From 96bda3a8889719af5e4475aaf853487f2e99e01f Mon Sep 17 00:00:00 2001 From: asterix Date: Fri, 19 Oct 2007 10:19:55 +0000 Subject: [PATCH] Remove unneeded code. git-svn-id: https://src.develer.com/svnoss/bertos/trunk@915 38d2e660-2303-0410-9eaa-f027e97ec537 --- cpu/arm/drv/ser_at91.c | 839 ++++++----------------------------------- 1 file changed, 117 insertions(+), 722 deletions(-) diff --git a/cpu/arm/drv/ser_at91.c b/cpu/arm/drv/ser_at91.c index 3069f543..a35a90c7 100644 --- a/cpu/arm/drv/ser_at91.c +++ b/cpu/arm/drv/ser_at91.c @@ -38,7 +38,7 @@ * \author Daniele Basile */ -#include +#include //#include "ser_at91.h" #include @@ -47,47 +47,10 @@ #include /* Required for bus macros overrides */ #include /* CLOCK_FREQ */ -#include #include - #include -#include - - -//TODO -#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 -#if CPU_AVR_ATMEGA1281 - #define BIT_RXCIE0 RXCIE0 - #define BIT_RXEN0 RXEN0 - #define BIT_TXEN0 TXEN0 - #define BIT_UDRIE0 UDRIE0 - - #define BIT_RXCIE1 RXCIE1 - #define BIT_RXEN1 RXEN1 - #define BIT_TXEN1 TXEN1 - #define BIT_UDRIE1 UDRIE1 -#else - #define BIT_RXCIE0 RXCIE - #define BIT_RXEN0 RXEN - #define BIT_TXEN0 TXEN - #define BIT_UDRIE0 UDRIE - - #define BIT_RXCIE1 RXCIE - #define BIT_RXEN1 RXEN - #define BIT_TXEN1 TXEN - #define BIT_UDRIE1 UDRIE -#endif +#include /** @@ -110,173 +73,7 @@ * * \{ */ -#ifndef SER_UART0_BUS_TXINIT - /** - * Default TXINIT macro - invoked in uart0_init() - * - * - Enable both the receiver and the transmitter - * - Enable only the RX complete interrupt - */ - #define SER_UART0_BUS_TXINIT do { \ - UCSR0B = BV(BIT_RXCIE0) | BV(BIT_RXEN0) | BV(BIT_TXEN0); \ - } while (0) -#endif - -#ifndef SER_UART0_BUS_TXBEGIN - /** - * Invoked before starting a transmission - * - * - Enable both the receiver and the transmitter - * - Enable both the RX complete and UDR empty interrupts - */ - #define SER_UART0_BUS_TXBEGIN do { \ - UCSR0B = BV(BIT_RXCIE0) | BV(BIT_UDRIE0) | BV(BIT_RXEN0) | BV(BIT_TXEN0); \ - } while (0) -#endif - -#ifndef SER_UART0_BUS_TXCHAR - /** - * Invoked to send one character. - */ - #define SER_UART0_BUS_TXCHAR(c) do { \ - UDR0 = (c); \ - } while (0) -#endif - -#ifndef SER_UART0_BUS_TXEND - /** - * Invoked as soon as the txfifo becomes empty - * - * - Keep both the receiver and the transmitter enabled - * - Keep the RX complete interrupt enabled - * - Disable the UDR empty interrupt - */ - #define SER_UART0_BUS_TXEND do { \ - UCSR0B = BV(BIT_RXCIE0) | BV(BIT_RXEN0) | BV(BIT_TXEN0); \ - } while (0) -#endif -#ifndef SER_UART0_BUS_TXOFF - /** - * \def SER_UART0_BUS_TXOFF - * - * Invoked after the last character has been transmitted - * - * The default is no action. - */ - #ifdef __doxygen__ - #define SER_UART0_BUS_TXOFF - #endif -#endif - -#ifndef SER_UART1_BUS_TXINIT - /** \sa SER_UART0_BUS_TXINIT */ - #define SER_UART1_BUS_TXINIT do { \ - UCSR1B = BV(BIT_RXCIE1) | BV(BIT_RXEN1) | BV(BIT_TXEN1); \ - } while (0) -#endif -#ifndef SER_UART1_BUS_TXBEGIN - /** \sa SER_UART0_BUS_TXBEGIN */ - #define SER_UART1_BUS_TXBEGIN do { \ - UCSR1B = BV(BIT_RXCIE1) | BV(BIT_UDRIE1) | BV(BIT_RXEN1) | BV(BIT_TXEN1); \ - } while (0) -#endif -#ifndef SER_UART1_BUS_TXCHAR - /** \sa SER_UART0_BUS_TXCHAR */ - #define SER_UART1_BUS_TXCHAR(c) do { \ - UDR1 = (c); \ - } while (0) -#endif -#ifndef SER_UART1_BUS_TXEND - /** \sa SER_UART0_BUS_TXEND */ - #define SER_UART1_BUS_TXEND do { \ - UCSR1B = BV(BIT_RXCIE1) | BV(BIT_RXEN1) | BV(BIT_TXEN1); \ - } while (0) -#endif -#ifndef SER_UART1_BUS_TXOFF - /** - * \def SER_UART1_BUS_TXOFF - * - * \see SER_UART0_BUS_TXOFF - */ - #ifdef __doxygen__ - #define SER_UART1_BUS_TXOFF - #endif -#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 - /** - * Default TXINIT macro - invoked in spi_init() - * The default is no action. - */ - #define SER_SPI_BUS_TXINIT -#endif - -#ifndef 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 */ -#if CPU_AVR_ATMEGA64 || CPU_AVR_ATMEGA128 || CPU_AVR_ATMEGA103 || CPU_AVR_ATMEGA1281 - #define SPI_PORT PORTB - #define SPI_DDR DDRB - #define SPI_SS_BIT PB0 - #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_SS_BIT PB2 - #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 || CPU_AVR_ATMEGA1281 - #define AVR_HAS_UART1 1 -#elif CPU_AVR_ATMEGA8 - #define AVR_HAS_UART1 0 - #define UCSR0A UCSRA - #define UCSR0B UCSRB - #define UCSR0C UCSRC - #define UDR0 UDR - #define UBRR0L UBRRL - #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 UDR0 UDR - #define UCSR0A USR - #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 /** @@ -302,13 +99,6 @@ extern struct Serial ser_handles[SER_CNT]; /* TX and RX buffers */ static unsigned char uart0_txbuffer[CONFIG_UART0_TXBUFSIZE]; static unsigned char uart0_rxbuffer[CONFIG_UART0_RXBUFSIZE]; -#if AVR_HAS_UART1 - static unsigned char uart1_txbuffer[CONFIG_UART1_TXBUFSIZE]; - static unsigned char uart1_rxbuffer[CONFIG_UART1_RXBUFSIZE]; -#endif -static unsigned char spi_txbuffer[CONFIG_SPI_TXBUFSIZE]; -static unsigned char spi_rxbuffer[CONFIG_SPI_RXBUFSIZE]; - /** * Internal hardware state structure @@ -326,7 +116,7 @@ static unsigned char spi_rxbuffer[CONFIG_SPI_RXBUFSIZE]; * is done by spi_starttx()). We do this *only* if a transfer is * not already started. */ -struct AvrSerial +struct ArmSerial { struct SerialHardware hw; volatile bool sending; @@ -341,238 +131,171 @@ struct AvrSerial * (and hopefully faster) code. */ struct Serial *ser_uart0 = &ser_handles[SER_UART0]; -#if AVR_HAS_UART1 -struct Serial *ser_uart1 = &ser_handles[SER_UART1]; -#endif -struct Serial *ser_spi = &ser_handles[SER_SPI]; - - -/* - * Callbacks +/** + * Serial 0 TX interrupt handler */ -static void uart0_init( - UNUSED_ARG(struct SerialHardware *, _hw), - UNUSED_ARG(struct Serial *, ser)) +static void serirq_tx(void) { - SER_UART0_BUS_TXINIT; - RTS_ON; - SER_STROBE_INIT; -} - -static void uart0_cleanup(UNUSED_ARG(struct SerialHardware *, _hw)) -{ - UCSR0B = 0; -} + SER_STROBE_ON; -static void uart0_enabletxirq(struct SerialHardware *_hw) -{ - struct AvrSerial *hw = (struct AvrSerial *)_hw; + struct FIFOBuffer * const txfifo = &ser_uart0->txfifo; - /* - * 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) + if (fifo_isempty(txfifo)) { - hw->sending = true; - SER_UART0_BUS_TXBEGIN; + /* Enable Tx and Rx */ + US0_CR = BV(US_RXEN) | BV(US_TXEN); + } + else + { + char c = fifo_pop(txfifo); + /* Send one char */ + US0_THR = c; } + + SER_STROBE_OFF; } -static void uart0_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate) +/** + * Serial 0 RX complete interrupt handler. + */ +static void serirq_rx(void) { - /* Compute baud-rate period */ - uint16_t period = (((CLOCK_FREQ / 16UL) + (rate / 2)) / rate) - 1; + SER_STROBE_ON; -#if !CPU_AVR_ATMEGA103 - UBRR0H = (period) >> 8; -#endif - UBRR0L = (period); + /* Should be read before UDR */ + ser_uart0->status |= US0_CSR & (SERRF_RXSROVERRUN | SERRF_FRAMEERROR); - //DB(kprintf("uart0_setbaudrate(rate=%lu): period=%d\n", rate, period);) + 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; } -static void uart0_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity) +/** + * Serial IRQ dispatcher. + */ +static void serirq_dispatcher(void) __attribute__ ((naked)); +static void serirq_dispatcher(void) { -#if !CPU_AVR_ATMEGA103 - UCSR0C = (UCSR0C & ~(BV(UPM01) | BV(UPM00))) | ((parity) << UPM00); -#endif -} + IRQ_ENTRY(); -#if AVR_HAS_UART1 + if (US0_IMR | BV(US_RXRDY)) + serirq_rx(); -static void uart1_init( - UNUSED_ARG(struct SerialHardware *, _hw), - UNUSED_ARG(struct Serial *, ser)) -{ - SER_UART1_BUS_TXINIT; - RTS_ON; - SER_STROBE_INIT; -} + if (US0_IMR | BV(US_TXRDY)) + serirq_tx(); -static void uart1_cleanup(UNUSED_ARG(struct SerialHardware *, _hw)) -{ - UCSR1B = 0; + IRQ_EXIT(); } -static void uart1_enabletxirq(struct SerialHardware *_hw) +/* + * Callbacks + */ +static void uart0_init( + UNUSED_ARG(struct SerialHardware *, _hw), + UNUSED_ARG(struct Serial *, ser)) { - struct AvrSerial *hw = (struct AvrSerial *)_hw; - /* - * WARNING: racy code here! The tx interrupt - * sets hw->sending to false when it runs with - * an empty fifo. The order of the statements - * in the if-block matters. - */ - if (!hw->sending) - { - hw->sending = true; - SER_UART1_BUS_TXBEGIN; - } -} + /* Set the vector. */ + AIC_SVR(US0_ID) = serirq_dispatcher; + /* Initialize to edge triggered with defined priority. */ + AIC_SMR(US0_ID) = AIC_SRCTYPE_INT_EDGE_TRIGGERED; + /* Clear pending interrupt */ + AIC_ICCR = BV(US0_ID); + /* Enable the system IRQ */ + AIC_IECR = BV(US0_ID); -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; + /* Enable UART clock. */ + PMC_PCER = BV(US0_ID); - UBRR1H = (period) >> 8; - UBRR1L = (period); + /* Disable GPIO on UART tx/rx pins. */ + PIOA_PDR = BV(PA0_RXD0_A) | BV(PA1_TXD0_A); - //DB(kprintf("uart1_setbaudrate(rate=%ld): period=%d\n", rate, period);) -} + /* Reset UART. */ + US0_CR = BV(US_RSTRX) | BV(US_RSTTX); -static void uart1_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity) -{ - UCSR1C = (UCSR1C & ~(BV(UPM11) | BV(UPM10))) | ((parity) << UPM10); -} + /* Enable Tx and Rx */ + US0_CR = BV(US_RXEN) | BV(US_TXEN); -#endif // AVR_HAS_UART1 + US0_IER = BV(US_RXRDY); -static void spi_init(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(struct Serial *, ser)) -{ - /* - * Set MOSI and SCK ports out, MISO in. - * - * The ATmega64/128 datasheet explicitly states that the input/output - * state of the SPI pins is not significant, as when the SPI is - * active the I/O port are overrided. - * This is *blatantly FALSE*. - * - * Moreover, the MISO pin on the board_kc *must* be in high impedance - * state even when the SPI is off, because the line is wired together - * with the KBus serial RX, and the transmitter of the slave boards - * would be unable to drive the line. - */ - ATOMIC(SPI_DDR |= (BV(SPI_MOSI_BIT) | BV(SPI_SCK_BIT))); + /* enable GPIO on UART tx/rx pins. */ + PIOA_PER = BV(PA0_RXD0_A) | BV(PA1_TXD0_A); - /* - * If the SPI master mode is activated and the SS pin is in input and tied low, - * the SPI hardware will automatically switch to slave mode! - * For proper communication this pins should therefore be: - * - as output - * - as input but tied high forever! - * This driver set the pin as output. - */ - #warning SPI SS pin set as output for proper operation, check schematics for possible conflicts. - ATOMIC(SPI_DDR |= BV(SPI_SS_BIT)); - - ATOMIC(SPI_DDR &= ~BV(SPI_MISO_BIT)); - /* Enable SPI, IRQ on, Master */ - SPCR = BV(SPE) | BV(SPIE) | BV(MSTR); - - /* Set data order */ - #if CONFIG_SPI_DATA_ORDER == SER_LSB_FIRST - SPCR |= BV(DORD); - #endif - - /* Set SPI clock rate */ - #if CONFIG_SPI_CLOCK_DIV == 128 - SPCR |= (BV(SPR1) | BV(SPR0)); - #elif (CONFIG_SPI_CLOCK_DIV == 64 || CONFIG_SPI_CLOCK_DIV == 32) - SPCR |= BV(SPR1); - #elif (CONFIG_SPI_CLOCK_DIV == 16 || CONFIG_SPI_CLOCK_DIV == 8) - SPCR |= BV(SPR0); - #elif (CONFIG_SPI_CLOCK_DIV == 4 || CONFIG_SPI_CLOCK_DIV == 2) - // SPR0 & SDPR1 both at 0 - #else - #error Unsupported SPI clock division factor. - #endif - - /* Set SPI2X bit (spi double frequency) */ - #if (CONFIG_SPI_CLOCK_DIV == 128 || CONFIG_SPI_CLOCK_DIV == 64 \ - || CONFIG_SPI_CLOCK_DIV == 16 || CONFIG_SPI_CLOCK_DIV == 4) - SPSR &= ~BV(SPI2X); - #elif (CONFIG_SPI_CLOCK_DIV == 32 || CONFIG_SPI_CLOCK_DIV == 8 || CONFIG_SPI_CLOCK_DIV == 2) - SPSR |= BV(SPI2X); - #else - #error Unsupported SPI clock division factor. - #endif - - /* Set clock polarity */ - #if CONFIG_SPI_CLOCK_POL == 1 - SPCR |= BV(CPOL); - #endif - - /* Set clock phase */ - #if CONFIG_SPI_CLOCK_PHASE == 1 - SPCR |= BV(CPHA); - #endif - SER_SPI_BUS_TXINIT; - - SER_STROBE_INIT; + /* Set serial param: mode Normal, 8bit data, 1bit stop */ + US0_MR |= US_CHMODE_NORMAL | US_CHRL_8 | US_NBSTOP_1; } -static void spi_cleanup(UNUSED_ARG(struct SerialHardware *, _hw)) +static void uart0_cleanup(UNUSED_ARG(struct SerialHardware *, _hw)) { - SPCR = 0; - - SER_SPI_BUS_TXCLOSE; - - /* Set all pins as inputs */ - ATOMIC(SPI_DDR &= ~(BV(SPI_MISO_BIT) | BV(SPI_MOSI_BIT) | BV(SPI_SCK_BIT) | BV(SPI_SS_BIT))); + US0_CR = BV(US_RSTRX) | BV(US_RSTTX) | BV(US_RXDIS) | BV(US_TXDIS) | BV(US_RSTSTA); } -static void spi_starttx(struct SerialHardware *_hw) +static void uart0_enabletxirq(struct SerialHardware *_hw) { - struct AvrSerial *hw = (struct AvrSerial *)_hw; - - cpuflags_t flags; - IRQ_SAVE_DISABLE(flags); + struct ArmSerial *hw = (struct ArmSerial *)_hw; - /* Send data only if the SPI is not already transmitting */ - if (!hw->sending && !fifo_isempty(&ser_spi->txfifo)) + /* + * 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) { hw->sending = true; - SPDR = fifo_pop(&ser_spi->txfifo); + /* Enable Tx and Rx */ + US0_CR = BV(US_RXEN) | BV(US_TXEN); } - - IRQ_RESTORE(flags); } -static void spi_setbaudrate( - UNUSED_ARG(struct SerialHardware *, _hw), - UNUSED_ARG(unsigned long, rate)) +static void uart0_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate) { - // nop + /* Compute baud-rate period */ + US0_BRGR = CLOCK_FREQ / (16 * rate); + //DB(kprintf("uart0_setbaudrate(rate=%lu): period=%d\n", rate, period);) } -static void spi_setparity(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(int, parity)) +static void uart0_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity) { - // nop + /* Set UART parity */ + switch(parity) + { + case SER_PARITY_NONE: + { + /* Parity mode. */ + US0_MR |= US_PAR_MASK; + 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; + } + } + } static bool tx_sending(struct SerialHardware* _hw) { - struct AvrSerial *hw = (struct AvrSerial *)_hw; + struct ArmSerial *hw = (struct ArmSerial *)_hw; return hw->sending; } - - // FIXME: move into compiler.h? Ditch? #if COMPILER_C99 #define C99INIT(name,val) .name = val @@ -596,29 +319,7 @@ static const struct SerialHardwareVT UART0_VT = C99INIT(txSending, tx_sending), }; -#if AVR_HAS_UART1 -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), -}; -#endif // AVR_HAS_UART1 - -static const struct SerialHardwareVT SPI_VT = -{ - C99INIT(init, spi_init), - C99INIT(cleanup, spi_cleanup), - C99INIT(setBaudrate, spi_setbaudrate), - C99INIT(setParity, spi_setparity), - C99INIT(txStart, spi_starttx), - C99INIT(txSending, tx_sending), -}; - -static struct AvrSerial UARTDescs[SER_CNT] = +static struct ArmSerial UARTDescs[SER_CNT] = { { C99INIT(hw, /**/) { @@ -629,311 +330,5 @@ static struct AvrSerial UARTDescs[SER_CNT] = C99INIT(rxbuffer_size, sizeof(uart0_rxbuffer)), }, C99INIT(sending, false), - }, -#if AVR_HAS_UART1 - { - 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), - }, -#endif - { - C99INIT(hw, /**/) { - C99INIT(table, &SPI_VT), - C99INIT(txbuffer, spi_txbuffer), - C99INIT(rxbuffer, spi_rxbuffer), - C99INIT(txbuffer_size, sizeof(spi_txbuffer)), - C99INIT(rxbuffer_size, sizeof(spi_rxbuffer)), - }, - C99INIT(sending, false), } }; - -struct SerialHardware *ser_hw_getdesc(int unit) -{ - ASSERT(unit < SER_CNT); - return &UARTDescs[unit].hw; -} - - -/* - * Interrupt handlers - */ - -#if CONFIG_SER_HWHANDSHAKE - -/// This interrupt is triggered when the CTS line goes high -SIGNAL(SIG_CTS) -{ - // Re-enable UDR empty interrupt and TX, then disable CTS interrupt - UCSR0B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN); - EIMSK &= ~EIMSKF_CTS; -} - -#endif // CONFIG_SER_HWHANDSHAKE - - -/** - * Serial 0 TX interrupt handler - */ -SIGNAL(USART0_UDRE_vect) -{ - SER_STROBE_ON; - - struct FIFOBuffer * const txfifo = &ser_uart0->txfifo; - - if (fifo_isempty(txfifo)) - { - SER_UART0_BUS_TXEND; -#ifndef SER_UART0_BUS_TXOFF - UARTDescs[SER_UART0].sending = false; -#endif - } -#if CPU_AVR_ATMEGA64 || CPU_AVR_ATMEGA128 || CPU_AVR_ATMEGA103 - else if (!IS_CTS_ON) - { - // Disable rx interrupt and tx, enable CTS interrupt - // UNTESTED - UCSR0B = BV(RXCIE) | BV(RXEN) | BV(TXEN); - EIFR |= EIMSKF_CTS; - EIMSK |= EIMSKF_CTS; - } -#endif - else - { - char c = fifo_pop(txfifo); - SER_UART0_BUS_TXCHAR(c); - } - - SER_STROBE_OFF; -} - -#ifdef SER_UART0_BUS_TXOFF -/** - * Serial port 0 TX complete interrupt handler. - * - * This IRQ is usually disabled. The UDR-empty interrupt - * enables it when there's no more data to transmit. - * We need to wait until the last character has been - * transmitted before switching the 485 transceiver to - * receive mode. - * - * The txfifo might have been refilled by putchar() while - * we were waiting for the transmission complete interrupt. - * In this case, we must restart the UDR empty interrupt, - * otherwise we'd stop the serial port with some data - * still pending in the buffer. - */ -SIGNAL(SIG_UART0_TRANS) -{ - SER_STROBE_ON; - - struct FIFOBuffer * const txfifo = &ser_uart0->txfifo; - if (fifo_isempty(txfifo)) - { - SER_UART0_BUS_TXOFF; - UARTDescs[SER_UART0].sending = false; - } - else - UCSR0B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN); - - SER_STROBE_OFF; -} -#endif /* SER_UART0_BUS_TXOFF */ - - -#if AVR_HAS_UART1 - -/** - * Serial 1 TX interrupt handler - */ -SIGNAL(USART1_UDRE_vect) -{ - SER_STROBE_ON; - - struct FIFOBuffer * const txfifo = &ser_uart1->txfifo; - - if (fifo_isempty(txfifo)) - { - SER_UART1_BUS_TXEND; -#ifndef SER_UART1_BUS_TXOFF - UARTDescs[SER_UART1].sending = false; -#endif - } -#if CPU_AVR_ATMEGA64 || CPU_AVR_ATMEGA128 || CPU_AVR_ATMEGA103 - else if (!IS_CTS_ON) - { - // Disable rx interrupt and tx, enable CTS interrupt - // UNTESTED - UCSR1B = BV(RXCIE) | BV(RXEN) | BV(TXEN); - EIFR |= EIMSKF_CTS; - EIMSK |= EIMSKF_CTS; - } -#endif - else - { - char c = fifo_pop(txfifo); - SER_UART1_BUS_TXCHAR(c); - } - - SER_STROBE_OFF; -} - -#ifdef SER_UART1_BUS_TXOFF -/** - * Serial port 1 TX complete interrupt handler. - * - * \sa port 0 TX complete handler. - */ -SIGNAL(SIG_UART1_TRANS) -{ - SER_STROBE_ON; - - struct FIFOBuffer * const txfifo = &ser_uart1->txfifo; - if (fifo_isempty(txfifo)) - { - SER_UART1_BUS_TXOFF; - UARTDescs[SER_UART1].sending = false; - } - else - UCSR1B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN); - - SER_STROBE_OFF; -} -#endif /* SER_UART1_BUS_TXOFF */ - -#endif // AVR_HAS_UART1 - - -/** - * Serial 0 RX complete interrupt handler. - * - * This handler is interruptible. - * Interrupt are reenabled as soon as recv complete interrupt is - * disabled. Using INTERRUPT() is troublesome when the serial - * is heavily loaded, because an interrupt could be retriggered - * when executing the handler prologue before RXCIE is disabled. - * - * \note The code that re-enables interrupts is commented out - * because in some nasty cases the interrupt is retriggered. - * This is probably due to the RXC flag being set before - * RXCIE is cleared. Unfortunately the RXC flag is read-only - * and can't be cleared by code. - */ -SIGNAL(USART0_RX_vect) -{ - SER_STROBE_ON; - - /* Disable Recv complete IRQ */ - //UCSR0B &= ~BV(RXCIE); - //IRQ_ENABLE; - - /* Should be read before UDR */ - ser_uart0->status |= UCSR0A & (SERRF_RXSROVERRUN | SERRF_FRAMEERROR); - - /* To clear the RXC flag we must _always_ read the UDR even when we're - * not going to accept the incoming data, otherwise a new interrupt - * will occur once the handler terminates. - */ - char c = UDR0; - struct FIFOBuffer * const rxfifo = &ser_uart0->rxfifo; - - if (fifo_isfull(rxfifo)) - ser_uart0->status |= SERRF_RXFIFOOVERRUN; - else - { - fifo_push(rxfifo, c); -#if CONFIG_SER_HWHANDSHAKE - if (fifo_isfull(rxfifo)) - RTS_OFF; -#endif - } - - /* Reenable receive complete int */ - //IRQ_DISABLE; - //UCSR0B |= BV(RXCIE); - - SER_STROBE_OFF; -} - - -#if AVR_HAS_UART1 - -/** - * Serial 1 RX complete interrupt handler. - * - * This handler is interruptible. - * Interrupt are reenabled as soon as recv complete interrupt is - * disabled. Using INTERRUPT() is troublesome when the serial - * is heavily loaded, because an interrupt could be retriggered - * when executing the handler prologue before RXCIE is disabled. - * - * \see SIGNAL(USART1_RX_vect) - */ -SIGNAL(USART1_RX_vect) -{ - SER_STROBE_ON; - - /* Disable Recv complete IRQ */ - //UCSR1B &= ~BV(RXCIE); - //IRQ_ENABLE; - - /* Should be read before UDR */ - ser_uart1->status |= UCSR1A & (SERRF_RXSROVERRUN | SERRF_FRAMEERROR); - - /* To avoid an IRQ storm, we must _always_ read the UDR even when we're - * not going to accept the incoming data - */ - char c = UDR1; - struct FIFOBuffer * const rxfifo = &ser_uart1->rxfifo; - //ASSERT_VALID_FIFO(rxfifo); - - if (UNLIKELY(fifo_isfull(rxfifo))) - ser_uart1->status |= SERRF_RXFIFOOVERRUN; - else - { - fifo_push(rxfifo, c); -#if CONFIG_SER_HWHANDSHAKE - if (fifo_isfull(rxfifo)) - RTS_OFF; -#endif - } - /* Re-enable receive complete int */ - //IRQ_DISABLE; - //UCSR1B |= BV(RXCIE); - - SER_STROBE_OFF; -} - -#endif // AVR_HAS_UART1 - - -/** - * SPI interrupt handler - */ -SIGNAL(SIG_SPI) -{ - SER_STROBE_ON; - - /* Read incoming byte. */ - if (!fifo_isfull(&ser_spi->rxfifo)) - fifo_push(&ser_spi->rxfifo, SPDR); - /* - * FIXME - else - ser_spi->status |= SERRF_RXFIFOOVERRUN; - */ - - /* Send */ - if (!fifo_isempty(&ser_spi->txfifo)) - SPDR = fifo_pop(&ser_spi->txfifo); - else - UARTDescs[SER_SPI].sending = false; - - SER_STROBE_OFF; -} -- 2.25.1