#include "config.h" ENTRY(start) #ifdef CPU_COLDFIRE OUTPUT_FORMAT(elf32-m68k) INPUT(target/coldfire/crt0.o) #elif defined(CPU_ARM) OUTPUT_FORMAT(elf32-littlearm) OUTPUT_ARCH(arm) #ifdef CPU_PP INPUT(target/arm/crt0-pp.o) #elif CONFIG_CPU==DM320 INPUT(target/arm/tms320dm320/crt0.o) #elif CONFIG_CPU==S3C2440 INPUT(target/arm/s3c2440/crt0.o) #elif CONFIG_CPU == PNX0101 INPUT(target/arm/pnx0101/crt0-pnx0101.o) #elif defined(CPU_ARM) INPUT(target/arm/crt0.o) #endif #else OUTPUT_FORMAT(elf32-sh) INPUT(target/sh/crt0.o) #endif #define PLUGINSIZE PLUGIN_BUFFER_SIZE #define CODECSIZE CODEC_SIZE #ifdef DEBUG #define STUBOFFSET 0x10000 #else #define STUBOFFSET 0 #endif #if CONFIG_CPU==S3C2440 #include "s3c2440.h" #define DRAMSIZE (MEMORYSIZE * 0x100000) - 0x100 - PLUGINSIZE - STUBOFFSET - CODECSIZE - LCD_BUFFER_SIZE - TTB_SIZE #elif CONFIG_CPU==DM320 #include "dm320.h" #define DRAMSIZE (MEMORYSIZE * 0x100000) - PLUGINSIZE - STUBOFFSET - CODECSIZE - LCD_BUFFER_SIZE - TTB_SIZE #else #define DRAMSIZE (MEMORYSIZE * 0x100000) - PLUGINSIZE - STUBOFFSET - CODECSIZE #endif #if defined(IRIVER_H100_SERIES) || defined(IRIVER_H300) #define DRAMORIG 0x31000000 + STUBOFFSET #define IRAMORIG 0x10000000 #define IRAMSIZE 0xc000 #elif defined(IAUDIO_X5) || defined(IAUDIO_M5) #define DRAMORIG 0x31000000 + STUBOFFSET #define IRAMORIG 0x10000000 #define IRAMSIZE 0x10000 #elif defined(CPU_PP) #define DRAMORIG 0x00000000 + STUBOFFSET #define IRAMORIG 0x40000000 #define IRAMSIZE 0xc000 #elif CONFIG_CPU==PNX0101 #define DRAMORIG 0xc00000 + STUBOFFSET #define IRAM0ORIG 0x000000 #define IRAM0SIZE 0x7000 #define IRAMORIG 0x400000 #define IRAMSIZE 0x7000 #elif CONFIG_CPU==S3C2440 #define DRAMORIG 0x00000100 + STUBOFFSET #define IRAMORIG DRAMORIG #define IRAM DRAM #define IRAMSIZE 0x1000 #elif CONFIG_CPU==DM320 #define DRAMORIG 0x00900000 + STUBOFFSET #define IRAMORIG 0x00000000 #define IRAMSIZE 0x4000 #elif CONFIG_CPU==IMX31L #define DRAMORIG (0x80000000 + STUBOFFSET) #define IRAMORIG 0x1FFFC000 #define IRAMSIZE 0x4000 #else #define DRAMORIG 0x09000000 + STUBOFFSET #define IRAMORIG 0x0f000000 #define IRAMSIZE 0x1000 #endif /* End of the audio buffer, where the codec buffer starts */ #define ENDAUDIOADDR (DRAMORIG + DRAMSIZE) /* Where the codec buffer ends, and the plugin buffer starts */ #define ENDADDR (ENDAUDIOADDR + CODECSIZE) MEMORY { DRAM : ORIGIN = DRAMORIG, LENGTH = DRAMSIZE #if CONFIG_CPU != S3C2440 IRAM : ORIGIN = IRAMORIG, LENGTH = IRAMSIZE #endif #if CONFIG_CPU==PNX0101 IRAM0 : ORIGIN = IRAM0ORIG, LENGTH = IRAM0SIZE #endif } SECTIONS { #if (CONFIG_CPU==DM320) .text : { loadaddress = .; _loadaddress = .; . = ALIGN(0x200); *(.init.text) *(.text*) *(.glue_7) *(.glue_7t) . = ALIGN(0x4); } > DRAM .rodata : { *(.rodata) /* problems without this, dunno why */ *(.rodata*) *(.rodata.str1.1) *(.rodata.str1.4) . = ALIGN(0x4); /* Pseudo-allocate the copies of the data sections */ _datacopy = .; } > DRAM /* TRICK ALERT! For RAM execution, we put the .data section at the same load address as the copy. Thus, we don't waste extra RAM when we don't actually need the copy. */ .data : AT ( _datacopy ) { _datastart = .; *(.data*) . = ALIGN(0x4); _dataend = .; } > DRAM /DISCARD/ : { *(.eh_frame) } .vectors IRAMORIG : { _vectorsstart = .; *(.vectors); _vectorsend = .; } > IRAM AT> DRAM _vectorscopy = LOADADDR(.vectors); .iram : { _iramstart = .; *(.icode) *(.irodata) *(.idata) _iramend = .; } > IRAM AT> DRAM _iramcopy = LOADADDR(.iram); .ibss (NOLOAD) : { _iedata = .; *(.ibss) . = ALIGN(0x4); _iend = .; } > IRAM .stack : { *(.stack) stackbegin = .; . += 0x2000; stackend = .; } > IRAM .bss ADDR(.data) + SIZEOF(.data) + SIZEOF(.iram) + SIZEOF(.vectors): { _edata = .; *(.bss*) *(COMMON) . = ALIGN(0x4); _end = .; } > DRAM #elif CONFIG_CPU==S3C2440 .text : { loadaddress = .; _loadaddress = .; . = ALIGN(0x200); *(.init.text) *(.text*) *(.glue_7) *(.glue_7t) . = ALIGN(0x4); } > DRAM .rodata : { *(.rodata) /* problems without this, dunno why */ *(.rodata*) *(.rodata.str1.1) *(.rodata.str1.4) . = ALIGN(0x4); /* Pseudo-allocate the copies of the data sections */ _datacopy = .; } > DRAM /* TRICK ALERT! For RAM execution, we put the .data section at the same load address as the copy. Thus, we don't waste extra RAM when we don't actually need the copy. */ .data : AT ( _datacopy ) { _datastart = .; *(.data*) . = ALIGN(0x4); _dataend = .; } > DRAM /DISCARD/ : { *(.eh_frame) } .vectors 0x0 : { _vectorsstart = .; *(.vectors); _vectorsend = .; } AT> DRAM _vectorscopy = LOADADDR(.vectors); .iram : { _iramstart = .; *(.icode) *(.irodata) *(.idata) _iramend = .; } > DRAM _iramcopy = LOADADDR(.iram); .ibss (NOLOAD) : { _iedata = .; *(.ibss) . = ALIGN(0x4); _iend = .; } > DRAM .stack : { *(.stack) stackbegin = .; . += 0x2000; stackend = .; } > DRAM .bss : { _edata = .; *(.bss*) *(COMMON) . = ALIGN(0x4); _end = .; } > DRAM #else /* End CONFIG_CPU */ #if !defined(CPU_ARM) .vectors : { loadaddress = .; _loadaddress = .; KEEP(*(.resetvectors)); *(.resetvectors); KEEP(*(.vectors)); *(.vectors); } > DRAM .text : { #else .text : { loadaddress = .; _loadaddress = .; #endif . = ALIGN(0x200); *(.init.text) *(.text*) #ifdef CPU_ARM *(.glue_7) *(.glue_7t) #endif . = ALIGN(0x4); } > DRAM .rodata : { *(.rodata) /* problems without this, dunno why */ *(.rodata*) *(.rodata.str1.1) *(.rodata.str1.4) . = ALIGN(0x4); /* Pseudo-allocate the copies of the data sections */ _datacopy = .; } > DRAM /* TRICK ALERT! For RAM execution, we put the .data section at the same load address as the copy. Thus, we don't waste extra RAM when we don't actually need the copy. */ .data : AT ( _datacopy ) { _datastart = .; *(.data*) . = ALIGN(0x4); _dataend = .; } > DRAM /DISCARD/ : { *(.eh_frame) } #if defined(CPU_ARM) .vectors 0x0 : { _vectorsstart = .; *(.vectors); _vectorsend = .; #if CONFIG_CPU==PNX0101 *(.dmabuf) } >IRAM0 AT> DRAM #else } AT> DRAM #endif _vectorscopy = LOADADDR(.vectors); #endif #if CONFIG_CPU==PNX0101 .iram IRAMORIG + SIZEOF(.vectors) : #else .iram IRAMORIG : #endif { _iramstart = .; *(.icode) *(.irodata) *(.idata) _iramend = .; } > IRAM AT> DRAM _iramcopy = LOADADDR(.iram); .ibss (NOLOAD) : { _iedata = .; *(.ibss) . = ALIGN(0x4); _iend = .; } > IRAM #if defined(CPU_COLDFIRE) || defined(CPU_ARM) #ifdef CPU_PP .idle_stacks : { *(.idle_stacks) #if NUM_CORES > 1 cpu_idlestackbegin = .; . += IDLE_STACK_SIZE; cpu_idlestackend = .; #endif cop_idlestackbegin = .; . += IDLE_STACK_SIZE; cop_idlestackend = .; } > IRAM #endif .stack : { *(.stack) stackbegin = .; . += 0x2000; stackend = .; } > IRAM #else /* TRICK ALERT! We want 0x2000 bytes of stack, but we set the section size smaller, and allow the stack to grow into the .iram copy */ .stack ADDR(.data) + SIZEOF(.data) + SIZEOF(.iram): { *(.stack) _stackbegin = . - SIZEOF(.iram); . += 0x2000 - SIZEOF(.iram); _stackend = .; } > DRAM #endif #if defined(CPU_COLDFIRE) .bss ADDR(.data) + SIZEOF(.data) + SIZEOF(.iram): #elif defined(CPU_ARM) .bss ADDR(.data) + SIZEOF(.data) + SIZEOF(.iram) + SIZEOF(.vectors): #else .bss : #endif { _edata = .; *(.bss*) *(COMMON) . = ALIGN(0x4); _end = .; } > DRAM #endif .audiobuf ALIGN(4) : { _audiobuffer = .; audiobuffer = .; } > DRAM .audiobufend ENDAUDIOADDR: { audiobufend = .; _audiobufend = .; } > DRAM .codec ENDAUDIOADDR: { codecbuf = .; _codecbuf = .; } .plugin ENDADDR: { _pluginbuf = .; pluginbuf = .; } }