2017-04-10 10:07:10 -04:00
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#include <string.h>
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#include "unity.h"
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#include "wear_levelling.h"
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#include "test_utils.h"
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#include "freertos/FreeRTOS.h"
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#include "freertos/portable.h"
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#include "freertos/task.h"
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#include "freertos/semphr.h"
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2019-03-18 03:46:15 -04:00
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#include "esp32/clk.h"
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2018-06-07 02:58:06 -04:00
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#include "soc/cpu.h"
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2017-04-10 10:07:10 -04:00
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TEST_CASE("wl_unmount doesn't leak memory", "[wear_levelling]")
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{
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const esp_partition_t *partition = get_test_data_partition();
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wl_handle_t handle;
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// dummy unmount is needed to initialize static lock in WL
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wl_unmount(WL_INVALID_HANDLE);
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size_t size_before = xPortGetFreeHeapSize();
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TEST_ESP_OK(wl_mount(partition, &handle));
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wl_unmount(handle);
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size_t size_after = xPortGetFreeHeapSize();
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2018-06-12 04:06:13 -04:00
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// Original code:
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//TEST_ASSERT_EQUAL_HEX32(size_before, size_after);
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// Workaround for problem with heap size calculation:
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ptrdiff_t stack_diff = size_before - size_after;
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stack_diff = abs(stack_diff);
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if (stack_diff > 8) TEST_ASSERT_EQUAL(0, stack_diff);
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2017-04-10 10:07:10 -04:00
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}
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TEST_CASE("wl_mount check partition parameters", "[wear_levelling][ignore]")
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{
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const esp_partition_t *test_partition = get_test_data_partition();
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esp_partition_t fake_partition;
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memcpy(&fake_partition, test_partition, sizeof(fake_partition));
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wl_handle_t handle;
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size_t size_before, size_after;
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2018-06-07 02:58:06 -04:00
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wl_unmount(WL_INVALID_HANDLE);
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2017-04-10 10:07:10 -04:00
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2018-06-07 06:32:37 -04:00
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esp_partition_erase_range(test_partition, 0, test_partition->size);
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2018-06-07 02:58:06 -04:00
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// test small partition: result should be error
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for (int i=0 ; i< 5 ; i++)
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{
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fake_partition.size = SPI_FLASH_SEC_SIZE*(i);
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size_before = xPortGetFreeHeapSize();
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TEST_ESP_ERR(ESP_ERR_INVALID_ARG, wl_mount(&fake_partition, &handle));
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size_after = xPortGetFreeHeapSize();
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2018-06-12 04:06:13 -04:00
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// Original code:
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//TEST_ASSERT_EQUAL_HEX32(size_before, size_after);
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// Workaround for problem with heap size calculation:
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ptrdiff_t stack_diff = size_before - size_after;
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stack_diff = abs(stack_diff);
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if (stack_diff > 8) TEST_ASSERT_EQUAL(0, stack_diff);
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2018-06-07 02:58:06 -04:00
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}
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2017-04-10 10:07:10 -04:00
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2018-06-07 02:58:06 -04:00
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// test minimum size partition: result should be OK
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fake_partition.size = SPI_FLASH_SEC_SIZE * 5;
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2017-04-10 10:07:10 -04:00
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size_before = xPortGetFreeHeapSize();
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2018-06-07 02:58:06 -04:00
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TEST_ESP_OK(wl_mount(&fake_partition, &handle));
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wl_unmount(handle);
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2018-06-12 04:06:13 -04:00
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printf("Test done\n");
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2017-04-10 10:07:10 -04:00
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size_after = xPortGetFreeHeapSize();
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2018-06-12 04:06:13 -04:00
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// Original code:
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//TEST_ASSERT_EQUAL_HEX32(size_before, size_after);
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// Workaround for problem with heap size calculation:
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ptrdiff_t stack_diff = size_before - size_after;
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stack_diff = abs(stack_diff);
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if (stack_diff > 8) TEST_ASSERT_EQUAL(0, stack_diff);
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2017-04-10 10:07:10 -04:00
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}
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typedef struct {
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size_t offset;
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bool write;
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size_t word_count;
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int seed;
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SemaphoreHandle_t done;
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int result;
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wl_handle_t handle;
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} read_write_test_arg_t;
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2017-08-09 02:35:32 -04:00
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#define READ_WRITE_TEST_ARG_INIT(offset_, seed_, handle_, count_) \
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2017-04-10 10:07:10 -04:00
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{ \
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.offset = offset_, \
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.seed = seed_, \
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2017-08-09 02:35:32 -04:00
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.word_count = count_, \
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2017-04-10 10:07:10 -04:00
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.write = true, \
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.done = xSemaphoreCreateBinary(), \
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.handle = handle_ \
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}
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static void read_write_task(void* param)
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{
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read_write_test_arg_t* args = (read_write_test_arg_t*) param;
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esp_err_t err;
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srand(args->seed);
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for (size_t i = 0; i < args->word_count; ++i) {
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uint32_t val = rand();
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if (args->write) {
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err = wl_write(args->handle, args->offset + i * sizeof(val), &val, sizeof(val));
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if (err != ESP_OK) {
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args->result = err;
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goto done;
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}
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} else {
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uint32_t rval;
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err = wl_read(args->handle, args->offset + i * sizeof(rval), &rval, sizeof(rval));
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if (err != ESP_OK || rval != val) {
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ets_printf("E: i=%d, cnt=%d rval=%d val=%d\n\n", i, args->word_count, rval, val);
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args->result = ESP_FAIL;
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goto done;
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}
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}
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}
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args->result = ESP_OK;
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done:
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xSemaphoreGive(args->done);
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vTaskDelay(1);
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vTaskDelete(NULL);
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}
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TEST_CASE("multiple tasks can access wl handle simultaneously", "[wear_levelling]")
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{
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const esp_partition_t *partition = get_test_data_partition();
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wl_handle_t handle;
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TEST_ESP_OK(wl_mount(partition, &handle));
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size_t sector_size = wl_sector_size(handle);
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2017-08-09 02:35:32 -04:00
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TEST_ESP_OK(wl_erase_range(handle, 0, sector_size * 8));
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read_write_test_arg_t args1 = READ_WRITE_TEST_ARG_INIT(0, 1, handle, sector_size/sizeof(uint32_t));
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read_write_test_arg_t args2 = READ_WRITE_TEST_ARG_INIT(sector_size, 2, handle, sector_size/sizeof(uint32_t));
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2017-04-10 10:07:10 -04:00
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const size_t stack_size = 4096;
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printf("writing 1 and 2\n");
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2017-09-18 02:49:23 -04:00
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const int cpuid_0 = 0;
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const int cpuid_1 = portNUM_PROCESSORS - 1;
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xTaskCreatePinnedToCore(&read_write_task, "rw1", stack_size, &args1, 3, NULL, cpuid_0);
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xTaskCreatePinnedToCore(&read_write_task, "rw2", stack_size, &args2, 3, NULL, cpuid_1);
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2017-04-10 10:07:10 -04:00
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xSemaphoreTake(args1.done, portMAX_DELAY);
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printf("f1 done\n");
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TEST_ASSERT_EQUAL(ESP_OK, args1.result);
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xSemaphoreTake(args2.done, portMAX_DELAY);
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printf("f2 done\n");
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TEST_ASSERT_EQUAL(ESP_OK, args2.result);
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args1.write = false;
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args2.write = false;
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2017-08-09 02:35:32 -04:00
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read_write_test_arg_t args3 = READ_WRITE_TEST_ARG_INIT(2 * sector_size, 3, handle, sector_size/sizeof(uint32_t));
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read_write_test_arg_t args4 = READ_WRITE_TEST_ARG_INIT(3 * sector_size, 4, handle, sector_size/sizeof(uint32_t));
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2017-04-10 10:07:10 -04:00
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printf("reading 1 and 2, writing 3 and 4\n");
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2017-09-18 02:49:23 -04:00
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xTaskCreatePinnedToCore(&read_write_task, "rw3", stack_size, &args3, 3, NULL, cpuid_1);
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xTaskCreatePinnedToCore(&read_write_task, "rw4", stack_size, &args4, 3, NULL, cpuid_0);
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xTaskCreatePinnedToCore(&read_write_task, "rw1", stack_size, &args1, 3, NULL, cpuid_0);
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xTaskCreatePinnedToCore(&read_write_task, "rw2", stack_size, &args2, 3, NULL, cpuid_1);
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2017-04-10 10:07:10 -04:00
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xSemaphoreTake(args1.done, portMAX_DELAY);
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printf("f1 done\n");
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TEST_ASSERT_EQUAL(ESP_OK, args1.result);
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xSemaphoreTake(args2.done, portMAX_DELAY);
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printf("f2 done\n");
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TEST_ASSERT_EQUAL(ESP_OK, args2.result);
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xSemaphoreTake(args3.done, portMAX_DELAY);
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printf("f3 done\n");
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TEST_ASSERT_EQUAL(ESP_OK, args3.result);
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xSemaphoreTake(args4.done, portMAX_DELAY);
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printf("f4 done\n");
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TEST_ASSERT_EQUAL(ESP_OK, args4.result);
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vSemaphoreDelete(args1.done);
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vSemaphoreDelete(args2.done);
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vSemaphoreDelete(args3.done);
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vSemaphoreDelete(args4.done);
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wl_unmount(handle);
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}
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2018-06-07 02:58:06 -04:00
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#define TEST_SECTORS_COUNT 8
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static void check_mem_data(wl_handle_t handle, uint32_t init_val, uint32_t* buff)
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{
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size_t sector_size = wl_sector_size(handle);
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for (int m=0 ; m < TEST_SECTORS_COUNT ; m++) {
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TEST_ESP_OK(wl_read(handle, sector_size * m, buff, sector_size));
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for (int i=0 ; i< sector_size/sizeof(uint32_t) ; i++) {
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uint32_t compare_val = init_val + i + m*sector_size;
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TEST_ASSERT_EQUAL( buff[i], compare_val);
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}
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}
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}
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// We write complete memory with defined data
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// And then write one sector many times.
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// A data in other secors should be the same.
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// We do this also with unmount
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TEST_CASE("multiple write is correct", "[wear_levelling]")
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{
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const esp_partition_t *partition = get_test_data_partition();
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esp_partition_t fake_partition;
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memcpy(&fake_partition, partition, sizeof(fake_partition));
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fake_partition.size = SPI_FLASH_SEC_SIZE*(4 + TEST_SECTORS_COUNT);
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wl_handle_t handle;
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TEST_ESP_OK(wl_mount(&fake_partition, &handle));
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size_t sector_size = wl_sector_size(handle);
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// Erase 8 sectors
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TEST_ESP_OK(wl_erase_range(handle, 0, sector_size * TEST_SECTORS_COUNT));
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// Write data to all sectors
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printf("Check 1 sector_size=0x%08x\n", sector_size);
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// Set initial random value
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uint32_t init_val = rand();
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uint32_t* buff = (uint32_t*)malloc(sector_size);
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for (int m=0 ; m < TEST_SECTORS_COUNT ; m++) {
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for (int i=0 ; i< sector_size/sizeof(uint32_t) ; i++) {
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buff[i] = init_val + i + m*sector_size;
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}
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TEST_ESP_OK(wl_erase_range(handle, sector_size*m, sector_size));
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TEST_ESP_OK(wl_write(handle, sector_size*m, buff, sector_size));
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}
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check_mem_data(handle, init_val, buff);
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uint32_t start;
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RSR(CCOUNT, start);
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for (int m=0 ; m< 100000 ; m++) {
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uint32_t sector = m % TEST_SECTORS_COUNT;
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for (int i=0 ; i< sector_size/sizeof(uint32_t) ; i++) {
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buff[i] = init_val + i + sector*sector_size;
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}
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TEST_ESP_OK(wl_erase_range(handle, sector_size*sector, sector_size));
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TEST_ESP_OK(wl_write(handle, sector_size*sector, buff, sector_size));
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check_mem_data(handle, init_val, buff);
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uint32_t end;
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RSR(CCOUNT, end);
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uint32_t ms = (end - start) / (esp_clk_cpu_freq() / 1000);
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printf("loop %4i pass, time= %ims\n", m, ms);
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if (ms > 10000) {
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break;
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}
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}
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free(buff);
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wl_unmount(handle);
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}
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2018-06-07 06:32:37 -04:00
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extern const uint8_t test_partition_v1_bin_start[] asm("_binary_test_partition_v1_bin_start");
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extern const uint8_t test_partition_v1_bin_end[] asm("_binary_test_partition_v1_bin_end");
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#define COMPARE_START_CONST 0x12340000
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// We write to partition prepared image with V1
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// Then we convert image to new version and verifying the data
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TEST_CASE("Version update test", "[wear_levelling]")
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{
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const esp_partition_t *partition = get_test_data_partition();
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esp_partition_t fake_partition;
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memcpy(&fake_partition, partition, sizeof(fake_partition));
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if (partition->encrypted)
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{
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printf("Update from V1 to V2 will not work.\n");
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return;
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}
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fake_partition.size = (size_t)(test_partition_v1_bin_end - test_partition_v1_bin_start);
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printf("Data file size = %i, partition address = 0x%08x, file addr=0x%08x\n", (uint32_t)fake_partition.size, (uint32_t)fake_partition.address, (uint32_t)test_partition_v1_bin_start);
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esp_partition_erase_range(&fake_partition, 0, fake_partition.size);
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esp_partition_write(&fake_partition, 0, test_partition_v1_bin_start, fake_partition.size);
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2018-10-25 08:31:28 -04:00
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for (int i=0 ; i< 3 ; i++)
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{
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printf("Pass %i\n", i);
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wl_handle_t handle;
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TEST_ESP_OK(wl_mount(&fake_partition, &handle));
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size_t sector_size = wl_sector_size(handle);
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uint32_t* buff = (uint32_t*)malloc(sector_size);
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uint32_t init_val = COMPARE_START_CONST;
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int test_count = fake_partition.size/sector_size - 4;
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for (int m=0 ; m < test_count; m++) {
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TEST_ESP_OK(wl_read(handle, sector_size * m, buff, sector_size));
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for (int i=0 ; i< sector_size/sizeof(uint32_t) ; i++) {
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uint32_t compare_val = init_val + i + m*sector_size;
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if (buff[i] != compare_val)
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{
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printf("error compare: 0x%08x != 0x%08x \n", buff[i], compare_val);
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}
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TEST_ASSERT_EQUAL( buff[i], compare_val);
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2018-06-07 06:32:37 -04:00
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}
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}
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2018-10-25 08:31:28 -04:00
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free(buff);
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wl_unmount(handle);
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2018-06-07 06:32:37 -04:00
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}
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}
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