/******************************************************************************/ #ifdef JEMALLOC_H_TYPES typedef struct prof_bt_s prof_bt_t; typedef struct prof_cnt_s prof_cnt_t; typedef struct prof_tctx_s prof_tctx_t; typedef struct prof_gctx_s prof_gctx_t; typedef struct prof_tdata_s prof_tdata_t; /* Option defaults. */ #ifdef JEMALLOC_PROF # define PROF_PREFIX_DEFAULT "jeprof" #else # define PROF_PREFIX_DEFAULT "" #endif #define LG_PROF_SAMPLE_DEFAULT 19 #define LG_PROF_INTERVAL_DEFAULT -1 /* * Hard limit on stack backtrace depth. The version of prof_backtrace() that * is based on __builtin_return_address() necessarily has a hard-coded number * of backtrace frame handlers, and should be kept in sync with this setting. */ #define PROF_BT_MAX 128 /* Initial hash table size. */ #define PROF_CKH_MINITEMS 64 /* Size of memory buffer to use when writing dump files. */ #define PROF_DUMP_BUFSIZE 65536 /* Size of stack-allocated buffer used by prof_printf(). */ #define PROF_PRINTF_BUFSIZE 128 /* * Number of mutexes shared among all gctx's. No space is allocated for these * unless profiling is enabled, so it's okay to over-provision. */ #define PROF_NCTX_LOCKS 1024 /* * Number of mutexes shared among all tdata's. No space is allocated for these * unless profiling is enabled, so it's okay to over-provision. */ #define PROF_NTDATA_LOCKS 256 /* * prof_tdata pointers close to NULL are used to encode state information that * is used for cleaning up during thread shutdown. */ #define PROF_TDATA_STATE_REINCARNATED ((prof_tdata_t *)(uintptr_t)1) #define PROF_TDATA_STATE_PURGATORY ((prof_tdata_t *)(uintptr_t)2) #define PROF_TDATA_STATE_MAX PROF_TDATA_STATE_PURGATORY #endif /* JEMALLOC_H_TYPES */ /******************************************************************************/ #ifdef JEMALLOC_H_STRUCTS struct prof_bt_s { /* Backtrace, stored as len program counters. */ void **vec; unsigned len; }; #ifdef JEMALLOC_PROF_LIBGCC /* Data structure passed to libgcc _Unwind_Backtrace() callback functions. */ typedef struct { prof_bt_t *bt; unsigned max; } prof_unwind_data_t; #endif struct prof_cnt_s { /* Profiling counters. */ uint64_t curobjs; uint64_t curbytes; uint64_t accumobjs; uint64_t accumbytes; }; typedef enum { prof_tctx_state_initializing, prof_tctx_state_nominal, prof_tctx_state_dumping, prof_tctx_state_purgatory /* Dumper must finish destroying. */ } prof_tctx_state_t; struct prof_tctx_s { /* Thread data for thread that performed the allocation. */ prof_tdata_t *tdata; /* * Copy of tdata->thr_uid, necessary because tdata may be defunct during * teardown. */ uint64_t thr_uid; /* Profiling counters, protected by tdata->lock. */ prof_cnt_t cnts; /* Associated global context. */ prof_gctx_t *gctx; /* * UID that distinguishes multiple tctx's created by the same thread, * but coexisting in gctx->tctxs. There are two ways that such * coexistence can occur: * - A dumper thread can cause a tctx to be retained in the purgatory * state. * - Although a single "producer" thread must create all tctx's which * share the same thr_uid, multiple "consumers" can each concurrently * execute portions of prof_tctx_destroy(). prof_tctx_destroy() only * gets called once each time cnts.cur{objs,bytes} drop to 0, but this * threshold can be hit again before the first consumer finishes * executing prof_tctx_destroy(). */ uint64_t tctx_uid; /* Linkage into gctx's tctxs. */ rb_node(prof_tctx_t) tctx_link; /* * True during prof_alloc_prep()..prof_malloc_sample_object(), prevents * sample vs destroy race. */ bool prepared; /* Current dump-related state, protected by gctx->lock. */ prof_tctx_state_t state; /* * Copy of cnts snapshotted during early dump phase, protected by * dump_mtx. */ prof_cnt_t dump_cnts; }; typedef rb_tree(prof_tctx_t) prof_tctx_tree_t; struct prof_gctx_s { /* Protects nlimbo, cnt_summed, and tctxs. */ malloc_mutex_t *lock; /* * Number of threads that currently cause this gctx to be in a state of * limbo due to one of: * - Initializing this gctx. * - Initializing per thread counters associated with this gctx. * - Preparing to destroy this gctx. * - Dumping a heap profile that includes this gctx. * nlimbo must be 1 (single destroyer) in order to safely destroy the * gctx. */ unsigned nlimbo; /* * Tree of profile counters, one for each thread that has allocated in * this context. */ prof_tctx_tree_t tctxs; /* Linkage for tree of contexts to be dumped. */ rb_node(prof_gctx_t) dump_link; /* Temporary storage for summation during dump. */ prof_cnt_t cnt_summed; /* Associated backtrace. */ prof_bt_t bt; /* Backtrace vector, variable size, referred to by bt. */ void *vec[1]; }; typedef rb_tree(prof_gctx_t) prof_gctx_tree_t; struct prof_tdata_s { malloc_mutex_t *lock; /* Monotonically increasing unique thread identifier. */ uint64_t thr_uid; /* * Monotonically increasing discriminator among tdata structures * associated with the same thr_uid. */ uint64_t thr_discrim; /* Included in heap profile dumps if non-NULL. */ char *thread_name; bool attached; bool expired; rb_node(prof_tdata_t) tdata_link; /* * Counter used to initialize prof_tctx_t's tctx_uid. No locking is * necessary when incrementing this field, because only one thread ever * does so. */ uint64_t tctx_uid_next; /* * Hash of (prof_bt_t *)-->(prof_tctx_t *). Each thread tracks * backtraces for which it has non-zero allocation/deallocation counters * associated with thread-specific prof_tctx_t objects. Other threads * may write to prof_tctx_t contents when freeing associated objects. */ ckh_t bt2tctx; /* Sampling state. */ uint64_t prng_state; uint64_t bytes_until_sample; /* State used to avoid dumping while operating on prof internals. */ bool enq; bool enq_idump; bool enq_gdump; /* * Set to true during an early dump phase for tdata's which are * currently being dumped. New threads' tdata's have this initialized * to false so that they aren't accidentally included in later dump * phases. */ bool dumping; /* * True if profiling is active for this tdata's thread * (thread.prof.active mallctl). */ bool active; /* Temporary storage for summation during dump. */ prof_cnt_t cnt_summed; /* Backtrace vector, used for calls to prof_backtrace(). */ void *vec[PROF_BT_MAX]; }; typedef rb_tree(prof_tdata_t) prof_tdata_tree_t; #endif /* JEMALLOC_H_STRUCTS */ /******************************************************************************/ #ifdef JEMALLOC_H_EXTERNS extern bool opt_prof; extern bool opt_prof_active; extern bool opt_prof_thread_active_init; extern size_t opt_lg_prof_sample; /* Mean bytes between samples. */ extern ssize_t opt_lg_prof_interval; /* lg(prof_interval). */ extern bool opt_prof_gdump; /* High-water memory dumping. */ extern bool opt_prof_final; /* Final profile dumping. */ extern bool opt_prof_leak; /* Dump leak summary at exit. */ extern bool opt_prof_accum; /* Report cumulative bytes. */ extern char opt_prof_prefix[ /* Minimize memory bloat for non-prof builds. */ #ifdef JEMALLOC_PROF PATH_MAX + #endif 1]; /* Accessed via prof_active_[gs]et{_unlocked,}(). */ extern bool prof_active; /* Accessed via prof_gdump_[gs]et{_unlocked,}(). */ extern bool prof_gdump_val; /* * Profile dump interval, measured in bytes allocated. Each arena triggers a * profile dump when it reaches this threshold. The effect is that the * interval between profile dumps averages prof_interval, though the actual * interval between dumps will tend to be sporadic, and the interval will be a * maximum of approximately (prof_interval * narenas). */ extern uint64_t prof_interval; /* * Initialized as opt_lg_prof_sample, and potentially modified during profiling * resets. */ extern size_t lg_prof_sample; void prof_alloc_rollback(tsd_t *tsd, prof_tctx_t *tctx, bool updated); void prof_malloc_sample_object(const void *ptr, size_t usize, prof_tctx_t *tctx); void prof_free_sampled_object(tsd_t *tsd, size_t usize, prof_tctx_t *tctx); void bt_init(prof_bt_t *bt, void **vec); void prof_backtrace(prof_bt_t *bt); prof_tctx_t *prof_lookup(tsd_t *tsd, prof_bt_t *bt); #ifdef JEMALLOC_JET size_t prof_tdata_count(void); size_t prof_bt_count(void); const prof_cnt_t *prof_cnt_all(void); typedef int (prof_dump_open_t)(bool, const char *); extern prof_dump_open_t *prof_dump_open; typedef bool (prof_dump_header_t)(bool, const prof_cnt_t *); extern prof_dump_header_t *prof_dump_header; #endif void prof_idump(void); bool prof_mdump(const char *filename); void prof_gdump(void); prof_tdata_t *prof_tdata_init(tsd_t *tsd); prof_tdata_t *prof_tdata_reinit(tsd_t *tsd, prof_tdata_t *tdata); void prof_reset(tsd_t *tsd, size_t lg_sample); void prof_tdata_cleanup(tsd_t *tsd); const char *prof_thread_name_get(void); bool prof_active_get(void); bool prof_active_set(bool active); int prof_thread_name_set(tsd_t *tsd, const char *thread_name); bool prof_thread_active_get(void); bool prof_thread_active_set(bool active); bool prof_thread_active_init_get(void); bool prof_thread_active_init_set(bool active_init); bool prof_gdump_get(void); bool prof_gdump_set(bool active); void prof_boot0(void); void prof_boot1(void); bool prof_boot2(void); void prof_prefork(void); void prof_postfork_parent(void); void prof_postfork_child(void); void prof_sample_threshold_update(prof_tdata_t *tdata); #endif /* JEMALLOC_H_EXTERNS */ /******************************************************************************/ #ifdef JEMALLOC_H_INLINES #ifndef JEMALLOC_ENABLE_INLINE bool prof_active_get_unlocked(void); bool prof_gdump_get_unlocked(void); prof_tdata_t *prof_tdata_get(tsd_t *tsd, bool create); bool prof_sample_accum_update(tsd_t *tsd, size_t usize, bool commit, prof_tdata_t **tdata_out); prof_tctx_t *prof_alloc_prep(tsd_t *tsd, size_t usize, bool update); prof_tctx_t *prof_tctx_get(const void *ptr); void prof_tctx_set(const void *ptr, prof_tctx_t *tctx); void prof_malloc_sample_object(const void *ptr, size_t usize, prof_tctx_t *tctx); void prof_malloc(const void *ptr, size_t usize, prof_tctx_t *tctx); void prof_realloc(tsd_t *tsd, const void *ptr, size_t usize, prof_tctx_t *tctx, bool updated, size_t old_usize, prof_tctx_t *old_tctx); void prof_free(tsd_t *tsd, const void *ptr, size_t usize); #endif #if (defined(JEMALLOC_ENABLE_INLINE) || defined(JEMALLOC_PROF_C_)) JEMALLOC_ALWAYS_INLINE bool prof_active_get_unlocked(void) { /* * Even if opt_prof is true, sampling can be temporarily disabled by * setting prof_active to false. No locking is used when reading * prof_active in the fast path, so there are no guarantees regarding * how long it will take for all threads to notice state changes. */ return (prof_active); } JEMALLOC_ALWAYS_INLINE bool prof_gdump_get_unlocked(void) { /* * No locking is used when reading prof_gdump_val in the fast path, so * there are no guarantees regarding how long it will take for all * threads to notice state changes. */ return (prof_gdump_val); } JEMALLOC_ALWAYS_INLINE prof_tdata_t * prof_tdata_get(tsd_t *tsd, bool create) { prof_tdata_t *tdata; cassert(config_prof); tdata = tsd_prof_tdata_get(tsd); if (create) { if (unlikely(tdata == NULL)) { if (tsd_nominal(tsd)) { tdata = prof_tdata_init(tsd); tsd_prof_tdata_set(tsd, tdata); } } else if (unlikely(tdata->expired)) { tdata = prof_tdata_reinit(tsd, tdata); tsd_prof_tdata_set(tsd, tdata); } assert(tdata == NULL || tdata->attached); } return (tdata); } JEMALLOC_ALWAYS_INLINE prof_tctx_t * prof_tctx_get(const void *ptr) { cassert(config_prof); assert(ptr != NULL); return (arena_prof_tctx_get(ptr)); } JEMALLOC_ALWAYS_INLINE void prof_tctx_set(const void *ptr, prof_tctx_t *tctx) { cassert(config_prof); assert(ptr != NULL); arena_prof_tctx_set(ptr, tctx); } JEMALLOC_ALWAYS_INLINE bool prof_sample_accum_update(tsd_t *tsd, size_t usize, bool update, prof_tdata_t **tdata_out) { prof_tdata_t *tdata; cassert(config_prof); tdata = prof_tdata_get(tsd, true); if ((uintptr_t)tdata <= (uintptr_t)PROF_TDATA_STATE_MAX) tdata = NULL; if (tdata_out != NULL) *tdata_out = tdata; if (tdata == NULL) return (true); if (tdata->bytes_until_sample >= usize) { if (update) tdata->bytes_until_sample -= usize; return (true); } else { /* Compute new sample threshold. */ if (update) prof_sample_threshold_update(tdata); return (!tdata->active); } } JEMALLOC_ALWAYS_INLINE prof_tctx_t * prof_alloc_prep(tsd_t *tsd, size_t usize, bool update) { prof_tctx_t *ret; prof_tdata_t *tdata; prof_bt_t bt; assert(usize == s2u(usize)); if (!prof_active_get_unlocked() || likely(prof_sample_accum_update(tsd, usize, update, &tdata))) ret = (prof_tctx_t *)(uintptr_t)1U; else { bt_init(&bt, tdata->vec); prof_backtrace(&bt); ret = prof_lookup(tsd, &bt); } return (ret); } JEMALLOC_ALWAYS_INLINE void prof_malloc(const void *ptr, size_t usize, prof_tctx_t *tctx) { cassert(config_prof); assert(ptr != NULL); assert(usize == isalloc(ptr, true)); if (unlikely((uintptr_t)tctx > (uintptr_t)1U)) prof_malloc_sample_object(ptr, usize, tctx); else prof_tctx_set(ptr, (prof_tctx_t *)(uintptr_t)1U); } JEMALLOC_ALWAYS_INLINE void prof_realloc(tsd_t *tsd, const void *ptr, size_t usize, prof_tctx_t *tctx, bool updated, size_t old_usize, prof_tctx_t *old_tctx) { cassert(config_prof); assert(ptr != NULL || (uintptr_t)tctx <= (uintptr_t)1U); if (!updated && ptr != NULL) { assert(usize == isalloc(ptr, true)); if (prof_sample_accum_update(tsd, usize, true, NULL)) { /* * Don't sample. The usize passed to PROF_ALLOC_PREP() * was larger than what actually got allocated, so a * backtrace was captured for this allocation, even * though its actual usize was insufficient to cross the * sample threshold. */ tctx = (prof_tctx_t *)(uintptr_t)1U; } } if (unlikely((uintptr_t)old_tctx > (uintptr_t)1U)) prof_free_sampled_object(tsd, old_usize, old_tctx); if (unlikely((uintptr_t)tctx > (uintptr_t)1U)) prof_malloc_sample_object(ptr, usize, tctx); else prof_tctx_set(ptr, (prof_tctx_t *)(uintptr_t)1U); } JEMALLOC_ALWAYS_INLINE void prof_free(tsd_t *tsd, const void *ptr, size_t usize) { prof_tctx_t *tctx = prof_tctx_get(ptr); cassert(config_prof); assert(usize == isalloc(ptr, true)); if (unlikely((uintptr_t)tctx > (uintptr_t)1U)) prof_free_sampled_object(tsd, usize, tctx); } #endif #endif /* JEMALLOC_H_INLINES */ /******************************************************************************/