/* Copyright (c) 2013-2014 Jeffrey Pfau
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include <mgba/internal/debugger/cli-debugger.h>
#include <mgba/internal/debugger/symbols.h>
#include <mgba/core/core.h>
#include <mgba/core/version.h>
#include <mgba/internal/debugger/parser.h>
#include <mgba-util/string.h>
#if ENABLE_SCRIPTING
#include <mgba/core/scripting.h>
#endif
#if !defined(NDEBUG) && !defined(_WIN32)
#include <signal.h>
#endif
#ifdef USE_PTHREADS
#include <pthread.h>
#endif
const char* ERROR_MISSING_ARGS = "Arguments missing"; // TODO: share
const char* ERROR_OVERFLOW = "Arguments overflow";
const char* ERROR_INVALID_ARGS = "Invalid arguments";
#if !defined(NDEBUG) && !defined(_WIN32)
static void _breakInto(struct CLIDebugger*, struct CLIDebugVector*);
#endif
static void _continue(struct CLIDebugger*, struct CLIDebugVector*);
static void _disassemble(struct CLIDebugger*, struct CLIDebugVector*);
static void _next(struct CLIDebugger*, struct CLIDebugVector*);
static void _print(struct CLIDebugger*, struct CLIDebugVector*);
static void _printBin(struct CLIDebugger*, struct CLIDebugVector*);
static void _printHex(struct CLIDebugger*, struct CLIDebugVector*);
static void _printStatus(struct CLIDebugger*, struct CLIDebugVector*);
static void _printHelp(struct CLIDebugger*, struct CLIDebugVector*);
static void _quit(struct CLIDebugger*, struct CLIDebugVector*);
static void _readByte(struct CLIDebugger*, struct CLIDebugVector*);
static void _reset(struct CLIDebugger*, struct CLIDebugVector*);
static void _readHalfword(struct CLIDebugger*, struct CLIDebugVector*);
static void _readWord(struct CLIDebugger*, struct CLIDebugVector*);
static void _setBreakpoint(struct CLIDebugger*, struct CLIDebugVector*);
static void _clearBreakpoint(struct CLIDebugger*, struct CLIDebugVector*);
static void _setWatchpoint(struct CLIDebugger*, struct CLIDebugVector*);
static void _setReadWatchpoint(struct CLIDebugger*, struct CLIDebugVector*);
static void _setWriteWatchpoint(struct CLIDebugger*, struct CLIDebugVector*);
static void _trace(struct CLIDebugger*, struct CLIDebugVector*);
static void _writeByte(struct CLIDebugger*, struct CLIDebugVector*);
static void _writeHalfword(struct CLIDebugger*, struct CLIDebugVector*);
static void _writeRegister(struct CLIDebugger*, struct CLIDebugVector*);
static void _writeWord(struct CLIDebugger*, struct CLIDebugVector*);
static void _dumpByte(struct CLIDebugger*, struct CLIDebugVector*);
static void _dumpHalfword(struct CLIDebugger*, struct CLIDebugVector*);
static void _dumpWord(struct CLIDebugger*, struct CLIDebugVector*);
#ifdef ENABLE_SCRIPTING
static void _source(struct CLIDebugger*, struct CLIDebugVector*);
#endif
static struct CLIDebuggerCommandSummary _debuggerCommands[] = {
{ "b", _setBreakpoint, "I", "Set a breakpoint" },
{ "break", _setBreakpoint, "I", "Set a breakpoint" },
{ "c", _continue, "", "Continue execution" },
{ "continue", _continue, "", "Continue execution" },
{ "d", _clearBreakpoint, "I", "Delete a breakpoint" },
{ "delete", _clearBreakpoint, "I", "Delete a breakpoint" },
{ "dis", _disassemble, "Ii", "Disassemble instructions" },
{ "disasm", _disassemble, "Ii", "Disassemble instructions" },
{ "disassemble", _disassemble, "Ii", "Disassemble instructions" },
{ "h", _printHelp, "S", "Print help" },
{ "help", _printHelp, "S", "Print help" },
{ "i", _printStatus, "", "Print the current status" },
{ "info", _printStatus, "", "Print the current status" },
{ "n", _next, "", "Execute next instruction" },
{ "next", _next, "", "Execute next instruction" },
{ "p", _print, "I", "Print a value" },
{ "p/t", _printBin, "I", "Print a value as binary" },
{ "p/x", _printHex, "I", "Print a value as hexadecimal" },
{ "print", _print, "I", "Print a value" },
{ "print/t", _printBin, "I", "Print a value as binary" },
{ "print/x", _printHex, "I", "Print a value as hexadecimal" },
{ "q", _quit, "", "Quit the emulator" },
{ "quit", _quit, "", "Quit the emulator" },
{ "reset", _reset, "", "Reset the emulation" },
{ "r/1", _readByte, "I", "Read a byte from a specified offset" },
{ "r/2", _readHalfword, "I", "Read a halfword from a specified offset" },
{ "r/4", _readWord, "I", "Read a word from a specified offset" },
{ "status", _printStatus, "", "Print the current status" },
{ "trace", _trace, "I", "Trace a fixed number of instructions" },
{ "w", _setWatchpoint, "I", "Set a watchpoint" },
{ "w/1", _writeByte, "II", "Write a byte at a specified offset" },
{ "w/2", _writeHalfword, "II", "Write a halfword at a specified offset" },
{ "w/r", _writeRegister, "SI", "Write a register" },
{ "w/4", _writeWord, "II", "Write a word at a specified offset" },
{ "watch", _setWatchpoint, "I", "Set a watchpoint" },
{ "watch/r", _setReadWatchpoint, "I", "Set a read watchpoint" },
{ "watch/w", _setWriteWatchpoint, "I", "Set a write watchpoint" },
{ "x/1", _dumpByte, "Ii", "Examine bytes at a specified offset" },
{ "x/2", _dumpHalfword, "Ii", "Examine halfwords at a specified offset" },
{ "x/4", _dumpWord, "Ii", "Examine words at a specified offset" },
#ifdef ENABLE_SCRIPTING
{ "source", _source, "S", "Load a script" },
#endif
#if !defined(NDEBUG) && !defined(_WIN32)
{ "!", _breakInto, "", "Break into attached debugger (for developers)" },
#endif
{ 0, 0, 0, 0 }
};
#if !defined(NDEBUG) && !defined(_WIN32)
static void _handleDeath(int sig) {
UNUSED(sig);
printf("No debugger attached!\n");
}
static void _breakInto(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
UNUSED(debugger);
UNUSED(dv);
struct sigaction sa, osa;
sa.sa_handler = _handleDeath;
sigemptyset(&sa.sa_mask);
sigaddset(&sa.sa_mask, SIGTRAP);
sa.sa_flags = SA_RESTART;
sigaction(SIGTRAP, &sa, &osa);
#ifdef USE_PTHREADS
pthread_kill(pthread_self(), SIGTRAP);
#else
kill(getpid(), SIGTRAP);
#endif
sigaction(SIGTRAP, &osa, 0);
}
#endif
static void _continue(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
UNUSED(dv);
debugger->d.state = DEBUGGER_RUNNING;
}
static void _next(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
UNUSED(dv);
debugger->d.core->step(debugger->d.core);
_printStatus(debugger, 0);
}
static void _disassemble(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
debugger->system->disassemble(debugger->system, dv);
}
static void _print(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
for (; dv; dv = dv->next) {
if (dv->segmentValue >= 0) {
debugger->backend->printf(debugger->backend, " $%02X:%04X", dv->segmentValue, dv->intValue);
continue;
}
debugger->backend->printf(debugger->backend, " %u", dv->intValue);
}
debugger->backend->printf(debugger->backend, "\n");
}
static void _printBin(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
for (; dv; dv = dv->next) {
debugger->backend->printf(debugger->backend, " 0b");
int i = 32;
while (i--) {
debugger->backend->printf(debugger->backend, "%u", (dv->intValue >> i) & 1);
}
}
debugger->backend->printf(debugger->backend, "\n");
}
static void _printHex(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
for (; dv; dv = dv->next) {
debugger->backend->printf(debugger->backend, " 0x%08X", dv->intValue);
}
debugger->backend->printf(debugger->backend, "\n");
}
static void _printHelp(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
UNUSED(dv);
if (!dv) {
debugger->backend->printf(debugger->backend, "Generic commands:\n");
int i;
for (i = 0; _debuggerCommands[i].name; ++i) {
debugger->backend->printf(debugger->backend, "%-10s %s\n", _debuggerCommands[i].name, _debuggerCommands[i].summary);
}
if (debugger->system) {
debugger->backend->printf(debugger->backend, "%s commands:\n", debugger->system->platformName);
for (i = 0; debugger->system->platformCommands[i].name; ++i) {
debugger->backend->printf(debugger->backend, "%-10s %s\n", debugger->system->platformCommands[i].name, debugger->system->platformCommands[i].summary);
}
debugger->backend->printf(debugger->backend, "%s commands:\n", debugger->system->name);
for (i = 0; debugger->system->commands[i].name; ++i) {
debugger->backend->printf(debugger->backend, "%-10s %s\n", debugger->system->commands[i].name, debugger->system->commands[i].summary);
}
}
} else {
int i;
for (i = 0; _debuggerCommands[i].name; ++i) {
if (strcmp(_debuggerCommands[i].name, dv->charValue) == 0) {
debugger->backend->printf(debugger->backend, " %s\n", _debuggerCommands[i].summary);
}
}
if (debugger->system) {
for (i = 0; debugger->system->platformCommands[i].name; ++i) {
if (strcmp(debugger->system->platformCommands[i].name, dv->charValue) == 0) {
debugger->backend->printf(debugger->backend, " %s\n", debugger->system->platformCommands[i].summary);
}
}
for (i = 0; debugger->system->commands[i].name; ++i) {
if (strcmp(debugger->system->commands[i].name, dv->charValue) == 0) {
debugger->backend->printf(debugger->backend, " %s\n", debugger->system->commands[i].summary);
}
}
}
}
}
static void _quit(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
UNUSED(dv);
debugger->d.state = DEBUGGER_SHUTDOWN;
}
static void _readByte(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
uint32_t address = dv->intValue;
uint8_t value;
if (dv->segmentValue >= 0) {
value = debugger->d.core->rawRead8(debugger->d.core, address, dv->segmentValue);
} else {
value = debugger->d.core->busRead8(debugger->d.core, address);
}
debugger->backend->printf(debugger->backend, " 0x%02X\n", value);
}
static void _reset(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
UNUSED(dv);
debugger->d.core->reset(debugger->d.core);
_printStatus(debugger, 0);
}
static void _readHalfword(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
uint32_t address = dv->intValue;
uint16_t value;
if (dv->segmentValue >= 0) {
value = debugger->d.core->rawRead16(debugger->d.core, address & -1, dv->segmentValue);
} else {
value = debugger->d.core->busRead16(debugger->d.core, address & ~1);
}
debugger->backend->printf(debugger->backend, " 0x%04X\n", value);
}
static void _readWord(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
uint32_t address = dv->intValue;
uint32_t value;
if (dv->segmentValue >= 0) {
value = debugger->d.core->rawRead32(debugger->d.core, address & -3, dv->segmentValue);
} else {
value = debugger->d.core->busRead32(debugger->d.core, address & ~3);
}
debugger->backend->printf(debugger->backend, " 0x%08X\n", value);
}
static void _writeByte(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || !dv->next) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
if (dv->type != CLIDV_INT_TYPE || dv->next->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_INVALID_ARGS);
return;
}
uint32_t address = dv->intValue;
uint32_t value = dv->next->intValue;
if (value > 0xFF) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_OVERFLOW);
return;
}
if (dv->segmentValue >= 0) {
debugger->d.core->rawWrite8(debugger->d.core, address, value, dv->segmentValue);
} else {
debugger->d.core->busWrite8(debugger->d.core, address, value);
}
}
static void _writeHalfword(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || !dv->next) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
if (dv->type != CLIDV_INT_TYPE || dv->next->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_INVALID_ARGS);
return;
}
uint32_t address = dv->intValue;
uint32_t value = dv->next->intValue;
if (value > 0xFFFF) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_OVERFLOW);
return;
}
if (dv->segmentValue >= 0) {
debugger->d.core->rawWrite16(debugger->d.core, address, value, dv->segmentValue);
} else {
debugger->d.core->busWrite16(debugger->d.core, address, value);
}
}
static void _writeRegister(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || !dv->next) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
if (dv->type != CLIDV_CHAR_TYPE || dv->next->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_INVALID_ARGS);
return;
}
if (!debugger->d.platform->setRegister(debugger->d.platform, dv->charValue, dv->next->intValue)) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_INVALID_ARGS);
}
}
static void _writeWord(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || !dv->next) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
if (dv->type != CLIDV_INT_TYPE || dv->next->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_INVALID_ARGS);
return;
}
uint32_t address = dv->intValue;
uint32_t value = dv->next->intValue;
if (dv->segmentValue >= 0) {
debugger->d.core->rawWrite32(debugger->d.core, address, value, dv->segmentValue);
} else {
debugger->d.core->busWrite32(debugger->d.core, address, value);
}
}
static void _dumpByte(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
uint32_t address = dv->intValue;
uint32_t words = 16;
if (dv->next && dv->next->type == CLIDV_INT_TYPE) {
words = dv->next->intValue;
}
while (words) {
uint32_t line = 16;
if (line > words) {
line = words;
}
debugger->backend->printf(debugger->backend, "0x%08X:", address);
for (; line > 0; --line, ++address, --words) {
uint32_t value;
if (dv->segmentValue >= 0) {
value = debugger->d.core->rawRead8(debugger->d.core, address, dv->segmentValue);
} else {
value = debugger->d.core->busRead8(debugger->d.core, address);
}
debugger->backend->printf(debugger->backend, " %02X", value);
}
debugger->backend->printf(debugger->backend, "\n");
}
}
static void _dumpHalfword(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
uint32_t address = dv->intValue;
uint32_t words = 8;
if (dv->next && dv->next->type == CLIDV_INT_TYPE) {
words = dv->next->intValue;
}
while (words) {
uint32_t line = 8;
if (line > words) {
line = words;
}
debugger->backend->printf(debugger->backend, "0x%08X:", address);
for (; line > 0; --line, address += 2, --words) {
uint32_t value;
if (dv->segmentValue >= 0) {
value = debugger->d.core->rawRead16(debugger->d.core, address, dv->segmentValue);
} else {
value = debugger->d.core->busRead16(debugger->d.core, address);
}
debugger->backend->printf(debugger->backend, " %04X", value);
}
debugger->backend->printf(debugger->backend, "\n");
}
}
static void _dumpWord(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
uint32_t address = dv->intValue;
uint32_t words = 4;
if (dv->next && dv->next->type == CLIDV_INT_TYPE) {
words = dv->next->intValue;
}
while (words) {
uint32_t line = 4;
if (line > words) {
line = words;
}
debugger->backend->printf(debugger->backend, "0x%08X:", address);
for (; line > 0; --line, address += 4, --words) {
uint32_t value;
if (dv->segmentValue >= 0) {
value = debugger->d.core->rawRead32(debugger->d.core, address, dv->segmentValue);
} else {
value = debugger->d.core->busRead32(debugger->d.core, address);
}
debugger->backend->printf(debugger->backend, " %08X", value);
}
debugger->backend->printf(debugger->backend, "\n");
}
}
#ifdef ENABLE_SCRIPTING
static void _source(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv) {
debugger->backend->printf(debugger->backend, "Needs a filename\n");
return;
}
if (debugger->d.bridge && mScriptBridgeLoadScript(debugger->d.bridge, dv->charValue)) {
mScriptBridgeRun(debugger->d.bridge);
} else {
debugger->backend->printf(debugger->backend, "Failed to load script\n");
}
}
#endif
static void _setBreakpoint(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
uint32_t address = dv->intValue;
debugger->d.platform->setBreakpoint(debugger->d.platform, address, dv->segmentValue);
}
static void _setWatchpoint(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
if (!debugger->d.platform->setWatchpoint) {
debugger->backend->printf(debugger->backend, "Watchpoints are not supported by this platform.\n");
return;
}
uint32_t address = dv->intValue;
debugger->d.platform->setWatchpoint(debugger->d.platform, address, dv->segmentValue, WATCHPOINT_RW);
}
static void _setReadWatchpoint(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
if (!debugger->d.platform->setWatchpoint) {
debugger->backend->printf(debugger->backend, "Watchpoints are not supported by this platform.\n");
return;
}
uint32_t address = dv->intValue;
debugger->d.platform->setWatchpoint(debugger->d.platform, address, dv->segmentValue, WATCHPOINT_READ);
}
static void _setWriteWatchpoint(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
if (!debugger->d.platform->setWatchpoint) {
debugger->backend->printf(debugger->backend, "Watchpoints are not supported by this platform.\n");
return;
}
uint32_t address = dv->intValue;
debugger->d.platform->setWatchpoint(debugger->d.platform, address, dv->segmentValue, WATCHPOINT_WRITE);
}
static void _clearBreakpoint(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
uint32_t address = dv->intValue;
debugger->d.platform->clearBreakpoint(debugger->d.platform, address, dv->segmentValue);
if (debugger->d.platform->clearWatchpoint) {
debugger->d.platform->clearWatchpoint(debugger->d.platform, address, dv->segmentValue);
}
}
static void _trace(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
if (!dv || dv->type != CLIDV_INT_TYPE) {
debugger->backend->printf(debugger->backend, "%s\n", ERROR_MISSING_ARGS);
return;
}
char trace[1024];
trace[sizeof(trace) - 1] = '\0';
int i;
for (i = 0; i < dv->intValue; ++i) {
debugger->d.core->step(debugger->d.core);
size_t traceSize = sizeof(trace) - 1;
debugger->d.platform->trace(debugger->d.platform, trace, &traceSize);
if (traceSize + 1 < sizeof(trace)) {
trace[traceSize + 1] = '\0';
}
debugger->backend->printf(debugger->backend, "%s\n", trace);
}
}
static void _printStatus(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
UNUSED(dv);
debugger->system->printStatus(debugger->system);
}
static uint32_t _performOperation(enum Operation operation, uint32_t current, uint32_t next, struct CLIDebugVector* dv) {
switch (operation) {
case OP_ASSIGN:
current = next;
break;
case OP_ADD:
current += next;
break;
case OP_SUBTRACT:
current -= next;
break;
case OP_MULTIPLY:
current *= next;
break;
case OP_DIVIDE:
if (next != 0) {
current /= next;
} else {
dv->type = CLIDV_ERROR_TYPE;
return 0;
}
break;
}
return current;
}
static void _lookupIdentifier(struct mDebugger* debugger, const char* name, struct CLIDebugVector* dv) {
struct CLIDebugger* cliDebugger = (struct CLIDebugger*) debugger;
if (cliDebugger->system) {
uint32_t value;
#ifdef ENABLE_SCRIPTING
if (debugger->bridge && mScriptBridgeLookupSymbol(debugger->bridge, name, &dv->intValue)) {
return;
}
#endif
if (debugger->core->symbolTable && mDebuggerSymbolLookup(debugger->core->symbolTable, name, &dv->intValue, &dv->segmentValue)) {
return;
}
dv->type = CLIDV_INT_TYPE;
if (debugger->platform->getRegister(debugger->platform, name, &dv->intValue)) {
return;
}
value = cliDebugger->system->lookupIdentifier(cliDebugger->system, name, dv);
if (dv->type != CLIDV_ERROR_TYPE) {
dv->intValue = value;
return;
}
}
dv->type = CLIDV_ERROR_TYPE;
}
static void _evaluateParseTree(struct mDebugger* debugger, struct ParseTree* tree, struct CLIDebugVector* dv) {
int32_t lhs, rhs;
switch (tree->token.type) {
case TOKEN_UINT_TYPE:
dv->intValue = tree->token.uintValue;
break;
case TOKEN_SEGMENT_TYPE:
_evaluateParseTree(debugger, tree->lhs, dv);
dv->segmentValue = dv->intValue;
_evaluateParseTree(debugger, tree->rhs, dv);
break;
case TOKEN_OPERATOR_TYPE:
_evaluateParseTree(debugger, tree->lhs, dv);
lhs = dv->intValue;
_evaluateParseTree(debugger, tree->rhs, dv);
rhs = dv->intValue;
dv->intValue = _performOperation(tree->token.operatorValue, lhs, rhs, dv);
break;
case TOKEN_IDENTIFIER_TYPE:
_lookupIdentifier(debugger, tree->token.identifierValue, dv);
break;
case TOKEN_ERROR_TYPE:
default:
dv->type = CLIDV_ERROR_TYPE;
}
}
struct CLIDebugVector* CLIDVParse(struct CLIDebugger* debugger, const char* string, size_t length) {
if (!string || length < 1) {
return 0;
}
struct CLIDebugVector dvTemp = { .type = CLIDV_INT_TYPE, .segmentValue = -1 };
struct LexVector lv = { .next = 0 };
size_t adjusted = lexExpression(&lv, string, length);
if (adjusted > length) {
dvTemp.type = CLIDV_ERROR_TYPE;
lexFree(lv.next);
}
struct ParseTree tree;
parseLexedExpression(&tree, &lv);
if (tree.token.type == TOKEN_ERROR_TYPE) {
dvTemp.type = CLIDV_ERROR_TYPE;
} else {
_evaluateParseTree(&debugger->d, &tree, &dvTemp);
}
parseFree(tree.lhs);
parseFree(tree.rhs);
struct CLIDebugVector* dv = malloc(sizeof(struct CLIDebugVector));
if (dvTemp.type == CLIDV_ERROR_TYPE) {
dv->type = CLIDV_ERROR_TYPE;
dv->next = 0;
} else {
*dv = dvTemp;
}
return dv;
}
struct CLIDebugVector* CLIDVStringParse(struct CLIDebugger* debugger, const char* string, size_t length) {
UNUSED(debugger);
if (!string || length < 1) {
return 0;
}
struct CLIDebugVector dvTemp = { .type = CLIDV_CHAR_TYPE };
dvTemp.charValue = strndup(string, length);
struct CLIDebugVector* dv = malloc(sizeof(struct CLIDebugVector));
*dv = dvTemp;
return dv;
}
static void _DVFree(struct CLIDebugVector* dv) {
struct CLIDebugVector* next;
while (dv) {
next = dv->next;
if (dv->type == CLIDV_CHAR_TYPE) {
free(dv->charValue);
}
free(dv);
dv = next;
}
}
static struct CLIDebugVector* _parseArg(struct CLIDebugger* debugger, const char* args, size_t argsLen, char type) {
struct CLIDebugVector* dv = NULL;
switch (type) {
case 'I':
case 'i':
return CLIDVParse(debugger, args, argsLen);
case 'S':
case 's':
return CLIDVStringParse(debugger, args, argsLen);
case '*':
dv = _parseArg(debugger, args, argsLen, 'I');
if (!dv) {
dv = _parseArg(debugger, args, argsLen, 'S');
}
break;
}
return dv;
}
static int _tryCommands(struct CLIDebugger* debugger, struct CLIDebuggerCommandSummary* commands, const char* command, size_t commandLen, const char* args, size_t argsLen) {
struct CLIDebugVector* dv = NULL;
struct CLIDebugVector* dvLast = NULL;
int i;
const char* name;
for (i = 0; (name = commands[i].name); ++i) {
if (strlen(name) != commandLen) {
continue;
}
if (strncasecmp(name, command, commandLen) == 0) {
if (commands[i].format && args) {
char lastArg = '\0';
int arg;
for (arg = 0; commands[i].format[arg] && argsLen; ++arg) {
while (isspace(args[0]) && argsLen) {
++args;
--argsLen;
}
if (!args[0] || !argsLen) {
debugger->backend->printf(debugger->backend, "Wrong number of arguments\n");
_DVFree(dv);
return 0;
}
size_t adjusted;
const char* next = strchr(args, ' ');
if (next) {
adjusted = next - args;
} else {
adjusted = argsLen;
}
struct CLIDebugVector* dvNext = NULL;
bool nextArgMandatory = false;
if (commands[i].format[arg] == '+') {
dvNext = _parseArg(debugger, args, adjusted, lastArg);
--args;
} else {
nextArgMandatory = isupper(commands[i].format[arg]) || (commands[i].format[arg] == '*');
dvNext = _parseArg(debugger, args, adjusted, commands[i].format[arg]);
}
args += adjusted;
argsLen -= adjusted;
if (!dvNext) {
if (!nextArgMandatory) {
args = NULL;
}
break;
}
if (dvNext->type == CLIDV_ERROR_TYPE) {
debugger->backend->printf(debugger->backend, "Parse error\n");
_DVFree(dv);
return 0;
}
if (dvLast) {
dvLast->next = dvNext;
dvLast = dvNext;
} else {
dv = dvNext;
dvLast = dv;
}
}
}
if (args) {
while (isspace(args[0]) && argsLen) {
++args;
--argsLen;
}
}
if (args && argsLen) {
debugger->backend->printf(debugger->backend, "Wrong number of arguments\n");
_DVFree(dv);
return 0;
}
commands[i].command(debugger, dv);
_DVFree(dv);
return 1;
}
}
return -1;
}
static bool _parse(struct CLIDebugger* debugger, const char* line, size_t count) {
const char* firstSpace = strchr(line, ' ');
size_t cmdLength;
if (firstSpace) {
cmdLength = firstSpace - line;
} else {
cmdLength = count;
}
const char* args = 0;
if (firstSpace) {
args = firstSpace + 1;
}
int result = _tryCommands(debugger, _debuggerCommands, line, cmdLength, args, count - cmdLength - 1);
if (result < 0 && debugger->system) {
result = _tryCommands(debugger, debugger->system->commands, line, cmdLength, args, count - cmdLength - 1);
if (result < 0) {
result = _tryCommands(debugger, debugger->system->platformCommands, line, cmdLength, args, count - cmdLength - 1);
}
}
if (result < 0) {
debugger->backend->printf(debugger->backend, "Command not found\n");
}
return false;
}
static void _commandLine(struct mDebugger* debugger) {
struct CLIDebugger* cliDebugger = (struct CLIDebugger*) debugger;
const char* line;
size_t len;
_printStatus(cliDebugger, 0);
while (debugger->state == DEBUGGER_PAUSED) {
line = cliDebugger->backend->readline(cliDebugger->backend, &len);
if (!line || len == 0) {
debugger->state = DEBUGGER_SHUTDOWN;
return;
}
if (line[0] == '\n') {
line = cliDebugger->backend->historyLast(cliDebugger->backend, &len);
if (line && len) {
_parse(cliDebugger, line, len);
}
} else {
_parse(cliDebugger, line, len);
cliDebugger->backend->historyAppend(cliDebugger->backend, line);
}
}
}
static void _reportEntry(struct mDebugger* debugger, enum mDebuggerEntryReason reason, struct mDebuggerEntryInfo* info) {
struct CLIDebugger* cliDebugger = (struct CLIDebugger*) debugger;
switch (reason) {
case DEBUGGER_ENTER_MANUAL:
case DEBUGGER_ENTER_ATTACHED:
break;
case DEBUGGER_ENTER_BREAKPOINT:
if (info) {
cliDebugger->backend->printf(cliDebugger->backend, "Hit breakpoint at 0x%08X\n", info->address);
} else {
cliDebugger->backend->printf(cliDebugger->backend, "Hit breakpoint\n");
}
break;
case DEBUGGER_ENTER_WATCHPOINT:
if (info) {
if (info->accessType & WATCHPOINT_WRITE) {
cliDebugger->backend->printf(cliDebugger->backend, "Hit watchpoint at 0x%08X: (new value = 0x%08x, old value = 0x%08X)\n", info->address, info->newValue, info->oldValue);
} else {
cliDebugger->backend->printf(cliDebugger->backend, "Hit watchpoint at 0x%08X: (value = 0x%08x)\n", info->address, info->oldValue);
}
} else {
cliDebugger->backend->printf(cliDebugger->backend, "Hit watchpoint\n");
}
break;
case DEBUGGER_ENTER_ILLEGAL_OP:
if (info) {
cliDebugger->backend->printf(cliDebugger->backend, "Hit illegal opcode at 0x%08X: 0x%08X\n", info->address, info->opcode);
} else {
cliDebugger->backend->printf(cliDebugger->backend, "Hit illegal opcode\n");
}
break;
}
}
static void _cliDebuggerInit(struct mDebugger* debugger) {
struct CLIDebugger* cliDebugger = (struct CLIDebugger*) debugger;
cliDebugger->backend->init(cliDebugger->backend);
}
static void _cliDebuggerDeinit(struct mDebugger* debugger) {
struct CLIDebugger* cliDebugger = (struct CLIDebugger*) debugger;
if (cliDebugger->system) {
if (cliDebugger->system->deinit) {
cliDebugger->system->deinit(cliDebugger->system);
}
free(cliDebugger->system);
cliDebugger->system = NULL;
}
if (cliDebugger->backend && cliDebugger->backend->deinit) {
cliDebugger->backend->deinit(cliDebugger->backend);
cliDebugger->backend = NULL;
}
}
static void _cliDebuggerCustom(struct mDebugger* debugger) {
struct CLIDebugger* cliDebugger = (struct CLIDebugger*) debugger;
bool retain = false;
if (cliDebugger->system) {
retain = cliDebugger->system->custom(cliDebugger->system);
}
if (!retain && debugger->state == DEBUGGER_CUSTOM) {
debugger->state = DEBUGGER_RUNNING;
}
}
void CLIDebuggerCreate(struct CLIDebugger* debugger) {
debugger->d.init = _cliDebuggerInit;
debugger->d.deinit = _cliDebuggerDeinit;
debugger->d.custom = _cliDebuggerCustom;
debugger->d.paused = _commandLine;
debugger->d.entered = _reportEntry;
debugger->d.type = DEBUGGER_CLI;
debugger->system = NULL;
debugger->backend = NULL;
}
void CLIDebuggerAttachSystem(struct CLIDebugger* debugger, struct CLIDebuggerSystem* system) {
if (debugger->system) {
if (debugger->system->deinit) {
debugger->system->deinit(debugger->system);
}
free(debugger->system);
}
debugger->system = system;
system->p = debugger;
}
void CLIDebuggerAttachBackend(struct CLIDebugger* debugger, struct CLIDebuggerBackend* backend) {
if (debugger->backend == backend) {
return;
}
if (debugger->backend && debugger->backend->deinit) {
debugger->backend->deinit(debugger->backend);
}
debugger->backend = backend;
backend->p = debugger;
}
bool CLIDebuggerTabComplete(struct CLIDebugger* debugger, const char* token, bool initial, size_t tokenLen) {
size_t cmd = 0;
size_t len;
const char* name = 0;
for (len = 1; len <= tokenLen; ++len) {
for (; (name = _debuggerCommands[cmd].name); ++cmd) {
int cmp = strncasecmp(name, token, len);
if (cmp > 0) {
return false;
}
if (cmp == 0) {
break;
}
}
}
if (!name) {
return false;
}
if (_debuggerCommands[cmd + 1].name && strlen(_debuggerCommands[cmd + 1].name) >= len && name[len - 1] == _debuggerCommands[cmd + 1].name[len - 1]) {
--len;
const char* next = 0;
int i;
for (i = cmd + 1; _debuggerCommands[i].name; ++i) {
if (strncasecmp(name, _debuggerCommands[i].name, len)) {
break;
}
next = _debuggerCommands[i].name;
}
if (!next) {
return false;
}
for (; name[len]; ++len) {
if (name[len] != next[len]) {
break;
}
char out[2] = { name[len], '\0' };
debugger->backend->lineAppend(debugger->backend, out);
}
return true;
}
name += len - 1;
debugger->backend->lineAppend(debugger->backend, name);
debugger->backend->lineAppend(debugger->backend, " ");
return true;
}