ref: 19cc46bc5ee1dd43537c4094d19d8da778b72bce
dir: /sys/src/cmd/spin/guided.c/
/***** spin: guided.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 "spin.h" #include <sys/types.h> #include <sys/stat.h> #include <limits.h> #include "y.tab.h" extern RunList *run, *X; extern Element *Al_El; extern Symbol *Fname, *oFname; extern int verbose, lineno, xspin, jumpsteps, depth, merger, cutoff; extern int nproc, nstop, Tval, ntrail, columns; extern short Have_claim, Skip_claim, has_code; extern void ana_src(int, int); extern char **trailfilename; int TstOnly = 0, pno; static int lastclaim = -1; static FILE *fd; static void lost_trail(void); static void whichproc(int p) { RunList *oX; for (oX = run; oX; oX = oX->nxt) if (oX->pid == p) { printf("(%s) ", oX->n->name); break; } } static int newer(char *f1, char *f2) { #if defined(WIN32) || defined(WIN64) struct _stat x, y; #else struct stat x, y; #endif if (stat(f1, (struct stat *)&x) < 0) return 0; if (stat(f2, (struct stat *)&y) < 0) return 1; if (x.st_mtime < y.st_mtime) return 0; return 1; } void hookup(void) { Element *e; for (e = Al_El; e; e = e->Nxt) if (e->n && (e->n->ntyp == ATOMIC || e->n->ntyp == NON_ATOMIC || e->n->ntyp == D_STEP)) (void) huntstart(e); } int not_claim(void) { return (!Have_claim || !X || X->pid != 0); } int globmin = INT_MAX; int globmax = 0; int find_min(Sequence *s) { SeqList *l; Element *e; if (s->minel < 0) { s->minel = INT_MAX; for (e = s->frst; e; e = e->nxt) { if (e->status & 512) { continue; } e->status |= 512; if (e->n->ntyp == ATOMIC || e->n->ntyp == NON_ATOMIC || e->n->ntyp == D_STEP) { int n = find_min(e->n->sl->this); if (n < s->minel) { s->minel = n; } } else if (e->Seqno < s->minel) { s->minel = e->Seqno; } for (l = e->sub; l; l = l->nxt) { int n = find_min(l->this); if (n < s->minel) { s->minel = n; } } } } if (s->minel < globmin) { globmin = s->minel; } return s->minel; } int find_max(Sequence *s) { if (s->last->Seqno > globmax) { globmax = s->last->Seqno; } return s->last->Seqno; } void match_trail(void) { int i, a, nst; Element *dothis; char snap[512], *q; if (has_code) { printf("spin: important:\n"); printf(" =======================================warning====\n"); printf(" this model contains embedded c code statements\n"); printf(" these statements will not be executed when the trail\n"); printf(" is replayed in this way -- they are just printed,\n"); printf(" which will likely lead to inaccurate variable values.\n"); printf(" for an accurate replay use: ./pan -r\n"); printf(" =======================================warning====\n\n"); } /* * if source model name is leader.pml * look for the trail file under these names: * leader.pml.trail * leader.pml.tra * leader.trail * leader.tra */ if (trailfilename) { if (strlen(*trailfilename) < sizeof(snap)) { strcpy(snap, (const char *) *trailfilename); } else { fatal("filename %s too long", *trailfilename); } } else { if (ntrail) sprintf(snap, "%s%d.trail", oFname->name, ntrail); else sprintf(snap, "%s.trail", oFname->name); } if ((fd = fopen(snap, "r")) == NULL) { snap[strlen(snap)-2] = '\0'; /* .tra */ if ((fd = fopen(snap, "r")) == NULL) { if ((q = strchr(oFname->name, '.')) != NULL) { *q = '\0'; if (ntrail) sprintf(snap, "%s%d.trail", oFname->name, ntrail); else sprintf(snap, "%s.trail", oFname->name); *q = '.'; if ((fd = fopen(snap, "r")) != NULL) goto okay; snap[strlen(snap)-2] = '\0'; /* last try */ if ((fd = fopen(snap, "r")) != NULL) goto okay; } printf("spin: cannot find trail file\n"); alldone(1); } } okay: if (xspin == 0 && newer(oFname->name, snap)) { printf("spin: warning, \"%s\" is newer than %s\n", oFname->name, snap); } Tval = 1; /* * sets Tval because timeouts may be part of trail * this used to also set m_loss to 1, but that is * better handled with the runtime -m flag */ hookup(); while (fscanf(fd, "%d:%d:%d\n", &depth, &pno, &nst) == 3) { if (depth == -2) { if (verbose) { printf("starting claim %d\n", pno); } start_claim(pno); continue; } if (depth == -4) { if (verbose) { printf("using statement merging\n"); } merger = 1; ana_src(0, 1); continue; } if (depth == -1) { if (1 || verbose) { if (columns == 2) dotag(stdout, " CYCLE>\n"); else dotag(stdout, "<<<<<START OF CYCLE>>>>>\n"); } continue; } if (cutoff > 0 && depth >= cutoff) { printf("-------------\n"); printf("depth-limit (-u%d steps) reached\n", cutoff); break; } if (Skip_claim && pno == 0) continue; for (dothis = Al_El; dothis; dothis = dothis->Nxt) { if (dothis->Seqno == nst) break; } if (!dothis) { printf("%3d: proc %d, no matching stmnt %d\n", depth, pno - Have_claim, nst); lost_trail(); } i = nproc - nstop + Skip_claim; if (dothis->n->ntyp == '@') { if (pno == i-1) { run = run->nxt; nstop++; if (verbose&4) { if (columns == 2) { dotag(stdout, "<end>\n"); continue; } if (Have_claim && pno == 0) printf("%3d: claim terminates\n", depth); else printf("%3d: proc %d terminates\n", depth, pno - Have_claim); } continue; } if (pno <= 1) continue; /* init dies before never */ printf("%3d: stop error, ", depth); printf("proc %d (i=%d) trans %d, %c\n", pno - Have_claim, i, nst, dothis->n->ntyp); lost_trail(); } if (0 && !xspin && (verbose&32)) { printf("step %d i=%d pno %d stmnt %d\n", depth, i, pno, nst); } for (X = run; X; X = X->nxt) { if (--i == pno) break; } if (!X) { if (verbose&32) { printf("%3d: no process %d (stmnt %d)\n", depth, pno - Have_claim, nst); printf(" max %d (%d - %d + %d) claim %d ", nproc - nstop + Skip_claim, nproc, nstop, Skip_claim, Have_claim); printf("active processes:\n"); for (X = run; X; X = X->nxt) { printf("\tpid %d\tproctype %s\n", X->pid, X->n->name); } printf("\n"); continue; } else { printf("%3d:\tproc %d (?) ", depth, pno); lost_trail(); } } else { int min_seq = find_min(X->ps); int max_seq = find_max(X->ps); if (nst < min_seq || nst > max_seq) { printf("%3d: error: invalid statement", depth); if (verbose&32) { printf(": pid %d:%d (%s:%d:%d) stmnt %d (valid range %d .. %d)", pno, X->pid, X->n->name, X->tn, X->b, nst, min_seq, max_seq); } printf("\n"); continue; /* lost_trail(); */ } X->pc = dothis; } lineno = dothis->n->ln; Fname = dothis->n->fn; if (dothis->n->ntyp == D_STEP) { Element *g, *og = dothis; do { g = eval_sub(og); if (g && depth >= jumpsteps && ((verbose&32) || ((verbose&4) && not_claim()))) { if (columns != 2) { p_talk(og, 1); if (og->n->ntyp == D_STEP) og = og->n->sl->this->frst; printf("\t["); comment(stdout, og->n, 0); printf("]\n"); } if (verbose&1) dumpglobals(); if (verbose&2) dumplocal(X); if (xspin) printf("\n"); } og = g; } while (g && g != dothis->nxt); if (X != NULL) { X->pc = g?huntele(g, 0, -1):g; } } else { keepgoing: if (dothis->merge_start) a = dothis->merge_start; else a = dothis->merge; if (X != NULL) { X->pc = eval_sub(dothis); if (X->pc) X->pc = huntele(X->pc, 0, a); } if (depth >= jumpsteps && ((verbose&32) || ((verbose&4) && not_claim()))) /* -v or -p */ { if (columns != 2) { p_talk(dothis, 1); if (dothis->n->ntyp == D_STEP) dothis = dothis->n->sl->this->frst; printf("\t["); comment(stdout, dothis->n, 0); printf("]"); if (a && (verbose&32)) printf("\t<merge %d now @%d>", dothis->merge, (X && X->pc)?X->pc->seqno:-1); printf("\n"); } if (verbose&1) dumpglobals(); if (verbose&2) dumplocal(X); if (xspin) printf("\n"); if (X && !X->pc) { X->pc = dothis; printf("\ttransition failed\n"); a = 0; /* avoid inf loop */ } } if (a && X && X->pc && X->pc->seqno != a) { dothis = X->pc; goto keepgoing; } } if (Have_claim && X && X->pid == 0 && dothis->n && lastclaim != dothis->n->ln) { lastclaim = dothis->n->ln; if (columns == 2) { char t[128]; sprintf(t, "#%d", lastclaim); pstext(0, t); } else { printf("Never claim moves to line %d\t[", lastclaim); comment(stdout, dothis->n, 0); printf("]\n"); } } } printf("spin: trail ends after %d steps\n", depth); wrapup(0); } static void lost_trail(void) { int d, p, n, l; while (fscanf(fd, "%d:%d:%d:%d\n", &d, &p, &n, &l) == 4) { printf("step %d: proc %d ", d, p); whichproc(p); printf("(state %d) - d %d\n", n, l); } wrapup(1); /* no return */ } int pc_value(Lextok *n) { int i = nproc - nstop; int pid = eval(n); RunList *Y; for (Y = run; Y; Y = Y->nxt) { if (--i == pid) return Y->pc->seqno; } return 0; }