/* *------------------------------------------------------------------ * svm.c - shared VM allocation, mmap(...MAP_FIXED...) * library * * Copyright (c) 2009 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *------------------------------------------------------------------ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "svm.h" static svm_region_t *root_rp; static int root_rp_refcount; #define MAXLOCK 2 static pthread_mutex_t *mutexes_held [MAXLOCK]; static int nheld; svm_region_t *svm_get_root_rp (void) { return root_rp; } #define MUTEX_DEBUG static void region_lock(svm_region_t *rp, int tag) { pthread_mutex_lock(&rp->mutex); #ifdef MUTEX_DEBUG rp->mutex_owner_pid = getpid(); rp->mutex_owner_tag = tag; #endif ASSERT(nheld < MAXLOCK); /* * Keep score of held mutexes so we can try to exit * cleanly if the world comes to an end at the worst possible * moment */ mutexes_held [nheld++] = &rp->mutex; } static void region_unlock(svm_region_t *rp) { int i,j; #ifdef MUTEX_DEBUG rp->mutex_owner_pid = 0; rp->mutex_owner_tag = 0; #endif for (i = nheld-1; i >= 0; i--) { if (mutexes_held[i] == &rp->mutex) { for (j = i; j < MAXLOCK-1; j++) mutexes_held[j] = mutexes_held[j+1]; nheld--; goto found; } } ASSERT(0); found: CLIB_MEMORY_BARRIER(); pthread_mutex_unlock(&rp->mutex); } static u8 * format_svm_flags (u8 * s, va_list * args) { uword f = va_arg (*args, uword); if (f & SVM_FLAGS_MHEAP) s = format (s, "MHEAP "); if (f & SVM_FLAGS_FILE) s = format (s, "FILE "); if (f & SVM_FLAGS_NODATA) s = format (s, "NODATA "); if (f & SVM_FLAGS_NEED_DATA_INIT) s = format (s, "INIT "); return (s); } static u8 * format_svm_size (u8 * s, va_list * args) { uword size = va_arg (*args, uword); if (size >= (1<<20)) { s = format (s, "(%d mb)", size >> 20); } else if (size >= (1<<10)) { s = format (s, "(%d kb)", size >> 10); } else { s = format (s, "(%d bytes)", size); } return (s); } u8 * format_svm_region (u8 * s, va_list * args) { svm_region_t *rp = va_arg (*args, svm_region_t *); int verbose = va_arg (*args, int); int i; uword lo, hi; s = format (s, "%s: base va 0x%x size 0x%x %U\n", rp->region_name, rp->virtual_base, rp->virtual_size, format_svm_size, rp->virtual_size); s = format (s, " user_ctx 0x%x, bitmap_size %d\n", rp->user_ctx, rp->bitmap_size); if (verbose) { s = format (s, " flags: 0x%x %U\n", rp->flags, format_svm_flags, rp->flags); s = format (s, " region_heap 0x%x data_base 0x%x data_heap 0x%x\n", rp->region_heap, rp->data_base, rp->data_heap); } s = format (s, " %d clients, pids: ", vec_len(rp->client_pids)); for (i = 0; i < vec_len(rp->client_pids); i++) s = format (s, "%d ", rp->client_pids[i]); s = format (s, "\n"); if (verbose) { lo = hi = ~0; s = format (s, " VM in use: "); for (i = 0; i < rp->bitmap_size; i++) { if (clib_bitmap_get_no_check (rp->bitmap, i) != 0) { if (lo == ~0) { hi = lo = rp->virtual_base + i*MMAP_PAGESIZE; } else { hi = rp->virtual_base + i*MMAP_PAGESIZE; } } else { if (lo != ~0) { hi = rp->virtual_base + i*MMAP_PAGESIZE -1; s = format (s, " 0x%x - 0x%x (%dk)\n", lo, hi, (hi - lo)>>10); lo = hi = ~0; } } } s = format (s, " rgn heap stats: %U", format_mheap, rp->region_heap, 0); if ((rp->flags & SVM_FLAGS_MHEAP) && rp->data_heap) { s = format (s, "\n data heap stats: %U", format_mheap, rp->data_heap, 1); } s = format (s, "\n"); } return(s); } /* * rnd_pagesize * Round to a pagesize multiple, presumably 4k works */ static unsigned int rnd_pagesize(unsigned int size) { unsigned int rv; rv = (size + (MMAP_PAGESIZE-1)) & ~(MMAP_PAGESIZE-1); return(rv); } /* * svm_data_region_setup */ static int svm_data_region_create (svm_map_region_args_t *a, svm_region_t *rp) { int fd; u8 junk = 0; uword map_size; map_size = rp->virtual_size - (MMAP_PAGESIZE + SVM_PVT_MHEAP_SIZE); if (a->flags & SVM_FLAGS_FILE) { struct stat statb; fd = open (a->backing_file, O_RDWR | O_CREAT, 0777); if (fd < 0) { clib_unix_warning ("open"); return -1; } if (fstat(fd, &statb) < 0) { clib_unix_warning("fstat"); return -2; } if (statb.st_mode & S_IFREG) { if (statb.st_size == 0) { lseek(fd, map_size, SEEK_SET); if (write(fd, &junk, 1) != 1) clib_unix_warning ("set region size"); } else { map_size = rnd_pagesize (statb.st_size); } } else { map_size = a->backing_mmap_size; } ASSERT(map_size <= rp->virtual_size - (MMAP_PAGESIZE + SVM_PVT_MHEAP_SIZE)); if (mmap (rp->data_base, map_size, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, fd, 0) == MAP_FAILED) { clib_unix_warning("mmap"); return -3; } close(fd); rp->backing_file = (char *) format(0, "%s\0", a->backing_file); rp->flags |= SVM_FLAGS_FILE; } if (a->flags & SVM_FLAGS_MHEAP) { rp->data_heap = mheap_alloc_with_flags ((void *)(rp->data_base), map_size, MHEAP_FLAG_DISABLE_VM); rp->flags |= SVM_FLAGS_MHEAP; } return 0; } static int svm_data_region_map (svm_map_region_args_t *a, svm_region_t *rp) { int fd; u8 junk = 0; uword map_size; struct stat statb; map_size = rp->virtual_size - (MMAP_PAGESIZE + SVM_PVT_MHEAP_SIZE); if (a->flags & SVM_FLAGS_FILE) { fd = open (a->backing_file, O_RDWR, 0777); if (fd < 0) { clib_unix_warning ("open"); return -1; } if (fstat(fd, &statb) < 0) { clib_unix_warning("fstat"); return -2; } if (statb.st_mode & S_IFREG) { if (statb.st_size == 0) { lseek(fd, map_size, SEEK_SET); if (write(fd, &junk, 1) != 1) clib_unix_warning ("set region size"); } else { map_size = rnd_pagesize (statb.st_size); } } else { map_size = a->backing_mmap_size; } ASSERT(map_size <= rp->virtual_size - (MMAP_PAGESIZE + SVM_PVT_MHEAP_SIZE)); if (mmap (rp->data_base, map_size, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, fd, 0) == MAP_FAILED) { clib_unix_warning("mmap"); return -3; } close(fd); } return 0; } u8 *shm_name_from_svm_map_region_args (svm_map_region_args_t *a) { u8 *path; u8 *shm_name; u8 *split_point; u8 *mkdir_arg = 0; int root_path_offset = 0; int name_offset = 0; if (a->root_path) { /* Tolerate present or absent slashes */ if (a->root_path[0] == '/') root_path_offset++; /* create the root_path under /dev/shm iterate through path creating directories */ path = format (0, "/dev/shm/%s%c", &a->root_path[root_path_offset], 0); split_point = path+1; vec_add1(mkdir_arg, '-'); while (*split_point) { while (*split_point && *split_point != '/') { vec_add1 (mkdir_arg, *split_point); split_point++; } vec_add1 (mkdir_arg, 0); /* ready to descend another level */ mkdir_arg[vec_len(mkdir_arg)-1] = '-'; split_point++; } vec_free(mkdir_arg); vec_free(path); if (a->name[0] == '/') name_offset = 1; shm_name = format (0, "/%s-%s%c", a->root_path, &a->name[name_offset], 0); } else shm_name = format (0, "%s%c", a->name, 0); return (shm_name); } /* * svm_map_region */ void *svm_map_region (svm_map_region_args_t *a) { int svm_fd; svm_region_t *rp; pthread_mutexattr_t attr; pthread_condattr_t cattr; int deadman=0; u8 junk = 0; void *oldheap; int overhead_space; int rv; uword data_base; int nbits, words, bit; int pid_holding_region_lock; u8 *shm_name; int dead_region_recovery = 0; int time_left; struct stat stat; struct timespec ts, tsrem; if (CLIB_DEBUG > 1) clib_warning ("[%d] map region %s", getpid(), a->name); ASSERT((a->size & ~(MMAP_PAGESIZE-1)) == a->size); ASSERT(a->name); shm_name = shm_name_from_svm_map_region_args (a); svm_fd = shm_open((char *) shm_name, O_RDWR | O_CREAT | O_EXCL, 0777); if (svm_fd >= 0) { if (fchmod (svm_fd, 0770) < 0) clib_unix_warning ("segment chmod"); /* This turns out to fail harmlessly if the client starts first */ if (fchown (svm_fd, a->uid, a->gid) < 0) clib_unix_warning ("segment chown [ok if client starts first]"); vec_free(shm_name); lseek(svm_fd, a->size, SEEK_SET); if (write(svm_fd, &junk, 1) != 1) clib_warning ("set region size"); rp = mmap((void *)a->baseva, a->size, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, svm_fd, 0); if (rp == (svm_region_t *) MAP_FAILED) { clib_unix_warning ("mmap create"); return (0); } close(svm_fd); memset(rp, 0, sizeof(*rp)); if (pthread_mutexattr_init(&attr)) clib_unix_warning("mutexattr_init"); if (pthread_mutexattr_setpshared(&attr, PTHREAD_PROCESS_SHARED)) clib_unix_warning("mutexattr_setpshared"); if (pthread_mutex_init(&rp->mutex, &attr)) clib_unix_warning("mutex_init"); if (pthread_mutexattr_destroy(&attr)) clib_unix_warning("mutexattr_destroy"); if (pthread_condattr_init(&cattr)) clib_unix_warning("condattr_init"); if (pthread_condattr_setpshared(&cattr, PTHREAD_PROCESS_SHARED)) clib_unix_warning("condattr_setpshared"); if (pthread_cond_init(&rp->condvar, &cattr)) clib_unix_warning("cond_init"); if(pthread_condattr_destroy(&cattr)) clib_unix_warning("condattr_destroy"); region_lock (rp, 1); rp->virtual_base = a->baseva; rp->virtual_size = a->size; rp->region_heap = mheap_alloc_with_flags ((void *)(a->baseva+MMAP_PAGESIZE), SVM_PVT_MHEAP_SIZE, MHEAP_FLAG_DISABLE_VM); oldheap = svm_push_pvt_heap(rp); rp->region_name = (char *)format (0, "%s%c", a->name, 0); vec_add1(rp->client_pids, getpid()); nbits = rp->virtual_size / MMAP_PAGESIZE; ASSERT (nbits > 0); rp->bitmap_size = nbits; words = (nbits + BITS(uword)-1) / BITS(uword); vec_validate (rp->bitmap, words-1); overhead_space = MMAP_PAGESIZE /* header */ + SVM_PVT_MHEAP_SIZE; bit = 0; data_base = (uword)rp->virtual_base; if (a->flags & SVM_FLAGS_NODATA) rp->flags |= SVM_FLAGS_NEED_DATA_INIT; do { clib_bitmap_set_no_check (rp->bitmap, bit, 1); bit++; overhead_space -= MMAP_PAGESIZE; data_base += MMAP_PAGESIZE; } while (overhead_space > 0); rp->data_base = (void *)data_base; /* * Note: although the POSIX spec guarantees that only one * process enters this block, we have to play games * to hold off clients until e.g. the mutex is ready */ rp->version = SVM_VERSION; /* setup the data portion of the region */ rv = svm_data_region_create (a, rp); if (rv) { clib_warning ("data_region_create: %d", rv); } region_unlock(rp); svm_pop_heap(oldheap); return ((void *) rp); } else { svm_fd = shm_open((char *)shm_name, O_RDWR, 0777); vec_free(shm_name); if (svm_fd < 0) { perror("svm_region_map(mmap open)"); return (0); } time_left = 20; while (1) { if (0 != fstat(svm_fd, &stat)) { clib_warning("fstat failed: %d", errno); return (0); } if (stat.st_size > 0) { break; } if (0 == time_left) { clib_warning("waiting for resize of shm file timed out"); return (0); } ts.tv_sec = 0; ts.tv_nsec = 100000000; while (nanosleep(&ts, &tsrem) < 0) ts = tsrem; time_left--; } rp = mmap(0, MMAP_PAGESIZE, PROT_READ | PROT_WRITE, MAP_SHARED, svm_fd, 0); if (rp == (svm_region_t *) MAP_FAILED) { close(svm_fd); clib_warning("mmap"); return (0); } /* * We lost the footrace to create this region; make sure * the winner has crossed the finish line. */ while (rp->version == 0 && deadman++ < 5) { sleep(1); } /* * -ed? */ if (rp->version == 0) { close(svm_fd); munmap(rp, a->size); clib_warning("rp->version %d not %d", rp->version, SVM_VERSION); return (0); } /* Remap now that the region has been placed */ a->baseva = rp->virtual_base; a->size = rp->virtual_size; munmap(rp, MMAP_PAGESIZE); rp = (void *) mmap ((void *)a->baseva, a->size, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, svm_fd, 0); if ((uword)rp == (uword)MAP_FAILED) { clib_unix_warning ("mmap"); return (0); } if ((uword) rp != rp->virtual_base) { clib_warning("mmap botch"); } /* * Try to fix the region mutex if it is held by * a dead process */ pid_holding_region_lock = rp->mutex_owner_pid; if (pid_holding_region_lock && kill (pid_holding_region_lock, 0) < 0) { clib_warning ( "region %s mutex held by dead pid %d, tag %d, force unlock", rp->region_name, pid_holding_region_lock, rp->mutex_owner_tag); /* owner pid is nonexistent */ rp->mutex.__data.__owner = 0; rp->mutex.__data.__lock = 0; dead_region_recovery = 1; } if (dead_region_recovery) clib_warning ("recovery: attempt to re-lock region"); region_lock(rp, 2); oldheap = svm_push_pvt_heap (rp); vec_add1(rp->client_pids, getpid()); if (dead_region_recovery) clib_warning ("recovery: attempt svm_data_region_map"); rv = svm_data_region_map (a, rp); if (rv) { clib_warning ("data_region_map: %d", rv); } if (dead_region_recovery) clib_warning ("unlock and continue"); region_unlock(rp); svm_pop_heap(oldheap); return ((void *) rp); } return 0; /* NOTREACHED */ } static void svm_mutex_cleanup (void) { int i; for (i = 0; i < nheld; i++) { pthread_mutex_unlock (mutexes_held[i]); } } static void svm_region_init_internal (char *root_path, int uid, int gid) { svm_region_t *rp; svm_map_region_args_t _a, *a=&_a; u64 ticks = clib_cpu_time_now(); uword randomize_baseva; /* guard against klutz calls */ if (root_rp) return; root_rp_refcount++; atexit(svm_mutex_cleanup); /* Randomize the shared-VM base at init time */ if (MMAP_PAGESIZE <= (4<<10)) randomize_baseva = (ticks & 15) * MMAP_PAGESIZE; else randomize_baseva = (ticks & 3) * MMAP_PAGESIZE; memset (a, 0, sizeof (*a)); a->root_path = root_path; a->name = SVM_GLOBAL_REGION_NAME; a->baseva = SVM_GLOBAL_REGION_BASEVA + randomize_baseva; a->size = SVM_GLOBAL_REGION_SIZE; a->flags = SVM_FLAGS_NODATA; a->uid = uid; a->gid = gid; rp = svm_map_region (a); ASSERT(rp); region_lock(rp, 3); /* Set up the main region data structures */ if (rp->flags & SVM_FLAGS_NEED_DATA_INIT) { svm_main_region_t *mp = 0; void *oldheap; rp->flags &= ~(SVM_FLAGS_NEED_DATA_INIT); oldheap = svm_push_pvt_heap (rp); vec_validate (mp, 0); mp->name_hash = hash_create_string (0, sizeof(uword)); mp->root_path = root_path ? format (0, "%s%c", root_path, 0) : 0 ; rp->data_base = mp; svm_pop_heap (oldheap); } region_unlock(rp); root_rp = rp; } void svm_region_init (void) { svm_region_init_internal (0, 0 /* uid */, 0 /* gid */); } void svm_region_init_chroot (char *root_path) { svm_region_init_internal (root_path, 0 /* uid */, 0 /* gid */); } void svm_region_init_chroot_uid_gid (char *root_path, int uid, int gid) { svm_region_init_internal (root_path, uid, gid); } void *svm_region_find_or_create (svm_map_region_args_t *a) { svm_main_region_t *mp; svm_region_t *rp; uword need_nbits; int index, i; void *oldheap; uword *p; u8 *name; svm_subregion_t *subp; ASSERT(root_rp); a->size += MMAP_PAGESIZE + SVM_PVT_MHEAP_SIZE; a->size = rnd_pagesize(a->size); region_lock (root_rp, 4); oldheap = svm_push_pvt_heap(root_rp); mp = root_rp->data_base; ASSERT(mp); /* Map the named region from the correct chroot environment */ a->root_path = (char *) mp->root_path; /* * See if this region is already known. If it is, we're * almost done... */ p = hash_get_mem (mp->name_hash, a->name); if (p) { rp = svm_map_region (a); region_unlock(root_rp); svm_pop_heap (oldheap); return rp; } /* Create the region. */ ASSERT((a->size & ~(MMAP_PAGESIZE-1)) == a->size); need_nbits = a->size / MMAP_PAGESIZE; index = 1; /* $$$ fixme, figure out how many bit to really skip */ /* * Scan the virtual space allocation bitmap, looking for a large * enough chunk */ do { if (clib_bitmap_get_no_check(root_rp->bitmap, index) == 0) { for (i = 0; i < (need_nbits-1); i++) { if (clib_bitmap_get_no_check(root_rp->bitmap, index+i) == 1) { index = index + i; goto next; } } break; } index++; next:; } while (index < root_rp->bitmap_size); /* Completely out of VM? */ if (index >= root_rp->bitmap_size) { clib_warning("region %s: not enough VM to allocate 0x%x", root_rp->region_name, a->size); svm_pop_heap (oldheap); region_unlock (root_rp); return 0; } /* * Mark virtual space allocated */ #if CLIB_DEBUG > 1 clib_warning ("set %d bits at index %d", need_nbits, index); #endif for (i = 0; i < need_nbits; i++) { clib_bitmap_set_no_check (root_rp->bitmap, index+i, 1); } /* Place this region where it goes... */ a->baseva = root_rp->virtual_base + index*MMAP_PAGESIZE; rp = svm_map_region (a); pool_get (mp->subregions, subp); name = format (0, "%s%c", a->name, 0); subp->subregion_name = name; hash_set_mem (mp->name_hash, name, subp - mp->subregions); svm_pop_heap (oldheap); region_unlock (root_rp); return (rp); } /* * svm_region_unmap * * Let go of the indicated region. If the calling process * is the last customer, throw it away completely. * The root region mutex guarantees atomicity with respect to * a new region client showing up at the wrong moment. */ void svm_region_unmap (void *rp_arg) { int i, mypid = getpid(); int nclients_left; void *oldheap; uword virtual_base, virtual_size; svm_region_t *rp = rp_arg; char *name; /* * If we take a signal while holding one or more shared-memory * mutexes, we may end up back here from an otherwise * benign exit handler. Bail out to avoid a recursive * mutex screw-up. */ if (nheld) return; ASSERT(rp); ASSERT(root_rp); if (CLIB_DEBUG > 1) clib_warning ("[%d] unmap region %s", getpid(), rp->region_name); region_lock (root_rp, 5); region_lock (rp, 6); oldheap = svm_push_pvt_heap (rp); /* nb vec_delete() in the loop */ /* Remove the caller from the list of mappers */ for (i = 0; i < vec_len(rp->client_pids); i++) { if (rp->client_pids[i] == mypid) { vec_delete (rp->client_pids, 1, i); goto found; } } clib_warning("pid %d AWOL", mypid); found: svm_pop_heap (oldheap); nclients_left = vec_len(rp->client_pids); virtual_base = rp->virtual_base; virtual_size = rp->virtual_size; if (nclients_left == 0) { int index, nbits, i; svm_main_region_t *mp; uword *p; svm_subregion_t *subp; /* Kill the region, last guy on his way out */ oldheap = svm_push_pvt_heap (root_rp); name = vec_dup (rp->region_name); virtual_base = rp->virtual_base; virtual_size = rp->virtual_size; /* Figure out which bits to clear in the root region bitmap */ index = (virtual_base - root_rp->virtual_base) / MMAP_PAGESIZE; nbits = (virtual_size + MMAP_PAGESIZE - 1) / MMAP_PAGESIZE; #if CLIB_DEBUG > 1 clib_warning ("clear %d bits at index %d", nbits, index); #endif /* Give back the allocated VM */ for (i = 0; i < nbits; i++) { clib_bitmap_set_no_check (root_rp->bitmap, index+i, 0); } mp = root_rp->data_base; p = hash_get_mem (mp->name_hash, name); /* Better never happen ... */ if (p == NULL) { region_unlock (rp); region_unlock (root_rp); svm_pop_heap (oldheap); clib_warning ("Region name '%s' not found?", name); return; } /* Remove from the root region subregion pool */ subp = mp->subregions + p[0]; pool_put (mp->subregions, subp); hash_unset_mem (mp->name_hash, name); vec_free(name); region_unlock (rp); shm_unlink(rp->region_name); munmap ((void *)virtual_base, virtual_size); region_unlock (root_rp); svm_pop_heap (oldheap); return; } region_unlock(rp); region_unlock(root_rp); munmap ((void *)virtual_base, virtual_size); } /* * svm_region_exit * There is no clean way to unlink the * root region when all clients go away, * so remove the pid entry and call it a day. */ void svm_region_exit () { void *oldheap; int i, mypid = getpid(); uword virtual_base, virtual_size; /* It felt so nice we did it twice... */ if (root_rp == 0) return; if (--root_rp_refcount > 0) return; /* * If we take a signal while holding one or more shared-memory * mutexes, we may end up back here from an otherwise * benign exit handler. Bail out to avoid a recursive * mutex screw-up. */ if (nheld) return; region_lock(root_rp, 7); oldheap = svm_push_pvt_heap (root_rp); virtual_base = root_rp->virtual_base; virtual_size = root_rp->virtual_size; for (i = 0; i < vec_len(root_rp->client_pids); i++) { if (root_rp->client_pids[i] == mypid) { vec_delete (root_rp->client_pids, 1, i); goto found; } } clib_warning("pid %d AWOL", mypid); found: region_unlock(root_rp); svm_pop_heap (oldheap); root_rp = 0; munmap ((void *)virtual_base, virtual_size); } void svm_client_scan_this_region_nolock (svm_region_t *rp) { int j; int mypid = getpid(); void *oldheap; for (j = 0; j < vec_len(rp->client_pids); j++) { if (mypid == rp->client_pids[j]) continue; if (rp->client_pids[j] && (kill (rp->client_pids[j], 0) < 0)) { clib_warning ("%s: cleanup ghost pid %d", rp->region_name, rp->client_pids[j]); /* nb: client vec in rp->region_heap */ oldheap = svm_push_pvt_heap (rp); vec_delete (rp->client_pids, 1, j); j--; svm_pop_heap (oldheap); } } } /* * Scan svm regions for dead clients */ void svm_client_scan(char *root_path) { int i, j; svm_main_region_t *mp; svm_map_region_args_t *a = 0; svm_region_t *root_rp; svm_region_t *rp; svm_subregion_t *subp; u8 *name=0; u8 ** svm_names=0; void *oldheap; int mypid = getpid(); vec_validate (a, 0); svm_region_init_chroot(root_path); root_rp = svm_get_root_rp(); pthread_mutex_lock (&root_rp->mutex); mp = root_rp->data_base; for (j = 0; j < vec_len (root_rp->client_pids); j++) { if (mypid == root_rp->client_pids[j]) continue; if (root_rp->client_pids[j] && (kill (root_rp->client_pids[j], 0) < 0)) { clib_warning ("%s: cleanup ghost pid %d", root_rp->region_name, root_rp->client_pids[j]); /* nb: client vec in root_rp->region_heap */ oldheap = svm_push_pvt_heap (root_rp); vec_delete (root_rp->client_pids, 1, j); j--; svm_pop_heap (oldheap); } } /* * Snapshoot names, can't hold root rp mutex across * find_or_create. */ pool_foreach (subp, mp->subregions, ({ name = vec_dup (subp->subregion_name); vec_add1(svm_names, name); })); pthread_mutex_unlock (&root_rp->mutex); for (i = 0; i < vec_len(svm_names); i++) { vec_validate(a, 0); a->root_path = root_path; a->name = (char *) svm_names[i]; rp = svm_region_find_or_create (a); if (rp) { pthread_mutex_lock (&rp->mutex); svm_client_scan_this_region_nolock (rp); pthread_mutex_unlock (&rp->mutex); svm_region_unmap (rp); vec_free(svm_names[i]); } vec_free (a); } vec_free(svm_names); svm_region_exit (); vec_free (a); }