/* * Debugger break-points handling * * Copyright 1994 Martin von Loewis * Copyright 1995 Alexandre Julliard * Copyright 1999,2000 Eric Pouech */ #include "config.h" #include "debugger.h" #ifdef __i386__ #define DR7_CONTROL_SHIFT 16 #define DR7_CONTROL_SIZE 4 #define DR7_RW_EXECUTE (0x0) #define DR7_RW_WRITE (0x1) #define DR7_RW_READ (0x3) #define DR7_LEN_1 (0x0) #define DR7_LEN_2 (0x4) #define DR7_LEN_4 (0xC) #define DR7_LOCAL_ENABLE_SHIFT 0 #define DR7_GLOBAL_ENABLE_SHIFT 1 #define DR7_ENABLE_SIZE 2 #define DR7_LOCAL_ENABLE_MASK (0x55) #define DR7_GLOBAL_ENABLE_MASK (0xAA) #define DR7_CONTROL_RESERVED (0xFC00) #define DR7_LOCAL_SLOWDOWN (0x100) #define DR7_GLOBAL_SLOWDOWN (0x200) #define DR7_ENABLE_MASK(dr) (1<<(DR7_LOCAL_ENABLE_SHIFT+DR7_ENABLE_SIZE*(dr))) #define IS_DR7_SET(ctrl,dr) ((ctrl)&DR7_ENABLE_MASK(dr)) #define INT3 0xcc /* int 3 opcode */ #endif #define MAX_BREAKPOINTS 100 static DBG_BREAKPOINT breakpoints[MAX_BREAKPOINTS]; static int next_bp = 1; /* breakpoint 0 is reserved for step-over */ /*********************************************************************** * DEBUG_IsStepOverInstr * * Determine if the instruction at CS:EIP is an instruction that * we need to step over (like a call or a repetitive string move). */ static BOOL DEBUG_IsStepOverInstr(void) { #ifdef __i386__ BYTE* instr; BYTE ch; DBG_ADDR addr; addr.seg = DEBUG_context.SegCs; addr.off = DEBUG_context.Eip; /* FIXME: old code was using V86BASE(DEBUG_context) * instead of passing thru DOSMEM_MemoryBase */ instr = (BYTE*)DEBUG_ToLinear(&addr); for (;;) { if (!DEBUG_READ_MEM(instr, &ch, sizeof(ch))) return FALSE; switch (ch) { /* Skip all prefixes */ case 0x2e: /* cs: */ case 0x36: /* ss: */ case 0x3e: /* ds: */ case 0x26: /* es: */ case 0x64: /* fs: */ case 0x65: /* gs: */ case 0x66: /* opcode size prefix */ case 0x67: /* addr size prefix */ case 0xf0: /* lock */ case 0xf2: /* repne */ case 0xf3: /* repe */ instr++; continue; /* Handle call instructions */ case 0xcd: /* int */ case 0xe8: /* call */ case 0x9a: /* lcall : */ return TRUE; case 0xff: /* call */ if (!DEBUG_READ_MEM(instr + 1, &ch, sizeof(ch))) return FALSE; return (((ch & 0x38) == 0x10) || ((ch & 0x38) == 0x18)); /* Handle string instructions */ case 0x6c: /* insb */ case 0x6d: /* insw */ case 0x6e: /* outsb */ case 0x6f: /* outsw */ case 0xa4: /* movsb */ case 0xa5: /* movsw */ case 0xa6: /* cmpsb */ case 0xa7: /* cmpsw */ case 0xaa: /* stosb */ case 0xab: /* stosw */ case 0xac: /* lodsb */ case 0xad: /* lodsw */ case 0xae: /* scasb */ case 0xaf: /* scasw */ return TRUE; default: return FALSE; } } #else return FALSE; #endif } /*********************************************************************** * DEBUG_IsFctReturn * * Determine if the instruction at CS:EIP is an instruction that * is a function return. */ BOOL DEBUG_IsFctReturn(void) { #ifdef __i386__ BYTE* instr; BYTE ch; DBG_ADDR addr; addr.seg = DEBUG_context.SegCs; addr.off = DEBUG_context.Eip; /* FIXME: old code was using V86BASE(DEBUG_context) * instead of passing thru DOSMEM_MemoryBase */ instr = (BYTE*)DEBUG_ToLinear(&addr); if (!DEBUG_READ_MEM(instr, &ch, sizeof(ch))) return FALSE; return (ch == 0xc2) || (ch == 0xc3); #else return FALSE; #endif } /*********************************************************************** * DEBUG_SetBreakpoints * * Set or remove all the breakpoints. */ void DEBUG_SetBreakpoints( BOOL set ) { int i; #ifdef __i386__ DEBUG_context.Dr7 &= ~DR7_LOCAL_ENABLE_MASK; #endif for (i = 0; i < next_bp; i++) { if (!(breakpoints[i].refcount && breakpoints[i].enabled)) continue; switch (breakpoints[i].type) { case DBG_BREAK: { #ifdef __i386__ char ch = set ? INT3 : breakpoints[i].u.b.opcode; if (!DEBUG_WRITE_MEM( (void*)DEBUG_ToLinear(&breakpoints[i].addr), &ch, sizeof(ch) )) { DEBUG_Printf(DBG_CHN_MESG, "Invalid address for breakpoint %d, disabling it\n", i); breakpoints[i].enabled = FALSE; } #endif } break; case DBG_WATCH: if (set) { #ifdef __i386__ DWORD bits; int reg = breakpoints[i].u.w.reg; LPDWORD lpdr = NULL; switch (reg) { case 0: lpdr = &DEBUG_context.Dr0; break; case 1: lpdr = &DEBUG_context.Dr1; break; case 2: lpdr = &DEBUG_context.Dr2; break; case 3: lpdr = &DEBUG_context.Dr3; break; default: RaiseException(DEBUG_STATUS_INTERNAL_ERROR, 0, 0, NULL); } *lpdr = DEBUG_ToLinear(&breakpoints[i].addr); bits = (breakpoints[i].u.w.rw) ? DR7_RW_WRITE : DR7_RW_READ; switch (breakpoints[i].u.w.len + 1) { case 4: bits |= DR7_LEN_4; break; case 2: bits |= DR7_LEN_2; break; case 1: bits |= DR7_LEN_1; break; default: RaiseException(DEBUG_STATUS_INTERNAL_ERROR, 0, 0, NULL); } DEBUG_context.Dr7 &= ~(0x0F << (DR7_CONTROL_SHIFT + DR7_CONTROL_SIZE * reg)); DEBUG_context.Dr7 |= bits << (DR7_CONTROL_SHIFT + DR7_CONTROL_SIZE * reg); DEBUG_context.Dr7 |= DR7_ENABLE_MASK(reg) | DR7_LOCAL_SLOWDOWN; #endif } break; } } } /*********************************************************************** * DEBUG_FindBreakpoint * * Find the breakpoint for a given address. Return the breakpoint * number or -1 if none. * If type is DBG_BREAKPOINT, addr is a complete addr * If type is DBG_WATCHPOINT, only addr.off is meaningful and contains * linear address */ static int DEBUG_FindBreakpoint( const DBG_ADDR *addr, int type ) { int i; for (i = 0; i < next_bp; i++) { if (breakpoints[i].refcount && breakpoints[i].enabled && breakpoints[i].type == type ) { if ((type == DBG_BREAK && breakpoints[i].addr.seg == addr->seg && breakpoints[i].addr.off == addr->off) || (type == DBG_WATCH && DEBUG_ToLinear(&breakpoints[i].addr) == addr->off)) return i; } } return -1; } /*********************************************************************** * DEBUG_InitXPoint * * Find an empty slot in BP table to add a new break/watch point */ static int DEBUG_InitXPoint(int type, DBG_ADDR* addr) { int num; for (num = (next_bp < MAX_BREAKPOINTS) ? next_bp++ : 1; num < MAX_BREAKPOINTS; num++) { if (breakpoints[num].refcount == 0) { breakpoints[num].refcount = 1; breakpoints[num].enabled = TRUE; breakpoints[num].type = type; breakpoints[num].skipcount = 0; breakpoints[num].addr = *addr; breakpoints[num].is32 = 1; #ifdef __i386__ if (addr->seg) { switch (DEBUG_GetSelectorType( addr->seg )) { case 32: break; case 16: breakpoints[num].is32 = 0; break; default: RaiseException(DEBUG_STATUS_INTERNAL_ERROR, 0, 0, NULL); } } #endif return num; } } DEBUG_Printf( DBG_CHN_MESG, "Too many breakpoints. Please delete some.\n" ); return -1; } /*********************************************************************** * DEBUG_GetWatchedValue * * Returns the value watched by watch point 'num'. */ static BOOL DEBUG_GetWatchedValue( int num, LPDWORD val ) { BYTE buf[4]; if (!DEBUG_READ_MEM((void*)DEBUG_ToLinear(&breakpoints[num].addr), buf, breakpoints[num].u.w.len + 1)) return FALSE; switch (breakpoints[num].u.w.len + 1) { case 4: *val = *(DWORD*)buf; break; case 2: *val = *(WORD*)buf; break; case 1: *val = *(BYTE*)buf; break; default: RaiseException(DEBUG_STATUS_INTERNAL_ERROR, 0, 0, NULL); } return TRUE; } /*********************************************************************** * DEBUG_AddBreakpoint * * Add a breakpoint. */ void DEBUG_AddBreakpoint( const DBG_VALUE *_value, BOOL (*func)(void) ) { DBG_VALUE value = *_value; int num; unsigned int seg2; BYTE ch; assert(_value->cookie == DV_TARGET || _value->cookie == DV_HOST); #ifdef __i386__ DEBUG_FixAddress( &value.addr, DEBUG_context.SegCs ); #endif if( value.type != NULL && value.type == DEBUG_TypeIntConst ) { /* * We know that we have the actual offset stored somewhere * else in 32-bit space. Grab it, and we * should be all set. */ seg2 = value.addr.seg; value.addr.seg = 0; value.addr.off = DEBUG_GetExprValue(&value, NULL); value.addr.seg = seg2; } if ((num = DEBUG_FindBreakpoint(&value.addr, DBG_BREAK)) >= 1) { breakpoints[num].refcount++; return; } if (!DEBUG_READ_MEM_VERBOSE((void*)DEBUG_ToLinear( &value.addr ), &ch, sizeof(ch))) return; if ((num = DEBUG_InitXPoint(DBG_BREAK, &value.addr)) == -1) return; breakpoints[num].u.b.opcode = ch; breakpoints[num].u.b.func = func; DEBUG_Printf( DBG_CHN_MESG, "Breakpoint %d at ", num ); DEBUG_PrintAddress( &breakpoints[num].addr, breakpoints[num].is32 ? 32 : 16, TRUE ); DEBUG_Printf( DBG_CHN_MESG, "\n" ); } /*********************************************************************** * DEBUG_AddWatchpoint * * Add a watchpoint. */ void DEBUG_AddWatchpoint( const DBG_VALUE *_value, BOOL is_write ) { DBG_VALUE value = *_value; int num, reg = -1; unsigned seg2; DWORD mask = 0; assert(_value->cookie == DV_TARGET || _value->cookie == DV_HOST); #ifdef __i386__ DEBUG_FixAddress( &value.addr, DEBUG_context.SegCs ); #endif if ( value.type != NULL && value.type == DEBUG_TypeIntConst ) { /* * We know that we have the actual offset stored somewhere * else in 32-bit space. Grab it, and we * should be all set. */ seg2 = value.addr.seg; value.addr.seg = 0; value.addr.off = DEBUG_GetExprValue(&value, NULL); value.addr.seg = seg2; } for (num = 1; num < next_bp; num++) { if (breakpoints[num].refcount && breakpoints[num].enabled && breakpoints[num].type == DBG_WATCH) { mask |= (1 << breakpoints[num].u.w.reg); } } #ifdef __i386__ for (reg = 0; reg < 4 && (mask & (1 << reg)); reg++); if (reg == 4) { DEBUG_Printf(DBG_CHN_MESG, "All i386 hardware watchpoints have been set. Delete some\n"); return; } #endif if ((num = DEBUG_InitXPoint(DBG_WATCH, &value.addr)) == -1) return; breakpoints[num].u.w.len = 4 - 1; if (_value->type && DEBUG_GetObjectSize(_value->type) < 4) breakpoints[num].u.w.len = 2 - 1; if (!DEBUG_GetWatchedValue( num, &breakpoints[num].u.w.oldval)) { DEBUG_Printf(DBG_CHN_MESG, "Bad address. Watchpoint not set\n"); breakpoints[num].refcount = 0; } breakpoints[num].u.w.rw = (is_write) ? TRUE : FALSE; breakpoints[reg].u.w.reg = reg; DEBUG_Printf( DBG_CHN_MESG, "Watchpoint %d at ", num ); DEBUG_PrintAddress( &breakpoints[num].addr, breakpoints[num].is32 ? 32:16, TRUE ); DEBUG_Printf( DBG_CHN_MESG, "\n" ); } /*********************************************************************** * DEBUG_DelBreakpoint * * Delete a breakpoint. */ void DEBUG_DelBreakpoint( int num ) { if ((num <= 0) || (num >= next_bp) || breakpoints[num].refcount == 0) { DEBUG_Printf( DBG_CHN_MESG, "Invalid breakpoint number %d\n", num ); return; } if (--breakpoints[num].refcount > 0) return; if( breakpoints[num].condition != NULL ) { DEBUG_FreeExpr(breakpoints[num].condition); breakpoints[num].condition = NULL; } breakpoints[num].enabled = FALSE; breakpoints[num].refcount = 0; breakpoints[num].skipcount = 0; } /*********************************************************************** * DEBUG_EnableBreakpoint * * Enable or disable a break point. */ void DEBUG_EnableBreakpoint( int num, BOOL enable ) { if ((num <= 0) || (num >= next_bp) || breakpoints[num].refcount == 0) { DEBUG_Printf( DBG_CHN_MESG, "Invalid breakpoint number %d\n", num ); return; } breakpoints[num].enabled = (enable) ? TRUE : FALSE; breakpoints[num].skipcount = 0; } /*********************************************************************** * DEBUG_FindTriggeredWatchpoint * * Lookup the watchpoints to see if one has been triggered * Return >= (watch point index) if one is found and *oldval is set to * the value watched before the TRAP * Return -1 if none found (*oldval is undetermined) * * Unfortunately, Linux does *NOT* (A REAL PITA) report with ptrace * the DR6 register value, so we have to look with our own need the * cause of the TRAP. * -EP */ static int DEBUG_FindTriggeredWatchpoint(LPDWORD oldval) { int i; int found = -1; /* Method 1 => get triggered watchpoint from context (doesn't work on Linux * 2.2.x) */ for (i = 0; i < next_bp; i++) { #ifdef __i386__ DWORD val = 0; if (breakpoints[i].refcount && breakpoints[i].enabled && breakpoints[i].type == DBG_WATCH && (DEBUG_context.Dr6 & (1 << breakpoints[i].u.w.reg))) { DEBUG_context.Dr6 &= ~(1 << breakpoints[i].u.w.reg); *oldval = breakpoints[i].u.w.oldval; if (DEBUG_GetWatchedValue(i, &val)) { breakpoints[i].u.w.oldval = val; return i; } } #endif } /* Method 1 failed, trying method2 */ /* Method 2 => check if value has changed among registered watchpoints * this really sucks, but this is how gdb 4.18 works on my linux box * -EP */ for (i = 0; i < next_bp; i++) { #ifdef __i386__ DWORD val = 0; if (breakpoints[i].refcount && breakpoints[i].enabled && breakpoints[i].type == DBG_WATCH && DEBUG_GetWatchedValue(i, &val)) { *oldval = breakpoints[i].u.w.oldval; if (val != *oldval) { DEBUG_context.Dr6 &= ~(1 << breakpoints[i].u.w.reg); breakpoints[i].u.w.oldval = val; found = i; /* cannot break, because two watch points may have been triggered on * the same acces * only one will be reported to the user (FIXME ?) */ } } #endif } return found; } /*********************************************************************** * DEBUG_InfoBreakpoints * * Display break points information. */ void DEBUG_InfoBreakpoints(void) { int i; DEBUG_Printf( DBG_CHN_MESG, "Breakpoints:\n" ); for (i = 1; i < next_bp; i++) { if (breakpoints[i].refcount && breakpoints[i].type == DBG_BREAK) { DEBUG_Printf( DBG_CHN_MESG, "%d: %c ", i, breakpoints[i].enabled ? 'y' : 'n'); DEBUG_PrintAddress( &breakpoints[i].addr, breakpoints[i].is32 ? 32 : 16, TRUE); DEBUG_Printf( DBG_CHN_MESG, " (%u)\n", breakpoints[i].refcount ); if( breakpoints[i].condition != NULL ) { DEBUG_Printf(DBG_CHN_MESG, "\t\tstop when "); DEBUG_DisplayExpr(breakpoints[i].condition); DEBUG_Printf(DBG_CHN_MESG, "\n"); } } } DEBUG_Printf( DBG_CHN_MESG, "Watchpoints:\n" ); for (i = 1; i < next_bp; i++) { if (breakpoints[i].refcount && breakpoints[i].type == DBG_WATCH) { DEBUG_Printf( DBG_CHN_MESG, "%d: %c ", i, breakpoints[i].enabled ? 'y' : 'n'); DEBUG_PrintAddress( &breakpoints[i].addr, breakpoints[i].is32 ? 32 : 16, TRUE); DEBUG_Printf( DBG_CHN_MESG, " on %d byte%s (%c)\n", breakpoints[i].u.w.len + 1, breakpoints[i].u.w.len > 0 ? "s" : "", breakpoints[i].u.w.rw ? 'W' : 'R'); if( breakpoints[i].condition != NULL ) { DEBUG_Printf(DBG_CHN_MESG, "\t\tstop when "); DEBUG_DisplayExpr(breakpoints[i].condition); DEBUG_Printf(DBG_CHN_MESG, "\n"); } } } } /*********************************************************************** * DEBUG_ShallBreak * * Check whether or not the condition (bp / skipcount) of a break/watch * point are met. */ static BOOL DEBUG_ShallBreak( int bpnum ) { if ( breakpoints[bpnum].condition != NULL ) { DBG_VALUE value = DEBUG_EvalExpr(breakpoints[bpnum].condition); if ( value.type == NULL ) { /* * Something wrong - unable to evaluate this expression. */ DEBUG_Printf(DBG_CHN_MESG, "Unable to evaluate expression "); DEBUG_DisplayExpr(breakpoints[bpnum].condition); DEBUG_Printf(DBG_CHN_MESG, "\nTurning off condition\n"); DEBUG_AddBPCondition(bpnum, NULL); } else if( !DEBUG_GetExprValue( &value, NULL) ) { return FALSE; } } if ( breakpoints[bpnum].skipcount > 0 && --breakpoints[bpnum].skipcount > 0 ) return FALSE; return (breakpoints[bpnum].u.b.func) ? (breakpoints[bpnum].u.b.func)() : TRUE; } /*********************************************************************** * DEBUG_ShouldContinue * * Determine if we should continue execution after a SIGTRAP signal when * executing in the given mode. */ BOOL DEBUG_ShouldContinue( DWORD code, enum exec_mode mode, int * count ) { DBG_ADDR addr; int bpnum; DWORD oldval; int wpnum; int addrlen = 32; struct symbol_info syminfo; #ifdef __i386__ /* If not single-stepping, back up over the int3 instruction */ if (code == EXCEPTION_BREAKPOINT) DEBUG_context.Eip--; #endif DEBUG_GetCurrentAddress( &addr ); bpnum = DEBUG_FindBreakpoint( &addr, DBG_BREAK ); breakpoints[0].enabled = FALSE; /* disable the step-over breakpoint */ if ((bpnum != 0) && (bpnum != -1)) { if (!DEBUG_ShallBreak(bpnum)) return TRUE; DEBUG_Printf( DBG_CHN_MESG, "Stopped on breakpoint %d at ", bpnum ); syminfo = DEBUG_PrintAddress( &breakpoints[bpnum].addr, breakpoints[bpnum].is32 ? 32 : 16, TRUE ); DEBUG_Printf( DBG_CHN_MESG, "\n" ); if( syminfo.list.sourcefile != NULL ) DEBUG_List(&syminfo.list, NULL, 0); return FALSE; } wpnum = DEBUG_FindTriggeredWatchpoint(&oldval); if ((wpnum != 0) && (wpnum != -1)) { /* If not single-stepping, do not back up over the int3 instruction */ if (code == EXCEPTION_BREAKPOINT) { #ifdef __i386__ DEBUG_context.Eip++; addr.off++; #endif } if (!DEBUG_ShallBreak(wpnum)) return TRUE; #ifdef __i386__ addrlen = !addr.seg? 32 : DEBUG_GetSelectorType( addr.seg ); #endif DEBUG_Printf(DBG_CHN_MESG, "Stopped on watchpoint %d at ", wpnum); syminfo = DEBUG_PrintAddress( &addr, addrlen, TRUE ); DEBUG_Printf(DBG_CHN_MESG, " values: old=%lu new=%lu\n", oldval, breakpoints[wpnum].u.w.oldval); if (syminfo.list.sourcefile != NULL) DEBUG_List(&syminfo.list, NULL, 0); return FALSE; } /* * If our mode indicates that we are stepping line numbers, * get the current function, and figure out if we are exactly * on a line number or not. */ if( mode == EXEC_STEP_OVER || mode == EXEC_STEP_INSTR ) { if( DEBUG_CheckLinenoStatus(&addr) == AT_LINENUMBER ) { (*count)--; } } else if( mode == EXEC_STEPI_OVER || mode == EXEC_STEPI_INSTR ) { (*count)--; } if( *count > 0 || mode == EXEC_FINISH ) { /* * We still need to execute more instructions. */ return TRUE; } /* * If we are about to stop, then print out the source line if we * have it. */ if (mode != EXEC_CONT && mode != EXEC_PASS && mode != EXEC_FINISH) { DEBUG_FindNearestSymbol( &addr, TRUE, NULL, 0, &syminfo.list); if( syminfo.list.sourcefile != NULL ) { DEBUG_List(&syminfo.list, NULL, 0); } } #ifdef __i386__ /* If there's no breakpoint and we are not single-stepping, then we */ /* must have encountered an int3 in the Windows program; let's skip it. */ if ((bpnum == -1) && code == EXCEPTION_BREAKPOINT) DEBUG_context.Eip++; #endif /* no breakpoint, continue if in continuous mode */ return (mode == EXEC_CONT || mode == EXEC_PASS || mode == EXEC_FINISH); } /*********************************************************************** * DEBUG_SuspendExecution * * Remove all breakpoints before entering the debug loop */ void DEBUG_SuspendExecution( void ) { DEBUG_SetBreakpoints( FALSE ); breakpoints[0] = DEBUG_CurrThread->stepOverBP; } /*********************************************************************** * DEBUG_RestartExecution * * Set the breakpoints to the correct state to restart execution * in the given mode. */ enum exec_mode DEBUG_RestartExecution( enum exec_mode mode, int count ) { DBG_ADDR addr; DBG_ADDR addr2; int bp; int delta; int status; enum exec_mode ret_mode; DWORD instr; unsigned char ch; DEBUG_GetCurrentAddress( &addr ); /* * This is the mode we will be running in after we finish. We would like * to be able to modify this in certain cases. */ ret_mode = mode; bp = DEBUG_FindBreakpoint( &addr, DBG_BREAK ); if ( bp != -1 && bp != 0) { /* * If we have set a new value, then save it in the BP number. */ if( count != 0 && mode == EXEC_CONT ) { breakpoints[bp].skipcount = count; } mode = EXEC_STEPI_INSTR; /* If there's a breakpoint, skip it */ } else { if( mode == EXEC_CONT && count > 1 ) { DEBUG_Printf(DBG_CHN_MESG, "Not stopped at any breakpoint; argument ignored.\n"); } } if( mode == EXEC_FINISH && DEBUG_IsFctReturn() ) { mode = ret_mode = EXEC_STEPI_INSTR; } instr = DEBUG_ToLinear( &addr ); DEBUG_READ_MEM((void*)instr, &ch, sizeof(ch)); /* * See if the function we are stepping into has debug info * and line numbers. If not, then we step over it instead. * FIXME - we need to check for things like thunks or trampolines, * as the actual function may in fact have debug info. */ if( ch == 0xe8 ) { DEBUG_READ_MEM((void*)(instr + 1), &delta, sizeof(delta)); addr2 = addr; DEBUG_Disasm(&addr2, FALSE); addr2.off += delta; status = DEBUG_CheckLinenoStatus(&addr2); /* * Anytime we have a trampoline, step over it. */ if( ((mode == EXEC_STEP_OVER) || (mode == EXEC_STEPI_OVER)) && status == FUNC_IS_TRAMPOLINE ) { #if 0 DEBUG_Printf(DBG_CHN_MESG, "Not stepping into trampoline at %x (no lines)\n", addr2.off); #endif mode = EXEC_STEP_OVER_TRAMPOLINE; } if( mode == EXEC_STEP_INSTR && status == FUNC_HAS_NO_LINES ) { #if 0 DEBUG_Printf(DBG_CHN_MESG, "Not stepping into function at %x (no lines)\n", addr2.off); #endif mode = EXEC_STEP_OVER; } } if( mode == EXEC_STEP_INSTR ) { if( DEBUG_CheckLinenoStatus(&addr) == FUNC_HAS_NO_LINES ) { DEBUG_Printf(DBG_CHN_MESG, "Single stepping until exit from function, \n"); DEBUG_Printf(DBG_CHN_MESG, "which has no line number information.\n"); ret_mode = mode = EXEC_FINISH; } } switch(mode) { case EXEC_CONT: /* Continuous execution */ case EXEC_PASS: /* Continue, passing exception */ #ifdef __i386__ DEBUG_context.EFlags &= ~STEP_FLAG; #endif DEBUG_SetBreakpoints( TRUE ); break; case EXEC_STEP_OVER_TRAMPOLINE: /* * This is the means by which we step over our conversion stubs * in callfrom*.s and callto*.s. We dig the appropriate address * off the stack, and we set the breakpoint there instead of the * address just after the call. */ #ifdef __i386__ DEBUG_READ_MEM((void*)(DEBUG_context.Esp + 2 * sizeof(unsigned int)), &addr.off, sizeof(addr.off)); DEBUG_context.EFlags &= ~STEP_FLAG; #endif breakpoints[0].addr = addr; breakpoints[0].enabled = TRUE; breakpoints[0].refcount = 1; breakpoints[0].skipcount = 0; DEBUG_READ_MEM((void*)DEBUG_ToLinear( &addr ), &breakpoints[0].u.b.opcode, sizeof(char)); DEBUG_SetBreakpoints( TRUE ); break; case EXEC_FINISH: case EXEC_STEPI_OVER: /* Stepping over a call */ case EXEC_STEP_OVER: /* Stepping over a call */ if (DEBUG_IsStepOverInstr()) { #ifdef __i386__ DEBUG_context.EFlags &= ~STEP_FLAG; #endif DEBUG_Disasm(&addr, FALSE); breakpoints[0].addr = addr; breakpoints[0].enabled = TRUE; breakpoints[0].refcount = 1; breakpoints[0].skipcount = 0; DEBUG_READ_MEM((void*)DEBUG_ToLinear( &addr ), &breakpoints[0].u.b.opcode, sizeof(char)); DEBUG_SetBreakpoints( TRUE ); break; } /* else fall through to single-stepping */ case EXEC_STEP_INSTR: /* Single-stepping an instruction */ case EXEC_STEPI_INSTR: /* Single-stepping an instruction */ #ifdef __i386__ DEBUG_context.EFlags |= STEP_FLAG; #endif break; case EXEC_KILL: break; default: RaiseException(DEBUG_STATUS_INTERNAL_ERROR, 0, 0, NULL); } DEBUG_CurrThread->stepOverBP = breakpoints[0]; return ret_mode; } int DEBUG_AddBPCondition(int num, struct expr * exp) { if ((num <= 0) || (num >= next_bp) || !breakpoints[num].refcount) { DEBUG_Printf( DBG_CHN_MESG, "Invalid breakpoint number %d\n", num ); return FALSE; } if( breakpoints[num].condition != NULL ) { DEBUG_FreeExpr(breakpoints[num].condition); breakpoints[num].condition = NULL; } if( exp != NULL ) { breakpoints[num].condition = DEBUG_CloneExpr(exp); } return TRUE; }