esp-idf/components/heap/heap_trace_standalone.c
Guillaume Souchere 2cf9236f6c heap trace standalone: Fix initialization of the unused linked list, update tests
- Call TAILQ_INSERT_TAIL in linked_list_setup to add unused records from the tail of the list
- Fix test "heap trace leak check" to expect that after a free, the record is zeroed instead of checking that
  the whole list of records is moved by one index in the array.
- Use esp_rom_printf() under lock instead of printf() since it does not rely on interrupts.
2023-02-14 09:48:14 +01:00

516 lines
14 KiB
C

/*
* SPDX-FileCopyrightText: 2015-2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <string.h>
#include <sdkconfig.h>
#define HEAP_TRACE_SRCFILE /* don't warn on inclusion here */
#include "esp_heap_trace.h"
#undef HEAP_TRACE_SRCFILE
#include "esp_attr.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "esp_memory_utils.h"
#include "sys/queue.h"
#define STACK_DEPTH CONFIG_HEAP_TRACING_STACK_DEPTH
#if CONFIG_HEAP_TRACING_STANDALONE
static portMUX_TYPE trace_mux = portMUX_INITIALIZER_UNLOCKED;
static bool tracing;
static heap_trace_mode_t mode;
/* Define struct: linked list of records */
TAILQ_HEAD(heap_trace_record_list_struct_t, heap_trace_record_t);
typedef struct heap_trace_record_list_struct_t heap_trace_record_list_t;
/* Linked List of Records */
typedef struct {
/* Buffer used for records. */
heap_trace_record_t *buffer;
/* Linked list of recorded allocations */
heap_trace_record_list_t list;
/* Linked list of available record objects */
heap_trace_record_list_t unused;
/* capacity of 'buffer' */
size_t capacity;
/* Count of entries in 'list' */
size_t count;
/* During execution, we remember the maximum
value of 'count'. This can help you
choose the right size for your buffer capacity.*/
size_t high_water_mark;
/* Has the buffer overflowed and lost trace entries? */
bool has_overflowed;
} records_t;
// Forward Defines
static void heap_trace_dump_base(bool internal_ram, bool psram);
static void record_deep_copy(heap_trace_record_t *rDest, const heap_trace_record_t* r_src);
static void list_setup(void);
static void list_remove(heap_trace_record_t* r_remove);
static bool list_add(const heap_trace_record_t* r_append);
static heap_trace_record_t* list_pop_unused(void);
static heap_trace_record_t* list_find_address_reverse(void* p);
/* The actual records. */
static records_t records;
/* Actual number of allocations logged */
static size_t total_allocations;
/* Actual number of frees logged */
static size_t total_frees;
/* Used to speed up heap_trace_get */
static heap_trace_record_t* r_get;
static size_t r_get_idx;
esp_err_t heap_trace_init_standalone(heap_trace_record_t *record_buffer, size_t num_records)
{
if (tracing) {
return ESP_ERR_INVALID_STATE;
}
if (record_buffer == NULL || num_records == 0) {
return ESP_ERR_INVALID_ARG;
}
records.buffer = record_buffer;
records.capacity = num_records;
return ESP_OK;
}
esp_err_t heap_trace_start(heap_trace_mode_t mode_param)
{
if (records.buffer == NULL || records.capacity == 0) {
return ESP_ERR_INVALID_STATE;
}
portENTER_CRITICAL(&trace_mux);
tracing = false;
mode = mode_param;
// clear buffer
memset(records.buffer, 0, sizeof(heap_trace_record_t) * records.capacity);
records.count = 0;
records.has_overflowed = false;
list_setup();
total_allocations = 0;
total_frees = 0;
heap_trace_resume();
portEXIT_CRITICAL(&trace_mux);
return ESP_OK;
}
static esp_err_t set_tracing(bool enable)
{
if (tracing == enable) {
return ESP_ERR_INVALID_STATE;
}
tracing = enable;
return ESP_OK;
}
esp_err_t heap_trace_stop(void)
{
return set_tracing(false);
}
esp_err_t heap_trace_resume(void)
{
return set_tracing(true);
}
size_t heap_trace_get_count(void)
{
return records.count;
}
esp_err_t heap_trace_get(size_t index, heap_trace_record_t *r_out)
{
if (r_out == NULL) {
return ESP_ERR_INVALID_STATE;
}
esp_err_t result = ESP_OK;
portENTER_CRITICAL(&trace_mux);
if (index >= records.count) {
result = ESP_ERR_INVALID_ARG; /* out of range for 'count' */
} else {
// Perf: speed up sequential access
if (r_get && r_get_idx == index - 1) {
r_get = TAILQ_NEXT(r_get, tailq);
r_get_idx = index;
} else {
// Iterate through through the linked list
r_get = TAILQ_FIRST(&records.list);
for (int i = 0; i < index; i++) {
if (r_get == NULL) {
break;
}
r_get = TAILQ_NEXT(r_get, tailq);
r_get_idx = i + 1;
}
}
// copy to destination
if (r_get) {
memcpy(r_out, r_get, sizeof(heap_trace_record_t));
} else {
// this should not happen since we already
// checked that index < records.count,
// but could be indicative of memory corruption
result = ESP_ERR_INVALID_STATE;
memset(r_out, 0, sizeof(heap_trace_record_t));
}
}
portEXIT_CRITICAL(&trace_mux);
return result;
}
esp_err_t heap_trace_summary(heap_trace_summary_t *summary)
{
if (summary == NULL) {
return ESP_ERR_INVALID_ARG;
}
portENTER_CRITICAL(&trace_mux);
summary->mode = mode;
summary->total_allocations = total_allocations;
summary->total_frees = total_frees;
summary->count = records.count;
summary->capacity = records.capacity;
summary->high_water_mark = records.high_water_mark;
summary->has_overflowed = records.has_overflowed;
portEXIT_CRITICAL(&trace_mux);
return ESP_OK;
}
void heap_trace_dump(void) {
heap_trace_dump_caps(MALLOC_CAP_INTERNAL | MALLOC_CAP_SPIRAM);
}
void heap_trace_dump_caps(const uint32_t caps) {
heap_trace_dump_base(caps & MALLOC_CAP_INTERNAL, caps & MALLOC_CAP_SPIRAM);
}
static void heap_trace_dump_base(bool internal_ram, bool psram)
{
portENTER_CRITICAL(&trace_mux);
size_t delta_size = 0;
size_t delta_allocs = 0;
size_t start_count = records.count;
esp_rom_printf("====== Heap Trace: %u records (%u capacity) ======\n",
records.count, records.capacity);
// Iterate through through the linked list
heap_trace_record_t *rCur = TAILQ_FIRST(&records.list);
for (int i = 0; i < records.count; i++) {
// check corruption
if (rCur == NULL) {
esp_rom_printf("\nError: heap trace linked list is corrupt. expected more records.\n");
break;
}
bool should_print = rCur->address != NULL &&
((psram && internal_ram) ||
(internal_ram && esp_ptr_internal(rCur->address)) ||
(psram && esp_ptr_external_ram(rCur->address)));
if (should_print) {
const char* label = "";
if (esp_ptr_internal(rCur->address)) {
label = ", Internal";
}
if (esp_ptr_external_ram(rCur->address)) {
label = ", PSRAM";
}
esp_rom_printf("%6d bytes (@ %p%s) allocated CPU %d ccount 0x%08x caller ",
rCur->size, rCur->address, label, rCur->ccount & 1, rCur->ccount & ~3);
for (int j = 0; j < STACK_DEPTH && rCur->alloced_by[j] != 0; j++) {
esp_rom_printf("%p%s", rCur->alloced_by[j],
(j < STACK_DEPTH - 1) ? ":" : "");
}
if (mode != HEAP_TRACE_ALL || STACK_DEPTH == 0 || rCur->freed_by[0] == NULL) {
delta_size += rCur->size;
delta_allocs++;
esp_rom_printf("\n");
} else {
esp_rom_printf("\nfreed by ");
for (int j = 0; j < STACK_DEPTH; j++) {
esp_rom_printf("%p%s", rCur->freed_by[j],
(j < STACK_DEPTH - 1) ? ":" : "\n");
}
}
}
rCur = TAILQ_NEXT(rCur, tailq);
}
esp_rom_printf("====== Heap Trace Summary ======\n");
if (mode == HEAP_TRACE_ALL) {
esp_rom_printf("Mode: Heap Trace All\n");
esp_rom_printf("%u bytes alive in trace (%u/%u allocations)\n",
delta_size, delta_allocs, heap_trace_get_count());
} else {
esp_rom_printf("Mode: Heap Trace Leaks\n");
esp_rom_printf("%u bytes 'leaked' in trace (%u allocations)\n", delta_size, delta_allocs);
}
esp_rom_printf("records: %u (%u capacity, %u high water mark)\n",
records.count, records.capacity, records.high_water_mark);
esp_rom_printf("total allocations: %u\n", total_allocations);
esp_rom_printf("total frees: %u\n", total_frees);
if (start_count != records.count) { // only a problem if trace isn't stopped before dumping
esp_rom_printf("(NB: New entries were traced while dumping, so trace dump may have duplicate entries.)\n");
}
if (records.has_overflowed) {
esp_rom_printf("(NB: Internal Buffer has overflowed, so trace data is incomplete.)\n");
}
esp_rom_printf("================================\n");
portEXIT_CRITICAL(&trace_mux);
}
/* Add a new allocation to the heap trace records */
static IRAM_ATTR void record_allocation(const heap_trace_record_t *rAllocation)
{
if (!tracing || rAllocation->address == NULL) {
return;
}
portENTER_CRITICAL(&trace_mux);
if (tracing) {
// If buffer is full, pop off the oldest
// record to make more space
if (records.count == records.capacity) {
records.has_overflowed = true;
heap_trace_record_t *rFirst = TAILQ_FIRST(&records.list);
list_remove(rFirst);
}
// push onto end of list
list_add(rAllocation);
total_allocations++;
}
portEXIT_CRITICAL(&trace_mux);
}
/* record a free event in the heap trace log
For HEAP_TRACE_ALL, this means filling in the freed_by pointer.
For HEAP_TRACE_LEAKS, this means removing the record from the log.
callers is an array of STACK_DEPTH function pointer from the call stack
leading to the call of record_free.
*/
static IRAM_ATTR void record_free(void *p, void **callers)
{
if (!tracing || p == NULL) {
return;
}
portENTER_CRITICAL(&trace_mux);
if (tracing) {
total_frees++;
// search backwards for the allocation record matching this free
heap_trace_record_t* rFound = list_find_address_reverse(p);
if (rFound) {
if (mode == HEAP_TRACE_ALL) {
// add 'freed_by' info to the record
memcpy(rFound->freed_by, callers, sizeof(void *) * STACK_DEPTH);
} else { // HEAP_TRACE_LEAKS
// Leak trace mode, once an allocation is freed
// we remove it from the list
list_remove(rFound);
}
}
}
portEXIT_CRITICAL(&trace_mux);
}
// connect all records into a linked list of 'unused' records
static void list_setup(void)
{
TAILQ_INIT(&records.list);
TAILQ_INIT(&records.unused);
for (int i = 0; i < records.capacity; i++) {
heap_trace_record_t* rCur = &records.buffer[i];
TAILQ_INSERT_TAIL(&records.unused, rCur, tailq);
}
}
/* 1. removes record r_remove from records.list,
2. places it into records.unused */
static IRAM_ATTR void list_remove(heap_trace_record_t* r_remove)
{
assert(records.count > 0);
// remove from records.list
TAILQ_REMOVE(&records.list, r_remove, tailq);
// set as unused
r_remove->address = 0;
r_remove->size = 0;
// add to records.unused
TAILQ_INSERT_HEAD(&records.unused, r_remove, tailq);
// decrement
records.count--;
}
// pop record from unused list
static IRAM_ATTR heap_trace_record_t* list_pop_unused(void)
{
// no records left?
if (records.count >= records.capacity) {
return NULL;
}
// get from records.unused
heap_trace_record_t* rUnused = TAILQ_FIRST(&records.unused);
assert(rUnused->address == NULL);
assert(rUnused->size == 0);
// remove from records.unused
TAILQ_REMOVE(&records.unused, rUnused, tailq);
return rUnused;
}
// deep copy a record.
// Note: only copies the *allocation data*, not the next & prev ptrs
static IRAM_ATTR void record_deep_copy(heap_trace_record_t *rDest, const heap_trace_record_t *r_src)
{
rDest->ccount = r_src->ccount;
rDest->address = r_src->address;
rDest->size = r_src->size;
memcpy(rDest->freed_by, r_src->freed_by, sizeof(void *) * STACK_DEPTH);
memcpy(rDest->alloced_by, r_src->alloced_by, sizeof(void *) * STACK_DEPTH);
}
// Append a record to records.list
// Note: This deep copies r_append
static IRAM_ATTR bool list_add(const heap_trace_record_t *r_append)
{
if (records.count < records.capacity) {
// get unused record
heap_trace_record_t* rDest = list_pop_unused();
// we checked that there is capacity, so this
// should never be null.
assert(rDest != NULL);
// copy allocation data
record_deep_copy(rDest, r_append);
// append to records.list
TAILQ_INSERT_TAIL(&records.list, rDest, tailq);
// increment
records.count++;
// high water mark
if (records.count > records.high_water_mark) {
records.high_water_mark = records.count;
}
return true;
} else {
records.has_overflowed = true;
return false;
}
}
// search records.list backwards for the allocation record matching this address
static IRAM_ATTR heap_trace_record_t* list_find_address_reverse(void* p)
{
if (records.count == 0) {
return NULL;
}
heap_trace_record_t* rFound = NULL;
// Perf: We search backwards because new allocations are appended
// to the end of the list and most allocations are short lived.
heap_trace_record_t *rCur = NULL;
TAILQ_FOREACH_REVERSE(rCur, &records.list, heap_trace_record_list_struct_t, tailq) {
if (rCur->address == p) {
rFound = rCur;
break;
}
}
return rFound;
}
#include "heap_trace.inc"
#endif // CONFIG_HEAP_TRACING_STANDALONE