ref: f0ac2d01765f938a4f3656efef440cf2c1bca69d
dir: /sys/src/cmd/iostats.c/
/* * iostats - Gather file system information */ #include <u.h> #include <libc.h> #include <auth.h> #include <fcall.h> #define DONESTR "done" enum{ Maxfile = 1000, /* number of Files we'll log */ }; typedef struct File File; typedef struct Fid Fid; typedef struct Req Req; typedef struct Rpc Rpc; typedef struct Stats Stats; /* per file statistics */ struct File { Qid qid; char *path; ulong nopen; ulong nread; vlong bread; ulong nwrite; vlong bwrite; }; /* fid context */ struct Fid { int fid; Qid qid; char *path; File *file; /* set on open/create */ Fid *next; }; /* a request */ struct Req { Req *next; vlong t; Fcall f; uchar buf[]; }; /* per rpc statistics */ struct Rpc { char *name; ulong count; vlong time; vlong lo; vlong hi; vlong bin; vlong bout; }; /* all the statistics */ struct Stats { vlong totread; vlong totwrite; ulong nrpc; vlong nproto; Rpc rpc[Tmax]; File file[Maxfile]; }; Stats stats[1]; int pfd[2]; int efd[2]; int done; Lock rqlock; Req *rqhead; Fid *fidtab[1024]; void catcher(void *a, char *msg) { USED(a); if(strcmp(msg, DONESTR) == 0) { done = 1; noted(NCONT); } if(strcmp(msg, "exit") == 0) exits("exit"); noted(NDFLT); } void update(Rpc *rpc, vlong t) { vlong t2; t2 = nsec(); t = t2 - t; if(t < 0) t = 0; rpc->time += t; if(t < rpc->lo) rpc->lo = t; if(t > rpc->hi) rpc->hi = t; } Fid** fidhash(int fid) { return &fidtab[fid % nelem(fidtab)]; } Fid* getfid(int fid, int new) { Fid *f, **ff; ff = fidhash(fid); for(f = *ff; f != nil; f = f->next){ if(f->fid == fid) return f; } if(new){ f = mallocz(sizeof(*f), 1); f->fid = fid; f->next = *ff; *ff = f; } return f; } void setfid(Fid *f, char *path, Qid qid) { if(path != f->path){ free(f->path); f->path = path; } f->qid = qid; f->file = nil; } void rattach(Fcall *fin, Fcall *fout) { setfid(getfid(fin->fid, 1), strdup("/"), fout->qid); } void rwalk(Fcall *fin, Fcall *fout) { Fid *of, *f; int i; if((of = getfid(fin->fid, 0)) == nil) return; f = getfid(fin->newfid, 1); if(f != of) setfid(f, strdup(of->path), of->qid); for(i=0; i<fout->nwqid; i++) setfid(f, cleanname(smprint("%s/%s", f->path, fin->wname[i])), fout->wqid[i]); } void ropen(Fcall *fin, Fcall *fout) { File *fs; Fid *f; if((f = getfid(fin->fid, 0)) == nil) return; if(fin->type == Tcreate) setfid(f, cleanname(smprint("%s/%s", f->path, fin->name)), fout->qid); else setfid(f, f->path, fout->qid); for(fs = stats->file; fs < &stats->file[Maxfile]; fs++){ if(fs->nopen == 0){ fs->path = strdup(f->path); fs->qid = f->qid; f->file = fs; break; } if(fs->qid.path == f->qid.path && strcmp(fs->path, f->path) == 0){ f->file = fs; break; } } if(f->file != nil) f->file->nopen++; } void rclunk(Fcall *fin) { Fid **ff, *f; for(ff = fidhash(fin->fid); (f = *ff) != nil; ff = &f->next){ if(f->fid == fin->fid){ *ff = f->next; free(f->path); free(f); return; } } } void rio(Fcall *fin, Fcall *fout) { Fid *f; int count; count = fout->count; if((f = getfid(fin->fid, 0)) == nil) return; switch(fout->type){ case Rread: if(f->file != nil){ f->file->nread++; f->file->bread += count; } stats->totread += count; break; case Rwrite: if(f->file != nil){ f->file->nwrite++; f->file->bwrite += count; } stats->totwrite += count; break; } } void usage(void) { fprint(2, "usage: iostats [-dC] cmds [args ...]\n"); exits("usage"); } void main(int argc, char **argv) { Rpc *rpc; ulong ttime; char buf[64*1024]; float brpsec, bwpsec, bppsec; int cpid, fspid, expid, rspid, dbg, n, mflag; char *fds[3]; Waitmsg *w; File *fs; Req *r; dbg = 0; mflag = MREPL; ARGBEGIN{ case 'd': dbg++; break; case 'C': mflag |= MCACHE; break; default: usage(); }ARGEND if(argc == 0) usage(); if(pipe(pfd) < 0) sysfatal("pipe: %r"); /* dup std fds to be inherited to exportfs */ fds[0] = smprint("/fd/%d", dup(0, -1)); fds[1] = smprint("/fd/%d", dup(1, -1)); fds[2] = smprint("/fd/%d", dup(2, -1)); switch(cpid = fork()) { case -1: sysfatal("fork: %r"); case 0: close(pfd[1]); close(atoi(strrchr(fds[0], '/')+1)); close(atoi(strrchr(fds[1], '/')+1)); close(atoi(strrchr(fds[2], '/')+1)); if(getwd(buf, sizeof(buf)) == 0) sysfatal("no working directory: %r"); rfork(RFENVG|RFNAMEG); if(mount(pfd[0], -1, "/", mflag, "") == -1) sysfatal("mount /: %r"); /* replace std fds with the exported ones */ close(0); open(fds[0], OREAD); close(1); open(fds[1], OWRITE); close(2); open(fds[2], OWRITE); bind("#c/pid", "/dev/pid", MREPL); bind("#c/ppid", "/dev/ppid", MREPL); bind("#e", "/env", MREPL|MCREATE); bind("#d", "/fd", MREPL); bind("#s", "/srv", MREPL|MCREATE); if(chdir(buf) < 0) sysfatal("chdir: %r"); exec(*argv, argv); if(**argv != '/' && strncmp(*argv, "./", 2) != 0 && strncmp(*argv, "../", 3) != 0) exec(smprint("/bin/%s", *argv), argv); sysfatal("exec: %r"); default: close(pfd[0]); } /* isolate us from interrupts */ rfork(RFNOTEG); if(pipe(efd) < 0) sysfatal("pipe: %r"); /* spawn exportfs */ switch(expid = fork()) { default: close(efd[0]); close(atoi(strrchr(fds[0], '/')+1)); close(atoi(strrchr(fds[1], '/')+1)); close(atoi(strrchr(fds[2], '/')+1)); break; case -1: sysfatal("fork: %r"); case 0: dup(efd[0], 0); dup(efd[0], 1); close(efd[0]); close(efd[1]); close(pfd[1]); if(dbg){ execl("/bin/exportfs", "exportfs", "-d", "-r", "/", nil); } else { execl("/bin/exportfs", "exportfs", "-r", "/", nil); } sysfatal("exec: %r"); } switch(fspid = fork()) { default: close(pfd[1]); close(efd[1]); buf[0] = '\0'; while((w = wait()) != nil && (cpid != -1 || fspid != -1 || expid != -1)){ if(w->pid == fspid) fspid = -1; else if(w->pid == expid) expid = -1; else if(w->pid == cpid){ cpid = -1; strcpy(buf, w->msg); if(fspid != -1) postnote(PNPROC, fspid, DONESTR); } if(buf[0] == '\0') strcpy(buf, w->msg); free(w); } exits(buf); case -1: sysfatal("fork: %r"); case 0: notify(catcher); break; } stats->rpc[Tversion].name = "version"; stats->rpc[Tauth].name = "auth"; stats->rpc[Tflush].name = "flush"; stats->rpc[Tattach].name = "attach"; stats->rpc[Twalk].name = "walk"; stats->rpc[Topen].name = "open"; stats->rpc[Tcreate].name = "create"; stats->rpc[Tclunk].name = "clunk"; stats->rpc[Tread].name = "read"; stats->rpc[Twrite].name = "write"; stats->rpc[Tremove].name = "remove"; stats->rpc[Tstat].name = "stat"; stats->rpc[Twstat].name = "wstat"; for(n = 0; n < nelem(stats->rpc); n++) stats->rpc[n].lo = 10000000000LL; switch(rspid = rfork(RFPROC|RFMEM)) { case 0: /* read response from exportfs and pass to mount */ while(!done){ uchar tmp[sizeof(buf)]; Fcall f; Req **rr; n = read(efd[1], buf, sizeof(buf)); if(n < 0) break; if(n == 0) continue; /* convert response */ memset(&f, 0, sizeof(f)); memmove(tmp, buf, n); if(convM2S(tmp, n, &f) != n) sysfatal("convM2S: %r"); /* find request to this response */ lock(&rqlock); for(rr = &rqhead; (r = *rr) != nil; rr = &r->next){ if(r->f.tag == f.tag){ *rr = r->next; r->next = nil; break; } } stats->nproto += n; unlock(&rqlock); switch(f.type){ case Ropen: case Rcreate: ropen(&r->f, &f); break; case Rclunk: case Rremove: rclunk(&r->f); break; case Rattach: rattach(&r->f, &f); break; case Rwalk: rwalk(&r->f, &f); break; case Rread: case Rwrite: rio(&r->f, &f); break; } rpc = &stats->rpc[r->f.type]; update(rpc, r->t); rpc->bout += n; free(r); if(write(pfd[1], buf, n) != n) break; } exits(nil); default: /* read request from mount and pass to exportfs */ while(!done){ n = read(pfd[1], buf, sizeof(buf)); if(n < 0) break; if(n == 0) continue; r = mallocz(sizeof(*r) + n, 1); memmove(r->buf, buf, n); if(convM2S(r->buf, n, &r->f) != n) sysfatal("convM2S: %r"); rpc = &stats->rpc[r->f.type]; rpc->count++; rpc->bin += n; lock(&rqlock); stats->nrpc++; stats->nproto += n; r->next = rqhead; rqhead = r; unlock(&rqlock); r->t = nsec(); if(write(efd[1], buf, n) != n) break; } } /* shutdown */ done = 1; postnote(PNPROC, rspid, DONESTR); close(pfd[1]); close(efd[1]); /* dump statistics */ rpc = &stats->rpc[Tread]; brpsec = (double)stats->totread / (((float)rpc->time/1e9)+.000001); rpc = &stats->rpc[Twrite]; bwpsec = (double)stats->totwrite / (((float)rpc->time/1e9)+.000001); ttime = 0; for(n = 0; n < nelem(stats->rpc); n++) { rpc = &stats->rpc[n]; if(rpc->count == 0) continue; ttime += rpc->time; } bppsec = (double)stats->nproto / ((ttime/1e9)+.000001); fprint(2, "\nread %llud bytes, %g Kb/sec\n", stats->totread, brpsec/1024.0); fprint(2, "write %llud bytes, %g Kb/sec\n", stats->totwrite, bwpsec/1024.0); fprint(2, "protocol %llud bytes, %g Kb/sec\n", stats->nproto, bppsec/1024.0); fprint(2, "rpc %lud count\n\n", stats->nrpc); fprint(2, "%-10s %5s %5s %5s %5s %5s T R\n", "Message", "Count", "Low", "High", "Time", "Averg"); for(n = 0; n < nelem(stats->rpc); n++) { rpc = &stats->rpc[n]; if(rpc->count == 0) continue; fprint(2, "%-10s %5lud %5llud %5llud %5llud %5llud ms %8llud %8llud bytes\n", rpc->name, rpc->count, rpc->lo/1000000, rpc->hi/1000000, rpc->time/1000000, rpc->time/1000000/rpc->count, rpc->bin, rpc->bout); } fprint(2, "\nOpens Reads (bytes) Writes (bytes) File\n"); for(fs = stats->file; fs < &stats->file[Maxfile]; fs++){ if(fs->nopen == 0) break; if(strcmp(fs->path, fds[0]) == 0) fs->path = "stdin"; else if(strcmp(fs->path, fds[1]) == 0) fs->path = "stdout"; else if(strcmp(fs->path, fds[2]) == 0) fs->path = "stderr"; fprint(2, "%5lud %8lud %8llud %8lud %8llud %s\n", fs->nopen, fs->nread, fs->bread, fs->nwrite, fs->bwrite, fs->path); } exits(nil); }