*/
-/*
- * TODO: Revise the public api of this module to be more generic. Evalutate to
- * implement the more generic layer to be common to all I2S BeRTOS drivers.
- */
-#include "i2s_sam3.h"
#include "cfg/cfg_i2s.h"
// Define log settings for cfg/log.h.
#include <cfg/log.h>
#include <drv/timer.h>
-#include <drv/irq_cm3.h>
-
+#include <drv/i2s.h>
#include <cpu/irq.h>
#include <io/cm3.h>
+struct I2sHardware
+{
+};
+struct I2sHardware i2s_hw;
-#define DATALEN (15 & SSC_DATLEN_MASK)
-#define BITS_PER_CHANNEL 16
-#define N_OF_CHANNEL 2
-// TODO: check the computed value?
-/* The last parameter (2) is due to the hadware on at91sam7s. */
-#define MCK_DIV (CPU_FREQ / (44100 * BITS_PER_CHANNEL * N_OF_CHANNEL* 2))
-#define CONFIG_DELAY 0
-#define CONFIG_PERIOD 15
-#define CONFIG_DATNB 1
-#define CONFIG_FSLEN 15
+/* We divite for 2 because the min clock for i2s i MCLK/2 */
+#define MCK_DIV (CPU_FREQ / (48000 * CONFIG_WORD_BIT_SIZE * CONFIG_CHANNEL_NUM * 2))
+#define DATALEN ((CONFIG_WORD_BIT_SIZE - 1) & SSC_DATLEN_MASK)
+#define DELAY ((CONFIG_DELAY << SSC_STTDLY_SHIFT) & SSC_STTDLY_MASK)
+#define PERIOD ((CONFIG_PERIOD << (SSC_PERIOD_SHIFT)) & SSC_PERIOD_MASK)
+#define DATNB ((CONFIG_WORD_PER_FRAME << SSC_DATNB_SHIFT) & SSC_DATNB_MASK)
+#define FSLEN ((CONFIG_FRAME_SYNC_SIZE << SSC_FSLEN_SHIFT) & SSC_FSLEN_MASK)
+#define EXTRA_FSLEN (CONFIG_EXTRA_FRAME_SYNC_SIZE << SSC_FSLEN_EXT)
-#define DELAY ((CONFIG_DELAY << SSC_STTDLY_SHIFT) & SSC_STTDLY_MASK)
-#define PERIOD ((CONFIG_PERIOD << (SSC_PERIOD_SHIFT)) & SSC_PERIOD_MASK)
-#define DATNB ((CONFIG_DATNB << SSC_DATNB_SHIFT) & SSC_DATNB_MASK)
-#define FSLEN ((CONFIG_FSLEN << SSC_FSLEN_SHIFT) & SSC_FSLEN_MASK)
+static void sam3_i2s_txStop(I2s *i2s)
+{
+ (void)i2s;
+ SSC_CR = BV(SSC_TXDIS);
+}
+static void sam3_i2s_txWait(I2s *i2s)
+{
+ (void)i2s;
+}
+static void sam3_i2s_txStart(I2s *i2s, void *buf, size_t len, size_t slice_len)
+{
+ (void)i2s;
+ (void)buf;
+ (void)len;
+ (void)slice_len;
+}
-void i2s_stop(void)
+static void sam3_i2s_rxStop(I2s *i2s)
{
+ (void)i2s;
SSC_CR = BV(SSC_TXDIS);
}
+static void sam3_i2s_rxWait(I2s *i2s)
+{
+ (void)i2s;
+}
-bool i2s_start(void)
+static void sam3_i2s_rxStart(I2s *i2s, void *buf, size_t len, size_t slice_len)
{
+ (void)i2s;
+ (void)buf;
+ (void)len;
+ (void)slice_len;
+}
- /* enable output */
- SSC_CR = BV(SSC_TXEN);
- return true;
+static bool sam3_i2s_isTxFinish(struct I2s *i2s)
+{
+ (void)i2s;
+ return false;
}
+static bool sam3_i2s_isRxFinish(struct I2s *i2s)
+{
+ (void)i2s;
+ return false;
+}
-static DECLARE_ISR(irq_ssc)
+static void sam3_i2s_txBuf(struct I2s *i2s, void *buf, size_t len)
{
+ (void)i2s;
+ (void)buf;
+ (void)len;
}
-void i2s_init(void)
+static void sam3_i2s_rxBuf(struct I2s *i2s, void *buf, size_t len)
{
+ (void)i2s;
+ (void)buf;
+ (void)len;
+}
+
+static int sam3_i2s_write(struct I2s *i2s, uint32_t sample)
+{
+ (void)i2s;
+ while(!(SSC_SR & BV(SSC_TXRDY)));
+ SSC_THR = sample;
+ return 0;
+}
+
+
+
+static uint32_t sam3_i2s_read(struct I2s *i2s)
+{
+ (void)i2s;
+ while(!(SSC_SR & BV(SSC_RXRDY)));
+ return SSC_RHR;
+}
+
+/*
+static DECLARE_ISR(irq_ssc)
+{
+}
+*/
+void i2s_init(I2s *i2s, int channel)
+{
+ (void)channel;
+ i2s->ctx.write = sam3_i2s_write;
+ i2s->ctx.tx_buf = sam3_i2s_txBuf;
+ i2s->ctx.tx_isFinish = sam3_i2s_isTxFinish;
+ i2s->ctx.tx_start = sam3_i2s_txStart;
+ i2s->ctx.tx_wait = sam3_i2s_txWait;
+ i2s->ctx.tx_stop = sam3_i2s_txStop;
+
+ i2s->ctx.read = sam3_i2s_read;
+ i2s->ctx.rx_buf = sam3_i2s_rxBuf;
+ i2s->ctx.rx_isFinish = sam3_i2s_isRxFinish;
+ i2s->ctx.rx_start = sam3_i2s_rxStart;
+ i2s->ctx.rx_wait = sam3_i2s_rxWait;
+ i2s->ctx.rx_stop = sam3_i2s_rxStop;
+
+ DB(i2s->ctx._type = I2S_SAM3X;)
+ i2s->hw = &i2s_hw;
+
PIOA_PDR = BV(SSC_TK) | BV(SSC_TF) | BV(SSC_TD);
- PIO_PERIPH_SEL(SSC_PORT, BV(SSC_TK) | BV(SSC_TF) | BV(SSC_TD), PIO_PERIPH_B);
+ PIO_PERIPH_SEL(PIOA_BASE, BV(SSC_TK) | BV(SSC_TF) | BV(SSC_TD), PIO_PERIPH_B);
+ PIOB_PDR = BV(SSC_RD) | BV(SSC_RF);
+ PIO_PERIPH_SEL(PIOB_BASE, BV(SSC_RD) | BV(SSC_RF), PIO_PERIPH_A);
+
+ /* clock the ssc */
pmc_periphEnable(SSC_ID);
/* reset device */
* - MSB
* - Frame sync output selection negative
*/
- SSC_TFMR = DATALEN | DATNB | FSLEN | BV(SSC_MSBF) | SSC_FSOS_POSITIVE;
+ SSC_TFMR = DATALEN | DATNB | FSLEN | EXTRA_FSLEN | BV(SSC_MSBF) | SSC_FSOS_POSITIVE;
+
+
+ // Receiver should start on TX and take the clock from TK
+ SSC_RCMR = SSC_CKS_CLK | BV(SSC_CKI) | SSC_CKO_CONT | SSC_CKG_NONE | DELAY | PERIOD | SSC_START_TX;
+ SSC_RFMR = DATALEN | DATNB | FSLEN | EXTRA_FSLEN | BV(SSC_MSBF) | SSC_FSOS_POSITIVE;
+
+
+ SSC_IDR = 0xFFFFFFFF;
+ SSC_CR = BV(SSC_TXEN) | BV(SSC_RXEN);
}