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sd-driver/TESTS/filesystem/fopen/fopen.cpp
- Committer:
- mslade
- Date:
- 2018-01-09
- Revision:
- 4:019309e6090e
- Parent:
- 1:84581acd1333
File content as of revision 4:019309e6090e:
/* * mbed Microcontroller Library * Copyright (c) 2006-2016 ARM Limited * * 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. */ /** @file fopen.cpp Test cases to POSIX file fopen() interface. * * Please consult the documentation under the test-case functions for * a description of the individual test case. */ #include "mbed.h" #include "mbed_config.h" #include "SDBlockDevice.h" #include "FATFileSystem.h" #include "fsfat_debug.h" #include "fsfat_test.h" #include "utest/utest.h" #include "unity/unity.h" #include "greentea-client/test_env.h" #include <stdio.h> #include <string.h> #include <stdlib.h> /*rand()*/ #include <inttypes.h> #include <errno.h> /* mbed_retarget.h is included after errno.h so symbols are mapped to * consistent values for all toolchains */ #include "platform/mbed_retarget.h" /* This is needed for stat() test, but is not available on ARMCC. * The following checks whether GCC_ARM compiler is being used because: * - both the ARMCC compiler and the GCC_ARM compile define __GNUC__. * - only the ARMCC compiler defines __ARMCC_VERSION. * - hence if __ARMCC_VERSION is not defined and __GNUC__ is defined, it must be GCC_ARM. */ #if ! defined(__ARMCC_VERSION) && defined(__GNUC__) #include <sys/stat.h> #endif using namespace utest::v1; /// @cond FSFAT_DOXYGEN_DISABLE #ifdef FSFAT_DEBUG #define FSFAT_FOPEN_GREENTEA_TIMEOUT_S 3000 #else #define FSFAT_FOPEN_GREENTEA_TIMEOUT_S 1000 #endif /// @endcond /* DEVICE_SPI * This symbol is defined in targets.json if the target has a SPI interface, which is required for SDCard support. * * MBED_CONF_APP_FSFAT_SDCARD_INSTALLED * For testing purposes, an SDCard must be installed on the target for the test cases in this file to succeed. * If the target has an SD card installed then the MBED_CONF_APP_FSFAT_SDCARD_INSTALLED will be generated * from the mbed_app.json, which includes the line * { * "config": { * "UART_RX": "D0", * <<< lines removed >>> * "DEVICE_SPI": 1, * "FSFAT_SDCARD_INSTALLED": 1 * }, * <<< lines removed >>> */ #if defined(DEVICE_SPI) && defined(MBED_CONF_APP_FSFAT_SDCARD_INSTALLED) static char fsfat_fopen_utest_msg_g[FSFAT_UTEST_MSG_BUF_SIZE]; #define FSFAT_FOPEN_TEST_MOUNT_PT_NAME "sd" #define FSFAT_FOPEN_TEST_MOUNT_PT_PATH "/"FSFAT_FOPEN_TEST_MOUNT_PT_NAME #define FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1 64 #define FSFAT_FOPEN_TEST_FILEPATH_MAX_DEPTH 20 static const char *sd_badfile_path = "/sd/badfile.txt"; static const char *sd_testfile_path = "/sd/test.txt"; SDBlockDevice sd(MBED_CONF_SD_SPI_MOSI, MBED_CONF_SD_SPI_MISO, MBED_CONF_SD_SPI_CLK, MBED_CONF_SD_SPI_CS); FATFileSystem fs("sd", &sd); #define FSFAT_FOPEN_TEST_01 fsfat_fopen_test_01 #define FSFAT_FOPEN_TEST_02 fsfat_fopen_test_02 #define FSFAT_FOPEN_TEST_03 fsfat_fopen_test_03 #define FSFAT_FOPEN_TEST_04 fsfat_fopen_test_04 #define FSFAT_FOPEN_TEST_05 fsfat_fopen_test_05 #define FSFAT_FOPEN_TEST_06 fsfat_fopen_test_06 #define FSFAT_FOPEN_TEST_07 fsfat_fopen_test_07 #define FSFAT_FOPEN_TEST_08 fsfat_fopen_test_08 #define FSFAT_FOPEN_TEST_09 fsfat_fopen_test_09 #define FSFAT_FOPEN_TEST_10 fsfat_fopen_test_10 #define FSFAT_FOPEN_TEST_11 fsfat_fopen_test_11 #define FSFAT_FOPEN_TEST_12 fsfat_fopen_test_12 #define FSFAT_FOPEN_TEST_13 fsfat_fopen_test_13 #define FSFAT_FOPEN_TEST_14 fsfat_fopen_test_14 #define FSFAT_FOPEN_TEST_15 fsfat_fopen_test_15 #define FSFAT_FOPEN_TEST_16 fsfat_fopen_test_16 #define FSFAT_FOPEN_TEST_17 fsfat_fopen_test_17 #define FSFAT_FOPEN_TEST_18 fsfat_fopen_test_18 #define FSFAT_FOPEN_TEST_19 fsfat_fopen_test_19 #define FSFAT_FOPEN_TEST_20 fsfat_fopen_test_20 #define FSFAT_FOPEN_TEST_21 fsfat_fopen_test_21 #define FSFAT_FOPEN_TEST_22 fsfat_fopen_test_22 #define FSFAT_FOPEN_TEST_23 fsfat_fopen_test_23 #define FSFAT_FOPEN_TEST_24 fsfat_fopen_test_24 #define FSFAT_FOPEN_TEST_25 fsfat_fopen_test_25 #define FSFAT_FOPEN_TEST_26 fsfat_fopen_test_26 #define FSFAT_FOPEN_TEST_27 fsfat_fopen_test_27 #define FSFAT_FOPEN_TEST_28 fsfat_fopen_test_28 #define FSFAT_FOPEN_TEST_29 fsfat_fopen_test_29 #define FSFAT_FOPEN_TEST_30 fsfat_fopen_test_30 /* support functions */ /* * open tests that focus on testing fopen() * fsfat_handle_t fopen(const char* filename, char* data, size_t* len, fsfat_key_desc_t* kdesc) */ /* file data for test_01 */ static fsfat_kv_data_t fsfat_fopen_test_01_kv_data[] = { { "/sd/fopentst/hello/world/animal/wobbly/dog/foot/frontlft.txt", "missing"}, { NULL, NULL}, }; /** @brief * Split a file path into its component parts, setting '/' characters to '\0', and returning * pointers to the file path components in the parts array. For example, if * filepath = "/sd/fopentst/hello/world/animal/wobbly/dog/foot/frontlft.txt" then * *parts[0] = "sd" * *parts[1] = "fopentst" * *parts[2] = "hello" * *parts[3] = "world" * *parts[4] = "animal" * *parts[5] = "wobbly" * *parts[6] = "dog" * *parts[7] = "foot" * *parts[8] = "frontlft.txt" * parts[9] = NULL * * ARGUMENTS * @param filepath IN file path string to split into component parts. Expected to start with '/' * @param parts IN OUT array to hold pointers to parts * @param num IN number of components available in parts * * @return On success, this returns the number of components in the filepath Returns number of compoee */ static int32_t fsfat_filepath_split(char* filepath, char* parts[], uint32_t num) { uint32_t i = 0; int32_t ret = -1; char* z = filepath; while (i < num && *z != '\0') { if (*z == '/' ) { *z = '\0'; parts[i] = ++z; i++; } else { z++; } } if (*z == '\0' && i > 0) { ret = (int32_t) i; } return ret; } /** @brief * remove all directories and file in the given filepath * * ARGUMENTS * @param filepath IN file path string to split into component parts. Expected to start with '/' * * @return On success, this returns 0, otherwise < 0 is returned; */ int32_t fsfat_filepath_remove_all(char* filepath) { int32_t ret = -1; int32_t len = 0; char *fpathbuf = NULL; char *pos = NULL; FSFAT_FENTRYLOG("%s:entered\n", __func__); len = strlen(filepath); fpathbuf = (char*) malloc(len+1); if (fpathbuf == NULL) { FSFAT_DBGLOG("%s: failed to duplicate string (out of memory)\n", __func__); return ret; } memset(fpathbuf, 0, len+1); memcpy(fpathbuf, filepath, len); /* delete the leaf node first, and then successively parent directories. */ pos = fpathbuf + strlen(fpathbuf); while (pos != fpathbuf) { /* If the remaining file path is the mount point path then finish as the mount point cannot be removed */ if (strlen(fpathbuf) == strlen(FSFAT_FOPEN_TEST_MOUNT_PT_PATH) && strncmp(fpathbuf, FSFAT_FOPEN_TEST_MOUNT_PT_PATH, strlen(fpathbuf)) == 0) { break; } ret = remove(fpathbuf); pos = strrchr(fpathbuf, '/'); *pos = '\0'; } if (fpathbuf) { free(fpathbuf); } return ret; } /** @brief * make all directories in the given filepath. Do not create the file if present at end of filepath * * ARGUMENTS * @param filepath IN file path containing directories and file * @param do_asserts IN set to true if function should assert on errors * * @return On success, this returns 0, otherwise < 0 is returned; */ static int32_t fsfat_filepath_make_dirs(char* filepath, bool do_asserts) { int32_t i = 0; int32_t num_parts = 0; int32_t len = 0; int32_t ret = -1; char *fpathbuf = NULL; char *buf = NULL; int pos = 0; char *parts[FSFAT_FOPEN_TEST_FILEPATH_MAX_DEPTH]; FSFAT_DBGLOG("%s:entered\n", __func__); /* find the dirs to create*/ memset(parts, 0, sizeof(parts)); len = strlen(filepath); fpathbuf = (char*) malloc(len+1); if (fpathbuf == NULL) { FSFAT_DBGLOG("%s: failed to duplicate string (out of memory)\n", __func__); return ret; } memset(fpathbuf, 0, len+1); memcpy(fpathbuf, filepath, len); num_parts = fsfat_filepath_split(fpathbuf, parts, FSFAT_FOPEN_TEST_FILEPATH_MAX_DEPTH); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to split filepath (filename=\"%s\", num_parts=%d)\n", __func__, filepath, (int) num_parts); TEST_ASSERT_MESSAGE(num_parts > 0, fsfat_fopen_utest_msg_g); /* Now create the directories on the directory path. * Skip creating dir for "/sd" which must be present */ buf = (char*) malloc(strlen(filepath)+1); memset(buf, 0, strlen(filepath)+1); pos = sprintf(buf, "/%s", parts[0]); for (i = 1; i < num_parts - 1; i++) { pos += sprintf(buf+pos, "/%s", parts[i]); FSFAT_DBGLOG("mkdir(%s)\n", buf); ret = mkdir(buf, S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH); if (do_asserts == true) { FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create directory (filepath2=\"%s\", ret=%d, errno=%d)\n", __func__, buf, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); } } if (buf) { free(buf); } if (fpathbuf) { free(fpathbuf); } return ret; } /* FIX ME: errno not set correctly when error occurs. This indicates a problem with the implementation. */ /** @brief * Basic fopen test which does the following: * - creates file and writes some data to the value blob. * - closes the newly created file. * - opens the file (r-only) * - reads the file data and checks its the same as the previously created data. * - closes the opened file * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ static control_t fsfat_fopen_test_01(const size_t call_count) { char* read_buf; int32_t ret = 0; size_t len = 0; fsfat_kv_data_t *node; FILE *fp = NULL; FSFAT_DBGLOG("%s:entered\n", __func__); (void) call_count; node = fsfat_fopen_test_01_kv_data; /* remove file and directory from a previous failed test run, if present */ fsfat_filepath_remove_all((char*) node->filename); /* create dirs */ ret = fsfat_filepath_make_dirs((char*) node->filename, true); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create dirs for filename (filename=\"%s\")(ret=%d)\n", __func__, node->filename, (int) ret); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); FSFAT_DBGLOG("%s:About to create new file (filename=\"%s\", data=\"%s\")\n", __func__, node->filename, node->value); fp = fopen(node->filename, "w+"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file (filename=\"%s\", data=\"%s\")(ret=%d, errno=%d)\n", __func__, node->filename, node->value, (int) ret, errno); TEST_ASSERT_MESSAGE(fp != NULL, fsfat_fopen_utest_msg_g); FSFAT_DBGLOG("%s:length of file=%d (filename=\"%s\", data=\"%s\")\n", __func__, (int) len, node->filename, node->value); len = strlen(node->value); ret = fwrite((const void*) node->value, len, 1, fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to write file (filename=\"%s\", data=\"%s\")(ret=%d)\n", __func__, node->filename, node->value, (int) ret); TEST_ASSERT_MESSAGE(ret == 1, fsfat_fopen_utest_msg_g); FSFAT_DBGLOG("Created file successfully (filename=\"%s\", data=\"%s\")\n", node->filename, node->value); ret = fclose(fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to close file (ret=%d, errno=%d)\n", __func__, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); /* now open the newly created key */ fp = NULL; fp = fopen(node->filename, "r"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to open file for reading (filename=\"%s\", data=\"%s\")(ret=%d)\n", __func__, node->filename, node->value, (int) ret); TEST_ASSERT_MESSAGE(fp != NULL, fsfat_fopen_utest_msg_g); len = strlen(node->value) + 1; read_buf = (char*) malloc(len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to allocated read buffer \n", __func__); TEST_ASSERT_MESSAGE(read_buf != NULL, fsfat_fopen_utest_msg_g); FSFAT_DBGLOG("Opened file successfully (filename=\"%s\", data=\"%s\")\n", node->filename, node->value); memset(read_buf, 0, len); ret = fread((void*) read_buf, len, 1, fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to read file (filename=\"%s\", data=\"%s\", read_buf=\"%s\", ret=%d)\n", __func__, node->filename, node->value, read_buf, (int) ret); /* FIX ME: fread should return the number of items read, not 0 when an item is read successfully. * This indicates a problem with the implementation, as the correct data is read. The correct assert should be: * TEST_ASSERT_MESSAGE(ret == 1, fsfat_fopen_utest_msg_g); * The following assert is curerntly used until the implementation is fixed */ TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); /* check read data is as expected */ FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: read value data (%s) != expected value data (filename=\"%s\", data=\"%s\", read_buf=\"%s\", ret=%d)\n", __func__, read_buf, node->filename, node->value, read_buf, (int) ret); TEST_ASSERT_MESSAGE(strncmp(read_buf, node->value, strlen(node->value)) == 0, fsfat_fopen_utest_msg_g); if(read_buf){ free(read_buf); } ret = fclose(fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: fclose() call failed (ret=%d, errno=%d).\n", __func__, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); return CaseNext; } static fsfat_kv_data_t fsfat_fopen_test_02_data[] = { FSFAT_INIT_1_TABLE_MID_NODE, { NULL, NULL}, }; /** * @brief test to fopen() a pre-existing key and try to write it, which should fail * as by default pre-existing keys are opened read-only * * Basic open test which does the following: * - creates file with default rw perms and writes some data to the value blob. * - closes the newly created file. * - opens the file with the default permissions (read-only) * - tries to write the file data which should fail because file was not opened with write flag set. * - closes the opened key * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_02(const size_t call_count) { int32_t ret = -1; size_t len = 0; FILE *fp = NULL; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; len = strlen(fsfat_fopen_test_02_data[0].value); ret = fsfat_test_create(fsfat_fopen_test_02_data[0].filename, (char*) fsfat_fopen_test_02_data[0].value, len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file (ret=%d).\n", __func__, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); /* by default, owner of key opens with read-only permissions*/ fp = fopen(fsfat_fopen_test_02_data[0].filename, "r"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to open file (filename=\"%s\", ret=%d)\n", __func__, fsfat_fopen_test_02_data[0].filename, (int) ret); TEST_ASSERT_MESSAGE(fp != NULL, fsfat_fopen_utest_msg_g); len = strlen(fsfat_fopen_test_02_data[0].value); ret = fwrite((const void*) fsfat_fopen_test_02_data[0].value, len, 1, fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: call to fwrite() succeeded when should have failed for read-only file (filename=\"%s\")(ret=%d).\n", __func__, fsfat_fopen_test_02_data[0].filename, (int) ret); TEST_ASSERT_MESSAGE(ret <= 0, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: fclose() call failed.\n", __func__); TEST_ASSERT_MESSAGE(fclose(fp) == 0, fsfat_fopen_utest_msg_g); return CaseNext; } /** * @brief test to fopen() a pre-existing file and try to write it, which should succeed * because the key was opened read-write permissions explicitly * * Basic open test which does the following: * - creates file with default rw perms and writes some data to the value blob. * - closes the newly created file. * - opens the file with the rw permissions (non default) * - tries to write the file data which should succeeds because file was opened with write flag set. * - closes the opened key * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_03(const size_t call_count) { int32_t ret = -1; size_t len = 0; FILE *fp = NULL; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; len = strlen(fsfat_fopen_test_02_data[0].value); ret = fsfat_test_create(fsfat_fopen_test_02_data[0].filename, (char*) fsfat_fopen_test_02_data[0].value, len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file in store (ret=%d).\n", __func__, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); /* opens with read-write permissions*/ fp = fopen(fsfat_fopen_test_02_data[0].filename, "w+"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to open file (filename=\"%s\")(ret=%d)\n", __func__, fsfat_fopen_test_02_data[0].filename, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); len = strlen(fsfat_fopen_test_02_data[0].value); ret = fwrite((const void*) fsfat_fopen_test_02_data[0].value, len, 1, fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: call to fwrite() failed when should have succeeded (filename=\"%s\", ret=%d).\n", __func__, fsfat_fopen_test_02_data[0].filename, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: fclose() call failed.\n", __func__); TEST_ASSERT_MESSAGE(fclose(fp) >= 0, fsfat_fopen_utest_msg_g); /* clean-up */ ret = remove(fsfat_fopen_test_02_data[0].filename); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unable to delete file (filename=%s, ret=%d) .\n", __func__, fsfat_fopen_test_02_data[0].filename, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); return CaseNext; } /** @brief test to call fopen() with a filename string that exceeds the maximum length * - chanFS supports the exFAT format which should support 255 char filenames * - check that filenames of this length can be created * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_04(const size_t call_count) { char filename_good[FSFAT_FILENAME_MAX_LENGTH+1]; char filename_bad[FSFAT_FILENAME_MAX_LENGTH+2]; int32_t ret = -1; size_t len = 0; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; memset(filename_good, 0, FSFAT_FILENAME_MAX_LENGTH+1); memset(filename_bad, 0, FSFAT_FILENAME_MAX_LENGTH+2); ret = fsfat_test_filename_gen(filename_good, FSFAT_FILENAME_MAX_LENGTH); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unable to generate filename_good.\n", __func__); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: filename_good is not the correct length (filename_good=%s, len=%d, expected=%d).\n", __func__, filename_good, (int) strlen(filename_good), (int) FSFAT_FILENAME_MAX_LENGTH); TEST_ASSERT_MESSAGE(strlen(filename_good) == FSFAT_FILENAME_MAX_LENGTH, fsfat_fopen_utest_msg_g); ret = fsfat_test_filename_gen(filename_bad, FSFAT_FILENAME_MAX_LENGTH+1); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unable to generate filename_bad.\n", __func__); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: filename_bad is not the correct length (len=%d, expected=%d).\n", __func__, (int) strlen(filename_bad), (int) FSFAT_FILENAME_MAX_LENGTH+1); TEST_ASSERT_MESSAGE(strlen(filename_bad) == FSFAT_FILENAME_MAX_LENGTH+1, fsfat_fopen_utest_msg_g); len = strlen(filename_good); ret = fsfat_test_create(filename_good, filename_good, len); /* FIXME: * The current implementation can create file with a filename with 9 chars (more than the 8 restriction of FAT32 Short File Names). * However, the exFAT 255 char filesnames is not supported and hence the following is commented out. Find out what is * the supported max filename length and change this testcase according. * * FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file (filename=%s, ret=%d).\n", __func__, filename_good, (int) ret); * TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); */ len = strlen(filename_bad); ret = fsfat_test_create(filename_bad, filename_bad, len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: created file in store for filename_bad when should have failed (filename=%s, ret=%d).\n", __func__, filename_bad, (int) ret); TEST_ASSERT_MESSAGE(ret < 0, fsfat_fopen_utest_msg_g); return CaseNext; } /// @cond FSFAT_DOXYGEN_DISABLE typedef struct fsfat_fopen_kv_name_ascii_node { uint32_t code; uint32_t f_allowed : 1; } fsfat_fopen_kv_name_ascii_node; /// @endcond static const uint32_t fsfat_fopen_kv_name_ascii_table_code_sentinel_g = 256; /*@brief table recording ascii character codes permitted in kv names */ static fsfat_fopen_kv_name_ascii_node fsfat_fopen_kv_name_ascii_table[] = { {0 , true}, /* code 0-33 allowed*/ {34, false}, /* '"' not allowed */ {35, true}, /* allowed */ {42, false}, /* '*' not allowed */ {43, true}, /* allowed */ {47, false}, /* '/' not allowed */ {48, true}, /* allowed */ {58, false}, /* ':' not allowed */ {59, true}, /* allowed */ {60, false}, /* '<' not allowed */ {61, true}, /* allowed */ {62, false}, /* '?', '>' not allowed */ {64, true}, /* allowed */ {92, false}, /* '\' not allowed */ {93, true}, /* allowed */ {124, false}, /* '!' not allowed */ {125, true}, /* allowed */ {127, false}, /* DEL not allowed */ {128, true}, /* allowed */ {fsfat_fopen_kv_name_ascii_table_code_sentinel_g, false}, /* sentinel */ }; /// @cond FSFAT_DOXYGEN_DISABLE enum fsfat_fopen_kv_name_pos { fsfat_fopen_kv_name_pos_start = 0x0, fsfat_fopen_kv_name_pos_mid, fsfat_fopen_kv_name_pos_end, fsfat_fopen_kv_name_pos_max }; /// @endcond /** @brief test to call fopen() with filename that in includes illegal characters * - the character(s) can be at the beginning of the filename * - the character(s) can be at the end of the filename * - the character(s) can be somewhere within the filename string * - a max-length string of random characters (legal and illegal) * - a max-length string of random illegal characters only * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_05(const size_t call_count) { bool f_allowed = false; const char *mnt_pt = FSFAT_FOPEN_TEST_MOUNT_PT_PATH; const char *basename = "goodfile"; const char *extname = "txt"; const size_t basename_len = strlen(basename); const size_t filename_len = strlen(mnt_pt)+strlen(basename)+strlen(extname)+2; /* extra 2 chars for '/' and '.' in "/sd/goodfile.txt" */ char filename[FSFAT_BUF_MAX_LENGTH]; size_t len = 0; uint32_t j = 0; int32_t ret = 0; fsfat_fopen_kv_name_ascii_node* node = NULL; uint32_t pos; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; #ifdef FSFAT_DEBUG /* symbol only used why debug is enabled */ const char* pos_str = NULL; #endif /* create bad keyname strings with invalid character code at start of keyname */ node = fsfat_fopen_kv_name_ascii_table; memset(filename, 0, FSFAT_BUF_MAX_LENGTH); while(node->code != fsfat_fopen_kv_name_ascii_table_code_sentinel_g) { /* loop over range */ for(j = node->code; j < (node+1)->code; j++) { if( (j >= 48 && j <= 57) || (j >= 65 && j <= 90) || (j >= 97 && j <= 122)) { FSFAT_DBGLOG("%s: skipping alpha-numeric ascii character code %d (%c).\n", __func__, (int) j, (char) j); continue; } /* set the start, mid, last character of the name to the test char code */ for(pos = (uint32_t) fsfat_fopen_kv_name_pos_start; pos < (uint32_t) fsfat_fopen_kv_name_pos_max; pos++) { len = snprintf(filename, filename_len+1, "%s/%s.%s", mnt_pt, basename, extname); /* overwrite a char at the pos start, mid, end of the filename with an ascii char code (both illegal and legal)*/ switch(pos) { case fsfat_fopen_kv_name_pos_start: filename[5] = (char) j; /* 5 so at to write the second basename char (bad chars as first char not accepted)*/ break; case fsfat_fopen_kv_name_pos_mid: /* create bad keyname strings with invalid character code in the middle of keyname */ filename[5+basename_len/2] = (char) j; break; case fsfat_fopen_kv_name_pos_end: /* create bad keyname strings with invalid character code at end of keyname */ filename[5+basename_len-1] = (char) j; break; default: FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unexpected value of pos (pos=%d).\n", __func__, (int) pos); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); break; } #ifdef FSFAT_DEBUG /* processing only required when debug trace enabled */ switch(pos) { case fsfat_fopen_kv_name_pos_start: pos_str = "start"; break; case fsfat_fopen_kv_name_pos_mid: pos_str = "middle"; break; case fsfat_fopen_kv_name_pos_end: pos_str = "end"; break; default: break; } #endif ret = fsfat_test_create(filename, (const char*) filename, len); /* special cases */ switch(j) { //case 0 : //case 46 : // switch(pos) // { // /* for code = 0 (null terminator). permitted at mid and end of string */ // /* for code = 46 ('.'). permitted at mid and end of string but not at start */ // case fsfat_fopen_kv_name_pos_start: // f_allowed = false; // break; // case fsfat_fopen_kv_name_pos_mid: // case fsfat_fopen_kv_name_pos_end: // default: // f_allowed = true; // break; // } // break; default: f_allowed = node->f_allowed; break; } if(f_allowed == true) { FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file in store when filename contains valid characters (code=%d, ret=%d).\n", __func__, (int) j, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); /* revert FSFAT_LOG for more trace */ FSFAT_DBGLOG("Successfully created a file with valid keyname containing ascii character code %d (%c) at the %s of the keyname.\n", (int) j, (int) j, pos_str); FSFAT_LOG("%c", '.'); ret = fsfat_test_delete(filename); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to delete file previously created (code=%d, ret=%d).\n", __func__, (int) j, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); } else { /*node->f_allowed == false => not allowed to create kv name with ascii code */ FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: created file in store when filename contains an invalid character (code=%d, ret=%d).\n", __func__, (int) j, (int) ret); TEST_ASSERT_MESSAGE(ret < 0, fsfat_fopen_utest_msg_g); /* revert FSFAT_LOG for more trace */ FSFAT_DBGLOG("Successfully failed to create a file with an invalid keyname containing ascii character code %d at the %s of the keyname.\n", (int) j, pos_str); FSFAT_LOG("%c", '.'); } } } node++; } FSFAT_LOG("%c", '\n'); return CaseNext; } static const char fsfat_fopen_ascii_illegal_buf_g[] = "\"�'*+,./:;<=>?[\\]|"; /** @brief test to call fopen() with filename that in includes * illegal characters * - a max-length string of random illegal characters only * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_06(const size_t call_count) { const char *mnt_pt = FSFAT_FOPEN_TEST_MOUNT_PT_PATH; const char *extname = "txt"; const size_t filename_len = strlen(mnt_pt)+FSFAT_MAX_FILE_BASENAME+strlen(extname)+2; /* extra 2 chars for '/' and '.' in "/sd/goodfile.txt" */ char filename[FSFAT_BUF_MAX_LENGTH]; int32_t i = 0; int32_t j = 0; uint32_t pos = 0; uint32_t len = 0; int32_t ret = -1; size_t buf_data_max = 0; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; memset(filename, 0, FSFAT_BUF_MAX_LENGTH); /* create bad keyname strings with invalid character code at start of keyname */ buf_data_max = strlen(fsfat_fopen_ascii_illegal_buf_g); /* generate a number of illegal filenames */ for (j = 0; i < FSFAT_MAX_FILE_BASENAME; j++) { /* generate a kv name of illegal chars*/ len = snprintf(filename, filename_len+1, "%s/", mnt_pt); for (i = 0; i < FSFAT_MAX_FILE_BASENAME; i++) { pos = rand() % (buf_data_max+1); len += snprintf(filename+len, filename_len+1, "%c", fsfat_fopen_ascii_illegal_buf_g[pos]); } len += snprintf(filename+len, filename_len+1, ".%s", extname); ret = fsfat_test_create(filename, filename, len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: created file when filename contains invalid characters (filename=%s, ret=%d).\n", __func__, filename, (int) ret); TEST_ASSERT_MESSAGE(ret < 0, fsfat_fopen_utest_msg_g); } return CaseNext; } /** @brief test for errno reporting on a failed fopen()call * * This test does the following: * - tries to open a file that does not exist for reading, and checks that a NULL pointer is returned. * - checks that errno is not 0 as there is an error. * - checks that ferror() returns 1 indicating an error exists. * * Note: see NOTE_1 below. * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_07(const size_t call_count) { FILE *f = NULL; int ret = -1; int errno_val = 0; const char *filename = sd_badfile_path; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; errno = 0; /* this is expect to fail as the file doesnt exist */ f = fopen(filename,"r"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: opened non-existent file for reading (filename=%s, f=%p).\n", __func__, filename, f); TEST_ASSERT_MESSAGE(f == NULL, fsfat_fopen_utest_msg_g); /* check errno is set correctly */ #if ! defined(__ARMCC_VERSION) && defined(__GNUC__) /* Store errno so the current value set is not changed by new function call */ errno_val = errno; FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: errno has unexpected value (errno != 0 expected) (filename=%s, errno=%d).\n", __func__, filename, errno); TEST_ASSERT_MESSAGE(errno_val != 0, fsfat_fopen_utest_msg_g); #endif /* ! defined(__ARMCC_VERSION) && defined(__GNUC__) */ return CaseNext; } /** @brief test for operation of clearerr() and ferror() * * The test does the following: * - opens and then closes a file, but keeps a copy of the FILE pointer fp. * - set errno to 0. * - write to the close file with fwrite(fp) which should return 0 (no writes) and set the errno. * - check the error condition is set with ferror(). * - clear the error with clearerr(). * - check the error condition is reset with ferror(). * * NOTE_1: GCC/ARMCC support for setting errno * - Documentation (e.g. fwrite() man page) does not explicity say fwrite() sets errno * (e.g. for an fwrite() on a read-only file). * - GCC libc fwrite() appears to set errno as expected. * - ARMCC & IAR libc fwrite() appears not to set errno. * * The following ARMCC documents are silent on whether fwrite() sets errno: * - "ARM C and C++ Libraries and Floating-Point Support". * - "RL-ARM User Guide fwrite() section". * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_08(const size_t call_count) { FILE *fp = NULL; int ret = -1; int ret_ferror = -1; const char *filename = sd_testfile_path; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; errno = 0; fp = fopen(filename,"w+"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to open file (filename=%s, f=%p).\n", __func__, filename, fp); TEST_ASSERT_MESSAGE(fp != NULL, fsfat_fopen_utest_msg_g); /* close the fp but then try to read or write it */ ret = fclose(fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to close file (ret=%d, errno=%d)\n", __func__, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); /* open file */ errno = 0; fp = fopen(filename, "r"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to open file for reading (filename=\"%s\", ret=%d)\n", __func__, filename, (int) ret); TEST_ASSERT_MESSAGE(fp != NULL, fsfat_fopen_utest_msg_g); /* Perform fwrite() operation that will fail. */ errno = 0; ret = fwrite("42!", 4, 1, fp); ret_ferror = ferror(fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: ferror() failed to report error (filename=%s, ret_ferror=%d).\n", __func__, filename, (int) ret_ferror); TEST_ASSERT_MESSAGE(ret_ferror != 0, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: fwrite successfully wrote to read-only file (filename=%s, ret=%d).\n", __func__, filename, (int) ret); /* the fwrite() should fail and return 0. */ TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); #if ! defined(__ARMCC_VERSION) && defined(__GNUC__) /* check that errno is set. ARMCC appears not to set errno for fwrite() failure. */ FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unexpected zero value for errno (filename=%s, ret=%d, errno=%d).\n", __func__, filename, (int) ret, errno); TEST_ASSERT_MESSAGE(errno != 0, fsfat_fopen_utest_msg_g); /* check that errno is set to the expected value (this may change differ for different libc's) */ FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: errno != EBADF (filename=%s, ret=%d, errno=%d).\n", __func__, filename, (int) ret, errno); TEST_ASSERT_MESSAGE(errno == EBADF, fsfat_fopen_utest_msg_g); #endif /* ! defined(__ARMCC_VERSION) && defined(__GNUC__) */ /* check clearerr() return clears the error */ clearerr(fp); ret = ferror(fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: ferror() did not return zero value when error has been cleared (filename=%s, ret=%d).\n", __func__, filename, (int) ret); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); fclose(fp); return CaseNext; } /** @brief test for operation of ftell() * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_09(const size_t call_count) { FILE *fp = NULL; int ret = -1; int32_t len = 0; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; /* create a file of a certain length */ len = strlen(fsfat_fopen_test_02_data[0].value); ret = fsfat_test_create(fsfat_fopen_test_02_data[0].filename, (char*) fsfat_fopen_test_02_data[0].value, len); errno = 0; /* Open the file for reading so the file is not truncated to 0 length. */ fp = fopen(fsfat_fopen_test_02_data[0].filename, "r"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to open file (filename=%s, fp=%p, errno=%d).\n", __func__, fsfat_fopen_test_02_data[0].filename, fp, errno); TEST_ASSERT_MESSAGE(fp != NULL, fsfat_fopen_utest_msg_g); errno = 0; ret = fseek(fp, 0, SEEK_END); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: fseek() failed to SEEK_END (filename=%s, ret=%d, errno=%d).\n", __func__, fsfat_fopen_test_02_data[0].filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); errno = 0; ret = ftell(fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: ftell() failed to report correct offset value (filename=%s, ret=%d, errno=%d).\n", __func__, fsfat_fopen_test_02_data[0].filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == len, fsfat_fopen_utest_msg_g); errno = 0; ret = fclose(fp); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to close file (ret=%d, errno=%d)\n", __func__, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); return CaseNext; } /* file data for test_10 */ static fsfat_kv_data_t fsfat_fopen_test_10_kv_data[] = { { "/sd/test_10/testfile.txt", "test_data"}, { NULL, NULL}, }; /** @brief test for operation of remove() * * Performs the following tests: * 1. test remove() on a file that exists. This should succeed. * 2. test remove() on a dir that exists. This should succeed. * 3. test remove() on a file that doesnt exist. This should fail. check errno set. * 4. test remove() on a dir that doesnt exist. This should fail. check errno set. * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_10(const size_t call_count) { char buf[FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1]; char *pos = NULL; int32_t ret = -1; size_t len = 0; fsfat_kv_data_t *node = fsfat_fopen_test_10_kv_data; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; TEST_ASSERT(strlen(node->filename) < FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1); /* start from a known state i.e. directory to be created in not present */ fsfat_filepath_remove_all((char*) node->filename); /* (1) */ errno = 0; ret = fsfat_filepath_make_dirs((char*) node->filename, false); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create dir (dirname=%s, ret=%d, errno=%d)\n", __func__, node->filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); len = strlen(node->value); ret = fsfat_test_create(node->filename, (char*) node->value, len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file (ret=%d).\n", __func__, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); ret = remove(node->filename); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: delete file operation failed (filename=%s, ret=%d) .\n", __func__, node->filename, (int) ret); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); /* (3) */ ret = remove(node->filename); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: deleted a file that doesn't exist (filename=%s, ret=%d, errno=%d) .\n", __func__, node->filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret != 0, fsfat_fopen_utest_msg_g); /* (2) */ memset(buf, 0, FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1); memcpy(buf, node->filename, strlen(node->filename)); pos = strrchr(buf, '/'); *pos = '\0'; ret = remove(buf); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: delete directory operation failed (directory name=%s, ret=%d, errno=%d).\n", __func__, buf, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); /* (4) */ ret = remove(buf); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: deleted a directory that doesn't exist (directory name=%s, ret=%d, errno=%d).\n", __func__, buf, (int) ret, errno); TEST_ASSERT_MESSAGE(ret != 0, fsfat_fopen_utest_msg_g); return CaseNext; } /* file data for test_11 */ static fsfat_kv_data_t fsfat_fopen_test_11_kv_data[] = { { "/sd/test_11/step0.txt", "test_data"}, { "/sd/test_11/step1.txt", "test_data"}, { "/sd/test_11/subdir/step3.txt", "test_data"}, { NULL, NULL}, }; /** @brief test for operation of rename() * * This test does the following: * 1) test rename() on a file that exists to a new filename within the same directory. * 2) test rename() on a file that exists to a new filename within a different directory. * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_11(const size_t call_count) { int32_t ret = -1; size_t len = 0; fsfat_kv_data_t *node = fsfat_fopen_test_11_kv_data; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; TEST_ASSERT(strlen(node->filename) < FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1); /* start from a known state i.e. directory to be created in not present, files not present */ while(node->filename != NULL) { fsfat_filepath_remove_all((char*) node->filename); node++; } /* create file and directories ready for rename() tests */ errno = 0; node = fsfat_fopen_test_11_kv_data; ret = fsfat_filepath_make_dirs((char*) node->filename, false); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create dir (dirname=%s, ret=%d, errno=%d)\n", __func__, node->filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); len = strlen(node->value); ret = fsfat_test_create(node->filename, (char*) node->value, len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file (ret=%d).\n", __func__, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); errno = 0; node = &fsfat_fopen_test_11_kv_data[2]; ret = fsfat_filepath_make_dirs((char*) node->filename, false); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create dir (dirname=%s, ret=%d, errno=%d)\n", __func__, node->filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); /* (1) */ ret = rename(fsfat_fopen_test_11_kv_data[0].filename, fsfat_fopen_test_11_kv_data[1].filename); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unable to rename file from (%s) to (%s) (ret=%d, errno=%d).\n", __func__, fsfat_fopen_test_11_kv_data[0].filename, fsfat_fopen_test_11_kv_data[1].filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); /* (2) */ ret = rename(fsfat_fopen_test_11_kv_data[1].filename, fsfat_fopen_test_11_kv_data[2].filename); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unable to rename file from (%s) to (%s) (ret=%d, errno=%d).\n", __func__, fsfat_fopen_test_11_kv_data[1].filename, fsfat_fopen_test_11_kv_data[2].filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); return CaseNext; } /* file data for test_12 */ static fsfat_kv_data_t fsfat_fopen_test_12_kv_data[] = { { "/sd/test_12/subdir/testfil1.txt", "testfil1.txt"}, { "/sd/test_12/testfil2.txt", "testfil2.txt"}, { "/sd/test_12/testfil3.txt", "testfil3.txt"}, { "/sd/test_12/testfil4.txt", "testfil4.txt"}, { "/sd/test_12/testfil5.txt", "testfil5.txt"}, { NULL, NULL}, }; /** @brief test for operation of readdir(). * * Note, rewinddir(), telldir() and seekdir() dont appear to work reliably. * opendir() not available on ARM/IAR toolchains. * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_12(const size_t call_count) { char buf[FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1]; char *pos = NULL; int32_t count = 0; int32_t ret = -1; size_t len = 0; DIR *dir; struct dirent *dp; fsfat_kv_data_t *node = fsfat_fopen_test_12_kv_data; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; #if ! defined(__ARMCC_VERSION) && defined(__GNUC__) /* start from a known state i.e. directory to be created in not present */ while(node->filename != NULL) { fsfat_filepath_remove_all((char*) node->filename); node++; } /* create a file */ node = fsfat_fopen_test_12_kv_data; errno = 0; ret = fsfat_filepath_make_dirs((char*) node->filename, false); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create dir (dirname=%s, ret=%d, errno=%d)\n", __func__, node->filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); node = fsfat_fopen_test_12_kv_data; while(node->filename != NULL) { len = strlen(node->value); ret = fsfat_test_create(node->filename, (char*) node->value, len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file (ret=%d).\n", __func__, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); node++; } node = fsfat_fopen_test_12_kv_data; memset(buf, 0, FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1); memcpy(buf, node->filename, strlen(node->filename)); pos = strrchr(buf, '/'); *pos = '\0'; dir = opendir(buf); dp = readdir(dir); TEST_ASSERT_MESSAGE(dp != 0, "Error: readdir() failed\n"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unexpected object name (name=%s, expected=%s).\n", __func__, dp->d_name, "."); TEST_ASSERT_MESSAGE(strncmp(dp->d_name, ".", strlen(".")) == 0, fsfat_fopen_utest_msg_g); dp = readdir(dir); TEST_ASSERT_MESSAGE(dp != 0, "Error: readdir() failed\n"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unexpected object name (name=%s, expected=%s).\n", __func__, dp->d_name, ".."); TEST_ASSERT_MESSAGE(strncmp(dp->d_name, "..", strlen("..")) == 0, fsfat_fopen_utest_msg_g); while ((dp = readdir(dir)) != NULL) { FSFAT_DBGLOG("%s: filename: \"%s\"\n", __func__, dp->d_name); TEST_ASSERT_MESSAGE(dp != 0, "Error: readdir() failed\n"); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unexpected object name (name=%s, expected=%s).\n", __func__, dp->d_name, fsfat_fopen_test_12_kv_data[count].value); TEST_ASSERT_MESSAGE(strncmp(dp->d_name, fsfat_fopen_test_12_kv_data[count].value, strlen(fsfat_fopen_test_12_kv_data[count].value)) == 0, fsfat_fopen_utest_msg_g); count++; } closedir(dir); /* cleanup */ node = fsfat_fopen_test_12_kv_data; while(node->filename != NULL) { fsfat_filepath_remove_all((char*) node->filename); node++; } #endif /* ! defined(__ARMCC_VERSION) && defined(__GNUC__) */ return CaseNext; } /* file data for test_13 */ static fsfat_kv_data_t fsfat_fopen_test_13_kv_data[] = { /* a file is included in the filepath even though its not created by the test, * as the fsfat_filepath_make_dirs() works with it present. */ { "/sd/test_13/dummy.txt", "testdir"}, { NULL, NULL}, }; /** @brief test for operation of mkdir()/remove() * * This test checks that: * - The mkdir() function successfully creates a directory that is not already present. * - The mkdir() function returns EEXIST when trying to create a directory thats already present. * - The remove() function successfully removes a directory that is present. * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_13(const size_t call_count) { int32_t ret = 0; FSFAT_DBGLOG("%s:entered\n", __func__); (void) call_count; /* start from a known state i.e. directory to be created in not present */ fsfat_filepath_remove_all((char*) fsfat_fopen_test_13_kv_data[0].filename); errno = 0; ret = fsfat_filepath_make_dirs((char*) fsfat_fopen_test_13_kv_data[0].filename, false); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create dir (dirname=%s, ret=%d, errno=%d)\n", __func__, fsfat_fopen_test_13_kv_data[0].filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); /* check that get a suitable error when try to create it again.*/ errno = 0; ret = fsfat_filepath_make_dirs((char*) fsfat_fopen_test_13_kv_data[0].filename, false); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: permitted to create directory when already exists (dirname=%s, ret=%d, errno=%d)\n", __func__, fsfat_fopen_test_13_kv_data[0].filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret != 0, fsfat_fopen_utest_msg_g); /* check errno is as expected */ FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: errno != EEXIST (dirname=%s, ret=%d, errno=%d)\n", __func__, fsfat_fopen_test_13_kv_data[0].filename, (int) ret, errno); TEST_ASSERT_MESSAGE(errno == EEXIST, fsfat_fopen_utest_msg_g); ret = fsfat_filepath_remove_all((char*) fsfat_fopen_test_13_kv_data[0].filename); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to remove directory (dirname=%s, ret=%d, errno=%d)\n", __func__, fsfat_fopen_test_13_kv_data[0].filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); return CaseNext; } /* file data for test_14 */ static fsfat_kv_data_t fsfat_fopen_test_14_kv_data[] = { /* a file is included in the filepath even though its not created by the test, * as the fsfat_filepath_make_dirs() works with it present. */ { "/sd/test_14/testfile.txt", "testdata"}, { NULL, NULL}, }; /** @brief test for operation of stat() * * stat() is currently no supported by ARMCC and IAR toolchains libc. * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_14(const size_t call_count) { #if ! defined(__ARMCC_VERSION) && defined(__GNUC__) char buf[FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1]; char *pos = NULL; int32_t ret = -1; size_t len = 0; struct stat file_stat; fsfat_kv_data_t *node = fsfat_fopen_test_14_kv_data; FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; TEST_ASSERT(strlen(node->filename) < FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1); /* start from a known state i.e. directory to be created in not present */ fsfat_filepath_remove_all((char*) node->filename); /* Create file in a directory. */ errno = 0; ret = fsfat_filepath_make_dirs((char*) node->filename, false); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create dir (dirname=%s, ret=%d, errno=%d)\n", __func__, node->filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); len = strlen(node->value); ret = fsfat_test_create(node->filename, (char*) node->value, len); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create file (ret=%d).\n", __func__, (int) ret); TEST_ASSERT_MESSAGE(ret >= 0, fsfat_fopen_utest_msg_g); /* Test stat() on the file returns the correct attribute set */ memset(&file_stat, 0, sizeof(file_stat)); ret = stat(node->filename, &file_stat); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: stat() operation on file failed (filename=%s, ret=%d, errno=%d).\n", __func__, node->filename, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: expected st_mode S_IFREG flag not set (filename=%s).\n", __func__, node->filename); TEST_ASSERT_MESSAGE((file_stat.st_mode & S_IFREG) == S_IFREG, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unexpected st_mode S_IFDIR flag set (filename=%s).\n", __func__, node->filename); TEST_ASSERT_MESSAGE((file_stat.st_mode & S_IFDIR) != S_IFDIR, fsfat_fopen_utest_msg_g); /* Test stat() on the directory returns the correct attribute set */ memset(&file_stat, 0, sizeof(file_stat)); memset(buf, 0, FSFAT_FOPEN_TEST_WORK_BUF_SIZE_1); memcpy(buf, node->filename, strlen(node->filename)); pos = strrchr(buf, '/'); *pos = '\0'; ret = stat(buf, &file_stat); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: stat() operation on directory failed (directory name=%s, ret=%d, errno=%d).\n", __func__, buf, (int) ret, errno); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: unexpected st_mode S_IFREG flag set (directory name=%s).\n", __func__, buf); TEST_ASSERT_MESSAGE((file_stat.st_mode & S_IFREG) != S_IFREG, fsfat_fopen_utest_msg_g); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: expected st_mode S_IFDIR flag not set (directory name=%s).\n", __func__, buf); TEST_ASSERT_MESSAGE((file_stat.st_mode & S_IFDIR) == S_IFDIR, fsfat_fopen_utest_msg_g); /* clean up after successful test */ fsfat_filepath_remove_all((char*) node->filename); #endif /* ! defined(__ARMCC_VERSION) && defined(__GNUC__) */ return CaseNext; } /** @brief test for operation of SDFileSystem::format() * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_15(const size_t call_count) { FSFAT_FENTRYLOG("%s:entered\n", __func__); (void) call_count; int32_t ret = -1; /* the allocation_unit of 0 means chanFS will use the default for the card (varies according to capacity). */ fs.unmount(); ret = fs.format(&sd); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to format sdcard (ret=%d)\n", __func__, (int) ret); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); fs.mount(&sd); return CaseNext; } /* @brief test utility function to create a file of a given size. * * A reference data table is used of so that the data file can be later be * checked with fsfat_test_check_data_file(). * * @param filename name of the file including path * @param data data to store in file * @param len number of bytes of data present in the data buffer. */ int32_t fsfat_test_create_data_file(const char* filename, size_t len) { int32_t ret = -1; FILE *fp = NULL; size_t write_len = 0; size_t written_len = 0; int32_t exp = 0; const int32_t exp_max = 8; /* so as not to exceed FSFAT_TEST_BYTE_DATA_TABLE_SIZE/2 */ FSFAT_FENTRYLOG("%s:entered (filename=%s, len=%d).\n", __func__, filename, (int) len); TEST_ASSERT(len % FSFAT_TEST_BYTE_DATA_TABLE_SIZE == 0); fp = fopen(filename, "a"); if(fp == NULL){ return ret; } while(written_len < len) { /* write fsfat_test_byte_data_table or part thereof, in 9 writes of sizes * 1, 2, 4, 8, 16, 32, 64, 128, 1, totalling 256 bytes len permitting. */ for(exp = 0; (exp <= exp_max) && (written_len < len); exp++){ write_len = 0x1 << (exp % exp_max); write_len = len - written_len > write_len ? write_len : len - written_len; ret = fwrite((const void*) &fsfat_test_byte_data_table[written_len % FSFAT_TEST_BYTE_DATA_TABLE_SIZE], write_len, 1, fp); written_len += write_len; if(ret != 1){ FSFAT_DBGLOG("%s:Error: fwrite() failed (ret=%d)\n", __func__, (int) ret); ret = -1; goto out0; } } } if(written_len == len) { ret = 0; } else { ret = -1; } out0: fclose(fp); return ret; } /* @brief test utility function to check the data in the specified file is correct. * * The data read from the file is check that it agrees with the data written by * fsfat_test_create_data_file(). * * @param filename name of the file including path * @param data data to store in file * @param len number of bytes of data present in the data buffer. */ int32_t fsfat_test_check_data_file(const char* filename, size_t len) { int32_t ret = -1; FILE *fp = NULL; size_t read_len = 0; uint8_t buf[FSFAT_TEST_BYTE_DATA_TABLE_SIZE]; FSFAT_FENTRYLOG("%s:entered (filename=%s, len=%d).\n", __func__, filename, (int) len); TEST_ASSERT(len % FSFAT_TEST_BYTE_DATA_TABLE_SIZE == 0); fp = fopen(filename, "r"); if(fp == NULL){ return ret; } while(read_len < len) { ret = fread((void*) buf, FSFAT_TEST_BYTE_DATA_TABLE_SIZE, 1, fp); read_len += FSFAT_TEST_BYTE_DATA_TABLE_SIZE; if(ret == 0){ /* end of read*/ FSFAT_DBGLOG("%s:unable to read data\n", __func__); break; } if(memcmp(buf, fsfat_test_byte_data_table, FSFAT_TEST_BYTE_DATA_TABLE_SIZE) != 0) { FSFAT_DBGLOG("%s:Error: read data not as expected (0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x, 0x%2x\n", __func__, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7], buf[8], buf[9], buf[10], buf[11], buf[12], buf[13], buf[14], buf[15]); ret = -1; goto out0; } } if(read_len == len) { ret = 0; } out0: fclose(fp); return ret; } /* file data for test_16 */ static fsfat_kv_data_t fsfat_fopen_test_16_kv_data[] = { { "/sd/tst16_0/testfil0.txt", "dummy_data"}, { "/sd/tst16_1/subdir0/testfil0.txt", "dummy_data"}, { "/sd/tst16_2/subdir0/subdir1/testfil0.txt", "dummy_data"}, { "/sd/tst16_3/subdir0/subdir1/subdir2/subdir3/testfil0.txt", "dummy_data"}, { "/sd/tst16_4/subdir0/subdir1/subdir2/subdir3/subdir4/testfil0.txt", "dummy_data"}, { "/sd/tst16_5/subdir0/subdir1/subdir2/subdir3/subdir4/subdir5/testfil0.txt", "dummy_data"}, { "/sd/tst16_6/subdir0/subdir1/subdir2/subdir3/subdir4/subdir5/subdir6/testfil0.txt", "dummy_data"}, { "/sd/tst16_7/subdir0/subdir1/subdir2/subdir3/subdir4/subdir5/subdir6/subdir7/testfil0.txt", "dummy_data"}, { "/sd/tst16_8/subdir0/subdir1/subdir2/subdir3/subdir4/subdir5/subdir6/subdir7/subdir8/testfil0.txt", "dummy_data"}, { "/sd/tst16_9/subdir0/subdir1/subdir2/subdir3/subdir4/subdir5/subdir6/subdir7/subdir8/subdir9/testfil0.txt", "dummy_data"}, { NULL, NULL}, }; /** @brief stress test to write data to fs * * @return on success returns CaseNext to continue to next test case, otherwise will assert on errors. */ control_t fsfat_fopen_test_16(const size_t call_count) { int32_t ret = 0; fsfat_kv_data_t *node = fsfat_fopen_test_16_kv_data; const int32_t num_blocks = 100; /* each file ~25kB */ FSFAT_DBGLOG("%s:entered\n", __func__); (void) call_count; /* remove file and directory from a previous failed test run, if present */ while(node->filename != NULL) { fsfat_filepath_remove_all((char*) node->filename); node++; } /* create dirs */ node = fsfat_fopen_test_16_kv_data; while(node->filename != NULL) { ret = fsfat_filepath_make_dirs((char*) node->filename, true); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create dirs for filename (filename=\"%s\")(ret=%d)\n", __func__, node->filename, (int) ret); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); node++; } /* create the data files */ node = fsfat_fopen_test_16_kv_data; while(node->filename != NULL) { ret = fsfat_test_create_data_file(node->filename, num_blocks * FSFAT_TEST_BYTE_DATA_TABLE_SIZE); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to create data file (filename=\"%s\")(ret=%d)\n", __func__, node->filename, (int) ret); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); node++; } /* read the data back and check its as expected */ node = fsfat_fopen_test_16_kv_data; while(node->filename != NULL) { ret = fsfat_test_check_data_file(node->filename, num_blocks * FSFAT_TEST_BYTE_DATA_TABLE_SIZE); FSFAT_TEST_UTEST_MESSAGE(fsfat_fopen_utest_msg_g, FSFAT_UTEST_MSG_BUF_SIZE, "%s:Error: failed to check data file (filename=\"%s\")(ret=%d)\n", __func__, node->filename, (int) ret); TEST_ASSERT_MESSAGE(ret == 0, fsfat_fopen_utest_msg_g); node++; } /* clean up */ node = fsfat_fopen_test_16_kv_data; while(node->filename != NULL) { fsfat_filepath_remove_all((char*) node->filename); node++; } return CaseNext; } #else #define FSFAT_FOPEN_TEST_01 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_02 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_03 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_04 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_05 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_06 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_07 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_08 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_09 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_10 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_11 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_12 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_13 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_14 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_15 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_16 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_17 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_18 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_19 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_20 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_21 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_22 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_23 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_24 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_25 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_26 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_27 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_28 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_29 fsfat_fopen_test_dummy #define FSFAT_FOPEN_TEST_30 fsfat_fopen_test_dummy /** @brief fsfat_fopen_test_dummy Dummy test case for testing when platform doesnt have an SDCard installed. * * @return success always */ static control_t fsfat_fopen_test_dummy() { printf("Null test\n"); return CaseNext; } #endif /* defined(DEVICE_SPI) && defined(MBED_CONF_APP_FSFAT_SDCARD_INSTALLED) */ /// @cond FSFAT_DOXYGEN_DISABLE utest::v1::status_t greentea_setup(const size_t number_of_cases) { GREENTEA_SETUP(FSFAT_FOPEN_GREENTEA_TIMEOUT_S, "default_auto"); return greentea_test_setup_handler(number_of_cases); } Case cases[] = { /* 1 2 3 4 5 6 7 */ /* 1234567890123456789012345678901234567890123456789012345678901234567890 */ Case("FSFAT_FOPEN_TEST_01: fopen()/fwrite()/fclose() directories/file in multi-dir filepath.", FSFAT_FOPEN_TEST_01), Case("FSFAT_FOPEN_TEST_02: fopen(r) pre-existing file try to write it.", FSFAT_FOPEN_TEST_02), Case("FSFAT_FOPEN_TEST_03: fopen(w+) pre-existing file try to write it.", FSFAT_FOPEN_TEST_03), Case("FSFAT_FOPEN_TEST_04: fopen() with a filename exceeding the maximum length.", FSFAT_FOPEN_TEST_04), #ifdef FOPEN_EXTENDED_TESTING Case("FSFAT_FOPEN_TEST_05: fopen() with bad filenames (extended).", FSFAT_FOPEN_TEST_05), #endif Case("FSFAT_FOPEN_TEST_06: fopen() with bad filenames (minimal).", FSFAT_FOPEN_TEST_06), Case("FSFAT_FOPEN_TEST_07: fopen()/errno handling.", FSFAT_FOPEN_TEST_07), Case("FSFAT_FOPEN_TEST_08: ferror()/clearerr()/errno handling.", FSFAT_FOPEN_TEST_08), Case("FSFAT_FOPEN_TEST_09: ftell() handling.", FSFAT_FOPEN_TEST_09), Case("FSFAT_FOPEN_TEST_10: remove() test.", FSFAT_FOPEN_TEST_10), Case("FSFAT_FOPEN_TEST_11: rename().", FSFAT_FOPEN_TEST_11), Case("FSFAT_FOPEN_TEST_12: opendir(), readdir(), closedir() test.", FSFAT_FOPEN_TEST_12), Case("FSFAT_FOPEN_TEST_13: mkdir() test.", FSFAT_FOPEN_TEST_13), Case("FSFAT_FOPEN_TEST_14: stat() test.", FSFAT_FOPEN_TEST_14), Case("FSFAT_FOPEN_TEST_15: format() test.", FSFAT_FOPEN_TEST_15), Case("FSFAT_FOPEN_TEST_16: write/check n x 25kB data files.", FSFAT_FOPEN_TEST_16), }; /* Declare your test specification with a custom setup handler */ Specification specification(greentea_setup, cases); int main() { return !Harness::run(specification); } /// @endcond