esp-idf/components/heap/test_apps/main/test_heap_trace.c

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/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
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*
* SPDX-License-Identifier: Unlicense OR CC0-1.0
*/
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/*
Generic test for heap tracing support
Only compiled in if CONFIG_HEAP_TRACING is set
*/
#include <esp_types.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "sdkconfig.h"
#include "unity.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "esp_heap_caps.h"
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#ifdef CONFIG_HEAP_TRACING
// only compile in heap tracing tests if tracing is enabled
#include "esp_heap_trace.h"
TEST_CASE("heap trace leak check", "[heap-trace]")
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{
heap_trace_record_t recs[8];
heap_trace_init_standalone(recs, 8);
printf("Leak check test\n"); // Print something before trace starts, or stdout allocations skew total counts
fflush(stdout);
heap_trace_start(HEAP_TRACE_LEAKS);
void *a = malloc(64);
memset(a, '3', 64);
void *b = malloc(96);
memset(b, '4', 11);
printf("a.address %p vs %p b.address %p vs %p\n", a, recs[0].address, b, recs[1].address);
heap_trace_dump();
TEST_ASSERT_EQUAL(2, heap_trace_get_count());
heap_trace_record_t trace_a, trace_b;
heap_trace_get(0, &trace_a);
heap_trace_get(1, &trace_b);
printf("trace_a.address %p trace_bb.address %p\n", trace_a.address, trace_b.address);
TEST_ASSERT_EQUAL_PTR(a, trace_a.address);
TEST_ASSERT_EQUAL_PTR(b, trace_b.address);
TEST_ASSERT_EQUAL_PTR(recs[0].address, trace_a.address);
TEST_ASSERT_EQUAL_PTR(recs[1].address, trace_b.address);
free(a);
TEST_ASSERT_EQUAL(1, heap_trace_get_count());
heap_trace_get(0, &trace_b);
TEST_ASSERT_EQUAL_PTR(b, trace_b.address);
/* trace_a freed and placed back to unused list,
so recs[0].address is 0*/
TEST_ASSERT_EQUAL_PTR(recs[0].address, 0x00);
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heap_trace_stop();
}
TEST_CASE("heap trace wrapped buffer check", "[heap-trace]")
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{
const size_t N = 8;
heap_trace_record_t recs[N];
heap_trace_init_standalone(recs, N);
heap_trace_start(HEAP_TRACE_LEAKS);
void *ptrs[N+1];
for (int i = 0; i < N+1; i++) {
ptrs[i] = malloc(i*3);
}
// becuase other mallocs happen as part of this control flow,
// we can't guarantee N entries of ptrs[] are in the heap check buffer.
// but we should guarantee at least the last one is
bool saw_last_ptr = false;
for (int i = 0; i < N; i++) {
heap_trace_record_t rec;
heap_trace_get(i, &rec);
if (rec.address == ptrs[N-1]) {
saw_last_ptr = true;
}
}
TEST_ASSERT(saw_last_ptr);
void *other = malloc(6);
heap_trace_dump();
for (int i = 0; i < N+1; i++) {
free(ptrs[i]);
}
heap_trace_dump();
bool saw_other = false;
for (int i = 0; i < heap_trace_get_count(); i++) {
heap_trace_record_t rec;
heap_trace_get(i, &rec);
// none of ptr[]s should be in the heap trace any more
for (int j = 0; j < N+1; j++) {
TEST_ASSERT_NOT_EQUAL(ptrs[j], rec.address);
}
if (rec.address == other) {
saw_other = true;
}
}
// 'other' pointer should be somewhere in the leak dump
TEST_ASSERT(saw_other);
heap_trace_stop();
}
static void print_floats_task(void *ignore)
{
heap_trace_start(HEAP_TRACE_ALL);
char buf[16] = { };
volatile float f = 12.3456;
sprintf(buf, "%.4f", f);
TEST_ASSERT_EQUAL_STRING("12.3456", buf);
heap_trace_stop();
vTaskDelete(NULL);
}
TEST_CASE("can trace allocations made by newlib", "[heap-trace]")
{
const size_t N = 8;
heap_trace_record_t recs[N];
heap_trace_init_standalone(recs, N);
/* Verifying that newlib code performs an allocation is very fiddly:
- Printing a float allocates data associated with the task, but only the
first time a task prints a float of this length. So we do it in a one-shot task
to avoid possibility it already happened.
- If newlib is updated this test may start failing if the printf() implementation
changes. (This version passes for both nano & regular formatting in newlib 2.2.0)
- We also do the tracing in the task so we only capture things directly related to it.
*/
xTaskCreate(print_floats_task, "print_float", 4096, NULL, 5, NULL);
vTaskDelay(10);
/* has to be at least a few as newlib allocates via multiple different function calls */
TEST_ASSERT(heap_trace_get_count() > 3);
}
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TEST_CASE("check for summary value validity", "[heap-trace]") {
const size_t alloc_size = 100;
const size_t counter_size = 2;
const size_t ptr_array_size = counter_size + 1;
// N+1 pointers to allocate to test the overflow in the summary
void *ptrs[ptr_array_size];
heap_trace_record_t recs[counter_size];
heap_trace_init_standalone(recs, counter_size);
heap_trace_start(HEAP_TRACE_ALL);
for (size_t i = 0; i < ptr_array_size; i ++) {
ptrs[i] = heap_caps_malloc(alloc_size, MALLOC_CAP_INTERNAL);
TEST_ASSERT_NOT_NULL(ptrs[i]);
}
// check that the summary shows the right number of internal memory allocation count
heap_trace_summary_t summary;
heap_trace_summary(&summary);
TEST_ASSERT(summary.count == counter_size);
TEST_ASSERT(summary.capacity == counter_size);
TEST_ASSERT(summary.total_allocations == ptr_array_size);
TEST_ASSERT(summary.has_overflowed == true);
// free the pointers
for (size_t i = 0; i < ptr_array_size; i++) {
heap_caps_free(ptrs[i]);
}
heap_trace_summary(&summary);
TEST_ASSERT(summary.total_frees == ptr_array_size);
heap_trace_stop();
}
#ifdef CONFIG_SPIRAM
void* allocate_pointer(uint32_t caps)
{
const size_t alloc_size = 100;
void *ptr = heap_caps_malloc(alloc_size, caps);
TEST_ASSERT_NOT_NULL(ptr);
return ptr;
}
TEST_CASE("can dump only internal memory allocations", "[trace-dump][internal]")
{
const size_t number_log = 2;
heap_trace_record_t recs[number_log];
heap_trace_init_standalone(recs, number_log);
heap_trace_start(HEAP_TRACE_ALL);
void *internal_ptr = allocate_pointer(MALLOC_CAP_INTERNAL);
void *external_ptr = allocate_pointer(MALLOC_CAP_SPIRAM);
// dump records for memory only. The pytest environment will look for specific strings
// related to internal memory allocation in the output of the dump.
heap_trace_dump_caps(MALLOC_CAP_INTERNAL);
heap_caps_free(internal_ptr);
heap_caps_free(external_ptr);
heap_trace_stop();
}
TEST_CASE("can dump only external memory allocations", "[trace-dump][external]")
{
const size_t number_log = 2;
heap_trace_record_t recs[number_log];
heap_trace_init_standalone(recs, number_log);
heap_trace_start(HEAP_TRACE_ALL);
void *internal_ptr = allocate_pointer(MALLOC_CAP_INTERNAL);
void *external_ptr = allocate_pointer(MALLOC_CAP_SPIRAM);
// dump records for memory only. The pytest environment will look for specific strings
// related to external memory allocation in the output of the dump.
heap_trace_dump_caps(MALLOC_CAP_SPIRAM);
heap_caps_free(internal_ptr);
heap_caps_free(external_ptr);
heap_trace_stop();
}
TEST_CASE("can dump both external and internal allocations", "[trace-dump][all]")
{
const size_t number_log = 2;
heap_trace_record_t recs[number_log];
heap_trace_init_standalone(recs, number_log);
heap_trace_start(HEAP_TRACE_ALL);
void *internal_ptr = allocate_pointer(MALLOC_CAP_INTERNAL);
void *external_ptr = allocate_pointer(MALLOC_CAP_SPIRAM);
// dump records for memory only. The pytest environment will look for specific strings
// related to external and internal memory allocation in the output of the dump.
heap_trace_dump_caps(MALLOC_CAP_INTERNAL | MALLOC_CAP_SPIRAM);
heap_caps_free(internal_ptr);
heap_caps_free(external_ptr);
heap_trace_stop();
}
#endif // CONFIG_SPIRAM
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#endif