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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [m68k/] [ods68302/] [include/] [bare.h] - Rev 30
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/*****************************************************************************/ /* $Id: bare.h,v 1.2 2001-09-27 12:00:21 chris Exp $ Card Definition for a bare board. This is an example file which actually builds a BSP for a 68302 card called an MVF (Multi-Voice-Frequency). The card is one of a range which run in a 100Mbit voice/video/data switch used for high end applications such as Air Traffic Control. The transport is FDDI-2. Yes it alive and well and working in real systems. Chip selects are programmed as required. Three are controlled in the boot code. They are RAM, ROM, and peripherals. You can optionally configure the other two chip selects. SYSTEM_CLOCK - You must defined this. It is used for setting the baud rate. CSEL_ROM, CSEL_RAM - Must be defined, and made to be a single number with brackets. ROM_WAIT_STATES, RAM_WAIT_STATES - Must be defined. This sets the speed for the ROM and RAM. ROM and RAM size is passed on the command line. The makefile holds them. This allows a single place to defined it. The makefile allows them to be passed to the linker. CSEL_1, CSEL_2 - If defined the other macros needed to define the chip select must be defined. If not defined they are not programmed and registers are left in the reset state. Card Specific Devices - The MVF card uses a chip select to address a range of peripherials (CSEL_2). These include front panel leds, and 4 digit diagnostic display device. Put what ever you need. LED_CONTROL - If defined the boot code will set leds as it goes. UPDATE_DISPLAY - A four digit display device will also be updated to show the boot state. CARD_PA, CARD_PB - The default configuration, data direction and data must be specified. This file allows a range of common parameters which vary from one variant of card to another to placed in a central file. */ /*****************************************************************************/ #ifndef _BARE_H_ #define _BARE_H_ #if __cplusplus extern "C" { #endif /* name of the card */ #define CARD_ID "m68302-odsbare" /* speed of the processor */ #define SYSTEM_CLOCK (15360000) #define SCR_DEFAULT (RBIT_SCR_IPA | RBIT_SCR_HWT | RBIT_SCR_WPV | RBIT_SCR_ADC | \ RBIT_SCR_HWDEN | RBIT_SCR_HWDCN1 | RBIT_SCR_EMWS) /* define the chip selects */ #define CSEL_ROM 0 /* token pasted so no brackets */ #define ROM_WAIT_STATES (OR_DTACK_1) /* 100nsec at 16MHz */ #define CSEL_RAM 3 #define RAM_WAIT_STATES (OR_DTACK_0) /* 70nsec at 16MHz */ /* The remaining chip selects are called 1 and 2 */ /* #define CSEL_1 1 #define CSEL_1_BASE (0x00?00000) #define CSEL_1_SIZE (0x00?00000) #define CSEL_1_WAIT_STATES (OR_DTACK_1) */ #define CSEL_2 2 #define CSEL_2_BASE (0x00800000) #define CSEL_2_SIZE (0x00040000) #define CSEL_2_WAIT_STATES (OR_DTACK_EXT) /* * Need to define a watchdog period */ #define WATCHDOG_TIMEOUT_PERIOD (3000 * 2) /* * Console and debug port allocation, 0=SCC1, 2=SCC3 */ #define CONSOLE_PORT 1 #define CONSOLE_BAUD SCC_9600 #define DEBUG_PORT 2 #define DEBUG_BAUD SCC_57600 /* ---- Parallel Port Configuration, and default data directions PORT BITS - NAME , WHO , DEFAULT WHAT ------------------------------------------------------------ PPA:: 1: 0 - Serial , PERIPHERAL, - PPA:: 7: 2 - MVF_PPA:7:2 , IO , INPUTS PPA:: 9: 8 - Serial , PERIPHERAL, - PPA::15:10 - MVF_PPB:15:10 , IO , INPUTS PPB:: 1: 0 - Setup , IO , INPUTS PPB:: 3: 2 - SYNC_HIGHWAY_1:2 , IO , INPUTS - SYNC_HIGHWAY_2:3 , IO , INPUTS PPB:: 4: 4 - HARDWARE_RESET:4 , IO , OUTPUT PPB:: 6: 5 - SOFTWARE_OVERRIDE_1:6, IO , OUTPUT - SOFTWARE_OVERRIDE_2:5, IO , OUTPUT PPB:: 7: 7 - Watchdog , PERIPHERAL, - PPB::11: 8 - Interrupt , PERIPHERAL, - PPB::15:12 - Not implemented on the 68302 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 ------------------------------------------------------ PACNT 0 0 0 0 0 0 1 1 0 0 0 0 0 0 1 1 = 0x0303 PBCNT - - - - - - - - 1 0 0 0 0 0 0 0 = 0x0080 PADDR 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 = 0x0000 PBDDR 0 0 0 0 0 0 0 0 0 1 1 1 0 0 0 0 = 0x0070 PADAT 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 = 0x0000 */ #define CARD_PA_CONFIGURATION 0x0303 #define CARD_PB_CONFIGURATION 0x0080 #define CARD_PA_DEFAULT_DIRECTIONS 0x0000 #define CARD_PB_DEFAULT_DIRECTIONS 0x0070 #define CARD_PA_DEFAULT_DATA 0x0000 #define CARD_PB_DEFAULT_DATA (HARDWARE_RESET_DISABLE | \ SOFTWARE_OVERRIDE_1_DISABLE | \ SOFTWARE_OVERRIDE_2_DISABLE) /* these are specific to the card and are not required */ #define HARDWARE_RESET_ENABLE 0x0000 #define HARDWARE_RESET_DISABLE 0x0010 #define SOFTWARE_OVERRIDE_1_ENABLE 0x0000 #define SOFTWARE_OVERRIDE_1_DISABLE 0x0040 #define SOFTWARE_OVERRIDE_2_ENABLE 0x0000 #define SOFTWARE_OVERRIDE_2_DISABLE 0x0020 /* * Card Specific Devices, these are not required. Add what ever you * like here. */ /* Write */ #define WRITE_REGISTER_8(address, data) \ *((rtems_unsigned8 *) (address)) = ((rtems_unsigned8) (data)) #define WRITE_REGISTER_16(address, data) \ *((rtems_unsigned16 *) (address)) = ((rtems_unsigned16) (data)) #define WRITE_REGISTER_32(address, data) \ *((rtems_unsigned32 *) (address)) = ((rtems_unsigned32) (data)) /* Read */ #define READ_REGISTER_8(address, data) data = *((rtems_unsigned8 *) (address)) #define READ_REGISTER_16(address, data) data = *((rtems_unsigned16 *) (address)) #define READ_REGISTER_32(address, data) data = *((rtems_unsigned32 *) (address)) /* CS2 : Peripherials */ #define PERIPHERIALS_BASE (CSEL_2_BASE) #define STATUS_REGISTER_BASE (PERIPHERIALS_BASE + 0x00000000) #define PERIPHERIALS_SIZE (0x00040000) #define LEDS_BASE (PERIPHERIALS_BASE + 0x00004000) #define MSC_BASE (PERIPHERIALS_BASE + 0x00008000) #define SPARE_1_BASE (PERIPHERIALS_BASE + 0x0000C000) #define DISPLAY_BASE (PERIPHERIALS_BASE + 0x00010000) #define PIO_INT_BASE (PERIPHERIALS_BASE + 0x00014000) #define UART_BASE (PERIPHERIALS_BASE + 0x00018000) #define PIA_BASE (PERIPHERIALS_BASE + 0x0001C000) #define LED_1 0x0002 #define LED_1_GREEN 0xFFFD #define LED_1_RED 0xFFFF #define LED_1_OFF 0xFFFC #define LED_2 0x0001 #define LED_2_GREEN 0xFFFE #define LED_2_RED 0xFFFF #define LED_2_OFF 0xFFFC #define LED_3 0x0000 #define LED_3_GREEN 0xFFFC #define LED_3_RED 0xFFFC #define LED_3_OFF 0xFFFC #define LED_4 0x0000 #define LED_4_GREEN 0xFFFC #define LED_4_RED 0xFFFC #define LED_4_OFF 0xFFFC #define LED_5 0x0000 #define LED_5_GREEN 0xFFFC #define LED_5_RED 0xFFFC #define LED_5_OFF 0xFFFC #define LED_6 0x0000 #define LED_6_GREEN 0xFFFC #define LED_6_RED 0xFFFC #define LED_6_OFF 0xFFFC #define LED_7 0x0000 #define LED_7_GREEN 0xFFFC #define LED_7_RED 0xFFFC #define LED_7_OFF 0xFFFC #define LED_8 0x0000 #define LED_8_GREEN 0xFFFC #define LED_8_RED 0xFFFC #define LED_8_OFF 0xFFFC #define MAKE_LED(L1, L2, L3, L4) ((L1 & LED_1) | (L2 & LED_2) | (L3 & LED_3) | (L4 & LED_4)) #define LED_CONTROL(L1, L2, L3, L4, L5, L6, L7, L8) \ WRITE_REGISTER_16(LEDS_BASE, MAKE_LED(L1, L2, L3, L4)) /* update the display, needs a long word */ #define UPDATE_DISPLAY(LongWordPtr) \ ( WRITE_REGISTER_16(DISPLAY_BASE, *(((rtems_unsigned8 *) LongWordPtr) + 3)), \ WRITE_REGISTER_16(DISPLAY_BASE + 2, *(((rtems_unsigned8 *) LongWordPtr) + 2)), \ WRITE_REGISTER_16(DISPLAY_BASE + 4, *(((rtems_unsigned8 *) LongWordPtr) + 1)), \ WRITE_REGISTER_16(DISPLAY_BASE + 6, *((rtems_unsigned8 *) LongWordPtr)) ) /* make a better test, say switches */ #if defined(GDB_MONITOR_ACTIVE) #define GDB_RUN_MONITOR() (1 == 1) #else #define GDB_RUN_MONITOR() (1 == 0) #endif #if __cplusplus } #endif #endif
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