#include "swi.h" /* ANSI concatenation macros. */ #define CONCAT(a, b) CONCAT2(a, b) #define CONCAT2(a, b) a ## b #ifdef __USER_LABEL_PREFIX__ #define FUNCTION( name ) CONCAT (__USER_LABEL_PREFIX__, name) #else #error __USER_LABEL_PREFIX is not defined #endif /* .text is used instead of .section .text so it works with arm-aout too. */ .text .code 32 .align 0 .global _mainCRTStartup .global _start .global start start: _start: _mainCRTStartup: /* Start by setting up a stack */ #ifdef ARM_RDP_MONITOR /* Issue Demon SWI to read stack info */ swi SWI_GetEnv /* Returns command line in r0 */ mov sp,r1 /* and the highest memory address in r1 */ ldr sl, .LC2 /* stack limit is at end of data */ add sl, sl, #256 /* allow slop for stack overflow handling */ /* and small frames */ #else #ifdef ARM_RDI_MONITOR /* Issue Angel SWI to read stack info */ mov r0, #AngelSWI_Reason_HeapInfo adr r1, .LC0 /* point at ptr to 4 words to receive data */ swi AngelSWI_ARM /* We are always in ARM mode for startup */ ldr r0, .LC0 /* point at values read */ ldr sp, [r0, #8] ldr sl, [r0, #12] add sl, sl, #256 /* allow slop for stack overflow handling */ /* and small frames */ #else /* Set up the stack pointer to a fixed value */ ldr r3, .LC0 mov sp, r3 /* Setup a default stack-limit in-case the code has been compiled with "-mapcs-stack-check". Hard-wiring this value is not ideal, since there is currently no support for checking that the heap and stack have not collided, or that this default 64k is enough for the program being executed. However, it ensures that this simple crt0 world will not immediately cause an overflow event: */ sub sl, sp, #64 << 10 /* Still assumes 256bytes below sl */ #endif #endif mov a2, #0 /* Second arg: fill value */ mov fp, a2 /* Null frame pointer */ mov r7, a2 /* Null frame pointer for Thumb */ ldr a1, .LC1 /* First arg: start of memory block */ ldr a3, .LC2 sub a3, a3, a1 /* Third arg: length of block */ #ifdef __thumb__ /* Enter Thumb mode.... */ add a4, pc, #1 /* Get the address of the Thumb block */ bx a4 /* Go there and start Thumb decoding */ .code 16 .global __change_mode .thumb_func __change_mode: #endif bl FUNCTION (memset) #if !defined (ARM_RDP_MONITOR) && !defined (ARM_RDI_MONITOR) mov r0, #0 /* no arguments */ mov r1, #0 /* no argv either */ #else /* Need to set up standard file handles */ bl FUNCTION (initialise_monitor_handles) #ifdef ARM_RDP_MONITOR swi SWI_GetEnv /* sets r0 to point to the command line */ mov r1, r0 #else mov r0, #AngelSWI_Reason_GetCmdLine adr r1, .LC30 /* Space for command line */ swi AngelSWI ldr r1, .LC30 #endif /* Parse string at r1 */ mov r0, #0 /* count of arguments so far */ .LC10: /* Skip leading blanks */ #ifdef __thumb__ ldrb r3, [r1] add r1, #1 #else ldrb r3, [r1], #1 #endif cmp r3, #0 beq .LC12 cmp r3, #' ' beq .LC10 /* See whether we are scanning a string */ cmp r3, #'"' #ifdef __thumb__ beq .LC20 cmp r3, #'\'' bne .LC21 .LC20: mov r2, r3 b .LC22 .LC21: mov r2, #' ' /* terminator type */ sub r1, r1, #1 /* adjust back to point at start char */ .LC22: #else cmpne r3, #'\'' moveq r2, r3 movne r2, #' ' /* terminator type */ subne r1, r1, #1 /* adjust back to point at start char */ #endif /* Stack a pointer to the current argument */ #ifdef __thumb__ push {r1} #else stmfd sp!, {r1} #endif add r0, r0, #1 .LC11: #ifdef __thumb__ ldrb r3, [r1] add r1, #1 #else ldrb r3, [r1], #1 #endif cmp r3, #0 beq .LC12 cmp r2, r3 /* reached terminator? */ bne .LC11 mov r2, #0 sub r3, r1, #1 strb r2, [r3] /* terminate the arg string */ b .LC10 .LC12: mov r1, sp /* point at stacked arg pointers */ /* We've now got the stacked args in order reverse the */ #ifdef __thumb__ mov r2, r0 lsl r2, #2 add r2, sp mov r3, sp .LC15: cmp r2, r3 bls .LC14 sub r2, #4 ldr r4, [r2] ldr r5, [r3] str r5, [r2] str r4, [r3] add r3, #4 b .LC15 .LC14: #else add r2, sp, r0, LSL #2 /* End of args */ mov r3, sp /* Start of args */ .LC13: cmp r2, r3 ldrhi r4,[r2, #-4] /* Reverse ends of list */ ldrhi r5, [r3] strhi r5, [r2, #-4]! strhi r4, [r3], #4 bhi .LC13 #endif #endif #ifdef __USES_INITFINI__ /* Some arm/elf targets use the .init and .fini sections to create constructors and destructors, and for these targets we need to call the _init function and arrange for _fini to be called at program exit. */ ldr r0, .Lfini bl FUNCTION (atexit) bl FUNCTION (_init) #endif bl FUNCTION (main) bl FUNCTION (exit) /* Should not return. */ #ifdef __thumb__ /* Come out of Thumb mode. This code should be redundant. */ mov a4, pc bx a4 .code 32 .global change_back change_back: /* Halt the execution. This code should never be executed. */ /* With no debug monitor, this probably aborts (eventually). With a Demon debug monitor, this halts cleanly. With an Angel debug monitor, this will report 'Unknown SWI'. */ swi SWI_Exit #endif /* For Thumb, constants must be after the code since only positive offsets are supported for PC relative addresses. */ .align 0 .LC0: #ifdef ARM_RDI_MONITOR .word HeapBase #else #ifndef ARM_RDP_MONITOR #ifdef __pe__ .word 0x800000 #else /* .word 0x80000 */ /* Top of RAM on the PIE board. */ #endif #endif #endif .LC1: .word __bss_start__ .LC2: .word __bss_end__ #ifdef __USES_INITFINI__ .Lfini: .word FUNCTION(_fini) #endif #ifdef ARM_RDI_MONITOR .LC30: .word CommandLine .word 255 /* Workspace for Angel calls. */ .data /* Data returned by monitor SWI. */ HeapBase: .word 0 HeapLimit: .word 0 StackBase: .word 0 StackLimit: .word 0 CommandLine: .space 256,0 /* Maximum length of 255 chars handled. */ #endif #ifdef __pe__ .section .idata$3 .long 0,0,0,0,0,0,0,0 #endif