/* memory access abstraction layer for forth kernel * * Copyright (C) 2005 Stefan Reinauer * * See the file "COPYING" for further information about * the copyright and warranty status of this work. */ #ifndef __CROSS_H #define __CROSS_H 1 /* The forthstrap compiler has to abstract the underlying dictionary * type: big/little endian, 32/64bit. All other binaries shall use * unchanged memory access for performance. */ /* byte swapping */ #ifndef SWAP_ENDIANNESS /* trivial case - we don't have to change anything */ #define read_ucell(addr) (*(ucell *)(addr)) #define read_cell(addr) (*(cell *)(addr)) #define read_long(addr) (*(u32 *)(addr)) #define read_word(addr) (*(u16 *)(addr)) #define read_byte(addr) (*(u8 *)(addr)) #define write_ucell(addr, value) {*(ucell *)(addr)=(value);} #define write_cell(addr, value) {*(cell *)(addr)=(value);} #define write_long(addr, value) {*(u32 *)(addr)=(value);} #define write_word(addr, value) {*(u16 *)(addr)=(value);} #define write_byte(addr, value) {*(u8 *)(addr)=(value);} #define target_ucell(x) (x) #define target_cell(x) (x) #define target_long(x) (x) #define target_ulong(x) (x) #else /* SWAP_ENDIANNESS */ #define target_word(value) ( (((value)>>8)&0xff) | (((value)&0xff)<<8) ) #define target_long(value) ( (((value)&0xff000000)>>24)|(((value)&0x00ff0000)>>8)|(((value)&0xff00)<<8)|(((value)&0xff)<<24) ) #define target_ulong(value) (target_long(value)) #if BITS==32 #define target_ucell(value) ((ucell)target_long(value)) #define target_cell(value) ((cell)target_long(value)) #elif BITS==64 #define target_ucell(value) \ ((((ucell)target_long((value) & 0xffffffff)) << 32) | \ ((ucell)target_long((value) >> 32))) #define target_cell(value) \ ((((cell)target_long((value) & 0xffffffff)) << 32) | \ ((cell)target_long((value) >> 32))) #else #error "Endianness not supported. Please report." #endif #define read_ucell(addr) target_ucell(*(ucell *)(addr)) #define read_cell(addr) target_cell(*(cell *)(addr)) #define read_long(addr) target_long(*(u32 *)(addr)) #define read_word(addr) target_word(*(u16 *)(addr)) #define read_byte(addr) (*(u8 *)(addr)) #define write_ucell(addr, value) {*(ucell *)(addr)=target_ucell(value);} #define write_cell(addr, value) {*(cell *)(addr)=target_cell(value);} #define write_long(addr, value) {*(u32 *)(addr)=target_long(value);} #define write_word(addr, value) {*(u16 *)(addr)=target_word(value);} #define write_byte(addr, value) {*(u8 *)(addr)=(value);} #endif #ifdef CONFIG_LITTLE_ENDIAN #define unaligned_read_word(addr) \ (read_byte(addr)|(read_byte((u8 *)addr+1)<<8)) #define unaligned_read_long(addr) \ (unaligned_read_word(addr)|(unaligned_read_word((u8 *)addr+2)<<16)) #define unaligned_write_word(addr, value) \ write_byte(addr, (value & 0xff)); write_byte((u8 *)(addr+1), (value>>8)) #define unaligned_write_long(addr, value) \ unaligned_write_word(addr, (value & 0xffff)); \ unaligned_write_word((addr + 2), (value >> 16)) #endif #ifdef CONFIG_BIG_ENDIAN #define unaligned_read_word(addr) \ ((read_byte(addr)<<8)|read_byte((u8 *)addr+1)) #define unaligned_read_long(addr) \ ((unaligned_read_word(addr)<<16)|unaligned_read_word((u8 *)addr+2)) #define unaligned_write_word(addr, value) \ write_byte(addr, (value >> 8)); write_byte((u8 *)(addr+1), (value & 0xff)) #define unaligned_write_long(addr, value) \ unaligned_write_word(addr, (value >> 16)); \ unaligned_write_word((addr + 2), (value & 0xffff)) #endif /* bit width handling */ #if BITS==32 #define FMT_CELL_x PRIx32 #define FMT_CELL_d PRId32 #else #define FMT_CELL_x PRIx64 #define FMT_CELL_d PRId64 #endif #ifdef NATIVE_BITWIDTH_SMALLER_THAN_HOST_BITWIDTH extern unsigned long base_address; #define pointer2cell(x) ((ucell)(((unsigned long)(x))-base_address)) #define cell2pointer(x) ((u8 *)(((unsigned long)(x))+base_address)) #endif #ifdef NATIVE_BITWIDTH_LARGER_THAN_HOST_BITWIDTH #define pointer2cell(x) ((ucell)(unsigned long)(x)) #define cell2pointer(x) ((u8 *)((unsigned long)(x)&0xFFFFFFFFUL)) #endif #endif