-/*!
+/**
* \file
* <!--
+ * Copyright 2003, 2004 Develer S.r.l. (http://www.develer.com/)
* Copyright 2000 Bernardo Innocenti <bernie@codewiz.org>
- * Copyright 2003,2004 Develer S.r.l. (http://www.develer.com/)
- * This file is part of DevLib - See devlib/README for information.
+ * This file is part of DevLib - See README.devlib for information.
* -->
*
- * \version $Id$
- *
- * \author Bernardo Innocenti <bernie@develer.com>
- *
* \brief AVR UART and SPI I/O driver
- */
-
-/*
- * $Log$
- * Revision 1.5 2004/06/27 15:25:40 aleph
- * Add missing callbacks for SPI;
- * Change UNUSED() macro to new version with two args;
- * Use TX line filling only on the correct KBUS serial port;
- * Fix nasty IRQ disabling bug in recv complete hander for port 1.
*
- * Revision 1.4 2004/06/03 11:27:09 bernie
- * Add dual-license information.
+ * Rationale for project_ks hardware.
+ *
+ * The serial 0 on the board_kf board is used to communicate with the
+ * smart card, which has the TX and RX lines connected together. To
+ * allow the smart card to drive the RX line of the CPU the CPU TX has
+ * to be in a high impedance state.
+ * Whenever a transmission is done and there is nothing more to send
+ * the transmitter is turn off. The output pin is held in input with
+ * pull-up enabled, to avoid capturing noise from the nearby RX line.
*
- * Revision 1.3 2004/06/02 21:35:24 aleph
- * Serial enhancements: interruptible receive handler and 8 bit serial status for AVR; remove volatile attribute to FIFOBuffer, useless for new fifobuf routens
+ * The line on the KBus port must keep sending data, even when
+ * there is nothing to transmit, because a burst data transfer
+ * generates noise on the audio channels.
+ * This is accomplished using the multiprocessor mode of the
+ * ATmega64/128 serial.
*
- * Revision 1.2 2004/05/23 18:21:53 bernie
- * Trim CVS logs and cleanup header info.
+ * The receiver keeps the MPCM bit always on. When useful data
+ * is trasmitted the address bit is set. The receiver hardware
+ * consider the frame as address info and receive it.
+ * When useless fill bytes are sent the address bit is cleared
+ * and the receiver will ignore them, avoiding useless triggering
+ * of RXC interrupt.
*
+ * \version $Id$
+ * \author Bernardo Innocenti <bernie@develer.com>
+ * \author Stefano Fedrigo <aleph@develer.com>
*/
+/*#*
+ *#* $Log$
+ *#* Revision 1.34 2006/11/23 13:19:02 batt
+ *#* Add support for ATmega1281.
+ *#*
+ *#* Revision 1.33 2006/09/13 18:21:24 bernie
+ *#* Add configurable SPI pin mapping.
+ *#*
+ *#* Revision 1.32 2006/07/19 12:56:26 bernie
+ *#* Convert to new Doxygen style.
+ *#*
+ *#* Revision 1.31 2006/05/18 00:37:29 bernie
+ *#* Use hw_ser.h instead of ubiquitous hw.h.
+ *#*
+ *#* Revision 1.30 2006/02/17 22:23:06 bernie
+ *#* Update POSIX serial emulator.
+ *#*
+ *#* Revision 1.29 2005/11/27 23:31:48 bernie
+ *#* Support avr-libc 1.4.
+ *#*
+ *#* Revision 1.28 2005/11/04 16:20:02 bernie
+ *#* Fix reference to README.devlib in header.
+ *#*
+ *#* Revision 1.27 2005/07/03 15:19:31 bernie
+ *#* Doxygen fix.
+ *#*
+ *#* Revision 1.26 2005/04/11 19:10:27 bernie
+ *#* Include top-level headers from cfg/ subdir.
+ *#*
+ *#* 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.
+ *#*
+ *#* Revision 1.18 2004/12/08 08:03:48 bernie
+ *#* Doxygen fixes.
+ *#*
+ *#* Revision 1.17 2004/10/19 07:52:35 bernie
+ *#* Reset parity bits before overwriting them (Fixed by batt in project_ks).
+ *#*
+ *#* Revision 1.16 2004/10/03 18:45:48 bernie
+ *#* Convert to new-style config macros; Allow compiling with a C++ compiler (mostly).
+ *#*
+ *#* Revision 1.15 2004/09/14 21:05:36 bernie
+ *#* Use debug.h instead of kdebug.h; Use new AVR pin names; Spelling fixes.
+ *#*
+ *#* Revision 1.14 2004/09/06 21:50:00 bernie
+ *#* Spelling fixes.
+ *#*
+ *#* Revision 1.13 2004/09/06 21:40:50 bernie
+ *#* Move buffer handling in chip-specific driver.
+ *#*
+ *#* Revision 1.12 2004/08/29 22:06:10 bernie
+ *#* Fix a bug in the (unused) RTS/CTS code; Clarify documentation.
+ *#*
+ *#* Revision 1.10 2004/08/10 06:30:41 bernie
+ *#* Major redesign of serial bus policy handling.
+ *#*
+ *#* Revision 1.9 2004/08/02 20:20:29 aleph
+ *#* Merge from project_ks
+ *#*
+ *#* Revision 1.8 2004/07/29 22:57:09 bernie
+ *#* Several tweaks to reduce code size on ATmega8.
+ *#*
+ *#* Revision 1.7 2004/07/18 21:54:23 bernie
+ *#* Add ATmega8 support.
+ *#*
+ *#* Revision 1.5 2004/06/27 15:25:40 aleph
+ *#* Add missing callbacks for SPI;
+ *#* Change UNUSED() macro to new version with two args;
+ *#* Use TX line filling only on the correct KBUS serial port;
+ *#* Fix nasty IRQ disabling bug in recv complete hander for port 1.
+ *#*
+ *#* Revision 1.4 2004/06/03 11:27:09 bernie
+ *#* Add dual-license information.
+ *#*
+ *#* Revision 1.3 2004/06/02 21:35:24 aleph
+ *#* Serial enhancements: interruptible receive handler and 8 bit serial status for AVR; remove volatile attribute to FIFOBuffer, useless for new fifobuf routens
+ *#*
+ *#* Revision 1.2 2004/05/23 18:21:53 bernie
+ *#* Trim CVS logs and cleanup header info.
+ *#*
+ *#*/
+
#include "ser.h"
#include "ser_p.h"
-#include "kdebug.h"
-#include "config.h"
-#include "hw.h"
+
+#include <hw_ser.h> /* Required for bus macros overrides */
+#include <hw_cpu.h> /* CLOCK_FREQ */
+#include <appconfig.h>
+
+#include <cfg/debug.h>
+#include <drv/timer.h>
#include <mware/fifobuf.h>
-extern struct Serial ser_handles[SER_CNT];
+#include <avr/io.h>
+#if defined(__AVR_LIBC_VERSION__) && (__AVR_LIBC_VERSION__ >= 10400UL)
+ #include <avr/interrupt.h>
+#else
+ #include <avr/signal.h>
+#endif
-struct AvrSerial
-{
- struct SerialHardware hw;
- struct Serial* serial;
-};
+#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
-/* Hardware handshake */
-#define RTS_ON
-#define RTS_OFF
-#define IS_CTS_ON true
-#define IS_CTS_OFF false
+#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
-/* SPI port and pin configuration */
-#define SPI_PORT PORTB
-#define SPI_DDR DDRB
-#define SPI_SCK_BIT PORTB1
-#define SPI_MOSI_BIT PORTB2
-#define SPI_MISO_BIT PORTB3
+/**
+ * \name Overridable serial bus hooks
+ *
+ * These can be redefined in hw.h to implement
+ * special bus policies such as half-duplex, 485, etc.
+ *
+ *
+ * \code
+ * TXBEGIN TXCHAR TXEND TXOFF
+ * | __________|__________ | |
+ * | | | | | | | | |
+ * v v v v v v v v v
+ * ______ __ __ __ __ __ __ ________________
+ * \/ \/ \/ \/ \/ \/ \/
+ * ______/\__/\__/\__/\__/\__/\__/
+ *
+ * \endcode
+ *
+ * \{
+ */
+#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
-#ifdef __AVR_ATmega103__
- /* Macro for ATmega103 compatibility */
+#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
- #define UCR UCSR0B
- #define UDR UDR0
- #define USR UCSR0A
+ #error Unknown architecture
#endif
-/* Transmission fill byte */
-#define SER_FILL_BYTE 0xAA
+/**
+ * \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
-static void uart0_enabletxirq(UNUSED(struct SerialHardware *, ctx))
-{
-#if defined(CONFIG_SER_TXFILL) && (CONFIG_KBUS_SERIAL_PORT == 0)
- UCSR0B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN) | BV(UCSZ2);
-#else
- UCSR0B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN);
+/* From the high-level serial driver */
+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];
+
-static void uart0_init(struct SerialHardware *_hw, struct Serial *ser)
+/**
+ * Internal hardware state structure
+ *
+ * The \a sending variable is true while the transmission
+ * interrupt is retriggering itself.
+ *
+ * For the USARTs the \a sending flag is useful for taking specific
+ * actions before sending a burst of data, at the start of a trasmission
+ * but not before every char sent.
+ *
+ * For the SPI, this flag is necessary because the SPI sends and receives
+ * bytes at the same time and the SPI IRQ is unique for send/receive.
+ * The only way to start transmission is to write data in SPDR (this
+ * is done by spi_starttx()). We do this *only* if a transfer is
+ * not already started.
+ */
+struct AvrSerial
{
- struct AvrSerial *hw = (struct AvrSerial *)_hw;
- hw->serial = ser;
+ struct SerialHardware hw;
+ volatile bool sending;
+};
- /* Set TX port as input with pull-up enabled to avoid
- * noise on the remote RX when TX is disabled */
- cpuflags_t flags;
- DISABLE_IRQSAVE(flags);
- DDRE &= ~BV(PORTE1);
- PORTE |= BV(PORTE1);
- ENABLE_IRQRESTORE(flags);
-
- /* TODO: explain why TX is disabled whenever possible */
-#if defined(CONFIG_SER_TXFILL) && (CONFIG_KBUS_SERIAL_PORT == 0)
- /*!
- * Set multiprocessor mode and 9 bit data frame.
- * The receiver keep MPCM bit always on. When useful data
- * is trasmitted the ninth bit is set. Receiver consider the
- * frame as address info and receive it.
- * When useless fill bytes are sent the ninth bit is cleared
- * and the receiver will ignore them, avoiding useless triggering
- * of RXC interrupt.
- */
- UCSR0A = BV(MPCM);
- UCSR0B = BV(RXCIE) | BV(RXEN) | BV(UCSZ2);
-#else
- UCSR0B = BV(RXCIE) | BV(RXEN);
+
+/*
+ * These are to trick GCC into *not* using absolute addressing mode
+ * when accessing ser_handles, which is very expensive.
+ *
+ * Accessing through these pointers generates much shorter
+ * (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
+ */
+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 *, ctx))
+static void uart0_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
{
UCSR0B = 0;
}
-static void uart0_setbaudrate(UNUSED(struct SerialHardware *, ctx), unsigned long rate)
+static void uart0_enabletxirq(struct SerialHardware *_hw)
+{
+ 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 statements in the
+ * if-block matters.
+ */
+ if (!hw->sending)
+ {
+ hw->sending = true;
+ SER_UART0_BUS_TXBEGIN;
+ }
+}
+
+static void uart0_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
{
- // Compute baud-rate period
+ /* 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);)
+}
-#ifndef __AVR_ATmega103__
-
-static void uart1_enabletxirq(UNUSED(struct SerialHardware *, ctx))
+static void uart0_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity)
{
-#if defined(CONFIG_SER_TXFILL) && (CONFIG_KBUS_SERIAL_PORT == 1)
- UCSR1B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN) | BV(UCSZ2);
-#else
- UCSR1B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN);
+#if !CPU_AVR_ATMEGA103
+ UCSR0C = (UCSR0C & ~(BV(UPM01) | BV(UPM00))) | ((parity) << UPM00);
#endif
}
-static void uart1_init(struct SerialHardware *_hw, struct Serial *ser)
-{
- struct AvrSerial *hw = (struct AvrSerial *)_hw;
- hw->serial = ser;
-
- /* Set TX port as input with pull-up enabled to avoid
- * noise on the remote RX when TX is disabled */
- cpuflags_t flags;
- DISABLE_IRQSAVE(flags);
- DDRD &= ~BV(PORTD3);
- PORTD |= BV(PORTD3);
- ENABLE_IRQRESTORE(flags);
-
- /* TODO: explain why TX is disabled whenever possible */
-#if defined(CONFIG_SER_TXFILL) && (CONFIG_KBUS_SERIAL_PORT == 1)
- /*! * See comment in uart0_init() */
- UCSR1A = BV(MPCM);
- UCSR1B = BV(RXCIE) | BV(RXEN) | BV(UCSZ2);
-#else
- UCSR1B = BV(RXCIE) | BV(RXEN);
-#endif
+#if AVR_HAS_UART1
+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 *, ctx))
+static void uart1_cleanup(UNUSED_ARG(struct SerialHardware *, _hw))
{
UCSR1B = 0;
}
-static void uart1_setbaudrate(UNUSED(struct SerialHardware *, ctx), unsigned long rate)
+static void uart1_enabletxirq(struct SerialHardware *_hw)
+{
+ 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;
+ }
+}
+
+static void uart1_setbaudrate(UNUSED_ARG(struct SerialHardware *, _hw), unsigned long rate)
{
- // Compute baud-rate period
+ /* Compute baud-rate period */
uint16_t period = (((CLOCK_FREQ / 16UL) + (rate / 2)) / rate) - 1;
UBRR1H = (period) >> 8;
UBRR1L = (period);
+
+ //DB(kprintf("uart1_setbaudrate(rate=%ld): period=%d\n", rate, period);)
}
-static void uart0_setparity(UNUSED(struct SerialHardware *, ctx), int parity)
+static void uart1_setparity(UNUSED_ARG(struct SerialHardware *, _hw), int parity)
{
- UCSR0C |= (parity) << UPM0;
+ UCSR1C = (UCSR1C & ~(BV(UPM11) | BV(UPM10))) | ((parity) << UPM10);
}
-static void uart1_setparity(UNUSED(struct SerialHardware *, ctx), int parity)
+#endif // AVR_HAS_UART1
+
+static void spi_init(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(struct Serial *, ser))
{
- UCSR1C |= (parity) << UPM0;
+ /*
+ * 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)));
+
+ /*
+ * 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;
}
-#endif /* !__AVR_ATmega103__ */
+static void spi_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)));
+}
-static void spi_init(struct SerialHardware *_hw, struct Serial *ser)
+static void spi_starttx(struct SerialHardware *_hw)
{
struct AvrSerial *hw = (struct AvrSerial *)_hw;
- hw->serial = ser;
- /* MOSI and SCK out, MISO in */
- SPI_DDR |= BV(SPI_MOSI_BIT) | BV(SPI_SCK_BIT);
- SPI_DDR &= ~BV(SPI_MISO_BIT);
- /* Enable SPI, IRQ on, Master, CPU_CLOCK/16 */
- SPCR = BV(SPE) | BV(SPIE) | BV(MSTR) | BV(SPR0);
+ cpuflags_t flags;
+ IRQ_SAVE_DISABLE(flags);
+
+ /* Send data only if the SPI is not already transmitting */
+ if (!hw->sending && !fifo_isempty(&ser_spi->txfifo))
+ {
+ hw->sending = true;
+ SPDR = fifo_pop(&ser_spi->txfifo);
+ }
+
+ IRQ_RESTORE(flags);
}
-static void spi_cleanup(UNUSED(struct SerialHardware *, ctx))
+static void spi_setbaudrate(
+ UNUSED_ARG(struct SerialHardware *, _hw),
+ UNUSED_ARG(unsigned long, rate))
{
- SPCR = 0;
- /* Set all pins as inputs */
- SPI_DDR &= ~(BV(SPI_MISO_BIT) | BV(SPI_MOSI_BIT) | BV(SPI_SCK_BIT));
+ // nop
}
-static void spi_setbaudrate(UNUSED(struct SerialHardware *, ctx), UNUSED(unsigned long, rate))
+static void spi_setparity(UNUSED_ARG(struct SerialHardware *, _hw), UNUSED_ARG(int, parity))
{
- // Do nothing
+ // nop
}
-static void spi_setparity(UNUSED(struct SerialHardware *, ctx), UNUSED(int, parity))
+static bool tx_sending(struct SerialHardware* _hw)
{
- // Do nothing
+ struct AvrSerial *hw = (struct AvrSerial *)_hw;
+ return hw->sending;
}
-#if defined(CONFIG_SER_HW_HANDSHAKE)
+// FIXME: move into compiler.h? Ditch?
+#if COMPILER_C99
+ #define C99INIT(name,val) .name = val
+#elif defined(__GNUC__)
+ #define C99INIT(name,val) name: val
+#else
+ #warning No designated initializers, double check your code
+ #define C99INIT(name,val) (val)
+#endif
+
+/*
+ * High-level interface data structures
+ */
+static const struct SerialHardwareVT UART0_VT =
+{
+ C99INIT(init, uart0_init),
+ C99INIT(cleanup, uart0_cleanup),
+ C99INIT(setBaudrate, uart0_setbaudrate),
+ C99INIT(setParity, uart0_setparity),
+ C99INIT(txStart, uart0_enabletxirq),
+ 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] =
+{
+ {
+ C99INIT(hw, /**/) {
+ C99INIT(table, &UART0_VT),
+ C99INIT(txbuffer, uart0_txbuffer),
+ C99INIT(rxbuffer, uart0_rxbuffer),
+ C99INIT(txbuffer_size, sizeof(uart0_txbuffer)),
+ 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;
+}
+
-//! This interrupt is triggered when the CTS line goes high
+/*
+ * 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
- UCR = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN);
- cbi(EIMSK, EIMSKB_CTS);
+ UCSR0B = BV(RXCIE) | BV(UDRIE) | BV(RXEN) | BV(TXEN);
+ EIMSK &= ~EIMSKF_CTS;
}
-#endif // CONFIG_SER_HW_HANDSHAKE
+#endif // CONFIG_SER_HWHANDSHAKE
-/*!
+/**
* Serial 0 TX interrupt handler
*/
-#ifdef __AVR_ATmega103__
-SIGNAL(SIG_UART_DATA)
-#else
-SIGNAL(SIG_UART0_DATA)
-#endif
+SIGNAL(USART0_UDRE_vect)
{
- if (fifo_isempty(&ser_handles[SER_UART0].txfifo))
+ SER_STROBE_ON;
+
+ struct FIFOBuffer * const txfifo = &ser_uart0->txfifo;
+
+ if (fifo_isempty(txfifo))
{
-#if defined(CONFIG_SER_TXFILL) && (CONFIG_KBUS_SERIAL_PORT == 0)
- /*
- * To avoid audio interference: always transmit useless char.
- * Send the byte with the ninth bit cleared, the receiver in MCPM mode
- * will ignore it.
- */
- UCSR0B &= ~BV(TXB8);
- UDR0 = SER_FILL_BYTE;
-#else
- /* Disable UDR empty interrupt and transmitter */
- UCR = BV(RXCIE) | BV(RXEN);
+ SER_UART0_BUS_TXEND;
+#ifndef SER_UART0_BUS_TXOFF
+ UARTDescs[SER_UART0].sending = false;
#endif
}
-#if defined(CONFIG_SER_HWHANDSHAKE)
- else if (IS_CTS_OFF)
+#if CPU_AVR_ATMEGA64 || CPU_AVR_ATMEGA128 || CPU_AVR_ATMEGA103
+ else if (!IS_CTS_ON)
{
- // disable rx interrupt and tx, enable CTS interrupt
- UCR = BV(RXCIE) | BV(RXEN);
- sbi(EIFR, EIMSKB_CTS);
- sbi(EIMSK, EIMSKB_CTS);
+ // Disable rx interrupt and tx, enable CTS interrupt
+ // UNTESTED
+ UCSR0B = BV(RXCIE) | BV(RXEN) | BV(TXEN);
+ EIFR |= EIMSKF_CTS;
+ EIMSK |= EIMSKF_CTS;
}
-#endif // CONFIG_SER_HWHANDSHAKE
+#endif
else
{
-#if defined(CONFIG_SER_TXFILL) && (CONFIG_KBUS_SERIAL_PORT == 0)
- /* Send with ninth bit set. Receiver in MCPM mode will receive it */
- UCSR0B |= BV(TXB8);
-#endif
- UDR = fifo_pop(&ser_handles[SER_UART0].txfifo);
+ 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
*/
-#ifndef __AVR_ATmega103__
-SIGNAL(SIG_UART1_DATA)
+SIGNAL(USART1_UDRE_vect)
{
- if (fifo_isempty(&ser_handles[SER_UART1].txfifo))
+ SER_STROBE_ON;
+
+ struct FIFOBuffer * const txfifo = &ser_uart1->txfifo;
+
+ if (fifo_isempty(txfifo))
{
-#if defined(CONFIG_SER_TXFILL) && (CONFIG_KBUS_SERIAL_PORT == 1)
- /*
- * To avoid audio interference: always transmit useless char.
- * Send the byte with the ninth bit cleared, the receiver in MCPM mode
- * will ignore it.
- */
- UCSR1B &= ~BV(TXB8);
- UDR1 = SER_FILL_BYTE;
-#else
- /* Disable UDR empty interrupt and transmitter */
- UCSR1B = BV(RXCIE) | BV(RXEN);
+ SER_UART1_BUS_TXEND;
+#ifndef SER_UART1_BUS_TXOFF
+ UARTDescs[SER_UART1].sending = false;
#endif
}
-#if defined(CONFIG_SER_HWHANDSHAKE)
- else if (IS_CTS_OFF)
+#if CPU_AVR_ATMEGA64 || CPU_AVR_ATMEGA128 || CPU_AVR_ATMEGA103
+ else if (!IS_CTS_ON)
{
- // disable rx interrupt and tx, enable CTS interrupt
- UCSR1B = BV(RXCIE) | BV(RXEN);
- sbi(EIFR, EIMSKB_CTS);
- sbi(EIMSK, EIMSKB_CTS);
+ // Disable rx interrupt and tx, enable CTS interrupt
+ // UNTESTED
+ UCSR1B = BV(RXCIE) | BV(RXEN) | BV(TXEN);
+ EIFR |= EIMSKF_CTS;
+ EIMSK |= EIMSKF_CTS;
}
-#endif // CONFIG_SER_HWHANDSHAKE
+#endif
else
{
-#if defined(CONFIG_SER_TXFILL) && (CONFIG_KBUS_SERIAL_PORT == 1)
- /* Send with ninth bit set. Receiver in MCPM mode will receive it */
- UCSR1B |= BV(TXB8);
-#endif
- UDR1 = fifo_pop(&ser_handles[SER_UART1].txfifo);
+ 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 /* !__AVR_ATmega103__ */
+#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 and interrupt could be retriggered
+ * 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.
*/
-#ifdef __AVR_ATmega103__
-SIGNAL(SIG_UART_RECV)
-#else
-SIGNAL(SIG_UART0_RECV)
-#endif
+SIGNAL(USART0_RX_vect)
{
+ SER_STROBE_ON;
+
/* Disable Recv complete IRQ */
- UCR &= ~BV(RXCIE);
- ENABLE_INTS;
+ //UCSR0B &= ~BV(RXCIE);
+ //IRQ_ENABLE;
/* Should be read before UDR */
- ser_handles[SER_UART0].status |= USR & (SERRF_RXSROVERRUN | SERRF_FRAMEERROR);
+ 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 = UDR;
+ char c = UDR0;
+ struct FIFOBuffer * const rxfifo = &ser_uart0->rxfifo;
- if (fifo_isfull(&ser_handles[SER_UART0].rxfifo))
- ser_handles[SER_UART0].status |= SERRF_RXFIFOOVERRUN;
+ if (fifo_isfull(rxfifo))
+ ser_uart0->status |= SERRF_RXFIFOOVERRUN;
else
{
- fifo_push(&ser_handles[SER_UART0].rxfifo, c);
-#if defined(CONFIG_SER_HW_HANDSHAKE)
- if (fifo_isfull(&ser_handles[SER_UART0].rxfifo))
+ fifo_push(rxfifo, c);
+#if CONFIG_SER_HWHANDSHAKE
+ if (fifo_isfull(rxfifo))
RTS_OFF;
#endif
}
+
/* Reenable receive complete int */
- UCR |= BV(RXCIE);
+ //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 and interrupt could be retriggered
+ * is heavily loaded, because an interrupt could be retriggered
* when executing the handler prologue before RXCIE is disabled.
+ *
+ * \see SIGNAL(USART1_RX_vect)
*/
-#ifndef __AVR_ATmega103__
-SIGNAL(SIG_UART1_RECV)
+SIGNAL(USART1_RX_vect)
{
+ SER_STROBE_ON;
+
/* Disable Recv complete IRQ */
- UCSR1B &= ~BV(RXCIE);
- ENABLE_INTS;
+ //UCSR1B &= ~BV(RXCIE);
+ //IRQ_ENABLE;
/* Should be read before UDR */
- ser_handles[SER_UART1].status |= UCSR1A & (SERRF_RXSROVERRUN | SERRF_FRAMEERROR);
+ 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 (fifo_isfull(&ser_handles[SER_UART1].rxfifo))
- ser_handles[SER_UART1].status |= SERRF_RXFIFOOVERRUN;
+ if (UNLIKELY(fifo_isfull(rxfifo)))
+ ser_uart1->status |= SERRF_RXFIFOOVERRUN;
else
{
- fifo_push(&ser_handles[SER_UART1].rxfifo, c);
-#if defined(CONFIG_SER_HW_HANDSHAKE)
- if (fifo_isfull(&ser_handles[SER_UART1].rxfifo))
+ fifo_push(rxfifo, c);
+#if CONFIG_SER_HWHANDSHAKE
+ if (fifo_isfull(rxfifo))
RTS_OFF;
#endif
}
- /* Reenable receive complete int */
- UCSR1B |= BV(RXCIE);
-}
-#endif /* !__AVR_ATmega103__ */
-
-
-/*
- * SPI Flag: true if we are transmitting/receiving with the SPI.
- *
- * This kludge is necessary because the SPI sends and receives bytes
- * at the same time and the SPI IRQ is unique for send/receive.
- * The only way to start transmission is to write data in SPDR (this
- * is done by ser_spi_starttx()). We do this *only* if a transfer is
- * not already started.
- */
-static volatile bool spi_sending = false;
+ /* Re-enable receive complete int */
+ //IRQ_DISABLE;
+ //UCSR1B |= BV(RXCIE);
-static void spi_starttx(UNUSED(struct SerialHardware *, ctx))
-{
- cpuflags_t flags;
+ SER_STROBE_OFF;
+}
- DISABLE_IRQSAVE(flags);
+#endif // AVR_HAS_UART1
- /* Send data only if the SPI is not already transmitting */
- if (!spi_sending && !fifo_isempty(&ser_handles[SER_SPI].txfifo))
- {
- SPDR = fifo_pop(&ser_handles[SER_SPI].txfifo);
- spi_sending = true;
- }
-
- ENABLE_IRQRESTORE(flags);
-}
-/*!
+/**
* SPI interrupt handler
*/
SIGNAL(SIG_SPI)
{
+ SER_STROBE_ON;
+
/* Read incoming byte. */
- if (!fifo_isfull(&ser_handles[SER_SPI].rxfifo))
- fifo_push(&ser_handles[SER_SPI].rxfifo, SPDR);
+ if (!fifo_isfull(&ser_spi->rxfifo))
+ fifo_push(&ser_spi->rxfifo, SPDR);
/*
* FIXME
else
- ser_handles[SER_SPI].status |= SERRF_RXFIFOOVERRUN;
+ ser_spi->status |= SERRF_RXFIFOOVERRUN;
*/
/* Send */
- if (!fifo_isempty(&ser_handles[SER_SPI].txfifo))
- SPDR = fifo_pop(&ser_handles[SER_SPI].txfifo);
+ if (!fifo_isempty(&ser_spi->txfifo))
+ SPDR = fifo_pop(&ser_spi->txfifo);
else
- spi_sending = false;
-}
-
-
-/*
-
-#pragma vector = UART_TXC_vect
-__interrupt void UART_TXC_interrupt(void)
-{
- UCSRB &= ~TXCIE;
- ReceiveMode();
- UCSRB = RXCIE | RXEN | TXEN; //Abilito l'Interrupt in ricezione e RX e TX
-}
-*/
-
-
-static const struct SerialHardwareVT UART0_VT =
-{
- .init = uart0_init,
- .cleanup = uart0_cleanup,
- .setbaudrate = uart0_setbaudrate,
- .setparity = uart0_setparity,
- .enabletxirq = uart0_enabletxirq,
-};
-
-static const struct SerialHardwareVT UART1_VT =
-{
- .init = uart1_init,
- .cleanup = uart1_cleanup,
- .setbaudrate = uart1_setbaudrate,
- .setparity = uart1_setparity,
- .enabletxirq = uart1_enabletxirq,
-};
-
-static const struct SerialHardwareVT SPI_VT =
-{
- .init = spi_init,
- .cleanup = spi_cleanup,
- .setbaudrate = spi_setbaudrate,
- .setparity = spi_setparity,
- .enabletxirq = spi_starttx,
-};
-
-static struct AvrSerial UARTDescs[SER_CNT] =
-{
- {
- .hw = { .table = &UART0_VT },
- },
-
- {
- .hw = { .table = &UART1_VT },
- },
+ UARTDescs[SER_SPI].sending = false;
- {
- .hw = { .table = &SPI_VT },
- },
-};
-
-struct SerialHardware* ser_hw_getdesc(int unit)
-{
- ASSERT(unit < SER_CNT);
- return &UARTDescs[unit].hw;
+ SER_STROBE_OFF;
}