// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD // // 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 #include "soc/soc_memory_layout.h" #include "esp_attr.h" #include "esp_cpu.h" #include "esp_macros.h" /* Encode the CPU ID in the LSB of the ccount value */ inline static uint32_t get_ccount(void) { uint32_t ccount = esp_cpu_get_cycle_count() & ~3; #ifndef CONFIG_FREERTOS_UNICORE ccount |= xPortGetCoreID(); #endif return ccount; } /* Architecture-specific return value of __builtin_return_address which * should be interpreted as an invalid address. */ #ifdef __XTENSA__ #define HEAP_ARCH_INVALID_PC 0x40000000 #else #define HEAP_ARCH_INVALID_PC 0x00000000 #endif // Caller is 2 stack frames deeper than we care about #define STACK_OFFSET 2 #define TEST_STACK(N) do { \ if (STACK_DEPTH == N) { \ return; \ } \ callers[N] = __builtin_return_address(N+STACK_OFFSET); \ if (!esp_ptr_executable(callers[N]) \ || callers[N] == (void*) HEAP_ARCH_INVALID_PC) { \ callers[N] = 0; \ return; \ } \ } while(0) /* Static function to read the call stack for a traced heap call. Calls to __builtin_return_address are "unrolled" via TEST_STACK macro as gcc requires the argument to be a compile-time constant. */ static HEAP_IRAM_ATTR __attribute__((noinline)) void get_call_stack(void **callers) { bzero(callers, sizeof(void *) * STACK_DEPTH); TEST_STACK(0); TEST_STACK(1); TEST_STACK(2); TEST_STACK(3); TEST_STACK(4); TEST_STACK(5); TEST_STACK(6); TEST_STACK(7); TEST_STACK(8); TEST_STACK(9); TEST_STACK(10); TEST_STACK(11); TEST_STACK(12); TEST_STACK(13); TEST_STACK(14); TEST_STACK(15); TEST_STACK(16); TEST_STACK(17); TEST_STACK(18); TEST_STACK(19); TEST_STACK(20); TEST_STACK(21); TEST_STACK(22); TEST_STACK(23); TEST_STACK(24); TEST_STACK(25); TEST_STACK(26); TEST_STACK(27); TEST_STACK(28); TEST_STACK(29); TEST_STACK(30); TEST_STACK(31); } ESP_STATIC_ASSERT(STACK_DEPTH >= 0 && STACK_DEPTH <= 32, "CONFIG_HEAP_TRACING_STACK_DEPTH must be in range 0-10"); typedef enum { TRACE_MALLOC_CAPS, TRACE_MALLOC_DEFAULT } trace_malloc_mode_t; void *__real_heap_caps_malloc(size_t size, uint32_t caps); void *__real_heap_caps_malloc_default( size_t size ); void *__real_heap_caps_realloc_default( void *ptr, size_t size ); /* trace any 'malloc' event */ static HEAP_IRAM_ATTR __attribute__((noinline)) void *trace_malloc(size_t size, uint32_t caps, trace_malloc_mode_t mode) { uint32_t ccount = get_ccount(); void *p; if ( mode == TRACE_MALLOC_CAPS ) { p = __real_heap_caps_malloc(size, caps); } else { //TRACE_MALLOC_DEFAULT p = __real_heap_caps_malloc_default(size); } heap_trace_record_t rec = { .address = p, .ccount = ccount, .size = size, }; get_call_stack(rec.alloced_by); record_allocation(&rec); return p; } void __real_heap_caps_free(void *p); /* trace any 'free' event */ static HEAP_IRAM_ATTR __attribute__((noinline)) void trace_free(void *p) { void *callers[STACK_DEPTH]; get_call_stack(callers); record_free(p, callers); __real_heap_caps_free(p); } void * __real_heap_caps_realloc(void *p, size_t size, uint32_t caps); /* trace any 'realloc' event */ static HEAP_IRAM_ATTR __attribute__((noinline)) void *trace_realloc(void *p, size_t size, uint32_t caps, trace_malloc_mode_t mode) { void *callers[STACK_DEPTH]; uint32_t ccount = get_ccount(); void *r; /* trace realloc as free-then-alloc */ get_call_stack(callers); record_free(p, callers); if (mode == TRACE_MALLOC_CAPS ) { r = __real_heap_caps_realloc(p, size, caps); } else { //TRACE_MALLOC_DEFAULT r = __real_heap_caps_realloc_default(p, size); } /* realloc with zero size is a free */ if (size != 0) { heap_trace_record_t rec = { .address = r, .ccount = ccount, .size = size, }; memcpy(rec.alloced_by, callers, sizeof(void *) * STACK_DEPTH); record_allocation(&rec); } return r; } /* Note: this changes the behaviour of libc malloc/realloc/free a bit, as they no longer go via the libc functions in ROM. But more or less the same in the end. */ HEAP_IRAM_ATTR void *__wrap_malloc(size_t size) { return trace_malloc(size, 0, TRACE_MALLOC_DEFAULT); } HEAP_IRAM_ATTR void __wrap_free(void *p) { trace_free(p); } HEAP_IRAM_ATTR void *__wrap_realloc(void *p, size_t size) { return trace_realloc(p, size, 0, TRACE_MALLOC_DEFAULT); } HEAP_IRAM_ATTR void *__wrap_calloc(size_t nmemb, size_t size) { size = size * nmemb; void *result = trace_malloc(size, 0, TRACE_MALLOC_DEFAULT); if (result != NULL) { memset(result, 0, size); } return result; } HEAP_IRAM_ATTR void *__wrap_heap_caps_malloc(size_t size, uint32_t caps) { return trace_malloc(size, caps, TRACE_MALLOC_CAPS); } void __wrap_heap_caps_free(void *p) __attribute__((alias("__wrap_free"))); HEAP_IRAM_ATTR void *__wrap_heap_caps_realloc(void *p, size_t size, uint32_t caps) { return trace_realloc(p, size, caps, TRACE_MALLOC_CAPS); } HEAP_IRAM_ATTR void *__wrap_heap_caps_malloc_default( size_t size ) { return trace_malloc(size, 0, TRACE_MALLOC_DEFAULT); } HEAP_IRAM_ATTR void *__wrap_heap_caps_realloc_default( void *ptr, size_t size ) { return trace_realloc(ptr, size, 0, TRACE_MALLOC_DEFAULT); }