/* * * Copyright 2015 gRPC authors. * * 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 "src/core/lib/transport/metadata.h" #include #include #include #include #include #include #include #include #include #include #include #include "src/core/lib/gpr/murmur_hash.h" #include "src/core/lib/gpr/string.h" #include "src/core/lib/iomgr/iomgr_internal.h" #include "src/core/lib/profiling/timers.h" #include "src/core/lib/slice/slice_internal.h" #include "src/core/lib/slice/slice_string_helpers.h" #include "src/core/lib/transport/static_metadata.h" /* There are two kinds of mdelem and mdstr instances. * Static instances are declared in static_metadata.{h,c} and * are initialized by grpc_mdctx_global_init(). * Dynamic instances are stored in hash tables on grpc_mdctx, and are backed * by internal_string and internal_element structures. * Internal helper functions here-in (is_mdstr_static, is_mdelem_static) are * used to determine which kind of element a pointer refers to. */ grpc_core::DebugOnlyTraceFlag grpc_trace_metadata(false, "metadata"); #ifndef NDEBUG #define DEBUG_ARGS , const char *file, int line #define FWD_DEBUG_ARGS , file, line #define REF_MD_LOCKED(shard, s) ref_md_locked((shard), (s), __FILE__, __LINE__) #else #define DEBUG_ARGS #define FWD_DEBUG_ARGS #define REF_MD_LOCKED(shard, s) ref_md_locked((shard), (s)) #endif #define INITIAL_SHARD_CAPACITY 8 #define LOG2_SHARD_COUNT 4 #define SHARD_COUNT ((size_t)(1 << LOG2_SHARD_COUNT)) #define TABLE_IDX(hash, capacity) (((hash) >> (LOG2_SHARD_COUNT)) % (capacity)) #define SHARD_IDX(hash) ((hash) & ((1 << (LOG2_SHARD_COUNT)) - 1)) typedef void (*destroy_user_data_func)(void* user_data); /* Shadow structure for grpc_mdelem_data for interned elements */ typedef struct interned_metadata { /* must be byte compatible with grpc_mdelem_data */ grpc_slice key; grpc_slice value; /* private only data */ gpr_atm refcnt; gpr_mu mu_user_data; gpr_atm destroy_user_data; gpr_atm user_data; struct interned_metadata* bucket_next; } interned_metadata; /* Shadow structure for grpc_mdelem_data for allocated elements */ typedef struct allocated_metadata { /* must be byte compatible with grpc_mdelem_data */ grpc_slice key; grpc_slice value; /* private only data */ gpr_atm refcnt; } allocated_metadata; typedef struct mdtab_shard { gpr_mu mu; interned_metadata** elems; size_t count; size_t capacity; /** Estimate of the number of unreferenced mdelems in the hash table. This will eventually converge to the exact number, but it's instantaneous accuracy is not guaranteed */ gpr_atm free_estimate; } mdtab_shard; static mdtab_shard g_shards[SHARD_COUNT]; static void gc_mdtab(mdtab_shard* shard); void grpc_mdctx_global_init(void) { /* initialize shards */ for (size_t i = 0; i < SHARD_COUNT; i++) { mdtab_shard* shard = &g_shards[i]; gpr_mu_init(&shard->mu); shard->count = 0; gpr_atm_no_barrier_store(&shard->free_estimate, 0); shard->capacity = INITIAL_SHARD_CAPACITY; shard->elems = static_cast( gpr_zalloc(sizeof(*shard->elems) * shard->capacity)); } } void grpc_mdctx_global_shutdown() { for (size_t i = 0; i < SHARD_COUNT; i++) { mdtab_shard* shard = &g_shards[i]; gpr_mu_destroy(&shard->mu); gc_mdtab(shard); /* TODO(ctiller): GPR_ASSERT(shard->count == 0); */ if (shard->count != 0) { gpr_log(GPR_DEBUG, "WARNING: %" PRIuPTR " metadata elements were leaked", shard->count); if (grpc_iomgr_abort_on_leaks()) { abort(); } } gpr_free(shard->elems); } } static int is_mdelem_static(grpc_mdelem e) { return GRPC_MDELEM_DATA(e) >= &grpc_static_mdelem_table[0] && GRPC_MDELEM_DATA(e) < &grpc_static_mdelem_table[GRPC_STATIC_MDELEM_COUNT]; } static void ref_md_locked(mdtab_shard* shard, interned_metadata* md DEBUG_ARGS) { #ifndef NDEBUG if (grpc_trace_metadata.enabled()) { char* key_str = grpc_slice_to_c_string(md->key); char* value_str = grpc_slice_to_c_string(md->value); gpr_log(file, line, GPR_LOG_SEVERITY_DEBUG, "ELM REF:%p:%" PRIdPTR "->%" PRIdPTR ": '%s' = '%s'", (void*)md, gpr_atm_no_barrier_load(&md->refcnt), gpr_atm_no_barrier_load(&md->refcnt) + 1, key_str, value_str); gpr_free(key_str); gpr_free(value_str); } #endif if (0 == gpr_atm_no_barrier_fetch_add(&md->refcnt, 1)) { gpr_atm_no_barrier_fetch_add(&shard->free_estimate, -1); } } static void gc_mdtab(mdtab_shard* shard) { GPR_TIMER_SCOPE("gc_mdtab", 0); size_t i; interned_metadata** prev_next; interned_metadata *md, *next; gpr_atm num_freed = 0; for (i = 0; i < shard->capacity; i++) { prev_next = &shard->elems[i]; for (md = shard->elems[i]; md; md = next) { void* user_data = (void*)gpr_atm_no_barrier_load(&md->user_data); next = md->bucket_next; if (gpr_atm_acq_load(&md->refcnt) == 0) { grpc_slice_unref_internal(md->key); grpc_slice_unref_internal(md->value); if (md->user_data) { ((destroy_user_data_func)gpr_atm_no_barrier_load( &md->destroy_user_data))(user_data); } gpr_mu_destroy(&md->mu_user_data); gpr_free(md); *prev_next = next; num_freed++; shard->count--; } else { prev_next = &md->bucket_next; } } } gpr_atm_no_barrier_fetch_add(&shard->free_estimate, -num_freed); } static void grow_mdtab(mdtab_shard* shard) { GPR_TIMER_SCOPE("grow_mdtab", 0); size_t capacity = shard->capacity * 2; size_t i; interned_metadata** mdtab; interned_metadata *md, *next; uint32_t hash; mdtab = static_cast( gpr_zalloc(sizeof(interned_metadata*) * capacity)); for (i = 0; i < shard->capacity; i++) { for (md = shard->elems[i]; md; md = next) { size_t idx; hash = GRPC_MDSTR_KV_HASH(grpc_slice_hash(md->key), grpc_slice_hash(md->value)); next = md->bucket_next; idx = TABLE_IDX(hash, capacity); md->bucket_next = mdtab[idx]; mdtab[idx] = md; } } gpr_free(shard->elems); shard->elems = mdtab; shard->capacity = capacity; } static void rehash_mdtab(mdtab_shard* shard) { if (gpr_atm_no_barrier_load(&shard->free_estimate) > static_cast(shard->capacity / 4)) { gc_mdtab(shard); } else { grow_mdtab(shard); } } grpc_mdelem grpc_mdelem_create( const grpc_slice& key, const grpc_slice& value, grpc_mdelem_data* compatible_external_backing_store) { if (!grpc_slice_is_interned(key) || !grpc_slice_is_interned(value)) { if (compatible_external_backing_store != nullptr) { return GRPC_MAKE_MDELEM(compatible_external_backing_store, GRPC_MDELEM_STORAGE_EXTERNAL); } allocated_metadata* allocated = static_cast(gpr_malloc(sizeof(*allocated))); allocated->key = grpc_slice_ref_internal(key); allocated->value = grpc_slice_ref_internal(value); gpr_atm_rel_store(&allocated->refcnt, 1); #ifndef NDEBUG if (grpc_trace_metadata.enabled()) { char* key_str = grpc_slice_to_c_string(allocated->key); char* value_str = grpc_slice_to_c_string(allocated->value); gpr_log(GPR_DEBUG, "ELM ALLOC:%p:%" PRIdPTR ": '%s' = '%s'", (void*)allocated, gpr_atm_no_barrier_load(&allocated->refcnt), key_str, value_str); gpr_free(key_str); gpr_free(value_str); } #endif return GRPC_MAKE_MDELEM(allocated, GRPC_MDELEM_STORAGE_ALLOCATED); } if (GRPC_IS_STATIC_METADATA_STRING(key) && GRPC_IS_STATIC_METADATA_STRING(value)) { grpc_mdelem static_elem = grpc_static_mdelem_for_static_strings( GRPC_STATIC_METADATA_INDEX(key), GRPC_STATIC_METADATA_INDEX(value)); if (!GRPC_MDISNULL(static_elem)) { return static_elem; } } uint32_t hash = GRPC_MDSTR_KV_HASH(grpc_slice_hash(key), grpc_slice_hash(value)); interned_metadata* md; mdtab_shard* shard = &g_shards[SHARD_IDX(hash)]; size_t idx; GPR_TIMER_SCOPE("grpc_mdelem_from_metadata_strings", 0); gpr_mu_lock(&shard->mu); idx = TABLE_IDX(hash, shard->capacity); /* search for an existing pair */ for (md = shard->elems[idx]; md; md = md->bucket_next) { if (grpc_slice_eq(key, md->key) && grpc_slice_eq(value, md->value)) { REF_MD_LOCKED(shard, md); gpr_mu_unlock(&shard->mu); return GRPC_MAKE_MDELEM(md, GRPC_MDELEM_STORAGE_INTERNED); } } /* not found: create a new pair */ md = static_cast(gpr_malloc(sizeof(interned_metadata))); gpr_atm_rel_store(&md->refcnt, 1); md->key = grpc_slice_ref_internal(key); md->value = grpc_slice_ref_internal(value); md->user_data = 0; md->destroy_user_data = 0; md->bucket_next = shard->elems[idx]; shard->elems[idx] = md; gpr_mu_init(&md->mu_user_data); #ifndef NDEBUG if (grpc_trace_metadata.enabled()) { char* key_str = grpc_slice_to_c_string(md->key); char* value_str = grpc_slice_to_c_string(md->value); gpr_log(GPR_DEBUG, "ELM NEW:%p:%" PRIdPTR ": '%s' = '%s'", (void*)md, gpr_atm_no_barrier_load(&md->refcnt), key_str, value_str); gpr_free(key_str); gpr_free(value_str); } #endif shard->count++; if (shard->count > shard->capacity * 2) { rehash_mdtab(shard); } gpr_mu_unlock(&shard->mu); return GRPC_MAKE_MDELEM(md, GRPC_MDELEM_STORAGE_INTERNED); } grpc_mdelem grpc_mdelem_from_slices(const grpc_slice& key, const grpc_slice& value) { grpc_mdelem out = grpc_mdelem_create(key, value, nullptr); grpc_slice_unref_internal(key); grpc_slice_unref_internal(value); return out; } grpc_mdelem grpc_mdelem_from_grpc_metadata(grpc_metadata* metadata) { bool changed = false; grpc_slice key_slice = grpc_slice_maybe_static_intern(metadata->key, &changed); grpc_slice value_slice = grpc_slice_maybe_static_intern(metadata->value, &changed); return grpc_mdelem_create( key_slice, value_slice, changed ? nullptr : reinterpret_cast(metadata)); } grpc_mdelem grpc_mdelem_ref(grpc_mdelem gmd DEBUG_ARGS) { switch (GRPC_MDELEM_STORAGE(gmd)) { case GRPC_MDELEM_STORAGE_EXTERNAL: case GRPC_MDELEM_STORAGE_STATIC: break; case GRPC_MDELEM_STORAGE_INTERNED: { interned_metadata* md = reinterpret_cast GRPC_MDELEM_DATA(gmd); #ifndef NDEBUG if (grpc_trace_metadata.enabled()) { char* key_str = grpc_slice_to_c_string(md->key); char* value_str = grpc_slice_to_c_string(md->value); gpr_log(file, line, GPR_LOG_SEVERITY_DEBUG, "ELM REF:%p:%" PRIdPTR "->%" PRIdPTR ": '%s' = '%s'", (void*)md, gpr_atm_no_barrier_load(&md->refcnt), gpr_atm_no_barrier_load(&md->refcnt) + 1, key_str, value_str); gpr_free(key_str); gpr_free(value_str); } #endif /* we can assume the ref count is >= 1 as the application is calling this function - meaning that no adjustment to mdtab_free is necessary, simplifying the logic here to be just an atomic increment */ /* use C assert to have this removed in opt builds */ GPR_ASSERT(gpr_atm_no_barrier_load(&md->refcnt) >= 1); gpr_atm_no_barrier_fetch_add(&md->refcnt, 1); break; } case GRPC_MDELEM_STORAGE_ALLOCATED: { allocated_metadata* md = reinterpret_cast GRPC_MDELEM_DATA(gmd); #ifndef NDEBUG if (grpc_trace_metadata.enabled()) { char* key_str = grpc_slice_to_c_string(md->key); char* value_str = grpc_slice_to_c_string(md->value); gpr_log(file, line, GPR_LOG_SEVERITY_DEBUG, "ELM REF:%p:%" PRIdPTR "->%" PRIdPTR ": '%s' = '%s'", (void*)md, gpr_atm_no_barrier_load(&md->refcnt), gpr_atm_no_barrier_load(&md->refcnt) + 1, key_str, value_str); gpr_free(key_str); gpr_free(value_str); } #endif /* we can assume the ref count is >= 1 as the application is calling this function - meaning that no adjustment to mdtab_free is necessary, simplifying the logic here to be just an atomic increment */ /* use C assert to have this removed in opt builds */ gpr_atm_no_barrier_fetch_add(&md->refcnt, 1); break; } } return gmd; } void grpc_mdelem_unref(grpc_mdelem gmd DEBUG_ARGS) { switch (GRPC_MDELEM_STORAGE(gmd)) { case GRPC_MDELEM_STORAGE_EXTERNAL: case GRPC_MDELEM_STORAGE_STATIC: break; case GRPC_MDELEM_STORAGE_INTERNED: { interned_metadata* md = reinterpret_cast GRPC_MDELEM_DATA(gmd); #ifndef NDEBUG if (grpc_trace_metadata.enabled()) { char* key_str = grpc_slice_to_c_string(md->key); char* value_str = grpc_slice_to_c_string(md->value); gpr_log(file, line, GPR_LOG_SEVERITY_DEBUG, "ELM UNREF:%p:%" PRIdPTR "->%" PRIdPTR ": '%s' = '%s'", (void*)md, gpr_atm_no_barrier_load(&md->refcnt), gpr_atm_no_barrier_load(&md->refcnt) - 1, key_str, value_str); gpr_free(key_str); gpr_free(value_str); } #endif uint32_t hash = GRPC_MDSTR_KV_HASH(grpc_slice_hash(md->key), grpc_slice_hash(md->value)); const gpr_atm prev_refcount = gpr_atm_full_fetch_add(&md->refcnt, -1); GPR_ASSERT(prev_refcount >= 1); if (1 == prev_refcount) { /* once the refcount hits zero, some other thread can come along and free md at any time: it's unsafe from this point on to access it */ mdtab_shard* shard = &g_shards[SHARD_IDX(hash)]; gpr_atm_no_barrier_fetch_add(&shard->free_estimate, 1); } break; } case GRPC_MDELEM_STORAGE_ALLOCATED: { allocated_metadata* md = reinterpret_cast GRPC_MDELEM_DATA(gmd); #ifndef NDEBUG if (grpc_trace_metadata.enabled()) { char* key_str = grpc_slice_to_c_string(md->key); char* value_str = grpc_slice_to_c_string(md->value); gpr_log(file, line, GPR_LOG_SEVERITY_DEBUG, "ELM UNREF:%p:%" PRIdPTR "->%" PRIdPTR ": '%s' = '%s'", (void*)md, gpr_atm_no_barrier_load(&md->refcnt), gpr_atm_no_barrier_load(&md->refcnt) - 1, key_str, value_str); gpr_free(key_str); gpr_free(value_str); } #endif const gpr_atm prev_refcount = gpr_atm_full_fetch_add(&md->refcnt, -1); GPR_ASSERT(prev_refcount >= 1); if (1 == prev_refcount) { grpc_slice_unref_internal(md->key); grpc_slice_unref_internal(md->value); gpr_free(md); } break; } } } void* grpc_mdelem_get_user_data(grpc_mdelem md, void (*destroy_func)(void*)) { switch (GRPC_MDELEM_STORAGE(md)) { case GRPC_MDELEM_STORAGE_EXTERNAL: case GRPC_MDELEM_STORAGE_ALLOCATED: return nullptr; case GRPC_MDELEM_STORAGE_STATIC: return (void*)grpc_static_mdelem_user_data[GRPC_MDELEM_DATA(md) - grpc_static_mdelem_table]; case GRPC_MDELEM_STORAGE_INTERNED: { interned_metadata* im = reinterpret_cast GRPC_MDELEM_DATA(md); void* result; if (gpr_atm_acq_load(&im->destroy_user_data) == (gpr_atm)destroy_func) { return (void*)gpr_atm_no_barrier_load(&im->user_data); } else { return nullptr; } return result; } } GPR_UNREACHABLE_CODE(return nullptr); } void* grpc_mdelem_set_user_data(grpc_mdelem md, void (*destroy_func)(void*), void* user_data) { switch (GRPC_MDELEM_STORAGE(md)) { case GRPC_MDELEM_STORAGE_EXTERNAL: case GRPC_MDELEM_STORAGE_ALLOCATED: destroy_func(user_data); return nullptr; case GRPC_MDELEM_STORAGE_STATIC: destroy_func(user_data); return (void*)grpc_static_mdelem_user_data[GRPC_MDELEM_DATA(md) - grpc_static_mdelem_table]; case GRPC_MDELEM_STORAGE_INTERNED: { interned_metadata* im = reinterpret_cast GRPC_MDELEM_DATA(md); GPR_ASSERT(!is_mdelem_static(md)); GPR_ASSERT((user_data == nullptr) == (destroy_func == nullptr)); gpr_mu_lock(&im->mu_user_data); if (gpr_atm_no_barrier_load(&im->destroy_user_data)) { /* user data can only be set once */ gpr_mu_unlock(&im->mu_user_data); if (destroy_func != nullptr) { destroy_func(user_data); } return (void*)gpr_atm_no_barrier_load(&im->user_data); } gpr_atm_no_barrier_store(&im->user_data, (gpr_atm)user_data); gpr_atm_rel_store(&im->destroy_user_data, (gpr_atm)destroy_func); gpr_mu_unlock(&im->mu_user_data); return user_data; } } GPR_UNREACHABLE_CODE(return nullptr); } bool grpc_mdelem_eq(grpc_mdelem a, grpc_mdelem b) { if (a.payload == b.payload) return true; if (GRPC_MDELEM_IS_INTERNED(a) && GRPC_MDELEM_IS_INTERNED(b)) return false; if (GRPC_MDISNULL(a) || GRPC_MDISNULL(b)) return false; return grpc_slice_eq(GRPC_MDKEY(a), GRPC_MDKEY(b)) && grpc_slice_eq(GRPC_MDVALUE(a), GRPC_MDVALUE(b)); }