/*#*
*#* $Log$
+ *#* Revision 1.25 2005/01/25 08:37:26 bernie
+ *#* CONFIG_SER_HWHANDSHAKE fixes.
+ *#*
+ *#* Revision 1.24 2005/01/14 00:49:16 aleph
+ *#* Rename callbacks; SerialHardwareVT.txSending: New callback; Add SPI_BUS macros.
+ *#*
+ *#* Revision 1.23 2005/01/11 18:09:07 aleph
+ *#* Add ATmega8 SPI port definitions; Fix transmit complete IRQ bug; add strobe macros to uart1 and spi
+ *#*
+ *#* Revision 1.22 2004/12/31 17:47:45 bernie
+ *#* Rename UNUSED() to UNUSED_ARG().
+ *#*
+ *#* Revision 1.21 2004/12/13 12:07:06 bernie
+ *#* DISABLE_IRQSAVE/ENABLE_IRQRESTORE: Convert to IRQ_SAVE_DISABLE/IRQ_RESTORE.
+ *#*
+ *#* Revision 1.20 2004/12/13 11:51:43 bernie
+ *#* Fix a latent bug with reentrant serial IRQs.
+ *#*
*#* Revision 1.19 2004/12/13 11:51:08 bernie
*#* DISABLE_INTS/ENABLE_INTS: Convert to IRQ_DISABLE/IRQ_ENABLE.
*#*
#include <avr/io.h>
-/*!
- * \name Hardware handshake (RTS/CTS).
- * \{
- */
-#ifndef RTS_ON
-#define RTS_ON do {} while (0)
-#endif
-#ifndef RTS_OFF
-#define RTS_OFF do {} while (0)
-#endif
-#ifndef IS_CTS_ON
-#define IS_CTS_ON true
-#endif
-#ifndef EIMSKB_CTS
-#define EIMSKB_CTS 0 /*!< Dummy value, must be overridden */
+#if !CONFIG_SER_HWHANDSHAKE
+ /*!
+ * \name Hardware handshake (RTS/CTS).
+ * \{
+ */
+ #define RTS_ON do {} while (0)
+ #define RTS_OFF do {} while (0)
+ #define IS_CTS_ON true
+ #define EIMSKF_CTS 0 /*!< Dummy value, must be overridden */
+ /*\}*/
#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_SPI_BUS_TXINIT
+ /*!
+ * \def SER_SPI_BUS_TXINIT
+ *
+ * Default TXINIT macro - invoked in spi_init()
+ * The default is no action.
+ */
+ #define SER_SPI_BUS_TXINIT
+#endif
+
+#ifndef SER_SPI_BUS_TXCLOSE
+ /*!
+ * \def SER_SPI_BUS_TXCLOSE
+ *
+ * Invoked after the last character has been transmitted.
+ * The default is no action.
+ */
+ #define SER_SPI_BUS_TXCLOSE
+#endif
+/*\}*/
+
+
/* SPI port and pin configuration */
-#define SPI_PORT PORTB
-#define SPI_DDR DDRB
-#define SPI_SCK_BIT PB1
-#define SPI_MOSI_BIT PB2
-#define SPI_MISO_BIT PB3
+#if CPU_AVR_ATMEGA64 || CPU_AVR_ATMEGA128 || CPU_AVR_ATMEGA103
+ #define SPI_PORT PORTB
+ #define SPI_DDR DDRB
+ #define SPI_SCK_BIT PB1
+ #define SPI_MOSI_BIT PB2
+ #define SPI_MISO_BIT PB3
+#elif CPU_AVR_ATMEGA8
+ #define SPI_PORT PORTB
+ #define SPI_DDR DDRB
+ #define SPI_SCK_BIT PB5
+ #define SPI_MOSI_BIT PB3
+ #define SPI_MISO_BIT PB4
+#else
+ #error Unknown architecture
+#endif
/* USART register definitions */
#if CPU_AVR_ATMEGA64 || CPU_AVR_ATMEGA128
#define UBRR0H UBRRH
#define SIG_UART0_DATA SIG_UART_DATA
#define SIG_UART0_RECV SIG_UART_RECV
+ #define SIG_UART0_TRANS SIG_UART_TRANS
#elif CPU_AVR_ATMEGA103
#define AVR_HAS_UART1 0
#define UCSR0B UCR
#define UBRR0L UBRR
#define SIG_UART0_DATA SIG_UART_DATA
#define SIG_UART0_RECV SIG_UART_RECV
+ #define SIG_UART0_TRANS SIG_UART_TRANS
#else
#error Unknown architecture
#endif
/*
* Callbacks
*/
-static void uart0_init(UNUSED(struct SerialHardware *, _hw), UNUSED(struct Serial *, ser))
+static void uart0_init(
+ UNUSED_ARG(struct SerialHardware *, _hw),
+ UNUSED_ARG(struct Serial *, ser))
{
SER_UART0_BUS_TXINIT;
RTS_ON;
+ SER_STROBE_INIT;
}
-static void uart0_cleanup(UNUSED(struct SerialHardware *, _hw))
+static void uart0_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
{
UCSR0B = 0;
}
}
}
-static void uart0_setbaudrate(UNUSED(struct SerialHardware *, _hw), unsigned long rate)
+static void uart0_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
{
/* Compute baud-rate period */
uint16_t period = (((CLOCK_FREQ / 16UL) + (rate / 2)) / rate) - 1;
-#ifndef __AVR_ATmega103__
+#if !CPU_AVR_ATMEGA103
UBRR0H = (period) >> 8;
#endif
UBRR0L = (period);
//DB(kprintf("uart0_setbaudrate(rate=%lu): period=%d\n", rate, period);)
}
-static void uart0_setparity(UNUSED(struct SerialHardware *, _hw), int parity)
+static void uart0_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity)
{
#if !CPU_AVR_ATMEGA103
UCSR0C = (UCSR0C & ~(BV(UPM1) | BV(UPM0))) | ((parity) << UPM0);
#if AVR_HAS_UART1
-static void uart1_init(UNUSED(struct SerialHardware *, _hw), UNUSED(struct Serial *, ser))
+static void uart1_init(
+ UNUSED_ARG(struct SerialHardware *, _hw),
+ UNUSED_ARG(struct Serial *, ser))
{
SER_UART1_BUS_TXINIT;
RTS_ON;
SER_STROBE_INIT;
}
-static void uart1_cleanup(UNUSED(struct SerialHardware *, _hw))
+static void uart1_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
{
UCSR1B = 0;
}
}
}
-static void uart1_setbaudrate(UNUSED(struct SerialHardware *, _hw), unsigned long rate)
+static void uart1_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
{
/* Compute baud-rate period */
uint16_t period = (((CLOCK_FREQ / 16UL) + (rate / 2)) / rate) - 1;
//DB(kprintf("uart1_setbaudrate(rate=%ld): period=%d\n", rate, period);)
}
-static void uart1_setparity(UNUSED(struct SerialHardware *, _hw), int parity)
+static void uart1_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity)
{
UCSR1C = (UCSR1C & ~(BV(UPM1) | BV(UPM0))) | ((parity) << UPM0);
}
#endif // AVR_HAS_UART1
-static void spi_init(UNUSED(struct SerialHardware *, _hw), UNUSED(struct Serial *, ser))
+static void spi_init(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(struct Serial *, ser))
{
/*
* Set MOSI and SCK ports out, MISO in.
SPI_DDR &= ~BV(SPI_MISO_BIT);
/* Enable SPI, IRQ on, Master, CPU_CLOCK/16 */
SPCR = BV(SPE) | BV(SPIE) | BV(MSTR) | BV(SPR0);
+
+ SER_SPI_BUS_TXINIT;
+
+ SER_STROBE_INIT;
}
-static void spi_cleanup(UNUSED(struct SerialHardware *, _hw))
+static void spi_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
{
SPCR = 0;
+
+ SER_SPI_BUS_TXCLOSE;
+
/* Set all pins as inputs */
SPI_DDR &= ~(BV(SPI_MISO_BIT) | BV(SPI_MOSI_BIT) | BV(SPI_SCK_BIT));
}
struct AvrSerial *hw = (struct AvrSerial *)_hw;
cpuflags_t flags;
- DISABLE_IRQSAVE(flags);
+ IRQ_SAVE_DISABLE(flags);
/* Send data only if the SPI is not already transmitting */
if (!hw->sending && !fifo_isempty(&ser_spi->txfifo))
SPDR = fifo_pop(&ser_spi->txfifo);
}
- ENABLE_IRQRESTORE(flags);
+ IRQ_RESTORE(flags);
}
-static void spi_setbaudrate(UNUSED(struct SerialHardware *, _hw), UNUSED(unsigned long, rate))
+static void spi_setbaudrate(
+ UNUSED_ARG(struct SerialHardware *, _hw),
+ UNUSED_ARG(unsigned long, rate))
{
// nop
}
-static void spi_setparity(UNUSED(struct SerialHardware *, _hw), UNUSED(int, parity))
+static void spi_setparity(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(int, parity))
{
// nop
}
+static bool tx_sending(struct SerialHardware* _hw)
+{
+ struct AvrSerial *hw = (struct AvrSerial *)_hw;
+ return hw->sending;
+}
+
+
// FIXME: move into compiler.h? Ditch?
#if COMPILER_C99
{
C99INIT(init, uart0_init),
C99INIT(cleanup, uart0_cleanup),
- C99INIT(setbaudrate, uart0_setbaudrate),
- C99INIT(setparity, uart0_setparity),
- C99INIT(enabletxirq, uart0_enabletxirq),
+ C99INIT(setBaudrate, uart0_setbaudrate),
+ C99INIT(setParity, uart0_setparity),
+ C99INIT(txStart, uart0_enabletxirq),
+ C99INIT(txSending, tx_sending),
};
#if AVR_HAS_UART1
{
C99INIT(init, uart1_init),
C99INIT(cleanup, uart1_cleanup),
- C99INIT(setbaudrate, uart1_setbaudrate),
- C99INIT(setparity, uart1_setparity),
- C99INIT(enabletxirq, uart1_enabletxirq),
+ C99INIT(setBaudrate, uart1_setbaudrate),
+ C99INIT(setParity, uart1_setparity),
+ C99INIT(txStart, uart1_enabletxirq),
+ C99INIT(txSending, tx_sending),
};
#endif // AVR_HAS_UART1
{
C99INIT(init, spi_init),
C99INIT(cleanup, spi_cleanup),
- C99INIT(setbaudrate, spi_setbaudrate),
- C99INIT(setparity, spi_setparity),
- C99INIT(enabletxirq, spi_starttx),
+ C99INIT(setBaudrate, spi_setbaudrate),
+ C99INIT(setParity, spi_setparity),
+ C99INIT(txStart, spi_starttx),
+ C99INIT(txSending, tx_sending),
};
static struct AvrSerial UARTDescs[SER_CNT] =
{
// Re-enable UDR empty interrupt and TX, then disable CTS interrupt
UCSR0B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN);
- cbi(EIMSK, EIMSKB_CTS);
+ EIMSK &= ~EIMSKF_CTS;
}
#endif // CONFIG_SER_HWHANDSHAKE
// Disable rx interrupt and tx, enable CTS interrupt
// UNTESTED
UCSR0B = BV(RXCIE) | BV(RXEN) | BV(TXEN);
- sbi(EIFR, EIMSKB_CTS);
- sbi(EIMSK, EIMSKB_CTS);
+ EIFR |= EIMSKF_CTS;
+ EIMSK |= EIMSKF_CTS;
}
#endif
else
// Disable rx interrupt and tx, enable CTS interrupt
// UNTESTED
UCSR1B = BV(RXCIE) | BV(RXEN) | BV(TXEN);
- sbi(EIFR, EIMSKB_CTS);
- sbi(EIMSK, EIMSKB_CTS);
+ EIFR |= EIMSKF_CTS;
+ EIMSK |= EIMSKF_CTS;
}
#endif
else
#endif
}
/* Re-enable receive complete int */
+ //IRQ_DISABLE;
//UCSR1B |= BV(RXCIE);
SER_STROBE_OFF;
*/
SIGNAL(SIG_SPI)
{
+ SER_STROBE_ON;
+
/* Read incoming byte. */
if (!fifo_isfull(&ser_spi->rxfifo))
fifo_push(&ser_spi->rxfifo, SPDR);
SPDR = fifo_pop(&ser_spi->txfifo);
else
UARTDescs[SER_SPI].sending = false;
+
+ SER_STROBE_OFF;
}