OVMS3-idf/docs/en/api-reference/peripherals/esp_slave_protocol.rst
2020-02-07 16:37:45 +11:00

180 lines
6.6 KiB
ReStructuredText

Communication with ESP SDIO Slave
====================================
.. _esp_slave_init:
ESP SDIO slave initialization
------------------------------
The host should initialize the {IDF_TARGET_NAME} SDIO slave according to the standard
SDIO initialization process (Sector 3.1.2 of `SDIO Simplified
Specification <https://www.sdcard.org/downloads/pls/>`_). In this specification
and below, the SDIO slave is also called an (SD)IO card. All the
initialization CMD52 and CMD53 are sent to Func 0 (CIA region). Here is an
brief example on how to do this:
1. SDIO reset
CMD52 (Write 0x6=0x8)
2. SD reset
CMD0
3. Check whether IO card (optional)
CMD8
4. Send SDIO op cond and wait for card ready
CMD5 arg = 0x00000000
CMD5 arg = 0x00ff8000 (according to the response above, poll until ready)
**Example:**
Arg of R4 after first CMD5 (arg=0x00000000) is 0xXXFFFF00.
Keep sending CMD5 with arg=0x00FFFF00 until the R4 shows card ready (arg bit 31=1).
5. Set address
CMD3
6. Select card
CMD7 (arg address according to CMD3 response)
**Example:**
Arg of R6 after CMD3 is 0x0001xxxx.
Arg of CMD7 should be 0x00010000.
7. Select 4-bit mode (optional)
CMD52 (Write 0x07=0x02)
8. Enable func1
CMD52 (Write 0x02=0x02)
9. Enable SDIO interrupt (required if interrupt line (DAT1) is used)
CMD52 (Write 0x04=0x03)
10. Set Func0 blocksize (optional, default value is 512 (0x200))
CMD52/53 (Read 0x10~0x11)
CMD52/53 (Write 0x10=0x00)
CMD52/53 (Write 0x11=0x02)
CMD52/53 (Read 0x10~0x11, read to check the final value)
11. Set Func1 blocksize (optional, default value is 512 (0x200))
CMD52/53 (Read 0x110~0x111)
CMD52/53 (Write 0x110=0x00)
CMD52/53 (Write 0x111=0x02)
CMD52/53 (Read 0x110~0x111, read to check the final value)
.. _esp_slave_protocol_layer:
ESP SDIO slave protocol
-----------------------
The protocol is based on Function 1 access by CMD52 and CMD53, offering 3 services: (1) sending and receiving FIFO, (2) 52 8-bit R/W
register shared by host and slave, (3) 8 general purpose interrupt sources from host to slave and 8 in the opposite direction.
There is a component `esp_serial_slave_link` implementing the logic of this protocol for
ESP32 master to communicate with the ESP32 slave. See :doc:`/api-reference/protocols/esp_serial_slave_link`.
The host should access the registers below as described to communicate with slave.
Slave register table
^^^^^^^^^^^^^^^^^^^^
32-bit
#######
- 0x044 (TOKEN_RDATA): in which bit 27-16 holds the receiving buffer number.
- 0x058 (INT_ST): holds the interrupt source bits from slave to host.
- 0x060 (PKT_LEN): holds the accumulated length (by byte) to be sent from slave to host.
- 0x0D4 (INT_CLR): write 1 to clear interrupt bits corresponding to INT_ST.
- 0x0DC (INT_ENA): mask bits for interrupts from slave to host.
8-bit
#####
Shared general purpose registers:
- 0x06C-0x077: R/W registers 0-11 shared by slave and host.
- 0x07A-0x07B: R/W registers 14-15 shared by slave and host.
- 0x07E-0x07F: R/W registers 18-19 shared by slave and host.
- 0x088-0x08B: R/W registers 24-27 shared by slave and host.
- 0x09C-0x0BB: R/W registers 32-63 shared by slave and host.
Interrupt Registers:
- 0x08D (SLAVE_INT): bits for host to interrupt slave. auto clear.
FIFO (sending and receiving)
############################
0x090 - 0x1F7FF are reserved for FIFOs.
The address of CMD53 is related to the length requested to read from/write to
the slave in a single transfer:
*requested length = 0x1F800-address*
The slave will respond with the length according to the length field in
CMD53, with the data longer than *requested length* filled with 0 (sending)
or discard (receiving).
.. note:: This includes both the block and the byte mode of CMD53.
The function number should be set to 1, OP Code should be set to 1 (for CMD53).
It is allowed to use CMD53 mode combination of block+byte to get higher
effeciency when accessing the FIFO by arbitrary length. E.g. The block
size is set to 512 by default, you can write/get 1031 bytes of data
to/from the FIFO by:
1. Send CMD53 in block mode, block count=2 (1024 bytes) to address
0x1F3F9=0x1F800-**1031**.
2. Then send CMD53 in byte mode, byte count=8 (or 7 if your controller
supports that) to address 0x1F7F9=0x1F800-**7**.
Interrupts
^^^^^^^^^^
For the host interrupts, the slave raise the interrupt by pulling DAT1 line down at a proper time (level sensitive).
The host detect this and read the INT_ST register to see the source. Then the host can clear it by writing the INT_CLR
register and do something with the interrupt. The host can also mask unneeded sources by clearing the bits in INT_ENA
register corresponding to the sources. If all the sources are cleared (or masked), the DAT1 line goes inactive.
``sdio_slave_hostint_t`` (:doc:`sdio_slave`) shows the bit definition corresponding to host interrupt sources.
For the slave interrupts, the host send transfers to write the SLAVE_INT register. Once a bit is written from 0 to 1,
the slave hardware and driver will detect it and inform the app.
Receiving FIFO
^^^^^^^^^^^^^^
To write the receiving FIFO in the slave, host should work in the following steps:
1. Read the TOKEN1 field (bits 27-16) of TOKEN_RDATA (0x044) register. The buffer number remaining is TOKEN1 minus
the number of buffers used by host.
2. Make sure the buffer number is sufficient (*recv_buffer_size* * *buffer_num* is greater than data to write, *recv_buffer_size*
is pre-defined between the host and the slave before the communication starts). Or go back to step 1 until the buffer
is enough.
3. Write to the FIFO address with CMD53. Note that the *requested length* should not be larger than calculated in step 2,
and the FIFO address is related to *rquested length*.
4. Calculate used buffers, note that non-full buffer at the tail should be seen as one that is used.
Sending FIFO
^^^^^^^^^^^^
To read the sending FIFO in the slave, host should work in the following steps:
1. Wait for the interrupt line to be active (optional, low by default).
2. Read (poll) the interrupt bits in INT_ST register to see whether new packets exists.
3. If new packets are ready, reads the PKT_LEN reg. The data length to read from slave is PKT_LEN minuses the length
that has been read from the host. If the PKT_LEN is not larger than used, wait and poll until the slave is ready and
update the PKT_LEN.
4. Read from the FIFO with CMD53. Note that the *requested length* should not be larger than calculated in step3, and
the FIFO address is related to *requested length*.
5. Recored read length.