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sdio.c
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/*
* This file is part of the MicroPython project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2018-2019 Damien P. George
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <stdio.h>
#include "py/mperrno.h"
#include "py/mphal.h"
#include "dma.h"
#include "pin.h"
#include "pin_static_af.h"
#include "pendsv.h"
#include "sdio.h"
#if MICROPY_PY_NETWORK_CYW43
#define DEFAULT_MASK (0)
enum {
SDMMC_IRQ_STATE_DONE,
SDMMC_IRQ_STATE_CMD_DONE,
SDMMC_IRQ_STATE_CMD_DATA_PENDING,
};
static volatile int sdmmc_irq_state;
static volatile uint32_t sdmmc_block_size_log2;
static volatile bool sdmmc_write;
static volatile bool sdmmc_dma;
static volatile uint32_t sdmmc_error;
static volatile uint8_t *sdmmc_buf_cur;
static volatile uint8_t *sdmmc_buf_top;
// The H7/F7/L4 have 2 SDMMC peripherals, but at the moment this driver only supports
// using one of them in a given build, selected by MICROPY_HW_SDIO_SDMMC.
#if MICROPY_HW_SDIO_SDMMC == 1
#define SDMMC SDMMC1
#define SDMMC_IRQn SDMMC1_IRQn
#define SDMMC_IRQHandler SDMMC1_IRQHandler
#define SDMMC_CLK_ENABLE() __HAL_RCC_SDMMC1_CLK_ENABLE()
#define SDMMC_CLK_DISABLE() __HAL_RCC_SDMMC1_CLK_DISABLE()
#define SDMMC_IS_CLK_DISABLED() __HAL_RCC_SDMMC1_IS_CLK_DISABLED()
#define STATIC_AF_SDMMC_CK STATIC_AF_SDMMC1_CK
#define STATIC_AF_SDMMC_CMD STATIC_AF_SDMMC1_CMD
#define STATIC_AF_SDMMC_D0 STATIC_AF_SDMMC1_D0
#define STATIC_AF_SDMMC_D1 STATIC_AF_SDMMC1_D1
#define STATIC_AF_SDMMC_D2 STATIC_AF_SDMMC1_D2
#define STATIC_AF_SDMMC_D3 STATIC_AF_SDMMC1_D3
#else
#if defined(STM32F7)
#error Due to DMA configuration, only SDMMC1 is currently supported on F7
#endif
#define SDMMC SDMMC2
#define SDMMC_IRQn SDMMC2_IRQn
#define SDMMC_IRQHandler SDMMC2_IRQHandler
#define SDMMC_CLK_ENABLE() __HAL_RCC_SDMMC2_CLK_ENABLE()
#define SDMMC_CLK_DISABLE() __HAL_RCC_SDMMC2_CLK_DISABLE()
#define SDMMC_IS_CLK_DISABLED() __HAL_RCC_SDMMC2_IS_CLK_DISABLED()
#define STATIC_AF_SDMMC_CK STATIC_AF_SDMMC2_CK
#define STATIC_AF_SDMMC_CMD STATIC_AF_SDMMC2_CMD
#define STATIC_AF_SDMMC_D0 STATIC_AF_SDMMC2_D0
#define STATIC_AF_SDMMC_D1 STATIC_AF_SDMMC2_D1
#define STATIC_AF_SDMMC_D2 STATIC_AF_SDMMC2_D2
#define STATIC_AF_SDMMC_D3 STATIC_AF_SDMMC2_D3
#endif
// If no custom SDIO pins defined, use the default ones
#ifndef MICROPY_HW_SDIO_CK
#define MICROPY_HW_SDIO_D0 (pin_C8)
#define MICROPY_HW_SDIO_D1 (pin_C9)
#define MICROPY_HW_SDIO_D2 (pin_C10)
#define MICROPY_HW_SDIO_D3 (pin_C11)
#define MICROPY_HW_SDIO_CK (pin_C12)
#define MICROPY_HW_SDIO_CMD (pin_D2)
#endif
#if defined(STM32H7)
static uint32_t safe_divide(uint32_t denom) {
uint32_t num = HAL_RCCEx_GetPeriphCLKFreq(RCC_PERIPHCLK_SDMMC);
uint32_t divres;
divres = num / (2U * denom);
if ((num % (2U * denom)) > denom) {
divres++;
}
return divres;
}
#endif
void sdio_init(uint32_t irq_pri) {
// configure IO pins
mp_hal_pin_config_alt_static(MICROPY_HW_SDIO_D0, MP_HAL_PIN_MODE_ALT, MP_HAL_PIN_PULL_UP, STATIC_AF_SDMMC_D0);
mp_hal_pin_config_alt_static(MICROPY_HW_SDIO_D1, MP_HAL_PIN_MODE_ALT, MP_HAL_PIN_PULL_UP, STATIC_AF_SDMMC_D1);
mp_hal_pin_config_alt_static(MICROPY_HW_SDIO_D2, MP_HAL_PIN_MODE_ALT, MP_HAL_PIN_PULL_UP, STATIC_AF_SDMMC_D2);
mp_hal_pin_config_alt_static(MICROPY_HW_SDIO_D3, MP_HAL_PIN_MODE_ALT, MP_HAL_PIN_PULL_UP, STATIC_AF_SDMMC_D3);
mp_hal_pin_config_alt_static(MICROPY_HW_SDIO_CK, MP_HAL_PIN_MODE_ALT, MP_HAL_PIN_PULL_NONE, STATIC_AF_SDMMC_CK);
mp_hal_pin_config_alt_static(MICROPY_HW_SDIO_CMD, MP_HAL_PIN_MODE_ALT, MP_HAL_PIN_PULL_UP, STATIC_AF_SDMMC_CMD);
SDMMC_CLK_ENABLE(); // enable SDIO peripheral
SDMMC_TypeDef *SDIO = SDMMC;
#if defined(STM32F7)
SDIO->CLKCR = SDMMC_CLKCR_HWFC_EN | SDMMC_CLKCR_PWRSAV | (120 - 2); // 1-bit, 400kHz
#elif defined(STM32H7)
SDIO->CLKCR = SDMMC_CLKCR_HWFC_EN | SDMMC_CLKCR_PWRSAV | safe_divide(400000U); // 1-bit, 400kHz
#else
SDIO->CLKCR = SDMMC_CLKCR_HWFC_EN | SDMMC_CLKCR_PWRSAV | (120 / 2); // 1-bit, 400kHz
#endif
mp_hal_delay_us(10);
SDIO->POWER = 3; // the card is clocked
mp_hal_delay_us(10);
SDIO->DCTRL = SDMMC_DCTRL_RWMOD; // RWMOD is SDIO_CK
#if defined(STM32F7)
SDIO->CLKCR |= SDMMC_CLKCR_CLKEN;
#endif
mp_hal_delay_us(10);
#if defined(STM32F7)
__HAL_RCC_DMA2_CLK_ENABLE(); // enable DMA2 peripheral
#endif
NVIC_SetPriority(SDMMC_IRQn, irq_pri);
SDIO->MASK = 0;
HAL_NVIC_EnableIRQ(SDMMC_IRQn);
}
void sdio_deinit(void) {
SDMMC_CLK_DISABLE();
}
void sdio_reenable(void) {
if (SDMMC_IS_CLK_DISABLED()) {
SDMMC_CLK_ENABLE(); // enable SDIO peripheral
sdio_enable_high_speed_4bit();
}
}
void sdio_enable_irq(bool enable) {
if (enable) {
SDMMC->MASK |= SDMMC_MASK_SDIOITIE;
} else {
SDMMC->MASK &= ~SDMMC_MASK_SDIOITIE;
}
}
void sdio_enable_high_speed_4bit(void) {
SDMMC_TypeDef *SDIO = SDMMC;
SDIO->POWER = 0; // power off
mp_hal_delay_us(10);
#if defined(STM32F7)
SDIO->CLKCR = SDMMC_CLKCR_HWFC_EN | SDMMC_CLKCR_WIDBUS_0 | SDMMC_CLKCR_BYPASS /*| SDMMC_CLKCR_PWRSAV*/; // 4-bit, 48MHz
#elif defined(STM32H7)
SDIO->CLKCR = SDMMC_CLKCR_HWFC_EN | SDMMC_CLKCR_WIDBUS_0 | safe_divide(48000000U); // 4-bit, 48MHz
#else
SDIO->CLKCR = SDMMC_CLKCR_HWFC_EN | SDMMC_CLKCR_WIDBUS_0; // 4-bit, 48MHz
#endif
mp_hal_delay_us(10);
SDIO->POWER = 3; // the card is clocked
mp_hal_delay_us(10);
SDIO->DCTRL = SDMMC_DCTRL_SDIOEN | SDMMC_DCTRL_RWMOD; // SDIOEN, RWMOD is SDIO_CK
#if defined(STM32F7)
SDIO->CLKCR |= SDMMC_CLKCR_CLKEN;
#endif
SDIO->MASK = DEFAULT_MASK;
mp_hal_delay_us(10);
}
void SDMMC_IRQHandler(void) {
if (SDMMC->STA & SDMMC_STA_CMDREND) {
SDMMC->ICR = SDMMC_ICR_CMDRENDC;
uint32_t r1 = SDMMC->RESP1;
if (SDMMC->RESPCMD == 53 && r1 & 0x800) {
printf("bad RESP1: %lu %lx\n", SDMMC->RESPCMD, r1);
sdmmc_error = 0xffffffff;
SDMMC->MASK &= SDMMC_MASK_SDIOITIE;
sdmmc_irq_state = SDMMC_IRQ_STATE_DONE;
return;
}
#if defined(STM32H7)
if (!sdmmc_dma) {
while (sdmmc_buf_cur < sdmmc_buf_top && (SDMMC->STA & SDMMC_STA_DPSMACT) && !(SDMMC->STA & SDMMC_STA_RXFIFOE)) {
*(uint32_t *)sdmmc_buf_cur = SDMMC->FIFO;
sdmmc_buf_cur += 4;
}
}
#endif
if (sdmmc_buf_cur >= sdmmc_buf_top) {
// data transfer finished, so we are done
SDMMC->MASK &= SDMMC_MASK_SDIOITIE;
sdmmc_irq_state = SDMMC_IRQ_STATE_DONE;
return;
}
if (sdmmc_write) {
SDMMC->DCTRL =
SDMMC_DCTRL_SDIOEN
| SDMMC_DCTRL_RWMOD
| sdmmc_block_size_log2 << SDMMC_DCTRL_DBLOCKSIZE_Pos
#if defined(STM32F7)
| (sdmmc_dma << SDMMC_DCTRL_DMAEN_Pos)
#endif
| (!sdmmc_write) << SDMMC_DCTRL_DTDIR_Pos
| SDMMC_DCTRL_DTEN
;
if (!sdmmc_dma) {
SDMMC->MASK |= SDMMC_MASK_TXFIFOHEIE;
}
}
sdmmc_irq_state = SDMMC_IRQ_STATE_CMD_DONE;
} else if (SDMMC->STA & SDMMC_STA_DATAEND) {
// data transfer complete
// note: it's possible to get DATAEND before CMDREND
SDMMC->ICR = SDMMC_ICR_DATAENDC;
#if defined(STM32F7)
// check if there is some remaining data in RXFIFO
if (!sdmmc_dma) {
while (SDMMC->STA & SDMMC_STA_RXDAVL) {
*(uint32_t *)sdmmc_buf_cur = SDMMC->FIFO;
sdmmc_buf_cur += 4;
}
}
#endif
if (sdmmc_irq_state == SDMMC_IRQ_STATE_CMD_DONE) {
// command and data finished, so we are done
SDMMC->MASK &= SDMMC_MASK_SDIOITIE;
sdmmc_irq_state = SDMMC_IRQ_STATE_DONE;
}
} else if (SDMMC->STA & SDMMC_STA_TXFIFOHE) {
if (!sdmmc_dma && sdmmc_write) {
// write up to 8 words to fifo
for (size_t i = 8; i && sdmmc_buf_cur < sdmmc_buf_top; --i) {
SDMMC->FIFO = *(uint32_t *)sdmmc_buf_cur;
sdmmc_buf_cur += 4;
}
if (sdmmc_buf_cur >= sdmmc_buf_top) {
// finished, disable IRQ
SDMMC->MASK &= ~SDMMC_MASK_TXFIFOHEIE;
}
}
} else if (SDMMC->STA & SDMMC_STA_RXFIFOHF) {
if (!sdmmc_dma && !sdmmc_write) {
// read up to 8 words from fifo
for (size_t i = 8; i && sdmmc_buf_cur < sdmmc_buf_top; --i) {
*(uint32_t *)sdmmc_buf_cur = SDMMC->FIFO;
sdmmc_buf_cur += 4;
}
}
} else if (SDMMC->STA & SDMMC_STA_SDIOIT) {
SDMMC->MASK &= ~SDMMC_MASK_SDIOITIE;
SDMMC->ICR = SDMMC_ICR_SDIOITC;
#if MICROPY_PY_NETWORK_CYW43
extern void (*cyw43_poll)(void);
if (cyw43_poll) {
pendsv_schedule_dispatch(PENDSV_DISPATCH_CYW43, cyw43_poll);
}
#endif
} else if (SDMMC->STA & 0x3f) {
// an error
sdmmc_error = SDMMC->STA;
SDMMC->ICR = SDMMC_STATIC_FLAGS;
SDMMC->MASK &= SDMMC_MASK_SDIOITIE;
sdmmc_irq_state = SDMMC_IRQ_STATE_DONE;
}
}
int sdio_transfer(uint32_t cmd, uint32_t arg, uint32_t *resp) {
#if defined(STM32F7)
// Wait for any outstanding TX to complete
while (SDMMC->STA & SDMMC_STA_TXACT) {
}
#endif
#if defined(STM32F7)
DMA2_Stream3->CR = 0; // ensure DMA is reset
#endif
SDMMC->ICR = SDMMC_STATIC_FLAGS; // clear interrupts
SDMMC->ARG = arg;
SDMMC->CMD = cmd | SDMMC_CMD_WAITRESP_0 | SDMMC_CMD_CPSMEN;
sdmmc_irq_state = SDMMC_IRQ_STATE_CMD_DATA_PENDING;
sdmmc_error = 0;
sdmmc_buf_cur = NULL;
sdmmc_buf_top = NULL;
SDMMC->MASK = (SDMMC->MASK & SDMMC_MASK_SDIOITIE) | SDMMC_MASK_CMDRENDIE | 0x3f;
uint32_t start = mp_hal_ticks_ms();
for (;;) {
__WFI();
if (sdmmc_irq_state == SDMMC_IRQ_STATE_DONE) {
break;
}
if (mp_hal_ticks_ms() - start > 1000) {
SDMMC->MASK = DEFAULT_MASK;
printf("sdio_transfer timeout STA=0x%08x\n", (uint)SDMMC->STA);
return -MP_ETIMEDOUT;
}
}
SDMMC->MASK &= SDMMC_MASK_SDIOITIE;
if (sdmmc_error == SDMMC_STA_CCRCFAIL && cmd == 5) {
// Errata: CMD CRC error is incorrectly generated for CMD 5
return 0;
} else if (sdmmc_error) {
return -(0x1000000 | sdmmc_error);
}
uint32_t rcmd = SDMMC->RESPCMD;
if (rcmd != cmd) {
printf("sdio_transfer: cmd=%lu rcmd=%lu\n", cmd, rcmd);
return -MP_EIO;
}
if (resp != NULL) {
*resp = SDMMC->RESP1;
}
return 0;
}
int sdio_transfer_cmd53(bool write, uint32_t block_size, uint32_t arg, size_t len, uint8_t *buf) {
#if defined(STM32F7)
// Wait for any outstanding TX to complete
while (SDMMC->STA & SDMMC_STA_TXACT) {
}
#endif
// for SDIO_BYTE_MODE the SDIO chuck of data must be a single block of the length of buf
int block_size_log2 = 0;
if (block_size == 4) {
block_size_log2 = 2;
} else if (block_size == 8) {
block_size_log2 = 3;
} else if (block_size == 16) {
block_size_log2 = 4;
} else if (block_size == 32) {
block_size_log2 = 5;
} else if (block_size == 64) {
block_size_log2 = 6;
} else if (block_size == 128) {
block_size_log2 = 7;
} else if (block_size == 256) {
block_size_log2 = 8;
} else {
printf("sdio_transfer_cmd53: invalid block_size %lu", block_size);
return -MP_EINVAL;
}
bool dma = (len > 16);
SDMMC->ICR = SDMMC_STATIC_FLAGS; // clear interrupts
SDMMC->MASK &= SDMMC_MASK_SDIOITIE;
SDMMC->DTIMER = 0x2000000; // about 700ms running at 48MHz
SDMMC->DLEN = (len + block_size - 1) & ~(block_size - 1);
#if defined(STM32F7)
DMA2_Stream3->CR = 0;
#endif
if (dma) {
// prepare DMA so it's ready when the DPSM starts its transfer
#if defined(STM32F7)
// enable DMA2 peripheral in case it was turned off by someone else
RCC->AHB1ENR |= RCC_AHB1ENR_DMA2EN;
#endif
if (write) {
// make sure cache is flushed to RAM so the DMA can read the correct data
MP_HAL_CLEAN_DCACHE(buf, len);
} else {
// make sure cache is flushed and invalidated so when DMA updates the RAM
// from reading the peripheral the CPU then reads the new data
MP_HAL_CLEANINVALIDATE_DCACHE(buf, len);
}
#if defined(STM32F7)
if ((uint32_t)buf & 3) {
printf("sdio_transfer_cmd53: buf=%p is not aligned for DMA\n", buf);
return -MP_EINVAL;
}
uint32_t dma_config =
2 << DMA_SxCR_MSIZE_Pos // MSIZE word
| 2 << DMA_SxCR_PSIZE_Pos // PSIZE word
| write << DMA_SxCR_DIR_Pos // DIR mem-to-periph
| 1 << DMA_SxCR_PFCTRL_Pos // PFCTRL periph is flow controller
;
uint32_t dma_src = (uint32_t)buf;
uint32_t dma_dest = (uint32_t)&SDMMC->FIFO;
uint32_t dma_len = ((len + block_size - 1) & ~(block_size - 1)) / 4;
dma_nohal_init(&dma_SDIO_0, dma_config);
dma_nohal_start(&dma_SDIO_0, dma_src, dma_dest, dma_len);
#else
SDMMC->IDMABASE0 = (uint32_t)buf;
SDMMC->IDMACTRL = SDMMC_IDMA_IDMAEN;
#endif
} else {
#if defined(STM32H7)
SDMMC->IDMACTRL = 0;
#endif
}
// for reading, need to initialise the DPSM before starting the CPSM
// so that the DPSM is ready to receive when the device sends data
// (and in case we get a long-running unrelated IRQ here on the host just
// after writing to CMD to initiate the command)
if (!write) {
SDMMC->DCTRL =
SDMMC_DCTRL_SDIOEN
| SDMMC_DCTRL_RWMOD
| block_size_log2 << SDMMC_DCTRL_DBLOCKSIZE_Pos
#if defined(STM32F7)
| (dma << SDMMC_DCTRL_DMAEN_Pos)
#endif
| (!write) << SDMMC_DCTRL_DTDIR_Pos
| SDMMC_DCTRL_DTEN
;
}
SDMMC->ARG = arg;
SDMMC->CMD = 53 | SDMMC_CMD_WAITRESP_0 | SDMMC_CMD_CPSMEN;
sdmmc_irq_state = SDMMC_IRQ_STATE_CMD_DATA_PENDING;
sdmmc_block_size_log2 = block_size_log2;
sdmmc_write = write;
sdmmc_dma = dma;
sdmmc_error = 0;
sdmmc_buf_cur = (uint8_t *)buf;
sdmmc_buf_top = (uint8_t *)buf + len;
SDMMC->MASK = (SDMMC->MASK & SDMMC_MASK_SDIOITIE) | SDMMC_MASK_CMDRENDIE | SDMMC_MASK_DATAENDIE | SDMMC_MASK_RXFIFOHFIE | 0x3f;
// wait to complete transfer
uint32_t start = mp_hal_ticks_ms();
for (;;) {
__WFI();
if (sdmmc_irq_state == SDMMC_IRQ_STATE_DONE) {
break;
}
if (mp_hal_ticks_ms() - start > 200) {
SDMMC->MASK &= SDMMC_MASK_SDIOITIE;
#if defined(STM32F7)
printf("sdio_transfer_cmd53: timeout wr=%d len=%u dma=%u buf_idx=%u STA=%08x SDMMC=%08x:%08x DMA=%08x:%08x:%08x RCC=%08x\n", write, (uint)len, (uint)dma, sdmmc_buf_cur - buf, (uint)SDMMC->STA, (uint)SDMMC->DCOUNT, (uint)SDMMC->FIFOCNT, (uint)DMA2->LISR, (uint)DMA2->HISR, (uint)DMA2_Stream3->NDTR, (uint)RCC->AHB1ENR);
#else
printf("sdio_transfer_cmd53: timeout wr=%d len=%u dma=%u buf_idx=%u STA=%08x SDMMC=%08x:%08x IDMA=%08x\n", write, (uint)len, (uint)dma, sdmmc_buf_cur - buf, (uint)SDMMC->STA, (uint)SDMMC->DCOUNT, (uint)SDMMC->DCTRL, (uint)SDMMC->IDMACTRL);
#endif
#if defined(STM32F7)
if (sdmmc_dma) {
dma_nohal_deinit(&dma_SDIO_0);
}
#endif
return -MP_ETIMEDOUT;
}
}
SDMMC->MASK &= SDMMC_MASK_SDIOITIE;
if (sdmmc_error) {
#if defined(STM32F7)
printf("sdio_transfer_cmd53: error=%08lx wr=%d len=%u dma=%u buf_idx=%u STA=%08x SDMMC=%08x:%08x DMA=%08x:%08x:%08x RCC=%08x\n", sdmmc_error, write, (uint)len, (uint)dma, sdmmc_buf_cur - buf, (uint)SDMMC->STA, (uint)SDMMC->DCOUNT, (uint)SDMMC->FIFOCNT, (uint)DMA2->LISR, (uint)DMA2->HISR, (uint)DMA2_Stream3->NDTR, (uint)RCC->AHB1ENR);
#else
printf("sdio_transfer_cmd53: error=%08lx wr=%d len=%u dma=%u buf_idx=%u STA=%08x SDMMC=%08x:%08x IDMA=%08x\n", sdmmc_error, write, (uint)len, (uint)dma, sdmmc_buf_cur - buf, (uint)SDMMC->STA, (uint)SDMMC->DCOUNT, (uint)SDMMC->DCTRL, (uint)SDMMC->IDMACTRL);
#endif
#if defined(STM32F7)
if (sdmmc_dma) {
dma_nohal_deinit(&dma_SDIO_0);
}
#endif
return -(0x1000000 | sdmmc_error);
}
if (!sdmmc_dma) {
if (sdmmc_buf_cur != sdmmc_buf_top) {
printf("sdio_transfer_cmd53: didn't transfer correct length: cur=%p top=%p\n", sdmmc_buf_cur, sdmmc_buf_top);
return -MP_EIO;
}
} else {
#if defined(STM32F7)
dma_nohal_deinit(&dma_SDIO_0);
#endif
}
return 0;
}
#endif