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530 lines
22 KiB
C
530 lines
22 KiB
C
// Copyright 2015-2019 Espressif Systems (Shanghai) PTE LTD
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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/*******************************************************************************
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* NOTICE
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* The hal is not public api, don't use in application code.
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* See readme.md in soc/include/hal/readme.md
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******************************************************************************/
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// The HAL layer for SDIO slave (common part)
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// SDIO slave HAL usages:
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/*
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Architecture:
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The whole SDIO slave peripheral consists of three parts: the registers (including the interrupt
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control and shared registers), a send FIFO, and a receive FIFO. The document
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``esp_slave_protocol.rst`` describes the functionality of the peripheral in detail. An SDIO host
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will only ever access one of the three parts at any one time, thus the hardware functionality of
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the SDIO slave peripheral are completely independent. Likewise, this HAL is organized in such a
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fashion as to correspond to the three independent parts.
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The shared registers are quite simple: the slave can directly access them from the internal data
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bus, while the host can access them by CMD52/53 with the correct address. As for the interrupts:
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when an SDIO host interrupts the SDIO slave peripheral (by writing a command), the corresponding
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bit in the interrupt register will be set; when the SDIO slave peripheral needs to interrupt the
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host, it write some register to cause the host interrupt bit being set, and the slave hardware
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will output the interrupt signal on the DAT1 line.
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For the FIFOs, the peripheral provides counters as registers so that the host can always know whether the slave
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is ready to send/receive data. The HAL resets the counters during initialization, and the host should somehow
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inform the slave to reset the counters again if it should reboot (or lose the counter value for some reasons).
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Then the host can read/write the FIFOs by CMD53 commands according to the counters.
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In order to avoid copying data to/from the FIFOs or memory buffers each time, the HAL layer
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contains a descriptor queue (implemented as linked-list) that allows descriptors of memory
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buffers to be queued for transmission/reception. Once a buffer is queued, the HAL takes ownership
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of the buffer until some "finish" functions successfully return, indicating the
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transmission/reception of that buffer is complete. The ISR is invoked multiple times to iterate
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through the queued descriptors, and also to signal to the upper layer if a buffer has been
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freed.
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The HAL is used as below:
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- Receiving part:
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1. Call `sdio_slave_hal_recv_start` to start the receiving DMA.
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If there are already buffers loaded, the receiving will start from those buffers first.
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2. Call `sdio_slave_hal_recv_init_desc` with a `sdio_slave_hal_recv_desc_t` and the buffer address to
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associate the descriptor with the buffer.
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The HAL initialize this descriptors with the determined length and maybe some extra data.
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3. Call `sdio_slave_hal_load_buf` with the initialized descriptor of the buffer to load a
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receiving buffer to the HAL.
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When the DMA is started, the descriptors is loaded onto the DMA linked-list, and the
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counter of receiving buffers is increased so that the host will know this by the
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receiving interrupt. The hardware will automatically go through the linked list and write
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data into the buffers loaded on the list.
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4. (Optional, mandatory only when interrupt enabled) Call `sdio_slave_hal_recv_done` to check
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and clear the receiving interrupt bits.
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5. Call `sdio_slave_hal_recv_has_next_item` to check whether there are finished buffers.
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6. Call `sdio_slave_hal_recv_unload_desc` for the same times as
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`sdio_slave_hal_recv_has_next_item` successfully returns.
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7. (Optional) Call `sdio_slave_hal_recv_reset_counter` to reset the counter to current loaded
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but not used buffers if you want to reset the counter only. This is available only when
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the DMA is stopped.
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8. (Optional) Call `sdio_slave_hal_recv_flush_one_buffer` (recursively) if you want to
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discard data of one (or more) buffers and load them again. This is available only when
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the DMA is stopped.
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9. (Optional when deinitialization) Call `sdio_slave_hal_recv_unload_desc` recursively to get
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all the buffers loaded to the HAL, no matter they are used or not. Don't do this when the
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DMA is not stopped.
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- Sending part:
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The sending driver is slightly different, since we are not using the re-start feature.
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(TODO: re-write this part if the stitch mode is released)
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1. Call `sdio_slave_hal_send_start` to start the sending DMA.
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If there is already any data queued, it will ne ready to be sent to host now.
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2. Call `sdio_slave_hal_send_queue` to queue the data to send.
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If the interrupt is enabled, the ISR will be invoked.
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3. (Required if interrupt enabled) Call `` to clear the interrupt bits used by the SW
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invoking logic.
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4. Call `sdio_slave_hal_send_new_packet_if_exist` to check and send new packet (if there is
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data queued).
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5. Call `sdio_slave_hal_send_eof_happened` to check whether the previous packet is done.
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It will also clear the interrupt status bit for this event.
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6. Call `sdio_slave_hal_send_get_next_finished_arg` recursively to get the arguments for the
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finished buffers.
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7. (Optional when deinitialization) Call `sdio_slave_hal_send_flush_next_buffer` recursively
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to get all buffers queued, regardless sent or not. Don't do this when the DMA is not stopped.
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8. (Optional) Call `sdio_slave_hal_send_reset_counter` to reset the counter to current loaded
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but not sent buffers if you want to reset the counter only. Don't do this when the DMA is not
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stopped.
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Note a counter should be used when performing step 2 and 6, to make sure that the queue size
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is enough.
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- Host part:
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1. Call `sdio_slave_hal_hostint_set_ena` and `sdio_slave_hal_hostint_get_ena` to
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enable/disable the interrupt sent to master. Note that the host can also modify the same
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registers at the same time. Try to avoid using them outside the initialization process.
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2. Call `sdio_slave_hal_hostint_send` and `sdio_slave_hal_hostint_clear` to trigger general
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purpose interrupts or cancel all kinds of interrupts send to the host. These interrupts are
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set/cleared in a concurrent-safe way, so the slave can call these functions safely.
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3. Call `sdio_slave_hal_slvint_fetch_clear` to fetch the general purpose interrupts sent by
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the host to the slave. These interrupts will also be cleared after the calls.
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4. Call `sdio_slave_hal_host_get_reg` and `sdio_slave_hal_host_set_reg` to read/write the
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general purpose shared between the host and slave. Note that these registers are also not
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concurrent-safe. Try not to write to the same register from two directions at the same time.
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*/
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#pragma once
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#include <esp_err.h>
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#include "soc/lldesc.h"
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#include "hal/sdio_slave_types.h"
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#include "hal/sdio_slave_ll.h"
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/// Space used for each sending descriptor. Should initialize the sendbuf accoring to this size.
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#define SDIO_SLAVE_SEND_DESC_SIZE sizeof(sdio_slave_hal_send_desc_t)
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/// Status of the sending part
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typedef enum {
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STATE_IDLE = 1,
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STATE_WAIT_FOR_START = 2,
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STATE_SENDING = 3,
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STATE_GETTING_RESULT = 4,
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STATE_GETTING_UNSENT_DESC = 5,
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} send_state_t;
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typedef struct {
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uint8_t* data; ///< Address of the buffer
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size_t size; ///< Size of the buffer, but can only queue (size/SDIO_SLAVE_SEND_DESC_SIZE)-1 descriptors
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uint8_t* write_ptr;
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uint8_t* read_ptr;
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uint8_t* free_ptr;
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} sdio_ringbuf_t;
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// Append two extra words to be used by the HAL.
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// Should Initialize the member `data` of `send_desc_queue` of the HAL context
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// with size of this desc * N.
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/// DMA descriptor with extra fields
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typedef struct sdio_slave_hal_send_desc_s {
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lldesc_t dma_desc; ///< Used by Hardware, has pointer linking to next desc
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uint32_t pkt_len; ///< Accumulated length till this descriptor
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void* arg; ///< Holding arguments indicating this buffer */
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} sdio_slave_hal_send_desc_t;
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/// Descriptor used by the receiving part, call `sdio_slave_hal_recv_init_desc`
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/// to initialize it before use.
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typedef lldesc_t sdio_slave_hal_recv_desc_t;
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#define sdio_slave_hal_recv_desc_s lldesc_s
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typedef STAILQ_HEAD(recv_stailq_head_s, sdio_slave_hal_recv_desc_s) sdio_slave_hal_recv_stailq_t;
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/** HAL context structure. Call `sdio_slave_hal_init` to initialize it and
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* configure required members before actually use the HAL.
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*/
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typedef struct {
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/// Hardware registers for this SDIO slave peripheral, configured by
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/// `sdio_slave_hal_init`
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struct {
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slc_dev_t* slc;
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host_dev_t* host;
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hinf_dev_t* hinf;
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};
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sdio_slave_sending_mode_t sending_mode; /**< Sending mode, should be manually configured before using the HAL.
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* see `sdio_slave_sending_mode_t`.
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*/
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sdio_slave_timing_t timing; /**< Timing mode (launch edge and latch edge settings). Should be manually
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* configured before using the HAL. `SDIO_SLAVE_TIMING_PSEND_PSAMPLE` is
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* recommended by default.
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*/
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int send_queue_size; /**< Max buffers that can be queued before sending. Should be manually
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* configured before using the HAL.
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*/
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size_t recv_buffer_size; /**< The size of each buffer. The host and slave should share a
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* pre-negotiated value. Should be manually configured before using
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* the HAL.
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*/
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sdio_ringbuf_t send_desc_queue; /**< The ring buffer used to hold queued descriptors. Should be manually
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* initialized before using the HAL.
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*/
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//Internal status, no need to touch.
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send_state_t send_state; // Current state of sending part.
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uint32_t tail_pkt_len; // The accumulated send length of the tail packet.
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sdio_slave_hal_send_desc_t* in_flight_head; // The head of linked list in-flight.
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sdio_slave_hal_send_desc_t* in_flight_end; // The end of linked list in-flight.
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sdio_slave_hal_send_desc_t* in_flight_next; // The header of linked list to be sent next time.
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sdio_slave_hal_send_desc_t* returned_desc; // The last returned descriptor
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sdio_slave_hal_recv_stailq_t recv_link_list; // Linked list of buffers ready to hold data and the buffers already hold data.
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volatile sdio_slave_hal_recv_desc_t* recv_cur_ret; // Next desc to return, NULL if all loaded descriptors are returned.
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} sdio_slave_context_t ;
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/**
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* Initialize the HAL, should provide buffers to the context and configure the
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* members before this funciton is called.
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*
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* @param hal Context of the HAL layer.
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*/
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void sdio_slave_hal_init(sdio_slave_context_t *hal);
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/**
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* Initialize the SDIO slave peripheral hardware.
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*
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* @param hal Context of the HAL layer.
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*/
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void sdio_slave_hal_hw_init(sdio_slave_context_t *hal);
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/**
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* Set the IO ready for host to read.
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*
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* @param hal Context of the HAL layer.
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* @param ready true to tell the host the slave is ready, otherwise false.
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*/
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void sdio_slave_hal_set_ioready(sdio_slave_context_t *hal, bool ready);
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/*---------------------------------------------------------------------------
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* Send
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*--------------------------------------------------------------------------*/
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/**
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* The hardware sending DMA starts. If there is existing data, send them.
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*
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* @param hal Context of the HAL layer.
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*/
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esp_err_t sdio_slave_hal_send_start(sdio_slave_context_t *hal);
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/**
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* Stops hardware sending DMA.
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*
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* @note The data in the queue, as well as the counter are not touched.
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* @param hal Context of the HAL layer.
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*/
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void sdio_slave_hal_send_stop(sdio_slave_context_t *hal);
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/**
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* Put some data into the sending queue.
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*
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* @note The caller should keeps the buffer, until the `arg` is returned by
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* `sdio_slave_hal_send_get_next_finished_arg`.
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* @note The caller should count to ensure there is enough space in the queue.
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* The initial queue size is sizeof(sendbuf.data)/sizeof(sdio_slave_hal_send_desc_t)-1,
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* Will decrease by one when this function successfully returns.
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* Released only by `sdio_slave_hal_send_get_next_finished_arg` or
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* `sdio_slave_hal_send_flush_next_buffer`.
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*
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* @note The HAL is not thread-safe. The caller should use a spinlock to ensure
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* the `sdio_slave_hal_send_queue` and ... are not called at the same time.
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*
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* @param hal Context of the HAL layer.
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* @param addr Address of data in the memory to send.
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* @param len Length of data to send.
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* @param arg Argument indicating this sending.
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* @return Always ESP_OK.
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*/
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esp_err_t sdio_slave_hal_send_queue(sdio_slave_context_t *hal, uint8_t *addr, size_t len, void *arg);
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/**
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* The ISR should call this, to handle the SW invoking event.
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* @param hal Context of the HAL layer.
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*/
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void sdio_slave_hal_send_handle_isr_invoke(sdio_slave_context_t *hal);
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/**
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* Check whether there is no in-flight transactions, and send new packet if there
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* is new packets queued.
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*
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* @param hal Context of the HAL layer.
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* @return
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* - ESP_OK: The DMA starts to send a new packet.
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* - ESP_ERR_NOT_FOUND: No packet waiting to be sent.
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* - ESP_ERR_INVALID_STATE: There is packet in-flight.
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*/
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esp_err_t sdio_slave_hal_send_new_packet_if_exist(sdio_slave_context_t *hal);
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/**
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* Check whether the sending EOF has happened and clear the interrupt.
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*
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* Call `sdio_slave_hal_send_get_next_finished_arg` recursively to retrieve arguments of finished
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* buffers.
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*
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* @param hal Context of the HAL layer.
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* @return true if happened, otherwise false.
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*/
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bool sdio_slave_hal_send_eof_happened(sdio_slave_context_t *hal);
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/**
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* Get the arguments of finished packets. Call recursively until all finished
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* arguments are all retrieved.
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*
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* @param hal Context of the HAL layer.
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* @param out_arg Output argument of the finished buffer.
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* @param out_returned_cnt Released queue size to be queued again.
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* @return
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* - ESP_OK: if one argument retrieved.
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* - ESP_ERR_NOT_FOUND: All the arguments of the finished buffers are retrieved.
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*/
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esp_err_t sdio_slave_hal_send_get_next_finished_arg(sdio_slave_context_t *hal, void **out_arg, uint32_t* out_returned_cnt);
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/**
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* Flush one buffer in the queue, no matter sent, canceled or not sent yet.
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*
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* Call recursively to clear the whole queue before deinitialization.
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*
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* @note Only call when the DMA is stopped!
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* @param hal Context of the HAL layer.
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* @param out_arg Argument indiciating the buffer to send
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* @param out_return_cnt Space in the queue released after this descriptor is flushed.
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* @return
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* - ESP_ERR_INVALID_STATE: This function call be called only when the DMA is stopped.
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* - ESP_ERR_NOT_FOUND: if no buffer in the queue
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* - ESP_OK: if a buffer is successfully flushed and returned.
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*/
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esp_err_t sdio_slave_hal_send_flush_next_buffer(sdio_slave_context_t *hal, void **out_arg, uint32_t *out_return_cnt);
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/**
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* Walk through all the unsent buffers and reset the counter to the accumulated length of them. The data will be kept.
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*
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* @note Only call when the DMA is stopped!
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* @param hal Context of the HAL layer.
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* @return
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* - ESP_ERR_INVALID_STATE: this function call be called only when the DMA is stopped
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* - ESP_OK: if success
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*/
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esp_err_t sdio_slave_hal_send_reset_counter(sdio_slave_context_t *hal);
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/*---------------------------------------------------------------------------
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* Receive
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*--------------------------------------------------------------------------*/
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/**
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* Start the receiving DMA.
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*
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* @note If there are already some buffers loaded, will receive from them first.
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* @param hal Context of the HAL layer.
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*/
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void sdio_slave_hal_recv_start(sdio_slave_context_t *hal);
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/**
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* Stop the receiving DMA.
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*
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* @note Data and the counter will not be touched. You can still call
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* `sdio_slave_hal_recv_has_next_item` to get the received buffer.
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* And unused buffers loaded to the HAL will still be in the `loaded`
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* state in the HAL, until returned by `sdio_slave_hal_recv_unload_desc`.
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* @param hal Context of the HAL layer.
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*/
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void sdio_slave_hal_recv_stop(sdio_slave_context_t* hal);
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/**
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* Associate the buffer to the descriptor given. The descriptor may also be initialized with some
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* other data.
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*
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* @param hal Context of the HAL layer.
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* @param desc Descriptor to associate with the buffer
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* @param start Start address of the buffer
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*/
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void sdio_slave_hal_recv_init_desc(sdio_slave_context_t *hal, sdio_slave_hal_recv_desc_t *desc, uint8_t *start);
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/**
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* Load the buffer to the HAL to be used to receive data.
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*
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* @note Loaded buffers will be returned to the upper layer only when:
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* 1. Returned by `sdio_slave_hal_recv_has_next_item` when receiving to that buffer successfully
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* done.
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* 2. Returned by `sdio_slave_hal_recv_unload_desc` unconditionally.
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* @param hal Context of the HAL layer.
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* @param desc Descriptor to load to the HAL to receive.
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*/
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void sdio_slave_hal_load_buf(sdio_slave_context_t *hal, sdio_slave_hal_recv_desc_t *desc);
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/**
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* Check and clear the interrupt indicating a buffer has finished receiving.
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*
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* @param hal Context of the HAL layer.
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* @return true if interrupt triggered, otherwise false.
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*/
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bool sdio_slave_hal_recv_done(sdio_slave_context_t* hal);
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/**
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* Call this function recursively to check whether there is any buffer that has
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* finished receiving.
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*
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* Will walk through the linked list to find a newer finished buffer. For each successful return,
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* it means there is one finished buffer. You can one by `sdio_slave_hal_recv_unload_desc`. You can
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* also call `sdio_slave_hal_recv_has_next_item` several times continuously before you call the
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* `sdio_slave_hal_recv_unload_desc` for the same times.
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*
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* @param hal Context of the HAL layer.
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* @return true if there is
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*/
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bool sdio_slave_hal_recv_has_next_item(sdio_slave_context_t* hal);
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/**
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* Unconditionally remove and return the first descriptor loaded to the HAL.
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*
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* Unless during de-initialization, `sdio_slave_hal_recv_has_next_item` should have succeed for the
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* same times as this function is called, to ensure the returned descriptor has finished its
|
|
* receiving job.
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|
*
|
|
* @param hal Context of the HAL layer.
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|
* @return The removed descriptor, NULL means the linked-list is empty.
|
|
*/
|
|
sdio_slave_hal_recv_desc_t *sdio_slave_hal_recv_unload_desc(sdio_slave_context_t *hal);
|
|
|
|
/**
|
|
* Walk through all the unused buffers and reset the counter to the number of
|
|
* them.
|
|
*
|
|
* @note Only call when the DMA is stopped!
|
|
* @param hal Context of the HAL layer.
|
|
*/
|
|
void sdio_slave_hal_recv_reset_counter(sdio_slave_context_t *hal);
|
|
|
|
/**
|
|
* Walk through all the used buffers, clear the finished flag and appended them
|
|
* back to the end of the unused list, waiting to receive then.
|
|
*
|
|
* @note You will lose all the received data in the buffer.
|
|
* @note Only call when the DMA is stopped!
|
|
* @param hal Context of the HAL layer.
|
|
*/
|
|
void sdio_slave_hal_recv_flush_one_buffer(sdio_slave_context_t *hal);
|
|
|
|
|
|
/*---------------------------------------------------------------------------
|
|
* Host
|
|
*--------------------------------------------------------------------------*/
|
|
|
|
/**
|
|
* Enable some of the interrupts for the host.
|
|
*
|
|
* @note May have concurrency issue wit the host or other tasks, suggest only use it during
|
|
* initialization.
|
|
* @param hal Context of the HAL layer.
|
|
* @param mask Bitwise mask for the interrupts to enable.
|
|
*/
|
|
void sdio_slave_hal_hostint_set_ena(sdio_slave_context_t *hal, const sdio_slave_hostint_t *mask);
|
|
|
|
/**
|
|
* Get the enabled interrupts.
|
|
*
|
|
* @param hal Context of the HAL layer.
|
|
* @param out_int_mask Output of the enabled interrupts
|
|
*/
|
|
void sdio_slave_hal_hostint_get_ena(sdio_slave_context_t *hal, sdio_slave_hostint_t *out_int_mask);
|
|
|
|
/**
|
|
* Send general purpose interrupt (slave send to host).
|
|
* @param hal Context of the HAL layer.
|
|
* @param mask Interrupts to send, only `SDIO_SLAVE_HOSTINT_BIT*` are allowed.
|
|
*/
|
|
void sdio_slave_hal_hostint_send(sdio_slave_context_t *hal, const sdio_slave_hostint_t *mask);
|
|
|
|
/**
|
|
* Cleared the specified interrupts for the host.
|
|
*
|
|
* @param hal Context of the HAL layer.
|
|
* @param mask Interrupts to clear.
|
|
*/
|
|
void sdio_slave_hal_hostint_clear(sdio_slave_context_t *hal, const sdio_slave_hostint_t *mask);
|
|
|
|
|
|
/**
|
|
* Fetch the interrupt (host send to slave) status bits and clear all of them.
|
|
* @param hal Context of the HAL layer.
|
|
* @param out_int_mask Output interrupt status
|
|
*/
|
|
void sdio_slave_hal_slvint_fetch_clear(sdio_slave_context_t *hal, sdio_slave_ll_slvint_t *out_int_mask);
|
|
|
|
/**
|
|
* Get the value of a shared general purpose register.
|
|
*
|
|
* @param hal Context of the HAL layer.
|
|
* @param pos Position of the register, 4 bytes share a word. 0-63 except 24-27.
|
|
* @return The register value.
|
|
*/
|
|
uint8_t sdio_slave_hal_host_get_reg(sdio_slave_context_t *hal, int pos);
|
|
|
|
/**
|
|
* Set the value of shared general purpose register.
|
|
*
|
|
* @param hal Context of the HAL layer.
|
|
* @param pos Position of the register, 4 bytes share a word. 0-63 except 24-27.
|
|
* @param reg Value to set.
|
|
*/
|
|
void sdio_slave_hal_host_set_reg(sdio_slave_context_t *hal, int pos, uint8_t reg);
|
|
|