* \brief ARM UART and SPI I/O driver
*
*
- * \version $Id: ser_amr.c 18280 2007-10-11 15:14:20Z asterix $
+ * \version $Id: ser_at91.c 20881 2008-03-04 14:07:02Z batt $
* \author Daniele Basile <asterix@develer.com>
*/
#include <io/arm.h>
-//#include "ser_at91.h"
+#include <cpu/attr.h>
#include <drv/ser.h>
#include <drv/ser_p.h>
#include <appconfig.h>
+#define SERIRQ_PRIORITY 4 ///< default priority for serial irqs.
/**
* \name Overridable serial bus hooks
* \{
*/
+#ifndef SER_UART0_BUS_TXINIT
+ /**
+ * Default TXINIT macro - invoked in uart0_init()
+ *
+ * - Disable GPIO on USART0 tx/rx pins
+ */
+ #if !CPU_ARM_AT91SAM7S256 && !CPU_ARM_AT91SAM7X256 && !CPU_ARM_AT91SAM7X128
+ #warning Check USART0 pins!
+ #endif
+ #define SER_UART0_BUS_TXINIT do { \
+ PIOA_PDR = BV(RXD0) | BV(TXD0); \
+ } while (0)
+
+#endif
+
+#ifndef SER_UART0_BUS_TXBEGIN
+ /**
+ * Invoked before starting a transmission
+ */
+ #define SER_UART0_BUS_TXBEGIN
+#endif
+
+#ifndef SER_UART0_BUS_TXCHAR
+ /**
+ * Invoked to send one character.
+ */
+ #define SER_UART0_BUS_TXCHAR(c) do { \
+ US0_THR = (c); \
+ } while (0)
+#endif
+
+#ifndef SER_UART0_BUS_TXEND
+ /**
+ * Invoked as soon as the txfifo becomes empty
+ */
+ #define SER_UART0_BUS_TXEND
+#endif
+
+/* End USART0 macros */
+
+#ifndef SER_UART1_BUS_TXINIT
+ /**
+ * Default TXINIT macro - invoked in uart1_init()
+ *
+ * - Disable GPIO on USART1 tx/rx pins
+ */
+ #if !CPU_ARM_AT91SAM7S256 && !CPU_ARM_AT91SAM7X256 && !CPU_ARM_AT91SAM7X128
+ #warning Check USART1 pins!
+ #endif
+ #define SER_UART1_BUS_TXINIT do { \
+ PIOA_PDR = BV(RXD1) | BV(TXD1); \
+ } while (0)
+
+#endif
+
+#ifndef SER_UART1_BUS_TXBEGIN
+ /**
+ * Invoked before starting a transmission
+ */
+ #define SER_UART1_BUS_TXBEGIN
+#endif
+
+#ifndef SER_UART1_BUS_TXCHAR
+ /**
+ * Invoked to send one character.
+ */
+ #define SER_UART1_BUS_TXCHAR(c) do { \
+ US1_THR = (c); \
+ } while (0)
+#endif
+
+#ifndef SER_UART1_BUS_TXEND
+ /**
+ * Invoked as soon as the txfifo becomes empty
+ */
+ #define SER_UART1_BUS_TXEND
+#endif
+
+/**
+* \name Overridable SPI hooks
+*
+* These can be redefined in hw.h to implement
+* special bus policies such as slave select pin handling, etc.
+*
+* \{
+*/
+
+#ifndef SER_SPI0_BUS_TXINIT
+ /**
+ * Default TXINIT macro - invoked in spi_init()
+ * The default is no action.
+ */
+ #define SER_SPI0_BUS_TXINIT
+#endif
+
+#ifndef SER_SPI0_BUS_TXCLOSE
+ /**
+ * Invoked after the last character has been transmitted.
+ * The default is no action.
+ */
+ #define SER_SPI0_BUS_TXCLOSE
+#endif
+
+#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
+
+ #ifndef SER_SPI1_BUS_TXINIT
+ /**
+ * Default TXINIT macro - invoked in spi_init()
+ * The default is no action.
+ */
+ #define SER_SPI1_BUS_TXINIT
+ #endif
+
+ #ifndef SER_SPI1_BUS_TXCLOSE
+ /**
+ * Invoked after the last character has been transmitted.
+ * The default is no action.
+ */
+ #define SER_SPI1_BUS_TXCLOSE
+ #endif
+#endif
+/*\}*/
/**
static unsigned char uart0_txbuffer[CONFIG_UART0_TXBUFSIZE];
static unsigned char uart0_rxbuffer[CONFIG_UART0_RXBUFSIZE];
+static unsigned char uart1_txbuffer[CONFIG_UART1_TXBUFSIZE];
+static unsigned char uart1_rxbuffer[CONFIG_UART1_RXBUFSIZE];
+
+static unsigned char spi0_txbuffer[CONFIG_SPI0_TXBUFSIZE];
+static unsigned char spi0_rxbuffer[CONFIG_SPI0_RXBUFSIZE];
+#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X256
+static unsigned char spi1_txbuffer[CONFIG_SPI1_TXBUFSIZE];
+static unsigned char spi1_rxbuffer[CONFIG_SPI1_RXBUFSIZE];
+#endif
+
/**
* Internal hardware state structure
*
* (and hopefully faster) code.
*/
struct Serial *ser_uart0 = &ser_handles[SER_UART0];
+struct Serial *ser_uart1 = &ser_handles[SER_UART1];
-/**
- * Serial 0 TX interrupt handler
+struct Serial *ser_spi0 = &ser_handles[SER_SPI0];
+#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);
+#endif
+/*
+ * Callbacks for USART0
*/
-static void serirq_tx(void)
+static void uart0_init(
+ UNUSED_ARG(struct SerialHardware *, _hw),
+ UNUSED_ARG(struct Serial *, ser))
{
- SER_STROBE_ON;
+ US0_IDR = 0xFFFFFFFF;
+ /* Set the vector. */
+ AIC_SVR(US0_ID) = uart0_irq_dispatcher;
+ /* Initialize to edge triggered with defined priority. */
+ AIC_SMR(US0_ID) = AIC_SRCTYPE_INT_EDGE_TRIGGERED | SERIRQ_PRIORITY;
+ PMC_PCER = BV(US0_ID);
- struct FIFOBuffer * const txfifo = &ser_uart0->txfifo;
+ /*
+ * - Reset USART0
+ * - Set serial param: mode Normal, 8bit data, 1bit stop, parity none
+ * - Enable both the receiver and the transmitter
+ * - Enable only the RX complete interrupt
+ */
+ US0_CR = BV(US_RSTRX) | BV(US_RSTTX);
+ US0_MR = US_CHMODE_NORMAL | US_CHRL_8 | US_NBSTOP_1 | US_PAR_NO;
+ US0_CR = BV(US_RXEN) | BV(US_TXEN);
+ US0_IER = BV(US_RXRDY);
- if (fifo_isempty(txfifo))
- {
- /* Enable Tx and Rx */
- US0_CR = BV(US_RXEN) | BV(US_TXEN);
- /* Enable Rx interrupt */
- US0_IER = BV(US_RXRDY);
- /* Disable Tx interrupt */
- US0_IDR = BV(US_TXRDY);
- }
- else
- {
- char c = fifo_pop(txfifo);
- kprintf("Tx char: %c\n", c);
- /* Send one char */
- US0_THR = c;
- }
+ SER_UART0_BUS_TXINIT;
- SER_STROBE_OFF;
+ /* Enable the USART IRQ */
+ AIC_IECR = BV(US0_ID);
+
+ SER_STROBE_INIT;
}
-/**
- * Serial 0 RX complete interrupt handler.
- */
-static void serirq_rx(void)
+static void uart0_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
{
- SER_STROBE_ON;
-
- /* Should be read before US_CRS */
- ser_uart0->status |= US0_CSR & (SERRF_RXSROVERRUN | SERRF_FRAMEERROR);
+ US0_CR = BV(US_RSTRX) | BV(US_RSTTX) | BV(US_RXDIS) | BV(US_TXDIS) | BV(US_RSTSTA);
+}
- char c = US0_RHR;
- struct FIFOBuffer * const rxfifo = &ser_uart0->rxfifo;
+static void uart0_enabletxirq(struct SerialHardware *_hw)
+{
+ struct ArmSerial *hw = (struct ArmSerial *)_hw;
- if (fifo_isfull(rxfifo))
- ser_uart0->status |= SERRF_RXFIFOOVERRUN;
- else
+ /*
+ * WARNING: racy code here! The tx interrupt sets hw->sending to false
+ * when it runs with an empty fifo. The order of statements in the
+ * if-block matters.
+ */
+ if (!hw->sending)
{
- kprintf("Recv char: %c\n", c);
- fifo_push(rxfifo, c);
+ hw->sending = true;
+ /*
+ * - Enable the transmitter
+ * - Enable TX empty interrupt
+ */
+ SER_UART0_BUS_TXBEGIN;
+ US0_IER = BV(US_TXEMPTY);
}
-
- SER_STROBE_OFF;
}
-/**
- * Serial IRQ dispatcher.
- */
-static void serirq_dispatcher(void) __attribute__ ((naked));
-static void serirq_dispatcher(void)
+static void uart0_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
{
- IRQ_ENTRY();
+ /* Compute baud-rate period */
+ US0_BRGR = CLOCK_FREQ / (16 * rate);
+ //DB(kprintf("uart0_setbaudrate(rate=%lu): period=%d\n", rate, period);)
+}
- if (US0_IMR & BV(US_RXRDY))
- {
- kprintf("IRQ RX\n");
- serirq_rx();
- }
- if (US0_IMR & BV(US_TXRDY))
+static void uart0_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity)
+{
+ US0_MR &= ~US_PAR_MASK;
+ /* Set UART parity */
+ switch(parity)
{
- kprintf("IRQ TX\n");
- serirq_tx();
+ case SER_PARITY_NONE:
+ {
+ /* Parity none. */
+ US0_MR |= US_PAR_NO;
+ break;
+ }
+ case SER_PARITY_EVEN:
+ {
+ /* Even parity. */
+ US0_MR |= US_PAR_EVEN;
+ break;
+ }
+ case SER_PARITY_ODD:
+ {
+ /* Odd parity. */
+ US0_MR |= US_PAR_ODD;
+ break;
+ }
+ default:
+ ASSERT(0);
}
- IRQ_EXIT();
-}
+}
/*
- * Callbacks
+ * Callbacks for USART1
*/
-static void uart0_init(
+static void uart1_init(
UNUSED_ARG(struct SerialHardware *, _hw),
UNUSED_ARG(struct Serial *, ser))
{
- /* Disable all interrupt */
- US0_IDR = 0xFFFFFFFF;
-
+ US1_IDR = 0xFFFFFFFF;
/* Set the vector. */
- AIC_SVR(US0_ID) = serirq_dispatcher;
+ AIC_SVR(US1_ID) = uart1_irq_dispatcher;
/* Initialize to edge triggered with defined priority. */
- AIC_SMR(US0_ID) = AIC_SRCTYPE_INT_EDGE_TRIGGERED;
- /* Enable the USART IRQ */
- AIC_IECR = BV(US0_ID);
-
- /* Enable UART clock. */
- PMC_PCER = BV(US0_ID);
-
- /* Disable GPIO on UART tx/rx pins. */
- PIOA_PDR = BV(5) | BV(6);
-
- /* Reset UART. */
- US0_CR = BV(US_RSTRX) | BV(US_RSTTX);
+ AIC_SMR(US1_ID) = AIC_SRCTYPE_INT_EDGE_TRIGGERED | SERIRQ_PRIORITY;
+ PMC_PCER = BV(US1_ID);
- /* Set serial param: mode Normal, 8bit data, 1bit stop */
- US0_MR = US_CHMODE_NORMAL | US_CHRL_8 | US_NBSTOP_1;
-
- /* Enable Tx and Rx */
- US0_CR = BV(US_RXEN) | BV(US_TXEN);
+ /*
+ * - Reset USART1
+ * - Set serial param: mode Normal, 8bit data, 1bit stop, parity none
+ * - Enable both the receiver and the transmitter
+ * - Enable only the RX complete interrupt
+ */
+ US1_CR = BV(US_RSTRX) | BV(US_RSTTX);
+ US1_MR = US_CHMODE_NORMAL | US_CHRL_8 | US_NBSTOP_1 | US_PAR_NO;
+ US1_CR = BV(US_RXEN) | BV(US_TXEN);
+ US1_IER = BV(US_RXRDY);
- /* Enable Rx interrupt*/
- US0_IER = BV(US_RXRDY);
+ SER_UART1_BUS_TXINIT;
+ /* Enable the USART IRQ */
+ AIC_IECR = BV(US1_ID);
+ SER_STROBE_INIT;
}
-static void uart0_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
+static void uart1_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
{
- US0_CR = BV(US_RSTRX) | BV(US_RSTTX) | BV(US_RXDIS) | BV(US_TXDIS) | BV(US_RSTSTA);
+ US1_CR = BV(US_RSTRX) | BV(US_RSTTX) | BV(US_RXDIS) | BV(US_TXDIS) | BV(US_RSTSTA);
}
-static void uart0_enabletxirq(struct SerialHardware *_hw)
+static void uart1_enabletxirq(struct SerialHardware *_hw)
{
struct ArmSerial *hw = (struct ArmSerial *)_hw;
if (!hw->sending)
{
hw->sending = true;
- /* Enable Tx and Rx */
- US0_CR = BV(US_RXEN) | BV(US_TXEN);
- /* Enable Tx and Rx interrupt*/
- US0_IER = BV(US_TXRDY) | BV(US_RXRDY);
+ /*
+ * - Enable the transmitter
+ * - Enable TX empty interrupt
+ */
+ SER_UART1_BUS_TXBEGIN;
+ US1_IER = BV(US_TXEMPTY);
}
}
-static void uart0_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
+static void uart1_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
{
/* Compute baud-rate period */
- US0_BRGR = CLOCK_FREQ / (16 * rate);
+ US1_BRGR = CLOCK_FREQ / (16 * rate);
//DB(kprintf("uart0_setbaudrate(rate=%lu): period=%d\n", rate, period);)
}
-static void uart0_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity)
+static void uart1_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity)
{
+ US1_MR &= ~US_PAR_MASK;
/* Set UART parity */
switch(parity)
{
case SER_PARITY_NONE:
{
- /* Parity mode. */
- US0_MR |= US_PAR_MASK;
+ /* Parity none. */
+ US1_MR |= US_PAR_NO;
break;
}
case SER_PARITY_EVEN:
{
- /* Even parity.*/
- US0_MR |= US_PAR_EVEN;
+ /* Even parity. */
+ US1_MR |= US_PAR_EVEN;
break;
}
case SER_PARITY_ODD:
{
- /* Odd parity.*/
- US0_MR |= US_PAR_ODD;
+ /* Odd parity. */
+ US1_MR |= US_PAR_ODD;
break;
}
+ default:
+ ASSERT(0);
+ }
+
+}
+
+/* SPI driver */
+static void spi0_init(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(struct Serial *, ser))
+{
+ /* Disable PIO on SPI pins */
+ PIOA_PDR = BV(SPI0_SPCK) | BV(SPI0_MOSI) | BV(SPI0_MISO);
+
+ /* Reset device */
+ SPI0_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
+ */
+ SPI0_MR = BV(SPI_MSTR) | BV(SPI_MODFDIS);
+
+ /*
+ * Set SPI mode.
+ * At reset clock division factor is set to 0, that is
+ * *forbidden*. Set SPI clock to minimum to keep it valid.
+ */
+ SPI0_CSR0 = BV(SPI_NCPHA) | (255 << SPI_SCBR_SHIFT);
+
+ /* Disable all irqs */
+ SPI0_IDR = 0xFFFFFFFF;
+ /* Set the vector. */
+ AIC_SVR(SPI0_ID) = spi0_irq_handler;
+ /* Initialize to edge triggered with defined priority. */
+ AIC_SMR(SPI0_ID) = AIC_SRCTYPE_INT_EDGE_TRIGGERED | SERIRQ_PRIORITY;
+ /* Enable the USART IRQ */
+ AIC_IECR = BV(SPI0_ID);
+ PMC_PCER = BV(SPI0_ID);
+
+ /* Enable interrupt on tx buffer empty */
+ SPI0_IER = BV(SPI_TXEMPTY);
+
+ /* Enable SPI */
+ SPI0_CR = BV(SPI_SPIEN);
+
+
+ SER_SPI0_BUS_TXINIT;
+
+ SER_STROBE_INIT;
+}
+
+static void spi0_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
+{
+ /* Disable SPI */
+ SPI0_CR = BV(SPI_SPIDIS);
+
+ /* Disable all irqs */
+ SPI0_IDR = 0xFFFFFFFF;
+
+ SER_SPI0_BUS_TXCLOSE;
+
+ /* Enable PIO on SPI pins */
+ PIOA_PER = BV(SPI0_SPCK) | BV(SPI0_MOSI) | BV(SPI0_MISO);
+}
+
+static void spi0_starttx(struct SerialHardware *_hw)
+{
+ struct ArmSerial *hw = (struct ArmSerial *)_hw;
+
+ cpuflags_t flags;
+ IRQ_SAVE_DISABLE(flags);
+
+ /* Send data only if the SPI is not already transmitting */
+ if (!hw->sending && !fifo_isempty(&ser_spi0->txfifo))
+ {
+ hw->sending = true;
+ SPI0_TDR = fifo_pop(&ser_spi0->txfifo);
}
+ IRQ_RESTORE(flags);
}
+static void spi0_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
+{
+ SPI0_CSR0 &= ~SPI_SCBR;
+
+ ASSERT((uint8_t)DIV_ROUND(CLOCK_FREQ, rate));
+ SPI0_CSR0 |= DIV_ROUND(CLOCK_FREQ, rate) << SPI_SCBR_SHIFT;
+}
+
+/* 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);
+
+ /* 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
+ */
+ SPI1_MR = BV(SPI_MSTR) | BV(SPI_MODFDIS);
+
+ /*
+ * Set SPI mode.
+ * At reset clock division factor is set to 0, that is
+ * *forbidden*. Set SPI clock to minimum to keep it valid.
+ */
+ SPI1_CSR0 = BV(SPI_NCPHA) | (255 << SPI_SCBR_SHIFT);
+
+ /* Disable all irqs */
+ SPI1_IDR = 0xFFFFFFFF;
+ /* Set the vector. */
+ AIC_SVR(SPI1_ID) = spi1_irq_handler;
+ /* Initialize to edge triggered with defined priority. */
+ AIC_SMR(SPI1_ID) = AIC_SRCTYPE_INT_EDGE_TRIGGERED | SERIRQ_PRIORITY;
+ /* Enable the USART IRQ */
+ AIC_IECR = BV(SPI1_ID);
+ PMC_PCER = BV(SPI1_ID);
+
+ /* Enable interrupt on tx buffer empty */
+ SPI1_IER = BV(SPI_TXEMPTY);
+
+ /* Enable SPI */
+ SPI1_CR = BV(SPI_SPIEN);
+
+
+ SER_SPI1_BUS_TXINIT;
+
+ SER_STROBE_INIT;
+}
+
+static void spi1_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
+{
+ /* Disable SPI */
+ SPI1_CR = BV(SPI_SPIDIS);
+
+ /* Disable all irqs */
+ SPI1_IDR = 0xFFFFFFFF;
+
+ SER_SPI1_BUS_TXCLOSE;
+
+ /* Enable PIO on SPI pins */
+ PIOA_PER = BV(SPI1_SPCK) | BV(SPI1_MOSI) | BV(SPI1_MISO);
+}
+
+static void spi1_starttx(struct SerialHardware *_hw)
+{
+ struct ArmSerial *hw = (struct ArmSerial *)_hw;
+
+ cpuflags_t flags;
+ IRQ_SAVE_DISABLE(flags);
+
+ /* Send data only if the SPI is not already transmitting */
+ if (!hw->sending && !fifo_isempty(&ser_spi1->txfifo))
+ {
+ hw->sending = true;
+ SPI1_TDR = fifo_pop(&ser_spi1->txfifo);
+ }
+
+ IRQ_RESTORE(flags);
+}
+
+static void spi1_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
+{
+ SPI1_CSR0 &= ~SPI_SCBR;
+
+ ASSERT((uint8_t)DIV_ROUND(CLOCK_FREQ, rate));
+ SPI1_CSR0 |= DIV_ROUND(CLOCK_FREQ, rate) << SPI_SCBR_SHIFT;
+}
+
+static void spi_setparity(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(int, parity))
+{
+ // nop
+}
+
+
static bool tx_sending(struct SerialHardware* _hw)
{
struct ArmSerial *hw = (struct ArmSerial *)_hw;
C99INIT(txSending, tx_sending),
};
+static const struct SerialHardwareVT UART1_VT =
+{
+ C99INIT(init, uart1_init),
+ C99INIT(cleanup, uart1_cleanup),
+ C99INIT(setBaudrate, uart1_setbaudrate),
+ C99INIT(setParity, uart1_setparity),
+ C99INIT(txStart, uart1_enabletxirq),
+ C99INIT(txSending, tx_sending),
+};
+
+static const struct SerialHardwareVT SPI0_VT =
+{
+ C99INIT(init, spi0_init),
+ C99INIT(cleanup, spi0_cleanup),
+ C99INIT(setBaudrate, spi0_setbaudrate),
+ C99INIT(setParity, spi_setparity),
+ C99INIT(txStart, spi0_starttx),
+ C99INIT(txSending, tx_sending),
+};
+#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X128
+static const struct SerialHardwareVT SPI1_VT =
+{
+ C99INIT(init, spi1_init),
+ C99INIT(cleanup, spi1_cleanup),
+ C99INIT(setBaudrate, spi1_setbaudrate),
+ C99INIT(setParity, spi_setparity),
+ C99INIT(txStart, spi1_starttx),
+ C99INIT(txSending, tx_sending),
+};
+#endif
+
static struct ArmSerial UARTDescs[SER_CNT] =
{
{
C99INIT(rxbuffer_size, sizeof(uart0_rxbuffer)),
},
C99INIT(sending, false),
+ },
+ {
+ C99INIT(hw, /**/) {
+ C99INIT(table, &UART1_VT),
+ C99INIT(txbuffer, uart1_txbuffer),
+ C99INIT(rxbuffer, uart1_rxbuffer),
+ C99INIT(txbuffer_size, sizeof(uart1_txbuffer)),
+ C99INIT(rxbuffer_size, sizeof(uart1_rxbuffer)),
+ },
+ C99INIT(sending, false),
+ },
+
+ {
+ C99INIT(hw, /**/) {
+ C99INIT(table, &SPI0_VT),
+ C99INIT(txbuffer, spi0_txbuffer),
+ C99INIT(rxbuffer, spi0_rxbuffer),
+ C99INIT(txbuffer_size, sizeof(spi0_txbuffer)),
+ C99INIT(rxbuffer_size, sizeof(spi0_rxbuffer)),
+ },
+ C99INIT(sending, false),
+ },
+ #if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X128
+ {
+ C99INIT(hw, /**/) {
+ C99INIT(table, &SPI1_VT),
+ C99INIT(txbuffer, spi1_txbuffer),
+ C99INIT(rxbuffer, spi1_rxbuffer),
+ C99INIT(txbuffer_size, sizeof(spi1_txbuffer)),
+ C99INIT(rxbuffer_size, sizeof(spi1_rxbuffer)),
+ },
+ C99INIT(sending, false),
}
+
+ #endif
};
struct SerialHardware *ser_hw_getdesc(int unit)
ASSERT(unit < SER_CNT);
return &UARTDescs[unit].hw;
}
+
+/**
+ * Serial 0 TX interrupt handler
+ */
+static void uart0_irq_tx(void)
+{
+ SER_STROBE_ON;
+
+ struct FIFOBuffer * const txfifo = &ser_uart0->txfifo;
+
+ if (fifo_isempty(txfifo))
+ {
+ /*
+ * - Disable the TX empty interrupts
+ */
+ US0_IDR = BV(US_TXEMPTY);
+ SER_UART0_BUS_TXEND;
+ UARTDescs[SER_UART0].sending = false;
+ }
+ else
+ {
+ char c = fifo_pop(txfifo);
+ SER_UART0_BUS_TXCHAR(c);
+ }
+
+ SER_STROBE_OFF;
+}
+
+/**
+ * Serial 0 RX complete interrupt handler.
+ */
+static void uart0_irq_rx(void)
+{
+ SER_STROBE_ON;
+
+ /* Should be read before US_CRS */
+ ser_uart0->status |= US0_CSR & (SERRF_RXSROVERRUN | SERRF_FRAMEERROR);
+
+ char c = US0_RHR;
+ struct FIFOBuffer * const rxfifo = &ser_uart0->rxfifo;
+
+ if (fifo_isfull(rxfifo))
+ ser_uart0->status |= SERRF_RXFIFOOVERRUN;
+ else
+ fifo_push(rxfifo, c);
+
+ SER_STROBE_OFF;
+}
+
+/**
+ * Serial IRQ dispatcher for USART0.
+ */
+static void uart0_irq_dispatcher(void) __attribute__ ((interrupt));
+static void uart0_irq_dispatcher(void)
+{
+ if (US0_CSR & BV(US_RXRDY))
+ uart0_irq_rx();
+
+ if (US0_CSR & BV(US_TXEMPTY))
+ uart0_irq_tx();
+
+ /* Inform hw that we have served the IRQ */
+ AIC_EOICR = 0;
+}
+
+/**
+ * Serial 1 TX interrupt handler
+ */
+static void uart1_irq_tx(void)
+{
+ SER_STROBE_ON;
+
+ struct FIFOBuffer * const txfifo = &ser_uart1->txfifo;
+
+ if (fifo_isempty(txfifo))
+ {
+ /*
+ * - Disable the TX empty interrupts
+ */
+ US1_IDR = BV(US_TXEMPTY);
+ SER_UART1_BUS_TXEND;
+ UARTDescs[SER_UART1].sending = false;
+ }
+ else
+ {
+ char c = fifo_pop(txfifo);
+ SER_UART1_BUS_TXCHAR(c);
+ }
+
+ SER_STROBE_OFF;
+}
+
+/**
+ * Serial 1 RX complete interrupt handler.
+ */
+static void uart1_irq_rx(void)
+{
+ SER_STROBE_ON;
+
+ /* Should be read before US_CRS */
+ ser_uart1->status |= US1_CSR & (SERRF_RXSROVERRUN | SERRF_FRAMEERROR);
+
+ char c = US1_RHR;
+ struct FIFOBuffer * const rxfifo = &ser_uart1->rxfifo;
+
+ if (fifo_isfull(rxfifo))
+ ser_uart1->status |= SERRF_RXFIFOOVERRUN;
+ else
+ fifo_push(rxfifo, c);
+
+ SER_STROBE_OFF;
+}
+
+/**
+ * Serial IRQ dispatcher for USART1.
+ */
+static void uart1_irq_dispatcher(void) __attribute__ ((interrupt));
+static void uart1_irq_dispatcher(void)
+{
+ if (US1_CSR & BV(US_RXRDY))
+ uart1_irq_rx();
+
+ if (US1_CSR & BV(US_TXEMPTY))
+ uart1_irq_tx();
+
+ /* Inform hw that we have served the IRQ */
+ AIC_EOICR = 0;
+}
+
+/**
+ * SPI0 interrupt handler
+ */
+static void spi0_irq_handler(void) __attribute__ ((interrupt));
+static void spi0_irq_handler(void)
+{
+ SER_STROBE_ON;
+
+ char c = SPI0_RDR;
+ /* Read incoming byte. */
+ if (!fifo_isfull(&ser_spi0->rxfifo))
+ fifo_push(&ser_spi0->rxfifo, c);
+ /*
+ * FIXME
+ else
+ ser_spi0->status |= SERRF_RXFIFOOVERRUN;
+ */
+
+ /* Send */
+ if (!fifo_isempty(&ser_spi0->txfifo))
+ SPI0_TDR = fifo_pop(&ser_spi0->txfifo);
+ else
+ UARTDescs[SER_SPI0].sending = false;
+
+ /* Inform hw that we have served the IRQ */
+ AIC_EOICR = 0;
+ SER_STROBE_OFF;
+}
+
+
+#if CPU_ARM_AT91SAM7X128 || CPU_ARM_AT91SAM7X128
+/**
+ * SPI1 interrupt handler
+ */
+static void spi1_irq_handler(void) __attribute__ ((interrupt));
+static void spi1_irq_handler(void)
+{
+ SER_STROBE_ON;
+
+ char c = SPI1_RDR;
+ /* Read incoming byte. */
+ if (!fifo_isfull(&ser_spi1->rxfifo))
+ fifo_push(&ser_spi1->rxfifo, c);
+ /*
+ * FIXME
+ else
+ ser_spi1->status |= SERRF_RXFIFOOVERRUN;
+ */
+
+ /* Send */
+ if (!fifo_isempty(&ser_spi1->txfifo))
+ SPI1_TDR = fifo_pop(&ser_spi1->txfifo);
+ else
+ UARTDescs[SER_SPI1].sending = false;
+
+ /* Inform hw that we have served the IRQ */
+ AIC_EOICR = 0;
+ SER_STROBE_OFF;
+}
+#endif