#ifndef JEMALLOC_INTERNAL_TSD_H #define JEMALLOC_INTERNAL_TSD_H #include "jemalloc/internal/arena_types.h" #include "jemalloc/internal/assert.h" #include "jemalloc/internal/bin_types.h" #include "jemalloc/internal/jemalloc_internal_externs.h" #include "jemalloc/internal/prof_types.h" #include "jemalloc/internal/ql.h" #include "jemalloc/internal/rtree_tsd.h" #include "jemalloc/internal/tcache_types.h" #include "jemalloc/internal/tcache_structs.h" #include "jemalloc/internal/util.h" #include "jemalloc/internal/witness.h" /* * Thread-Specific-Data layout * --- data accessed on tcache fast path: state, rtree_ctx, stats, prof --- * s: state * e: tcache_enabled * m: thread_allocated (config_stats) * f: thread_deallocated (config_stats) * p: prof_tdata (config_prof) * c: rtree_ctx (rtree cache accessed on deallocation) * t: tcache * --- data not accessed on tcache fast path: arena-related fields --- * d: arenas_tdata_bypass * r: reentrancy_level * x: narenas_tdata * i: iarena * a: arena * o: arenas_tdata * Loading TSD data is on the critical path of basically all malloc operations. * In particular, tcache and rtree_ctx rely on hot CPU cache to be effective. * Use a compact layout to reduce cache footprint. * +--- 64-bit and 64B cacheline; 1B each letter; First byte on the left. ---+ * |---------------------------- 1st cacheline ----------------------------| * | sedrxxxx mmmmmmmm ffffffff pppppppp [c * 32 ........ ........ .......] | * |---------------------------- 2nd cacheline ----------------------------| * | [c * 64 ........ ........ ........ ........ ........ ........ .......] | * |---------------------------- 3nd cacheline ----------------------------| * | [c * 32 ........ ........ .......] iiiiiiii aaaaaaaa oooooooo [t...... | * +-------------------------------------------------------------------------+ * Note: the entire tcache is embedded into TSD and spans multiple cachelines. * * The last 3 members (i, a and o) before tcache isn't really needed on tcache * fast path. However we have a number of unused tcache bins and witnesses * (never touched unless config_debug) at the end of tcache, so we place them * there to avoid breaking the cachelines and possibly paging in an extra page. */ #ifdef JEMALLOC_JET typedef void (*test_callback_t)(int *); # define MALLOC_TSD_TEST_DATA_INIT 0x72b65c10 # define MALLOC_TEST_TSD \ O(test_data, int, int) \ O(test_callback, test_callback_t, int) # define MALLOC_TEST_TSD_INITIALIZER , MALLOC_TSD_TEST_DATA_INIT, NULL #else # define MALLOC_TEST_TSD # define MALLOC_TEST_TSD_INITIALIZER #endif /* O(name, type, nullable type */ #define MALLOC_TSD \ O(tcache_enabled, bool, bool) \ O(arenas_tdata_bypass, bool, bool) \ O(reentrancy_level, int8_t, int8_t) \ O(narenas_tdata, uint32_t, uint32_t) \ O(offset_state, uint64_t, uint64_t) \ O(thread_allocated, uint64_t, uint64_t) \ O(thread_deallocated, uint64_t, uint64_t) \ O(bytes_until_sample, int64_t, int64_t) \ O(prof_tdata, prof_tdata_t *, prof_tdata_t *) \ O(rtree_ctx, rtree_ctx_t, rtree_ctx_t) \ O(iarena, arena_t *, arena_t *) \ O(arena, arena_t *, arena_t *) \ O(arenas_tdata, arena_tdata_t *, arena_tdata_t *)\ O(binshards, tsd_binshards_t, tsd_binshards_t)\ O(tcache, tcache_t, tcache_t) \ O(witness_tsd, witness_tsd_t, witness_tsdn_t) \ MALLOC_TEST_TSD #define TSD_INITIALIZER { \ ATOMIC_INIT(tsd_state_uninitialized), \ TCACHE_ENABLED_ZERO_INITIALIZER, \ false, \ 0, \ 0, \ 0, \ 0, \ 0, \ 0, \ NULL, \ RTREE_CTX_ZERO_INITIALIZER, \ NULL, \ NULL, \ NULL, \ TSD_BINSHARDS_ZERO_INITIALIZER, \ TCACHE_ZERO_INITIALIZER, \ WITNESS_TSD_INITIALIZER \ MALLOC_TEST_TSD_INITIALIZER \ } void *malloc_tsd_malloc(size_t size); void malloc_tsd_dalloc(void *wrapper); void malloc_tsd_cleanup_register(bool (*f)(void)); tsd_t *malloc_tsd_boot0(void); void malloc_tsd_boot1(void); void tsd_cleanup(void *arg); tsd_t *tsd_fetch_slow(tsd_t *tsd, bool internal); void tsd_state_set(tsd_t *tsd, uint8_t new_state); void tsd_slow_update(tsd_t *tsd); void tsd_prefork(tsd_t *tsd); void tsd_postfork_parent(tsd_t *tsd); void tsd_postfork_child(tsd_t *tsd); /* * Call ..._inc when your module wants to take all threads down the slow paths, * and ..._dec when it no longer needs to. */ void tsd_global_slow_inc(tsdn_t *tsdn); void tsd_global_slow_dec(tsdn_t *tsdn); bool tsd_global_slow(); enum { /* Common case --> jnz. */ tsd_state_nominal = 0, /* Initialized but on slow path. */ tsd_state_nominal_slow = 1, /* * Some thread has changed global state in such a way that all nominal * threads need to recompute their fast / slow status the next time they * get a chance. * * Any thread can change another thread's status *to* recompute, but * threads are the only ones who can change their status *from* * recompute. */ tsd_state_nominal_recompute = 2, /* * The above nominal states should be lower values. We use * tsd_nominal_max to separate nominal states from threads in the * process of being born / dying. */ tsd_state_nominal_max = 2, /* * A thread might free() during its death as its only allocator action; * in such scenarios, we need tsd, but set up in such a way that no * cleanup is necessary. */ tsd_state_minimal_initialized = 3, /* States during which we know we're in thread death. */ tsd_state_purgatory = 4, tsd_state_reincarnated = 5, /* * What it says on the tin; tsd that hasn't been initialized. Note * that even when the tsd struct lives in TLS, when need to keep track * of stuff like whether or not our pthread destructors have been * scheduled, so this really truly is different than the nominal state. */ tsd_state_uninitialized = 6 }; /* * Some TSD accesses can only be done in a nominal state. To enforce this, we * wrap TSD member access in a function that asserts on TSD state, and mangle * field names to prevent touching them accidentally. */ #define TSD_MANGLE(n) cant_access_tsd_items_directly_use_a_getter_or_setter_##n #ifdef JEMALLOC_U8_ATOMICS # define tsd_state_t atomic_u8_t # define tsd_atomic_load atomic_load_u8 # define tsd_atomic_store atomic_store_u8 # define tsd_atomic_exchange atomic_exchange_u8 #else # define tsd_state_t atomic_u32_t # define tsd_atomic_load atomic_load_u32 # define tsd_atomic_store atomic_store_u32 # define tsd_atomic_exchange atomic_exchange_u32 #endif /* The actual tsd. */ struct tsd_s { /* * The contents should be treated as totally opaque outside the tsd * module. Access any thread-local state through the getters and * setters below. */ /* * We manually limit the state to just a single byte. Unless the 8-bit * atomics are unavailable (which is rare). */ tsd_state_t state; #define O(n, t, nt) \ t TSD_MANGLE(n); MALLOC_TSD #undef O }; JEMALLOC_ALWAYS_INLINE uint8_t tsd_state_get(tsd_t *tsd) { /* * This should be atomic. Unfortunately, compilers right now can't tell * that this can be done as a memory comparison, and forces a load into * a register that hurts fast-path performance. */ /* return atomic_load_u8(&tsd->state, ATOMIC_RELAXED); */ return *(uint8_t *)&tsd->state; } /* * Wrapper around tsd_t that makes it possible to avoid implicit conversion * between tsd_t and tsdn_t, where tsdn_t is "nullable" and has to be * explicitly converted to tsd_t, which is non-nullable. */ struct tsdn_s { tsd_t tsd; }; #define TSDN_NULL ((tsdn_t *)0) JEMALLOC_ALWAYS_INLINE tsdn_t * tsd_tsdn(tsd_t *tsd) { return (tsdn_t *)tsd; } JEMALLOC_ALWAYS_INLINE bool tsdn_null(const tsdn_t *tsdn) { return tsdn == NULL; } JEMALLOC_ALWAYS_INLINE tsd_t * tsdn_tsd(tsdn_t *tsdn) { assert(!tsdn_null(tsdn)); return &tsdn->tsd; } /* * We put the platform-specific data declarations and inlines into their own * header files to avoid cluttering this file. They define tsd_boot0, * tsd_boot1, tsd_boot, tsd_booted_get, tsd_get_allocates, tsd_get, and tsd_set. */ #ifdef JEMALLOC_MALLOC_THREAD_CLEANUP #include "jemalloc/internal/tsd_malloc_thread_cleanup.h" #elif (defined(JEMALLOC_TLS)) #include "jemalloc/internal/tsd_tls.h" #elif (defined(_WIN32)) #include "jemalloc/internal/tsd_win.h" #else #include "jemalloc/internal/tsd_generic.h" #endif /* * tsd_foop_get_unsafe(tsd) returns a pointer to the thread-local instance of * foo. This omits some safety checks, and so can be used during tsd * initialization and cleanup. */ #define O(n, t, nt) \ JEMALLOC_ALWAYS_INLINE t * \ tsd_##n##p_get_unsafe(tsd_t *tsd) { \ return &tsd->TSD_MANGLE(n); \ } MALLOC_TSD #undef O /* tsd_foop_get(tsd) returns a pointer to the thread-local instance of foo. */ #define O(n, t, nt) \ JEMALLOC_ALWAYS_INLINE t * \ tsd_##n##p_get(tsd_t *tsd) { \ /* \ * Because the state might change asynchronously if it's \ * nominal, we need to make sure that we only read it once. \ */ \ uint8_t state = tsd_state_get(tsd); \ assert(state == tsd_state_nominal || \ state == tsd_state_nominal_slow || \ state == tsd_state_nominal_recompute || \ state == tsd_state_reincarnated || \ state == tsd_state_minimal_initialized); \ return tsd_##n##p_get_unsafe(tsd); \ } MALLOC_TSD #undef O /* * tsdn_foop_get(tsdn) returns either the thread-local instance of foo (if tsdn * isn't NULL), or NULL (if tsdn is NULL), cast to the nullable pointer type. */ #define O(n, t, nt) \ JEMALLOC_ALWAYS_INLINE nt * \ tsdn_##n##p_get(tsdn_t *tsdn) { \ if (tsdn_null(tsdn)) { \ return NULL; \ } \ tsd_t *tsd = tsdn_tsd(tsdn); \ return (nt *)tsd_##n##p_get(tsd); \ } MALLOC_TSD #undef O /* tsd_foo_get(tsd) returns the value of the thread-local instance of foo. */ #define O(n, t, nt) \ JEMALLOC_ALWAYS_INLINE t \ tsd_##n##_get(tsd_t *tsd) { \ return *tsd_##n##p_get(tsd); \ } MALLOC_TSD #undef O /* tsd_foo_set(tsd, val) updates the thread-local instance of foo to be val. */ #define O(n, t, nt) \ JEMALLOC_ALWAYS_INLINE void \ tsd_##n##_set(tsd_t *tsd, t val) { \ assert(tsd_state_get(tsd) != tsd_state_reincarnated && \ tsd_state_get(tsd) != tsd_state_minimal_initialized); \ *tsd_##n##p_get(tsd) = val; \ } MALLOC_TSD #undef O JEMALLOC_ALWAYS_INLINE void tsd_assert_fast(tsd_t *tsd) { /* * Note that our fastness assertion does *not* include global slowness * counters; it's not in general possible to ensure that they won't * change asynchronously from underneath us. */ assert(!malloc_slow && tsd_tcache_enabled_get(tsd) && tsd_reentrancy_level_get(tsd) == 0); } JEMALLOC_ALWAYS_INLINE bool tsd_fast(tsd_t *tsd) { bool fast = (tsd_state_get(tsd) == tsd_state_nominal); if (fast) { tsd_assert_fast(tsd); } return fast; } JEMALLOC_ALWAYS_INLINE tsd_t * tsd_fetch_impl(bool init, bool minimal) { tsd_t *tsd = tsd_get(init); if (!init && tsd_get_allocates() && tsd == NULL) { return NULL; } assert(tsd != NULL); if (unlikely(tsd_state_get(tsd) != tsd_state_nominal)) { return tsd_fetch_slow(tsd, minimal); } assert(tsd_fast(tsd)); tsd_assert_fast(tsd); return tsd; } /* Get a minimal TSD that requires no cleanup. See comments in free(). */ JEMALLOC_ALWAYS_INLINE tsd_t * tsd_fetch_min(void) { return tsd_fetch_impl(true, true); } /* For internal background threads use only. */ JEMALLOC_ALWAYS_INLINE tsd_t * tsd_internal_fetch(void) { tsd_t *tsd = tsd_fetch_min(); /* Use reincarnated state to prevent full initialization. */ tsd_state_set(tsd, tsd_state_reincarnated); return tsd; } JEMALLOC_ALWAYS_INLINE tsd_t * tsd_fetch(void) { return tsd_fetch_impl(true, false); } static inline bool tsd_nominal(tsd_t *tsd) { return (tsd_state_get(tsd) <= tsd_state_nominal_max); } JEMALLOC_ALWAYS_INLINE tsdn_t * tsdn_fetch(void) { if (!tsd_booted_get()) { return NULL; } return tsd_tsdn(tsd_fetch_impl(false, false)); } JEMALLOC_ALWAYS_INLINE rtree_ctx_t * tsd_rtree_ctx(tsd_t *tsd) { return tsd_rtree_ctxp_get(tsd); } JEMALLOC_ALWAYS_INLINE rtree_ctx_t * tsdn_rtree_ctx(tsdn_t *tsdn, rtree_ctx_t *fallback) { /* * If tsd cannot be accessed, initialize the fallback rtree_ctx and * return a pointer to it. */ if (unlikely(tsdn_null(tsdn))) { rtree_ctx_data_init(fallback); return fallback; } return tsd_rtree_ctx(tsdn_tsd(tsdn)); } #endif /* JEMALLOC_INTERNAL_TSD_H */