SD/SDIO/MMC Driver¶
Overview¶
The SD/SDIO/MMC driver currently supports SD memory, SDIO cards, and eMMC chips. This is a protocol level driver built on top of SDMMC and SD SPI host drivers.
SDMMC and SD SPI host drivers (driver/include/driver/sdmmc_host.h) provide API functions for:
Sending commands to slave devices
Sending and receiving data
Handling error conditions within the bus
For functions used to initialize and configure:
Combo (memory + IO) cards¶
The driver does not support SD combo cards. Combo cards are treated as IO cards.
Thread safety¶
Most applications need to use the protocol layer only in one task. For this reason, the protocol layer does not implement any kind of locking on the sdmmc_card_t
structure, or when accessing SDMMC or SD SPI host drivers. Such locking is usually implemented on a higher layer, e.g., in the filesystem driver.
SDMMC host, see SDMMC Host API
SD SPI host, see SD SPI Host API
The SDMMC protocol layer described in this document handles the specifics of the SD protocol, such as the card initialization and data transfer commands.
The protocol layer works with the host via the sdmmc_host_t
structure. This structure contains pointers to various functions of the host.
Application Example¶
An example which combines the SDMMC driver with the FATFS library is provided in the storage/sd_card directory of ESP-IDF examples. This example initializes the card, then writes and reads data from it using POSIX and C library APIs. See README.md file in the example directory for more information.
Protocol layer API¶
The protocol layer is given the sdmmc_host_t
structure. This structure describes the SD/MMC host driver, lists its capabilities, and provides pointers to functions of the driver. The protocol layer stores card-specific information in the sdmmc_card_t
structure. When sending commands to the SD/MMC host driver, the protocol layer uses the sdmmc_command_t
structure to describe the command, arguments, expected return values, and data to transfer if there is any.
Using API with SD memory cards¶
To initialize the host, call the host driver functions, e.g.,
sdmmc_host_init()
,sdmmc_host_init_slot()
.To initialize the card, call
sdmmc_card_init()
and pass to it the parametershost
- the host driver information, andcard
- a pointer to the structuresdmmc_card_t
which will be filled with information about the card when the function completes.To read and write sectors of the card, use
sdmmc_read_sectors()
andsdmmc_write_sectors()
respectively and pass to it the parametercard
- a pointer to the card information structure.If the card is not used anymore, call the host driver function - e.g.,
sdmmc_host_deinit()
- to disable the host peripheral and free the resources allocated by the driver.
Using API with eMMC chips¶
From the protocol layer’s perspective, eMMC memory chips behave exactly like SD memory cards. Even though eMMCs are chips and do not have a card form factor, the terminology for SD cards can still be applied to eMMC due to the similarity of the protocol (sdmmc_card_t, sdmmc_card_init). Note that eMMC chips cannot be used over SPI, which makes them incompatible with the SD SPI host driver.
To initialize eMMC memory and perform read/write operations, follow the steps listed for SD cards in the previous section.
Using API with SDIO cards¶
Initialization and the probing process is the same as with SD memory cards. The only difference is in data transfer commands in SDIO mode.
During the card initialization and probing, performed with sdmmc_card_init()
, the driver only configures the following registers of the IO card:
The IO portion of the card is reset by setting RES bit in the I/O Abort (0x06) register.
If 4-line mode is enabled in host and slot configuration, the driver attempts to set the Bus width field in the Bus Interface Control (0x07) register. If setting the filed is successful, which means that the slave supports 4-line mode, the host is also switched to 4-line mode.
If high-speed mode is enabled in the host configuration, the SHS bit is set in the High Speed (0x13) register.
In particular, the driver does not set any bits in (1) I/O Enable and Int Enable registers, (2) I/O block sizes, etc. Applications can set them by calling sdmmc_io_write_byte()
.
For card configuration and data transfer, choose the pair of functions relevant to your case from the table below.
Action |
Read Function |
Write Function |
---|---|---|
Read and write a single byte using IO_RW_DIRECT (CMD52) |
||
Read and write multiple bytes using IO_RW_EXTENDED (CMD53) in byte mode |
||
Read and write blocks of data using IO_RW_EXTENDED (CMD53) in block mode |
SDIO interrupts can be enabled by the application using the function sdmmc_io_enable_int()
. When using SDIO in 1-line mode, the D1 line also needs to be connected to use SDIO interrupts.
If you want the application to wait until the SDIO interrupt occurs, use sdmmc_io_wait_int()
.
There is a component ESSL (ESP Serial Slave Link) to use if you are communicating with an ESP32 SDIO slave. See ESP Serial Slave Link and example peripherals/sdio/host.
API Reference¶
Header File¶
Functions¶
-
esp_err_t
sdmmc_card_init
(const sdmmc_host_t *host, sdmmc_card_t *out_card)¶ Probe and initialize SD/MMC card using given host
- Note
Only SD cards (SDSC and SDHC/SDXC) are supported now. Support for MMC/eMMC cards will be added later.
- Return
ESP_OK on success
One of the error codes from SDMMC host controller
- Parameters
host
: pointer to structure defining host controllerout_card
: pointer to structure which will receive information about the card when the function completes
-
void
sdmmc_card_print_info
(FILE *stream, const sdmmc_card_t *card)¶ Print information about the card to a stream.
- Parameters
stream
: stream obtained using fopen or fdopencard
: card information structure initialized using sdmmc_card_init
-
esp_err_t
sdmmc_write_sectors
(sdmmc_card_t *card, const void *src, size_t start_sector, size_t sector_count)¶ Write given number of sectors to SD/MMC card
- Return
ESP_OK on success
One of the error codes from SDMMC host controller
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initsrc
: pointer to data buffer to read data from; data size must be equal to sector_count * card->csd.sector_sizestart_sector
: sector where to start writingsector_count
: number of sectors to write
-
esp_err_t
sdmmc_read_sectors
(sdmmc_card_t *card, void *dst, size_t start_sector, size_t sector_count)¶ Read given number of sectors from the SD/MMC card
- Return
ESP_OK on success
One of the error codes from SDMMC host controller
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initdst
: pointer to data buffer to write into; buffer size must be at least sector_count * card->csd.sector_sizestart_sector
: sector where to start readingsector_count
: number of sectors to read
-
esp_err_t
sdmmc_io_read_byte
(sdmmc_card_t *card, uint32_t function, uint32_t reg, uint8_t *out_byte)¶ Read one byte from an SDIO card using IO_RW_DIRECT (CMD52)
- Return
ESP_OK on success
One of the error codes from SDMMC host controller
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initfunction
: IO function numberreg
: byte address within IO function[out] out_byte
: output, receives the value read from the card
-
esp_err_t
sdmmc_io_write_byte
(sdmmc_card_t *card, uint32_t function, uint32_t reg, uint8_t in_byte, uint8_t *out_byte)¶ Write one byte to an SDIO card using IO_RW_DIRECT (CMD52)
- Return
ESP_OK on success
One of the error codes from SDMMC host controller
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initfunction
: IO function numberreg
: byte address within IO functionin_byte
: value to be written[out] out_byte
: if not NULL, receives new byte value read from the card (read-after-write).
-
esp_err_t
sdmmc_io_read_bytes
(sdmmc_card_t *card, uint32_t function, uint32_t addr, void *dst, size_t size)¶ Read multiple bytes from an SDIO card using IO_RW_EXTENDED (CMD53)
This function performs read operation using CMD53 in byte mode. For block mode, see sdmmc_io_read_blocks.
- Return
ESP_OK on success
ESP_ERR_INVALID_SIZE if size exceeds 512 bytes
One of the error codes from SDMMC host controller
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initfunction
: IO function numberaddr
: byte address within IO function where reading startsdst
: buffer which receives the data read from cardsize
: number of bytes to read
-
esp_err_t
sdmmc_io_write_bytes
(sdmmc_card_t *card, uint32_t function, uint32_t addr, const void *src, size_t size)¶ Write multiple bytes to an SDIO card using IO_RW_EXTENDED (CMD53)
This function performs write operation using CMD53 in byte mode. For block mode, see sdmmc_io_write_blocks.
- Return
ESP_OK on success
ESP_ERR_INVALID_SIZE if size exceeds 512 bytes
One of the error codes from SDMMC host controller
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initfunction
: IO function numberaddr
: byte address within IO function where writing startssrc
: data to be writtensize
: number of bytes to write
-
esp_err_t
sdmmc_io_read_blocks
(sdmmc_card_t *card, uint32_t function, uint32_t addr, void *dst, size_t size)¶ Read blocks of data from an SDIO card using IO_RW_EXTENDED (CMD53)
This function performs read operation using CMD53 in block mode. For byte mode, see sdmmc_io_read_bytes.
- Return
ESP_OK on success
ESP_ERR_INVALID_SIZE if size is not divisible by 512 bytes
One of the error codes from SDMMC host controller
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initfunction
: IO function numberaddr
: byte address within IO function where writing startsdst
: buffer which receives the data read from cardsize
: number of bytes to read, must be divisible by the card block size.
-
esp_err_t
sdmmc_io_write_blocks
(sdmmc_card_t *card, uint32_t function, uint32_t addr, const void *src, size_t size)¶ Write blocks of data to an SDIO card using IO_RW_EXTENDED (CMD53)
This function performs write operation using CMD53 in block mode. For byte mode, see sdmmc_io_write_bytes.
- Return
ESP_OK on success
ESP_ERR_INVALID_SIZE if size is not divisible by 512 bytes
One of the error codes from SDMMC host controller
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initfunction
: IO function numberaddr
: byte address within IO function where writing startssrc
: data to be writtensize
: number of bytes to read, must be divisible by the card block size.
-
esp_err_t
sdmmc_io_enable_int
(sdmmc_card_t *card)¶ Enable SDIO interrupt in the SDMMC host
- Return
ESP_OK on success
ESP_ERR_NOT_SUPPORTED if the host controller does not support IO interrupts
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_init
-
esp_err_t
sdmmc_io_wait_int
(sdmmc_card_t *card, TickType_t timeout_ticks)¶ Block until an SDIO interrupt is received
Slave uses D1 line to signal interrupt condition to the host. This function can be used to wait for the interrupt.
- Return
ESP_OK if the interrupt is received
ESP_ERR_NOT_SUPPORTED if the host controller does not support IO interrupts
ESP_ERR_TIMEOUT if the interrupt does not happen in timeout_ticks
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_inittimeout_ticks
: time to wait for the interrupt, in RTOS ticks
-
esp_err_t
sdmmc_io_get_cis_data
(sdmmc_card_t *card, uint8_t *out_buffer, size_t buffer_size, size_t *inout_cis_size)¶ Get the data of CIS region of a SDIO card.
You may provide a buffer not sufficient to store all the CIS data. In this case, this functions store as much data into your buffer as possible. Also, this function will try to get and return the size required for you.
- Return
ESP_OK: on success
ESP_ERR_INVALID_RESPONSE: if the card does not (correctly) support CIS.
ESP_ERR_INVALID_SIZE: CIS_CODE_END found, but buffer_size is less than required size, which is stored in the inout_cis_size then.
ESP_ERR_NOT_FOUND: if the CIS_CODE_END not found. Increase input value of inout_cis_size or set it to 0, if you still want to search for the end; output value of inout_cis_size is invalid in this case.
and other error code return from sdmmc_io_read_bytes
- Parameters
card
: pointer to card information structure previously initialized using sdmmc_card_initout_buffer
: Output buffer of the CIS databuffer_size
: Size of the buffer.inout_cis_size
: Mandatory, pointer to a size, input and output.input: Limitation of maximum searching range, should be 0 or larger than buffer_size. The function searches for CIS_CODE_END until this range. Set to 0 to search infinitely.
output: The size required to store all the CIS data, if CIS_CODE_END is found.
-
esp_err_t
sdmmc_io_print_cis_info
(uint8_t *buffer, size_t buffer_size, FILE *fp)¶ Parse and print the CIS information of a SDIO card.
- Note
Not all the CIS codes and all kinds of tuples are supported. If you see some unresolved code, you can add the parsing of these code in sdmmc_io.c and contribute to the IDF through the Github repository.
using sdmmc_card_init
- Return
ESP_OK: on success
ESP_ERR_NOT_SUPPORTED: if the value from the card is not supported to be parsed.
ESP_ERR_INVALID_SIZE: if the CIS size fields are not correct.
- Parameters
buffer
: Buffer to parsebuffer_size
: Size of the buffer.fp
: File pointer to print to, set to NULL to print to stdout.
Header File¶
Structures¶
-
struct
sdmmc_csd_t
¶ Decoded values from SD card Card Specific Data register
-
struct
sdmmc_cid_t
¶ Decoded values from SD card Card IDentification register
-
struct
sdmmc_scr_t
¶ Decoded values from SD Configuration Register
-
struct
sdmmc_ext_csd_t
¶ Decoded values of Extended Card Specific Data
Public Members
-
uint8_t
power_class
¶ Power class used by the card
-
uint8_t
-
struct
sdmmc_switch_func_rsp_t
¶ SD SWITCH_FUNC response buffer
Public Members
-
uint32_t
data
[512 / 8 / sizeof(uint32_t)]¶ response data
-
uint32_t
-
struct
sdmmc_command_t
¶ SD/MMC command information
Public Members
-
uint32_t
opcode
¶ SD or MMC command index
-
uint32_t
arg
¶ SD/MMC command argument
-
sdmmc_response_t
response
¶ response buffer
-
void *
data
¶ buffer to send or read into
-
size_t
datalen
¶ length of data buffer
-
size_t
blklen
¶ block length
-
int
flags
¶ see below
-
int
timeout_ms
¶ response timeout, in milliseconds
-
uint32_t
-
struct
sdmmc_host_t
¶ SD/MMC Host description
This structure defines properties of SD/MMC host and functions of SD/MMC host which can be used by upper layers.
Public Members
-
uint32_t
flags
¶ flags defining host properties
-
int
slot
¶ slot number, to be passed to host functions
-
int
max_freq_khz
¶ max frequency supported by the host
-
float
io_voltage
¶ I/O voltage used by the controller (voltage switching is not supported)
-
size_t (*
get_bus_width
)(int slot)¶ host function to get bus width
-
esp_err_t (*
do_transaction
)(int slot, sdmmc_command_t *cmdinfo)¶ host function to do a transaction
-
esp_err_t (*
io_int_wait
)(int slot, TickType_t timeout_ticks)¶ Host function to wait for SDIO interrupt line to be active
-
int
command_timeout_ms
¶ timeout, in milliseconds, of a single command. Set to 0 to use the default value.
-
uint32_t
-
struct
sdmmc_card_t
¶ SD/MMC card information structure
Public Members
-
sdmmc_host_t
host
¶ Host with which the card is associated
-
uint32_t
ocr
¶ OCR (Operation Conditions Register) value
-
sdmmc_cid_t
cid
¶ decoded CID (Card IDentification) register value
-
sdmmc_response_t
raw_cid
¶ raw CID of MMC card to be decoded after the CSD is fetched in the data transfer mode
-
sdmmc_csd_t
csd
¶ decoded CSD (Card-Specific Data) register value
-
sdmmc_scr_t
scr
¶ decoded SCR (SD card Configuration Register) value
-
sdmmc_ext_csd_t
ext_csd
¶ decoded EXT_CSD (Extended Card Specific Data) register value
-
uint16_t
rca
¶ RCA (Relative Card Address)
-
uint16_t
max_freq_khz
¶ Maximum frequency, in kHz, supported by the card
-
uint32_t
is_mem
: 1¶ Bit indicates if the card is a memory card
-
uint32_t
is_sdio
: 1¶ Bit indicates if the card is an IO card
-
uint32_t
is_mmc
: 1¶ Bit indicates if the card is MMC
-
uint32_t
num_io_functions
: 3¶ If is_sdio is 1, contains the number of IO functions on the card
-
uint32_t
log_bus_width
: 2¶ log2(bus width supported by card)
-
uint32_t
is_ddr
: 1¶ Card supports DDR mode
-
uint32_t
reserved
: 23¶ Reserved for future expansion
-
sdmmc_host_t
Macros¶
-
SDMMC_HOST_FLAG_1BIT
¶ host supports 1-line SD and MMC protocol
-
SDMMC_HOST_FLAG_4BIT
¶ host supports 4-line SD and MMC protocol
-
SDMMC_HOST_FLAG_8BIT
¶ host supports 8-line MMC protocol
-
SDMMC_HOST_FLAG_SPI
¶ host supports SPI protocol
-
SDMMC_HOST_FLAG_DDR
¶ host supports DDR mode for SD/MMC
-
SDMMC_HOST_FLAG_DEINIT_ARG
¶ host
deinit
function called with the slot argument
-
SDMMC_FREQ_DEFAULT
¶ SD/MMC Default speed (limited by clock divider)
-
SDMMC_FREQ_HIGHSPEED
¶ SD High speed (limited by clock divider)
-
SDMMC_FREQ_PROBING
¶ SD/MMC probing speed
-
SDMMC_FREQ_52M
¶ MMC 52MHz speed
-
SDMMC_FREQ_26M
¶ MMC 26MHz speed