/* * Wine debugger utility routines * Eric Youngdale * 9/93 */ #include #include #include "opcodes/dis-asm.h" #include "regpos.h" extern int * regval; extern unsigned int dbg_mask; extern unsigned int dbg_mode; void application_not_running() { fprintf(stderr,"Application not running\n"); } void print_address(unsigned int addr, FILE * outfile){ char * name; extern char * find_nearest_symbol(unsigned int *); name = find_nearest_symbol((unsigned int *) addr); if(name) fprintf(outfile,"0x%8.8x(%s)", addr, name); else fprintf(outfile,"0x%8.8x", addr); } void print_address_info(bfd_vma addr, disassemble_info * info){ print_address((unsigned int) addr, info->stream); } int print_insn(char *realmemaddr, char *memaddr, FILE *stream, int addrlen){ static disassemble_info info; static int initialized = 0; if (!initialized) { INIT_DISASSEMBLE_INFO(info, stderr); info.print_address_func = print_address_info; initialized = 1; } info.stream = stream; info.buffer = memaddr; info.buffer_vma = (bfd_vma) realmemaddr; info.buffer_length = 1024; if (addrlen == 16) return print_insn_i286((bfd_vma) realmemaddr, &info); if (addrlen == 32) return print_insn_i386((bfd_vma) realmemaddr, &info); fprintf(stderr, "invalid address length %d.\n", addrlen); return 0; } void info_reg(){ if(!regval) { application_not_running(); return; } fprintf(stderr,"Register dump:\n"); /* First get the segment registers out of the way */ fprintf(stderr," CS:%4.4x SS:%4.4x DS:%4.4x ES:%4.4x GS:%4.4x FS:%4.4x\n", SC_CS, SC_SS, SC_DS, SC_ES, SC_GS, SC_FS); /* Now dump the main registers */ fprintf(stderr," EIP:%8.8x ESP:%8.8x EBP:%8.8x EFLAGS:%8.8x\n", SC_EIP(dbg_mask), SC_ESP(dbg_mask), SC_EBP(dbg_mask), SC_EFLAGS); /* And dump the regular registers */ fprintf(stderr," EAX:%8.8x EBX:%8.8x ECX:%8.8x EDX:%8.8x\n", SC_EAX(dbg_mask), SC_EBX(dbg_mask), SC_ECX(dbg_mask), SC_EDX(dbg_mask)); /* Finally dump these main registers */ fprintf(stderr," EDI:%8.8x ESI:%8.8x\n", SC_EDI(dbg_mask), SC_ESI(dbg_mask)); } void info_stack(){ unsigned int * dump; int i; if(!regval) { application_not_running(); return; } fprintf(stderr,"Stack dump:\n"); dump = (int*) SC_EIP(dbg_mask); for(i=0; i<22; i++) { fprintf(stderr," %8.8x", *dump++); if ((i % 8) == 7) fprintf(stderr,"\n"); } fprintf(stderr,"\n"); } void examine_memory(int addr, int count, char format){ char * pnt; unsigned int * dump; unsigned short int * wdump; int i; if((addr & 0xffff0000) == 0 && dbg_mode == 16) addr |= (format == 'i' ? SC_CS : SC_DS) << 16; if(format != 'i' && count > 1) { print_address(addr, stderr); fprintf(stderr,": "); }; switch(format){ case 's': pnt = (char *) addr; if (count == 1) count = 256; while(*pnt && count) { fputc( *pnt++, stderr); count--; }; fprintf(stderr,"\n"); return; case 'i': for(i=0; i", " enable bpnum", " disable bpnum", " help", " quit", " print ", " bt", " mode [16,32]", " symbolfile ", " define ", " x ", " cont", " set = ", " set * = ", "", "The 'x' command accepts repeat counts and formats (including 'i') in the", "same way that gdb does.", "", " The following are examples of legal expressions:", " $eax $eax+0x3 0x1000 ($eip + 256) *$eax *($esp + 3)", " Also, a nm format symbol table can be read from a file using the", " symbolfile command. Symbols can also be defined individually with", " the define command.", "", NULL}; void dbg_help(){ int i; i = 0; while(helptext[i]) fprintf(stderr,"%s\n", helptext[i++]); } struct frame{ union{ struct { unsigned short saved_bp; unsigned short saved_ip; unsigned short saved_cs; } win16; struct { unsigned long saved_bp; unsigned long saved_ip; unsigned short saved_cs; } win32; } u; }; void dbg_bt(){ struct frame * frame; unsigned short cs; int frameno = 0; if(!regval) { application_not_running(); return; } fprintf(stderr,"Backtrace:\n"); fprintf(stderr,"%d ",frameno); print_address(frame->u.win32.saved_ip,stderr); cs = SC_CS; frame = (struct frame *) ((SC_EBP(dbg_mask) & ~1) | (SC_SS << 16)); while((cs & 3) == 3) { /* See if in 32 bit mode or not. Assume GDT means 32 bit. */ if ((cs & 7) != 7) { void CallTo32(); fprintf(stderr,"\n%d ",frameno++); print_address(frame->u.win32.saved_ip,stderr); if(frame->u.win32.saved_ip<((char*)CallTo32+1000))break; frame = (struct frame *) frame->u.win32.saved_bp; } else { cs = frame->u.win16.saved_cs; fprintf(stderr,"%d %4.4x:%4.4x\n", frameno++, cs, frame->u.win16.saved_ip); frame = (struct frame *) ((frame->u.win16.saved_bp & ~1) | (SC_SS << 16)); } } putchar('\n'); }