/* This is the canonical entry point, usually the first thing in the text segment. The SVR4/i386 ABI (pages 3-31, 3-32) says that when the entry point runs, most registers' values are unspecified, except for: %rdx Contains a function pointer to be registered with `atexit'. This is how the dynamic linker arranges to have DT_FINI functions called for shared libraries that have been loaded before this code runs. %rsp The stack contains the arguments and environment: 0(%rsp) argc 8(%rsp) argv[0] ... (8*argc)(%rsp) NULL (8*(argc+1))(%rsp) envp[0] ... NULL */ .text .globl _start .type _start,@function _start: /* Clear the frame pointer. The ABI suggests this be done, to mark the outermost frame obviously. */ xorq %rbp, %rbp /* Extract the arguments as encoded on the stack and set up the arguments for __libc_start_main (int (*main) (int, char **, char **), int argc, char *argv, void (*init) (void), void (*fini) (void), void (*rtld_fini) (void), void *stack_end). The arguments are passed via registers and on the stack: main: %rdi argc: %rsi argv: %rdx init: %rcx fini: %r8 rtld_fini: %r9 stack_end: stack. */ movq %rdx, %r9 /* Address of the shared library termination function. */ popq %rsi /* Pop the argument count. */ movq %rsp, %rdx /* argv starts just at the current stack top. */ movq entryinfo@GOTPCREL(%rip),%r10 /* load address of entryinfo variable */ movq %rsi,56(%r10) movq %rsp,64(%r10) /* argv starts just at the current stack top */ leaq 8(,%rsi,8),%rax addq %rsp,%rax movq %rax,72(%r10) /* Align the stack to a 16 byte boundary to follow the ABI. */ andq $~15, %rsp pushq %rax /* Push garbage because we push 8 more bytes. */ /* Provide the highest stack address to the user code (for stacks which grow downwards). */ pushq %rsp /* Pass address of our own entry points to .fini and .init. */ movq __libc_csu_init@GOTPCREL(%rip), %rcx movq __libc_csu_fini@GOTPCREL(%rip), %r8 movq main_stub@GOTPCREL(%rip), %rdi /* Call the user's main function, and exit with its value. But let the libc call main. */ call __libc_start_main@PLT hlt /* Crash if somehow `exit' does return. */ /* fake main routine which will be run from libc */ .globl main_stub .type main_stub,@function main_stub: /* save return address */ popq %rax // stack alignment pushq %rax movq ___fpc_ret_rbp@GOTPCREL(%rip),%rcx movq %rbp,(%rcx) movq ___fpc_ret@GOTPCREL(%rip),%rcx movq %rax,(%rcx) pushq %rax /* fill the remaining fields of the entry information */ movq entryinfo@GOTPCREL(%rip),%rdi /* load address of entryinfo variable into argument for SysEntry*/ /* Save initial stackpointer */ movq %rsp,80(%rdi) /* store stack length */ movq __stklen@GOTPCREL(%rip),%rax movq %rax,88(%rdi) /* store pointer to _haltproc */ movq _haltproc@GOTPCREL(%rip),%rax movq %rax,96(%rdi) /* populate the table pointers */ movq INITFINAL@GOTPCREL(%rip),%rax movq %rax,(%rdi) movq FPC_THREADVARTABLES@GOTPCREL(%rip),%rax movq %rax,8(%rdi) movq FPC_RESOURCESTRINGTABLES@GOTPCREL(%rip),%rax movq %rax,16(%rdi) movq FPC_RESSTRINITTABLES@GOTPCREL(%rip),%rax movq %rax,24(%rdi) movq FPC_RESLOCATION@GOTPCREL(%rip),%rax movq %rax,32(%rdi) movq PASCALMAIN@GOTPCREL(%rip),%rax movq %rax,40(%rdi) /* valgrind_used can stay 0 */ /* start the program */ xorq %rbp,%rbp call FPC_SysEntry@PLT hlt .size main_stub,.-main_stub .globl _haltproc .type _haltproc,@function _haltproc: movl %edi,%eax /* return to libc */ movq ___fpc_ret_rbp@GOTPCREL(%rip),%rcx movq (%rcx),%rbp movq ___fpc_ret@GOTPCREL(%rip),%rcx popq %rdx movq (%rcx),%rdx pushq %rdx ret .size _haltproc,.-_haltproc /* Define a symbol for the first piece of initialized data. */ .data .globl __data_start __data_start: .long 0 .weak data_start data_start = __data_start .globl ___fpc_brk_addr /* heap management */ .type ___fpc_brk_addr,@object .size ___fpc_brk_addr,8 ___fpc_brk_addr: .quad 0 ___fpc_ret: /* return address to libc */ .quad 0 ___fpc_ret_rbp: .quad 0 .bss /* the entry information looks like this: TEntryInformation = record InitFinalTable : Pointer; // offset 0 ThreadvarTablesTable : Pointer; // offset 8 ResourceStringTables : Pointer; // offset 16 ResStrInitTables : Pointer; // offset 24 ResLocation : Pointer; // offset 32 PascalMain : Procedure; // offset 40 valgrind_used : boolean; // offset 48 OS : TEntryInformationOS; // offset 56 end; with TEntryInformationOS being TEntryInformationOS = record argc: longint; // offset 56 argv: ppchar; // offset 64 envp: ppchar; // offset 72 stkptr: pointer; // offset 80 stklen: sizeuint; // offset 88 haltproc: procedure(e:longint);cdecl; // offset 96 end; The size of TEntryInformationOS including padding is 5 * sizeof(Pointer) = 40 The size of TEntryInformation including padding without OS is 8 * sizeof(Pointer) = 64 Thus the total size of TEntryInformation including padding is 104 */ .comm entryinfo,104 /* We need this stuff to make gdb behave itself, otherwise gdb will chokes with SIGILL when trying to debug apps. */ .section ".note.ABI-tag", "a" .align 4 .long 1f - 0f .long 3f - 2f .long 1 0: .asciz "GNU" 1: .align 4 2: .long 0 .long 2,4,0 3: .align 4 .section .note.GNU-stack,"",@progbits