#include "jemalloc/internal/jemalloc_internal.h" /* * quarantine pointers close to NULL are used to encode state information that * is used for cleaning up during thread shutdown. */ #define QUARANTINE_STATE_REINCARNATED ((quarantine_t *)(uintptr_t)1) #define QUARANTINE_STATE_PURGATORY ((quarantine_t *)(uintptr_t)2) #define QUARANTINE_STATE_MAX QUARANTINE_STATE_PURGATORY /******************************************************************************/ /* Data. */ typedef struct quarantine_obj_s quarantine_obj_t; typedef struct quarantine_s quarantine_t; struct quarantine_obj_s { void *ptr; size_t usize; }; struct quarantine_s { size_t curbytes; size_t curobjs; size_t first; #define LG_MAXOBJS_INIT 10 size_t lg_maxobjs; quarantine_obj_t objs[1]; /* Dynamically sized ring buffer. */ }; static void quarantine_cleanup(void *arg); malloc_tsd_data(static, quarantine, quarantine_t *, NULL) malloc_tsd_funcs(JEMALLOC_INLINE, quarantine, quarantine_t *, NULL, quarantine_cleanup) /******************************************************************************/ /* Function prototypes for non-inline static functions. */ static quarantine_t *quarantine_init(size_t lg_maxobjs); static quarantine_t *quarantine_grow(quarantine_t *quarantine); static void quarantine_drain(quarantine_t *quarantine, size_t upper_bound); /******************************************************************************/ static quarantine_t * quarantine_init(size_t lg_maxobjs) { quarantine_t *quarantine; quarantine = (quarantine_t *)imalloc(offsetof(quarantine_t, objs) + ((ZU(1) << lg_maxobjs) * sizeof(quarantine_obj_t))); if (quarantine == NULL) return (NULL); quarantine->curbytes = 0; quarantine->curobjs = 0; quarantine->first = 0; quarantine->lg_maxobjs = lg_maxobjs; quarantine_tsd_set(&quarantine); return (quarantine); } static quarantine_t * quarantine_grow(quarantine_t *quarantine) { quarantine_t *ret; ret = quarantine_init(quarantine->lg_maxobjs + 1); if (ret == NULL) return (quarantine); ret->curbytes = quarantine->curbytes; ret->curobjs = quarantine->curobjs; if (quarantine->first + quarantine->curobjs <= (ZU(1) << quarantine->lg_maxobjs)) { /* objs ring buffer data are contiguous. */ memcpy(ret->objs, &quarantine->objs[quarantine->first], quarantine->curobjs * sizeof(quarantine_obj_t)); } else { /* objs ring buffer data wrap around. */ size_t ncopy_a = (ZU(1) << quarantine->lg_maxobjs) - quarantine->first; size_t ncopy_b = quarantine->curobjs - ncopy_a; memcpy(ret->objs, &quarantine->objs[quarantine->first], ncopy_a * sizeof(quarantine_obj_t)); memcpy(&ret->objs[ncopy_a], quarantine->objs, ncopy_b * sizeof(quarantine_obj_t)); } return (ret); } static void quarantine_drain(quarantine_t *quarantine, size_t upper_bound) { while (quarantine->curbytes > upper_bound && quarantine->curobjs > 0) { quarantine_obj_t *obj = &quarantine->objs[quarantine->first]; assert(obj->usize == isalloc(obj->ptr, config_prof)); idalloc(obj->ptr); quarantine->curbytes -= obj->usize; quarantine->curobjs--; quarantine->first = (quarantine->first + 1) & ((ZU(1) << quarantine->lg_maxobjs) - 1); } } void quarantine(void *ptr) { quarantine_t *quarantine; size_t usize = isalloc(ptr, config_prof); cassert(config_fill); assert(opt_quarantine); quarantine = *quarantine_tsd_get(); if ((uintptr_t)quarantine <= (uintptr_t)QUARANTINE_STATE_MAX) { if (quarantine == NULL) { if ((quarantine = quarantine_init(LG_MAXOBJS_INIT)) == NULL) { idalloc(ptr); return; } } else { if (quarantine == QUARANTINE_STATE_PURGATORY) { /* * Make a note that quarantine() was called * after quarantine_cleanup() was called. */ quarantine = QUARANTINE_STATE_REINCARNATED; quarantine_tsd_set(&quarantine); } idalloc(ptr); return; } } /* * Drain one or more objects if the quarantine size limit would be * exceeded by appending ptr. */ if (quarantine->curbytes + usize > opt_quarantine) { size_t upper_bound = (opt_quarantine >= usize) ? opt_quarantine - usize : 0; quarantine_drain(quarantine, upper_bound); } /* Grow the quarantine ring buffer if it's full. */ if (quarantine->curobjs == (ZU(1) << quarantine->lg_maxobjs)) quarantine = quarantine_grow(quarantine); /* quarantine_grow() must free a slot if it fails to grow. */ assert(quarantine->curobjs < (ZU(1) << quarantine->lg_maxobjs)); /* Append ptr if its size doesn't exceed the quarantine size. */ if (quarantine->curbytes + usize <= opt_quarantine) { size_t offset = (quarantine->first + quarantine->curobjs) & ((ZU(1) << quarantine->lg_maxobjs) - 1); quarantine_obj_t *obj = &quarantine->objs[offset]; obj->ptr = ptr; obj->usize = usize; quarantine->curbytes += usize; quarantine->curobjs++; if (opt_junk) memset(ptr, 0x5a, usize); } else { assert(quarantine->curbytes == 0); idalloc(ptr); } } static void quarantine_cleanup(void *arg) { quarantine_t *quarantine = *(quarantine_t **)arg; if (quarantine == QUARANTINE_STATE_REINCARNATED) { /* * Another destructor deallocated memory after this destructor * was called. Reset quarantine to QUARANTINE_STATE_PURGATORY * in order to receive another callback. */ quarantine = QUARANTINE_STATE_PURGATORY; quarantine_tsd_set(&quarantine); } else if (quarantine == QUARANTINE_STATE_PURGATORY) { /* * The previous time this destructor was called, we set the key * to QUARANTINE_STATE_PURGATORY so that other destructors * wouldn't cause re-creation of the quarantine. This time, do * nothing, so that the destructor will not be called again. */ } else if (quarantine != NULL) { quarantine_drain(quarantine, 0); idalloc(quarantine); quarantine = QUARANTINE_STATE_PURGATORY; quarantine_tsd_set(&quarantine); } } bool quarantine_boot(void) { cassert(config_fill); if (quarantine_tsd_boot()) return (true); return (false); }