/* * Debugger stack handling * * Copyright 1995 Alexandre Julliard * Copyright 1996 Eric Youngdale * Copyright 1999 Ove Kåven */ #include "config.h" #include #include "debugger.h" #include "stackframe.h" #include "winbase.h" #ifdef __i386__ /* * We keep this info for each frame, so that we can * find local variable information correctly. */ struct bt_info { unsigned int cs; unsigned int eip; unsigned int ss; unsigned int ebp; struct symbol_info frame; }; static int nframe; static struct bt_info * frames = NULL; int curr_frame; typedef struct { WORD bp; WORD ip; WORD cs; } FRAME16; typedef struct { DWORD bp; DWORD ip; WORD cs; } FRAME32; #endif /*********************************************************************** * DEBUG_InfoStack * * Dump the top of the stack */ void DEBUG_InfoStack(void) { #ifdef __i386__ DBG_VALUE value; value.type = NULL; value.cookie = DV_TARGET; value.addr.seg = DEBUG_context.SegSs; value.addr.off = DEBUG_context.Esp; DEBUG_Printf(DBG_CHN_MESG,"Stack dump:\n"); switch (DEBUG_GetSelectorType(value.addr.seg)) { case 32: /* 32-bit mode */ DEBUG_ExamineMemory( &value, 24, 'x' ); break; case 16: /* 16-bit mode */ value.addr.off &= 0xffff; DEBUG_ExamineMemory( &value, 24, 'w' ); break; default: DEBUG_Printf(DBG_CHN_MESG, "Bad segment (%ld)\n", value.addr.seg); } DEBUG_Printf(DBG_CHN_MESG,"\n"); #endif } #ifdef __i386__ static void DEBUG_ForceFrame(DBG_ADDR *stack, DBG_ADDR *code, int frameno, int bits, int noisy) { int theframe = nframe++; frames = (struct bt_info *)DBG_realloc(frames, nframe*sizeof(struct bt_info)); if (noisy) DEBUG_Printf(DBG_CHN_MESG,"%s%d ", (theframe == curr_frame ? "=>" : " "), frameno); frames[theframe].cs = code->seg; frames[theframe].eip = code->off; if (noisy) frames[theframe].frame = DEBUG_PrintAddressAndArgs( code, bits, stack->off, TRUE ); else DEBUG_FindNearestSymbol( code, TRUE, &frames[theframe].frame.sym, stack->off, &frames[theframe].frame.list); frames[theframe].ss = stack->seg; frames[theframe].ebp = stack->off; if (noisy) { DEBUG_Printf( DBG_CHN_MESG, (bits == 16) ? " (bp=%04lx)\n" : " (ebp=%08lx)\n", stack->off ); } } static BOOL DEBUG_Frame16(DBG_ADDR *addr, unsigned int *cs, int frameno, int noisy) { unsigned int ss = addr->seg, possible_cs = 0; FRAME16 frame; int theframe = nframe; void* p = (void*)DEBUG_ToLinear(addr); if (!p) return FALSE; if (!DEBUG_READ_MEM(p, &frame, sizeof(frame))) { if (noisy) DEBUG_InvalAddr(addr); return FALSE; } if (!frame.bp) return FALSE; nframe++; frames = (struct bt_info *)DBG_realloc(frames, nframe*sizeof(struct bt_info)); if (noisy) DEBUG_Printf(DBG_CHN_MESG,"%s%d ", (theframe == curr_frame ? "=>" : " "), frameno); if (frame.bp & 1) *cs = frame.cs; else { /* not explicitly marked as far call, * but check whether it could be anyway */ if (((frame.cs&7)==7) && (frame.cs != *cs)) { LDT_ENTRY le; if (GetThreadSelectorEntry( DEBUG_CurrThread->handle, frame.cs, &le) && (le.HighWord.Bits.Type & 0x08)) { /* code segment */ /* it is very uncommon to push a code segment cs as * a parameter, so this should work in most cases */ *cs = possible_cs = frame.cs; } } } frames[theframe].cs = addr->seg = *cs; frames[theframe].eip = addr->off = frame.ip; if (noisy) frames[theframe].frame = DEBUG_PrintAddressAndArgs( addr, 16, frame.bp, TRUE ); else DEBUG_FindNearestSymbol( addr, TRUE, &frames[theframe].frame.sym, frame.bp, &frames[theframe].frame.list); frames[theframe].ss = addr->seg = ss; frames[theframe].ebp = addr->off = frame.bp & ~1; if (noisy) { DEBUG_Printf( DBG_CHN_MESG, " (bp=%04lx", addr->off ); if (possible_cs) { DEBUG_Printf( DBG_CHN_MESG, ", far call assumed" ); } DEBUG_Printf( DBG_CHN_MESG, ")\n" ); } return TRUE; } static BOOL DEBUG_Frame32(DBG_ADDR *addr, unsigned int *cs, int frameno, int noisy) { unsigned int ss = addr->seg; FRAME32 frame; int theframe = nframe; void* p = (void*)DEBUG_ToLinear(addr); if (!p) return FALSE; if (!DEBUG_READ_MEM(p, &frame, sizeof(frame))) { if (noisy) DEBUG_InvalAddr(addr); return FALSE; } if (!frame.ip) return FALSE; nframe++; frames = (struct bt_info *)DBG_realloc(frames, nframe*sizeof(struct bt_info)); if (noisy) DEBUG_Printf(DBG_CHN_MESG,"%s%d ", (theframe == curr_frame ? "=>" : " "), frameno); frames[theframe].cs = addr->seg = *cs; frames[theframe].eip = addr->off = frame.ip; if (noisy) frames[theframe].frame = DEBUG_PrintAddressAndArgs( addr, 32, frame.bp, TRUE ); else DEBUG_FindNearestSymbol( addr, TRUE, &frames[theframe].frame.sym, frame.bp, &frames[theframe].frame.list); if (noisy) DEBUG_Printf( DBG_CHN_MESG, " (ebp=%08lx)\n", frame.bp ); frames[theframe].ss = addr->seg = ss; frames[theframe].ebp = frame.bp; if (addr->off == frame.bp) return FALSE; addr->off = frame.bp; return TRUE; } #endif /*********************************************************************** * DEBUG_BackTrace * * Display a stack back-trace. */ void DEBUG_BackTrace(BOOL noisy) { #ifdef __i386 DBG_ADDR addr, sw_addr, code, tmp; unsigned int ss = DEBUG_context.SegSs; unsigned int cs = DEBUG_context.SegCs; int frameno = 0, is16, ok; DWORD next_switch, cur_switch, p; STACK16FRAME frame16; STACK32FRAME frame32; char ch; if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Backtrace:\n" ); nframe = 1; if (frames) DBG_free( frames ); frames = (struct bt_info *) DBG_alloc( sizeof(struct bt_info) ); if (noisy) DEBUG_Printf(DBG_CHN_MESG,"%s%d ",(curr_frame == 0 ? "=>" : " "), frameno); if (DEBUG_IsSelectorSystem(ss)) ss = 0; if (DEBUG_IsSelectorSystem(cs)) cs = 0; /* first stack frame from registers */ switch (DEBUG_GetSelectorType(ss)) { case 32: frames[0].cs = addr.seg = cs; frames[0].eip = addr.off = DEBUG_context.Eip; if (noisy) frames[0].frame = DEBUG_PrintAddress( &addr, 32, TRUE ); else DEBUG_FindNearestSymbol( &addr, TRUE, &frames[0].frame.sym, 0, &frames[0].frame.list); frames[0].ss = addr.seg = ss; frames[0].ebp = addr.off = DEBUG_context.Ebp; if (noisy) DEBUG_Printf( DBG_CHN_MESG, " (ebp=%08x)\n", frames[0].ebp ); is16 = FALSE; break; case 16: frames[0].cs = addr.seg = cs; frames[0].eip = addr.off = LOWORD(DEBUG_context.Eip); if (noisy) frames[0].frame = DEBUG_PrintAddress( &addr, 16, TRUE ); else DEBUG_FindNearestSymbol( &addr, TRUE, &frames[0].frame.sym, 0, &frames[0].frame.list); frames[0].ss = addr.seg = ss; frames[0].ebp = addr.off = LOWORD(DEBUG_context.Ebp); if (noisy) DEBUG_Printf( DBG_CHN_MESG, " (bp=%04x)\n", frames[0].ebp ); is16 = TRUE; break; default: if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Bad segment '%u'\n", ss); return; } /* cur_switch holds address of curr_stack's field in TEB in debuggee * address space */ cur_switch = (DWORD)DEBUG_CurrThread->teb + OFFSET_OF(TEB, cur_stack); if (!DEBUG_READ_MEM((void*)cur_switch, &next_switch, sizeof(next_switch))) { if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Can't read TEB:cur_stack\n"); return; } if (is16) { if (!DEBUG_READ_MEM((void*)next_switch, &frame32, sizeof(STACK32FRAME))) { if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Bad stack frame 0x%08lx\n", (unsigned long)(STACK32FRAME*)next_switch ); return; } cur_switch = (DWORD)frame32.frame16; sw_addr.seg = SELECTOROF(cur_switch); sw_addr.off = OFFSETOF(cur_switch); } else { tmp.seg = SELECTOROF(next_switch); tmp.off = OFFSETOF(next_switch); p = DEBUG_ToLinear(&tmp); if (!DEBUG_READ_MEM((void*)p, &frame16, sizeof(STACK16FRAME))) { if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Bad stack frame 0x%08lx\n", (unsigned long)(STACK16FRAME*)p ); return; } cur_switch = (DWORD)frame16.frame32; sw_addr.seg = ss; sw_addr.off = cur_switch; } if (!DEBUG_READ_MEM((void*)DEBUG_ToLinear(&sw_addr), &ch, sizeof(ch))) { sw_addr.seg = (DWORD)-1; sw_addr.off = (DWORD)-1; } for (ok = TRUE; ok;) { if ((frames[frameno].ss == sw_addr.seg) && (frames[frameno].ebp >= sw_addr.off)) { /* 16<->32 switch... * yes, I know this is confusing, it gave me a headache too */ if (is16) { if (!DEBUG_READ_MEM((void*)next_switch, &frame32, sizeof(STACK32FRAME))) { if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Bad stack frame 0x%08lx\n", (unsigned long)(STACK32FRAME*)next_switch ); return; } code.seg = 0; code.off = frame32.retaddr; cs = 0; addr.seg = 0; addr.off = frame32.ebp; DEBUG_ForceFrame( &addr, &code, ++frameno, 32, noisy ); next_switch = cur_switch; tmp.seg = SELECTOROF(next_switch); tmp.off = OFFSETOF(next_switch); p = DEBUG_ToLinear(&tmp); if (!DEBUG_READ_MEM((void*)p, &frame16, sizeof(STACK16FRAME))) { if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Bad stack frame 0x%08lx\n", (unsigned long)(STACK16FRAME*)p ); return; } cur_switch = (DWORD)frame16.frame32; sw_addr.seg = 0; sw_addr.off = cur_switch; is16 = FALSE; } else { tmp.seg = SELECTOROF(next_switch); tmp.off = OFFSETOF(next_switch); p = DEBUG_ToLinear(&tmp); if (!DEBUG_READ_MEM((void*)p, &frame16, sizeof(STACK16FRAME))) { if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Bad stack frame 0x%08lx\n", (unsigned long)(STACK16FRAME*)p ); return; } code.seg = frame16.cs; code.off = frame16.ip; cs = frame16.cs; addr.seg = SELECTOROF(next_switch); addr.off = frame16.bp; DEBUG_ForceFrame( &addr, &code, ++frameno, 16, noisy ); next_switch = cur_switch; if (!DEBUG_READ_MEM((void*)next_switch, &frame32, sizeof(STACK32FRAME))) { if (noisy) DEBUG_Printf( DBG_CHN_MESG, "Bad stack frame 0x%08lx\n", (unsigned long)(STACK32FRAME*)next_switch ); return; } cur_switch = (DWORD)frame32.frame16; sw_addr.seg = SELECTOROF(cur_switch); sw_addr.off = OFFSETOF(cur_switch); is16 = TRUE; } if (!DEBUG_READ_MEM((void*)DEBUG_ToLinear(&sw_addr), &ch, sizeof(ch))) { sw_addr.seg = (DWORD)-1; sw_addr.off = (DWORD)-1; } } else { /* ordinary stack frame */ ok = is16 ? DEBUG_Frame16( &addr, &cs, ++frameno, noisy) : DEBUG_Frame32( &addr, &cs, ++frameno, noisy); } } if (noisy) DEBUG_Printf( DBG_CHN_MESG, "\n" ); #endif } int DEBUG_SetFrame(int newframe) { #ifdef __i386__ int rtn = FALSE; curr_frame = newframe; if( curr_frame >= nframe ) { curr_frame = nframe - 1; } if( curr_frame < 0 ) { curr_frame = 0; } if( frames && frames[curr_frame].frame.list.sourcefile != NULL ) { DEBUG_List(&frames[curr_frame].frame.list, NULL, 0); } rtn = TRUE; return (rtn); #else /* __i386__ */ return FALSE; #endif /* __i386__ */ } int DEBUG_GetCurrentFrame(struct name_hash ** name, unsigned int * eip, unsigned int * ebp) { #ifdef __i386__ /* * If we don't have a valid backtrace, then just return. */ if( frames == NULL ) { return FALSE; } /* * If we don't know what the current function is, then we also have * nothing to report here. */ if( frames[curr_frame].frame.sym == NULL ) { return FALSE; } *name = frames[curr_frame].frame.sym; *eip = frames[curr_frame].eip; *ebp = frames[curr_frame].ebp; return TRUE; #else /* __i386__ */ return FALSE; #endif /* __i386__ */ }