#include "mupdf/fitz.h" #include "fitz-imp.h" #include #include #include #include /* Enable FITZ_DEBUG_LOCKING_TIMES below if you want to check the times * for which locks are held too. */ #ifdef FITZ_DEBUG_LOCKING #undef FITZ_DEBUG_LOCKING_TIMES #endif /* * The malloc family of functions will always try scavenging when they run out of memory. * They will only fail when scavenging cannot free up memory from caches in the fz_context. * All the functions will throw an exception when no memory can be allocated, * except the _no_throw family which instead silently returns NULL. */ static void * do_scavenging_malloc(fz_context *ctx, size_t size) { void *p; int phase = 0; fz_lock(ctx, FZ_LOCK_ALLOC); do { p = ctx->alloc.malloc(ctx->alloc.user, size); if (p != NULL) { fz_unlock(ctx, FZ_LOCK_ALLOC); return p; } } while (fz_store_scavenge(ctx, size, &phase)); fz_unlock(ctx, FZ_LOCK_ALLOC); return NULL; } static void * do_scavenging_realloc(fz_context *ctx, void *p, size_t size) { void *q; int phase = 0; fz_lock(ctx, FZ_LOCK_ALLOC); do { q = ctx->alloc.realloc(ctx->alloc.user, p, size); if (q != NULL) { fz_unlock(ctx, FZ_LOCK_ALLOC); return q; } } while (fz_store_scavenge(ctx, size, &phase)); fz_unlock(ctx, FZ_LOCK_ALLOC); return NULL; } void * fz_malloc(fz_context *ctx, size_t size) { void *p; if (size == 0) return NULL; p = do_scavenging_malloc(ctx, size); if (!p) fz_throw(ctx, FZ_ERROR_MEMORY, "malloc of %zu bytes failed", size); return p; } void * fz_malloc_no_throw(fz_context *ctx, size_t size) { if (size == 0) return NULL; return do_scavenging_malloc(ctx, size); } void * fz_calloc(fz_context *ctx, size_t count, size_t size) { void *p; if (count == 0 || size == 0) return NULL; if (count > SIZE_MAX / size) fz_throw(ctx, FZ_ERROR_MEMORY, "calloc (%zu x %zu bytes) failed (size_t overflow)", count, size); p = do_scavenging_malloc(ctx, count * size); if (!p) fz_throw(ctx, FZ_ERROR_MEMORY, "calloc (%zu x %zu bytes) failed", count, size); memset(p, 0, count*size); return p; } void * fz_calloc_no_throw(fz_context *ctx, size_t count, size_t size) { void *p; if (count == 0 || size == 0) return NULL; if (count > SIZE_MAX / size) return NULL; p = do_scavenging_malloc(ctx, count * size); if (p) memset(p, 0, count * size); return p; } void * fz_realloc(fz_context *ctx, void *p, size_t size) { if (size == 0) { fz_free(ctx, p); return NULL; } p = do_scavenging_realloc(ctx, p, size); if (!p) fz_throw(ctx, FZ_ERROR_MEMORY, "realloc (%zu bytes) failed", size); return p; } void * fz_realloc_no_throw(fz_context *ctx, void *p, size_t size) { if (size == 0) { fz_free(ctx, p); return NULL; } return do_scavenging_realloc(ctx, p, size); } void fz_free(fz_context *ctx, void *p) { if (p) { fz_lock(ctx, FZ_LOCK_ALLOC); ctx->alloc.free(ctx->alloc.user, p); fz_unlock(ctx, FZ_LOCK_ALLOC); } } char * fz_strdup(fz_context *ctx, const char *s) { size_t len = strlen(s) + 1; char *ns = fz_malloc(ctx, len); memcpy(ns, s, len); return ns; } static void * fz_malloc_default(void *opaque, size_t size) { return malloc(size); } static void * fz_realloc_default(void *opaque, void *old, size_t size) { return realloc(old, size); } static void fz_free_default(void *opaque, void *ptr) { free(ptr); } fz_alloc_context fz_alloc_default = { NULL, fz_malloc_default, fz_realloc_default, fz_free_default }; static void fz_lock_default(void *user, int lock) { } static void fz_unlock_default(void *user, int lock) { } fz_locks_context fz_locks_default = { NULL, fz_lock_default, fz_unlock_default }; #ifdef FITZ_DEBUG_LOCKING enum { FZ_LOCK_DEBUG_CONTEXT_MAX = 100 }; fz_context *fz_lock_debug_contexts[FZ_LOCK_DEBUG_CONTEXT_MAX]; int fz_locks_debug[FZ_LOCK_DEBUG_CONTEXT_MAX][FZ_LOCK_MAX]; #ifdef FITZ_DEBUG_LOCKING_TIMES int fz_debug_locking_inited = 0; int fz_lock_program_start; int fz_lock_time[FZ_LOCK_DEBUG_CONTEXT_MAX][FZ_LOCK_MAX] = { { 0 } }; int fz_lock_taken[FZ_LOCK_DEBUG_CONTEXT_MAX][FZ_LOCK_MAX] = { { 0 } }; /* We implement our own millisecond clock, as clock() cannot be trusted * when threads are involved. */ static int ms_clock(void) { #ifdef _WIN32 return (int)GetTickCount(); #else struct timeval tp; gettimeofday(&tp, NULL); return (tp.tv_sec*1000) + (tp.tv_usec/1000); #endif } static void dump_lock_times(void) { int i, j; int prog_time = ms_clock() - fz_lock_program_start; for (j = 0; j < FZ_LOCK_MAX; j++) { int total = 0; for (i = 0; i < FZ_LOCK_DEBUG_CONTEXT_MAX; i++) { total += fz_lock_time[i][j]; } printf("Lock %d held for %g seconds (%g%%)\n", j, total / 1000.0f, 100.0f*total/prog_time); } printf("Total program time %g seconds\n", prog_time / 1000.0f); } #endif static int find_context(fz_context *ctx) { int i; for (i = 0; i < FZ_LOCK_DEBUG_CONTEXT_MAX; i++) { if (fz_lock_debug_contexts[i] == ctx) return i; if (fz_lock_debug_contexts[i] == NULL) { int gottit = 0; /* We've not locked on this context before, so use * this one for this new context. We might have other * threads trying here too though so, so claim it * atomically. No one has locked on this context * before, so we are safe to take the ALLOC lock. */ ctx->locks.lock(ctx->locks.user, FZ_LOCK_ALLOC); /* If it's still free, then claim it as ours, * otherwise we'll keep hunting. */ if (fz_lock_debug_contexts[i] == NULL) { gottit = 1; fz_lock_debug_contexts[i] = ctx; #ifdef FITZ_DEBUG_LOCKING_TIMES if (fz_debug_locking_inited == 0) { fz_debug_locking_inited = 1; fz_lock_program_start = ms_clock(); atexit(dump_lock_times); } #endif } ctx->locks.unlock(ctx->locks.user, FZ_LOCK_ALLOC); if (gottit) return i; } } return -1; } void fz_assert_lock_held(fz_context *ctx, int lock) { int idx; if (ctx->locks.lock != fz_lock_default) return; idx = find_context(ctx); if (idx < 0) return; if (fz_locks_debug[idx][lock] == 0) fprintf(stderr, "Lock %d not held when expected\n", lock); } void fz_assert_lock_not_held(fz_context *ctx, int lock) { int idx; if (ctx->locks.lock != fz_lock_default) return; idx = find_context(ctx); if (idx < 0) return; if (fz_locks_debug[idx][lock] != 0) fprintf(stderr, "Lock %d held when not expected\n", lock); } void fz_lock_debug_lock(fz_context *ctx, int lock) { int i, idx; if (ctx->locks.lock != fz_lock_default) return; idx = find_context(ctx); if (idx < 0) return; if (fz_locks_debug[idx][lock] != 0) { fprintf(stderr, "Attempt to take lock %d when held already!\n", lock); } for (i = lock-1; i >= 0; i--) { if (fz_locks_debug[idx][i] != 0) { fprintf(stderr, "Lock ordering violation: Attempt to take lock %d when %d held already!\n", lock, i); } } fz_locks_debug[idx][lock] = 1; #ifdef FITZ_DEBUG_LOCKING_TIMES fz_lock_taken[idx][lock] = ms_clock(); #endif } void fz_lock_debug_unlock(fz_context *ctx, int lock) { int idx; if (ctx->locks.lock != fz_lock_default) return; idx = find_context(ctx); if (idx < 0) return; if (fz_locks_debug[idx][lock] == 0) { fprintf(stderr, "Attempt to release lock %d when not held!\n", lock); } fz_locks_debug[idx][lock] = 0; #ifdef FITZ_DEBUG_LOCKING_TIMES fz_lock_time[idx][lock] += ms_clock() - fz_lock_taken[idx][lock]; #endif } #endif