/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You 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. */ /* Memory handler for a shared memory divided in slot. * This one uses shared memory. * * Shared memory is cleaned-up for each restart, graceful or * otherwise. */ #include "ap_slotmem.h" #include "httpd.h" #ifdef AP_NEED_SET_MUTEX_PERMS #include "unixd.h" #endif #if APR_HAVE_UNISTD_H #include /* for getpid() */ #endif #if HAVE_SYS_SEM_H #include #if !defined(SHM_R) #define SHM_R 0400 #endif #if !defined(SHM_W) #define SHM_W 0200 #endif #endif #define AP_SLOTMEM_IS_PREGRAB(t) (t->desc.type & AP_SLOTMEM_TYPE_PREGRAB) #define AP_SLOTMEM_IS_PERSIST(t) (t->desc.type & AP_SLOTMEM_TYPE_PERSIST) /* The description of the slots to reuse the slotmem */ typedef struct { apr_size_t size; /* size of each memory slot */ unsigned int num; /* number of mem slots */ ap_slotmem_type_t type; /* type-specific flags */ } sharedslotdesc_t; #define AP_SLOTMEM_OFFSET (APR_ALIGN_DEFAULT(sizeof(sharedslotdesc_t))) #define AP_UNSIGNEDINT_OFFSET (APR_ALIGN_DEFAULT(sizeof(unsigned int))) struct ap_slotmem_instance_t { char *name; /* per segment name */ int fbased; /* filebased? */ void *shm; /* ptr to memory segment (apr_shm_t *) */ void *base; /* data set start */ apr_pool_t *gpool; /* per segment global pool */ char *inuse; /* in-use flag table*/ unsigned int *num_free; /* slot free count for this instance */ void *persist; /* persist dataset start */ sharedslotdesc_t desc; /* per slot desc */ struct ap_slotmem_instance_t *next; /* location of next allocated segment */ }; /* * Memory layout: * sharedslotdesc_t | num_free | slots | isuse array | * ^ ^ * | . base * . persist (also num_free) */ /* global pool and list of slotmem we are handling */ static struct ap_slotmem_instance_t *globallistmem = NULL; static apr_pool_t *gpool = NULL; /* apr:shmem/unix/shm.c */ static apr_status_t unixd_set_shm_perms(const char *fname) { #ifdef AP_NEED_SET_MUTEX_PERMS #if APR_USE_SHMEM_SHMGET || APR_USE_SHMEM_SHMGET_ANON struct shmid_ds shmbuf; key_t shmkey; int shmid; shmkey = ftok(fname, 1); if (shmkey == (key_t)-1) { return errno; } if ((shmid = shmget(shmkey, 0, SHM_R | SHM_W)) == -1) { return errno; } #if MODULE_MAGIC_NUMBER_MAJOR <= 20081212 #define ap_unixd_config unixd_config #endif shmbuf.shm_perm.uid = ap_unixd_config.user_id; shmbuf.shm_perm.gid = ap_unixd_config.group_id; shmbuf.shm_perm.mode = 0600; if (shmctl(shmid, IPC_SET, &shmbuf) == -1) { return errno; } return APR_SUCCESS; #else return APR_ENOTIMPL; #endif #else return APR_ENOTIMPL; #endif } /* * Persist the slotmem in a file * slotmem name and file name. * none : no persistent data * anonymous : $server_root/logs/anonymous.slotmem * :rel_name : $server_root/logs/rel_name.slotmem * abs_name : $abs_name.slotmem * */ static const char *store_filename(apr_pool_t *pool, const char *slotmemname) { const char *storename; const char *fname; if (strcasecmp(slotmemname, "none") == 0) return NULL; else if (strcasecmp(slotmemname, "anonymous") == 0) fname = ap_server_root_relative(pool, "logs/anonymous"); else if (slotmemname[0] == ':') { const char *tmpname; tmpname = apr_pstrcat(pool, "logs/", &slotmemname[1], NULL); fname = ap_server_root_relative(pool, tmpname); } else { fname = slotmemname; } storename = apr_pstrcat(pool, fname, ".slotmem", NULL); return storename; } static void store_slotmem(ap_slotmem_instance_t *slotmem) { apr_file_t *fp; apr_status_t rv; apr_size_t nbytes; const char *storename; storename = store_filename(slotmem->gpool, slotmem->name); if (storename) { rv = apr_file_open(&fp, storename, APR_CREATE | APR_READ | APR_WRITE, APR_OS_DEFAULT, slotmem->gpool); if (APR_STATUS_IS_EEXIST(rv)) { apr_file_remove(storename, slotmem->gpool); rv = apr_file_open(&fp, storename, APR_CREATE | APR_READ | APR_WRITE, APR_OS_DEFAULT, slotmem->gpool); } if (rv != APR_SUCCESS) { return; } nbytes = (slotmem->desc.size * slotmem->desc.num) + (slotmem->desc.num * sizeof(char)) + AP_UNSIGNEDINT_OFFSET; apr_file_write(fp, slotmem->persist, &nbytes); apr_file_close(fp); } } /* should be apr_status_t really */ static void restore_slotmem(void *ptr, const char *name, apr_size_t size, apr_pool_t *pool) { const char *storename; apr_file_t *fp; apr_size_t nbytes = size; apr_status_t rv; storename = store_filename(pool, name); if (storename) { rv = apr_file_open(&fp, storename, APR_READ | APR_WRITE, APR_OS_DEFAULT, pool); if (rv == APR_SUCCESS) { apr_finfo_t fi; if (apr_file_info_get(&fi, APR_FINFO_SIZE, fp) == APR_SUCCESS) { if (fi.size == nbytes) { apr_file_read(fp, ptr, &nbytes); } else { apr_file_close(fp); apr_file_remove(storename, pool); return; } } apr_file_close(fp); } } } static apr_status_t cleanup_slotmem(void *param) { ap_slotmem_instance_t **mem = param; if (*mem) { ap_slotmem_instance_t *next = *mem; while (next) { if (AP_SLOTMEM_IS_PERSIST(next)) { store_slotmem(next); } if (next->fbased) { apr_shm_remove(next->name, next->gpool); } apr_shm_destroy((apr_shm_t *)next->shm); next = next->next; } } /* apr_pool_destroy(gpool); */ globallistmem = NULL; return APR_SUCCESS; } static apr_status_t slotmem_doall(ap_slotmem_instance_t *mem, ap_slotmem_callback_fn_t *func, void *data, apr_pool_t *pool) { unsigned int i; char *ptr; char *inuse; apr_status_t retval = APR_SUCCESS; if (!mem) { return APR_ENOSHMAVAIL; } ptr = (char *)mem->base; inuse = mem->inuse; for (i = 0; i < mem->desc.num; i++, inuse++) { if (!AP_SLOTMEM_IS_PREGRAB(mem) || (AP_SLOTMEM_IS_PREGRAB(mem) && *inuse)) { retval = func((void *) ptr, data, pool); if (retval != APR_SUCCESS) break; } ptr += mem->desc.size; } return retval; } static apr_status_t slotmem_create(ap_slotmem_instance_t **new, const char *name, apr_size_t item_size, unsigned int item_num, ap_slotmem_type_t type, apr_pool_t *pool) { /* void *slotmem = NULL; */ int fbased; char *ptr; sharedslotdesc_t desc; ap_slotmem_instance_t *res; ap_slotmem_instance_t *next = globallistmem; const char *fname; apr_shm_t *shm; apr_size_t basesize = (item_size * item_num); apr_size_t size = AP_SLOTMEM_OFFSET + AP_UNSIGNEDINT_OFFSET + (item_num * sizeof(char)) + basesize; apr_status_t rv; if (gpool == NULL) return APR_ENOSHMAVAIL; if (name) { if (name[0] == ':') { fname = name; } else { fname = ap_server_root_relative(pool, name); } /* first try to attach to existing slotmem */ if (next) { for (;;) { if (strcmp(next->name, fname) == 0) { /* we already have it */ *new = next; return APR_SUCCESS; } if (!next->next) { break; } next = next->next; } } } else { fname = "anonymous"; } /* first try to attach to existing shared memory */ fbased = (name && name[0] != ':'); if (fbased) { rv = apr_shm_attach(&shm, fname, gpool); } else { rv = APR_EINVAL; } if (rv == APR_SUCCESS) { /* check size */ if (apr_shm_size_get(shm) != size) { apr_shm_detach(shm); return APR_EINVAL; } ptr = (char *)apr_shm_baseaddr_get(shm); memcpy(&desc, ptr, sizeof(desc)); if (desc.size != item_size || desc.num != item_num) { apr_shm_detach(shm); return APR_EINVAL; } ptr += AP_SLOTMEM_OFFSET; } else { apr_size_t dsize = size - AP_SLOTMEM_OFFSET; if (fbased) { apr_shm_remove(fname, gpool); rv = apr_shm_create(&shm, size, fname, gpool); } else { rv = apr_shm_create(&shm, size, NULL, gpool); } if (rv != APR_SUCCESS) { return rv; } if (fbased) { /* Set permissions to shared memory * so it can be attached by child process * having different user credentials * * See apr:shmem/unix/shm.c */ unixd_set_shm_perms(fname); } ptr = (char *)apr_shm_baseaddr_get(shm); desc.size = item_size; desc.num = item_num; desc.type = type; memcpy(ptr, &desc, sizeof(desc)); ptr += AP_SLOTMEM_OFFSET; memset(ptr, 0, dsize); /* * TODO: Error check the below... What error makes * sense if the restore fails? Any? */ if (type & AP_SLOTMEM_TYPE_PERSIST) { restore_slotmem(ptr, fname, dsize, pool); } } /* For the chained slotmem stuff */ res = (ap_slotmem_instance_t *) apr_pcalloc(gpool, sizeof(ap_slotmem_instance_t)); res->name = apr_pstrdup(gpool, fname); res->fbased = fbased; res->shm = shm; res->num_free = (unsigned int *)ptr; *res->num_free = item_num; res->persist = (void *)ptr; ptr += AP_UNSIGNEDINT_OFFSET; res->base = (void *)ptr; res->desc = desc; res->gpool = gpool; res->next = NULL; res->inuse = ptr + basesize; if (globallistmem == NULL) { globallistmem = res; } else { next->next = res; } *new = res; return APR_SUCCESS; } static apr_status_t slotmem_attach(ap_slotmem_instance_t **new, const char *name, apr_size_t *item_size, unsigned int *item_num, apr_pool_t *pool) { /* void *slotmem = NULL; */ char *ptr; ap_slotmem_instance_t *res; ap_slotmem_instance_t *next = globallistmem; sharedslotdesc_t desc; const char *fname; apr_shm_t *shm; apr_status_t rv; if (gpool == NULL) { return APR_ENOSHMAVAIL; } if (name) { if (name[0] == ':') { fname = name; } else { fname = ap_server_root_relative(pool, name); } } else { return APR_ENOSHMAVAIL; } /* first try to attach to existing slotmem */ if (next) { for (;;) { if (strcmp(next->name, fname) == 0) { /* we already have it */ *new = next; *item_size = next->desc.size; *item_num = next->desc.num; return APR_SUCCESS; } if (!next->next) { break; } next = next->next; } } /* first try to attach to existing shared memory */ rv = apr_shm_attach(&shm, fname, gpool); if (rv != APR_SUCCESS) { return rv; } /* Read the description of the slotmem */ ptr = (char *)apr_shm_baseaddr_get(shm); memcpy(&desc, ptr, sizeof(desc)); ptr += AP_SLOTMEM_OFFSET; /* For the chained slotmem stuff */ res = (ap_slotmem_instance_t *) apr_pcalloc(gpool, sizeof(ap_slotmem_instance_t)); res->name = apr_pstrdup(gpool, fname); res->fbased = 1; res->shm = shm; res->num_free = (unsigned int *)ptr; res->persist = (void *)ptr; ptr += AP_UNSIGNEDINT_OFFSET; res->base = (void *)ptr; res->desc = desc; res->gpool = gpool; res->inuse = ptr + (desc.size * desc.num); res->next = NULL; if (globallistmem == NULL) { globallistmem = res; } else { next->next = res; } *new = res; *item_size = desc.size; *item_num = desc.num; return APR_SUCCESS; } static apr_status_t slotmem_dptr(ap_slotmem_instance_t *slot, unsigned int id, void **mem) { char *ptr; if (!slot) { return APR_ENOSHMAVAIL; } if (id >= slot->desc.num) { return APR_ENOSHMAVAIL; } ptr = (char *)slot->base + slot->desc.size * id; if (!ptr) { return APR_ENOSHMAVAIL; } *mem = (void *)ptr; return APR_SUCCESS; } static apr_status_t slotmem_get(ap_slotmem_instance_t *slot, unsigned int id, unsigned char *dest, apr_size_t dest_len) { void *ptr; char *inuse; apr_status_t ret; if (!slot) { return APR_ENOSHMAVAIL; } inuse = slot->inuse + id; if (id >= slot->desc.num || (AP_SLOTMEM_IS_PREGRAB(slot) && !*inuse)) { return APR_NOTFOUND; } ret = slotmem_dptr(slot, id, &ptr); if (ret != APR_SUCCESS) { return ret; } *inuse = 1; memcpy(dest, ptr, dest_len); /* bounds check? */ return APR_SUCCESS; } static apr_status_t slotmem_put(ap_slotmem_instance_t *slot, unsigned int id, unsigned char *src, apr_size_t src_len) { void *ptr; char *inuse; apr_status_t ret; if (!slot) { return APR_ENOSHMAVAIL; } inuse = slot->inuse + id; if (id >= slot->desc.num || (AP_SLOTMEM_IS_PREGRAB(slot) && !*inuse)) { return APR_NOTFOUND; } ret = slotmem_dptr(slot, id, &ptr); if (ret != APR_SUCCESS) { return ret; } *inuse=1; memcpy(ptr, src, src_len); /* bounds check? */ return APR_SUCCESS; } static unsigned int slotmem_num_slots(ap_slotmem_instance_t *slot) { return slot->desc.num; } static unsigned int slotmem_num_free_slots(ap_slotmem_instance_t *slot) { if (AP_SLOTMEM_IS_PREGRAB(slot)) return *slot->num_free; else { unsigned int i, counter=0; char *inuse = slot->inuse; for (i=0; idesc.num; i++, inuse++) { if (!*inuse) counter++; } return counter; } } static apr_size_t slotmem_slot_size(ap_slotmem_instance_t *slot) { return slot->desc.size; } static apr_status_t slotmem_grab(ap_slotmem_instance_t *slot, unsigned int *id) { unsigned int i; char *inuse; if (!slot) { return APR_ENOSHMAVAIL; } inuse = slot->inuse; for (i = 0; i < slot->desc.num; i++, inuse++) { if (!*inuse) { break; } } if (i >= slot->desc.num) { return APR_EINVAL; } *inuse = 1; *id = i; (*slot->num_free)--; return APR_SUCCESS; } static apr_status_t slotmem_release(ap_slotmem_instance_t *slot, unsigned int id) { char *inuse; if (!slot) { return APR_ENOSHMAVAIL; } inuse = slot->inuse; if (id >= slot->desc.num || !inuse[id] ) { return APR_NOTFOUND; } inuse[id] = 0; (*slot->num_free)++; return APR_SUCCESS; } static const ap_slotmem_provider_t storage = { "sharedmem", &slotmem_doall, &slotmem_create, &slotmem_attach, &slotmem_dptr, &slotmem_get, &slotmem_put, &slotmem_num_slots, &slotmem_num_free_slots, &slotmem_slot_size, &slotmem_grab, &slotmem_release }; /* make the storage usuable from outside */ static const ap_slotmem_provider_t *slotmem_shm_getstorage(void) { return (&storage); } /* initialise the global pool */ static void slotmem_shm_initgpool(apr_pool_t *p) { gpool = p; } /* Add the pool_clean routine */ static void slotmem_shm_initialize_cleanup(apr_pool_t *p) { apr_pool_cleanup_register(p, &globallistmem, cleanup_slotmem, apr_pool_cleanup_null); } /* * Make sure the shared memory is cleaned */ static int post_config(apr_pool_t *p, apr_pool_t *plog, apr_pool_t *ptemp, server_rec *s) { slotmem_shm_initialize_cleanup(p); return OK; } static int pre_config(apr_pool_t *p, apr_pool_t *plog, apr_pool_t *ptemp) { slotmem_shm_initgpool(p); return OK; } static void ap_slotmem_shm_register_hook(apr_pool_t *p) { const ap_slotmem_provider_t *storage = slotmem_shm_getstorage(); ap_register_provider(p, AP_SLOTMEM_PROVIDER_GROUP, "shared", AP_SLOTMEM_PROVIDER_VERSION, storage); ap_hook_post_config(post_config, NULL, NULL, APR_HOOK_LAST); ap_hook_pre_config(pre_config, NULL, NULL, APR_HOOK_MIDDLE); } AP_DECLARE_MODULE(slotmem_shm) = { STANDARD20_MODULE_STUFF, NULL, /* create per-directory config structure */ NULL, /* merge per-directory config structures */ NULL, /* create per-server config structure */ NULL, /* merge per-server config structures */ NULL, /* command apr_table_t */ ap_slotmem_shm_register_hook /* register hooks */ };