#include "hsmci_sam3.h"
+#include "hw/hw_sd.h"
#include <drv/timer.h>
-#include <cpu/irq.h>
#include <drv/irq_cm3.h>
+#include <drv/dmac_sam3.h>
-#include <io/cm3.h>
-
+#include <cpu/irq.h>
+#include <io/cm3.h>
-#define HSMCI_INIT_SPEED 400000
-#define HSMCI_CLK_DIV ((CPU_FREQ / (HSMCI_INIT_SPEED << 1)) - 1)
-#define HSMCI_ERROR_MASK (BV(HSMCI_SR_RINDE) | \
- BV(HSMCI_SR_RDIRE) | \
- BV(HSMCI_SR_RCRCE) | \
- BV(HSMCI_SR_RENDE) | \
- BV(HSMCI_SR_RTOE) | \
- BV(HSMCI_SR_DCRCE) | \
- BV(HSMCI_SR_DTOE) | \
- BV(HSMCI_SR_CSTOE) | \
- BV(HSMCI_SR_BLKOVRE) | \
- BV(HSMCI_SR_ACKRCVE))
+#define HSMCI_CLK_DIV(RATE) ((CPU_FREQ / (RATE << 1)) - 1)
#define HSMCI_RESP_ERROR_MASK (BV(HSMCI_SR_RINDE) | BV(HSMCI_SR_RDIRE) \
- | BV(HSMCI_SR_RCRCE)| BV(HSMCI_SR_RENDE)| BV(HSMCI_SR_RTOE))
+ | BV(HSMCI_SR_RENDE)| BV(HSMCI_SR_RTOE))
+#define HSMCI_DATA_ERROR_MASK (BV(HSMCI_SR_DCRCE) | BV(HSMCI_SR_DTOE))
+#define HSMCI_READY_MASK (BV(HSMCI_SR_CMDRDY) | BV(HSMCI_SR_NOTBUSY))
#define HSMCI_WAIT()\
do { \
cpu_relax(); \
- } while (!(HSMCI_SR & (BV(HSMCI_SR_CMDRDY) | BV(HSMCI_SR_NOTBUSY) | BV(HSMCI_SR_XFRDONE))))
+ } while (!(HSMCI_SR & BV(HSMCI_SR_CMDRDY)))
-#define HSMCI_ERROR() (HSMCI_SR & HSMCI_ERROR_MASK)
-#define HSMCI_HW_INIT() \
-do { \
- PIOA_PDR = BV(19) | BV(20) | BV(21) | BV(22) | BV(23) | BV(24); \
- PIO_PERIPH_SEL(PIOA_BASE, BV(19) | BV(20) | BV(21) | BV(22) | BV(23) | BV(24), PIO_PERIPH_A); \
-} while (0)
+#define HSMCI_WAIT_DATA_RDY()\
+ do { \
+ cpu_relax(); \
+ } while (!(HSMCI_SR & BV(HSMCI_SR_RXRDY)))
-#define STROBE_ON() PIOB_SODR = BV(13)
-#define STROBE_OFF() PIOB_CODR = BV(13)
-#define STROBE_INIT() \
- do { \
- PIOB_OER = BV(13); \
- PIOB_PER = BV(13); \
- } while(0)
+static Dmac dmac;
static DECLARE_ISR(hsmci_irq)
{
- kprintf("irq stato %lx\n", HSMCI_SR);
+ uint32_t status = HSMCI_SR;
+ if (status & BV(HSMCI_IER_DMADONE))
+ {
+ }
}
-void hsmci_readResp(void *resp, size_t len)
+
+void hsmci_readResp(uint32_t *resp, size_t len)
{
ASSERT(resp);
- uint32_t *r = (uint32_t *)resp;
-
- kprintf("size %d \n", sizeof(HSMCI_RSPR));
for (size_t i = 0; i < len ; i++)
- r[i] = HSMCI_RSPR;
+ resp[i] = HSMCI_RSPR;
}
bool hsmci_sendCmd(uint8_t index, uint32_t argument, uint32_t reply_type)
{
- STROBE_ON();
HSMCI_WAIT();
HSMCI_ARGR = argument;
- HSMCI_CMDR = index | reply_type | BV(HSMCI_CMDR_OPDCMD);
+ HSMCI_CMDR = index | reply_type | BV(HSMCI_CMDR_MAXLAT);
- uint32_t status;
- do {
- status = HSMCI_SR;
+ uint32_t status = HSMCI_SR;
+ while (!(status & BV(HSMCI_SR_CMDRDY)))
+ {
if (status & HSMCI_RESP_ERROR_MASK)
return status;
cpu_relax();
- } while (!(status & (BV(HSMCI_SR_CMDRDY) | BV(HSMCI_SR_NOTBUSY) | BV(HSMCI_SR_XFRDONE))));
- timer_delay(1);
- STROBE_OFF();
+ status = HSMCI_SR;
+ }
+
return 0;
}
+void hsmci_write(const uint32_t *buf, size_t word_num, size_t blk_size)
+{
+ HSMCI_DMA |= BV(HSMCI_DMA_DMAEN);
+ HSMCI_BLKR = blk_size << HSMCI_BLKR_BLKLEN_SHIFT;
+
+ uint32_t cfg = BV(DMAC_CFG_DST_H2SEL);
+ uint32_t ctrla = DMAC_CTRLA_SRC_WIDTH_WORD | DMAC_CTRLA_DST_WIDTH_WORD;
+ uint32_t ctrlb = BV(DMAC_CTRLB_SRC_DSCR) | BV(DMAC_CTRLB_DST_DSCR) |
+ DMAC_CTRLB_FC_MEM2PER_DMA_FC |
+ DMAC_CTRLB_DST_INCR_FIXED | DMAC_CTRLB_SRC_INCR_INCREMENTING;
+
+ ASSERT(!(DMAC_CHSR & BV(DMAC_CHSR_ENA0)));
+ DMAC_CHER = BV(DMAC_CHER_ENA0);
+
+ dmac_setSources(&dmac, 0, (uint32_t)buf, (uint32_t)&HSMCI_TDR, word_num);
+ dmac_configureDmac(&dmac, 0, cfg, ctrla, ctrlb);
+ dmac_start(&dmac, 0);
+}
+
+void hsmci_read(uint32_t *buf, size_t word_num, size_t blk_size)
+{
+ HSMCI_DMA |= BV(HSMCI_DMA_DMAEN);
+ HSMCI_BLKR = blk_size << HSMCI_BLKR_BLKLEN_SHIFT;
+
+ uint32_t cfg = BV(DMAC_CFG_SRC_H2SEL);
+ uint32_t ctrla = DMAC_CTRLA_SRC_WIDTH_WORD | DMAC_CTRLA_DST_WIDTH_WORD;
+ uint32_t ctrlb = BV(DMAC_CTRLB_SRC_DSCR) | BV(DMAC_CTRLB_DST_DSCR) |
+ DMAC_CTRLB_FC_PER2MEM_DMA_FC |
+ DMAC_CTRLB_DST_INCR_INCREMENTING | DMAC_CTRLB_SRC_INCR_FIXED;
+
+ dmac_setSources(&dmac, 0, (uint32_t)&HSMCI_RDR, (uint32_t)buf, word_num);
+ dmac_configureDmac(&dmac, 0, cfg, ctrla, ctrlb);
+ dmac_start(&dmac, 0);
+}
+
+
+void hsmci_waitTransfer(void)
+{
+ while (!(HSMCI_SR & BV(HSMCI_SR_XFRDONE)))
+ cpu_relax();
+}
+
+void hsmci_setSpeed(uint32_t data_rate, int flag)
+{
+ if (flag & HSMCI_HS_MODE)
+ HSMCI_CFG |= BV(HSMCI_CFG_HSMODE);
+ else
+ HSMCI_CFG &= ~BV(HSMCI_CFG_HSMODE);
+
+ HSMCI_MR = HSMCI_CLK_DIV(data_rate) | ((0x7u << HSMCI_MR_PWSDIV_SHIFT) & HSMCI_MR_PWSDIV_MASK);
+
+ timer_delay(10);
+}
+
void hsmci_init(Hsmci *hsmci)
{
(void)hsmci;
- HSMCI_HW_INIT();
- STROBE_INIT();
+ SD_PIN_INIT();
pmc_periphEnable(HSMCI_ID);
HSMCI_CR = BV(HSMCI_CR_SWRST);
HSMCI_DTOR = 0xFF | HSMCI_DTOR_DTOMUL_1048576;
HSMCI_CSTOR = 0xFF | HSMCI_CSTOR_CSTOMUL_1048576;
- HSMCI_MR = HSMCI_CLK_DIV | ((0x7u << HSMCI_MR_PWSDIV_SHIFT) & HSMCI_MR_PWSDIV_MASK);
- HSMCI_SDCR = 0;
+ HSMCI_MR = HSMCI_CLK_DIV(HSMCI_INIT_SPEED) | ((0x7u << HSMCI_MR_PWSDIV_SHIFT) & HSMCI_MR_PWSDIV_MASK) | BV(HSMCI_MR_RDPROOF);
HSMCI_CFG = BV(HSMCI_CFG_FIFOMODE) | BV(HSMCI_CFG_FERRCTRL);
sysirq_setHandler(INT_HSMCI, hsmci_irq);
HSMCI_CR = BV(HSMCI_CR_MCIEN);
+ HSMCI_DMA = 0;
+ dmac_init(&dmac);
}