* \brief ARM UART and SPI I/O driver
*
*
- * \version $Id: ser_at91.c 20881 2008-03-04 14:07:02Z batt $
* \author Daniele Basile <asterix@develer.com>
*/
#include "hw/hw_ser.h" /* Required for bus macros overrides */
-#include "hw/hw_cpu.h" /* CLOCK_FREQ */
+#include <hw/hw_cpufreq.h> /* CPU_FREQ */
#include "cfg/cfg_ser.h"
#include <cfg/debug.h>
*
* - Disable GPIO on USART0 tx/rx pins
*/
- #if !CPU_ARM_AT91SAM7S256 && !CPU_ARM_AT91SAM7X256 && !CPU_ARM_AT91SAM7X128
+ #if !CPU_ARM_SAM7S_LARGE && !CPU_ARM_SAM7X
#warning Check USART0 pins!
#endif
#define SER_UART0_BUS_TXINIT do { \
*
* - Disable GPIO on USART1 tx/rx pins
*/
- #if !CPU_ARM_AT91SAM7S256 && !CPU_ARM_AT91SAM7X256 && !CPU_ARM_AT91SAM7X128
+ #if !CPU_ARM_SAM7S_LARGE && !CPU_ARM_SAM7X
#warning Check USART1 pins!
#endif
#define SER_UART1_BUS_TXINIT do { \
#define SER_SPI0_BUS_TXCLOSE
#endif
-#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
+#if CPU_ARM_SAM7X
#ifndef SER_SPI1_BUS_TXINIT
/**
/*\}*/
-/**
- * \def CONFIG_SER_STROBE
- *
- * This is a debug facility that can be used to
- * monitor SER interrupt activity on an external pin.
- *
- * To use strobes, redefine the macros SER_STROBE_ON,
- * SER_STROBE_OFF and SER_STROBE_INIT and set
- * CONFIG_SER_STROBE to 1.
- */
-#if !defined(CONFIG_SER_STROBE) || !CONFIG_SER_STROBE
- #define SER_STROBE_ON do {/*nop*/} while(0)
- #define SER_STROBE_OFF do {/*nop*/} while(0)
- #define SER_STROBE_INIT do {/*nop*/} while(0)
-#endif
/* From the high-level serial driver */
static unsigned char spi0_txbuffer[CONFIG_SPI0_TXBUFSIZE];
static unsigned char spi0_rxbuffer[CONFIG_SPI0_RXBUFSIZE];
-#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
+#if CPU_ARM_SAM7X
static unsigned char spi1_txbuffer[CONFIG_SPI1_TXBUFSIZE];
static unsigned char spi1_rxbuffer[CONFIG_SPI1_RXBUFSIZE];
#endif
volatile bool sending;
};
-
-
-#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
-struct Serial *ser_spi1 = &ser_handles[SER_SPI1];
-#endif
-
-static void uart0_irq_dispatcher(void);
-static void uart1_irq_dispatcher(void);
-static void spi0_irq_handler(void);
-#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
-static void spi1_irq_handler(void);
+static ISR_PROTO(uart0_irq_dispatcher);
+static ISR_PROTO(uart1_irq_dispatcher);
+static ISR_PROTO(spi0_irq_handler);
+#if CPU_ARM_SAM7X
+static ISR_PROTO(spi1_irq_handler);
#endif
/*
* Callbacks for USART0
static void uart0_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
{
/* Compute baud-rate period */
- US0_BRGR = CLOCK_FREQ / (16 * rate);
+ US0_BRGR = CPU_FREQ / (16 * rate);
//DB(kprintf("uart0_setbaudrate(rate=%lu): period=%d\n", rate, period);)
}
static void uart1_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
{
/* Compute baud-rate period */
- US1_BRGR = CLOCK_FREQ / (16 * rate);
+ US1_BRGR = CPU_FREQ / (16 * rate);
//DB(kprintf("uart0_setbaudrate(rate=%lu): period=%d\n", rate, period);)
}
{
struct ArmSerial *hw = (struct ArmSerial *)_hw;
- cpuflags_t flags;
+ cpu_flags_t flags;
IRQ_SAVE_DISABLE(flags);
/* Send data only if the SPI is not already transmitting */
{
SPI0_CSR0 &= ~SPI_SCBR;
- ASSERT((uint8_t)DIV_ROUND(CLOCK_FREQ, rate));
- SPI0_CSR0 |= DIV_ROUND(CLOCK_FREQ, rate) << SPI_SCBR_SHIFT;
+ ASSERT((uint8_t)DIV_ROUND(CPU_FREQ, rate));
+ SPI0_CSR0 |= DIV_ROUND(CPU_FREQ, rate) << SPI_SCBR_SHIFT;
}
-#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
+#if CPU_ARM_SAM7X
/* SPI driver */
static void spi1_init(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(struct Serial *, ser))
{
/* Disable PIO on SPI pins */
PIOA_PDR = BV(SPI1_SPCK) | BV(SPI1_MOSI) | BV(SPI1_MISO);
+ /* SPI1 pins are on B peripheral function! */
+ PIOA_BSR = BV(SPI1_SPCK) | BV(SPI1_MOSI) | BV(SPI1_MISO);
+
/* Reset device */
SPI1_CR = BV(SPI_SWRST);
-/*
+ /*
* Set SPI to master mode, fixed peripheral select, chip select directly connected to a peripheral device,
* SPI clock set to MCK, mode fault detection disabled, loopback disable, NPCS0 active, Delay between CS = 0
*/
{
struct ArmSerial *hw = (struct ArmSerial *)_hw;
- cpuflags_t flags;
+ cpu_flags_t flags;
IRQ_SAVE_DISABLE(flags);
/* Send data only if the SPI is not already transmitting */
- if (!hw->sending && !fifo_isempty(&ser_spi1->txfifo))
+ if (!hw->sending && !fifo_isempty(&ser_handles[SER_SPI1]->txfifo))
{
hw->sending = true;
- SPI1_TDR = fifo_pop(&ser_spi1->txfifo);
+ SPI1_TDR = fifo_pop(&ser_handles[SER_SPI1]->txfifo);
}
IRQ_RESTORE(flags);
{
SPI1_CSR0 &= ~SPI_SCBR;
- ASSERT((uint8_t)DIV_ROUND(CLOCK_FREQ, rate));
- SPI1_CSR0 |= DIV_ROUND(CLOCK_FREQ, rate) << SPI_SCBR_SHIFT;
+ ASSERT((uint8_t)DIV_ROUND(CPU_FREQ, rate));
+ SPI1_CSR0 |= DIV_ROUND(CPU_FREQ, rate) << SPI_SCBR_SHIFT;
}
#endif
C99INIT(txStart, spi0_starttx),
C99INIT(txSending, tx_sending),
};
-#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
+#if CPU_ARM_SAM7X
static const struct SerialHardwareVT SPI1_VT =
{
C99INIT(init, spi1_init),
},
C99INIT(sending, false),
},
- #if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
+ #if CPU_ARM_SAM7X
{
C99INIT(hw, /**/) {
C99INIT(table, &SPI1_VT),
/**
* Serial 0 TX interrupt handler
*/
-static void uart0_irq_tx(void)
+INLINE void uart0_irq_tx(void)
{
SER_STROBE_ON;
if (fifo_isempty(txfifo))
{
/*
- * - Disable the TX empty interrupts
+ * - Disable the TX empty interrupts
*/
US0_IDR = BV(US_TXEMPTY);
SER_UART0_BUS_TXEND;
/**
* Serial 0 RX complete interrupt handler.
*/
-static void uart0_irq_rx(void)
+INLINE void uart0_irq_rx(void)
{
SER_STROBE_ON;
/**
* Serial IRQ dispatcher for USART0.
*/
-static void uart0_irq_dispatcher(void) __attribute__ ((interrupt));
-static void uart0_irq_dispatcher(void)
+static DECLARE_ISR(uart0_irq_dispatcher)
{
if (US0_CSR & BV(US_RXRDY))
uart0_irq_rx();
/**
* Serial 1 TX interrupt handler
*/
-static void uart1_irq_tx(void)
+INLINE void uart1_irq_tx(void)
{
SER_STROBE_ON;
if (fifo_isempty(txfifo))
{
/*
- * - Disable the TX empty interrupts
+ * - Disable the TX empty interrupts
*/
US1_IDR = BV(US_TXEMPTY);
SER_UART1_BUS_TXEND;
/**
* Serial 1 RX complete interrupt handler.
*/
-static void uart1_irq_rx(void)
+INLINE void uart1_irq_rx(void)
{
SER_STROBE_ON;
/**
* Serial IRQ dispatcher for USART1.
*/
-static void uart1_irq_dispatcher(void) __attribute__ ((interrupt));
-static void uart1_irq_dispatcher(void)
+static DECLARE_ISR(uart1_irq_dispatcher)
{
if (US1_CSR & BV(US_RXRDY))
uart1_irq_rx();
/**
* SPI0 interrupt handler
*/
-static void spi0_irq_handler(void) __attribute__ ((interrupt));
-static void spi0_irq_handler(void)
+static DECLARE_ISR(spi0_irq_handler)
{
SER_STROBE_ON;
}
-#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
+#if CPU_ARM_SAM7X
/**
* SPI1 interrupt handler
*/
-static void spi1_irq_handler(void) __attribute__ ((interrupt));
-static void spi1_irq_handler(void)
+static DECLARE_ISR(spi1_irq_handler)
{
SER_STROBE_ON;
char c = SPI1_RDR;
/* Read incoming byte. */
- if (!fifo_isfull(&ser_spi1->rxfifo))
- fifo_push(&ser_spi1->rxfifo, c);
+ if (!fifo_isfull(&ser_handles[SER_SPI1]->rxfifo))
+ fifo_push(&ser_handles[SER_SPI1]->rxfifo, c);
/*
* FIXME
else
- ser_spi1->status |= SERRF_RXFIFOOVERRUN;
+ ser_handles[SER_SPI1]->status |= SERRF_RXFIFOOVERRUN;
*/
/* Send */
- if (!fifo_isempty(&ser_spi1->txfifo))
- SPI1_TDR = fifo_pop(&ser_spi1->txfifo);
+ if (!fifo_isempty(&ser_handles[SER_SPI1]->txfifo))
+ SPI1_TDR = fifo_pop(&ser_handles[SER_SPI1]->txfifo);
else
UARTDescs[SER_SPI1].sending = false;