Starting from mbed-os 5.10 this repository is deprecated.
Note: SD Driver is now part of mbed-os. Use "components_add": ["SD"] for your target at mbed-os target.json
Please refer to mbed-os 5.10 documentation and code for more detail regarding how to enable SD support.
The purpose of this document is to describe how to use the mbed OS SDCard driver (sd-driver) so applications can read/write data to flash storage cards using the standard POSIX File API programming interface. The sd-driver uses the SDCard SPI-mode of operation which is a subset of possible SDCard functionality.
This repository contains the mbed-os SDCard driver for generic SPI SDCard support and other resources, as outlined below:
SDBlockDevice.h
andSDBlockDevice.cpp
. This is the SDCard driver module presenting a Block Device API (derived from BlockDevice) to the underlying SDCard.- POSIX File API test cases for testing the FAT32 filesystem on SDCard.
- basic.cpp, a basic set of functional test cases.
- fopen.cpp, more functional tests reading/writing greater volumes of data to SDCard, for example.
mbed_lib.json
mbed-os application configuration file with SPI pin configurations and overrides for specific targets. This file allows the SPI pins to be specified for the target without having to edit the implementation files.- This README which includes Summary of POSIX File API Documentation including detailed instruction on how to use the FAT filesystem and SDBlockDevice driver.
The SDCard driver is maintained in this repository as a component separate from the main mbed OS repository. Hence the 2 repositories (mbed-os and sd-driver) have to be used together to deliver the FAT32 Filesystem/SDCard support. This document explains how to do this.
The scope of this document is to describe how applications use the FAT filesystem and sd-driver components to persistently store data on SDCards. The document is intended to help developers adopt the mbed OS POSIX File API support, and in particular to help explain:
- How the software components work together to deliver the storage functionality.
- How to work with the sd-driver and mbed OS to build the examples. The example code can easily be copied into your new application code.
- How to work with the CI Test Shield, which adds an SDCard slot to those targets that do not have already have one.
- How to run the POSIX File API mbed Greentea test cases, which provide further example code of how to use the POSIX File API.
Section 1 provides an Executive Summary, describing the purpose of the sd-driver, the supporting software, examples, test cases and documentation.
Section 2 provides an an overview of the material covered including descriptions of the major sections.
Section 3 provides an overview of the mbed OS filesystem software components, including the inter-relationships between the application, POSIX file API, the standard c-library, the mbed OS filesystem and the SDCard driver (sd-driver).
Section 4 describes how to build and run an example application for reading and writing data to an SDCard using the POSIX File API. The example begins by describing the procedure for building and testing on the K64F target. The final sub-sections describe how to use the test shield to add an SDCard slot to any mbed target, and hence enable the persistent storage of data on any supported target.
Section 5 describes an example application which uses the raw BlockDevice API to read and write data to the SDCard.
Section 6 describes how to build and run the SDCard POSIX File API mbed Greentea test cases. There are a number of functional test cases demonstrating how to use the mbed OS POSIX File API.
Section 7 describes the POSIX File API and provides links to useful API documentation web pages.
The following versions of the mbed-os and sd-driver repositories are known to work together:
- {mbed-os, sd-driver} = {mbed-os-5.4.0-rc2, sd-driver-0.0.1-mbed-os-5.4.0-rc2}.
K64F
,NUCLEO_F429ZI
andUBLOX_EVK_ODIN_W2
fopen and basic filesystem tests working. - {mbed-os, sd-driver} = {mbed-os-5.4.0, sd-driver-0.0.2-mbed-os-5.4.0}.
K64F
,NUCLEO_F429ZI
andUBLOX_EVK_ODIN_W2
fopen and basic filesystem tests working. - {mbed-os, sd-driver} = {mbed-os-5.4.1, sd-driver-0.0.3-mbed-os-5.4.1}.
- {mbed-os, sd-driver} = {mbed-os-5.5.1, sd-driver-0.1.0-mbed-os-5.5.1}.
- {mbed-os, sd-driver} = {mbed-os-5.5.4, sd-driver-0.1.1-mbed-os-5.5.4}.
- {mbed-os, sd-driver} = {mbed-os-5.6.1, sd-driver-0.1.2-mbed-os-5.6.1}.
- {mbed-os, sd-driver} = {mbed-os-5.8.0, sd-driver-0.1.3-mbed-os-5.8.0}.
To find the latest compatible versions, use the following command to see the messages attached to the tags in the sd-driver repository:
ex_app7/$ cd sd-driver
ex_app7/sd-driver$ git tag -n
sd-driver-0.0.1-mbed-os-5.3.4 Version compatible with mbed-os-5.3.4, and private_mbedos_filesystems-0.0.1-mbed-os-5.3.4.
sd-driver-0.0.2-mbed-os-5.4.0 Updated README.md to include worked exmaples and restructuring of information.
sd-driver-0.0.3-mbed-os-5.4.1 Version compatible with mbed-os-5.4.1.
sd-driver-0.1.1-mbed-os-5.5.4 Version compatible with mbed-os-5.5.4
sd-driver-0.1.2-mbed-os-5.6.1 Version compatible with mbed-os-5.6.1
sd-driver-0.1.3-mbed-os-5.8.0 Version compatible with mbed-os-5.8.0
There are no known issues with this document.
------------------------
| |
| Application | // This application uses the POSIX File API
| | // to read/write data to persistent storage backends.
------------------------
------------------------ // POSIX File API (ISO).
------------------------
| |
| libc | // The standard c library implementation
| | // e.g. newlib.
------------------------
------------------------ // sys_xxx equivalent API.
------------------------
| |
| mbed_retarget.cpp | // Target specific mapping layer.
| |
------------------------
------------------------ // Filesystem Upper Edge API.
------------------------
| |
| File System | // File system wrappers and implementation.
| |
------------------------
------------------------ // FS Lower Edge API (Block Store Interface).
------------------------
| Block API |
| Device Driver | // The SDCard driver, for example.
| e.g. sd-driver |
------------------------
------------------------ // SPI.h interface.
------------------------
| |
| SPI | // SPI subsystem (C++ classes and C-HAL implementation).
| |
------------------------
Figure 1. mbedOS generic architecture of filesystem software stack.
The figure above shows the mbed OS software component stack used for data storage on SDCard:
- At the top level is the application component which uses the standard POSIX File API to read and write application data to persistent storage.
- The newlib standard library (libc) stdio.h interface (POSIX File API) implementation is used as it's optimised for resource limited embedded systems.
- mbed_retarget.cpp implements the libc back-end file OS handlers and maps them to the FileSystem.
- The File System code (hosted in mbed-os) is composed of 2 parts:
- The mbed OS file system wrapper classes (e.g. FileSystem, File, FileBase classes) which are used to present a consistent API to the retarget module for different (third-party) file system implementations.
- The FAT filesystem implementation code. The FATFS: Generic FAT File System Module (ChanFS) has been integrated within mbed-os.
- The Block API Device Driver. The SDCard driver is an example of a persistent storage driver. It's maintained as a separate component from the mbed OS repository (in this repository).
- The SPI module provides the mbed OS generic SPI API. This functionality is maintained in mbed OS.
Refer to SD driver Example
The standard way to test is with the mbed CI Test Shield plugged into the
target board. This pin mapping for this configuration is parameterised in
the mbed_lib.json
file.
The following is an example of the mbed_lib.json
file available in the repository:
{
"config": {
"SPI_CS": "NC",
"SPI_MOSI": "NC",
"SPI_MISO": "NC",
"SPI_CLK": "NC",
"DEVICE_SPI": 1,
"FSFAT_SDCARD_INSTALLED": 1
},
"target_overrides": {
"DISCO_F051R8": {
"SPI_MOSI": "SPI_MOSI",
"SPI_MISO": "SPI_MISO",
"SPI_CLK": "SPI_SCK",
"SPI_CS": "SPI_CS"
},
"KL46Z": {
"SPI_MOSI": "PTD6",
"SPI_MISO": "PTD7",
"SPI_CLK": "PTD5",
"SPI_CS": "PTD4"
},
"K64F": {
"SPI_MOSI": "PTE3",
"SPI_MISO": "PTE1",
"SPI_CLK": "PTE2",
"SPI_CS": "PTE4"
}
}
Note the following things about the mbed_lib.json
file:
-
The
mbed_lib.json
file is used to define target specific symbols for the SPI pins connecting the SDCard slot to the target MCU:- "SPI_CS". This is the Chip Select line.
- "SPI_MOSI". This is the Master Out Slave In data line.
- "SPI_MISO". This is the Master In Slave Out data line.
- "SPI_CLK". This is the serial Clock line.
-
The default configuration defined in the "config" section is not valid for any platform (will error at runtime). The "config" section defines a dictionary mapping functional names to target board pins:
- "SPI_CS" causes the MBED_CONF_APP_SPI_CS symbol to be defined in mbed_config.h, which is used in the filesystem test implementation.
- "SPI_MOSI" causes the MBED_CONF_APP_SPI_MOSI symbol to be defined in mbed_config.h.
- "SPI_MISO" causes the MBED_CONF_APP_SPI_MISO symbol to be defined in mbed_config.h.
- "SPI_CLK" causes the MBED_CONF_APP_SPI_CLK symbol to be defined in mbed_config.h.
-
The
"target_overrides"
section is used to override the "SPI_xxx" symbols for specific target boards, which may have an SDCard slot, for example. This is the case for the K64F, where the "SPI_xxx" are mapped to the pin names for the on-board SDCard."K64F": { "SPI_MOSI": "PTE3", "SPI_MISO": "PTE1", "SPI_CLK": "PTE2", "SPI_CS": "PTE4" }
-
Thus, in the absence of any target specific definitions in the
"target_overrides"
section, all boards will default to using the invalid configuration (will error at runtime). For those platforms with a"target_overrides"
section then this configuration will be used in preference. -
Hence in the case that you want to test a platform with an SDCard inserted into a fitted CI test shield (rather than the on-board SDCard slot) and there is a
"target_overrides"
section present in thembed_lib.json
file, you must provide the correct Arduino pins in the"target_overrides"
section before building. This will result in the default configuration being used (suitable for the CI Test Shield). The correct pins for the CI test shield are as follows: "": { "SPI_MOSI": "D11", "SPI_MISO": "D12", "SPI_CLK": "D13", "SPI_CS": "D10" } -
Note when inserting the v1.0.0 CI Test Shield into the Arduino header of the target platform, the shield pins D0 and D1 should be bent to be parallel to the shield PCB so they are not inserted into the Arduino header. This is because some boards use the same UART on DAPLINK and D0/D1, which means the serial debug channel breaks and hence the mbed greentea test suite will not work correctly. This is mainly on older ST boards and should not be a problem on
K64F
,NUCLEO_F429ZI
andUBLOX_EVK_ODIN_W2
. Note also that the v2.0.0 CI Test Shield doesn't suffer from this problem and the pins don't need to be bent. -
When inserting the SDCard into the card slot on the CI test shield, make sure the card is fully inserted. On insertion, there should be a small clicking sound when the card registers, and the back edge of the card should protrude no more than ~1mm over the edge of the CI test shield PCB. If the SDCard fails to register, try gently pushing the metal flexible strip in the shape of a spade at the top edge of the SDCard metal slot casing with a pair of tweezers, bending it a little to lower it into the slot casing. This helps with the insertion mechanism.
Figure 3. The figure shows how to connect the NUCLEO_F429ZI platform with the CI shield.
The above figure shows how to connect the NUCLEO_F429ZI with the v1.0.0 CI test shield. Note:
- To get the SD Card to work with this platform the CI test shield cannot be connected directly to this board, instead follow the instructions above.
- Any SD-card adapter will work as long as you connect all the relevant pins (MOSI, MISO, SCLK, CS, 3.3V and GND) as illustrated in figure 3.
- The SDCard is fully inserted into the slot and overhangs the PCB by ~1mm.
The following sample code illustrates how to use the sd-driver Block Device API:
#include "mbed.h"
#include "SDBlockDevice.h"
// Instantiate the SDBlockDevice by specifying the SPI pins connected to the SDCard
// socket. The PINS are:
// MOSI (Master Out Slave In)
// MISO (Master In Slave Out)
// SCLK (Serial Clock)
// CS (Chip Select)
SDBlockDevice sd(MBED_CONF_SD_SPI_MOSI, MBED_CONF_SD_SPI_MISO, MBED_CONF_SD_SPI_CLK, MBED_CONF_SD_SPI_CS);
uint8_t block[512] = "Hello World!\n";
int main()
{
// call the SDBlockDevice instance initialisation method.
if ( 0 != sd.init()) {
printf("Init failed \n");
return -1;
}
printf("sd size: %llu\n", sd.size());
printf("sd read size: %llu\n", sd.get_read_size());
printf("sd program size: %llu\n", sd.get_program_size());
printf("sd erase size: %llu\n", sd.get_erase_size());
// set the frequency
if ( 0 != sd.frequency(5000000)) {
printf("Error setting frequency \n");
}
if ( 0 != sd.erase(0, sd.get_erase_size())) {
printf("Error Erasing block \n");
}
// Write some the data block to the device
if ( 0 == sd.program(block, 0, 512)) {
// read the data block from the device
if ( 0 == sd.read(block, 0, 512)) {
// print the contents of the block
printf("%s", block);
}
}
// call the SDBlockDevice instance de-initialisation method.
sd.deinit();
}
This section describes how to build and run the POSIX file API test cases. The following steps are covered:
- Create the FAT/SDCard Application Project. This section describes how to git clone the mbed OS and sd-driver repositories containing the code and test cases of interest.
- Build the mbed OS Test Cases. This section describes how to build the mbed OS test cases.
- Insert a microSD Card Into the K64F for Greentea Testing.This section describes how to format (if required) a microSD card prior to running the tests.
- Run the POSIX File Test Case.This section describes how to run the POSIX file test cases.
This section describes how to create an application project combining the mbed-os and sd-driver repositories into a single project. In summary the following steps will be covered in this section:
- A top level application project directory is created. The directory name is ex_app1.
- In the ex_app1 directory, the mbed-os repository is cloned.
- In the ex_app1 directory at the same level as the mbed-os directory, the sd-driver repository is cloned.
- The
mbed_lib.json
file is copied from thesd-driver/config/mbed_lib.json
to the ex_app1 directory.
First create the top level application directory ex_app1 and move into it:
shell:/d/demo_area$ mkdir ex_app1
shell:/d/demo_area$ pushd ex_app1
Next, get a clone of public mbed OS repository in the following way:
shell:/d/demo_area/ex_app1$ git clone git@github.com:/armmbed/mbed-os
<trace removed>
shell:/d/demo_area/ex_app1$
Next, get a clone of the sd-driver repository:
shell:/d/demo_area/ex_app1$ git clone git@github.com:/armmbed/sd-driver
<trace removed>
shell:/d/demo_area/ex_app1$
Note: The mbed_lib.json
file specifies the SPI bus pin configuration for different targets,
and is discussed in the Testing with an SDCard on Target XYZ section.
Build the test cases for the K64F target using the following command:
shell:/d/demo_area/ex_app1$ mbed -v test --compile -t GCC_ARM -m K64F
<trace removed>
shell:/d/demo_area/ex_app1$
The build trace is quite extensive but on a successful build you should see the following output at the end of the log:
Build successes:
* K64F::GCC_ARM::MBED-BUILD
* K64F::GCC_ARM::MBED-OS-FEATURES-FEATURE_LWIP-TESTS-MBEDMICRO-NET-CONNECTIVITY
<trace removed>
* K64F::GCC_ARM::MBED-OS-FEATURES-TESTS-FILESYSTEM-FAT_FILE_SYSTEM
* K64F::GCC_ARM::MBED-OS-FEATURES-TESTS-FILESYSTEM-HEAP_BLOCK_DEVICE
* K64F::GCC_ARM::MBED-OS-FEATURES-TESTS-FILESYSTEM-UTIL_BLOCK_DEVICE
<trace removed>
* K64F::GCC_ARM::SD-DRIVER-TESTS-BLOCK_DEVICE-BASIC
* K64F::GCC_ARM::SD-DRIVER-TESTS-FILESYSTEM-BASIC
* K64F::GCC_ARM::SD-DRIVER-TESTS-FILESYSTEM-DIRS
* K64F::GCC_ARM::SD-DRIVER-TESTS-FILESYSTEM-FILES
* K64F::GCC_ARM::SD-DRIVER-TESTS-FILESYSTEM-FOPEN
* K64F::GCC_ARM::SD-DRIVER-TESTS-FILESYSTEM-PARALLEL
* K64F::GCC_ARM::SD-DRIVER-TESTS-FILESYSTEM-SEEK
Build skips:
* K64F::GCC_ARM::MBED-OS-FEATURES-FEATURE_LWIP-TESTS-MBEDMICRO-NET-TCP_PACKET_PRESSURE
<trace removed>
Notice the following tests in the sd-driver tree are listed above:
SD-DRIVER-TESTS-BLOCK_DEVICE-BASIC
SD-DRIVER-TESTS-FILESYSTEM-BASIC
SD-DRIVER-TESTS-FILESYSTEM-DIRS
SD-DRIVER-TESTS-FILESYSTEM-FILES
SD-DRIVER-TESTS-FILESYSTEM-FOPEN
SD-DRIVER-TESTS-FILESYSTEM-PARALLEL
SD-DRIVER-TESTS-FILESYSTEM-SEEK
The FAT32/SDCard test cases are at following locations in the source code tree:
/d/demo_area/ex_app1/sd-driver/TESTS/filesystem/basic/basic.cpp
/d/demo_area/ex_app1/sd-driver/TESTS/filesystem/fopen/fopen.cpp
/d/demo_area/ex_app1/sd-driver/TESTS/block_device/basic/basic.cpp
/d/demo_area/ex_app1/sd-driver/TESTS/filesystem/dirs/main.cpp
/d/demo_area/ex_app1/sd-driver/TESTS/filesystem/files/main.cpp
/d/demo_area/ex_app1/sd-driver/TESTS/filesystem/parallel/main.cpp
/d/demo_area/ex_app1/sd-driver/TESTS/filesystem/seek/main.cpp
The sd-driver master HEAD and the mbed-os master HEAD should be compatible with one another and therefore no specific tagged versions need to be checked out. However, in the case that you experience problems building, checkout out the compatible tagged version of each repository, as shown below:
shell:/d/demo_area/ex_app1$ pushd mbed-os
shell:/d/demo_area/ex_app1$ git checkout tags/mbed-os-5.4.0
shell:/d/demo_area/ex_app1$ popd
shell:/d/demo_area/ex_app1$ pushd sd-driver
shell:/d/demo_area/ex_app1$ git checkout tags/sd-driver-0.0.2-mbed-os-5.4.0
shell:/d/demo_area/ex_app1$ popd
In the above:
mbed-os-5.4.0
should be replaced with the latest mbed-os release tag.- For an mbed-os release tag
mbed-os-x.y.z
, use the equivalent sd-driver tagsd-driver-a.b.c-mbed-os-x.y.z
wherea.b.c
is the latest version code for thembed-os-x.y.z
tag.
See the previous section for Insert SDCard into K64F for details.
To setup for running the test cases, connect the K64F development board to your PC using a suitable USB cable.
All tests can be run using the following command:
shell:/d/demo_area/ex_app1$ mbedgt -VS
<trace removed>
However, it's possible to run a particular test case using the following form of the mbedgt command:
shell:/d/demo_area/ex_app1$ mbedgt -VS --test-by-names=<test-name>
The names of the tests can be listed using:
shell:/d/demo_area/ex_app1$ mbedgt -VS --list
For example, to run the basic test use:
shell:/d/demo_area/ex_app1$ mbedgt -VS --test-by-names=sd-driver-tests-filesystem-basic
To run the fopen test use:
shell:/d/demo_area/ex_app1$ mbedgt -VS --test-by-names=sd-driver-tests-filesystem-fopen
On a successful run, results similar to the following will be shown:
mbedgt: test suite report:
+--------------+---------------+-------------------------------------------+--------+--------------------+-------------+
| target | platform_name | test suite | result | elapsed_time (sec) | copy_method |
+--------------+---------------+-------------------------------------------+--------+--------------------+-------------+
| K64F-GCC_ARM | K64F | sd-driver-features-tests-filesystem-fopen | OK | 151.46 | shell |
+--------------+---------------+-------------------------------------------+--------+--------------------+-------------+
mbedgt: test suite results: 1 OK
mbedgt: test case report:
+--------------+---------------+------------------------------------+----------------------------------------------------------------------------------------+--------+--------+--------+--------------------+
| target | platform_name | test suite | test case | passed | failed | result | elapsed_time (sec) |
+--------------+---------------+------------------------------------+----------------------------------------------------------------------------------------+--------+--------+--------+--------------------+
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_01: fopen()/fwrite()/fclose() directories/file in multi-dir filepath. | 1 | 0 | OK | 7.57 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_02: fopen(r) pre-existing file try to write it. | 1 | 0 | OK | 0.2 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_03: fopen(w+) pre-existing file try to write it. | 1 | 0 | OK | 0.41 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_04: fopen() with a filename exceeding the maximum length. | 1 | 0 | OK | 0.11 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_06: fopen() with bad filenames (minimal). | 1 | 0 | OK | 0.1 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_07: fopen()/errno handling. | 1 | 0 | OK | 0.07 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_08: ferror()/clearerr()/errno handling. | 1 | 0 | OK | 0.1 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_09: ftell() handling. | 1 | 0 | OK | 0.17 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_10: remove() test. | 1 | 0 | OK | 1.28 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_11: rename(). | 1 | 0 | OK | 2.3 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_12: opendir(), readdir(), closedir() test. | 1 | 0 | OK | 3.57 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_13: mkdir() test. | 1 | 0 | OK | 1.21 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_14: stat() test. | 1 | 0 | OK | 1.47 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_15: format() test. | 1 | 0 | OK | 26.12 |
| K64F-GCC_ARM | K64F | sd-driver-tests-filesystem-fopen | FSFAT_FOPEN_TEST_16: write/check n x 25kB data files. | 1 | 0 | OK | 87.11 |
+--------------+---------------+------------------------------------+----------------------------------------------------------------------------------------+--------+--------+--------+--------------------+
mbedgt: test case results: 15 OK
mbedgt: completed in 152.35 sec
mbed OS supports a subset of the POSIX File API, as outlined below:
- clearerr().
- STATUS: Basic testing implemented. Working.
- fclose().
- STATUS: Basic testing implemented. Working.
- ferror().
- STATUS: Basic testing implemented.
- STATUS: GCC_ARM: Working.
- STATUS: ARMCC: ARMCC has problem with ferror(filep) where filep is NULL. Appears to work for non-NULL pointer.
- fgetc().
- STATUS: Basic testing implemented. Working.
- fgets().
- STATUS: Basic testing implemented. Working.
- fputc().
- STATUS: Unknown.
- fputs().
- STATUS: Basic testing implemented. Working.
- fprintf().
- STATUS: Basic testing implemented. Working.
- fopen().
- STATUS: Basic testing implemented. Working.
- freopen().
- STATUS: This is not tested.
- fread().
- STATUS: Basic testing implemented. Working.
- STATUS: n x 25kB stress test working.
- ftell().
- STATUS: Basic testing implemented. Working.
- fwrite().
- STATUS: Basic testing implemented. Working.
- STATUS: n x 25kB stress test working.
- fseek()
- STATUS: Basic testing implemented. Working.
- getc().
- STATUS: Basic testing implemented. Working.
- gets().
- STATUS: Unknown.
- putc().
- STATUS: Unknown.
- puts().
- STATUS: Unknown.
- remove()
- STATUS: Basic testing implemented. Working.
- rewind().
- STATUS: Basic testing implemented. Working.
- stat()
- STATUS: Implemented. Working.
- STATUS: Not supported by ARMCC/IAR libc.
- tmpfile().
- STATUS: Not implemented.
- tmpnam().
- STATUS: Not implemented.
Supported directory related operations are as follows:
- closedir().
- STATUS: Implemented. Working.
- mkdir().
- STATUS: Basic testing implemented. Working.
- opendir().
- STATUS: Implemented. Working.
- readdir().
- STATUS: Implemented. Working.
- remove().
- STATUS: Basic testing implemented. Working.
- rename().
- STATUS: Implemented. Not tested.
- rewinddir().
- STATUS: Implemented. Found not to work. Test case not present in repo.
- seekdir().
- STATUS: Implemented. Found not to work. Test case not present in repo.
- telldir().
- STATUS: Implemented. Found not to work. Test case not present in repo.
Basic errno reporting is supported, tested and known to be working.
The following are related mbed storage projects and useful resources:
- The mbed-os main repository.
- The mbed-os-example-fat-filesystem repository. This is an example project for the mbed OS FAT filesystem.
- The spiflash-driver repository.
- The i2ceeprom-driver repository.
- The ci-test-shield repository. This is the project describing the mbed-os Continuous Integration test shield, together with standard tests.
- The mbed-HDK repository containing Hardware Development Kit resources including the schematics for the CI test shield.
- POSIX File Interface ISO/IEC 9899:TC2 Documentation.
- FATFS: Generic FAT File System Module used in mbed OS