/**************************************************************************** * arch/arm/src/sam3u/sam3u_sdio.c * * Copyright (C) 2010, 2012 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "chip.h" #include "up_arch.h" #include "sam3u_internal.h" #include "sam3u_dmac.h" #include "sam3u_pmc.h" #include "sam3u_hsmci.h" #if CONFIG_SAM3U_HSMCI /**************************************************************************** * Pre-Processor Definitions ****************************************************************************/ /* Configuration ************************************************************/ #ifndef CONFIG_SAM3U_DMA # warning "HSMCI driver requires CONFIG_SAM3U_DMA" #endif #ifndef CONFIG_SCHED_WORKQUEUE # error "Callback support requires CONFIG_SCHED_WORKQUEUE" #endif #ifndef CONFIG_SDIO_BLOCKSETUP # error "This driver requires CONFIG_SDIO_BLOCKSETUP" #endif #ifndef CONFIG_HSMCI_PRI # define CONFIG_HSMCI_PRI NVIC_SYSH_PRIORITY_DEFAULT #endif #if !defined(CONFIG_DEBUG_FS) || !defined(CONFIG_DEBUG_VERBOSE) # undef CONFIG_HSMCI_CMDDEBUG # undef CONFIG_HSMCI_XFRDEBUG #endif #ifdef CONFIG_SAM3U_HSMCI_RDPROOF # ifdef CONFIG_SAM3U_HSMCI_WRPROOF # define HSMCU_PROOF_BITS (HSMCI_MR_RDPROOF | HSMCI_MR_WRPROOF) # else # define HSMCU_PROOF_BITS HSMCI_MR_RDPROOF # endif #else # ifdef CONFIG_SAM3U_HSMCI_WRPROOF # define HSMCU_PROOF_BITS HSMCI_MR_WRPROOF # else # define HSMCU_PROOF_BITS (0) # endif #endif /* Timing */ #define HSMCI_CMDTIMEOUT (100000) #define HSMCI_LONGTIMEOUT (0x7fffffff) /* Big DTIMER setting */ #define HSMCI_DTIMER_DATATIMEOUT (0x000fffff) /* DMA configuration flags */ #define DMA_FLAGS \ (DMACH_FLAG_FIFO_8BYTES | DMACH_FLAG_FIFOCFG_LARGEST | \ (DMACHAN_PID_MCI0 << DMACH_FLAG_PERIPHPID_SHIFT) | \ DMACH_FLAG_PERIPHH2SEL | DMACH_FLAG_PERIPHISPERIPH | \ DMACH_FLAG_PERIPHWIDTH_32BITS | DMACH_FLAG_PERIPHCHUNKSIZE_1 | \ DMACH_FLAG_MEMWIDTH_32BITS | DMACH_FLAG_MEMINCREMENT | DMACH_FLAG_MEMCHUNKSIZE_4) /* Status errors: * * HSMCI_INT_UNRE Data transmit underrun * HSMCI_INT_OVRE Data receive overrun * HSMCI_INT_BLKOVRE DMA receive block overrun error * HSMCI_INT_CSTOE Completion signal time-out error (see HSMCI_CSTOR) * HSMCI_INT_DTOE Data time-out error (see HSMCI_DTOR) * HSMCI_INT_DCRCE Data CRC Error * HSMCI_INT_RTOE Response Time-out * HSMCI_INT_RENDE Response End Bit Error * HSMCI_INT_RCRCE Response CRC Error * HSMCI_INT_RDIRE Response Direction Error * HSMCI_INT_RINDE Response Index Error */ #define HSMCI_STATUS_ERRORS \ ( HSMCI_INT_UNRE | HSMCI_INT_OVRE | HSMCI_INT_BLKOVRE | HSMCI_INT_CSTOE | \ HSMCI_INT_DTOE | HSMCI_INT_DCRCE | HSMCI_INT_RTOE | HSMCI_INT_RENDE | \ HSMCI_INT_RCRCE | HSMCI_INT_RDIRE | HSMCI_INT_RINDE ) /* Response errors: * * HSMCI_INT_CSTOE Completion signal time-out error (see HSMCI_CSTOR) * HSMCI_INT_RTOE Response Time-out * HSMCI_INT_RENDE Response End Bit Error * HSMCI_INT_RCRCE Response CRC Error * HSMCI_INT_RDIRE Response Direction Error * HSMCI_INT_RINDE Response Index Error */ #define HSMCI_RESPONSE_ERRORS \ ( HSMCI_INT_CSTOE | HSMCI_INT_RTOE | HSMCI_INT_RENDE | HSMCI_INT_RCRCE | \ HSMCI_INT_RDIRE | HSMCI_INT_RINDE ) #define HSMCI_RESPONSE_NOCRC_ERRORS \ ( HSMCI_INT_CSTOE | HSMCI_INT_RTOE | HSMCI_INT_RENDE | HSMCI_INT_RDIRE | \ HSMCI_INT_RINDE ) #define HSMCI_RESPONSE_TIMEOUT_ERRORS \ ( HSMCI_INT_CSTOE | HSMCI_INT_RTOE ) /* Data transfer errors: * * HSMCI_INT_UNRE Data transmit underrun * HSMCI_INT_OVRE Data receive overrun * HSMCI_INT_BLKOVRE DMA receive block overrun error * HSMCI_INT_CSTOE Completion signal time-out error (see HSMCI_CSTOR) * HSMCI_INT_DTOE Data time-out error (see HSMCI_DTOR) * HSMCI_INT_DCRCE Data CRC Error */ #define HSMCI_DATA_ERRORS \ ( HSMCI_INT_UNRE | HSMCI_INT_OVRE | HSMCI_INT_BLKOVRE | HSMCI_INT_CSTOE | \ HSMCI_INT_DTOE | HSMCI_INT_DCRCE ) #define HSMCI_DATA_TIMEOUT_ERRORS \ ( HSMCI_INT_CSTOE | HSMCI_INT_DTOE ) #define HSMCI_DATA_DMARECV_ERRORS \ ( HSMCI_INT_OVRE | HSMCI_INT_BLKOVRE | HSMCI_INT_CSTOE | HSMCI_INT_DTOE | \ HSMCI_INT_DCRCE ) #define HSMCI_DATA_DMASEND_ERRORS \ ( HSMCI_INT_UNRE | HSMCI_INT_CSTOE | HSMCI_INT_DTOE | HSMCI_INT_DCRCE ) /* Data transfer status and interrupt mask bits. * * The XFRDONE flag in the HSMCI_SR indicates exactly when the read or * write sequence is finished. * * 0: A transfer is in progress. * 1: Command register is ready to operate and the data bus is in the idle state. * * DMADONE: DMA Transfer done * * 0: DMA buffer transfer has not completed since the last read of HSMCI_SR register. * 1: DMA buffer transfer has completed. */ #define HSMCI_DMARECV_INTS \ ( HSMCI_DATA_DMARECV_ERRORS | HSMCI_INT_XFRDONE /* | HSMCI_INT_DMADONE */ ) #define HSMCI_DMASEND_INTS \ ( HSMCI_DATA_DMASEND_ERRORS | HSMCI_INT_XFRDONE /* | HSMCI_INT_DMADONE */ ) /* Event waiting interrupt mask bits. * * CMDRDY (Command Ready): * * 0: A command is in progress * 1: The last command has been sent. The CMDRDY flag is released 8 bits * after the end of the card response. Cleared when writing in the HSMCI_CMDR */ #define HSMCI_CMDRESP_INTS \ ( HSMCI_RESPONSE_ERRORS | HSMCI_INT_CMDRDY ) #define HSMCI_CMDRESP_NOCRC_INTS \ ( HSMCI_RESPONSE_NOCRC_ERRORS | HSMCI_INT_CMDRDY ) /* Register logging support */ #ifdef CONFIG_HSMCI_XFRDEBUG # ifdef CONFIG_DEBUG_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_NDMASAMPLES 5 # else # define SAMPLENDX_BEFORE_SETUP 0 # define SAMPLENDX_AFTER_SETUP 1 # define SAMPLENDX_END_TRANSFER 2 # define DEBUG_NDMASAMPLES 3 # endif #endif #ifdef CONFIG_HSMCI_CMDDEBUG # define SAMPLENDX_AFTER_CMDR 0 # define SAMPLENDX_AT_WAKEUP 1 # define DEBUG_NCMDSAMPLES 2 #endif /**************************************************************************** * Private Types ****************************************************************************/ /* This structure defines the state of the SAM3U HSMCI interface */ struct sam3u_dev_s { struct sdio_dev_s dev; /* Standard, base SDIO interface */ /* SAM3U-specific extensions */ /* 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 */ uint32_t cmdrmask; /* Interrupt enables for this particular cmd/response */ volatile sdio_eventset_t wkupevent; /* The event that caused the wakeup */ WDOG_ID waitwdog; /* Watchdog that handles event timeouts */ /* Callback support */ uint8_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 xfrmask; /* Interrupt enables for data transfer */ /* DMA data transfer support */ bool widebus; /* Required for DMA support */ DMA_HANDLE dma; /* Handle for DMA channel */ }; /* Register logging support */ #if defined(CONFIG_HSMCI_XFRDEBUG) || defined(CONFIG_HSMCI_CMDDEBUG) struct sam3u_hsmciregs_s { uint32_t mr; /* Mode Register */ uint32_t dtor; /* Data Timeout Register */ uint32_t sdcr; /* SD/SDIO Card Register */ uint32_t argr; /* Argument Register */ uint32_t blkr; /* Block Register */ uint32_t cstor; /* Completion Signal Timeout Register */ uint32_t rsp0; /* Response Register 0 */ uint32_t rsp1; /* Response Register 1 */ uint32_t rsp2; /* Response Register 2 */ uint32_t rsp3; /* Response Register 3 */ uint32_t sr; /* Status Register */ uint32_t imr; /* Interrupt Mask Register */ uint32_t dma; /* DMA Configuration Register */ uint32_t cfg; /* Configuration Register */ uint32_t wpmr; /* Write Protection Mode Register */ uint32_t wpsr; /* Write Protection Status Register */ }; #endif #ifdef CONFIG_HSMCI_XFRDEBUG struct sam3u_xfrregs_s { struct sam3u_hsmciregs_s hsmci; #ifdef CONFIG_DEBUG_DMA struct sam3u_dmaregs_s dma; #endif }; #endif /**************************************************************************** * Private Function Prototypes ****************************************************************************/ /* Low-level helpers ********************************************************/ static void sam3u_takesem(struct sam3u_dev_s *priv); #define sam3u_givesem(priv) (sem_post(&priv->waitsem)) static void sam3u_enablewaitints(struct sam3u_dev_s *priv, uint32_t waitmask, sdio_eventset_t waitevents); static void sam3u_disablewaitints(struct sam3u_dev_s *priv, sdio_eventset_t wkupevents); static void sam3u_enablexfrints(struct sam3u_dev_s *priv, uint32_t xfrmask); static void sam3u_disablexfrints(struct sam3u_dev_s *priv); static inline void sam3u_disable(void); static inline void sam3u_enable(void); /* Register Sampling ********************************************************/ #if defined(CONFIG_HSMCI_XFRDEBUG) || defined(CONFIG_HSMCI_CMDDEBUG) static void sam3u_hsmcisample(struct sam3u_hsmciregs_s *regs); static void sam3u_hsmcidump(struct sam3u_hsmciregs_s *regs, const char *msg); #endif #ifdef CONFIG_HSMCI_XFRDEBUG static void sam3u_xfrsampleinit(void); static void sam3u_xfrsample(struct sam3u_dev_s *priv, int index); static void sam3u_xfrdumpone(struct sam3u_dev_s *priv, struct sam3u_xfrregs_s *regs, const char *msg); static void sam3u_xfrdump(struct sam3u_dev_s *priv); #else # define sam3u_xfrsampleinit() # define sam3u_xfrsample(priv,index) # define sam3u_xfrdump(priv) #endif #ifdef CONFIG_HSMCI_CMDDEBUG static void sam3u_cmdsampleinit(void); static inline void sam3u_cmdsample1(int index3); static inline void sam3u_cmdsample2(int index, uint32_t sr); static void sam3u_cmddump(void); #else # define sam3u_cmdsampleinit() # define sam3u_cmdsample1(index) # define sam3u_cmdsample2(index,sr) # define sam3u_cmddump() #endif /* DMA Helpers **************************************************************/ static void sam3u_dmacallback(DMA_HANDLE handle, void *arg, int result); /* Data Transfer Helpers ****************************************************/ static void sam3u_eventtimeout(int argc, uint32_t arg); static void sam3u_endwait(struct sam3u_dev_s *priv, sdio_eventset_t wkupevent); static void sam3u_endtransfer(struct sam3u_dev_s *priv, sdio_eventset_t wkupevent); static void sam3u_notransfer(struct sam3u_dev_s *priv); /* Interrupt Handling *******************************************************/ static int sam3u_interrupt(int irq, void *context); /* SDIO interface methods ***************************************************/ /* Initialization/setup */ static void sam3u_reset(FAR struct sdio_dev_s *dev); static uint8_t sam3u_status(FAR struct sdio_dev_s *dev); static void sam3u_widebus(FAR struct sdio_dev_s *dev, bool enable); static void sam3u_clock(FAR struct sdio_dev_s *dev, enum sdio_clock_e rate); static int sam3u_attach(FAR struct sdio_dev_s *dev); /* Command/Status/Data Transfer */ static int sam3u_sendcmd(FAR struct sdio_dev_s *dev, uint32_t cmd, uint32_t arg); static void sam3u_blocksetup(FAR struct sdio_dev_s *dev, unsigned int blocklen, unsigned int nblocks); static int sam3u_cancel(FAR struct sdio_dev_s *dev); static int sam3u_waitresponse(FAR struct sdio_dev_s *dev, uint32_t cmd); static int sam3u_recvshort(FAR struct sdio_dev_s *dev, uint32_t cmd, uint32_t *rshort); static int sam3u_recvlong(FAR struct sdio_dev_s *dev, uint32_t cmd, uint32_t rlong[4]); static int sam3u_recvnotimpl(FAR struct sdio_dev_s *dev, uint32_t cmd, uint32_t *rnotimpl); /* EVENT handler */ static void sam3u_waitenable(FAR struct sdio_dev_s *dev, sdio_eventset_t eventset); static sdio_eventset_t sam3u_eventwait(FAR struct sdio_dev_s *dev, uint32_t timeout); static void sam3u_callbackenable(FAR struct sdio_dev_s *dev, sdio_eventset_t eventset); static int sam3u_registercallback(FAR struct sdio_dev_s *dev, worker_t callback, void *arg); /* DMA */ #ifdef CONFIG_SDIO_DMA static bool sam3u_dmasupported(FAR struct sdio_dev_s *dev); #endif static int sam3u_dmarecvsetup(FAR struct sdio_dev_s *dev, FAR uint8_t *buffer, size_t buflen); static int sam3u_dmasendsetup(FAR struct sdio_dev_s *dev, FAR const uint8_t *buffer, size_t buflen); /* Initialization/uninitialization/reset ************************************/ static void sam3u_callback(void *arg); /**************************************************************************** * Private Data ****************************************************************************/ struct sam3u_dev_s g_sdiodev = { .dev = { .reset = sam3u_reset, .status = sam3u_status, .widebus = sam3u_widebus, .clock = sam3u_clock, .attach = sam3u_attach, .sendcmd = sam3u_sendcmd, .blocksetup = sam3u_blocksetup, .recvsetup = sam3u_dmarecvsetup, .sendsetup = sam3u_dmasendsetup, .cancel = sam3u_cancel, .waitresponse = sam3u_waitresponse, .recvR1 = sam3u_recvshort, .recvR2 = sam3u_recvlong, .recvR3 = sam3u_recvshort, .recvR4 = sam3u_recvnotimpl, .recvR5 = sam3u_recvnotimpl, .recvR6 = sam3u_recvshort, .recvR7 = sam3u_recvshort, .waitenable = sam3u_waitenable, .eventwait = sam3u_eventwait, .callbackenable = sam3u_callbackenable, .registercallback = sam3u_registercallback, #ifdef CONFIG_SDIO_DMA .dmasupported = sam3u_dmasupported, .dmarecvsetup = sam3u_dmarecvsetup, .dmasendsetup = sam3u_dmasendsetup, #endif }, }; /* Register logging support */ #ifdef CONFIG_HSMCI_XFRDEBUG static struct sam3u_xfrregs_s g_xfrsamples[DEBUG_NDMASAMPLES]; #endif #ifdef CONFIG_HSMCI_CMDDEBUG static struct sam3u_hsmciregs_s g_cmdsamples[DEBUG_NCMDSAMPLES]; #endif #if defined(CONFIG_HSMCI_XFRDEBUG) && defined(CONFIG_HSMCI_CMDDEBUG) static bool g_xfrinitialized; static bool g_cmdinitialized; #endif /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Low-level Helpers ****************************************************************************/ /**************************************************************************** * Name: sam3u_takesem * * Description: * Take the wait semaphore (handling false alarm wakeups due to the receipt * of signals). * * Input Parameters: * dev - Instance of the SDIO device driver state structure. * * Returned Value: * None * ****************************************************************************/ static void sam3u_takesem(struct sam3u_dev_s *priv) { /* Take the semaphore (perhaps waiting) */ while (sem_wait(&priv->waitsem) != 0) { /* The only case that an error should occr here is if the wait was * awakened by a signal. */ ASSERT(errno == EINTR); } } /**************************************************************************** * Name: sam3u_enablewaitints * * Description: * Enable HSMCI interrupts needed to suport the wait function * * Input Parameters: * priv - A reference to the HSMCI device state structure * waitmask - The set of bits in the HSMCI MASK register to set * waitevents - Waited for events * * Returned Value: * None * ****************************************************************************/ static void sam3u_enablewaitints(struct sam3u_dev_s *priv, uint32_t waitmask, sdio_eventset_t waitevents) { irqstate_t flags; /* Save all of the data and set the new interrupt mask in one, atomic * operation. */ flags = irqsave(); priv->waitevents = waitevents; priv->wkupevent = 0; priv->waitmask = waitmask; putreg32(priv->xfrmask | priv->waitmask, SAM3U_HSMCI_IER); irqrestore(flags); } /**************************************************************************** * Name: sam3u_disablewaitints * * Description: * Disable HSMCI interrupts and save wakeup event. Called * * Input Parameters: * priv - A reference to the HSMCI device state structure * wkupevent - Wake-up event(s) * * Returned Value: * None * ****************************************************************************/ static void sam3u_disablewaitints(struct sam3u_dev_s *priv, sdio_eventset_t wkupevent) { irqstate_t flags; /* Save all of the data and set the new interrupt mask in one, atomic * operation. */ flags = irqsave(); priv->waitevents = 0; priv->wkupevent = wkupevent; priv->waitmask = 0; putreg32(~priv->xfrmask, SAM3U_HSMCI_IDR); irqrestore(flags); } /**************************************************************************** * Name: sam3u_enablexfrints * * Description: * Enable HSMCI interrupts needed to support the data transfer event * * Input Parameters: * priv - A reference to the HSMCI device state structure * xfrmask - The set of bits in the HSMCI MASK register to set * * Returned Value: * None * ****************************************************************************/ static void sam3u_enablexfrints(struct sam3u_dev_s *priv, uint32_t xfrmask) { irqstate_t flags = irqsave(); priv->xfrmask = xfrmask; putreg32(priv->xfrmask | priv->waitmask, SAM3U_HSMCI_IER); irqrestore(flags); } /**************************************************************************** * Name: sam3u_disablexfrints * * Description: * Disable HSMCI interrupts needed to support the data transfer event * * Input Parameters: * priv - A reference to the HSMCI device state structure * xfrmask - The set of bits in the HSMCI MASK register to set * * Returned Value: * None * ****************************************************************************/ static void sam3u_disablexfrints(struct sam3u_dev_s *priv) { irqstate_t flags = irqsave(); priv->xfrmask = 0; putreg32(~priv->waitmask, SAM3U_HSMCI_IDR); irqrestore(flags); } /**************************************************************************** * Name: sam3u_disable * * Description: * Disable the HSMCI * ****************************************************************************/ static inline void sam3u_disable(void) { /* Disable the MCI peripheral clock */ putreg32((1 << SAM3U_PID_HSMCI), SAM3U_PMC_PCDR); /* Disable the MCI */ putreg32(HSMCI_CR_MCIDIS, SAM3U_HSMCI_CR); /* Disable all the interrupts */ putreg32(0xffffffff, SAM3U_HSMCI_IDR); } /**************************************************************************** * Name: sam3u_enable * * Description: * Enable the HSMCI * ****************************************************************************/ static inline void sam3u_enable(void) { /* Enable the MCI peripheral clock */ putreg32((1 << SAM3U_PID_HSMCI), SAM3U_PMC_PCER); /* Enable the MCI and the Power Saving */ putreg32(HSMCI_CR_MCIEN, SAM3U_HSMCI_CR); } /**************************************************************************** * Register Sampling ****************************************************************************/ /**************************************************************************** * Name: sam3u_hsmcisample * * Description: * Sample HSMCI registers * ****************************************************************************/ #if defined(CONFIG_HSMCI_XFRDEBUG) || defined(CONFIG_HSMCI_CMDDEBUG) static void sam3u_hsmcisample(struct sam3u_hsmciregs_s *regs) { regs->mr = getreg32(SAM3U_HSMCI_MR); regs->dtor = getreg32(SAM3U_HSMCI_DTOR); regs->sdcr = getreg32(SAM3U_HSMCI_SDCR); regs->argr = getreg32(SAM3U_HSMCI_ARGR); regs->blkr = getreg32(SAM3U_HSMCI_BLKR); regs->cstor = getreg32(SAM3U_HSMCI_CSTOR); regs->rsp0 = getreg32(SAM3U_HSMCI_RSPR0); regs->rsp1 = getreg32(SAM3U_HSMCI_RSPR1); regs->rsp2 = getreg32(SAM3U_HSMCI_RSPR2); regs->rsp3 = getreg32(SAM3U_HSMCI_RSPR3); regs->sr = getreg32(SAM3U_HSMCI_SR); regs->imr = getreg32(SAM3U_HSMCI_IMR); regs->dma = getreg32(SAM3U_HSMCI_DMA); regs->cfg = getreg32(SAM3U_HSMCI_CFG); regs->wpmr = getreg32(SAM3U_HSMCI_WPMR); regs->wpsr = getreg32(SAM3U_HSMCI_WPSR); } #endif /**************************************************************************** * Name: sam3u_hsmcidump * * Description: * Dump one register sample * ****************************************************************************/ #if defined(CONFIG_HSMCI_XFRDEBUG) || defined(CONFIG_HSMCI_CMDDEBUG) static void sam3u_hsmcidump(struct sam3u_hsmciregs_s *regs, const char *msg) { fdbg("HSMCI Registers: %s\n", msg); fdbg(" MR[%08x]: %08x\n", SAM3U_HSMCI_MR, regs->mr); fdbg(" DTOR[%08x]: %08x\n", SAM3U_HSMCI_DTOR, regs->dtor); fdbg(" SDCR[%08x]: %08x\n", SAM3U_HSMCI_SDCR, regs->sdcr); fdbg(" ARGR[%08x]: %08x\n", SAM3U_HSMCI_ARGR, regs->argr); fdbg(" BLKR[%08x]: %08x\n", SAM3U_HSMCI_BLKR, regs->blkr); fdbg(" CSTOR[%08x]: %08x\n", SAM3U_HSMCI_CSTOR, regs->cstor); fdbg(" RSPR0[%08x]: %08x\n", SAM3U_HSMCI_RSPR0, regs->rsp0); fdbg(" RSPR1[%08x]: %08x\n", SAM3U_HSMCI_RSPR1, regs->rsp1); fdbg(" RSPR2[%08x]: %08x\n", SAM3U_HSMCI_RSPR2, regs->rsp2); fdbg(" RSPR3[%08x]: %08x\n", SAM3U_HSMCI_RSPR3, regs->rsp3); fdbg(" SR[%08x]: %08x\n", SAM3U_HSMCI_SR, regs->sr); fdbg(" IMR[%08x]: %08x\n", SAM3U_HSMCI_IMR, regs->imr); fdbg(" DMA[%08x]: %08x\n", SAM3U_HSMCI_DMA, regs->dma); fdbg(" CFG[%08x]: %08x\n", SAM3U_HSMCI_CFG, regs->cfg); fdbg(" WPMR[%08x]: %08x\n", SAM3U_HSMCI_WPMR, regs->wpmr); fdbg(" WPSR[%08x]: %08x\n", SAM3U_HSMCI_WPSR, regs->wpsr); } #endif /**************************************************************************** * Name: sam3u_xfrsample * * Description: * Sample HSMCI/DMA registers * ****************************************************************************/ #ifdef CONFIG_HSMCI_XFRDEBUG static void sam3u_xfrsample(struct sam3u_dev_s *priv, int index) { struct sam3u_xfrregs_s *regs = &g_xfrsamples[index]; #ifdef CONFIG_DEBUG_DMA sam3u_dmasample(priv->dma, ®s->dma); #endif sam3u_hsmcisample(®s->hsmci); } #endif /**************************************************************************** * Name: sam3u_xfrsampleinit * * Description: * Setup prior to collecting transfer samples * ****************************************************************************/ #ifdef CONFIG_HSMCI_XFRDEBUG static void sam3u_xfrsampleinit(void) { memset(g_xfrsamples, 0xff, DEBUG_NDMASAMPLES * sizeof(struct sam3u_xfrregs_s)); #ifdef CONFIG_HSMCI_CMDDEBUG g_xfrinitialized = true; #endif } #endif /**************************************************************************** * Name: sam3u_xfrdumpone * * Description: * Dump one transfer register sample * ****************************************************************************/ #ifdef CONFIG_HSMCI_XFRDEBUG static void sam3u_xfrdumpone(struct sam3u_dev_s *priv, struct sam3u_xfrregs_s *regs, const char *msg) { #ifdef CONFIG_DEBUG_DMA sam3u_dmadump(priv->dma, ®s->dma, msg); #endif sam3u_hsmcidump(®s->hsmci, msg); } #endif /**************************************************************************** * Name: sam3u_xfrdump * * Description: * Dump all transfer-related, sampled register data * ****************************************************************************/ #ifdef CONFIG_HSMCI_XFRDEBUG static void sam3u_xfrdump(struct sam3u_dev_s *priv) { #ifdef CONFIG_HSMCI_CMDDEBUG if (g_xfrinitialized) #endif { sam3u_xfrdumpone(priv, &g_xfrsamples[SAMPLENDX_BEFORE_SETUP], "Before setup"); #ifdef CONFIG_DEBUG_DMA sam3u_xfrdumpone(priv, &g_xfrsamples[SAMPLENDX_BEFORE_ENABLE], "Before DMA enable"); #endif sam3u_xfrdumpone(priv, &g_xfrsamples[SAMPLENDX_AFTER_SETUP], "After setup"); sam3u_xfrdumpone(priv, &g_xfrsamples[SAMPLENDX_END_TRANSFER], "End of transfer"); #ifdef CONFIG_DEBUG_DMA sam3u_xfrdumpone(priv, &g_xfrsamples[SAMPLENDX_DMA_CALLBACK], "DMA Callback"); #endif #ifdef CONFIG_HSMCI_CMDDEBUG g_xfrinitialized = false; #endif } } #endif /**************************************************************************** * Name: sam3u_cmdsampleinit * * Description: * Setup prior to collecting command/response samples * ****************************************************************************/ #ifdef CONFIG_HSMCI_CMDDEBUG static void sam3u_cmdsampleinit(void) { memset(g_cmdsamples, 0xff, DEBUG_NCMDSAMPLES * sizeof(struct sam3u_hsmciregs_s)); #ifdef CONFIG_HSMCI_XFRDEBUG g_cmdinitialized = true; #endif } #endif /**************************************************************************** * Name: sam3u_cmdsample1 & 2 * * Description: * Sample command/response registers * ****************************************************************************/ #ifdef CONFIG_HSMCI_CMDDEBUG static inline void sam3u_cmdsample1(int index) { sam3u_hsmcisample(&g_cmdsamples[index]); } static inline void sam3u_cmdsample2(int index, uint32_t sr) { sam3u_hsmcisample(&g_cmdsamples[index]); g_cmdsamples[index].sr = sr; } #endif /**************************************************************************** * Name: sam3u_cmddump * * Description: * Dump all comand/response register data * ****************************************************************************/ #ifdef CONFIG_HSMCI_CMDDEBUG static void sam3u_cmddump(void) { #ifdef CONFIG_HSMCI_XFRDEBUG if (g_cmdinitialized) #endif { sam3u_hsmcidump(&g_cmdsamples[SAMPLENDX_AFTER_CMDR], "After command setup"); sam3u_hsmcidump(&g_cmdsamples[SAMPLENDX_AT_WAKEUP], "After wakeup"); #ifdef CONFIG_HSMCI_XFRDEBUG g_cmdinitialized = false; #endif } } #endif /**************************************************************************** * DMA Helpers ****************************************************************************/ /**************************************************************************** * Name: sam3u_dmacallback * * Description: * Called when HSMCI DMA completes * ****************************************************************************/ static void sam3u_dmacallback(DMA_HANDLE handle, void *arg, int result) { /* We don't really do anything at the completion of DMA. The termination * of the transfer is driven by the HSMCI interrupts. */ sam3u_xfrsample((struct sam3u_dev_s*)arg, SAMPLENDX_DMA_CALLBACK); } /**************************************************************************** * Data Transfer Helpers ****************************************************************************/ /**************************************************************************** * Name: sam3u_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 (state structure reference cast to uint32_t) * * Returned Value: * None * * Assumptions: * Always called from the interrupt level with interrupts disabled. * ****************************************************************************/ static void sam3u_eventtimeout(int argc, uint32_t arg) { struct sam3u_dev_s *priv = (struct sam3u_dev_s *)arg; DEBUGASSERT(argc == 1 && priv != NULL); DEBUGASSERT((priv->waitevents & SDIOWAIT_TIMEOUT) != 0); /* Is a data transfer complete event expected? */ if ((priv->waitevents & SDIOWAIT_TIMEOUT) != 0) { /* Yes.. wake up any waiting threads */ sam3u_endwait(priv, SDIOWAIT_TIMEOUT); flldbg("Timeout\n"); } } /**************************************************************************** * Name: sam3u_endwait * * Description: * Wake up a waiting thread if the waited-for event has occurred. * * Input Parameters: * priv - An instance of the HSMCI device interface * wkupevent - The event that caused the wait to end * * Returned Value: * None * * Assumptions: * Always called from the interrupt level with interrupts disabled. * ****************************************************************************/ static void sam3u_endwait(struct sam3u_dev_s *priv, sdio_eventset_t wkupevent) { /* Cancel the watchdog timeout */ (void)wd_cancel(priv->waitwdog); /* Disable event-related interrupts and save wakeup event */ sam3u_disablewaitints(priv, wkupevent); /* Wake up the waiting thread */ sam3u_givesem(priv); } /**************************************************************************** * Name: sam3u_endtransfer * * Description: * Terminate a transfer with the provided status. This function is called * only from the HSMCI interrupt handler when end-of-transfer conditions * are detected. * * Input Parameters: * priv - An instance of the HSMCI device interface * wkupevent - The event that caused the transfer to end * * Returned Value: * None * * Assumptions: * Always called from the interrupt level with interrupts disabled. * ****************************************************************************/ static void sam3u_endtransfer(struct sam3u_dev_s *priv, sdio_eventset_t wkupevent) { /* Disable all transfer related interrupts */ sam3u_disablexfrints(priv); /* No data transfer */ sam3u_notransfer(priv); /* DMA debug instrumentation */ sam3u_xfrsample(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. */ sam3u_dmastop(priv->dma); /* Disable the DMA handshaking */ putreg32(0, SAM3U_HSMCI_DMA); /* Is a thread wait for these data transfer complete events? */ if ((priv->waitevents & wkupevent) != 0) { /* Yes.. wake up any waiting threads */ sam3u_endwait(priv, wkupevent); } } /**************************************************************************** * Name: sam3u_notransfer * * Description: * Setup for no transfer. This is the default setup that is overriddden * by sam3u_dmarecvsetup or sam3u_dmasendsetup * * Input Parameters: * priv - An instance of the HSMCI device interface * * Returned Value: * None * ****************************************************************************/ static void sam3u_notransfer(struct sam3u_dev_s *priv) { uint32_t regval = getreg32(SAM3U_HSMCI_MR); regval &= ~(HSMCI_MR_RDPROOF | HSMCI_MR_WRPROOF | HSMCI_MR_BLKLEN_MASK); putreg32(regval, SAM3U_HSMCI_MR); } /**************************************************************************** * Interrrupt Handling ****************************************************************************/ /**************************************************************************** * Name: sam3u_interrupt * * Description: * HSMCI interrupt handler * * Input Parameters: * irq - IRQ number of the interrupts * context - Saved machine context at the time of the interrupt * * Returned Value: * None * ****************************************************************************/ static int sam3u_interrupt(int irq, void *context) { struct sam3u_dev_s *priv = &g_sdiodev; uint32_t sr; uint32_t enabled; uint32_t pending; /* Loop while there are pending interrupts. */ for (;;) { /* Check the HSMCI 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 SR and IMR registers). If * there are non-zero bits remaining, then we have work to do here. */ sr = getreg32(SAM3U_HSMCI_SR); enabled = sr & getreg32(SAM3U_HSMCI_IMR); if (enabled == 0) { break; } /* Handle in progress, interrupt driven data transfers ****************/ /* Do any of these interrupts signal the end a data transfer? */ pending = enabled & priv->xfrmask; if (pending != 0) { /* Yes.. the transfer is complete. Did it complete with an error? */ if ((pending & HSMCI_DATA_ERRORS) != 0) { /* Yes.. Was it some kind of timeout error? */ flldbg("ERROR: enabled: %08x pending: %08x\n", enabled, pending); if ((pending & HSMCI_DATA_TIMEOUT_ERRORS) != 0) { /* Yes.. Terminate with a timeout. */ sam3u_endtransfer(priv, SDIOWAIT_TRANSFERDONE|SDIOWAIT_TIMEOUT); } else { /* No.. Terminate with an I/O error. */ sam3u_endtransfer(priv, SDIOWAIT_TRANSFERDONE|SDIOWAIT_ERROR); } } else { /* No.. Then the transfer must have completed successfully */ sam3u_endtransfer(priv, SDIOWAIT_TRANSFERDONE); } } /* Handle wait events *************************************************/ /* Do any of these interrupts signal wakeup event? */ pending = enabled & priv->waitmask; if (pending != 0) { sdio_eventset_t wkupevent = 0; /* Is this a Command-Response sequence completion event? */ if ((pending & priv->cmdrmask) != 0) { sam3u_cmdsample2(SAMPLENDX_AT_WAKEUP, sr); /* Yes.. Did the Command-Response sequence end with an error? */ if ((pending & HSMCI_RESPONSE_ERRORS) != 0) { /* Yes.. Was the error some kind of timeout? */ fllvdbg("ERROR:events: %08x SR: %08x\n", priv->cmdrmask, enabled); if ((pending & HSMCI_RESPONSE_TIMEOUT_ERRORS) != 0) { /* Yes.. signal a timeout error */ wkupevent = SDIOWAIT_CMDDONE|SDIOWAIT_RESPONSEDONE|SDIOWAIT_TIMEOUT; } else { /* No.. signal some generic I/O error */ wkupevent = SDIOWAIT_CMDDONE|SDIOWAIT_RESPONSEDONE|SDIOWAIT_ERROR; } } else { /* The Command-Response sequence ended with no error */ wkupevent = SDIOWAIT_CMDDONE|SDIOWAIT_RESPONSEDONE; } /* Yes.. Is there a thread waiting for this event set? */ wkupevent &= priv->waitevents; if (wkupevent != 0) { /* Yes.. wake the thread up */ sam3u_endwait(priv, wkupevent); } } } } return OK; } /**************************************************************************** * SDIO Interface Methods ****************************************************************************/ /**************************************************************************** * Name: sam3u_reset * * Description: * Reset the HSMCI controller. Undo all setup and initialization. * * Input Parameters: * dev - An instance of the SDIO device interface * * Returned Value: * None * ****************************************************************************/ static void sam3u_reset(FAR struct sdio_dev_s *dev) { FAR struct sam3u_dev_s *priv = (FAR struct sam3u_dev_s *)dev; irqstate_t flags; /* Enable the MCI clock */ flags = irqsave(); putreg32((1 << SAM3U_PID_HSMCI), SAM3U_PMC_PCER); fdbg("PCSR: %08x\n", getreg32(SAM3U_PMC_PCSR)); /* Reset the MCI */ putreg32(HSMCI_CR_SWRST, SAM3U_HSMCI_CR); /* Disable the MCI */ putreg32(HSMCI_CR_MCIDIS | HSMCI_CR_PWSDIS, SAM3U_HSMCI_CR); /* Disable all the interrupts */ putreg32(0xffffffff, SAM3U_HSMCI_IDR); /* Set the Data Timeout Register */ putreg32(HSMCI_DTOR_DTOCYC_MAX | HSMCI_DTOR_DTOMUL_MAX, SAM3U_HSMCI_DTOR); /* Set the Mode Register for ID mode frequency (probably 400KHz) */ sam3u_clock(dev, CLOCK_IDMODE); /* Set the SDCard Register */ putreg32(HSMCI_SDCR_SDCSEL_SLOTA | HSMCI_SDCR_SDCBUS_4BIT, SAM3U_HSMCI_SDCR); /* Enable the MCI controller */ putreg32(HSMCI_CR_MCIEN, SAM3U_HSMCI_CR); /* Disable the DMA interface */ putreg32(0, SAM3U_HSMCI_DMA); /* Configure MCI */ putreg32(HSMCI_CFG_FIFOMODE, SAM3U_HSMCI_CFG); /* No data transfer */ sam3u_notransfer(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 */ wd_cancel(priv->waitwdog); /* Cancel any timeouts */ /* Interrupt mode data transfer support */ priv->xfrmask = 0; /* Interrupt enables for data transfer */ /* DMA data transfer support */ priv->widebus = false; /* Required for DMA support */ irqrestore(flags); } /**************************************************************************** * Name: sam3u_status * * Description: * Get SDIO status. * * Input Parameters: * dev - Device-specific state data * * Returned Value: * Returns a bitset of status values (see sam3u_status_* defines) * ****************************************************************************/ static uint8_t sam3u_status(FAR struct sdio_dev_s *dev) { struct sam3u_dev_s *priv = (struct sam3u_dev_s *)dev; return priv->cdstatus; } /**************************************************************************** * Name: sam3u_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 sam3u_widebus(FAR struct sdio_dev_s *dev, bool wide) { struct sam3u_dev_s *priv = (struct sam3u_dev_s *)dev; uint32_t regval; /* Set 1-bit or 4-bit bus by configuring the SDCBUS field of the SDCR register */ regval = getreg32(SAM3U_HSMCI_SDCR); regval &= ~HSMCI_SDCR_SDCBUS_MASK; regval |= wide ? HSMCI_SDCR_SDCBUS_4BIT : HSMCI_SDCR_SDCBUS_1BIT; putreg32(regval, SAM3U_HSMCI_SDCR); /* Remember the setting */ priv->widebus = wide; } /**************************************************************************** * Name: sam3u_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 sam3u_clock(FAR struct sdio_dev_s *dev, enum sdio_clock_e rate) { uint32_t regval; bool enable = true; /* Fetch the current mode register and mask out the clkdiv (and pwsdiv) */ regval = getreg32(SAM3U_HSMCI_MR); regval &= ~(HSMCI_MR_CLKDIV_MASK | HSMCI_MR_PWSDIV_MASK); /* These clock devisor values that must be defined in the board-specific * board.h header file: HSMCI_INIT_CLKDIV, HSMCI_MMCXFR_CLKDIV, * HSMCI_SDXFR_CLKDIV, and HSMCI_SDWIDEXFR_CLKDIV. */ switch (rate) { default: case CLOCK_SDIO_DISABLED: /* Clock is disabled */ regval |= HSMCI_INIT_CLKDIV | HSMCI_MR_PWSDIV_MAX; enable = false; return; case CLOCK_IDMODE: /* Initial ID mode clocking (<400KHz) */ regval |= HSMCI_INIT_CLKDIV | HSMCI_MR_PWSDIV_MAX; break; case CLOCK_MMC_TRANSFER: /* MMC normal operation clocking */ regval |= HSMCI_MMCXFR_CLKDIV | HSMCI_MR_PWSDIV_MAX; break; case CLOCK_SD_TRANSFER_1BIT: /* SD normal operation clocking (narrow 1-bit mode) */ regval |= HSMCI_SDXFR_CLKDIV | HSMCI_MR_PWSDIV_MAX; break; case CLOCK_SD_TRANSFER_4BIT: /* SD normal operation clocking (wide 4-bit mode) */ regval |= HSMCI_SDWIDEXFR_CLKDIV | HSMCI_MR_PWSDIV_MAX; break; }; /* Set the new clock diver and make sure that the clock is enabled or * disabled, whichever the case. */ putreg32(regval, SAM3U_HSMCI_MR); if (enable) { sam3u_enable(); } else { sam3u_disable(); } } /**************************************************************************** * Name: sam3u_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 sam3u_attach(FAR struct sdio_dev_s *dev) { int ret; /* Attach the HSMCI interrupt handler */ ret = irq_attach(SAM3U_IRQ_HSMCI, sam3u_interrupt); if (ret == OK) { /* Disable all interrupts at the HSMCI controller and clear (most) static * interrupt flags by reading the status register. */ putreg32(0xffffffff, SAM3U_HSMCI_IDR); (void)getreg32(SAM3U_HSMCI_SR); /* Enable HSMCI interrupts at the NVIC. They can now be enabled at * the HSMCI controller as needed. */ up_enable_irq(SAM3U_IRQ_HSMCI); /* Set the interrrupt priority */ up_prioritize_irq(SAM3U_IRQ_HSMCI, CONFIG_HSMCI_PRI); } return ret; } /**************************************************************************** * Name: sam3u_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 sam3u_sendcmd(FAR struct sdio_dev_s *dev, uint32_t cmd, uint32_t arg) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; uint32_t regval; uint32_t cmdidx; sam3u_cmdsampleinit(); /* Set the HSMCI Argument value */ putreg32(arg, SAM3U_HSMCI_ARGR); /* Construct the command valid, starting with the command index */ cmdidx = (cmd & MMCSD_CMDIDX_MASK) >> MMCSD_CMDIDX_SHIFT; regval = cmdidx << HSMCI_CMDR_CMDNB_SHIFT; /* 'OR' in response related bits */ switch (cmd & MMCSD_RESPONSE_MASK) { /* No response */ case MMCSD_NO_RESPONSE: priv->cmdrmask = HSMCI_CMDRESP_INTS; regval |= HSMCI_CMDR_RSPTYP_NONE; break; /* 48-bit response with CRC */ case MMCSD_R1_RESPONSE: case MMCSD_R4_RESPONSE: case MMCSD_R5_RESPONSE: case MMCSD_R6_RESPONSE: priv->cmdrmask = HSMCI_CMDRESP_INTS; regval |= (HSMCI_CMDR_RSPTYP_48BIT | HSMCI_CMDR_MAXLAT); break; case MMCSD_R1B_RESPONSE: priv->cmdrmask = HSMCI_CMDRESP_INTS; regval |= (HSMCI_CMDR_RSPTYP_R1B | HSMCI_CMDR_MAXLAT); break; /* 48-bit response without CRC */ case MMCSD_R3_RESPONSE: case MMCSD_R7_RESPONSE: priv->cmdrmask = HSMCI_CMDRESP_NOCRC_INTS; regval |= (HSMCI_CMDR_RSPTYP_48BIT | HSMCI_CMDR_MAXLAT); break; /* 136-bit response with CRC */ case MMCSD_R2_RESPONSE: priv->cmdrmask = HSMCI_CMDRESP_INTS; regval |= (HSMCI_CMDR_RSPTYP_136BIT | HSMCI_CMDR_MAXLAT); break; } /* 'OR' in data transer related bits */ switch (cmd & MMCSD_DATAXFR_MASK) { #if 0 /* No MMC support */ case MMCSD_RDSTREAM: /* MMC Read stream */ regval |= (HSMCI_CMDR_TRCMD_START | HSMCI_CMDR_TRTYP_STREAM | HSMCI_CMDR_TRDIR_READ); break; case MMCSD_WRSTREAM: /* MMC Write stream */ regval |= (HSMCI_CMDR_TRCMD_START | HSMCI_CMDR_TRTYP_STREAM | HSMCI_CMDR_TRDIR_WRITE); break; #endif case MMCSD_RDDATAXFR: /* Read block transfer */ regval |= (HSMCI_CMDR_TRCMD_START | HSMCI_CMDR_TRDIR_READ); regval |= (cmd & MMCSD_MULTIBLOCK) ? HSMCI_CMDR_TRTYP_MULTI : HSMCI_CMDR_TRTYP_SINGLE; break; case MMCSD_WRDATAXFR: /* Write block transfer */ regval |= (HSMCI_CMDR_TRCMD_START | HSMCI_CMDR_TRDIR_WRITE); regval |= (cmd & MMCSD_MULTIBLOCK) ? HSMCI_CMDR_TRTYP_MULTI : HSMCI_CMDR_TRTYP_SINGLE; break; case MMCSD_NODATAXFR: default: if ((cmd & MMCSD_STOPXFR) != 0) { regval |= HSMCI_CMDR_TRCMD_STOP; } break; } /* 'OR' in Open Drain option */ #if 0 /* No MMC support */ if ((cmd & MMCSD_OPENDRAIN) != 0) { regval |= HSMCI_CMDR_OPDCMD; } #endif /* Write the fully decorated command to CMDR */ fvdbg("cmd: %08x arg: %08x regval: %08x\n", cmd, arg, regval); putreg32(regval, SAM3U_HSMCI_CMDR); sam3u_cmdsample1(SAMPLENDX_AFTER_CMDR); return OK; } /**************************************************************************** * Name: sam3u_blocksetup * * Description: * Some hardward needs to be informed of the selected blocksize. * * Input Parameters: * dev - An instance of the SDIO device interface * blocklen - The selected block size. * * Returned Value: * None * ****************************************************************************/ static void sam3u_blocksetup(FAR struct sdio_dev_s *dev, unsigned int blocklen, unsigned int nblocks) { uint32_t regval; DEBUGASSERT(dev != NULL && nblocks > 0 && nblocks < 65535 && blocklen < 65535); /* Set the block size */ regval = getreg32(SAM3U_HSMCI_MR); regval &= ~(HSMCI_MR_RDPROOF | HSMCI_MR_WRPROOF | HSMCI_MR_BLKLEN_MASK); regval |= HSMCU_PROOF_BITS; regval |= (blocklen << HSMCI_MR_BLKLEN_SHIFT); putreg32(regval, SAM3U_HSMCI_MR); /* Set the block count */ regval = getreg32(SAM3U_HSMCI_BLKR); regval &= ~HSMCI_BLKR_BCNT_MASK; regval |= (nblocks << HSMCI_BLKR_BCNT_SHIFT); putreg32(regval, SAM3U_HSMCI_BLKR); } /**************************************************************************** * Name: sam3u_cancel * * Description: * Cancel the data transfer setup of HSMCI_RECVSETUP, HSMCI_SENDSETUP, * HSMCI_DMARECVSETUP or HSMCI_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 sam3u_cancel(FAR struct sdio_dev_s *dev) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; /* Disable all transfer- and event- related interrupts */ sam3u_disablexfrints(priv); sam3u_disablewaitints(priv, 0); /* No data transfer */ sam3u_notransfer(priv); /* Clearing (most) pending interrupt status by reading the status register */ (void)getreg32(SAM3U_HSMCI_SR); /* Cancel any watchdog timeout */ (void)wd_cancel(priv->waitwdog); /* 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. */ sam3u_dmastop(priv->dma); /* Disable the DMA handshaking */ putreg32(0, SAM3U_HSMCI_DMA); return OK; } /**************************************************************************** * Name: sam3u_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 sam3u_waitresponse(FAR struct sdio_dev_s *dev, uint32_t cmd) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; uint32_t sr; int32_t timeout; switch (cmd & MMCSD_RESPONSE_MASK) { case MMCSD_R1_RESPONSE: case MMCSD_R1B_RESPONSE: case MMCSD_R2_RESPONSE: case MMCSD_R6_RESPONSE: timeout = HSMCI_LONGTIMEOUT; break; case MMCSD_R4_RESPONSE: case MMCSD_R5_RESPONSE: return -ENOSYS; case MMCSD_NO_RESPONSE: case MMCSD_R3_RESPONSE: case MMCSD_R7_RESPONSE: timeout = HSMCI_CMDTIMEOUT; break; default: return -EINVAL; } /* Then wait for the response (or timeout) */ for (;;) { /* Did a Command-Response sequence termination evernt occur? */ sr = getreg32(SAM3U_HSMCI_SR); if ((sr & priv->cmdrmask) != 0) { sam3u_cmdsample2(SAMPLENDX_AT_WAKEUP, sr); sam3u_cmddump(); /* Yes.. Did the Command-Response sequence end with an error? */ if ((sr & HSMCI_RESPONSE_ERRORS) != 0) { /* Yes.. Was the error some kind of timeout? */ fdbg("ERROR: cmd: %08x events: %08x SR: %08x\n", cmd, priv->cmdrmask, sr); if ((sr & HSMCI_RESPONSE_TIMEOUT_ERRORS) != 0) { /* Yes.. return a timeout error */ priv->wkupevent = SDIOWAIT_CMDDONE|SDIOWAIT_RESPONSEDONE|SDIOWAIT_TIMEOUT; return -ETIMEDOUT; } else { /* No.. return some generic I/O error */ priv->wkupevent = SDIOWAIT_CMDDONE|SDIOWAIT_RESPONSEDONE|SDIOWAIT_ERROR; return -EIO; } } else { /* The Command-Response sequence ended with no error */ priv->wkupevent = SDIOWAIT_CMDDONE|SDIOWAIT_RESPONSEDONE; return OK; } } else if (--timeout <= 0) { fdbg("ERROR: Timeout cmd: %08x events: %08x SR: %08x\n", cmd, priv->cmdrmask, sr); priv->wkupevent = SDIOWAIT_TIMEOUT; return -ETIMEDOUT; } } } /**************************************************************************** * Name: sam3u_recvRx * * 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 failure to obtain the requested reponse (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 sam3u_recvshort(FAR struct sdio_dev_s *dev, uint32_t cmd, uint32_t *rshort) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; int ret = OK; /* These responses could have CRC errors: * * 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 * * But there is no parity on the R3 response and parity errors should * be ignored. * * 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 */ #ifdef CONFIG_DEBUG if (!rshort) { fdbg("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_R6_RESPONSE && (cmd & MMCSD_RESPONSE_MASK) != MMCSD_R3_RESPONSE && (cmd & MMCSD_RESPONSE_MASK) != MMCSD_R7_RESPONSE) { fdbg("ERROR: Wrong response CMD=%08x\n", cmd); ret = -EINVAL; } else #endif /* Check for timeout errors */ if ((priv->wkupevent & SDIOWAIT_TIMEOUT) != 0) { ret = -EINVAL; } /* Check for other errors */ else if ((priv->wkupevent & SDIOWAIT_ERROR) != 0) { ret = -EIO; } /* Return the R1/R6 response */ else if (rshort) { *rshort = getreg32(SAM3U_HSMCI_RSPR0); } priv->wkupevent = 0; return ret; } static int sam3u_recvlong(FAR struct sdio_dev_s *dev, uint32_t cmd, uint32_t rlong[4]) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; 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 /* Check that R1 is the correct response to this command */ if ((cmd & MMCSD_RESPONSE_MASK) != MMCSD_R2_RESPONSE) { fdbg("ERROR: Wrong response CMD=%08x\n", cmd); ret = -EINVAL; } else #endif /* Check for timeout errors */ if ((priv->wkupevent & SDIOWAIT_TIMEOUT) != 0) { ret = -EINVAL; } /* Check for other errors */ else if ((priv->wkupevent & SDIOWAIT_ERROR) != 0) { ret = -EIO; } /* Return the long response */ else if (rlong) { rlong[0] = getreg32(SAM3U_HSMCI_RSPR0); rlong[1] = getreg32(SAM3U_HSMCI_RSPR1); rlong[2] = getreg32(SAM3U_HSMCI_RSPR2); rlong[3] = getreg32(SAM3U_HSMCI_RSPR3); } priv->wkupevent = 0; return ret; } /* MMC responses not supported */ static int sam3u_recvnotimpl(FAR struct sdio_dev_s *dev, uint32_t cmd, uint32_t *rnotimpl) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; priv->wkupevent = 0; return -ENOSYS; } /**************************************************************************** * Name: sam3u_waitenable * * Description: * Enable/disable of a set of SDIO wait events. This is part of the * the HSMCI_WAITEVENT sequence. The set of to-be-waited-for events is * configured before calling sam3u_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) HSMCI_WAITENABLE is called * again specifying a different set of wait events, or (2) HSMCI_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 sam3u_waitenable(FAR struct sdio_dev_s *dev, sdio_eventset_t eventset) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; uint32_t waitmask; DEBUGASSERT(priv != NULL); /* Disable event-related interrupts */ sam3u_disablewaitints(priv, 0); /* Select the interrupt mask that will give us the appropriate wakeup * interrupts. */ waitmask = 0; if ((eventset & (SDIOWAIT_CMDDONE|SDIOWAIT_RESPONSEDONE)) != 0) { waitmask |= priv->cmdrmask; } /* Enable event-related interrupts */ (void)getreg32(SAM3U_HSMCI_SR); sam3u_enablewaitints(priv, waitmask, eventset); } /**************************************************************************** * Name: sam3u_eventwait * * Description: * Wait for one of the enabled events to occur (or a timeout). Note that * all events enabled by HSMCI_WAITEVENTS are disabled when sam3u_eventwait * returns. HSMCI_WAITEVENTS must be called again before sam3u_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 sam3u_eventwait(FAR struct sdio_dev_s *dev, uint32_t timeout) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; sdio_eventset_t wkupevent = 0; 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. */ DEBUGASSERT((priv->waitevents != 0 && priv->wkupevent == 0) || (priv->waitevents == 0 && priv->wkupevent != 0)); /* Check if the timeout event is specified in the event set */ if ((priv->waitevents & SDIOWAIT_TIMEOUT) != 0) { int delay; /* Yes.. Handle a cornercase */ if (!timeout) { return SDIOWAIT_TIMEOUT; } /* Start the watchdog timer */ delay = (timeout + (MSEC_PER_TICK-1)) / MSEC_PER_TICK; ret = wd_start(priv->waitwdog, delay, (wdentry_t)sam3u_eventtimeout, 1, (uint32_t)priv); if (ret != OK) { fdbg("ERROR: wd_start failed: %d\n", ret); } } /* Loop until the event (or the timeout occurs). Race conditions are avoided * by calling sam3u_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. */ sam3u_takesem(priv); 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. * When wkupevent becomes non-zero, further interrupts will have already * been disabled. */ if (wkupevent != 0) { /* Yes... break out of the loop with wkupevent non-zero */ break; } } sam3u_cmddump(); sam3u_xfrdump(priv); return wkupevent; } /**************************************************************************** * Name: sam3u_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 sam3u_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 methos. * * 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 sam3u_callbackenable(FAR struct sdio_dev_s *dev, sdio_eventset_t eventset) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; fvdbg("eventset: %02x\n", eventset); DEBUGASSERT(priv != NULL); priv->cbevents = eventset; sam3u_callback(priv); } /**************************************************************************** * Name: sam3u_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 HSMCI_CALLBACKENABLE * * Input Parameters: * dev - Device-specific state data * callback - The funtion 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 sam3u_registercallback(FAR struct sdio_dev_s *dev, worker_t callback, void *arg) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)dev; /* Disable callbacks and register this callback and is argument */ fvdbg("Register %p(%p)\n", callback, arg); DEBUGASSERT(priv != NULL); priv->cbevents = 0; priv->cbarg = arg; priv->callback = callback; return OK; } /**************************************************************************** * Name: sam3u_dmasupported * * Description: * Return true if the hardware can support DMA * * Input Parameters: * dev - An instance of the SDIO device interface * * Returned Value: * true if DMA is supported. * ****************************************************************************/ #ifdef CONFIG_SDIO_DMA static bool sam3u_dmasupported(FAR struct sdio_dev_s *dev) { return true; } #endif /**************************************************************************** * Name: sam3u_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 * ****************************************************************************/ static int sam3u_dmarecvsetup(FAR struct sdio_dev_s *dev, FAR uint8_t *buffer, size_t buflen) { struct sam3u_dev_s *priv = (struct sam3u_dev_s *)dev; DEBUGASSERT(priv != NULL && buffer != NULL && buflen > 0); DEBUGASSERT(((uint32_t)buffer & 3) == 0); /* Setup register sampling */ sam3u_xfrsampleinit(); sam3u_xfrsample(priv, SAMPLENDX_BEFORE_SETUP); /* Configure the RX DMA */ sam3u_enablexfrints(priv, HSMCI_DMARECV_INTS); sam3u_dmarxsetup(priv->dma, SAM3U_HSMCI_FIFO, (uint32_t)buffer, buflen); /* Enable DMA handshaking */ putreg32(HSMCI_DMA_DMAEN, SAM3U_HSMCI_DMA); sam3u_xfrsample(priv, SAMPLENDX_BEFORE_ENABLE); /* Start the DMA */ sam3u_dmastart(priv->dma, sam3u_dmacallback, priv); sam3u_xfrsample(priv, SAMPLENDX_AFTER_SETUP); return OK; } /**************************************************************************** * Name: sam3u_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 * ****************************************************************************/ static int sam3u_dmasendsetup(FAR struct sdio_dev_s *dev, FAR const uint8_t *buffer, size_t buflen) { struct sam3u_dev_s *priv = (struct sam3u_dev_s *)dev; DEBUGASSERT(priv != NULL && buffer != NULL && buflen > 0); DEBUGASSERT(((uint32_t)buffer & 3) == 0); /* Setup register sampling */ sam3u_xfrsampleinit(); sam3u_xfrsample(priv, SAMPLENDX_BEFORE_SETUP); /* Configure the TX DMA */ sam3u_dmatxsetup(priv->dma, SAM3U_HSMCI_FIFO, (uint32_t)buffer, buflen); /* Enable DMA handshaking */ putreg32(HSMCI_DMA_DMAEN, SAM3U_HSMCI_DMA); sam3u_xfrsample(priv, SAMPLENDX_BEFORE_ENABLE); /* Start the DMA */ sam3u_dmastart(priv->dma, sam3u_dmacallback, priv); sam3u_xfrsample(priv, SAMPLENDX_AFTER_SETUP); /* Enable TX interrrupts */ sam3u_enablexfrints(priv, HSMCI_DMASEND_INTS); return OK; } /**************************************************************************** * Initialization/uninitialization/reset ****************************************************************************/ /**************************************************************************** * Name: sam3u_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 sam3u_callback(void *arg) { struct sam3u_dev_s *priv = (struct sam3u_dev_s*)arg; /* Is a callback registered? */ DEBUGASSERT(priv != NULL); fvdbg("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 */ fvdbg("Queuing callback to %p(%p)\n", priv->callback, priv->cbarg); (void)work_queue(HPWORK, &priv->cbwork, (worker_t)priv->callback, priv->cbarg, 0); } else { /* No.. then just call the callback here */ fvdbg("Callback to %p(%p)\n", priv->callback, priv->cbarg); priv->callback(priv->cbarg); } } } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: sdio_initialize * * Description: * Initialize SD for operation. * * Input Parameters: * slotno - Not used. * * Returned Values: * A reference to an SDIO interface structure. NULL is returned on failures. * ****************************************************************************/ FAR struct sdio_dev_s *sdio_initialize(int slotno) { /* There is only one slot */ struct sam3u_dev_s *priv = &g_sdiodev; fdbg("slotno: %d\n", slotno); /* Initialize the HSMCI slot structure */ sem_init(&priv->waitsem, 0, 0); priv->waitwdog = wd_create(); DEBUGASSERT(priv->waitwdog); /* Allocate a DMA channel. A FIFO size of 8 is sufficient. */ priv->dma = sam3u_dmachannel(DMA_FLAGS); DEBUGASSERT(priv->dma); /* Configure GPIOs for 4-bit, wide-bus operation. NOTE: (1) the chip is capable of * 8-bit wide bus operation but D4-D7 are not configured, (2) any card detection * GPIOs must be set up in board-specific logic. */ sam3u_configgpio(GPIO_MCI_DAT0); /* Data 0 of Slot A */ sam3u_configgpio(GPIO_MCI_DAT1); /* Data 1 of Slot A */ sam3u_configgpio(GPIO_MCI_DAT2); /* Data 2 of Slot A */ sam3u_configgpio(GPIO_MCI_DAT3); /* Data 3 of Slot A */ sam3u_configgpio(GPIO_MCI_CK); /* SD clock */ sam3u_configgpio(GPIO_MCI_DA); /* Command/Response */ #ifdef CONFIG_DEBUG_FS sam3u_dumpgpio(GPIO_PORT_PIOA, "Pins: 3-8"); sam3u_dumpgpio(GPIO_PORT_PIOB, "Pins: 28-31"); #endif /* Reset the card and assure that it is in the initial, unconfigured * state. */ sam3u_reset(&priv->dev); return &g_sdiodev.dev; } /**************************************************************************** * Name: sdio_mediachange * * Description: * Called by board-specific logic -- posssible 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 Values: * None * ****************************************************************************/ void sdio_mediachange(FAR struct sdio_dev_s *dev, bool cardinslot) { struct sam3u_dev_s *priv = (struct sam3u_dev_s *)dev; uint8_t cdstatus; irqstate_t flags; /* Update card status */ flags = irqsave(); cdstatus = priv->cdstatus; if (cardinslot) { priv->cdstatus |= SDIO_STATUS_PRESENT; } else { priv->cdstatus &= ~SDIO_STATUS_PRESENT; } fvdbg("cdstatus OLD: %02x NEW: %02x\n", cdstatus, priv->cdstatus); /* Perform any requested callback if the status has changed */ if (cdstatus != priv->cdstatus) { sam3u_callback(priv); } irqrestore(flags); } /**************************************************************************** * 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 Values: * None * ****************************************************************************/ void sdio_wrprotect(FAR struct sdio_dev_s *dev, bool wrprotect) { struct sam3u_dev_s *priv = (struct sam3u_dev_s *)dev; irqstate_t flags; /* Update card status */ flags = irqsave(); if (wrprotect) { priv->cdstatus |= SDIO_STATUS_WRPROTECTED; } else { priv->cdstatus &= ~SDIO_STATUS_WRPROTECTED; } fvdbg("cdstatus: %02x\n", priv->cdstatus); irqrestore(flags); } #endif /* CONFIG_SAM3U_HSMCI */