ref: f4f19cdf1a8f0d2aa5f9fce10c896201528b5347
dir: /sys/src/cmd/spin/main.c/
/***** spin: main.c *****/ /* * This file is part of the public release of Spin. It is subject to the * terms in the LICENSE file that is included in this source directory. * Tool documentation is available at http://spinroot.com */ #include <stdlib.h> #include <assert.h> #include "spin.h" #include "version.h" #include <sys/types.h> #include <sys/stat.h> #include <signal.h> #include <time.h> #ifdef PC #include <io.h> #else #include <unistd.h> #endif #include "y.tab.h" extern int DstepStart, lineno, tl_terse; extern FILE *yyin, *yyout, *tl_out; extern Symbol *context; extern char *claimproc; extern void repro_src(void); extern void qhide(int); extern char CurScope[MAXSCOPESZ]; extern short has_provided, has_code, has_ltl, has_accept; extern int realread, buzzed; static void add_comptime(char *); static void add_runtime(char *); Symbol *Fname, *oFname; int Etimeouts; /* nr timeouts in program */ int Ntimeouts; /* nr timeouts in never claim */ int analyze, columns, dumptab, has_remote, has_remvar; int interactive, jumpsteps, m_loss, nr_errs, cutoff; int s_trail, ntrail, verbose, xspin, notabs, rvopt; int no_print, no_wrapup, Caccess, limited_vis, like_java; int separate; /* separate compilation */ int export_ast; /* pangen5.c */ int norecompile; /* main.c */ int old_scope_rules; /* use pre 5.3.0 rules */ int old_priority_rules; /* use pre 6.2.0 rules */ int product, Strict; short replay; int merger = 1, deadvar = 1, implied_semis = 1; int ccache = 0; /* oyvind teig: 5.2.0 case caching off by default */ static int preprocessonly, SeedUsed, itsr, itsr_n; static int seedy; /* be verbose about chosen seed */ static int inlineonly; /* show inlined code */ static int dataflow = 1; #if 0 meaning of flags on verbose: 1 -g global variable values 2 -l local variable values 4 -p all process actions 8 -r receives 16 -s sends 32 -v verbose 64 -w very verbose #endif static char Operator[] = "operator: "; static char Keyword[] = "keyword: "; static char Function[] = "function-name: "; static char **add_ltl = (char **) 0; static char **ltl_file = (char **) 0; static char **nvr_file = (char **) 0; static char *ltl_claims = (char *) 0; static char *pan_runtime = ""; static char *pan_comptime = ""; static char formula[4096]; static FILE *fd_ltl = (FILE *) 0; static char *PreArg[64]; static int PreCnt = 0; static char out1[64]; char **trailfilename; /* new option 'k' */ void explain(int); #define CPP "/bin/cpp" /* sometimes: "/lib/cpp" */ static char PreProc[512]; extern int depth; /* at least some steps were made */ int WhatSeed(void) { return SeedUsed; } void final_fiddle(void) { char *has_a, *has_l, *has_f; /* no -a or -l but has_accept: add -a */ /* no -a or -l in pan_runtime: add -DSAFETY to pan_comptime */ /* -a or -l but no -f then add -DNOFAIR */ has_a = strstr(pan_runtime, "-a"); has_l = strstr(pan_runtime, "-l"); has_f = strstr(pan_runtime, "-f"); if (!has_l && !has_a && strstr(pan_comptime, "-DNP")) { add_runtime("-l"); has_l = strstr(pan_runtime, "-l"); } if (!has_a && !has_l && !strstr(pan_comptime, "-DSAFETY")) { if (has_accept && !strstr(pan_comptime, "-DBFS") && !strstr(pan_comptime, "-DNOCLAIM")) { add_runtime("-a"); has_a = pan_runtime; } else { add_comptime("-DSAFETY"); } } if ((has_a || has_l) && !has_f && !strstr(pan_comptime, "-DNOFAIR")) { add_comptime("-DNOFAIR"); } } static int change_param(char *t, char *what, int range, int bottom) { char *ptr; int v; assert(range < 1000 && range > 0); if ((ptr = strstr(t, what)) != NULL) { ptr += strlen(what); if (!isdigit((int) *ptr)) { return 0; } v = atoi(ptr) + 1; /* was: v = (atoi(ptr)+1)%range */ if (v >= range) { v = bottom; } if (v >= 100) { *ptr++ = '0' + (v/100); v %= 100; *ptr++ = '0' + (v/10); *ptr = '0' + (v%10); } else if (v >= 10) { *ptr++ = '0' + (v/10); *ptr++ = '0' + (v%10); *ptr = ' '; } else { *ptr++ = '0' + v; *ptr++ = ' '; *ptr = ' '; } } return 1; } static void change_rs(char *t) { char *ptr; int cnt = 0; long v; if ((ptr = strstr(t, "-RS")) != NULL) { ptr += 3; /* room for at least 10 digits */ v = Rand()%1000000000L; while (v/10 > 0) { *ptr++ = '0' + v%10; v /= 10; cnt++; } *ptr++ = '0' + v; cnt++; while (cnt++ < 10) { *ptr++ = ' '; } } } int omit_str(char *in, char *s) { char *ptr = strstr(in, s); int i, nr = -1; if (ptr) { for (i = 0; i < (int) strlen(s); i++) { *ptr++ = ' '; } if (isdigit((int) *ptr)) { nr = atoi(ptr); while (isdigit((int) *ptr)) { *ptr++ = ' '; } } } return nr; } void string_trim(char *t) { int n = strlen(t) - 1; while (n > 0 && t[n] == ' ') { t[n--] = '\0'; } } int e_system(int v, const char *s) { static int count = 1; /* v == 0 : checks to find non-linked version of gcc */ /* v == 1 : all other commands */ /* v == 2 : preprocessing the promela input */ if (v == 1) { if (verbose&(32|64)) /* -v or -w */ { printf("cmd%02d: %s\n", count++, s); fflush(stdout); } if (verbose&64) /* only -w */ { return 0; /* suppress the call to system(s) */ } } return system(s); } void alldone(int estatus) { char *ptr; #if defined(WIN32) || defined(WIN64) struct _stat x; #else struct stat x; #endif if (preprocessonly == 0 && strlen(out1) > 0) { (void) unlink((const char *) out1); } (void) unlink(TMP_FILE1); (void) unlink(TMP_FILE2); if (!buzzed && seedy && !analyze && !export_ast && !s_trail && !preprocessonly && depth > 0) { printf("seed used: %d\n", SeedUsed); } if (!buzzed && xspin && (analyze || s_trail)) { if (estatus) { printf("spin: %d error(s) - aborting\n", estatus); } else { printf("Exit-Status 0\n"); } } if (buzzed && replay && !has_code && !estatus) { extern QH *qh; QH *j; int i; char *tmp = (char *) emalloc(strlen("spin -t") + strlen(pan_runtime) + strlen(Fname->name) + 8); pan_runtime = (char *) emalloc(2048); /* more than enough */ sprintf(pan_runtime, "-n%d ", SeedUsed); if (jumpsteps) { sprintf(&pan_runtime[strlen(pan_runtime)], "-j%d ", jumpsteps); } if (trailfilename) { sprintf(&pan_runtime[strlen(pan_runtime)], "-k%s ", *trailfilename); } if (cutoff) { sprintf(&pan_runtime[strlen(pan_runtime)], "-u%d ", cutoff); } for (i = 1; i <= PreCnt; i++) { strcat(pan_runtime, PreArg[i]); strcat(pan_runtime, " "); } for (j = qh; j; j = j->nxt) { sprintf(&pan_runtime[strlen(pan_runtime)], "-q%d ", j->n); } if (strcmp(PreProc, CPP) != 0) { sprintf(&pan_runtime[strlen(pan_runtime)], "\"-P%s\" ", PreProc); } /* -oN options 1..5 are ignored in simulations */ if (old_priority_rules) strcat(pan_runtime, "-o6 "); if (!implied_semis) strcat(pan_runtime, "-o7 "); if (no_print) strcat(pan_runtime, "-b "); if (no_wrapup) strcat(pan_runtime, "-B "); if (columns == 1) strcat(pan_runtime, "-c "); if (columns == 2) strcat(pan_runtime, "-M "); if (seedy == 1) strcat(pan_runtime, "-h "); if (like_java == 1) strcat(pan_runtime, "-J "); if (old_scope_rules) strcat(pan_runtime, "-O "); if (notabs) strcat(pan_runtime, "-T "); if (verbose&1) strcat(pan_runtime, "-g "); if (verbose&2) strcat(pan_runtime, "-l "); if (verbose&4) strcat(pan_runtime, "-p "); if (verbose&8) strcat(pan_runtime, "-r "); if (verbose&16) strcat(pan_runtime, "-s "); if (verbose&32) strcat(pan_runtime, "-v "); if (verbose&64) strcat(pan_runtime, "-w "); if (m_loss) strcat(pan_runtime, "-m "); sprintf(tmp, "spin -t %s %s", pan_runtime, Fname->name); estatus = e_system(1, tmp); /* replay */ exit(estatus); /* replay without c_code */ } if (buzzed && (!replay || has_code) && !estatus) { char *tmp, *tmp2 = NULL, *P_X; char *C_X = (buzzed == 2) ? "-O" : ""; if (replay && strlen(pan_comptime) == 0) { #if defined(WIN32) || defined(WIN64) P_X = "pan"; #else P_X = "./pan"; #endif if (stat(P_X, (struct stat *)&x) < 0) { goto recompile; /* no executable pan for replay */ } tmp = (char *) emalloc(8 + strlen(P_X) + strlen(pan_runtime) +4); /* the final +4 is too allow adding " &" in some cases */ sprintf(tmp, "%s %s", P_X, pan_runtime); goto runit; } #if defined(WIN32) || defined(WIN64) P_X = "-o pan pan.c && pan"; #else P_X = "-o pan pan.c && ./pan"; #endif /* swarm and biterate randomization additions */ if (!replay && itsr) /* iterative search refinement */ { if (!strstr(pan_comptime, "-DBITSTATE")) { add_comptime("-DBITSTATE"); } if (!strstr(pan_comptime, "-DPUTPID")) { add_comptime("-DPUTPID"); } if (!strstr(pan_comptime, "-DT_RAND") && !strstr(pan_comptime, "-DT_REVERSE")) { add_runtime("-T0 "); /* controls t_reverse */ } if (!strstr(pan_runtime, "-P") /* runtime flag */ || pan_runtime[2] < '0' || pan_runtime[2] > '1') /* no -P0 or -P1 */ { add_runtime("-P0 "); /* controls p_reverse */ } if (!strstr(pan_runtime, "-w")) { add_runtime("-w18 "); /* -w18 = 256K */ } else { char nv[32]; int x; x = omit_str(pan_runtime, "-w"); if (x >= 0) { sprintf(nv, "-w%d ", x); add_runtime(nv); /* added spaces */ } } if (!strstr(pan_runtime, "-h")) { add_runtime("-h0 "); /* 0..499 */ /* leave 2 spaces for increments up to -h499 */ } else if (!strstr(pan_runtime, "-hash")) { char nv[32]; int x; x = omit_str(pan_runtime, "-h"); if (x >= 0) { sprintf(nv, "-h%d ", x%500); add_runtime(nv); /* added spaces */ } } if (!strstr(pan_runtime, "-k")) { add_runtime("-k1 "); /* 1..3 */ } else { char nv[32]; int x; x = omit_str(pan_runtime, "-k"); if (x >= 0) { sprintf(nv, "-k%d ", x%4); add_runtime(nv); /* added spaces */ } } if (strstr(pan_runtime, "-p_rotate")) { char nv[32]; int x; x = omit_str(pan_runtime, "-p_rotate"); if (x < 0) { x = 0; } sprintf(nv, "-p_rotate%d ", x%256); add_runtime(nv); /* added spaces */ } else if (strstr(pan_runtime, "-p_permute") == 0) { add_runtime("-p_rotate0 "); } if (strstr(pan_runtime, "-RS")) { (void) omit_str(pan_runtime, "-RS"); } /* need room for at least 10 digits */ add_runtime("-RS1234567890 "); change_rs(pan_runtime); } recompile: if (strstr(PreProc, "cpp")) /* unix/linux */ { strcpy(PreProc, "gcc"); /* need compiler */ } else if ((tmp = strstr(PreProc, "-E")) != NULL) { *tmp = '\0'; /* strip preprocessing flags */ } final_fiddle(); tmp = (char *) emalloc(8 + /* account for alignment */ strlen(PreProc) + strlen(C_X) + strlen(pan_comptime) + strlen(P_X) + strlen(pan_runtime) + strlen(" -p_reverse & ")); tmp2 = tmp; /* P_X ends with " && ./pan " */ sprintf(tmp, "%s %s %s %s %s", PreProc, C_X, pan_comptime, P_X, pan_runtime); if (!replay) { if (itsr < 0) /* swarm only */ { strcat(tmp, " &"); /* after ./pan */ itsr = -itsr; /* now same as biterate */ } /* do compilation first * split cc command from run command * leave cc in tmp, and set tmp2 to run */ if ((ptr = strstr(tmp, " && ")) != NULL) { tmp2 = ptr + 4; /* first run */ *ptr = '\0'; } } if (has_ltl) { (void) unlink("_spin_nvr.tmp"); } if (!norecompile) { #ifdef PC /* make sure that if compilation fails we do not continue */ (void) unlink("./pan.exe"); #else (void) unlink("./pan"); #endif } runit: if (norecompile && tmp != tmp2) { estatus = 0; } else { if (itsr > 0) /* else it happens below */ { estatus = e_system(1, tmp); /* compile or run */ } } if (replay || estatus < 0) { goto skipahead; } /* !replay */ if (itsr == 0) /* single run */ { estatus = e_system(1, tmp2); } else if (itsr > 0) /* iterative search refinement */ { int is_swarm = 0; if (tmp2 != tmp) /* swarm: did only compilation so far */ { tmp = tmp2; /* now we point to the run command */ estatus = e_system(1, tmp); /* first run */ } itsr--; /* count down */ /* the following are added back randomly later */ (void) omit_str(tmp, "-p_reverse"); /* replaced by spaces */ (void) omit_str(tmp, "-p_normal"); if (strstr(tmp, " &") != NULL) { (void) omit_str(tmp, " &"); is_swarm = 1; } /* increase -w every itsr_n-th run */ if ((itsr_n > 0 && (itsr == 0 || (itsr%itsr_n) != 0)) || (change_param(tmp, "-w", 36, 18) >= 0)) /* max 4G bit statespace */ { (void) change_param(tmp, "-h", 500, 0); /* hash function 0.499 */ (void) change_param(tmp, "-p_rotate", 256, 0); /* if defined */ (void) change_param(tmp, "-k", 4, 1); /* nr bits per state 0->1,2,3 */ (void) change_param(tmp, "-T", 2, 0); /* with or without t_reverse*/ (void) change_param(tmp, "-P", 2, 0); /* -P 0..1 != p_reverse */ change_rs(tmp); /* change random seed */ string_trim(tmp); if (rand()%5 == 0) /* 20% of all runs */ { strcat(tmp, " -p_reverse "); /* at end, so this overrides -p_rotateN, if there */ /* but -P0..1 disable this in 50% of the cases */ /* so its really activated in 10% of all runs */ } else if (rand()%6 == 0) /* override p_rotate and p_reverse */ { strcat(tmp, " -p_normal "); } if (is_swarm) { strcat(tmp, " &"); } goto runit; } } skipahead: (void) unlink("pan.b"); (void) unlink("pan.c"); (void) unlink("pan.h"); (void) unlink("pan.m"); (void) unlink("pan.p"); (void) unlink("pan.t"); } exit(estatus); } #if 0 -P0 normal active process creation -P1 reversed order for *active* process creation != p_reverse -T0 normal transition exploration -T1 reversed order of transition exploration -DP_RAND (random starting point +- -DP_REVERSE) -DPERMUTED (also enables -p_rotateN and -p_reverse) -DP_REVERSE (same as -DPERMUTED with -p_reverse, but 7% faster) -DT_RAND (random starting point -- optionally with -T0..1) -DT_REVERSE (superseded by -T0..1 options) -hash generates new hash polynomial for -h0 permutation modes: -permuted (adds -DPERMUTED) -- this is also the default with -swarm -t_reverse (same as -T1) -p_reverse (similar to -P1) -p_rotateN -p_normal less useful would be (since there is less non-determinism in transitions): -t_rotateN -- a controlled version of -DT_RAND compiling with -DPERMUTED enables a number of new runtime options, that -swarmN,M will also exploit: -p_permute (default) -p_rotateN -p_reverse #endif void preprocess(char *a, char *b, int a_tmp) { char precmd[1024], cmd[2048]; int i; #ifdef PC /* gcc is sometimes a symbolic link to gcc-4 that does not work well in cygwin, so we try to use the actual executable that is used. the code below assumes we are on a cygwin-like system */ if (strncmp(PreProc, "gcc ", strlen("gcc ")) == 0) { if (e_system(0, "gcc-4 --version > pan.pre") == 0) { strcpy(PreProc, "gcc-4 -std=gnu99 -E -x c"); } else if (e_system(0, "gcc-3 --version > pan.pre") == 0) { strcpy(PreProc, "gcc-3 -std=gnu99 -E -x c"); } } #endif assert(strlen(PreProc) < sizeof(precmd)); strcpy(precmd, PreProc); for (i = 1; i <= PreCnt; i++) { strcat(precmd, " "); strcat(precmd, PreArg[i]); } if (strlen(precmd) > sizeof(precmd)) { fprintf(stdout, "spin: too many -D args, aborting\n"); alldone(1); } sprintf(cmd, "%s %s > %s", precmd, a, b); if (e_system(2, (const char *)cmd)) /* preprocessing */ { (void) unlink((const char *) b); if (a_tmp) (void) unlink((const char *) a); fprintf(stdout, "spin: preprocessing failed\n"); /* 4.1.2 was stderr */ alldone(1); /* no return, error exit */ } if (a_tmp) (void) unlink((const char *) a); } void usage(void) { printf("use: spin [-option] ... [-option] file\n"); printf("\tNote: file must always be the last argument\n"); printf("\t-A apply slicing algorithm\n"); printf("\t-a generate a verifier in pan.c\n"); printf("\t-B no final state details in simulations\n"); printf("\t-b don't execute printfs in simulation\n"); printf("\t-C print channel access info (combine with -g etc.)\n"); printf("\t-c columnated -s -r simulation output\n"); printf("\t-d produce symbol-table information\n"); printf("\t-Dyyy pass -Dyyy to the preprocessor\n"); printf("\t-Eyyy pass yyy to the preprocessor\n"); printf("\t-e compute synchronous product of multiple never claims (modified by -L)\n"); printf("\t-f \"..formula..\" translate LTL "); printf("into never claim\n"); printf("\t-F file like -f, but with the LTL formula stored in a 1-line file\n"); printf("\t-g print all global variables\n"); printf("\t-h at end of run, print value of seed for random nr generator used\n"); printf("\t-i interactive (random simulation)\n"); printf("\t-I show result of inlining and preprocessing\n"); printf("\t-J reverse eval order of nested unlesses\n"); printf("\t-jN skip the first N steps "); printf("in simulation trail\n"); printf("\t-k fname use the trailfile stored in file fname, see also -t\n"); printf("\t-L when using -e, use strict language intersection\n"); printf("\t-l print all local variables\n"); printf("\t-M generate msc-flow in tcl/tk format\n"); printf("\t-m lose msgs sent to full queues\n"); printf("\t-N fname use never claim stored in file fname\n"); printf("\t-nN seed for random nr generator\n"); printf("\t-O use old scope rules (pre 5.3.0)\n"); printf("\t-o1 turn off dataflow-optimizations in verifier\n"); printf("\t-o2 don't hide write-only variables in verifier\n"); printf("\t-o3 turn off statement merging in verifier\n"); printf("\t-o4 turn on rendezvous optiomizations in verifier\n"); printf("\t-o5 turn on case caching (reduces size of pan.m, but affects reachability reports)\n"); printf("\t-o6 revert to the old rules for interpreting priority tags (pre version 6.2)\n"); printf("\t-o7 revert to the old rules for semi-colon usage (pre version 6.3)\n"); printf("\t-Pxxx use xxx for preprocessing\n"); printf("\t-p print all statements\n"); printf("\t-pp pretty-print (reformat) stdin, write stdout\n"); printf("\t-qN suppress io for queue N in printouts\n"); printf("\t-r print receive events\n"); printf("\t-replay replay an error trail-file found earlier\n"); printf("\t if the model contains embedded c-code, the ./pan executable is used\n"); printf("\t otherwise spin itself is used to replay the trailfile\n"); printf("\t note that pan recognizes different runtime options than spin itself\n"); printf("\t-search (or -run) generate a verifier, and compile and run it\n"); printf("\t options before -search are interpreted by spin to parse the input\n"); printf("\t options following a -search are used to compile and run the verifier pan\n"); printf("\t valid options that can follow a -search argument include:\n"); printf("\t -bfs perform a breadth-first search\n"); printf("\t -bfspar perform a parallel breadth-first search\n"); printf("\t -bcs use the bounded-context-switching algorithm\n"); printf("\t -bitstate or -bit, use bitstate storage\n"); printf("\t -biterate use bitstate with iterative search refinement (-w18..-w35)\n"); printf("\t -swarmN,M like -biterate, but running all iterations in parallel\n"); printf("\t perform N parallel runs and increment -w every M runs\n"); printf("\t default value for N is 10, default for M is 1\n"); printf("\t (add -w to see which commands will be executed)\n"); printf("\t (add -W if ./pan exists and need not be recompiled)\n"); printf("\t -link file.c link executable pan to file.c\n"); printf("\t -collapse use collapse state compression\n"); printf("\t -hc use hash-compact storage\n"); printf("\t -noclaim ignore all ltl and never claims\n"); printf("\t -p_permute use process scheduling order random permutation\n"); printf("\t -p_rotateN use process scheduling order rotation by N\n"); printf("\t -p_reverse use process scheduling order reversal\n"); printf("\t -ltl p verify the ltl property named p\n"); printf("\t -safety compile for safety properties only\n"); printf("\t -i use the dfs iterative shortening algorithm\n"); printf("\t -a search for acceptance cycles\n"); printf("\t -l search for non-progress cycles\n"); printf("\t similarly, a -D... parameter can be specified to modify the compilation\n"); printf("\t and any valid runtime pan argument can be specified for the verification\n"); printf("\t-S1 and -S2 separate pan source for claim and model\n"); printf("\t-s print send events\n"); printf("\t-T do not indent printf output\n"); printf("\t-t[N] follow [Nth] simulation trail, see also -k\n"); printf("\t-Uyyy pass -Uyyy to the preprocessor\n"); printf("\t-uN stop a simulation run after N steps\n"); printf("\t-v verbose, more warnings\n"); printf("\t-w very verbose (when combined with -l or -g)\n"); printf("\t-[XYZ] reserved for use by xspin interface\n"); printf("\t-V print version number and exit\n"); alldone(1); } int optimizations(int nr) { switch (nr) { case '1': dataflow = 1 - dataflow; /* dataflow */ if (verbose&32) printf("spin: dataflow optimizations turned %s\n", dataflow?"on":"off"); break; case '2': /* dead variable elimination */ deadvar = 1 - deadvar; if (verbose&32) printf("spin: dead variable elimination turned %s\n", deadvar?"on":"off"); break; case '3': /* statement merging */ merger = 1 - merger; if (verbose&32) printf("spin: statement merging turned %s\n", merger?"on":"off"); break; case '4': /* rv optimization */ rvopt = 1 - rvopt; if (verbose&32) printf("spin: rendezvous optimization turned %s\n", rvopt?"on":"off"); break; case '5': /* case caching */ ccache = 1 - ccache; if (verbose&32) printf("spin: case caching turned %s\n", ccache?"on":"off"); break; case '6': old_priority_rules = 1; if (verbose&32) printf("spin: using old priority rules (pre version 6.2)\n"); return 0; /* no break */ case '7': implied_semis = 0; if (verbose&32) printf("spin: no implied semi-colons (pre version 6.3)\n"); return 0; /* no break */ default: printf("spin: bad or missing parameter on -o\n"); usage(); break; } return 1; } static void add_comptime(char *s) { char *tmp; if (!s || strstr(pan_comptime, s)) { return; } tmp = (char *) emalloc(strlen(pan_comptime)+strlen(s)+2); sprintf(tmp, "%s %s", pan_comptime, s); pan_comptime = tmp; } static struct { char *ifsee, *thendo; int keeparg; } pats[] = { { "-bfspar", "-DBFS_PAR", 0 }, { "-bfs", "-DBFS", 0 }, { "-bcs", "-DBCS", 0 }, { "-bitstate", "-DBITSTATE", 0 }, { "-bit", "-DBITSTATE", 0 }, { "-hc", "-DHC4", 0 }, { "-collapse", "-DCOLLAPSE", 0 }, { "-noclaim", "-DNOCLAIM", 0 }, { "-permuted", "-DPERMUTED", 0 }, { "-p_permute", "-DPERMUTED", 1 }, { "-p_rotate", "-DPERMUTED", 1 }, { "-p_reverse", "-DPERMUTED", 1 }, { "-safety", "-DSAFETY", 0 }, { "-i", "-DREACH", 1 }, { "-l", "-DNP", 1 }, { 0, 0 } }; static void set_itsr_n(char *s) /* e.g., -swarm12,3 */ { char *tmp; if ((tmp = strchr(s, ',')) != NULL) { tmp++; if (*tmp != '\0' && isdigit((int) *tmp)) { itsr_n = atoi(tmp); if (itsr_n < 2) { itsr_n = 0; } } } } static void add_runtime(char *s) { char *tmp; int i; if (strncmp(s, "-biterate", strlen("-biterate")) == 0) { itsr = 10; /* default nr of sequential iterations */ if (isdigit((int) s[9])) { itsr = atoi(&s[9]); if (itsr < 1) { itsr = 1; } set_itsr_n(s); } return; } if (strncmp(s, "-swarm", strlen("-swarm")) == 0) { itsr = -10; /* parallel iterations */ if (isdigit((int) s[6])) { itsr = atoi(&s[6]); if (itsr < 1) { itsr = 1; } itsr = -itsr; set_itsr_n(s); } return; } for (i = 0; pats[i].ifsee; i++) { if (strncmp(s, pats[i].ifsee, strlen(pats[i].ifsee)) == 0) { add_comptime(pats[i].thendo); if (pats[i].keeparg) { break; } return; } } tmp = (char *) emalloc(strlen(pan_runtime)+strlen(s)+2); sprintf(tmp, "%s %s", pan_runtime, s); pan_runtime = tmp; } int main(int argc, char *argv[]) { Symbol *s; int T = (int) time((time_t *)0); int usedopts = 0; extern void ana_src(int, int); yyin = stdin; yyout = stdout; tl_out = stdout; strcpy(CurScope, "_"); assert(strlen(CPP) < sizeof(PreProc)); strcpy(PreProc, CPP); /* unused flags: y, z, G, L, Q, R, W */ while (argc > 1 && argv[1][0] == '-') { switch (argv[1][1]) { case 'A': export_ast = 1; break; case 'a': analyze = 1; break; case 'B': no_wrapup = 1; break; case 'b': no_print = 1; break; case 'C': Caccess = 1; break; case 'c': columns = 1; break; case 'D': PreArg[++PreCnt] = (char *) &argv[1][0]; break; /* define */ case 'd': dumptab = 1; break; case 'E': PreArg[++PreCnt] = (char *) &argv[1][2]; break; case 'e': product++; break; /* see also 'L' */ case 'F': ltl_file = (char **) (argv+2); argc--; argv++; break; case 'f': add_ltl = (char **) argv; argc--; argv++; break; case 'g': verbose += 1; break; case 'h': seedy = 1; break; case 'i': interactive = 1; break; case 'I': inlineonly = 1; break; case 'J': like_java = 1; break; case 'j': jumpsteps = atoi(&argv[1][2]); break; case 'k': s_trail = 1; trailfilename = (char **) (argv+2); argc--; argv++; break; case 'L': Strict++; break; /* modified -e */ case 'l': verbose += 2; break; case 'M': columns = 2; break; case 'm': m_loss = 1; break; case 'N': nvr_file = (char **) (argv+2); argc--; argv++; break; case 'n': T = atoi(&argv[1][2]); tl_terse = 1; break; case 'O': old_scope_rules = 1; break; case 'o': usedopts += optimizations(argv[1][2]); break; case 'P': assert(strlen((const char *) &argv[1][2]) < sizeof(PreProc)); strcpy(PreProc, (const char *) &argv[1][2]); break; case 'p': if (argv[1][2] == 'p') { pretty_print(); alldone(0); } verbose += 4; break; case 'q': if (isdigit((int) argv[1][2])) qhide(atoi(&argv[1][2])); break; case 'r': if (strcmp(&argv[1][1], "run") == 0) { Srand((unsigned int) T); samecase: if (buzzed != 0) { fatal("cannot combine -x with -run -replay or -search", (char *)0); } buzzed = 2; analyze = 1; argc--; argv++; /* process all remaining arguments as relating to pan: */ while (argc > 1 && argv[1][0] == '-') { switch (argv[1][1]) { case 'D': /* eg -DNP */ /* case 'E': conflicts with runtime arg */ case 'O': /* eg -O2 */ case 'U': /* to undefine a macro */ add_comptime(argv[1]); break; case 'l': if (strcmp(&argv[1][1], "ltl") == 0) { add_runtime("-N"); argc--; argv++; add_runtime(argv[1]); /* prop name */ break; } if (strcmp(&argv[1][1], "link") == 0) { argc--; argv++; add_comptime(argv[1]); break; } /* else fall through */ default: add_runtime(argv[1]); /* -bfs etc. */ break; } argc--; argv++; } argc++; argv--; } else if (strcmp(&argv[1][1], "replay") == 0) { replay = 1; add_runtime("-r"); goto samecase; } else { verbose += 8; } break; case 'S': separate = atoi(&argv[1][2]); /* S1 or S2 */ /* generate code for separate compilation */ analyze = 1; break; case 's': if (strcmp(&argv[1][1], "simulate") == 0) { break; /* ignore */ } if (strcmp(&argv[1][1], "search") == 0) { goto samecase; } verbose += 16; break; case 'T': notabs = 1; break; case 't': s_trail = 1; if (isdigit((int)argv[1][2])) { ntrail = atoi(&argv[1][2]); } break; case 'U': PreArg[++PreCnt] = (char *) &argv[1][0]; break; /* undefine */ case 'u': cutoff = atoi(&argv[1][2]); break; case 'v': verbose += 32; break; case 'V': printf("%s\n", SpinVersion); alldone(0); break; case 'w': verbose += 64; break; case 'W': norecompile = 1; break; /* 6.4.7: for swarm/biterate */ case 'x': /* internal - reserved use */ if (buzzed != 0) { fatal("cannot combine -x with -run -search or -replay", (char *)0); } buzzed = 1; /* implies also -a -o3 */ pan_runtime = "-d"; analyze = 1; usedopts += optimizations('3'); break; case 'X': xspin = notabs = 1; #ifndef PC signal(SIGPIPE, alldone); /* not posix... */ #endif break; case 'Y': limited_vis = 1; break; /* used by xspin */ case 'Z': preprocessonly = 1; break; /* used by xspin */ default : usage(); break; } argc--; argv++; } if (columns == 2 && !cutoff) { cutoff = 1024; } if (usedopts && !analyze) printf("spin: warning -o[1..5] option ignored in simulations\n"); if (ltl_file) { add_ltl = ltl_file-2; add_ltl[1][1] = 'f'; if (!(tl_out = fopen(*ltl_file, "r"))) { printf("spin: cannot open %s\n", *ltl_file); alldone(1); } if (!fgets(formula, 4096, tl_out)) { printf("spin: cannot read %s\n", *ltl_file); } fclose(tl_out); tl_out = stdout; *ltl_file = (char *) formula; } if (argc > 1) { FILE *fd = stdout; char cmd[512], out2[512]; /* must remain in current dir */ strcpy(out1, "pan.pre"); if (add_ltl || nvr_file) { assert(strlen(argv[1]) < sizeof(out2)); sprintf(out2, "%s.nvr", argv[1]); if ((fd = fopen(out2, MFLAGS)) == NULL) { printf("spin: cannot create tmp file %s\n", out2); alldone(1); } fprintf(fd, "#include \"%s\"\n", argv[1]); } if (add_ltl) { tl_out = fd; nr_errs = tl_main(2, add_ltl); fclose(fd); preprocess(out2, out1, 1); } else if (nvr_file) { fprintf(fd, "#include \"%s\"\n", *nvr_file); fclose(fd); preprocess(out2, out1, 1); } else { preprocess(argv[1], out1, 0); } if (preprocessonly) { alldone(0); } if (!(yyin = fopen(out1, "r"))) { printf("spin: cannot open %s\n", out1); alldone(1); } assert(strlen(argv[1])+1 < sizeof(cmd)); if (strncmp(argv[1], "progress", (size_t) 8) == 0 || strncmp(argv[1], "accept", (size_t) 6) == 0) { sprintf(cmd, "_%s", argv[1]); } else { strcpy(cmd, argv[1]); } oFname = Fname = lookup(cmd); if (oFname->name[0] == '\"') { int i = (int) strlen(oFname->name); oFname->name[i-1] = '\0'; oFname = lookup(&oFname->name[1]); } } else { oFname = Fname = lookup("<stdin>"); if (add_ltl) { if (argc > 0) exit(tl_main(2, add_ltl)); printf("spin: missing argument to -f\n"); alldone(1); } printf("%s\n", SpinVersion); fprintf(stderr, "spin: error, no filename specified\n"); fflush(stdout); alldone(1); } if (columns == 2) { extern void putprelude(void); if (xspin || (verbose & (1|4|8|16|32))) { printf("spin: -c precludes all flags except -t\n"); alldone(1); } putprelude(); } if (columns && !(verbose&8) && !(verbose&16)) { verbose += (8+16); } if (columns == 2 && limited_vis) { verbose += (1+4); } Srand((unsigned int) T); /* defined in run.c */ SeedUsed = T; s = lookup("_"); s->type = PREDEF; /* write-only global var */ s = lookup("_p"); s->type = PREDEF; s = lookup("_pid"); s->type = PREDEF; s = lookup("_last"); s->type = PREDEF; s = lookup("_nr_pr"); s->type = PREDEF; /* new 3.3.10 */ s = lookup("_priority"); s->type = PREDEF; /* new 6.2.0 */ yyparse(); fclose(yyin); if (ltl_claims) { Symbol *r; fclose(fd_ltl); if (!(yyin = fopen(ltl_claims, "r"))) { fatal("cannot open %s", ltl_claims); } r = oFname; oFname = Fname = lookup(ltl_claims); lineno = 0; yyparse(); fclose(yyin); oFname = Fname = r; if (0) { (void) unlink(ltl_claims); } } loose_ends(); if (inlineonly) { repro_src(); return 0; } chanaccess(); if (!Caccess) { if (has_provided && merger) { merger = 0; /* cannot use statement merging in this case */ } if (!s_trail && (dataflow || merger) && (!replay || has_code)) { ana_src(dataflow, merger); } sched(); alldone(nr_errs); } return 0; } void ltl_list(char *nm, char *fm) { if (s_trail || analyze || dumptab) /* when generating pan.c or replaying a trace */ { if (!ltl_claims) { ltl_claims = "_spin_nvr.tmp"; if ((fd_ltl = fopen(ltl_claims, MFLAGS)) == NULL) { fatal("cannot open tmp file %s", ltl_claims); } tl_out = fd_ltl; } add_ltl = (char **) emalloc(5 * sizeof(char *)); add_ltl[1] = "-c"; add_ltl[2] = nm; add_ltl[3] = "-f"; add_ltl[4] = (char *) emalloc(strlen(fm)+4); strcpy(add_ltl[4], "!("); strcat(add_ltl[4], fm); strcat(add_ltl[4], ")"); /* add_ltl[4] = fm; */ nr_errs += tl_main(4, add_ltl); fflush(tl_out); /* should read this file after the main file is read */ } } void non_fatal(char *s1, char *s2) { extern int yychar; extern char yytext[]; printf("spin: %s:%d, Error: ", Fname?Fname->name:(oFname?oFname->name:"nofilename"), lineno); #if 1 printf(s1, s2); /* avoids a gcc warning */ #else if (s2) printf(s1, s2); else printf(s1); if (yychar > 0) { if (yychar == SEMI) { printf(" statement separator"); } else { printf(" saw '"); explain(yychar); printf("'"); } } #endif if (strlen(yytext)>1) printf(" near '%s'", yytext); printf("\n"); nr_errs++; } void fatal(char *s1, char *s2) { non_fatal(s1, s2); (void) unlink("pan.b"); (void) unlink("pan.c"); (void) unlink("pan.h"); (void) unlink("pan.m"); (void) unlink("pan.t"); (void) unlink("pan.p"); (void) unlink("pan.pre"); if (!(verbose&32)) { (void) unlink("_spin_nvr.tmp"); } alldone(1); } char * emalloc(size_t n) { char *tmp; static unsigned long cnt = 0; if (n == 0) return NULL; /* robert shelton 10/20/06 */ if (!(tmp = (char *) malloc(n))) { printf("spin: allocated %ld Gb, wanted %d bytes more\n", cnt/(1024*1024*1024), (int) n); fatal("not enough memory", (char *)0); } cnt += (unsigned long) n; memset(tmp, 0, n); return tmp; } void trapwonly(Lextok *n /* , char *unused */) { short i = (n->sym)?n->sym->type:0; /* printf("%s realread %d type %d\n", n->sym?n->sym->name:"--", realread, i); */ if (realread && (i == MTYPE || i == BIT || i == BYTE || i == SHORT || i == INT || i == UNSIGNED)) { n->sym->hidden |= 128; /* var is read at least once */ } } void setaccess(Symbol *sp, Symbol *what, int cnt, int t) { Access *a; for (a = sp->access; a; a = a->lnk) if (a->who == context && a->what == what && a->cnt == cnt && a->typ == t) return; a = (Access *) emalloc(sizeof(Access)); a->who = context; a->what = what; a->cnt = cnt; a->typ = t; a->lnk = sp->access; sp->access = a; } Lextok * nn(Lextok *s, int t, Lextok *ll, Lextok *rl) { Lextok *n = (Lextok *) emalloc(sizeof(Lextok)); static int warn_nn = 0; n->uiid = is_inline(); /* record origin of the statement */ n->ntyp = (unsigned short) t; if (s && s->fn) { n->ln = s->ln; n->fn = s->fn; } else if (rl && rl->fn) { n->ln = rl->ln; n->fn = rl->fn; } else if (ll && ll->fn) { n->ln = ll->ln; n->fn = ll->fn; } else { n->ln = lineno; n->fn = Fname; } if (s) n->sym = s->sym; n->lft = ll; n->rgt = rl; n->indstep = DstepStart; if (t == TIMEOUT) Etimeouts++; if (!context) return n; if (t == 'r' || t == 's') setaccess(n->sym, ZS, 0, t); if (t == 'R') setaccess(n->sym, ZS, 0, 'P'); if (context->name == claimproc) { int forbidden = separate; switch (t) { case ASGN: printf("spin: Warning, never claim has side-effect\n"); break; case 'r': case 's': non_fatal("never claim contains i/o stmnts",(char *)0); break; case TIMEOUT: /* never claim polls timeout */ if (Ntimeouts && Etimeouts) forbidden = 0; Ntimeouts++; Etimeouts--; break; case LEN: case EMPTY: case FULL: case 'R': case NFULL: case NEMPTY: /* status becomes non-exclusive */ if (n->sym && !(n->sym->xu&XX)) { n->sym->xu |= XX; if (separate == 2) { printf("spin: warning, make sure that the S1 model\n"); printf(" also polls channel '%s' in its claim\n", n->sym->name); } } forbidden = 0; break; case 'c': AST_track(n, 0); /* register as a slice criterion */ /* fall thru */ default: forbidden = 0; break; } if (forbidden) { printf("spin: never, saw "); explain(t); printf("\n"); fatal("incompatible with separate compilation",(char *)0); } } else if ((t == ENABLED || t == PC_VAL) && !(warn_nn&t)) { printf("spin: Warning, using %s outside never claim\n", (t == ENABLED)?"enabled()":"pc_value()"); warn_nn |= t; } else if (t == NONPROGRESS) { fatal("spin: Error, using np_ outside never claim\n", (char *)0); } return n; } Lextok * rem_lab(Symbol *a, Lextok *b, Symbol *c) /* proctype name, pid, label name */ { Lextok *tmp1, *tmp2, *tmp3; has_remote++; c->type = LABEL; /* refered to in global context here */ fix_dest(c, a); /* in case target of rem_lab is jump */ tmp1 = nn(ZN, '?', b, ZN); tmp1->sym = a; tmp1 = nn(ZN, 'p', tmp1, ZN); tmp1->sym = lookup("_p"); tmp2 = nn(ZN, NAME, ZN, ZN); tmp2->sym = a; tmp3 = nn(ZN, 'q', tmp2, ZN); tmp3->sym = c; return nn(ZN, EQ, tmp1, tmp3); #if 0 .---------------EQ-------. / \ 'p' -sym-> _p 'q' -sym-> c (label name) / / '?' -sym-> a (proctype) NAME -sym-> a (proctype name) / b (pid expr) #endif } Lextok * rem_var(Symbol *a, Lextok *b, Symbol *c, Lextok *ndx) { Lextok *tmp1; has_remote++; has_remvar++; dataflow = 0; /* turn off dead variable resets 4.2.5 */ tmp1 = nn(ZN, '?', b, ZN); tmp1->sym = a; tmp1 = nn(ZN, 'p', tmp1, ndx); tmp1->sym = c; return tmp1; #if 0 cannot refer to struct elements only to scalars and arrays 'p' -sym-> c (variable name) / \______ possible arrayindex on c / '?' -sym-> a (proctype) / b (pid expr) #endif } void explain(int n) { FILE *fd = stdout; switch (n) { default: if (n > 0 && n < 256) fprintf(fd, "'%c' = ", n); fprintf(fd, "%d", n); break; case '\b': fprintf(fd, "\\b"); break; case '\t': fprintf(fd, "\\t"); break; case '\f': fprintf(fd, "\\f"); break; case '\n': fprintf(fd, "\\n"); break; case '\r': fprintf(fd, "\\r"); break; case 'c': fprintf(fd, "condition"); break; case 's': fprintf(fd, "send"); break; case 'r': fprintf(fd, "recv"); break; case 'R': fprintf(fd, "recv poll %s", Operator); break; case '@': fprintf(fd, "@"); break; case '?': fprintf(fd, "(x->y:z)"); break; #if 1 case NEXT: fprintf(fd, "X"); break; case ALWAYS: fprintf(fd, "[]"); break; case EVENTUALLY: fprintf(fd, "<>"); break; case IMPLIES: fprintf(fd, "->"); break; case EQUIV: fprintf(fd, "<->"); break; case UNTIL: fprintf(fd, "U"); break; case WEAK_UNTIL: fprintf(fd, "W"); break; case IN: fprintf(fd, "%sin", Keyword); break; #endif case ACTIVE: fprintf(fd, "%sactive", Keyword); break; case AND: fprintf(fd, "%s&&", Operator); break; case ASGN: fprintf(fd, "%s=", Operator); break; case ASSERT: fprintf(fd, "%sassert", Function); break; case ATOMIC: fprintf(fd, "%satomic", Keyword); break; case BREAK: fprintf(fd, "%sbreak", Keyword); break; case C_CODE: fprintf(fd, "%sc_code", Keyword); break; case C_DECL: fprintf(fd, "%sc_decl", Keyword); break; case C_EXPR: fprintf(fd, "%sc_expr", Keyword); break; case C_STATE: fprintf(fd, "%sc_state",Keyword); break; case C_TRACK: fprintf(fd, "%sc_track",Keyword); break; case CLAIM: fprintf(fd, "%snever", Keyword); break; case CONST: fprintf(fd, "a constant"); break; case DECR: fprintf(fd, "%s--", Operator); break; case D_STEP: fprintf(fd, "%sd_step", Keyword); break; case D_PROCTYPE: fprintf(fd, "%sd_proctype", Keyword); break; case DO: fprintf(fd, "%sdo", Keyword); break; case DOT: fprintf(fd, "."); break; case ELSE: fprintf(fd, "%selse", Keyword); break; case EMPTY: fprintf(fd, "%sempty", Function); break; case ENABLED: fprintf(fd, "%senabled",Function); break; case EQ: fprintf(fd, "%s==", Operator); break; case EVAL: fprintf(fd, "%seval", Function); break; case FI: fprintf(fd, "%sfi", Keyword); break; case FULL: fprintf(fd, "%sfull", Function); break; case GE: fprintf(fd, "%s>=", Operator); break; case GET_P: fprintf(fd, "%sget_priority",Function); break; case GOTO: fprintf(fd, "%sgoto", Keyword); break; case GT: fprintf(fd, "%s>", Operator); break; case HIDDEN: fprintf(fd, "%shidden", Keyword); break; case IF: fprintf(fd, "%sif", Keyword); break; case INCR: fprintf(fd, "%s++", Operator); break; case INAME: fprintf(fd, "inline name"); break; case INLINE: fprintf(fd, "%sinline", Keyword); break; case INIT: fprintf(fd, "%sinit", Keyword); break; case ISLOCAL: fprintf(fd, "%slocal", Keyword); break; case LABEL: fprintf(fd, "a label-name"); break; case LE: fprintf(fd, "%s<=", Operator); break; case LEN: fprintf(fd, "%slen", Function); break; case LSHIFT: fprintf(fd, "%s<<", Operator); break; case LT: fprintf(fd, "%s<", Operator); break; case MTYPE: fprintf(fd, "%smtype", Keyword); break; case NAME: fprintf(fd, "an identifier"); break; case NE: fprintf(fd, "%s!=", Operator); break; case NEG: fprintf(fd, "%s! (not)",Operator); break; case NEMPTY: fprintf(fd, "%snempty", Function); break; case NFULL: fprintf(fd, "%snfull", Function); break; case NON_ATOMIC: fprintf(fd, "sub-sequence"); break; case NONPROGRESS: fprintf(fd, "%snp_", Function); break; case OD: fprintf(fd, "%sod", Keyword); break; case OF: fprintf(fd, "%sof", Keyword); break; case OR: fprintf(fd, "%s||", Operator); break; case O_SND: fprintf(fd, "%s!!", Operator); break; case PC_VAL: fprintf(fd, "%spc_value",Function); break; case PNAME: fprintf(fd, "process name"); break; case PRINT: fprintf(fd, "%sprintf", Function); break; case PRINTM: fprintf(fd, "%sprintm", Function); break; case PRIORITY: fprintf(fd, "%spriority", Keyword); break; case PROCTYPE: fprintf(fd, "%sproctype",Keyword); break; case PROVIDED: fprintf(fd, "%sprovided",Keyword); break; case RCV: fprintf(fd, "%s?", Operator); break; case R_RCV: fprintf(fd, "%s??", Operator); break; case RSHIFT: fprintf(fd, "%s>>", Operator); break; case RUN: fprintf(fd, "%srun", Operator); break; case SEP: fprintf(fd, "token: ::"); break; case SEMI: fprintf(fd, ";"); break; case ARROW: fprintf(fd, "->"); break; case SET_P: fprintf(fd, "%sset_priority",Function); break; case SHOW: fprintf(fd, "%sshow", Keyword); break; case SND: fprintf(fd, "%s!", Operator); break; case STRING: fprintf(fd, "a string"); break; case TRACE: fprintf(fd, "%strace", Keyword); break; case TIMEOUT: fprintf(fd, "%stimeout",Keyword); break; case TYPE: fprintf(fd, "data typename"); break; case TYPEDEF: fprintf(fd, "%stypedef",Keyword); break; case XU: fprintf(fd, "%sx[rs]", Keyword); break; case UMIN: fprintf(fd, "%s- (unary minus)", Operator); break; case UNAME: fprintf(fd, "a typename"); break; case UNLESS: fprintf(fd, "%sunless", Keyword); break; } }