIC_LEN]); // version byte pk[PUBLIC_LEN + 2] = 0x03; // base32 strcpy(base32_to(&sname[direndpos],pk,PUBONION_LEN), ".onion"); onionready(sname,secret,pubonion.raw); pk[PUBLIC_LEN] = 0; goto initseed; }); next: addsk32(sk); goto again; end: free(sname); return 0; } static void addsztoscalar32(u8 *dst,size_t v) { int i; u32 c = 0; for (i = 0;i < 32;++i) { c += *dst + (v & 0xFF); *dst = c & 0xFF; c >>= 8; v >>= 8; ++dst; } } static void *dofastwork(void *task) { union pubonionunion { u8 raw[pkprefixlen + PUBLIC_LEN + 32]; struct { u64 prefix[4]; u64 key[4]; u64 hash[4]; } i; } pubonion; u8 * const pk = &pubonion.raw[pkprefixlen]; u8 secret[skprefixlen + SECRET_LEN]; u8 * const sk = &secret[skprefixlen]; u8 seed[SEED_LEN]; u8 hashsrc[checksumstrlen + PUBLIC_LEN + 1]; u8 wpk[PUBLIC_LEN + 1]; ge_p3 ge_public; size_t counter; size_t i; char *sname; #ifdef STATISTICS struct statstruct *st = (struct statstruct *)task; #endif memcpy(secret, skprefix, skprefixlen); wpk[PUBLIC_LEN] = 0; memset(&pubonion,0,sizeof(pubonion)); memcpy(pubonion.raw,pkprefix,pkprefixlen); // write version later as it will be overwritten by hash memcpy(hashsrc,checksumstr,checksumstrlen); hashsrc[checksumstrlen + PUBLIC_LEN] = 0x03; // version sname = malloc(workdirlen + ONIONLEN + 63 + 1); if (!sname) abort(); if (workdir) memcpy(sname,workdir,workdirlen); initseed: #ifdef STATISTICS ++st->numrestart.v; #endif randombytes(seed,sizeof(seed)); ed25519_seckey_expand(sk,seed); ge_scalarmult_base(&ge_public,sk); ge_p3_tobytes(pk,&ge_public); for (counter = 0;counter < SIZE_MAX-8;counter += 8) { ge_p1p1 sum; if (unlikely(endwork)) goto end; DOFILTER(i,pk,{ if (numwords > 1) { shiftpk(wpk,pk,filter_len(i)); size_t j; for (int w = 1;;) { DOFILTER(j,wpk,goto secondfind); goto next; secondfind: if (++w >= numwords) break; shiftpk(wpk,wpk,filter_len(j)); } } // found! // update secret key with counter addsztoscalar32(sk,counter); // sanity check if ((sk[0] & 248) != sk[0] || ((sk[31] & 63) | 64) != sk[31]) goto initseed; ADDNUMSUCCESS; // calc checksum memcpy(&hashsrc[checksumstrlen],pk,PUBLIC_LEN); FIPS202_SHA3_256(hashsrc,sizeof(hashsrc),&pk[PUBLIC_LEN]); // version byte pk[PUBLIC_LEN + 2] = 0x03; // full name strcpy(base32_to(&sname[direndpos],pk,PUBONION_LEN),".onion"); onionready(sname,secret,pubonion.raw); pk[PUBLIC_LEN] = 0; // don't reuse same seed goto initseed; }); next: ge_add(&sum, &ge_public,&ge_eightpoint); ge_p1p1_to_p3(&ge_public,&sum); ge_p3_tobytes(pk,&ge_public); #ifdef STATISTICS ++st->numcalc.v; #endif } goto initseed; end: free(sname); return 0; } void printhelp(const char *progname) { fprintf(stderr, "Usage: %s filter [filter...] [options]\n" " %s -f filterfile [options]\n" "Options:\n" "\t-h - print help\n" "\t-f - instead of specifying filter(s) via commandline, specify filter file which contains filters separated by newlines\n" "\t-q - do not print diagnostic output to stderr\n" "\t-x - do not print onion names\n" "\t-o filename - output onion names to specified file\n" "\t-F - include directory names in onion names output\n" "\t-d dirname - output directory\n" "\t-t numthreads - specify number of threads (default - auto)\n" "\t-j numthreads - same as -t\n" "\t-n numkeys - specify number of keys (default - 0 - unlimited)\n" "\t-N numwords - specify number of words per key (default - 1)\n" "\t-z - use faster key generation method. this is now default\n" "\t-Z - use slower key generation method\n" "\t-s - print statistics each 10 seconds\n" "\t-S t - print statistics every specified ammount of seconds\n" "\t-T - do not reset statistics counters when printing\n" ,progname,progname); exit(1); } void setworkdir(const char *wd) { free(workdir); size_t l = strlen(wd); if (!l) { workdir = 0; workdirlen = 0; if (!quietflag) fprintf(stderr, "unset workdir\n"); return; } int needslash = 0; if (wd[l-1] != '/') needslash = 1; char *s = malloc(l + needslash + 1); if (!s) abort(); memcpy(s, wd, l); if (needslash) s[l++] = '/'; s[l] = 0; workdir = s; workdirlen = l; if (!quietflag) fprintf(stderr,"set workdir: %s\n",workdir); } VEC_STRUCT(threadvec, pthread_t); int main(int argc,char **argv) { char *outfile = 0; const char *arg; int ignoreargs = 0; int dirnameflag = 0; int numthreads = 0; int fastkeygen = 1; struct threadvec threads; #ifdef STATISTICS struct statsvec stats; struct tstatsvec tstats; u64 reportdelay = 0; int realtimestats = 1; #endif int tret; ge_initeightpoint(); filters_init(); fout = stdout; pthread_mutex_init(&keysgenerated_mutex, 0); pthread_mutex_init(&fout_mutex, 0); const char *progname = argv[0]; if (argc <= 1) printhelp(progname); argc--, argv++; while (argc--) { arg = *argv++; if (!ignoreargs && *arg == '-') { int numargit = 0; nextarg: ++arg; ++numargit; if (*arg == '-') { if (numargit > 1) { fprintf(stderr, "unrecognised argument: -\n"); exit(1); } ++arg; if (!*arg) ignoreargs = 1; else if (!strcmp(arg, "help")) printhelp(progname); else { fprintf(stderr, "unrecognised argument: --%s\n", arg); exit(1); } numargit = 0; } else if (*arg == 0) { if (numargit == 1) ignoreargs = 1; continue; } else if (*arg == 'h') printhelp(progname); else if (*arg == 'f') { if (argc--) loadfilterfile(*argv++); else { fprintf(stderr, "additional argument required\n"); exit(1); } } else if (*arg == 'q') ++quietflag; else if (*arg == 'x') fout = 0; else if (*arg == 'o') { if (argc--) outfile = *argv++; else { fprintf(stderr, "additional argument required\n"); exit(1); } } else if (*arg == 'F') dirnameflag = 1; else if (*arg == 'd') { if (argc--) { setworkdir(*argv++); } else { fprintf(stderr, "additional argument required\n"); } } else if (*arg == 't' || *arg == 'j') { if (argc--) numthreads = atoi(*argv++); else { fprintf(stderr, "additional argument required\n"); exit(1); } } else if (*arg == 'n') { if (argc--) numneedgenerate = (size_t)atoll(*argv++); else { fprintf(stderr, "additional argument required\n"); exit(1); } } else if (*arg == 'N') { if (argc--) numwords = atoi(*argv++); else { fprintf(stderr, "additional argument required\n"); exit(1); } } else if (*arg == 'Z') fastkeygen = 0; else if (*arg == 'z') fastkeygen = 1; else if (*arg == 's') { #ifdef STATISTICS reportdelay = 10000000; #else fprintf(stderr,"statistics support not compiled in\n"); exit(1); #endif } else if (*arg == 'S') { #ifdef STATISTICS if (argc--) reportdelay = (u64)atoll(*argv++) * 1000000; else { fprintf(stderr, "additional argument required\n"); exit(1); } #else fprintf(stderr,"statistics support not compiled in\n"); exit(1); #endif } else if (*arg == 'T') { #ifdef STATISTICS realtimestats = 0; #else fprintf(stderr,"statistics support not compiled in\n"); exit(1); #endif } else { fprintf(stderr, "unrecognised argument: -%c\n", *arg); exit(1); } if (numargit) goto nextarg; } else filters_add(arg); } filters_prepare(); filters_print(); #ifdef STATISTICS if (!filters_count() && !reportdelay) #else if (!filters_count()) #endif return 0; #ifdef EXPANDMASK if (numwords > 1 && flattened) fprintf(stderr,"WARNING: -N switch will produce bogus results because we can't know filter width. reconfigure with --enable-besort and recompile.\n"); #endif if (outfile) fout = fopen(outfile, "w"); if (workdir) createdir(workdir,1); direndpos = workdirlen; onionendpos = workdirlen + ONIONLEN; if (!dirnameflag) { printstartpos = direndpos; printlen = ONIONLEN + 1; } else { printstartpos = 0; printlen = onionendpos + 1; } if (numthreads <= 0) { numthreads = cpucount(); if (numthreads <= 0) numthreads = 1; if (!quietflag) fprintf(stderr,"using %d %s\n", numthreads,numthreads == 1 ? "thread" : "threads"); } signal(SIGTERM,termhandler); signal(SIGINT,termhandler); VEC_INIT(threads); VEC_ADDN(threads,numthreads); #ifdef STATISTICS VEC_INIT(stats); VEC_ADDN(stats,numthreads); VEC_ZERO(stats); VEC_INIT(tstats); VEC_ADDN(tstats,numthreads); VEC_ZERO(tstats); #endif for (size_t i = 0;i < VEC_LENGTH(threads);++i) { void *tp = 0; #ifdef STATISTICS tp = &VEC_BUF(stats,i); #endif tret = pthread_create(&VEC_BUF(threads,i),0,fastkeygen ? dofastwork : dowork,tp); if (tret) { fprintf(stderr,"error while making %zuth thread: %d\n",i,tret); exit(1); } } #ifdef STATISTICS struct timespec nowtime; u64 istarttime,inowtime,ireporttime = 0,elapsedoffset = 0; if (clock_gettime(CLOCK_MONOTONIC,&nowtime) < 0) { fprintf(stderr, "failed to get time\n"); exit(1); } istarttime = (1000000 * (u64)nowtime.tv_sec) + (nowtime.tv_nsec / 1000); #endif struct timespec ts; memset(&ts,0,sizeof(ts)); ts.tv_nsec = 100000000; while (!endwork) { if (numneedgenerate && keysgenerated >= numneedgenerate) { endwork = 1; break; } nanosleep(&ts,0); #ifdef STATISTICS clock_gettime(CLOCK_MONOTONIC,&nowtime); inowtime = (1000000 * (u64)nowtime.tv_sec) + (nowtime.tv_nsec / 1000); u64 sumcalc = 0,sumsuccess = 0,sumrestart = 0; for (size_t i = 0;i < numthreads;++i) { u32 newt,tdiff; // numcalc newt = VEC_BUF(stats,i).numcalc.v; tdiff = newt - VEC_BUF(tstats,i).oldnumcalc; VEC_BUF(tstats,i).oldnumcalc = newt; VEC_BUF(tstats,i).numcalc += (u64)tdiff; sumcalc += VEC_BUF(tstats,i).numcalc; // numsuccess newt = VEC_BUF(stats,i).numsuccess.v; tdiff = newt - VEC_BUF(tstats,i).oldnumsuccess; VEC_BUF(tstats,i).oldnumsuccess = newt; VEC_BUF(tstats,i).numsuccess += (u64)tdiff; sumsuccess += VEC_BUF(tstats,i).numsuccess; // numrestart newt = VEC_BUF(stats,i).numrestart.v; tdiff = newt - VEC_BUF(tstats,i).oldnumrestart; VEC_BUF(tstats,i).oldnumrestart = newt; VEC_BUF(tstats,i).numrestart += (u64)tdiff; sumrestart += VEC_BUF(tstats,i).numrestart; } if (reportdelay && (!ireporttime || inowtime - ireporttime >= reportdelay)) { if (ireporttime) ireporttime += reportdelay; else ireporttime = inowtime; if (!ireporttime) ireporttime = 1; double calcpersec = (1000000.0 * sumcalc) / (inowtime - istarttime); double succpersec = (1000000.0 * sumsuccess) / (inowtime - istarttime); double restpersec = (1000000.0 * sumrestart) / (inowtime - istarttime); fprintf(stderr,">calc/sec:%8lf, succ/sec:%8lf, rest/sec:%8lf, elapsed:%5.6lfsec\n", calcpersec,succpersec,restpersec, (inowtime - istarttime + elapsedoffset) / 1000000.0); if (realtimestats) { for (size_t i = 0;i < numthreads;++i) { VEC_BUF(tstats,i).numcalc = 0; VEC_BUF(tstats,i).numsuccess = 0; VEC_BUF(tstats,i).numrestart = 0; } elapsedoffset += inowtime - istarttime; istarttime = inowtime; } } if (sumcalc > U64_MAX / 2) { for (size_t i = 0;i < numthreads;++i) { VEC_BUF(tstats,i).numcalc /= 2; VEC_BUF(tstats,i).numsuccess /= 2; VEC_BUF(tstats,i).numrestart /= 2; } u64 timediff = (inowtime - istarttime + 1) / 2; elapsedoffset += timediff; istarttime += timediff; } #endif } if (!quietflag) fprintf(stderr, "waiting for threads to finish..."); for (size_t i = 0;i < VEC_LENGTH(threads);++i) pthread_join(VEC_BUF(threads,i),0); if (!quietflag) fprintf(stderr, " done.\n"); pthread_mutex_destroy(&keysgenerated_mutex); pthread_mutex_destroy(&fout_mutex); filters_clean(); if (outfile) fclose(fout); return 0; }