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nuttx/arch/arm/src/stm32f7/stm32_sdmmc.c
Gregory Nutt 037c9ea0a4 arch/arm: Rename all up_*.h files to arm_*.h 
Summary

The naming standard at https://cwiki.apache.org/confluence/display/NUTTX/Naming+FAQ requires that all MCU-private files begin with the name of the architecture, not up_.

This PR addresses only these name changes for the up_*.h files.  There are only three, but almost 1680 files that include them:

    up_arch.h
    up_internal.h
    up_vfork.h

The only change to the files is from including up_arch.h to arm_arch.h (for example).

The entire job required to be compatible with that Naming Convention will also require changing the naming of the up_() functions that are used only within arch/arm and board/arm.

Impact

There should be not impact of this change (other that one step toward more consistent naming).

Testing

stm32f4discovery:netnsh
2020-05-01 03:43:44 +01:00

3608 lines
109 KiB
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/****************************************************************************
* arch/arm/src/stm32f7/stm32_sdmmc.c
*
* Copyright (C) 2009, 2011-2018,2019 Gregory Nutt. All rights reserved.
* Authors: Gregory Nutt <gnutt@nuttx.org>
* David Sidrane <david.sidrane @nscdg.com>
* Bob Feretich <bob.feretich@rafresearch.com>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name NuttX nor the names of its contributors may be
* used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
****************************************************************************/
/****************************************************************************
* Included Files
****************************************************************************/
#include <nuttx/config.h>
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include <assert.h>
#include <debug.h>
#include <errno.h>
#include <nuttx/arch.h>
#include <nuttx/wdog.h>
#include <nuttx/clock.h>
#include <nuttx/sdio.h>
#include <nuttx/wqueue.h>
#include <nuttx/semaphore.h>
#include <nuttx/mmcsd.h>
#include <nuttx/irq.h>
#include <arch/board/board.h>
#include "chip.h"
#include "arm_arch.h"
#include "stm32_dtcm.h"
#include "stm32_dma.h"
#include "stm32_gpio.h"
#include "stm32_sdmmc.h"
#if defined(CONFIG_STM32F7_SDMMC1) || defined(CONFIG_STM32F7_SDMMC2)
/****************************************************************************
* Pre-processor Definitions
****************************************************************************/
/* Configuration ************************************************************/
/* Required system configuration options:
*
* CONFIG_ARCH_DMA - Enable architecture-specific DMA subsystem
* initialization. Required if CONFIG_SDMMC[1|2]_DMA is enabled.
* CONFIG_STM32F7_DMA2 - Enable STM32 DMA2 support. Required if
* CONFIG_SDMMC[1|2]_DMA is enabled
* CONFIG_SCHED_WORKQUEUE -- Callback support requires work queue support.
*
* Driver-specific configuration options:
*
* CONFIG_SDIO_MUXBUS - Setting this configuration enables some locking
* APIs to manage concurrent accesses on the SDMMC bus. This is not
* needed for the simple case of a single SD card, for example.
* CONFIG_STM32F7_SDMMC_DMA - Enable SDMMC. This is a marginally optional.
* For most usages, SDMMC will cause data overruns if used without DMA.
* NOTE the above system DMA configuration options.
* CONFIG_SDMMC1/2_WIDTH_D1_ONLY - This may be selected to force the driver
* operate with only a single data line (the default is to use all
* 4 SD data lines).
* CONFIG_SDMMC_DMAPRIO - SDMMC DMA priority. This can be selected if
* CONFIG_STM32F7_SDMMC_DMA is enabled.
* CONFIG_CONFIG_STM32F7_SDMMC_XFRDEBUG - Enables some very low-level debug
* output. This also requires CONFIG_DEBUG_FS and CONFIG_DEBUG_INFO
*
* CONFIG_SDMMC1/2_SDIO_MODE
* Build ins additional support needed only for SDIO cards (vs. SD memory
* cards)
* CONFIG_SDMMC1/2_SDIO_PULLUP
* If you are using an external SDCard module that does not have the
* pull-up resistors for the SDIO interface (like the Gadgeteer SD Card
* Module) then enable this option to activate the internal pull-up
* resistors.
*/
/* If there are 2 SDMMC enabled, then Slot 0 is SDMMC1, and Slot 1 is SDMMC2
* If there is only 1 SDMMC, then Slot 0 is assigned to the defined SDMMC
* hence, if only SDMMC2 is defined it will be slot 0.
*/
#if !defined(CONFIG_STM32F7_SDMMC1)
# define SDMMC2_SLOT 0
#else
# define SDMMC2_SLOT 1
#endif
#ifndef CONFIG_STM32F7_SDMMC_DMA
# warning "Large Non-DMA transfer may result in RX overrun failures"
#else
# ifndef CONFIG_STM32F7_DMA2
# error "CONFIG_STM32F7_SDMMC_DMA support requires CONFIG_STM32F7_DMA2"
# endif
# ifndef CONFIG_SDIO_DMA
# error CONFIG_SDIO_DMA must be defined with CONFIG_STM32F7_SDMMC_DMA
# endif
#endif
#ifndef CONFIG_SCHED_WORKQUEUE
# error "Callback support requires CONFIG_SCHED_WORKQUEUE"
#endif
#ifdef CONFIG_STM32F7_SDMMC1
# ifdef CONFIG_STM32F7_SDMMC_DMA
# ifndef CONFIG_STM32F7_SDMMC1_DMAPRIO
# define CONFIG_STM32F7_SDMMC1_DMAPRIO DMA_SCR_PRIVERYHI
# endif
# if (CONFIG_STM32F7_SDMMC1_DMAPRIO & ~DMA_SCR_PL_MASK) != 0
# error "Illegal value for CONFIG_STM32F7_SDMMC1_DMAPRIO"
# endif
# else
# undef CONFIG_STM32F7_SDMMC1_DMAPRIO
# endif
#endif
#ifdef CONFIG_STM32F7_SDMMC2
# ifdef CONFIG_STM32F7_SDMMC_DMA
# ifndef CONFIG_STM32F7_SDMMC2_DMAPRIO
# define CONFIG_STM32F7_SDMMC2_DMAPRIO DMA_SCR_PRIVERYHI
# endif
# if (CONFIG_STM32F7_SDMMC2_DMAPRIO & ~DMA_SCR_PL_MASK) != 0
# error "Illegal value for CONFIG_STM32F7_SDMMC2_DMAPRIO"
# endif
# else
# undef CONFIG_STM32F7_SDMMC2_DMAPRIO
# endif
#endif
#undef HAVE_SDMMC_SDIO_MODE
#if defined(CONFIG_SDMMC1_SDIO_MODE) || defined(CONFIG_SDMMC2_SDIO_MODE)
# define HAVE_SDMMC_SDIO_MODE
#endif
#if !defined(CONFIG_DEBUG_FS) || !defined(CONFIG_DEBUG_FEATURES)
# undef CONFIG_CONFIG_STM32F7_SDMMC_XFRDEBUG
#endif
#ifdef CONFIG_SDMMC1_SDIO_PULLUP
# define SDMMC1_SDIO_PULL(g) (((g) & ~GPIO_PUPD_MASK) | GPIO_PULLUP)
#else
# define SDMMC1_SDIO_PULL(g) (((g) & ~GPIO_PUPD_MASK) | GPIO_FLOAT)
#endif
#ifdef CONFIG_SDMMC2_SDIO_PULLUP
# define SDMMC2_SDIO_PULL(g) (((g) & ~GPIO_PUPD_MASK) | GPIO_PULLUP)
#else
# define SDMMC2_SDIO_PULL(g) (((g) & ~GPIO_PUPD_MASK) | GPIO_FLOAT)
#endif
/* Friendly CLKCR bit re-definitions ****************************************/
#define STM32_CLKCR_RISINGEDGE (0)
#define STM32_CLKCR_FALLINGEDGE STM32_SDMMC_CLKCR_NEGEDGE
/* Use the default of the rising edge but allow a configuration,
* that does not have the errata, to override the edge the SDIO
* command and data is changed on.
*/
#if !defined(STM32_SDMMC_CLKCR_EDGE)
# define STM32_SDMMC_CLKCR_EDGE STM32_CLKCR_RISINGEDGE
#endif
/* Mode dependent settings. These depend on clock divisor settings that must
* be defined in the board-specific board.h header file:
* STM32_SDMMC_INIT_CLKDIV, STM32_SDMMC_MMCXFR_CLKDIV, and
* STM32_SDMMC_SDXFR_CLKDIV.
*/
#define STM32_CLCKCR_INIT (STM32_SDMMC_INIT_CLKDIV | \
STM32_SDMMC_CLKCR_EDGE | \
STM32_SDMMC_CLKCR_WIDBUS_D1)
#define STM32_SDMMC_CLKCR_MMCXFR (STM32_SDMMC_MMCXFR_CLKDIV | \
STM32_SDMMC_CLKCR_EDGE | \
STM32_SDMMC_CLKCR_WIDBUS_D1)
#ifdef STM32_SDMMC_SDXFR_BYPCLKDIV
# define STM32_SDMMC_CLCKR_SDXFR (STM32_SDMMC_CLKCR_BYPASS | \
STM32_SDMMC_CLKCR_EDGE | \
STM32_SDMMC_CLKCR_WIDBUS_D1)
# define STM32_SDMMC_CLCKR_SDWIDEXFR (STM32_SDMMC_CLKCR_BYPASS | \
STM32_SDMMC_CLKCR_EDGE | \
STM32_SDMMC_CLKCR_WIDBUS_D4)
#else
# define STM32_SDMMC_CLCKR_SDXFR (STM32_SDMMC_SDXFR_CLKDIV | \
STM32_SDMMC_CLKCR_EDGE | \
STM32_SDMMC_CLKCR_WIDBUS_D1)
# define STM32_SDMMC_CLCKR_SDWIDEXFR (STM32_SDMMC_SDXFR_CLKDIV | \
STM32_SDMMC_CLKCR_EDGE | \
STM32_SDMMC_CLKCR_WIDBUS_D4)
#endif
/* Timing */
#define SDMMC_CMDTIMEOUT (100000)
#define SDMMC_LONGTIMEOUT (0x7fffffff)
/* Big DTIMER setting */
#define SDMMC_DTIMER_DATATIMEOUT (0x003d0900) /* 250 ms @ 16 MHz */
/* DMA channel/stream configuration register settings. The following
* must be selected. The DMA driver will select the remaining fields.
*
* - 32-bit DMA
* - Memory increment
* - Direction (memory-to-peripheral, peripheral-to-memory)
* - Memory burst size (F4 only)
*/
/* STM32 stream configuration register (SCR) settings base settings sans
* priority.
*/
# define SDMMC_RXDMA32_CONFIG (DMA_SCR_PFCTRL | DMA_SCR_DIR_P2M|DMA_SCR_MINC | \
DMA_SCR_PSIZE_32BITS | DMA_SCR_MSIZE_32BITS | \
DMA_SCR_PBURST_INCR4 | DMA_SCR_MBURST_INCR4)
# define SDMMC_TXDMA32_CONFIG (DMA_SCR_PFCTRL | DMA_SCR_DIR_M2P | DMA_SCR_MINC | \
DMA_SCR_PSIZE_32BITS | DMA_SCR_MSIZE_32BITS | \
DMA_SCR_PBURST_INCR4 | DMA_SCR_MBURST_INCR4)
#ifdef DMAMAP_SDMMC1
/* SDMMC DMA Channel/Stream selection. There
* are multiple DMA stream options that must be dis-ambiguated in the board.h
* file.
*/
# define SDMMC1_DMACHAN DMAMAP_SDMMC1
#endif
#ifdef DMAMAP_SDMMC2
/* SDMMC DMA Channel/Stream selection. There
* are multiple DMA stream options that must be dis-ambiguated in the board.h
* file.
*/
# define SDMMC2_DMACHAN DMAMAP_SDMMC2
#endif
/* FIFO sizes */
#define SDMMC_HALFFIFO_WORDS (8)
#define SDMMC_HALFFIFO_BYTES (8*4)
/* Data transfer interrupt mask bits */
#define STM32_SDMMC_RECV_MASK (STM32_SDMMC_MASK_DCRCFAILIE | \
STM32_SDMMC_MASK_DTIMEOUTIE | \
STM32_SDMMC_MASK_DATAENDIE | \
STM32_SDMMC_MASK_RXOVERRIE | \
STM32_SDMMC_MASK_RXFIFOHFIE | \
STM32_SDMMC_MASK_STBITERRIE)
#define STM32_SDMMC_SEND_MASK (STM32_SDMMC_MASK_DCRCFAILIE | \
STM32_SDMMC_MASK_DTIMEOUTIE | \
STM32_SDMMC_MASK_DATAENDIE | \
STM32_SDMMC_MASK_TXUNDERRIE | \
STM32_SDMMC_MASK_TXFIFOHEIE | \
STM32_SDMMC_MASK_STBITERRIE)
#define STM32_SDMMC_DMARECV_MASK (STM32_SDMMC_MASK_DCRCFAILIE | \
STM32_SDMMC_MASK_DTIMEOUTIE | \
STM32_SDMMC_MASK_DATAENDIE | \
STM32_SDMMC_MASK_RXOVERRIE | \
STM32_SDMMC_MASK_STBITERRIE)
#define STM32_SDMMC_DMASEND_MASK (STM32_SDMMC_MASK_DCRCFAILIE | \
STM32_SDMMC_MASK_DTIMEOUTIE | \
STM32_SDMMC_MASK_DATAENDIE | \
STM32_SDMMC_MASK_TXUNDERRIE | \
STM32_SDMMC_MASK_STBITERRIE)
/* Event waiting interrupt mask bits */
#define STM32_SDMMC_CMDDONE_STA (STM32_SDMMC_STA_CMDSENT)
#define STM32_SDMMC_RESPDONE_STA (STM32_SDMMC_STA_CTIMEOUT | \
STM32_SDMMC_STA_CCRCFAIL | \
STM32_SDMMC_STA_CMDREND)
#define STM32_SDMMC_XFRDONE_STA (0)
#define STM32_SDMMC_CMDDONE_MASK (STM32_SDMMC_MASK_CMDSENTIE)
#define STM32_SDMMC_RESPDONE_MASK (STM32_SDMMC_MASK_CCRCFAILIE | \
STM32_SDMMC_MASK_CTIMEOUTIE | \
STM32_SDMMC_MASK_CMDRENDIE)
#define STM32_SDMMC_XFRDONE_MASK (0)
#define STM32_SDMMC_CMDDONE_ICR (STM32_SDMMC_ICR_CMDSENTC | \
STM32_SDMMC_ICR_DBCKENDC)
#define STM32_SDMMC_RESPDONE_ICR (STM32_SDMMC_ICR_CTIMEOUTC | \
STM32_SDMMC_ICR_CCRCFAILC | \
STM32_SDMMC_ICR_CMDRENDC | \
STM32_SDMMC_ICR_DBCKENDC)
#define STM32_SDMMC_XFRDONE_ICR (STM32_SDMMC_ICR_DATAENDC | \
STM32_SDMMC_ICR_DCRCFAILC | \
STM32_SDMMC_ICR_DTIMEOUTC | \
STM32_SDMMC_ICR_RXOVERRC | \
STM32_SDMMC_ICR_TXUNDERRC | \
STM32_SDMMC_ICR_STBITERRC | \
STM32_SDMMC_ICR_DBCKENDC)
#define STM32_SDMMC_WAITALL_ICR (STM32_SDMMC_CMDDONE_ICR | \
STM32_SDMMC_RESPDONE_ICR | \
STM32_SDMMC_XFRDONE_ICR | \
STM32_SDMMC_ICR_DBCKENDC)
/* Let's wait until we have both SDIO transfer complete and DMA complete. */
#define SDMMC_XFRDONE_FLAG (1)
#define SDMMC_DMADONE_FLAG (2)
#define SDMMC_ALLDONE (3)
/* Register logging support */
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
# ifdef CONFIG_STM32F7_SDMMC_DMA
# define SAMPLENDX_BEFORE_SETUP 0
# define SAMPLENDX_BEFORE_ENABLE 1
# define SAMPLENDX_AFTER_SETUP 2
# define SAMPLENDX_END_TRANSFER 3
# define SAMPLENDX_DMA_CALLBACK 4
# define DEBUG_NSAMPLES 5
# else
# define SAMPLENDX_BEFORE_SETUP 0
# define SAMPLENDX_AFTER_SETUP 1
# define SAMPLENDX_END_TRANSFER 2
# define DEBUG_NSAMPLES 3
# endif
#endif
/****************************************************************************
* Private Types
****************************************************************************/
/* This structure defines the state of the STM32 SDMMC interface */
struct stm32_dev_s
{
struct sdio_dev_s dev; /* Standard, base SDIO interface */
/* STM32-specific extensions */
uint32_t base;
int nirq;
#ifdef CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE
uint32_t d0_gpio;
#endif
#ifdef CONFIG_STM32F7_SDMMC_DMA
uint32_t dmapri;
#endif
/* Event support */
sem_t waitsem; /* Implements event waiting */
sdio_eventset_t waitevents; /* Set of events to be waited for */
uint32_t waitmask; /* Interrupt enables for event waiting */
volatile sdio_eventset_t wkupevent; /* The event that caused the wakeup */
WDOG_ID waitwdog; /* Watchdog that handles event timeouts */
/* Callback support */
sdio_statset_t cdstatus; /* Card status */
sdio_eventset_t cbevents; /* Set of events to be cause callbacks */
worker_t callback; /* Registered callback function */
void *cbarg; /* Registered callback argument */
struct work_s cbwork; /* Callback work queue structure */
/* Interrupt mode data transfer support */
uint32_t *buffer; /* Address of current R/W buffer */
size_t remaining; /* Number of bytes remaining in the transfer */
uint32_t xfrmask; /* Interrupt enables for data transfer */
/* DMA data transfer support */
bool widebus; /* Required for DMA support */
bool onebit; /* true: Only 1-bit transfers are supported */
#ifdef CONFIG_STM32F7_SDMMC_DMA
volatile uint8_t xfrflags; /* Used to synchronize SDMMC and DMA completion events */
bool dmamode; /* true: DMA mode transfer */
DMA_HANDLE dma; /* Handle for DMA channel */
#endif
#ifdef HAVE_SDMMC_SDIO_MODE
/* Interrupt at SDIO_D1 pin, only for SDIO cards */
uint32_t sdiointmask; /* STM32 SDIO register mask */
int (*do_sdio_card)(void *); /* SDIO card ISR */
void *do_sdio_arg; /* arg for SDIO card ISR */
bool sdiomode; /* True: in SDIO mode */
#endif
/* Misc */
uint32_t blocksize; /* Current block size */
};
/* Register logging support */
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
struct stm32_sdioregs_s
{
uint8_t power;
uint16_t clkcr;
uint16_t dctrl;
uint32_t dtimer;
uint32_t dlen;
uint32_t dcount;
uint32_t sta;
uint32_t mask;
uint32_t fifocnt;
};
struct stm32_sampleregs_s
{
struct stm32_sdioregs_s sdio;
#if defined(CONFIG_DEBUG_DMA_INFO) && defined(CONFIG_STM32F7_SDMMC_DMA)
struct stm32_dmaregs_s dma;
#endif
};
#endif
/****************************************************************************
* Private Function Prototypes
****************************************************************************/
/* Low-level helpers ********************************************************/
static inline void sdmmc_putreg32(struct stm32_dev_s *priv, uint32_t value,
int offset);
static inline uint32_t sdmmc_getreg32(struct stm32_dev_s *priv, int offset);
static int stm32_takesem(struct stm32_dev_s *priv);
#define stm32_givesem(priv) (nxsem_post(&priv->waitsem))
static inline void stm32_setclkcr(struct stm32_dev_s *priv, uint32_t clkcr);
static void stm32_configwaitints(struct stm32_dev_s *priv, uint32_t waitmask,
sdio_eventset_t waitevents, sdio_eventset_t wkupevents);
static void stm32_configxfrints(struct stm32_dev_s *priv, uint32_t xfrmask);
static void stm32_setpwrctrl(struct stm32_dev_s *priv, uint32_t pwrctrl);
static inline uint32_t stm32_getpwrctrl(struct stm32_dev_s *priv);
/* DMA Helpers **************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
static void stm32_sampleinit(void);
static void stm32_sdiosample(struct stm32_dev_s *priv,
struct stm32_sdioregs_s *regs);
static void stm32_sample(struct stm32_dev_s *priv, int index);
static void stm32_sdiodump(struct stm32_sdioregs_s *regs, const char *msg);
static void stm32_dumpsample(struct stm32_dev_s *priv,
struct stm32_sampleregs_s *regs, const char *msg);
static void stm32_dumpsamples(struct stm32_dev_s *priv);
#else
# define stm32_sampleinit()
# define stm32_sample(priv,index)
# define stm32_dumpsamples(priv)
#endif
#ifdef CONFIG_STM32F7_SDMMC_DMA
static void stm32_dmacallback(DMA_HANDLE handle, uint8_t status, void *arg);
#endif
/* Data Transfer Helpers ****************************************************/
static uint8_t stm32_log2(uint16_t value);
static void stm32_dataconfig(struct stm32_dev_s *priv, uint32_t timeout,
uint32_t dlen, uint32_t dctrl);
static void stm32_datadisable(struct stm32_dev_s *priv);
static void stm32_sendfifo(struct stm32_dev_s *priv);
static void stm32_recvfifo(struct stm32_dev_s *priv);
static void stm32_eventtimeout(int argc, uint32_t arg, ...);
static void stm32_endwait(struct stm32_dev_s *priv,
sdio_eventset_t wkupevent);
static void stm32_endtransfer(struct stm32_dev_s *priv,
sdio_eventset_t wkupevent);
/* Interrupt Handling *******************************************************/
static int stm32_sdmmc_interrupt(int irq, void *context, void *arg);
#ifdef CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE
static int stm32_sdmmc_rdyinterrupt(int irq, void *context, void *arg);
#endif
/* SDIO interface methods ***************************************************/
/* Mutual exclusion */
#ifdef CONFIG_SDIO_MUXBUS
static int stm32_lock(FAR struct sdio_dev_s *dev, bool lock);
#endif
/* Initialization/setup */
static void stm32_reset(FAR struct sdio_dev_s *dev);
static sdio_capset_t stm32_capabilities(FAR struct sdio_dev_s *dev);
static sdio_statset_t stm32_status(FAR struct sdio_dev_s *dev);
static void stm32_widebus(FAR struct sdio_dev_s *dev, bool enable);
static void stm32_clock(FAR struct sdio_dev_s *dev,
enum sdio_clock_e rate);
static int stm32_attach(FAR struct sdio_dev_s *dev);
/* Command/Status/Data Transfer */
static int stm32_sendcmd(FAR struct sdio_dev_s *dev, uint32_t cmd,
uint32_t arg);
static void stm32_blocksetup(FAR struct sdio_dev_s *dev,
unsigned int blocksize, unsigned int nblocks);
static int stm32_recvsetup(FAR struct sdio_dev_s *dev, FAR uint8_t *buffer,
size_t nbytes);
static int stm32_sendsetup(FAR struct sdio_dev_s *dev,
FAR const uint8_t *buffer, uint32_t nbytes);
static int stm32_cancel(FAR struct sdio_dev_s *dev);
static int stm32_waitresponse(FAR struct sdio_dev_s *dev, uint32_t cmd);
static int stm32_recvshortcrc(FAR struct sdio_dev_s *dev, uint32_t cmd,
uint32_t *rshort);
static int stm32_recvlong(FAR struct sdio_dev_s *dev, uint32_t cmd,
uint32_t rlong[4]);
static int stm32_recvshort(FAR struct sdio_dev_s *dev, uint32_t cmd,
uint32_t *rshort);
/* EVENT handler */
static void stm32_waitenable(FAR struct sdio_dev_s *dev,
sdio_eventset_t eventset);
static sdio_eventset_t
stm32_eventwait(FAR struct sdio_dev_s *dev, uint32_t timeout);
static void stm32_callbackenable(FAR struct sdio_dev_s *dev,
sdio_eventset_t eventset);
static int stm32_registercallback(FAR struct sdio_dev_s *dev,
worker_t callback, void *arg);
/* DMA */
#ifdef CONFIG_STM32F7_SDMMC_DMA
#ifdef CONFIG_ARCH_HAVE_SDIO_PREFLIGHT
static int stm32_dmapreflight(FAR struct sdio_dev_s *dev,
FAR const uint8_t *buffer, size_t buflen);
#endif
static int stm32_dmarecvsetup(FAR struct sdio_dev_s *dev,
FAR uint8_t *buffer, size_t buflen);
static int stm32_dmasendsetup(FAR struct sdio_dev_s *dev,
FAR const uint8_t *buffer, size_t buflen);
#ifdef CONFIG_ARCH_HAVE_SDIO_DELAYED_INVLDT
static int stm32_dmadelydinvldt(FAR struct sdio_dev_s *dev,
FAR const uint8_t *buffer, size_t buflen);
#endif
#endif /* CONFIG_STM32F7_SDMMC_DMA */
/* Initialization/uninitialization/reset ************************************/
static void stm32_callback(void *arg);
static void stm32_default(struct stm32_dev_s *priv);
/****************************************************************************
* Private Data
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC1
struct stm32_dev_s g_sdmmcdev1 =
{
.dev =
{
#ifdef CONFIG_SDIO_MUXBUS
.lock = stm32_lock,
#endif
.reset = stm32_reset,
.capabilities = stm32_capabilities,
.status = stm32_status,
.widebus = stm32_widebus,
.clock = stm32_clock,
.attach = stm32_attach,
.sendcmd = stm32_sendcmd,
.blocksetup = stm32_blocksetup,
.recvsetup = stm32_recvsetup,
.sendsetup = stm32_sendsetup,
.cancel = stm32_cancel,
.waitresponse = stm32_waitresponse,
.recv_r1 = stm32_recvshortcrc,
.recv_r2 = stm32_recvlong,
.recv_r3 = stm32_recvshort,
.recv_r4 = stm32_recvshort,
.recv_r5 = stm32_recvshortcrc,
.recv_r6 = stm32_recvshortcrc,
.recv_r7 = stm32_recvshort,
.waitenable = stm32_waitenable,
.eventwait = stm32_eventwait,
.callbackenable = stm32_callbackenable,
.registercallback = stm32_registercallback,
#ifdef CONFIG_SDIO_DMA
#ifdef CONFIG_STM32F7_SDMMC_DMA
#ifdef CONFIG_ARCH_HAVE_SDIO_PREFLIGHT
.dmapreflight = stm32_dmapreflight,
#endif
.dmarecvsetup = stm32_dmarecvsetup,
.dmasendsetup = stm32_dmasendsetup,
#ifdef CONFIG_ARCH_HAVE_SDIO_DELAYED_INVLDT
.dmadelydinvldt = stm32_dmadelydinvldt,
#endif
#else
#ifdef CONFIG_ARCH_HAVE_SDIO_PREFLIGHT
.dmapreflight = NULL,
#endif
.dmarecvsetup = stm32_recvsetup,
.dmasendsetup = stm32_sendsetup,
#endif /* CONFIG_STM32F7_SDMMC_DMA */
#endif /* CONFIG_SDIO_DMA*/
},
.base = STM32_SDMMC1_BASE,
.nirq = STM32_IRQ_SDMMC1,
#ifdef CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE
.d0_gpio = SDMMC1_SDIO_PULL(GPIO_SDMMC1_D0),
#endif
#ifdef CONFIG_STM32F7_SDMMC1_DMAPRIO
.dmapri = CONFIG_STM32F7_SDMMC1_DMAPRIO,
#endif
#ifdef HAVE_SDMMC_SDIO_MODE
#ifdef CONFIG_SDMMC1_SDIO_MODE
.sdiomode = true,
#else
.sdiomode = false,
#endif
.do_sdio_card = NULL,
#endif
};
#endif
#ifdef CONFIG_STM32F7_SDMMC2
struct stm32_dev_s g_sdmmcdev2 =
{
.dev =
{
#ifdef CONFIG_SDIO_MUXBUS
.lock = stm32_lock,
#endif
.reset = stm32_reset,
.capabilities = stm32_capabilities,
.status = stm32_status,
.widebus = stm32_widebus,
.clock = stm32_clock,
.attach = stm32_attach,
.sendcmd = stm32_sendcmd,
.blocksetup = stm32_blocksetup,
.recvsetup = stm32_recvsetup,
.sendsetup = stm32_sendsetup,
.cancel = stm32_cancel,
.waitresponse = stm32_waitresponse,
.recv_r1 = stm32_recvshortcrc,
.recv_r2 = stm32_recvlong,
.recv_r3 = stm32_recvshort,
.recv_r4 = stm32_recvshort,
.recv_r5 = stm32_recvshortcrc,
.recv_r6 = stm32_recvshortcrc,
.recv_r7 = stm32_recvshort,
.waitenable = stm32_waitenable,
.eventwait = stm32_eventwait,
.callbackenable = stm32_callbackenable,
.registercallback = stm32_registercallback,
#ifdef CONFIG_SDIO_DMA
#ifdef CONFIG_ARCH_HAVE_SDIO_PREFLIGHT
.dmapreflight = stm32_dmapreflight,
#endif
.dmarecvsetup = stm32_dmarecvsetup,
.dmasendsetup = stm32_dmasendsetup,
#ifdef CONFIG_ARCH_HAVE_SDIO_DELAYED_INVLDT
.dmadelydinvldt = stm32_dmadelydinvldt,
#endif
#endif
},
.base = STM32_SDMMC2_BASE,
.nirq = STM32_IRQ_SDMMC2,
#ifdef CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE
.d0_gpio = SDMMC2_SDIO_PULL(GPIO_SDMMC2_D0),
#endif
#ifdef CONFIG_STM32F7_SDMMC2_DMAPRIO
.dmapri = CONFIG_STM32F7_SDMMC2_DMAPRIO,
#endif
#ifdef HAVE_SDMMC_SDIO_MODE
#ifdef CONFIG_SDMMC2_SDIO_MODE
.sdiomode = true,
#else
.sdiomode = false,
#endif
.do_sdio_card = NULL,
#endif
};
#endif
/* Register logging support */
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
static struct stm32_sampleregs_s g_sampleregs[DEBUG_NSAMPLES];
#endif
/****************************************************************************
* Private Functions
****************************************************************************/
/****************************************************************************
* Name: sdmmc_putreg32
****************************************************************************/
static inline void sdmmc_putreg32(struct stm32_dev_s *priv, uint32_t value,
int offset)
{
putreg32(value, priv->base + offset);
}
/****************************************************************************
* Name: sdmmc_gettreg32
****************************************************************************/
static inline uint32_t sdmmc_getreg32(struct stm32_dev_s *priv, int offset)
{
return getreg32(priv->base + offset);
}
/****************************************************************************
* Name: sdmmc_modifyreg32
****************************************************************************/
static inline void sdmmc_modifyreg32(struct stm32_dev_s *priv, int offset,
uint32_t clearbits, uint32_t setbits)
{
irqstate_t flags;
int32_t regval;
flags = enter_critical_section();
regval = getreg32(priv->base + offset);
regval &= ~clearbits;
regval |= setbits;
putreg32(regval, priv->base + offset);
leave_critical_section(flags);
}
/****************************************************************************
* Name: stm32_takesem
*
* Description:
* Take the wait semaphore (handling false alarm wakeups due to the receipt
* of signals).
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
*
* Returned Value:
* Normally OK, but may return -ECANCELED in the rare event that the task
* has been canceled.
*
****************************************************************************/
static int stm32_takesem(struct stm32_dev_s *priv)
{
return nxsem_wait_uninterruptible(&priv->waitsem);
}
/****************************************************************************
* Name: stm32_setclkcr
*
* Description:
* Modify oft-changed bits in the CLKCR register. Only the following bit-
* fields are changed:
*
* CLKDIV, PWRSAV, BYPASS, WIDBUS, NEGEDGE, and HWFC_EN
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
* clkcr - A new CLKCR setting for the above mentions bits (other bits
* are ignored.
*
* Returned Value:
* None
*
****************************************************************************/
static inline void stm32_setclkcr(struct stm32_dev_s *priv, uint32_t clkcr)
{
uint32_t regval = sdmmc_getreg32(priv, STM32_SDMMC_CLKCR_OFFSET);
/* Clear CLKDIV, PWRSAV, BYPASS, WIDBUS, NEGEDGE, HWFC_EN bits */
regval &= ~(STM32_SDMMC_CLKCR_CLKDIV_MASK | STM32_SDMMC_CLKCR_PWRSAV |
STM32_SDMMC_CLKCR_BYPASS | STM32_SDMMC_CLKCR_WIDBUS_MASK |
STM32_SDMMC_CLKCR_NEGEDGE | STM32_SDMMC_CLKCR_HWFC_EN |
STM32_SDMMC_CLKCR_CLKEN);
/* Replace with user provided settings */
clkcr &= (STM32_SDMMC_CLKCR_CLKDIV_MASK | STM32_SDMMC_CLKCR_PWRSAV |
STM32_SDMMC_CLKCR_BYPASS | STM32_SDMMC_CLKCR_WIDBUS_MASK |
STM32_SDMMC_CLKCR_NEGEDGE | STM32_SDMMC_CLKCR_HWFC_EN |
STM32_SDMMC_CLKCR_CLKEN);
regval |= clkcr;
sdmmc_putreg32(priv, regval, STM32_SDMMC_CLKCR_OFFSET);
mcinfo("CLKCR: %08x PWR: %08x\n",
sdmmc_getreg32(priv, STM32_SDMMC_CLKCR_OFFSET),
sdmmc_getreg32(priv, STM32_SDMMC_POWER_OFFSET));
}
/****************************************************************************
* Name: stm32_configwaitints
*
* Description:
* Enable/disable SDIO interrupts needed to support the wait function
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
* waitmask - The set of bits in the SDIO MASK register to set
* waitevents - Waited for events
* wkupevent - Wake-up events
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_configwaitints(struct stm32_dev_s *priv, uint32_t waitmask,
sdio_eventset_t waitevents,
sdio_eventset_t wkupevent)
{
irqstate_t flags;
#ifdef CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE
int pinset;
#endif
/* Save all of the data and set the new interrupt mask in one, atomic
* operation.
*/
flags = enter_critical_section();
#ifdef CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE
if ((waitmask & SDIOWAIT_WRCOMPLETE) != 0)
{
/* Do not use this in STM32_SDMMC_MASK register */
waitmask &= ~SDIOWAIT_WRCOMPLETE;
pinset = priv->d0_gpio & (GPIO_PORT_MASK | GPIO_PIN_MASK | \
GPIO_PUPD_MASK);
pinset |= (GPIO_INPUT | GPIO_EXTI);
/* Arm the SDMMC_D Ready and install Isr */
stm32_gpiosetevent(pinset, true, false, false,
stm32_sdmmc_rdyinterrupt, priv);
}
/* Disarm SDMMC_D ready */
if ((wkupevent & SDIOWAIT_WRCOMPLETE) != 0)
{
stm32_gpiosetevent(priv->d0_gpio, false, false, false,
NULL, NULL);
stm32_configgpio(priv->d0_gpio);
}
#endif
priv->waitevents = waitevents;
priv->wkupevent = wkupevent;
priv->waitmask = waitmask;
#ifdef CONFIG_STM32F7_SDMMC_DMA
priv->xfrflags = 0;
#endif
#ifdef HAVE_SDMMC_SDIO_MODE
if (priv->sdiomode == true)
{
sdmmc_putreg32(priv,
priv->xfrmask | priv->waitmask | priv->sdiointmask,
STM32_SDMMC_MASK_OFFSET);
}
else
#endif
{
sdmmc_putreg32(priv, priv->xfrmask | priv->waitmask,
STM32_SDMMC_MASK_OFFSET);
}
leave_critical_section(flags);
}
/****************************************************************************
* Name: stm32_configxfrints
*
* Description:
* Enable SDIO interrupts needed to support the data transfer event
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
* xfrmask - The set of bits in the SDIO MASK register to set
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_configxfrints(struct stm32_dev_s *priv, uint32_t xfrmask)
{
irqstate_t flags;
flags = enter_critical_section();
priv->xfrmask = xfrmask;
#ifdef HAVE_SDMMC_SDIO_MODE
if (priv->sdiomode == true)
{
sdmmc_putreg32(priv,
priv->xfrmask | priv->waitmask | priv->sdiointmask,
STM32_SDMMC_MASK_OFFSET);
}
else
#endif
{
sdmmc_putreg32(priv, priv->xfrmask | priv->waitmask,
STM32_SDMMC_MASK_OFFSET);
}
leave_critical_section(flags);
}
/****************************************************************************
* Name: stm32_setpwrctrl
*
* Description:
* Change the PWRCTRL field of the SDIO POWER register to turn the SDIO
* ON or OFF
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
* clkcr - A new PWRCTRL setting
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_setpwrctrl(struct stm32_dev_s *priv, uint32_t pwrctrl)
{
uint32_t regval;
regval = sdmmc_getreg32(priv, STM32_SDMMC_POWER_OFFSET);
regval &= ~STM32_SDMMC_POWER_PWRCTRL_MASK;
regval |= pwrctrl;
sdmmc_putreg32(priv, regval, STM32_SDMMC_POWER_OFFSET);
}
/****************************************************************************
* Name: stm32_getpwrctrl
*
* Description:
* Return the current value of the the PWRCTRL field of the SDIO POWER
* register. This function can be used to see if the SDIO is powered ON
* or OFF
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
*
* Returned Value:
* The current value of the the PWRCTRL field of the SDIO POWER register.
*
****************************************************************************/
static inline uint32_t stm32_getpwrctrl(struct stm32_dev_s *priv)
{
return sdmmc_getreg32(priv, STM32_SDMMC_POWER_OFFSET) &
STM32_SDMMC_POWER_PWRCTRL_MASK;
}
/****************************************************************************
* Name: stm32_sampleinit
*
* Description:
* Setup prior to collecting DMA samples
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
static void stm32_sampleinit(void)
{
memset(g_sampleregs, 0xff, DEBUG_NSAMPLES *
sizeof(struct stm32_sampleregs_s));
}
#endif
/****************************************************************************
* Name: stm32_sdiosample
*
* Description:
* Sample SDIO registers
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
static void stm32_sdiosample(struct stm32_dev_s *priv,
struct stm32_sdioregs_s *regs)
{
regs->power = (uint8_t)sdmmc_getreg32(priv, STM32_SDMMC_POWER_OFFSET);
regs->clkcr = (uint16_t)sdmmc_getreg32(priv, STM32_SDMMC_CLKCR_OFFSET);
regs->dctrl = (uint16_t)sdmmc_getreg32(priv, STM32_SDMMC_DCTRL_OFFSET);
regs->dtimer = sdmmc_getreg32(priv, STM32_SDMMC_DTIMER_OFFSET);
regs->dlen = sdmmc_getreg32(priv, STM32_SDMMC_DLEN_OFFSET);
regs->dcount = sdmmc_getreg32(priv, STM32_SDMMC_DCOUNT_OFFSET);
regs->sta = sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET);
regs->mask = sdmmc_getreg32(priv, STM32_SDMMC_MASK_OFFSET);
regs->fifocnt = sdmmc_getreg32(priv, STM32_SDMMC_FIFOCNT_OFFSET);
}
#endif
/****************************************************************************
* Name: stm32_sample
*
* Description:
* Sample SDIO/DMA registers
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
static void stm32_sample(struct stm32_dev_s *priv, int index)
{
struct stm32_sampleregs_s *regs = &g_sampleregs[index];
#if defined(CONFIG_DEBUG_DMA_INFO) && defined(CONFIG_STM32F7_SDMMC_DMA)
if (priv->dmamode)
{
stm32_dmasample(priv->dma, &regs->dma);
}
#endif
stm32_sdiosample(priv, &regs->sdio);
}
#endif
/****************************************************************************
* Name: stm32_sdiodump
*
* Description:
* Dump one register sample
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
static void stm32_sdiodump(struct stm32_sdioregs_s *regs, const char *msg)
{
mcinfo("SDIO Registers: %s\n", msg);
mcinfo(" POWER[%08x]: %08x\n", STM32_SDMMC_POWER_OFFSET, regs->power);
mcinfo(" CLKCR[%08x]: %08x\n", STM32_SDMMC_CLKCR_OFFSET, regs->clkcr);
mcinfo(" DCTRL[%08x]: %08x\n", STM32_SDMMC_DCTRL_OFFSET, regs->dctrl);
mcinfo(" DTIMER[%08x]: %08x\n", STM32_SDMMC_DTIMER_OFFSET, regs->dtimer);
mcinfo(" DLEN[%08x]: %08x\n", STM32_SDMMC_DLEN_OFFSET, regs->dlen);
mcinfo(" DCOUNT[%08x]: %08x\n", STM32_SDMMC_DCOUNT_OFFSET, regs->dcount);
mcinfo(" STA[%08x]: %08x\n", STM32_SDMMC_STA_OFFSET, regs->sta);
mcinfo(" MASK[%08x]: %08x\n", STM32_SDMMC_MASK_OFFSET, regs->mask);
mcinfo("FIFOCNT[%08x]: %08x\n", STM32_SDMMC_FIFOCNT_OFFSET, regs->fifocnt);
}
#endif
/****************************************************************************
* Name: stm32_dumpsample
*
* Description:
* Dump one register sample
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
static void stm32_dumpsample(struct stm32_dev_s *priv,
struct stm32_sampleregs_s *regs,
const char *msg)
{
#if defined(CONFIG_DEBUG_DMA_INFO) && defined(CONFIG_STM32F7_SDMMC_DMA)
if (priv->dmamode)
{
stm32_dmadump(priv->dma, &regs->dma, msg);
}
#endif
stm32_sdiodump(&regs->sdio, msg);
}
#endif
/****************************************************************************
* Name: stm32_dumpsamples
*
* Description:
* Dump all sampled register data
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_XFRDEBUG
static void stm32_dumpsamples(struct stm32_dev_s *priv)
{
stm32_dumpsample(priv, &g_sampleregs[SAMPLENDX_BEFORE_SETUP],
"Before setup");
#if defined(CONFIG_DEBUG_DMA_INFO) && defined(CONFIG_STM32F7_SDMMC_DMA)
if (priv->dmamode)
{
stm32_dumpsample(priv, &g_sampleregs[SAMPLENDX_BEFORE_ENABLE],
"Before DMA enable");
}
#endif
stm32_dumpsample(priv, &g_sampleregs[SAMPLENDX_AFTER_SETUP],
"After setup");
stm32_dumpsample(priv, &g_sampleregs[SAMPLENDX_END_TRANSFER],
"End of transfer");
#if defined(CONFIG_DEBUG_DMA_INFO) && defined(CONFIG_STM32F7_SDMMC_DMA)
if (priv->dmamode)
{
stm32_dumpsample(priv, &g_sampleregs[SAMPLENDX_DMA_CALLBACK],
"DMA Callback");
}
#endif
}
#endif
/****************************************************************************
* Name: stm32_dmacallback
*
* Description:
* Called when SDIO DMA completes
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_DMA
static void stm32_dmacallback(DMA_HANDLE handle, uint8_t status, void *arg)
{
FAR struct stm32_dev_s *priv = (FAR struct stm32_dev_s *)arg;
DEBUGASSERT(priv->dmamode);
sdio_eventset_t result;
/* In the normal case, SDIO appears to handle the End-Of-Transfer interrupt
* first with the End-Of-DMA event occurring significantly later. On
* transfer errors, however, the DMA error will occur before the End-of-
* Transfer.
*/
stm32_sample((struct stm32_dev_s *)arg, SAMPLENDX_DMA_CALLBACK);
/* Get the result of the DMA transfer */
if ((status & DMA_STATUS_ERROR) != 0)
{
mcerr("DMA error %02x, remaining: %d\n", status, priv->remaining);
result = SDIOWAIT_ERROR;
}
else
{
result = SDIOWAIT_TRANSFERDONE;
}
/* Then terminate the transfer if this completes all of the steps in the
* transfer OR if a DMA error occurred. In the non-error case, we should
* already have the SDIO transfer done interrupt. If not, the transfer
* will appropriately time out.
*/
priv->xfrflags |= SDMMC_DMADONE_FLAG;
if (priv->xfrflags == SDMMC_ALLDONE || result == SDIOWAIT_ERROR)
{
stm32_endtransfer(priv, result);
}
}
#endif
/****************************************************************************
* Name: stm32_log2
*
* Description:
* Take (approximate) log base 2 of the provided number (Only works if the
* provided number is a power of 2).
*
****************************************************************************/
static uint8_t stm32_log2(uint16_t value)
{
uint8_t log2 = 0;
/* 0000 0000 0000 0001 -> return 0,
* 0000 0000 0000 001x -> return 1,
* 0000 0000 0000 01xx -> return 2,
* 0000 0000 0000 1xxx -> return 3,
* ...
* 1xxx xxxx xxxx xxxx -> return 15,
*/
DEBUGASSERT(value > 0);
while (value != 1)
{
value >>= 1;
log2++;
}
return log2;
}
/****************************************************************************
* Name: stm32_dataconfig
*
* Description:
* Configure the SDIO data path for the next data transfer
*
****************************************************************************/
static void stm32_dataconfig(struct stm32_dev_s *priv, uint32_t timeout,
uint32_t dlen, uint32_t dctrl)
{
uint32_t regval = 0;
/* Enable data path */
sdmmc_putreg32(priv, timeout, STM32_SDMMC_DTIMER_OFFSET); /* Set DTIMER */
sdmmc_putreg32(priv, dlen, STM32_SDMMC_DLEN_OFFSET); /* Set DLEN */
/* Configure DCTRL DTDIR, DTMODE, and DBLOCKSIZE fields and set the DTEN
* field
*/
regval = sdmmc_getreg32(priv, STM32_SDMMC_DCTRL_OFFSET);
regval &= ~(STM32_SDMMC_DCTRL_DTDIR | STM32_SDMMC_DCTRL_DTMODE |
STM32_SDMMC_DCTRL_DBLOCKSIZE_MASK);
dctrl &= (STM32_SDMMC_DCTRL_DTDIR | STM32_SDMMC_DCTRL_DTMODE |
STM32_SDMMC_DCTRL_DBLOCKSIZE_MASK);
#ifdef HAVE_SDMMC_SDIO_MODE
if (priv->sdiomode == true)
{
regval |= (dctrl | STM32_SDMMC_DCTRL_DTEN | STM32_SDMMC_DCTRL_SDIOEN);
}
else
#endif
{
regval |= (dctrl | STM32_SDMMC_DCTRL_DTEN);
}
sdmmc_putreg32(priv, regval, STM32_SDMMC_DCTRL_OFFSET);
}
/****************************************************************************
* Name: stm32_datadisable
*
* Description:
* Disable the SDIO data path setup by stm32_dataconfig() and
* disable DMA.
*
****************************************************************************/
static void stm32_datadisable(struct stm32_dev_s *priv)
{
uint32_t regval;
/* Disable the data path */
/* Reset DTIMER */
sdmmc_putreg32(priv, SDMMC_DTIMER_DATATIMEOUT, STM32_SDMMC_DTIMER_OFFSET);
sdmmc_putreg32(priv, 0, STM32_SDMMC_DLEN_OFFSET); /* Reset DLEN */
/* Reset DCTRL DTEN, DTDIR, DTMODE, DMAEN, and DBLOCKSIZE fields */
regval = sdmmc_getreg32(priv, STM32_SDMMC_DCTRL_OFFSET);
regval &= ~(STM32_SDMMC_DCTRL_DTEN | STM32_SDMMC_DCTRL_DTDIR |
STM32_SDMMC_DCTRL_DTMODE | STM32_SDMMC_DCTRL_DMAEN |
STM32_SDMMC_DCTRL_DBLOCKSIZE_MASK);
sdmmc_putreg32(priv, regval, STM32_SDMMC_DCTRL_OFFSET);
}
/****************************************************************************
* Name: stm32_sendfifo
*
* Description:
* Send SDIO data in interrupt mode
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_sendfifo(struct stm32_dev_s *priv)
{
union
{
uint32_t w;
uint8_t b[4];
} data;
/* Loop while there is more data to be sent and the RX FIFO is not full */
while (priv->remaining > 0 &&
(sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET) &
STM32_SDMMC_STA_TXFIFOF) == 0)
{
/* Is there a full word remaining in the user buffer? */
if (priv->remaining >= sizeof(uint32_t))
{
/* Yes, transfer the word to the TX FIFO */
data.w = *priv->buffer++;
priv->remaining -= sizeof(uint32_t);
}
else
{
/* No.. transfer just the bytes remaining in the user buffer,
* padding with zero as necessary to extend to a full word.
*/
uint8_t *ptr = (uint8_t *)priv->remaining;
int i;
data.w = 0;
for (i = 0; i < (int)priv->remaining; i++)
{
data.b[i] = *ptr++;
}
/* Now the transfer is finished */
priv->remaining = 0;
}
/* Put the word in the FIFO */
sdmmc_putreg32(priv, data.w, STM32_SDMMC_FIFO_OFFSET);
}
}
/****************************************************************************
* Name: stm32_recvfifo
*
* Description:
* Receive SDIO data in interrupt mode
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_recvfifo(struct stm32_dev_s *priv)
{
union
{
uint32_t w;
uint8_t b[4];
} data;
/* Loop while there is space to store the data and there is more
* data available in the RX FIFO.
*/
while (priv->remaining > 0 &&
(sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET) &
STM32_SDMMC_STA_RXDAVL) != 0)
{
/* Read the next word from the RX FIFO */
data.w = sdmmc_getreg32(priv, STM32_SDMMC_FIFO_OFFSET);
if (priv->remaining >= sizeof(uint32_t))
{
/* Transfer the whole word to the user buffer */
*priv->buffer++ = data.w;
priv->remaining -= sizeof(uint32_t);
}
else
{
/* Transfer any trailing fractional word */
uint8_t *ptr = (uint8_t *)priv->buffer;
int i;
for (i = 0; i < (int)priv->remaining; i++)
{
*ptr++ = data.b[i];
}
/* Now the transfer is finished */
priv->remaining = 0;
}
}
}
/****************************************************************************
* Name: stm32_eventtimeout
*
* Description:
* The watchdog timeout setup when the event wait start has expired without
* any other waited-for event occurring.
*
* Input Parameters:
* argc - The number of arguments (should be 1)
* arg - The argument (the SDMMC private state structure reference cast
* to uint32_t)
*
* Returned Value:
* None
*
* Assumptions:
* Always called from the interrupt level with interrupts disabled.
*
****************************************************************************/
static void stm32_eventtimeout(int argc, uint32_t arg, ...)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)arg;
/* There is always race conditions with timer expirations. */
DEBUGASSERT((priv->waitevents & SDIOWAIT_TIMEOUT) != 0 ||
priv->wkupevent != 0);
/* Is a data transfer complete event expected? */
if ((priv->waitevents & SDIOWAIT_TIMEOUT) != 0)
{
/* Yes.. wake up any waiting threads */
stm32_endwait(priv, SDIOWAIT_TIMEOUT);
mcerr("Timeout: remaining: %d\n", priv->remaining);
}
}
/****************************************************************************
* Name: stm32_endwait
*
* Description:
* Wake up a waiting thread if the waited-for event has occurred.
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
* wkupevent - The event that caused the wait to end
*
* Returned Value:
* None
*
* Assumptions:
* Always called from the interrupt level with interrupts disabled.
*
****************************************************************************/
static void stm32_endwait(struct stm32_dev_s *priv,
sdio_eventset_t wkupevent)
{
/* Cancel the watchdog timeout */
wd_cancel(priv->waitwdog);
/* Disable event-related interrupts */
stm32_configwaitints(priv, 0, 0, wkupevent);
/* Wake up the waiting thread */
stm32_givesem(priv);
}
/****************************************************************************
* Name: stm32_endtransfer
*
* Description:
* Terminate a transfer with the provided status. This function is called
* only from the SDIO interrupt handler when end-of-transfer conditions
* are detected.
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
* wkupevent - The event that caused the transfer to end
*
* Returned Value:
* None
*
* Assumptions:
* Always called from the interrupt level with interrupts disabled.
*
****************************************************************************/
static void stm32_endtransfer(struct stm32_dev_s *priv,
sdio_eventset_t wkupevent)
{
/* Disable the DTEN bit (it should not be left set after previous read when
* the next write initialization starts).
*/
#if 1
sdmmc_putreg32(priv,
sdmmc_getreg32(priv, STM32_SDMMC_DCTRL_OFFSET) &
~STM32_SDMMC_DCTRL_DTEN,
STM32_SDMMC_DCTRL_OFFSET);
#else
stm32_datadisable(priv);
#endif
/* Disable all transfer related interrupts */
stm32_configxfrints(priv, 0);
/* Clearing pending interrupt status on all transfer related interrupts */
sdmmc_putreg32(priv, STM32_SDMMC_XFRDONE_ICR, STM32_SDMMC_ICR_OFFSET);
/* If this was a DMA transfer, make sure that DMA is stopped */
#ifdef CONFIG_STM32F7_SDMMC_DMA
if (priv->dmamode)
{
/* DMA debug instrumentation */
stm32_sample(priv, SAMPLENDX_END_TRANSFER);
/* Make sure that the DMA is stopped (it will be stopped automatically
* on normal transfers, but not necessarily when the transfer
* terminates on an error condition).
*/
stm32_dmastop(priv->dma);
}
#endif
/* Mark the transfer finished */
priv->remaining = 0;
/* Is a thread wait for these data transfer complete events? */
if ((priv->waitevents & wkupevent) != 0)
{
/* Yes.. wake up any waiting threads */
stm32_endwait(priv, wkupevent);
}
}
/****************************************************************************
* Name: stm32_sdmmc[1|2]_rdyinterrupt
*
* Description:
* SDMMC ready interrupt handler
*
* Input Parameters:
* irq - not used
* context - not used
*
* Returned Value:
* None
*
****************************************************************************/
#ifdef CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE
static int stm32_sdmmc_rdyinterrupt(int irq, void *context, void *arg)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)arg;
stm32_endwait(priv, SDIOWAIT_WRCOMPLETE);
return OK;
}
#endif
/****************************************************************************
* Name: stm32_sdmmc_interrupt
*
* Description:
* SDMMC interrupt handler
*
* Input Parameters:
* priv - Instance of the SDMMC private state structure.
*
* Returned Value:
* None
*
****************************************************************************/
static int stm32_sdmmc_interrupt(int irq, void *context, void *arg)
{
uint32_t enabled;
uint32_t pending;
#ifdef HAVE_SDMMC_SDIO_MODE
uint32_t mask;
#endif
struct stm32_dev_s *priv = (struct stm32_dev_s *) arg;
DEBUGASSERT(priv != NULL);
/* Loop while there are pending interrupts. Check the SDIO status
* register. Mask out all bits that don't correspond to enabled
* interrupts. (This depends on the fact that bits are ordered
* the same in both the STA and MASK register). If there are non-zero
* bits remaining, then we have work to do here.
*/
while ((enabled = sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET) &
sdmmc_getreg32(priv, STM32_SDMMC_MASK_OFFSET)) != 0)
{
/* Handle in progress, interrupt driven data transfers ****************/
pending = enabled & priv->xfrmask;
if (pending != 0)
{
#ifdef CONFIG_STM32F7_SDMMC_DMA
if (!priv->dmamode)
#endif
{
/* Is the RX FIFO half full or more? Is so then we must be
* processing a receive transaction.
*/
if ((pending & STM32_SDMMC_STA_RXFIFOHF) != 0)
{
/* Receive data from the RX FIFO */
stm32_recvfifo(priv);
}
/* Otherwise, Is the transmit FIFO half empty or less? If so
* we must be processing a send transaction. NOTE: We can't
* be processing both!
*/
else if ((pending & STM32_SDMMC_STA_TXFIFOHE) != 0)
{
/* Send data via the TX FIFO */
stm32_sendfifo(priv);
}
}
/* Handle data end events */
if ((pending & STM32_SDMMC_STA_DATAEND) != 0)
{
/* Handle any data remaining the RX FIFO. If the RX FIFO is
* less than half full at the end of the transfer, then no
* half-full interrupt will be received.
*/
/* Was this transfer performed in DMA mode? */
#ifdef CONFIG_STM32F7_SDMMC_DMA
if (priv->dmamode)
{
/* Yes.. Terminate the transfers only if the DMA has also
* finished.
*/
priv->xfrflags |= SDMMC_XFRDONE_FLAG;
if (priv->xfrflags == SDMMC_ALLDONE)
{
stm32_endtransfer(priv, SDIOWAIT_TRANSFERDONE);
}
/* Otherwise, just disable further transfer interrupts and
* wait for the DMA complete event.
*/
else
{
stm32_configxfrints(priv, 0);
}
}
else
#endif
{
/* Receive data from the RX FIFO */
stm32_recvfifo(priv);
/* Then terminate the transfer */
stm32_endtransfer(priv, SDIOWAIT_TRANSFERDONE);
}
}
/* Handle data block send/receive CRC failure */
else if ((pending & STM32_SDMMC_STA_DCRCFAIL) != 0)
{
/* Terminate the transfer with an error */
mcerr("ERROR: Data block CRC failure, remaining: %d\n",
priv->remaining);
stm32_endtransfer(priv,
SDIOWAIT_TRANSFERDONE | SDIOWAIT_ERROR);
}
/* Handle data timeout error */
else if ((pending & STM32_SDMMC_STA_DTIMEOUT) != 0)
{
/* Terminate the transfer with an error */
mcerr("ERROR: Data timeout, remaining: %d\n",
priv->remaining);
stm32_endtransfer(priv,
SDIOWAIT_TRANSFERDONE | SDIOWAIT_TIMEOUT);
}
/* Handle RX FIFO overrun error */
else if ((pending & STM32_SDMMC_STA_RXOVERR) != 0)
{
/* Terminate the transfer with an error */
mcerr("ERROR: RX FIFO overrun, remaining: %d\n",
priv->remaining);
stm32_endtransfer(priv,
SDIOWAIT_TRANSFERDONE | SDIOWAIT_ERROR);
}
/* Handle TX FIFO underrun error */
else if ((pending & STM32_SDMMC_STA_TXUNDERR) != 0)
{
/* Terminate the transfer with an error */
mcerr("ERROR: TX FIFO underrun, remaining: %d\n",
priv->remaining);
stm32_endtransfer(priv,
SDIOWAIT_TRANSFERDONE | SDIOWAIT_ERROR);
}
/* Handle start bit error */
else if ((pending & STM32_SDMMC_STA_STBITERR) != 0)
{
/* Terminate the transfer with an error */
mcerr("ERROR: Start bit, remaining: %d\n",
priv->remaining);
stm32_endtransfer(priv,
SDIOWAIT_TRANSFERDONE | SDIOWAIT_ERROR);
}
}
/* Handle wait events *************************************************/
pending = enabled & priv->waitmask;
if (pending != 0)
{
/* Is this a response completion event? */
if ((pending & STM32_SDMMC_RESPDONE_STA) != 0)
{
/* Yes.. Is their a thread waiting for response done? */
if ((priv->waitevents & SDIOWAIT_RESPONSEDONE) != 0)
{
/* Yes.. wake the thread up */
sdmmc_putreg32(priv, STM32_SDMMC_RESPDONE_ICR |
STM32_SDMMC_CMDDONE_ICR,
STM32_SDMMC_ICR_OFFSET);
stm32_endwait(priv, SDIOWAIT_RESPONSEDONE);
}
}
/* Is this a command completion event? */
if ((pending & STM32_SDMMC_CMDDONE_STA) != 0)
{
/* Yes.. Is their a thread waiting for command done? */
if ((priv->waitevents & SDIOWAIT_RESPONSEDONE) != 0)
{
/* Yes.. wake the thread up */
sdmmc_putreg32(priv, STM32_SDMMC_CMDDONE_ICR,
STM32_SDMMC_ICR_OFFSET);
stm32_endwait(priv, SDIOWAIT_CMDDONE);
}
}
}
#ifdef HAVE_SDMMC_SDIO_MODE
if (priv->sdiomode == true)
{
pending = enabled & priv->sdiointmask;
if (pending != 0)
{
mask = sdmmc_getreg32(priv, STM32_SDMMC_MASK_OFFSET);
/* Clear the mask so we don't get call'd again */
sdmmc_putreg32(priv, mask & ~STM32_SDMMC_MASK_SDIOITIE,
STM32_SDMMC_MASK_OFFSET);
/* Now clear the interruption */
sdmmc_putreg32(priv, STM32_SDMMC_ICR_SDIOITC,
STM32_SDMMC_ICR_OFFSET);
/* Call the ISR that has been registered */
if (priv->do_sdio_card)
{
priv->do_sdio_card(priv->do_sdio_arg);
}
}
}
#endif
}
return OK;
}
/****************************************************************************
* Name: stm32_lock
*
* Description:
* Locks the bus. Function calls low-level multiplexed bus routines to
* resolve bus requests and acknowledgment issues.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* lock - TRUE to lock, FALSE to unlock.
*
* Returned Value:
* OK on success; a negated errno on failure
*
****************************************************************************/
#ifdef CONFIG_SDIO_MUXBUS
static int stm32_lock(FAR struct sdio_dev_s *dev, bool lock)
{
/* The multiplex bus is part of board support package. */
stm32_muxbus_sdio_lock(dev, lock);
return OK;
}
#endif
/****************************************************************************
* Name: stm32_reset
*
* Description:
* Reset the SDIO controller. Undo all setup and initialization.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_reset(FAR struct sdio_dev_s *dev)
{
FAR struct stm32_dev_s *priv = (FAR struct stm32_dev_s *)dev;
irqstate_t flags;
/* Disable clocking */
flags = enter_critical_section();
sdmmc_modifyreg32(priv, STM32_SDMMC_CLKCR_OFFSET,
STM32_SDMMC_CLKCR_CLKEN, 0);
stm32_setpwrctrl(priv, STM32_SDMMC_POWER_PWRCTRL_OFF);
/* Put SDIO registers in their default, reset state */
stm32_default(priv);
/* Reset data */
priv->waitevents = 0; /* Set of events to be waited for */
priv->waitmask = 0; /* Interrupt enables for event waiting */
priv->wkupevent = 0; /* The event that caused the wakeup */
#ifdef CONFIG_STM32F7_SDMMC_DMA
priv->xfrflags = 0; /* Used to synchronize SDIO and DMA
* completion events */
#endif
wd_cancel(priv->waitwdog); /* Cancel any timeouts */
/* Interrupt mode data transfer support */
priv->buffer = 0; /* Address of current R/W buffer */
priv->remaining = 0; /* Number of bytes remaining in the transfer */
priv->xfrmask = 0; /* Interrupt enables for data transfer */
#ifdef HAVE_SDMMC_SDIO_MODE
priv->sdiointmask = 0;
#endif
/* DMA data transfer support */
priv->widebus = false; /* Required for DMA support */
#ifdef CONFIG_STM32F7_SDMMC_DMA
priv->dmamode = false; /* true: DMA mode transfer */
#endif
/* Configure the SDIO peripheral */
stm32_setclkcr(priv, STM32_CLCKCR_INIT | STM32_SDMMC_CLKCR_CLKEN);
stm32_setpwrctrl(priv, STM32_SDMMC_POWER_PWRCTRL_ON);
leave_critical_section(flags);
mcinfo("CLCKR: %08x POWER: %08x\n",
sdmmc_getreg32(priv, STM32_SDMMC_CLKCR_OFFSET),
sdmmc_getreg32(priv, STM32_SDMMC_POWER_OFFSET));
}
/****************************************************************************
* Name: stm32_capabilities
*
* Description:
* Get capabilities (and limitations) of the SDIO driver (optional)
*
* Input Parameters:
* dev - Device-specific state data
*
* Returned Value:
* Returns a bitset of status values (see SDIO_CAPS_* defines)
*
****************************************************************************/
static sdio_capset_t stm32_capabilities(FAR struct sdio_dev_s *dev)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
sdio_capset_t caps = 0;
if (priv->onebit)
{
caps |= SDIO_CAPS_1BIT_ONLY;
}
#ifdef CONFIG_STM32F7_SDMMC_DMA
caps |= SDIO_CAPS_DMASUPPORTED;
#endif
return caps;
}
/****************************************************************************
* Name: stm32_status
*
* Description:
* Get SDIO status.
*
* Input Parameters:
* dev - Device-specific state data
*
* Returned Value:
* Returns a bitset of status values (see stm32_status_* defines)
*
****************************************************************************/
static sdio_statset_t stm32_status(FAR struct sdio_dev_s *dev)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
return priv->cdstatus;
}
/****************************************************************************
* Name: stm32_widebus
*
* Description:
* Called after change in Bus width has been selected (via ACMD6). Most
* controllers will need to perform some special operations to work
* correctly in the new bus mode.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* wide - true: wide bus (4-bit) bus mode enabled
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_widebus(FAR struct sdio_dev_s *dev, bool wide)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
priv->widebus = wide;
}
/****************************************************************************
* Name: stm32_clock
*
* Description:
* Enable/disable SDIO clocking
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* rate - Specifies the clocking to use (see enum sdio_clock_e)
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_clock(FAR struct sdio_dev_s *dev, enum sdio_clock_e rate)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t clckr;
switch (rate)
{
/* Disable clocking (with default ID mode divisor) */
default:
case CLOCK_SDIO_DISABLED:
clckr = STM32_CLCKCR_INIT;
return;
/* Enable in initial ID mode clocking (<400KHz) */
case CLOCK_IDMODE:
clckr = (STM32_CLCKCR_INIT | STM32_SDMMC_CLKCR_CLKEN);
break;
/* Enable in MMC normal operation clocking */
case CLOCK_MMC_TRANSFER:
clckr = (STM32_SDMMC_CLKCR_MMCXFR | STM32_SDMMC_CLKCR_CLKEN);
break;
/* SD normal operation clocking (wide 4-bit mode) */
case CLOCK_SD_TRANSFER_4BIT:
if (!priv->onebit)
{
clckr = (STM32_SDMMC_CLCKR_SDWIDEXFR | STM32_SDMMC_CLKCR_CLKEN);
break;
}
/* FALLTHROUGH */
/* SD normal operation clocking (narrow 1-bit mode) */
case CLOCK_SD_TRANSFER_1BIT:
clckr = (STM32_SDMMC_CLCKR_SDXFR | STM32_SDMMC_CLKCR_CLKEN);
break;
}
/* Set the new clock frequency along with the clock enable/disable bit */
stm32_setclkcr(priv, clckr);
}
/****************************************************************************
* Name: stm32_attach
*
* Description:
* Attach and prepare interrupts
*
* Input Parameters:
* dev - An instance of the SDIO device interface
*
* Returned Value:
* OK on success; A negated errno on failure.
*
****************************************************************************/
static int stm32_attach(FAR struct sdio_dev_s *dev)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
int ret;
/* Attach the SDIO interrupt handler */
ret = irq_attach(priv->nirq, stm32_sdmmc_interrupt, priv);
if (ret == OK)
{
/* Disable all interrupts at the SDIO controller and clear static
* interrupt flags
*/
sdmmc_putreg32(priv, STM32_SDMMC_MASK_RESET,
STM32_SDMMC_MASK_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_ICR_STATICFLAGS,
STM32_SDMMC_ICR_OFFSET);
/* Enable SDIO interrupts at the NVIC. They can now be enabled at
* the SDIO controller as needed.
*/
up_enable_irq(priv->nirq);
}
return ret;
}
/****************************************************************************
* Name: stm32_sendcmd
*
* Description:
* Send the SDIO command
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* cmd - The command to send (32-bits, encoded)
* arg - 32-bit argument required with some commands
*
* Returned Value:
* None
*
****************************************************************************/
static int stm32_sendcmd(FAR struct sdio_dev_s *dev, uint32_t cmd,
uint32_t arg)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t regval;
uint32_t cmdidx;
/* Set the SDIO Argument value */
sdmmc_putreg32(priv, arg, STM32_SDMMC_ARG_OFFSET);
/* Clear CMDINDEX, WAITRESP, WAITINT, WAITPEND, and CPSMEN bits */
regval = sdmmc_getreg32(priv, STM32_SDMMC_CMD_OFFSET);
regval &= ~(STM32_SDMMC_CMD_CMDINDEX_MASK | STM32_SDMMC_CMD_WAITRESP_MASK |
STM32_SDMMC_CMD_WAITINT | STM32_SDMMC_CMD_WAITPEND |
STM32_SDMMC_CMD_CPSMEN);
/* Set WAITRESP bits */
switch (cmd & MMCSD_RESPONSE_MASK)
{
case MMCSD_NO_RESPONSE:
regval |= STM32_SDMMC_CMD_NORESPONSE;
break;
case MMCSD_R1_RESPONSE:
case MMCSD_R1B_RESPONSE:
case MMCSD_R3_RESPONSE:
case MMCSD_R4_RESPONSE:
case MMCSD_R5_RESPONSE:
case MMCSD_R6_RESPONSE:
case MMCSD_R7_RESPONSE:
regval |= STM32_SDMMC_CMD_SHORTRESPONSE;
break;
case MMCSD_R2_RESPONSE:
regval |= STM32_SDMMC_CMD_LONGRESPONSE;
break;
}
/* Set CPSMEN and the command index */
cmdidx = (cmd & MMCSD_CMDIDX_MASK) >> MMCSD_CMDIDX_SHIFT;
regval |= cmdidx | STM32_SDMMC_CMD_CPSMEN;
mcinfo("cmd: %08x arg: %08x regval: %08x\n", cmd, arg, regval);
/* Write the SDIO CMD */
sdmmc_putreg32(priv, STM32_SDMMC_RESPDONE_ICR | STM32_SDMMC_CMDDONE_ICR,
STM32_SDMMC_ICR_OFFSET);
sdmmc_putreg32(priv, regval, STM32_SDMMC_CMD_OFFSET);
return OK;
}
/****************************************************************************
* Name: stm32_blocksetup
*
* Description:
* Configure block size and the number of blocks for next transfer.
*
* Input Parameters:
* dev - An instance of the SDIO device interface.
* blocksize - The selected block size.
* nblocks - The number of blocks to transfer.
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_blocksetup(FAR struct sdio_dev_s *dev,
unsigned int blocksize, unsigned int nblocks)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
priv->blocksize = blocksize;
}
/****************************************************************************
* Name: stm32_recvsetup
*
* Description:
* Setup hardware in preparation for data transfer from the card in non-DMA
* (interrupt driven mode). This method will do whatever controller setup
* is necessary. This would be called for SD memory just BEFORE sending
* CMD13 (SEND_STATUS), CMD17 (READ_SINGLE_BLOCK), CMD18
* (READ_MULTIPLE_BLOCKS), ACMD51 (SEND_SCR), etc. Normally,
* SDMMC_WAITEVENT will be called to receive the indication that the
* transfer is complete.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* buffer - Address of the buffer in which to receive the data
* nbytes - The number of bytes in the transfer
*
* Returned Value:
* Number of bytes sent on success; a negated errno on failure
*
****************************************************************************/
static int stm32_recvsetup(FAR struct sdio_dev_s *dev, FAR uint8_t *buffer,
size_t nbytes)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t dblksize;
DEBUGASSERT(priv != NULL && buffer != NULL && nbytes > 0);
DEBUGASSERT(((uint32_t)buffer & 3) == 0);
/* Reset the DPSM configuration */
stm32_datadisable(priv);
stm32_sampleinit();
stm32_sample(priv, SAMPLENDX_BEFORE_SETUP);
/* Save the destination buffer information for use by the interrupt
* handler.
*/
priv->buffer = (uint32_t *)buffer;
priv->remaining = nbytes;
#ifdef CONFIG_STM32F7_SDMMC_DMA
priv->dmamode = false;
#endif
/* Then set up the SDIO data path */
dblksize = stm32_log2(priv->blocksize) <<
STM32_SDMMC_DCTRL_DBLOCKSIZE_SHIFT;
stm32_dataconfig(priv, SDMMC_DTIMER_DATATIMEOUT * ((nbytes + 511) >> 9),
nbytes, dblksize | STM32_SDMMC_DCTRL_DTDIR);
/* And enable interrupts */
stm32_configxfrints(priv, STM32_SDMMC_RECV_MASK);
stm32_sample(priv, SAMPLENDX_AFTER_SETUP);
return OK;
}
/****************************************************************************
* Name: stm32_sendsetup
*
* Description:
* Setup hardware in preparation for data transfer from the card. This
* method will do whatever controller setup is necessary. This would be
* called for SD memory just AFTER sending CMD24 (WRITE_BLOCK), CMD25
* (WRITE_MULTIPLE_BLOCK), ... and before SDMMC_SENDDATA is called.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* buffer - Address of the buffer containing the data to send
* nbytes - The number of bytes in the transfer
*
* Returned Value:
* Number of bytes sent on success; a negated errno on failure
*
****************************************************************************/
static int stm32_sendsetup(FAR struct sdio_dev_s *dev, FAR const
uint8_t *buffer, size_t nbytes)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t dblksize;
DEBUGASSERT(priv != NULL && buffer != NULL && nbytes > 0);
DEBUGASSERT(((uint32_t)buffer & 3) == 0);
/* Reset the DPSM configuration */
stm32_datadisable(priv);
stm32_sampleinit();
stm32_sample(priv, SAMPLENDX_BEFORE_SETUP);
/* Save the source buffer information for use by the interrupt handler */
priv->buffer = (uint32_t *)buffer;
priv->remaining = nbytes;
#ifdef CONFIG_STM32F7_SDMMC_DMA
priv->dmamode = false;
#endif
/* Then set up the SDIO data path */
dblksize = stm32_log2(priv->blocksize) <<
STM32_SDMMC_DCTRL_DBLOCKSIZE_SHIFT;
stm32_dataconfig(priv, SDMMC_DTIMER_DATATIMEOUT * ((nbytes + 511) >> 9),
nbytes, dblksize);
/* Enable TX interrupts */
stm32_configxfrints(priv, STM32_SDMMC_SEND_MASK);
stm32_sample(priv, SAMPLENDX_AFTER_SETUP);
return OK;
}
/****************************************************************************
* Name: stm32_cancel
*
* Description:
* Cancel the data transfer setup of SDMMC_RECVSETUP, SDMMC_SENDSETUP,
* SDMMC_DMARECVSETUP or SDMMC_DMASENDSETUP. This must be called to cancel
* the data transfer setup if, for some reason, you cannot perform the
* transfer.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
*
* Returned Value:
* OK is success; a negated errno on failure
*
****************************************************************************/
static int stm32_cancel(FAR struct sdio_dev_s *dev)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
/* Disable all transfer- and event- related interrupts */
stm32_configxfrints(priv, 0);
stm32_configwaitints(priv, 0, 0, 0);
/* Clearing pending interrupt status on all transfer- and event- related
* interrupts
*/
sdmmc_putreg32(priv, STM32_SDMMC_WAITALL_ICR, STM32_SDMMC_ICR_OFFSET);
/* Cancel any watchdog timeout */
wd_cancel(priv->waitwdog);
/* If this was a DMA transfer, make sure that DMA is stopped */
#ifdef CONFIG_STM32F7_SDMMC_DMA
if (priv->dmamode)
{
/* Make sure that the DMA is stopped (it will be stopped automatically
* on normal transfers, but not necessarily when the transfer
* terminates on an error condition.
*/
stm32_dmastop(priv->dma);
}
#endif
/* Mark no transfer in progress */
priv->remaining = 0;
return OK;
}
/****************************************************************************
* Name: stm32_waitresponse
*
* Description:
* Poll-wait for the response to the last command to be ready.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* cmd - The command that was sent. See 32-bit command definitions above.
*
* Returned Value:
* OK is success; a negated errno on failure
*
****************************************************************************/
static int stm32_waitresponse(FAR struct sdio_dev_s *dev, uint32_t cmd)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
int32_t timeout;
uint32_t events;
switch (cmd & MMCSD_RESPONSE_MASK)
{
case MMCSD_NO_RESPONSE:
events = STM32_SDMMC_CMDDONE_STA;
timeout = SDMMC_CMDTIMEOUT;
break;
case MMCSD_R1_RESPONSE:
case MMCSD_R1B_RESPONSE:
case MMCSD_R2_RESPONSE:
case MMCSD_R4_RESPONSE:
case MMCSD_R5_RESPONSE:
case MMCSD_R6_RESPONSE:
events = STM32_SDMMC_RESPDONE_STA;
timeout = SDMMC_LONGTIMEOUT;
break;
case MMCSD_R3_RESPONSE:
case MMCSD_R7_RESPONSE:
events = STM32_SDMMC_RESPDONE_STA;
timeout = SDMMC_CMDTIMEOUT;
break;
default:
return -EINVAL;
}
/* Then wait for the response (or timeout) */
while ((sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET) & events) == 0)
{
if (--timeout <= 0)
{
mcerr("ERROR: Timeout cmd: %08x events: %08x STA: %08x\n",
cmd, events, sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET));
return -ETIMEDOUT;
}
}
sdmmc_putreg32(priv, STM32_SDMMC_CMDDONE_ICR, STM32_SDMMC_ICR_OFFSET);
return OK;
}
/****************************************************************************
* Name: stm32_recv*
*
* Description:
* Receive response to SDIO command. Only the critical payload is
* returned -- that is 32 bits for 48 bit status and 128 bits for 136 bit
* status. The driver implementation should verify the correctness of
* the remaining, non-returned bits (CRCs, CMD index, etc.).
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* Rx - Buffer in which to receive the response
*
* Returned Value:
* Number of bytes sent on success; a negated errno on failure. Here a
* failure means only a faiure to obtain the requested response (due to
* transport problem -- timeout, CRC, etc.). The implementation only
* assures that the response is returned intact and does not check errors
* within the response itself.
*
****************************************************************************/
static int stm32_recvshortcrc(FAR struct sdio_dev_s *dev, uint32_t cmd,
uint32_t *rshort)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
#ifdef CONFIG_DEBUG_FEATURES
uint32_t respcmd;
#endif
uint32_t regval;
int ret = OK;
/* R1 Command response (48-bit)
* 47 0 Start bit
* 46 0 Transmission bit (0=from card)
* 45:40 bit5 - bit0 Command index (0-63)
* 39:8 bit31 - bit0 32-bit card status
* 7:1 bit6 - bit0 CRC7
* 0 1 End bit
*
* R1b Identical to R1 with the additional busy signaling via the data
* line.
*
* R6 Published RCA Response (48-bit, SD card only)
* 47 0 Start bit
* 46 0 Transmission bit (0=from card)
* 45:40 bit5 - bit0 Command index (0-63)
* 39:8 bit31 - bit0 32-bit Argument Field, consisting of:
* [31:16] New published RCA of card
* [15:0] Card status bits {23,22,19,12:0}
* 7:1 bit6 - bit0 CRC7
* 0 1 End bit
*/
#ifdef CONFIG_DEBUG_FEATURES
if (!rshort)
{
mcerr("ERROR: rshort=NULL\n");
ret = -EINVAL;
}
/* Check that this is the correct response to this command */
else if ((cmd & MMCSD_RESPONSE_MASK) != MMCSD_R1_RESPONSE &&
(cmd & MMCSD_RESPONSE_MASK) != MMCSD_R1B_RESPONSE &&
(cmd & MMCSD_RESPONSE_MASK) != MMCSD_R5_RESPONSE &&
(cmd & MMCSD_RESPONSE_MASK) != MMCSD_R6_RESPONSE)
{
mcerr("ERROR: Wrong response CMD=%08x\n", cmd);
ret = -EINVAL;
}
else
#endif
{
/* Check if a timeout or CRC error occurred */
regval = sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET);
if ((regval & STM32_SDMMC_STA_CTIMEOUT) != 0)
{
mcerr("ERROR: Command timeout: %08x\n", regval);
ret = -ETIMEDOUT;
}
else if ((regval & STM32_SDMMC_STA_CCRCFAIL) != 0)
{
mcerr("ERROR: CRC failure: %08x\n", regval);
ret = -EIO;
}
#ifdef CONFIG_DEBUG_FEATURES
else
{
/* Check response received is of desired command */
respcmd = sdmmc_getreg32(priv, STM32_SDMMC_RESPCMD_OFFSET);
if ((uint8_t)(respcmd & STM32_SDMMC_RESPCMD_MASK) !=
(cmd & MMCSD_CMDIDX_MASK))
{
mcerr("ERROR: RESCMD=%02x CMD=%08x\n", respcmd, cmd);
ret = -EINVAL;
}
}
#endif
}
/* Clear all pending message completion events and return the R1/R6
* response.
*/
sdmmc_putreg32(priv, STM32_SDMMC_RESPDONE_ICR | STM32_SDMMC_CMDDONE_ICR,
STM32_SDMMC_ICR_OFFSET);
*rshort = sdmmc_getreg32(priv, STM32_SDMMC_RESP1_OFFSET);
return ret;
}
static int stm32_recvlong(FAR struct sdio_dev_s *dev, uint32_t cmd,
uint32_t rlong[4])
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t regval;
int ret = OK;
/* R2 CID, CSD register (136-bit)
* 135 0 Start bit
* 134 0 Transmission bit (0=from card)
* 133:128 bit5 - bit0 Reserved
* 127:1 bit127 - bit1 127-bit CID or CSD register
* (including internal CRC)
* 0 1 End bit
*/
#ifdef CONFIG_DEBUG_FEATURES
/* Check that R1 is the correct response to this command */
if ((cmd & MMCSD_RESPONSE_MASK) != MMCSD_R2_RESPONSE)
{
mcerr("ERROR: Wrong response CMD=%08x\n", cmd);
ret = -EINVAL;
}
else
#endif
{
/* Check if a timeout or CRC error occurred */
regval = sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET);
if (regval & STM32_SDMMC_STA_CTIMEOUT)
{
mcerr("ERROR: Timeout STA: %08x\n", regval);
ret = -ETIMEDOUT;
}
else if (regval & STM32_SDMMC_STA_CCRCFAIL)
{
mcerr("ERROR: CRC fail STA: %08x\n", regval);
ret = -EIO;
}
}
/* Return the long response */
sdmmc_putreg32(priv, STM32_SDMMC_RESPDONE_ICR | STM32_SDMMC_CMDDONE_ICR,
STM32_SDMMC_ICR_OFFSET);
if (rlong)
{
rlong[0] = sdmmc_getreg32(priv, STM32_SDMMC_RESP1_OFFSET);
rlong[1] = sdmmc_getreg32(priv, STM32_SDMMC_RESP2_OFFSET);
rlong[2] = sdmmc_getreg32(priv, STM32_SDMMC_RESP3_OFFSET);
rlong[3] = sdmmc_getreg32(priv, STM32_SDMMC_RESP4_OFFSET);
}
return ret;
}
static int stm32_recvshort(FAR struct sdio_dev_s *dev, uint32_t cmd,
uint32_t *rshort)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t regval;
int ret = OK;
/* R3 OCR (48-bit)
* 47 0 Start bit
* 46 0 Transmission bit (0=from card)
* 45:40 bit5 - bit0 Reserved
* 39:8 bit31 - bit0 32-bit OCR register
* 7:1 bit6 - bit0 Reserved
* 0 1 End bit
*/
/* Check that this is the correct response to this command */
#ifdef CONFIG_DEBUG_FEATURES
if ((cmd & MMCSD_RESPONSE_MASK) != MMCSD_R3_RESPONSE &&
(cmd & MMCSD_RESPONSE_MASK) != MMCSD_R4_RESPONSE &&
(cmd & MMCSD_RESPONSE_MASK) != MMCSD_R7_RESPONSE)
{
mcerr("ERROR: Wrong response CMD=%08x\n", cmd);
ret = -EINVAL;
}
else
#endif
{
/* Check if a timeout occurred (Apparently a CRC error can terminate
* a good response)
*/
regval = sdmmc_getreg32(priv, STM32_SDMMC_STA_OFFSET);
if (regval & STM32_SDMMC_STA_CTIMEOUT)
{
mcerr("ERROR: Timeout STA: %08x\n", regval);
ret = -ETIMEDOUT;
}
}
sdmmc_putreg32(priv, STM32_SDMMC_RESPDONE_ICR | STM32_SDMMC_CMDDONE_ICR,
STM32_SDMMC_ICR_OFFSET);
if (rshort)
{
*rshort = sdmmc_getreg32(priv, STM32_SDMMC_RESP1_OFFSET);
}
return ret;
}
/****************************************************************************
* Name: stm32_waitenable
*
* Description:
* Enable/disable of a set of SDIO wait events. This is part of the
* the SDMMC_WAITEVENT sequence. The set of to-be-waited-for events is
* configured before calling stm32_eventwait. This is done in this way
* to help the driver to eliminate race conditions between the command
* setup and the subsequent events.
*
* The enabled events persist until either (1) SDMMC_WAITENABLE is called
* again specifying a different set of wait events, or (2) SDMMC_EVENTWAIT
* returns.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* eventset - A bitset of events to enable or disable (see SDIOWAIT_*
* definitions). 0=disable; 1=enable.
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_waitenable(FAR struct sdio_dev_s *dev,
sdio_eventset_t eventset)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t waitmask;
DEBUGASSERT(priv != NULL);
/* Disable event-related interrupts */
stm32_configwaitints(priv, 0, 0, 0);
/* Select the interrupt mask that will give us the appropriate wakeup
* interrupts.
*/
#if defined(CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE)
if ((eventset & SDIOWAIT_WRCOMPLETE) != 0)
{
waitmask = SDIOWAIT_WRCOMPLETE;
}
else
#endif
{
waitmask = 0;
if ((eventset & SDIOWAIT_CMDDONE) != 0)
{
waitmask |= STM32_SDMMC_CMDDONE_MASK;
}
if ((eventset & SDIOWAIT_RESPONSEDONE) != 0)
{
waitmask |= STM32_SDMMC_RESPDONE_MASK;
}
if ((eventset & SDIOWAIT_TRANSFERDONE) != 0)
{
waitmask |= STM32_SDMMC_XFRDONE_MASK;
}
/* Enable event-related interrupts */
sdmmc_putreg32(priv, STM32_SDMMC_WAITALL_ICR, STM32_SDMMC_ICR_OFFSET);
}
stm32_configwaitints(priv, waitmask, eventset, 0);
}
/****************************************************************************
* Name: stm32_eventwait
*
* Description:
* Wait for one of the enabled events to occur (or a timeout). Note that
* all events enabled by SDMMC_WAITEVENTS are disabled when stm32_eventwait
* returns. SDMMC_WAITEVENTS must be called again before stm32_eventwait
* can be used again.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* timeout - Maximum time in milliseconds to wait. Zero means immediate
* timeout with no wait. The timeout value is ignored if
* SDIOWAIT_TIMEOUT is not included in the waited-for eventset.
*
* Returned Value:
* Event set containing the event(s) that ended the wait. Should always
* be non-zero. All events are disabled after the wait concludes.
*
****************************************************************************/
static sdio_eventset_t stm32_eventwait(FAR struct sdio_dev_s *dev,
uint32_t timeout)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
sdio_eventset_t wkupevent = 0;
irqstate_t flags;
int ret;
/* There is a race condition here... the event may have completed before
* we get here. In this case waitevents will be zero, but wkupevents will
* be non-zero (and, hopefully, the semaphore count will also be non-zero.
*/
flags = enter_critical_section();
#if defined(CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE)
/* A card ejected while in SDIOWAIT_WRCOMPLETE can lead to a
* condition where there is no waitevents set and no wkupevent
*/
if (priv->waitevents == 0 && priv->wkupevent == 0)
{
wkupevent = SDIOWAIT_ERROR;
goto errout_with_waitints;
}
#else
DEBUGASSERT(priv->waitevents != 0 || priv->wkupevent != 0);
#endif
/* Check if the timeout event is specified in the event set */
if ((priv->waitevents & SDIOWAIT_TIMEOUT) != 0)
{
int delay;
/* Yes.. Handle a cornercase: The user request a timeout event but
* with timeout == 0?
*/
if (!timeout)
{
/* Then just tell the caller that we already timed out */
wkupevent = SDIOWAIT_TIMEOUT;
goto errout;
}
/* Start the watchdog timer */
delay = MSEC2TICK(timeout);
ret = wd_start(priv->waitwdog, delay, stm32_eventtimeout,
1, (uint32_t)priv);
if (ret < 0)
{
mcerr("ERROR: wd_start failed: %d\n", ret);
}
}
#if defined(CONFIG_MMCSD_SDIOWAIT_WRCOMPLETE)
if ((priv->waitevents & SDIOWAIT_WRCOMPLETE) != 0)
{
/* Atomically read pin to see if ready (true) and determine if ISR
* fired. If Pin is ready and if ISR did NOT fire end the wait here.
*/
if (stm32_gpioread(priv->d0_gpio) &&
(priv->wkupevent & SDIOWAIT_WRCOMPLETE) == 0)
{
stm32_endwait(priv, SDIOWAIT_WRCOMPLETE);
}
}
#endif
/* Loop until the event (or the timeout occurs). Race conditions are
* avoided by calling stm32_waitenable prior to triggering the logic that
* will cause the wait to terminate. Under certain race conditions, the
* waited-for may have already occurred before this function was called!
*/
for (; ; )
{
/* Wait for an event in event set to occur. If this the event has
* already occurred, then the semaphore will already have been
* incremented and there will be no wait.
*/
ret = stm32_takesem(priv);
if (ret < 0)
{
/* Task canceled. Cancel the wdog (assuming it was started) and
* return an SDIO error.
*/
wd_cancel(priv->waitwdog);
wkupevent = SDIOWAIT_ERROR;
goto errout_with_waitints;
}
wkupevent = priv->wkupevent;
/* Check if the event has occurred. When the event has occurred, then
* evenset will be set to 0 and wkupevent will be set to a nonzero
* value.
*/
if (wkupevent != 0)
{
/* Yes... break out of the loop with wkupevent non-zero */
break;
}
}
/* Disable event-related interrupts */
errout_with_waitints:
stm32_configwaitints(priv, 0, 0, 0);
#ifdef CONFIG_STM32F7_SDMMC_DMA
priv->xfrflags = 0;
#endif
errout:
leave_critical_section(flags);
stm32_dumpsamples(priv);
return wkupevent;
}
/****************************************************************************
* Name: stm32_callbackenable
*
* Description:
* Enable/disable of a set of SDIO callback events. This is part of the
* the SDIO callback sequence. The set of events is configured to enabled
* callbacks to the function provided in stm32_registercallback.
*
* Events are automatically disabled once the callback is performed and no
* further callback events will occur until they are again enabled by
* calling this method.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* eventset - A bitset of events to enable or disable (see SDIOMEDIA_*
* definitions). 0=disable; 1=enable.
*
* Returned Value:
* None
*
****************************************************************************/
static void stm32_callbackenable(FAR struct sdio_dev_s *dev,
sdio_eventset_t eventset)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
mcinfo("eventset: %02x\n", eventset);
DEBUGASSERT(priv != NULL);
priv->cbevents = eventset;
stm32_callback(priv);
}
/****************************************************************************
* Name: stm32_registercallback
*
* Description:
* Register a callback that that will be invoked on any media status
* change. Callbacks should not be made from interrupt handlers, rather
* interrupt level events should be handled by calling back on the work
* thread.
*
* When this method is called, all callbacks should be disabled until they
* are enabled via a call to SDMMC_CALLBACKENABLE
*
* Input Parameters:
* dev - Device-specific state data
* callback - The function to call on the media change
* arg - A caller provided value to return with the callback
*
* Returned Value:
* 0 on success; negated errno on failure.
*
****************************************************************************/
static int stm32_registercallback(FAR struct sdio_dev_s *dev,
worker_t callback, void *arg)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
/* Disable callbacks and register this callback and is argument */
mcinfo("Register %p(%p)\n", callback, arg);
DEBUGASSERT(priv != NULL);
priv->cbevents = 0;
priv->cbarg = arg;
priv->callback = callback;
return OK;
}
/****************************************************************************
* Name: stm32_dmapreflight
*
* Description:
* Preflight an SDIO DMA operation. If the buffer is not well-formed for
* SDIO DMA transfer (alignment, size, etc.) returns an error.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* buffer - The memory to DMA to/from
* buflen - The size of the DMA transfer in bytes
*
* Returned Value:
* OK on success; a negated errno on failure
****************************************************************************/
#if defined(CONFIG_STM32F7_SDMMC_DMA) && defined(CONFIG_ARCH_HAVE_SDIO_PREFLIGHT)
static int stm32_dmapreflight(FAR struct sdio_dev_s *dev,
FAR const uint8_t *buffer, size_t buflen)
{
#ifdef CONFIG_STM32F7_DMACAPABLE
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
DEBUGASSERT(priv != NULL && buffer != NULL && buflen > 0);
/* DMA must be possible to the buffer */
if (!stm32_dmacapable((uintptr_t)buffer, (buflen + 3) >> 2,
SDMMC_RXDMA32_CONFIG | priv->dmapri))
{
return -EFAULT;
}
#endif
return 0;
}
#endif
/****************************************************************************
* Name: stm32_dmarecvsetup
*
* Description:
* Setup to perform a read DMA. If the processor supports a data cache,
* then this method will also make sure that the contents of the DMA memory
* and the data cache are coherent. For read transfers this may mean
* invalidating the data cache.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* buffer - The memory to DMA from
* buflen - The size of the DMA transfer in bytes
*
* Returned Value:
* OK on success; a negated errno on failure
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_DMA
static int stm32_dmarecvsetup(FAR struct sdio_dev_s *dev,
FAR uint8_t *buffer, size_t buflen)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t dblksize;
DEBUGASSERT(priv != NULL && buffer != NULL && buflen > 0);
#ifdef CONFIG_ARCH_HAVE_SDIO_PREFLIGHT
DEBUGASSERT(stm32_dmapreflight(dev, buffer, buflen) == 0);
#else
# if defined(CONFIG_ARMV7M_DCACHE) && \
!defined(CONFIG_ARMV7M_DCACHE_WRITETHROUGH)
/* buffer alignment is required for DMA transfers with dcache in buffered
* mode (not write-through) because the up_invalidate_dcache could lose
* buffered buffered writes if the buffer alignment and sizes are not on
* ARMV7M_DCACHE_LINESIZE boundaries.
*/
if (((uintptr_t)buffer & (ARMV7M_DCACHE_LINESIZE - 1)) != 0 ||
(buflen & (ARMV7M_DCACHE_LINESIZE - 1)) != 0)
{
return -EFAULT;
}
# endif
#endif
/* Reset the DPSM configuration */
stm32_datadisable(priv);
/* Initialize register sampling */
stm32_sampleinit();
stm32_sample(priv, SAMPLENDX_BEFORE_SETUP);
/* Save the destination buffer information for use by the interrupt
* handler.
*/
priv->buffer = (uint32_t *)buffer;
priv->remaining = buflen;
priv->dmamode = true;
/* Then set up the SDIO data path */
dblksize = stm32_log2(priv->blocksize) <<
STM32_SDMMC_DCTRL_DBLOCKSIZE_SHIFT;
stm32_dataconfig(priv, SDMMC_DTIMER_DATATIMEOUT * ((buflen + 511) >> 9),
buflen, dblksize | STM32_SDMMC_DCTRL_DTDIR);
/* Configure the RX DMA */
stm32_configxfrints(priv, STM32_SDMMC_DMARECV_MASK);
sdmmc_modifyreg32(priv, STM32_SDMMC_DCTRL_OFFSET, 0,
STM32_SDMMC_DCTRL_DMAEN);
stm32_dmasetup(priv->dma, priv->base + STM32_SDMMC_FIFO_OFFSET,
(uint32_t)buffer, (buflen + 3) >> 2,
SDMMC_RXDMA32_CONFIG | priv->dmapri);
/* Force RAM reread */
if ((uintptr_t)buffer < DTCM_START ||
(uintptr_t)buffer + buflen > DTCM_END)
{
#if !defined(CONFIG_ARCH_HAVE_SDIO_DELAYED_INVLDT)
up_invalidate_dcache((uintptr_t)buffer, (uintptr_t)buffer + buflen);
#endif
}
/* Start the DMA */
stm32_sample(priv, SAMPLENDX_BEFORE_ENABLE);
stm32_dmastart(priv->dma, stm32_dmacallback, priv, false);
stm32_sample(priv, SAMPLENDX_AFTER_SETUP);
return OK;
}
#endif
/****************************************************************************
* Name: stm32_dmasendsetup
*
* Description:
* Setup to perform a write DMA. If the processor supports a data cache,
* then this method will also make sure that the contents of the DMA memory
* and the data cache are coherent. For write transfers, this may mean
* flushing the data cache.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* buffer - The memory to DMA into
* buflen - The size of the DMA transfer in bytes
*
* Returned Value:
* OK on success; a negated errno on failure
*
****************************************************************************/
#ifdef CONFIG_STM32F7_SDMMC_DMA
static int stm32_dmasendsetup(FAR struct sdio_dev_s *dev,
FAR const uint8_t *buffer, size_t buflen)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
uint32_t dblksize;
DEBUGASSERT(priv != NULL && buffer != NULL && buflen > 0);
#ifdef CONFIG_ARCH_HAVE_SDIO_PREFLIGHT
DEBUGASSERT(stm32_dmapreflight(dev, buffer, buflen) == 0);
#else
# if defined(CONFIG_ARMV7M_DCACHE) && \
!defined(CONFIG_ARMV7M_DCACHE_WRITETHROUGH)
/* buffer alignment is required for DMA transfers with dcache in buffered
* mode (not write-through) because the up_flush_dcache would corrupt
* adjacent memory if the buffer alignment and sizes are not on
* ARMV7M_DCACHE_LINESIZE boundaries.
*/
if (((uintptr_t)buffer & (ARMV7M_DCACHE_LINESIZE - 1)) != 0 ||
(buflen & (ARMV7M_DCACHE_LINESIZE - 1)) != 0)
{
return -EFAULT;
}
# endif
#endif
/* Reset the DPSM configuration */
stm32_datadisable(priv);
/* Initialize register sampling */
stm32_sampleinit();
stm32_sample(priv, SAMPLENDX_BEFORE_SETUP);
/* Flush cache to physical memory when not in DTCM memory */
if ((uintptr_t)buffer < DTCM_START ||
(uintptr_t)buffer + buflen > DTCM_END)
{
#ifdef CONFIG_ARMV7M_DCACHE_WRITETHROUGH
up_invalidate_dcache((uintptr_t)buffer, (uintptr_t)buffer + buflen);
#else
up_flush_dcache((uintptr_t)buffer, (uintptr_t)buffer + buflen);
#endif
}
/* Save the source buffer information for use by the interrupt handler */
priv->buffer = (uint32_t *)buffer;
priv->remaining = buflen;
priv->dmamode = true;
/* Then set up the SDIO data path */
dblksize = stm32_log2(priv->blocksize) <<
STM32_SDMMC_DCTRL_DBLOCKSIZE_SHIFT;
stm32_dataconfig(priv, SDMMC_DTIMER_DATATIMEOUT * ((buflen + 511) >> 9),
buflen, dblksize);
/* Configure the TX DMA */
stm32_dmasetup(priv->dma, priv->base + STM32_SDMMC_FIFO_OFFSET,
(uint32_t)buffer, (buflen + 3) >> 2,
SDMMC_TXDMA32_CONFIG | priv->dmapri);
sdmmc_modifyreg32(priv, STM32_SDMMC_DCTRL_OFFSET, 0,
STM32_SDMMC_DCTRL_DMAEN);
stm32_sample(priv, SAMPLENDX_BEFORE_ENABLE);
/* Start the DMA */
stm32_dmastart(priv->dma, stm32_dmacallback, priv, false);
stm32_sample(priv, SAMPLENDX_AFTER_SETUP);
/* Enable TX interrupts */
stm32_configxfrints(priv, STM32_SDMMC_DMASEND_MASK);
return OK;
}
#endif
/****************************************************************************
* Name: stm32_dmadelydinvldt
*
* Description:
* Delayed D-cache invalidation.
* This function should be called after receive DMA completion to perform
* D-cache invalidation. This eliminates the need for cache aligned DMA
* buffers when the D-cache is in store-through mode.
*
* Input Parameters:
* dev - An instance of the SDIO device interface
* buffer - The memory to DMA into
* buflen - The size of the DMA transfer in bytes
*
* Returned Value:
* OK on success; a negated errno on failure
*
****************************************************************************/
#if defined(CONFIG_ARCH_HAVE_SDIO_DELAYED_INVLDT) && \
defined(CONFIG_STM32F7_SDMMC_DMA)
static int stm32_dmadelydinvldt(FAR struct sdio_dev_s *dev,
FAR const uint8_t *buffer, size_t buflen)
{
/* Invaliate cache to physical memory when not in DTCM memory. */
if ((uintptr_t)buffer < DTCM_START ||
(uintptr_t)buffer + buflen > DTCM_END)
{
up_invalidate_dcache((uintptr_t)buffer,
(uintptr_t)buffer + buflen);
}
return OK;
}
#endif
/****************************************************************************
* Name: stm32_callback
*
* Description:
* Perform callback.
*
* Assumptions:
* This function does not execute in the context of an interrupt handler.
* It may be invoked on any user thread or scheduled on the work thread
* from an interrupt handler.
*
****************************************************************************/
static void stm32_callback(void *arg)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)arg;
/* Is a callback registered? */
DEBUGASSERT(priv != NULL);
mcinfo("Callback %p(%p) cbevents: %02x cdstatus: %02x\n",
priv->callback, priv->cbarg, priv->cbevents, priv->cdstatus);
if (priv->callback)
{
/* Yes.. Check for enabled callback events */
if ((priv->cdstatus & SDIO_STATUS_PRESENT) != 0)
{
/* Media is present. Is the media inserted event enabled? */
if ((priv->cbevents & SDIOMEDIA_INSERTED) == 0)
{
/* No... return without performing the callback */
return;
}
}
else
{
/* Media is not present. Is the media eject event enabled? */
if ((priv->cbevents & SDIOMEDIA_EJECTED) == 0)
{
/* No... return without performing the callback */
return;
}
}
/* Perform the callback, disabling further callbacks. Of course, the
* the callback can (and probably should) re-enable callbacks.
*/
priv->cbevents = 0;
/* Callbacks cannot be performed in the context of an interrupt
* handler. If we are in an interrupt handler, then queue the
* callback to be performed later on the work thread.
*/
if (up_interrupt_context())
{
/* Yes.. queue it */
mcinfo("Queuing callback to %p(%p)\n",
priv->callback, priv->cbarg);
work_queue(HPWORK, &priv->cbwork, (worker_t)priv->callback,
priv->cbarg, 0);
}
else
{
/* No.. then just call the callback here */
mcinfo("Callback to %p(%p)\n", priv->callback, priv->cbarg);
priv->callback(priv->cbarg);
}
}
}
/****************************************************************************
* Name: stm32_default
*
* Description:
* Restore SDIO registers to their default, reset values
*
****************************************************************************/
static void stm32_default(struct stm32_dev_s *priv)
{
sdmmc_putreg32(priv, STM32_SDMMC_POWER_RESET, STM32_SDMMC_POWER_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_CLKCR_RESET, STM32_SDMMC_CLKCR_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_ARG_RESET, STM32_SDMMC_ARG_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_CMD_RESET, STM32_SDMMC_CMD_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_DTIMER_RESET, STM32_SDMMC_DTIMER_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_DLEN_RESET, STM32_SDMMC_DLEN_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_DCTRL_RESET, STM32_SDMMC_DCTRL_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_ICR_RESET, STM32_SDMMC_ICR_OFFSET);
sdmmc_putreg32(priv, STM32_SDMMC_MASK_RESET, STM32_SDMMC_MASK_OFFSET);
}
/****************************************************************************
* Public Functions
****************************************************************************/
/****************************************************************************
* Name: sdio_initialize
*
* Description:
* Initialize SDIO for operation.
*
* Input Parameters:
* slotno - Not used.
*
* Returned Value:
* A reference to an SDIO interface structure. NULL is returned on
* failures.
*
****************************************************************************/
FAR struct sdio_dev_s *sdio_initialize(int slotno)
{
struct stm32_dev_s *priv = NULL;
#ifdef CONFIG_STM32F7_SDMMC_DMA
unsigned int dmachan;
#endif
#ifdef CONFIG_STM32F7_SDMMC1
if (slotno == 0)
{
/* Select SDMMC 1 */
priv = &g_sdmmcdev1;
# ifdef CONFIG_STM32F7_SDMMC_DMA
dmachan = SDMMC1_DMACHAN;
# endif
# ifdef CONFIG_SDMMC1_WIDTH_D1_ONLY
priv->onebit = true;
# else
priv->onebit = false;
# endif
/* Configure GPIOs for 4-bit, wide-bus operation (the chip is capable
* of 8-bit wide bus operation but D4-D7 are not configured).
*
* If bus is multiplexed then there is a custom bus configuration
* utility in the scope of the board support package.
*/
# ifndef CONFIG_SDIO_MUXBUS
stm32_configgpio(SDMMC1_SDIO_PULL(GPIO_SDMMC1_D0));
# ifndef CONFIG_SDMMC1_WIDTH_D1_ONLY
stm32_configgpio(SDMMC1_SDIO_PULL(GPIO_SDMMC1_D1));
stm32_configgpio(SDMMC1_SDIO_PULL(GPIO_SDMMC1_D2));
stm32_configgpio(SDMMC1_SDIO_PULL(GPIO_SDMMC1_D3));
# endif
stm32_configgpio(GPIO_SDMMC1_CK);
stm32_configgpio(SDMMC1_SDIO_PULL(GPIO_SDMMC1_CMD));
# endif
}
else
#endif
#ifdef CONFIG_STM32F7_SDMMC2
if (slotno == SDMMC2_SLOT)
{
/* Select SDMMC 2 */
priv = &g_sdmmcdev2;
# ifdef CONFIG_STM32F7_SDMMC_DMA
dmachan = SDMMC2_DMACHAN;
# endif
# ifdef CONFIG_SDMMC2_WIDTH_D1_ONLY
priv->onebit = true;
# else
priv->onebit = false;
# endif
/* Configure GPIOs for 4-bit, wide-bus operation (the chip is capable
* of 8-bit wide bus operation but D4-D7 are not configured).
*
* If bus is multiplexed then there is a custom bus configuration
* utility in the scope of the board support package.
*/
# ifndef CONFIG_SDIO_MUXBUS
stm32_configgpio(SDMMC2_SDIO_PULL(GPIO_SDMMC2_D0));
# ifndef CONFIG_SDMMC2_WIDTH_D1_ONLY
stm32_configgpio(SDMMC2_SDIO_PULL(GPIO_SDMMC2_D1));
stm32_configgpio(SDMMC2_SDIO_PULL(GPIO_SDMMC2_D2));
stm32_configgpio(SDMMC2_SDIO_PULL(GPIO_SDMMC2_D3));
# endif
stm32_configgpio(GPIO_SDMMC2_CK);
stm32_configgpio(SDMMC2_SDIO_PULL(GPIO_SDMMC2_CMD));
# endif
}
else
#endif
{
mcerr("ERROR: Unsupported SDMMC slot: %d\n", slotno);
return NULL;
}
/* Initialize the SDIO slot structure */
/* Initialize semaphores */
nxsem_init(&priv->waitsem, 0, 0);
/* The waitsem semaphore is used for signaling and, hence, should not have
* priority inheritance enabled.
*/
nxsem_setprotocol(&priv->waitsem, SEM_PRIO_NONE);
/* Create a watchdog timer */
priv->waitwdog = wd_create();
DEBUGASSERT(priv->waitwdog);
#ifdef CONFIG_STM32F7_SDMMC_DMA
/* Allocate a DMA channel */
priv->dma = stm32_dmachannel(dmachan);
DEBUGASSERT(priv->dma);
#endif
/* Reset the card and assure that it is in the initial, unconfigured
* state.
*/
stm32_reset(&priv->dev);
return &priv->dev;
}
/****************************************************************************
* Name: sdio_mediachange
*
* Description:
* Called by board-specific logic -- possible from an interrupt handler --
* in order to signal to the driver that a card has been inserted or
* removed from the slot
*
* Input Parameters:
* dev - An instance of the SDIO driver device state structure.
* cardinslot - true is a card has been detected in the slot; false if a
* card has been removed from the slot. Only transitions
* (inserted->removed or removed->inserted should be reported)
*
* Returned Value:
* None
*
****************************************************************************/
void sdio_mediachange(FAR struct sdio_dev_s *dev, bool cardinslot)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
sdio_statset_t cdstatus;
irqstate_t flags;
/* Update card status */
flags = enter_critical_section();
cdstatus = priv->cdstatus;
if (cardinslot)
{
priv->cdstatus |= SDIO_STATUS_PRESENT;
}
else
{
priv->cdstatus &= ~SDIO_STATUS_PRESENT;
}
leave_critical_section(flags);
mcinfo("cdstatus OLD: %02x NEW: %02x\n", cdstatus, priv->cdstatus);
/* Perform any requested callback if the status has changed */
if (cdstatus != priv->cdstatus)
{
stm32_callback(priv);
}
}
/****************************************************************************
* Name: sdio_wrprotect
*
* Description:
* Called by board-specific logic to report if the card in the slot is
* mechanically write protected.
*
* Input Parameters:
* dev - An instance of the SDIO driver device state structure.
* wrprotect - true is a card is writeprotected.
*
* Returned Value:
* None
*
****************************************************************************/
void sdio_wrprotect(FAR struct sdio_dev_s *dev, bool wrprotect)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
irqstate_t flags;
/* Update card status */
flags = enter_critical_section();
if (wrprotect)
{
priv->cdstatus |= SDIO_STATUS_WRPROTECTED;
}
else
{
priv->cdstatus &= ~SDIO_STATUS_WRPROTECTED;
}
mcinfo("cdstatus: %02x\n", priv->cdstatus);
leave_critical_section(flags);
}
#endif /* CONFIG_STM32F7_SDMMC1 || CONFIG_STM32F7_SDMMC2 */
#ifdef HAVE_SDMMC_SDIO_MODE
void sdio_set_sdio_card_isr(FAR struct sdio_dev_s *dev,
int (*func)(void *), void *arg)
{
struct stm32_dev_s *priv = (struct stm32_dev_s *)dev;
priv->do_sdio_card = func;
if (func != NULL)
{
priv->sdiointmask = STM32_SDMMC_STA_SDIOIT;
priv->do_sdio_arg = arg;
}
else
{
priv->sdiointmask = 0;
}
sdmmc_putreg32(priv, priv->xfrmask | priv->waitmask | priv->sdiointmask,
STM32_SDMMC_MASK_OFFSET);
}
#endif
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