ref: d79335d57a7f6f608e8caf800b74155a299a550c
dir: /9pex.c/
#ifdef __linux__ #define _GNU_SOURCE #else #define _DEFAULT_SOURCE #endif #define _FILE_OFFSET_BITS 64 #include <dirent.h> #include <errno.h> #include <fcntl.h> #include <grp.h> #include <inttypes.h> #include <pwd.h> #include <signal.h> #include <stdarg.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/select.h> #include <sys/stat.h> #include <sys/time.h> #include <unistd.h> #include "c9.h" #include "parg.h" #define max(a,b) ((a)>(b)?(a):(b)) #define used(x) ((void)(x)) #define nelem(x) (int)(sizeof(x)/sizeof((x)[0])) uint32_t crc32(const void *data, int len); enum { Canrd = 1<<0, Canwr = 1<<1, }; typedef struct { char *path; /* full path */ char *name; /* base name */ DIR *dir; /* set when it's an opened directory */ uint64_t diroffset; /* to read dirs correctly */ C9qid qid; C9fid fid; C9mode mode; /* mode in which the file was opened */ uint32_t iounit; int fd; /* set when it's an opened file */ }Fid; typedef struct { C9tag tag; }Tag; typedef struct { char *name; uint32_t id; }Id; static char *t2s[] = { [Tversion-Tversion] = "Tversion", [Tauth-Tversion] = "Tauth", [Tattach-Tversion] = "Tattach", [Tflush-Tversion] = "Tflush", [Twalk-Tversion] = "Twalk", [Topen-Tversion] = "Topen", [Tcreate-Tversion] = "Tcreate", [Tread-Tversion] = "Tread", [Twrite-Tversion] = "Twrite", [Tclunk-Tversion] = "Tclunk", [Tremove-Tversion] = "Tremove", [Tstat-Tversion] = "Tstat", [Twstat-Tversion] = "Twstat", }; static char *modes[] = { "read", "write", "rdwr", "exec", }; static char *Enoauth = "authentication not required"; static char *Eunknownfid = "unknown fid"; static char *Enowstat = "wstat prohibited"; static char *Eperm = "permission denied"; static char *Enowrite = "write prohibited"; static char *Enomem = "out of memory"; static char *Edupfid = "duplicate fid"; static char *Ewalknodir = "walk in non-directory"; static char *Enotfound = "file not found"; static char *Eduptag = "duplicate tag"; static char *Ebotch = "9P protocol botch"; static char *Enocreate = "create prohibited"; static char *Eisdir = "is a directory"; static char *Ebadoffset = "bad offset"; static int in, out, eof; static C9ctx ctx; static int debug, rootescape; static Fid **fids; static int numfids; static Tag **tags; static int numtags; static char *rootpath; static size_t rootlen; static C9qid walkqids[C9maxpathel]; static uint8_t *rdbuf; static uint8_t *wrbuf; static uint32_t wroff, wrend, wrbufsz; static Id *uids, *gids; static int numuids, numgids; __attribute__ ((format (printf, 1, 2))) static void trace(const char *fmt, ...) { va_list ap; if (debug == 0) return; va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); } static int canrw(int rdonly, int block) { struct timeval t; fd_set r, w, e; int n, fl; FD_ZERO(&r); FD_SET(in, &r); FD_ZERO(&w); if (rdonly == 0) FD_SET(out, &w); FD_ZERO(&e); FD_SET(in, &e); FD_SET(out, &e); memset(&t, 0, sizeof(t)); t.tv_usec = 1000; for (;;) { errno = 0; if ((n = select(max(in, out) + 1, &r, &w, &e, block ? NULL : &t)) < 0 || FD_ISSET(in, &e) || FD_ISSET(out, &e)) { if (errno == EINTR) continue; return -1; } break; } fl = 0; if (FD_ISSET(in, &r)) fl |= Canrd; if (FD_ISSET(out, &w)) fl |= Canwr; return fl; } static int wrsend(void) { uint32_t n; int w; if (wrend == 0) return 0; for (n = 0; n < wrend; n += w) { errno = 0; if ((w = write(out, wrbuf+n, wrend-n)) <= 0) { if (errno == EINTR) continue; if (errno != EPIPE) /* remote end closed */ perror("write"); return -1; } } if (debug >= 2) trace("<- %d bytes, %d left\n", wrend, wroff-wrend); memmove(wrbuf, wrbuf+wrend, wroff-wrend); wroff = wroff - wrend; return 0; } static int hastag(C9tag tag) { int i; for (i = 0; i < numtags; i++) { if (tags[i] != NULL && tags[i]->tag == tag) return 1; } return 0; } static int statpath(char *path, struct stat *st, char **err) { if (stat(path, st) == 0) return 0; if (errno == EACCES) *err = Eperm; else if (errno == ENOMEM) *err = Enomem; else if (errno == ENOTDIR) *err = Ewalknodir; else if (errno == ENOENT) *err = Enotfound; else *err = strerror(errno); return -1; } static void stat2qid(struct stat *st, C9qid *qid, uint32_t *iounit) { int fmt; qid->path = st->st_ino; qid->version = crc32(&st->st_ctim, sizeof(st->st_ctim)); qid->type = C9qtfile; fmt = st->st_mode & S_IFMT; if (fmt == S_IFDIR) qid->type |= C9qtdir; if ((st->st_mode & 0222) != 0 && (fmt == S_IFCHR || fmt == S_IFCHR || fmt == S_IFSOCK || fmt == S_IFIFO)) qid->type |= C9qtappend; if (iounit != NULL) *iounit = st->st_blksize; } static Fid * newfid(C9fid fid, char *path, char **err) { Fid *f, **newfids; struct stat st; int i; for (i = 0; i < numfids; i++) { if (fids[i] != NULL && fids[i]->fid == fid) { *err = Edupfid; return NULL; } } if (statpath(path, &st, err) != 0) return NULL; if ((f = calloc(1, sizeof(*f))) == NULL) { *err = Enomem; return NULL; } f->fd = -1; f->path = strdup(path); f->name = strrchr(f->path, '/'); if (f->name == NULL) f->name = f->path; else f->name++; if (f->name[0] == 0) fprintf(stderr, "%s -> empty file name\n", f->path); for (i = 0; i < numfids; i++) { if (fids[i] == NULL) { fids[i] = f; break; } } if (i >= numfids) { if ((newfids = realloc(fids, (numfids+1)*sizeof(*fids))) == NULL) { *err = Enomem; return NULL; } fids = newfids; fids[numfids++] = f; } f->fid = fid; stat2qid(&st, &f->qid, &f->iounit); return f; } static Fid * findfid(C9fid fid, char **err) { int i; for (i = 0; i < numfids; i++) { if (fids[i] != NULL && fids[i]->fid == fid) { return fids[i]; } } *err = Eunknownfid; return NULL; } static int delfid(C9fid fid, char **err) { Fid *f; int i; for (i = 0; i < numfids; i++) { f = fids[i]; if (f != NULL && f->fid == fid) { if (f->dir != NULL) closedir(f->dir); else if (f->fd >= 0) close(f->fd); free(f->path); free(f); fids[i] = NULL; return 0; } } *err = Eunknownfid; return -1; } static int hasperm(struct stat *st, C9mode mode, char **err) { int m, stm, fmt; m = mode & 0xf; stm = st->st_mode & 0777; *err = Eperm; if (((stm & 0111) == 0 || (stm & 0444) == 0) && m == C9exec) /* executing needs rx */ return 0; if ((stm & 0222) == 0 && (m == C9write || m == C9rdwr)) /* writing needs w */ return 0; if ((stm & 0444) == 0 && m != C9write) /* reading needs r */ return 0; fmt = st->st_mode & S_IFMT; if (fmt == S_IFDIR && ((stm & 0111) == 0 || (stm & 0444) == 0)) /* dirs need rx */ return 0; *err = NULL; return 1; } static Fid * walk(C9fid fid, C9fid nfid, char *el[], C9qid *qids[], char **err) { Fid *f; char *path, *real, *p; struct stat st; int i, plen, ellen; if ((f = findfid(fid, err)) == NULL) return NULL; if (el[0] == NULL) { /* nwname = 0 */ qids[0] = NULL; if (fid == nfid) return f; return newfid(nfid, f->path, err); } if ((f->qid.type & C9qtdir) == 0) { /* has to be a dir */ *err = Ewalknodir; return NULL; } p = strdup(f->path); f = NULL; for (i = 0; el[i] != NULL; i++) { plen = strlen(p); ellen = strlen(el[i]); path = malloc(plen + 1 + ellen + 1); memmove(path, p, plen); path[plen] = '/'; memmove(path+plen+1, el[i], ellen); path[plen+1+ellen] = 0; if (!rootescape) { if ((real = realpath(path, NULL)) == NULL) break; free(path); if (strlen(real) < rootlen) { /* don't escape root */ free(real); real = strdup(rootpath); } } else { real = path; } free(p); p = real; if (statpath(p, &st, err) != 0) break; if (el[i+1] != NULL && !hasperm(&st, C9read, err)) break; qids[i] = &walkqids[i]; stat2qid(&st, qids[i], NULL); } qids[i] = NULL; if (el[i] == NULL) { /* could walk all the way */ f = newfid(nfid, p, err); if (f != NULL && f->name[0] == '/' && f->name[1] == 0) /* root */ f->name = "/"; } else if (i != 0) { /* didn't fail on the first one */ *err = NULL; } free(p); return f; } static int mode2unix(C9mode mode, int qidtype) { int omode; omode = O_NOFOLLOW; if ((mode & 3) == C9read) omode |= O_RDONLY; else if ((mode & 3) == C9write) omode |= O_WRONLY; else if ((mode & 3) == C9rdwr) omode |= O_RDWR; if (mode & C9trunc) omode |= O_TRUNC; #ifdef __linux__ if (mode & C9rclose) omode |= O_TMPFILE; #endif if ((qidtype & C9qtappend) != 0) omode |= O_APPEND; return omode; } static int openfid(Fid *f, C9mode mode, char **err) { struct stat st; int omode; if (stat(f->path, &st) != 0 || !hasperm(&st, mode, err)) goto error; stat2qid(&st, &f->qid, &f->iounit); if ((f->qid.type & C9qtdir) != 0) { if ((f->dir = opendir(f->path)) == NULL) { *err = strerror(errno); return -1; } f->fd = dirfd(f->dir); } else { omode = mode2unix(mode, f->qid.type); f->fd = open(f->path, omode); } if (f->fd < 0) goto error; f->mode = mode; return 0; error: if (*err == NULL) *err = strerror(errno); if (f->dir != NULL) closedir(f->dir); else if (f->fd >= 0) close(f->fd); f->dir = NULL; f->fd = -1; return -1; } static char * uid2str(uid_t uid, char **err) { struct passwd *p; Id *newuids; int i; for (i = 0; i < numuids; i++) { if (uids[i].id == uid) return uids[i].name; } if ((p = getpwuid(uid)) == NULL) { *err = strerror(errno); return NULL; } if ((newuids = realloc(uids, sizeof(*uids)*(numuids+1))) == NULL) { *err = Enomem; return NULL; } uids = newuids; uids[numuids].id = uid; uids[numuids].name = strdup(p->pw_name); return uids[numuids++].name; } static char * gid2str(gid_t gid, char **err) { struct group *g; Id *newgids; int i; for (i = 0; i < numgids; i++) { if (gids[i].id == gid) return gids[i].name; } if ((g = getgrgid(gid)) == NULL) { *err = strerror(errno); return NULL; } if ((newgids = realloc(gids, sizeof(*gids)*(numgids+1))) == NULL) { *err = Enomem; return NULL; } gids = newgids; gids[numgids].id = gid; gids[numgids].name = strdup(g->gr_name); return gids[numgids++].name; } static int stat2c9stat(char *name, struct stat *st, C9stat *stout, char **err) { int fmt; memset(stout, 0, sizeof(*stout)); stout->size = st->st_size; stat2qid(st, &stout->qid, NULL); stout->name = name; stout->atime = st->st_atim.tv_sec; stout->mtime = st->st_ctim.tv_sec; fmt = st->st_mode & S_IFMT; if (fmt == S_IFDIR) stout->mode |= C9stdir; if (fmt == S_IFCHR || fmt == S_IFCHR || fmt == S_IFSOCK || fmt == S_IFIFO) stout->mode |= C9stappend; stout->mode |= st->st_mode & 0x1ff; if ((stout->uid = uid2str(st->st_uid, err)) == NULL) return -1; if ((stout->gid = gid2str(st->st_gid, err)) == NULL) return -1; return 0; } static int statfid(Fid *f, C9stat *stout, char **err) { struct stat st; int r; if (f->fd >= 0) r = fstat(f->fd, &st); else r = stat(f->path, &st); if (r != 0) { *err = strerror(errno); return -1; } return stat2c9stat(f->name, &st, stout, err); } static uint8_t * ctxread(C9ctx *c, uint32_t size, int *err) { uint32_t n; int r; used(c); r = 0; *err = 0; for (n = 0; n < size; n += r) { errno = 0; if ((r = read(in, rdbuf+n, size-n)) <= 0) { if (r == EINTR) continue; if (r == 0) { eof = 1; } else { *err = 1; perror("ctxread"); } return NULL; } } return rdbuf; } static uint8_t * ctxbegin(C9ctx *c, uint32_t size) { uint8_t *b; used(c); if (wroff + size > wrbufsz) { if (wrsend() != 0 || wroff + size > wrbufsz) return NULL; } b = wrbuf + wroff; wroff += size; return b; } static int ctxend(C9ctx *c) { used(c); wrend = wroff; return 0; } __attribute__ ((format (printf, 1, 2))) static void ctxerror(const char *fmt, ...) { va_list ap; va_start(ap, fmt); vfprintf(stderr, fmt, ap); fprintf(stderr, "\n"); va_end(ap); } static int s9do(C9error e, char **err) { if (e == 0) { *err = NULL; return 0; } switch (e) { case C9Einit: *err = "c9: initialization failed"; break; case C9Ever: *err = "c9: protocol version doesn't match"; break; case C9Epkt: *err = "c9: incoming packet error"; break; case C9Etag: *err = "c9: no free tags or bad tag"; break; case C9Ebuf: *err = Enomem; break; case C9Epath: *err = "c9: path is too long or just invalid"; break; case C9Eflush: *err = "c9: limit of outstanding flushes reached"; break; case C9Esize: *err = "c9: can't fit data in one message"; break; case C9Estr: *err = "c9: bad string"; break; default: *err = "c9: unknown error"; break; } return -1; } static int readf(C9ctx *c, C9tag tag, Fid *f, uint64_t offset, uint32_t size, char **err) { struct stat st; void *p; struct dirent *e; ssize_t n; C9stat c9st[16], *c9stp[16]; long dirpos[16]; int i, num, res; if (size > c->msize - 12) /* make sure it fits */ size = c->msize - 12; if (f->dir == NULL) { /* a file */ if ((p = malloc(size)) == NULL) { *err = Enomem; return -1; } if ((n = pread(f->fd, p, size, offset)) < 0) { *err = strerror(errno); free(p); return -1; } res = s9do(s9read(c, tag, p, n), err); free(p); if (res != 0) return -1; trace("<- Rread tag=%d count=%zd data=...\n", tag, n); return 0; } /* dir */ if (offset != f->diroffset) { if (offset == 0) { rewinddir(f->dir); f->diroffset = 0; } else { *err = Ebadoffset; return -1; } } res = 0; num = 0; for (i = 0; i < nelem(c9st); i++) { dirpos[i] = telldir(f->dir); /* so we can rewind in case another stat doesn't fit */ errno = 0; if ((e = readdir(f->dir)) == NULL && errno != 0) { *err = strerror(errno); res = -1; goto done; } if (e == NULL) /* eof */ break; if (e->d_name[0] == '.' && (e->d_name[1] == 0 || ((e->d_name[1] == '.' && e->d_name[2] == 0)))) continue; if (fstatat(f->fd, e->d_name, &st, 0) != 0) { *err = strerror(errno); if (fstatat(f->fd, e->d_name, &st, AT_SYMLINK_NOFOLLOW) != 0) { /* broken symlink, try to stat the link itself */ res = -1; goto done; } } if (stat2c9stat(e->d_name, &st, &c9st[i], err) != 0) { res = -1; goto done; } c9st[i].name = strdup(c9st[i].name); c9stp[num++] = &c9st[i]; } i = num; if (s9do(s9readdir(c, tag, c9stp, &num, &f->diroffset, size), err) != 0) { res = -1; goto done; } trace("<- Rread tag=%d count=%"PRIu64" data=...\n", tag, f->diroffset - offset); if (i != num) seekdir(f->dir, dirpos[num]); done: for (i = 0; i < num; i++) free(c9stp[i]->name); return res; } static void ctxt(C9ctx *c, C9t *t) { Fid *f; C9qid *qids[C9maxpathel+1]; char *err, *err2; C9stat st; int i; trace("-> %s tag=%d", t2s[t->type-Tversion], t->tag); err = NULL; if (hastag(t->tag)) { err = Eduptag; } else { switch (t->type){ case Tversion: trace("\n"); if (s9do(s9version(c), &err) == 0) trace("<- Rversion\n"); break; case Tauth: trace(" afid=%d uname=\"%s\" aname=\"%s\"\n", t->auth.afid, t->auth.uname, t->auth.aname); err = Enoauth; break; case Tattach: trace(" afid=%d fid=%d uname=\"%s\" aname=\"%s\"\n", t->attach.afid, t->fid, t->attach.uname, t->attach.aname); if (t->attach.afid != C9nofid) { err = Eunknownfid; } else if ((f = newfid(t->fid, rootpath, &err)) != NULL) { f->name = "/"; if (s9do(s9attach(c, t->tag, &f->qid), &err) == 0) trace("<- Rattach\n"); } break; case Tflush: trace(" oldtag=%d\n", t->flush.oldtag); /* FIXME flush it for realz */ if (s9do(s9flush(c, t->tag), &err) == 0) trace("<- Rflush tag=%d\n", t->tag); break; case Twalk: trace(" fid=%d newfid=%d", t->fid, t->walk.newfid); for (i = 0; t->walk.wname[i] != NULL; i++) trace(" \"%s\"", t->walk.wname[i]); trace("\n"); walk(t->fid, t->walk.newfid, t->walk.wname, qids, &err); if (err == NULL && s9do(s9walk(c, t->tag, qids), &err) == 0) { trace("<- Rwalk tag=%d ", t->tag); for (i = 0; qids[i] != NULL; i++) trace("qid=[path=%"PRIu64" type=0x%02x version=%"PRIu32"] ", qids[i]->path, qids[i]->type, qids[i]->version); trace("\n"); } break; case Topen: trace(" fid=%d mode=0x%02x\n", t->fid, t->open.mode); if ((f = findfid(t->fid, &err)) != NULL) { if (f->fd >= 0) err = Ebotch; else if (t->open.mode != C9read && t->open.mode != C9exec) err = Eperm; else if (t->open.mode != C9read && (f->qid.type & C9qtdir) != 0) err = Eisdir; else if (openfid(f, t->open.mode, &err) == 0 && s9do(s9open(c, t->tag, &f->qid, f->iounit), &err) == 0) trace("<- Ropen tag=%d qid=[path=%"PRIu64" type=0x%02x version=%"PRIu32"] iounit=%d\n", t->tag, f->qid.path, f->qid.type, f->qid.version, f->iounit); } break; case Tcreate: trace("...\n"); err = Enocreate; break; case Tread: trace(" fid=%d offset=%"PRIu64" count=%"PRIu32"\n", t->fid, t->read.offset, t->read.size); if ((f = findfid(t->fid, &err)) != NULL) { if ((f->dir == NULL && f->fd < 0) || (f->mode & 0xf) == C9write) err = Ebotch; else if (readf(c, t->tag, f, t->read.offset, t->read.size, &err) != 0) trace("readf failed\n"); } break; case Twrite: trace("...\n"); err = Enowrite; break; case Tclunk: trace(" fid=%d\n", t->fid); if (delfid(t->fid, &err) == 0 && s9do(s9clunk(c, t->tag), &err) == 0) trace("<- Rclunk tag=%d\n", t->tag); break; case Tremove: trace("\n"); err = Eperm; break; case Tstat: trace(" fid=%d\n", t->fid); if ((f = findfid(t->fid, &err)) != NULL && statfid(f, &st, &err) == 0 && s9do(s9stat(c, t->tag, &st), &err) == 0) trace("<- Rstat tag=%d ...\n", t->tag); break; case Twstat: trace("...\n"); err = Enowstat; break; } } if (err != NULL) { if (s9do(s9error(c, t->tag, err), &err2) == 0) trace("<- Rerror tag=%d \"%s\"\n", t->tag, err); else fprintf(stderr, "s9error: %s\n", err2); } } static void sigdebug(int s) { Fid *f; int i, n; used(s); n = 0; for (i = 0; i < numfids; i++) { f = fids[i]; if (f == NULL) continue; fprintf(stderr, "fid %u ", f->fid); if (f->dir != NULL) fprintf(stderr, "open mode=dir "); else if (f->fd >= 0) fprintf(stderr, "open mode=%s%s%s ", modes[(f->mode & 0xf)], (f->mode & C9trunc) ? ",trunc" : "", (f->mode & C9rclose) ? ",rclose" : ""); fprintf(stderr, "qid=[path=%"PRIu64" type=0x%02x version=%"PRIu32"] iounit=%d ", f->qid.path, f->qid.type, f->qid.version, f->iounit); fprintf(stderr, " %s %s\n", f->path, f->name); n++; } fprintf(stderr, "fids\t%d\n", n); fprintf(stderr, "tags\t%d\n", numtags); fprintf(stderr, "uids\t%d\n", numuids); fprintf(stderr, "gids\t%d\n", numgids); } int main(int argc, char **argv) { const char *dir; char *err; Fid *f; struct parg_state ps; struct sigaction sa; int can, i, c, rdonly, block; parg_init(&ps); debug = 0; dir = NULL; while ((c = parg_getopt(&ps, argc, argv, "deh")) >= 0) { switch (c) { case 1: if (dir != NULL) { fprintf(stderr, "only one dir can be specified\n"); return 1; } dir = ps.optarg; break; case 'e': rootescape++; break; case 'd': debug++; break; case 'h': fprintf(stderr, "usage: 9pex [-e] [-d] DIR\n"); return 0; break; case '?': fprintf(stderr, "unknown option -%c\n", ps.optopt); return 1; break; default: fprintf(stderr, "unhandled option -%c\n", c); return 1; break; } } if (dir == NULL) { fprintf(stderr, "no dir specified\n"); return 1; } if ((rootpath = realpath(dir, NULL)) == NULL) { trace("%s: %s\n", dir, strerror(errno)); return 1; } rootlen = strlen(rootpath); in = 0; out = 1; eof = 0; fids = NULL; numfids = 0; tags = NULL; numtags = 0; uids = NULL; numuids = 0; gids = NULL; numgids = 0; memset(&ctx, 0, sizeof(ctx)); ctx.msize = 64*1024; ctx.read = ctxread; ctx.begin = ctxbegin; ctx.end = ctxend; ctx.t = ctxt; ctx.error = ctxerror; rdbuf = calloc(1, ctx.msize); wrbufsz = ctx.msize; wrbuf = calloc(1, wrbufsz); wroff = wrend = 0; memset(&sa, 0, sizeof(sa)); sa.sa_handler = SIG_IGN; sa.sa_flags = SA_RESTART; sigaction(SIGPIPE, &sa, NULL); memset(&sa, 0, sizeof(sa)); sa.sa_handler = sigdebug; sa.sa_flags = SA_RESTART; sigfillset(&sa.sa_mask); sigaction(SIGUSR1, &sa, NULL); err = NULL; rdonly = block = 1; /* at first we wait until the client sends in data */ for (; !eof;) { if ((can = canrw(rdonly, block)) < 0) break; if ((can & Canrd) != 0) { /* if there is data, process it */ if (s9do(s9proc(&ctx), &err) != 0) break; /* give it a chance to receive all the data first */ rdonly = 1; block = 0; } else if (block == 0) { /* got all the data */ if (rdonly != 0) { /* wait until we can send OR we get more data */ rdonly = 0; block = 1; } } else if (rdonly == 0 && (can & Canwr) != 0) { /* can send */ if (wrsend() != 0) /* send all the data */ break; rdonly = 1; /* and go back to reading */ block = 1; } } if (err != NULL) trace("s9proc: %s\n", err); for (i = 0; i < numfids; i++) { if ((f = fids[i]) != NULL) { if (f->dir != NULL) closedir(f->dir); else if (f->fd >= 0) close(f->fd); free(f->path); free(f); } } for (i = 0; i < numuids; i++) free(uids[i].name); free(uids); for (i = 0; i < numgids; i++) free(gids[i].name); free(gids); memset(wrbuf, 0, ctx.msize); free(wrbuf); memset(rdbuf, 0, ctx.msize); free(rdbuf); free(fids); free(rootpath); return 0; }