/* Copyright (c) 2007-2013 by Tensilica Inc. ALL RIGHTS RESERVED. / These coded instructions, statements, and computer programs are the / copyrighted works and confidential proprietary information of Tensilica Inc. / They may not be modified, copied, reproduced, distributed, or disclosed to / third parties in any manner, medium, or form, in whole or in part, without / the prior written consent of Tensilica Inc. */ /* xtav200.h - Xtensa Avnet LX200 (XT-AV200) board specific definitions */ #ifndef _INC_XTAV200_H_ #define _INC_XTAV200_H_ #include #include #define XTBOARD_NAME "XT-AV200" /* * Default assignment of XTAV200 devices to external interrupts. */ /* Ethernet interrupt: */ #ifdef XCHAL_EXTINT1_NUM #define ETHERNET_INTNUM XCHAL_EXTINT1_NUM #define ETHERNET_INTLEVEL XCHAL_EXTINT1_LEVEL #define ETHERNET_INTMASK XCHAL_EXTINT1_MASK #else #define ETHERNET_INTMASK 0 #endif /* UART interrupt: */ #ifdef XCHAL_EXTINT0_NUM #define UART16550_INTNUM XCHAL_EXTINT0_NUM #define UART16550_INTLEVEL XCHAL_EXTINT0_LEVEL #define UART16550_INTMASK XCHAL_EXTINT0_MASK #else #define UART16550_INTMASK 0 #endif /* Audio output interrupt (I2S FIFO underrun): */ #ifdef XCHAL_EXTINT2_NUM #define AUDIO_INTNUM XCHAL_EXTINT2_NUM #define AUDIO_INTLEVEL XCHAL_EXTINT2_LEVEL #define AUDIO_INTMASK XCHAL_EXTINT2_MASK #else #define AUDIO_INTMASK 0 #endif /* Audio output (I2S FIFO level) interrupt: */ #ifdef XCHAL_EXTINT3_NUM #define AUDIO_I2SLVL_INTNUM XCHAL_EXTINT3_NUM #define AUDIO_I2SLVL_INTLEVEL XCHAL_EXTINT3_LEVEL #define AUDIO_I2SLVL_INTMASK XCHAL_EXTINT3_MASK #else #define AUDIO_I2SLVL_INTMASK 0 #endif /* Audio input (ADC FIFO level) interrupt: */ #ifdef XCHAL_EXTINT4_NUM #define AUDIO_ADCLVL_INTNUM XCHAL_EXTINT4_NUM #define AUDIO_ADCLVL_INTLEVEL XCHAL_EXTINT4_LEVEL #define AUDIO_ADCLVL_INTMASK XCHAL_EXTINT4_MASK #else #define AUDIO_ADCLVL_INTMASK 0 #endif /* * Device addresses. * * Note: for endianness-independence, use 32-bit loads and stores for all * register accesses to Ethernet, UART and LED devices. Undefined bits * may need to be masked out if needed when reading if the actual register * size is smaller than 32 bits. * * Note: XTAV200 bus byte lanes are defined in terms of msbyte and lsbyte * relative to the processor. So 32-bit registers are accessed consistently * from both big and little endian processors. However, this means byte * sequences are not consistent between big and little endian processors. * This is fine for RAM, and for ROM if ROM is created for a specific * processor (and thus has correct byte sequences). However this may be * unexpected for Flash, which might contain a file-system that one wants * to use for multiple processor configurations (eg. the Flash might contain * the Ethernet card's address, endianness-independent application data, etc). * That is, byte sequences written in Flash by a core of a given endianness * will be byte-swapped when seen by a core of the other endianness. * Someone implementing an endianness-independent Flash file system will * likely handle this byte-swapping issue in the Flash driver software. */ #define XTBOARD_FLASH_MAXSIZE 0x1000000 /* 16 MB */ #ifdef XSHAL_IOBLOCK_BYPASS_PADDR /* Flash Memory: */ # define XTBOARD_FLASH_PADDR (XSHAL_IOBLOCK_BYPASS_PADDR+0x08000000) /* FPGA registers: */ # define XTBOARD_FPGAREGS_PADDR (XSHAL_IOBLOCK_BYPASS_PADDR+0x0D020000) /* Ethernet controller/transceiver SONIC SN83934: */ # define ETHERNET_PADDR (XSHAL_IOBLOCK_BYPASS_PADDR+0x0D030000) /* UART National-Semi PC16550D: */ # define UART16550_PADDR (XSHAL_IOBLOCK_BYPASS_PADDR+0x0D050000) /* TI 320AIC23/28-TSSOP Stereo Audio Codec: */ # define AUDIO_PADDR (XSHAL_IOBLOCK_BYPASS_PADDR+0x0D070000) /* Boot 128K Sram address: */ # define BOOT_SRAM_PADDR (XSHAL_IOBLOCK_BYPASS_PADDR+0x0D400000) /* Ethernet buffer: */ # define ETHERNET_BUFFER_PADDR (XSHAL_IOBLOCK_BYPASS_PADDR+0x0D800000) #endif /* XSHAL_IOBLOCK_BYPASS_PADDR */ /* These devices might be accessed cached: */ #ifdef XSHAL_IOBLOCK_CACHED_PADDR # define XTBOARD_FLASH_CACHED_PADDR (XSHAL_IOBLOCK_CACHED_PADDR+0x08000000) # define ETHERNET_BUFFER_CACHED_PADDR (XSHAL_IOBLOCK_CACHED_PADDR+0x0D800000) # define BOOT_SRAM_CACHED_PADDR (XSHAL_IOBLOCK_CACHED_PADDR+0x0D400000) #endif /* XSHAL_IOBLOCK_CACHED_PADDR */ /*** Same thing over again, this time with virtual addresses: ***/ #ifdef XSHAL_IOBLOCK_BYPASS_VADDR /* Flash Memory: */ # define XTBOARD_FLASH_VADDR (XSHAL_IOBLOCK_BYPASS_VADDR+0x08000000) /* FPGA registers: */ # define XTBOARD_FPGAREGS_VADDR (XSHAL_IOBLOCK_BYPASS_VADDR+0x0D020000) /* Ethernet controller/transceiver SONIC SN83934: */ # define ETHERNET_VADDR (XSHAL_IOBLOCK_BYPASS_VADDR+0x0D030000) /* UART National-Semi PC16550D: */ # define UART16550_VADDR (XSHAL_IOBLOCK_BYPASS_VADDR+0x0D050000) /* TI 320AIC23/28-TSSOP Stereo Audio Codec: */ # define AUDIO_VADDR (XSHAL_IOBLOCK_BYPASS_VADDR+0x0D070000) /* 128K Sram address: */ # define BOOT_SRAM_VADDR (XSHAL_IOBLOCK_BYPASS_VADDR+0x0D400000) /* Ethernet buffer: */ # define ETHERNET_BUFFER_VADDR (XSHAL_IOBLOCK_BYPASS_VADDR+0x0D800000) #endif /* XSHAL_IOBLOCK_BYPASS_VADDR */ /* These devices might be accessed cached: */ #ifdef XSHAL_IOBLOCK_CACHED_VADDR # define XTBOARD_FLASH_CACHED_VADDR (XSHAL_IOBLOCK_CACHED_VADDR+0x08000000) # define AUDIO_CACHED_VADDR (XSHAL_IOBLOCK_CACHED_VADDR+0x0D070000) # define ETHERNET_BUFFER_CACHED_VADDR (XSHAL_IOBLOCK_CACHED_VADDR+0x0D800000) # define BOOT_SRAM_CACHED_VADDR (XSHAL_IOBLOCK_CACHED_VADDR+0x0D400000) #endif /* XSHAL_IOBLOCK_CACHED_VADDR */ /* System ROM: */ #define XTBOARD_ROM_SIZE XSHAL_ROM_SIZE #ifdef XSHAL_ROM_VADDR #define XTBOARD_ROM_VADDR XSHAL_ROM_VADDR #endif #ifdef XSHAL_ROM_PADDR #define XTBOARD_ROM_PADDR XSHAL_ROM_PADDR #endif /* System RAM: */ #define XTBOARD_RAM_SIZE XSHAL_RAM_SIZE #ifdef XSHAL_RAM_VADDR #define XTBOARD_RAM_VADDR XSHAL_RAM_VADDR #endif #ifdef XSHAL_RAM_PADDR #define XTBOARD_RAM_PADDR XSHAL_RAM_PADDR #endif #define XTBOARD_RAM_BYPASS_VADDR XSHAL_RAM_BYPASS_VADDR #define XTBOARD_RAM_BYPASS_PADDR XSHAL_RAM_BYPASS_PADDR /* * Things that depend on device addresses. */ #define XTBOARD_CACHEATTR_WRITEBACK XSHAL_XT2000_CACHEATTR_WRITEBACK #define XTBOARD_CACHEATTR_WRITEALLOC XSHAL_XT2000_CACHEATTR_WRITEALLOC #define XTBOARD_CACHEATTR_WRITETHRU XSHAL_XT2000_CACHEATTR_WRITETHRU #define XTBOARD_CACHEATTR_BYPASS XSHAL_XT2000_CACHEATTR_BYPASS #define XTBOARD_CACHEATTR_DEFAULT XSHAL_XT2000_CACHEATTR_DEFAULT #define XTBOARD_BUSINT_PIPE_REGIONS XSHAL_XT2000_PIPE_REGIONS #define XTBOARD_BUSINT_SDRAM_REGIONS XSHAL_XT2000_SDRAM_REGIONS /* * FPGA registers. * All these registers are normally accessed using 32-bit loads/stores. */ /* Register offsets: */ #define XTBOARD_DATECD_OFS 0x00 /* date code (read-only) */ #define XTBOARD_CLKFRQ_OFS 0x04 /* clock frequency Hz (read-only) */ #define XTBOARD_SYSLED_OFS 0x08 /* LEDs */ #define XTBOARD_DIPSW_OFS 0x0C /* DIP switch bits (read-only) */ #define XTBOARD_SWRST_OFS 0x10 /* software reset */ /* Physical register addresses: */ #ifdef XTBOARD_FPGAREGS_PADDR #define XTBOARD_DATECD_PADDR (XTBOARD_FPGAREGS_PADDR+XTBOARD_DATECD_OFS) #define XTBOARD_CLKFRQ_PADDR (XTBOARD_FPGAREGS_PADDR+XTBOARD_CLKFRQ_OFS) #define XTBOARD_SYSLED_PADDR (XTBOARD_FPGAREGS_PADDR+XTBOARD_SYSLED_OFS) #define XTBOARD_DIPSW_PADDR (XTBOARD_FPGAREGS_PADDR+XTBOARD_DIPSW_OFS) #define XTBOARD_SWRST_PADDR (XTBOARD_FPGAREGS_PADDR+XTBOARD_SWRST_OFS) #endif /* Virtual register addresses: */ #ifdef XTBOARD_FPGAREGS_VADDR #define XTBOARD_DATECD_VADDR (XTBOARD_FPGAREGS_VADDR+XTBOARD_DATECD_OFS) #define XTBOARD_CLKFRQ_VADDR (XTBOARD_FPGAREGS_VADDR+XTBOARD_CLKFRQ_OFS) #define XTBOARD_SYSLED_VADDR (XTBOARD_FPGAREGS_VADDR+XTBOARD_SYSLED_OFS) #define XTBOARD_DIPSW_VADDR (XTBOARD_FPGAREGS_VADDR+XTBOARD_DIPSW_OFS) #define XTBOARD_SWRST_VADDR (XTBOARD_FPGAREGS_VADDR+XTBOARD_SWRST_OFS) /* Register access (for C code): */ #define XTBOARD_DATECD_REG (*(volatile unsigned*) XTBOARD_DATECD_VADDR) #define XTBOARD_CLKFRQ_REG (*(volatile unsigned*) XTBOARD_CLKFRQ_VADDR) #define XTBOARD_SYSLED_REG (*(volatile unsigned*) XTBOARD_SYSLED_VADDR) #define XTBOARD_DIPSW_REG (*(volatile unsigned*) XTBOARD_DIPSW_VADDR) #define XTBOARD_SWRST_REG (*(volatile unsigned*) XTBOARD_SWRST_VADDR) #endif /* DATECD (date code; when core was built) bit fields: */ /* BCD-coded month (01..12): */ #define XTBOARD_DATECD_MONTH_SHIFT 24 #define XTBOARD_DATECD_MONTH_BITS 8 #define XTBOARD_DATECD_MONTH_MASK 0xFF000000 /* BCD-coded day (01..31): */ #define XTBOARD_DATECD_DAY_SHIFT 16 #define XTBOARD_DATECD_DAY_BITS 8 #define XTBOARD_DATECD_DAY_MASK 0x00FF0000 /* BCD-coded year (2001..9999): */ #define XTBOARD_DATECD_YEAR_SHIFT 0 #define XTBOARD_DATECD_YEAR_BITS 16 #define XTBOARD_DATECD_YEAR_MASK 0x0000FFFF /* SYSLED (system LED) bit fields: */ /* LED control bits (off=0, on=1): */ #define XTBOARD_SYSLED_USER_SHIFT 0 #define XTBOARD_SYSLED_USER_BITS 4 #define XTBOARD_SYSLED_USER_MASK 0x0000000F /* DIP Switch (left=sw1=lsb=bit0, right=sw8=msb=bit7; off=0, on=1): */ /* DIP switch bit fields (bit6/sw7 is reserved and presently unused): */ #define XTBOARD_DIPSW_USER_SHIFT 0 /* labeled 1-6 (1=lsb) */ #define XTBOARD_DIPSW_USER_BITS 6 #define XTBOARD_DIPSW_USER_MASK 0x0000003F #define XTBOARD_DIPSW_BOOT_SHIFT 7 /* labeled 8 (msb) */ #define XTBOARD_DIPSW_BOOT_BITS 1 #define XTBOARD_DIPSW_BOOT_MASK 0x00000080 /* Boot settings: bit7/sw8, off=0, on=1 (this switch controls hardware): */ #define XTBOARD_DIPSW_BOOT_RAM (0<