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/* SPDX-License-Identifier: Unlicense
*/
#include "gdbremote_parser.hpp"
#include "utils.hpp"
#include <cctype>
#include <cassert>
#include <cstring>
using namespace GDBRemote;
enum class TokenType: uint8_t {
kUnknown = 0,
kSeparatorComma,
kSeparatorColon,
kSeparatorSemicolon,
kHexNumeric,
kArbitrary,
};
static inline bool isseparator(uint8_t byte)
{
return ':' == byte || ';' == byte || ',' == byte;
}
static inline TokenType separatorTypeFromByte(uint8_t byte)
{
if (':' == byte) return TokenType::kSeparatorColon;
if (';' == byte) return TokenType::kSeparatorSemicolon;
return TokenType::kSeparatorComma;
}
struct Token {
TokenType type{};
std::string data{};
static std::vector<Token> Tokenize(
const std::string& packet_data, const std::string& command)
{
if (packet_data.length() == 0) return std::vector<Token>{};
std::vector<Token> tokens{};
const size_t cmdlen = command.length();
if (cmdlen > 0) {
tokens.push_back(Token{TokenType::kArbitrary, command});
}
TokenType type{};
size_t i{command.length()}, offset{command.length()};
for (; i < packet_data.length(); i++) {
assert(type != TokenType::kSeparatorColon);
assert(type != TokenType::kSeparatorSemicolon);
assert(type != TokenType::kSeparatorComma);
const uint8_t byte = packet_data[i];
if (isseparator(byte)) {
if (i > offset) {
assert(type != TokenType::kUnknown);
tokens.push_back(Token{type, packet_data.substr(offset, i - offset)});
offset = i;
}
tokens.push_back(Token{
separatorTypeFromByte(byte),
packet_data.substr(offset, 1),
});
offset++;
type = TokenType::kUnknown;
} else if (isxdigit(byte)) {
if (type != TokenType::kArbitrary) {
type = TokenType::kHexNumeric;
}
} else {
type = TokenType::kArbitrary;
}
}
if (i > offset) {
assert(type != TokenType::kUnknown);
tokens.push_back(Token{type, packet_data.substr(offset, i - offset)});
}
return tokens;
}
};
struct Command {
std::string name;
Packet (*parse)(const std::vector<Token>&&);
static Packet parseNone(const std::vector<Token>&&)
{
return Packet::None();
}
static Packet parseQuerySupported(const std::vector<Token>&&)
{
// TODO arguments
return Packet{PacketType::kQuerySupported};
}
static Packet parseQueryHaltReason(const std::vector<Token>&&)
{
return Packet{PacketType::kQueryHaltReason};
}
static Packet parseQueryC(const std::vector<Token>&&)
{
// TODO arguments
return Packet{PacketType::kQueryC};
}
static Packet parseQueryFThreadInfo(const std::vector<Token>&&)
{
return Packet{PacketType::kQueryFThreadInfo};
}
static Packet parseQuerySThreadInfo(const std::vector<Token>&&)
{
return Packet{PacketType::kQuerySThreadInfo};
}
static Packet parseQueryRTOSThreadInfo(const std::vector<Token>&&)
{
// TODO arguments
return Packet{PacketType::kQueryRTOSThreadInfo};
}
static Packet parseQueryAttached(const std::vector<Token>&&)
{
// TODO arguments
return Packet{PacketType::kQueryAttached};
}
static Packet parseQueryTraceStatus(const std::vector<Token>&&)
{
return Packet{PacketType::kQueryTraceStatus};
}
static Packet parseSetThreadForCont(const std::vector<Token>&&)
{
// TODO arguments
return Packet{PacketType::kSetThreadForCont};
}
static Packet parseSetThreadForOps(const std::vector<Token>&&)
{
// TODO arguments
return Packet{PacketType::kSetThreadForOps};
}
static Packet parseMustReplyEmpty(const std::vector<Token>&&)
{
return Packet{PacketType::kVMustReplyEmpty};
}
static Packet parseEnableExtendedMode(const std::vector<Token>&&)
{
return Packet{PacketType::kEnableExtendedMode};
}
static Packet parseInterrupt(const std::vector<Token>&&)
{
return Packet{PacketType::kInterrupt};
}
static Packet parseContinueVCont(const std::vector<Token>&& tokens)
{
const std::string first_arg = tokens[1].data;
// Check if it is "vCont?" command
if (first_arg == "?") {
return Packet{PacketType::kContinueAskSupported};
}
// TODO arguments
return Packet{PacketType::kContinue};
}
static Packet parseContinue(const std::vector<Token>&&)
{
return Packet{PacketType::kContinue};
}
static Packet parseReadMemory(const std::vector<Token>&& tokens)
{
if (tokens.size() < 4)
return Packet::None();
if (tokens[1].type != TokenType::kHexNumeric)
return Packet::None();
if (tokens[2].type != TokenType::kSeparatorComma)
return Packet::None();
if (tokens[3].type != TokenType::kHexNumeric)
return Packet::None();
const std::string& first = tokens[1].data;
const std::string& second = tokens[3].data;
// TODO handle number parsing error (ERANGE)
const uint32_t offset = strtol(first.c_str(), nullptr, 16);
const uint32_t lenght = strtol(second.c_str(), nullptr, 16);
return Packet{
PacketType::kReadMemory,
std::make_unique<const PacketDataReadMemory>(offset, lenght),
};
}
static Packet parseWriteMemory(const std::vector<Token>&& tokens)
{
if (tokens.size() < 6)
return Packet::None();
if (tokens[1].type != TokenType::kHexNumeric)
return Packet::None();
if (tokens[2].type != TokenType::kSeparatorComma)
return Packet::None();
if (tokens[3].type != TokenType::kHexNumeric)
return Packet::None();
// XXX Is data parameter always present or is it optional?
if (tokens[4].type != TokenType::kSeparatorColon)
return Packet::None();
if (tokens[5].type != TokenType::kHexNumeric)
return Packet::None();
// TODO handle number parsing error (ERANGE)
const std::string& first = tokens[1].data;
const std::string& second = tokens[3].data;
const std::string& data_raw = tokens[5].data;
const size_t data_len = data_raw.length()/2;
std::vector<uint8_t> data(data_len);
assert(data.size() == data_len);
for (size_t i = 0; i < data_len; i++) {
data[i] = Utils::ParseByteFromHexChars(data_raw[i*2], data_raw[i*2+1]);
}
const uint32_t offset = strtol(first.c_str(), nullptr, 16);
const uint32_t lenght = strtol(second.c_str(), nullptr, 16);
return Packet{
PacketType::kWriteMemory,
std::make_unique<const PacketDataWriteMemory>(offset, lenght, std::move(data)),
};
}
static Packet parseReadGeneralRegisters(const std::vector<Token>&&)
{
return Packet{PacketType::kReadGeneralRegisters};
}
static Packet parseStep(const std::vector<Token>&&)
{
return Packet{PacketType::kStep};
}
static Packet parseSetOrDeleteBreakpoint(const std::vector<Token>&& tokens)
{
if (tokens.size() < 6)
return Packet::None();
if (tokens[1].type != TokenType::kHexNumeric)
return Packet::None();
if (tokens[2].type != TokenType::kSeparatorComma)
return Packet::None();
if (tokens[3].type != TokenType::kHexNumeric)
return Packet::None();
// XXX Is third parameter always present or is it optional?
if (tokens[4].type != TokenType::kSeparatorComma)
return Packet::None();
if (tokens[5].type != TokenType::kHexNumeric)
return Packet::None();
const std::string& first = tokens[1].data;
const std::string& second = tokens[3].data;
const std::string& third = tokens[5].data;
const uint32_t type_num = strtol(first.c_str(), nullptr, 16);
const auto type =
(type_num >= static_cast<uint32_t>(BreakpointType::kMin) &&
type_num < static_cast<uint32_t>(BreakpointType::kUnsupported))
? static_cast<BreakpointType>(type_num)
: BreakpointType::kMin;
const uint32_t offset = strtol(second.c_str(), nullptr, 16);
const uint32_t length = strtol(third.c_str(), nullptr, 16);
return Packet{
tokens[0].data[0] == 'Z' ? PacketType::kSetBreakpoint : PacketType::kDeleteBreakpoint,
std::make_unique<const PacketDataBreakpoint>(type, offset, length),
};
}
};
static const Command commands[] = {
{ "qSupported", Command::parseQuerySupported },
{ "?", Command::parseQueryHaltReason },
{ "qC", Command::parseQueryC },
{ "qfThreadInfo", Command::parseQueryFThreadInfo },
{ "qsThreadInfo", Command::parseQuerySThreadInfo },
{ "qL", Command::parseQueryRTOSThreadInfo },
{ "qAttached", Command::parseQueryAttached },
{ "qTStatus", Command::parseQueryTraceStatus },
{ "Hc", Command::parseSetThreadForCont },
{ "Hg", Command::parseSetThreadForOps },
{ "vMustReplyEmpty", Command::parseMustReplyEmpty },
{ "!", Command::parseEnableExtendedMode },
{ "\x03", Command::parseInterrupt },
{ "vCtrlC", Command::parseInterrupt },
{ "vCont", Command::parseContinueVCont },
{ "c", Command::parseContinue },
{ "m", Command::parseReadMemory },
{ "M", Command::parseWriteMemory },
{ "g", Command::parseReadGeneralRegisters },
{ "s", Command::parseStep },
{ "Z", Command::parseSetOrDeleteBreakpoint },
{ "z", Command::parseSetOrDeleteBreakpoint },
};
Packet Packet::Parse(std::string packet_data)
{
for (const auto& command: commands) {
const auto cmdlen = command.name.length();
const auto packetlen = packet_data.length();
if (cmdlen <= packetlen && 0 == memcmp(&command.name[0], &packet_data[0], cmdlen)) {
const auto tokens = Token::Tokenize(packet_data, command.name);
return command.parse(std::move(tokens));
}
}
return Packet::None();
}
std::unique_ptr<ExchangeResult> ExchangeContext::Consume(uint8_t byte)
{
_last_packet += byte;
switch (_parsing_state) {
case ParsingState::kIdle:
if (byte == '$') {
transit(ParsingState::kPacketData);
} else if (byte == 0x03) {
_last_packet = std::string(1, 0x03);
return ExchangeResult::Ack(_last_packet);
}
break;
case ParsingState::kPacketData:
if (byte == '#') {
transit(ParsingState::kChecksum1);
} else {
_checksum = (_checksum + byte) & 0xff;
_packet_data += byte;
}
break;
case ParsingState::kPacketDataBinSecond:
// TODO escaped and binary data
break;
case ParsingState::kChecksum1:
if (isxdigit(byte)) {
transit(ParsingState::kChecksum2);
_given_checksum_first_byte = byte;
} else {
transit(ParsingState::kIdle);
return ExchangeResult::Nak();
}
break;
case ParsingState::kChecksum2:
const uint8_t checksum = _checksum;
std::string packet_data(std::move(_packet_data));
transit(ParsingState::kIdle);
if (isxdigit(byte)) {
const uint8_t given_checksum =
Utils::ParseByteFromHexChars(_given_checksum_first_byte, byte);
if (given_checksum == checksum) {
return ExchangeResult::Ack(packet_data);
} else {
printf(
"Checksum mismatch: received=%02x, expected=%02x\n",
given_checksum, checksum);
printf("Packet data: \"%s\"\n", packet_data.c_str());
return ExchangeResult::Nak();
}
} else {
return ExchangeResult::Nak();
}
break;
}
return nullptr;
}
static inline uint8_t CalcPacketDataChecksum(std::string packet) {
uint8_t checksum{};
for (const auto c: packet) {
checksum = (checksum + c) & 0xff;
}
return checksum;
}
std::string ExchangeContext::WrapDataToSend(std::string packet)
{
const uint8_t checksum = CalcPacketDataChecksum(packet);
const uint8_t c1 = (checksum >> 4) & 0x0f;
const uint8_t c2 = checksum& 0x0f;
const char checksum_str[2] = {
static_cast<char>(c1 < 0xa ? c1 + '0' : c1 + ('a' - 0xa)),
static_cast<char>(c2 < 0xa ? c2 + '0' : c2 + ('a' - 0xa)),
};
return "$" + packet + "#" + std::string(checksum_str, 2);
}
void ExchangeContext::transit(ParsingState new_state)
{
if (0) {
printf(
"GDBRemote ParsingState: %s -> %s\n",
parsingStateToString(_parsing_state),
parsingStateToString(new_state));
}
switch (new_state) {
case ParsingState::kIdle:
_checksum = 0;
_packet_data.clear();
break;
case ParsingState::kPacketData:
_last_packet = "$";
break;
case ParsingState::kPacketDataBinSecond:
break;
case ParsingState::kChecksum1:
break;
case ParsingState::kChecksum2:
break;
}
_parsing_state = new_state;
}
const char* ExchangeContext::parsingStateToString(ParsingState state)
{
switch (state) {
case ParsingState::kIdle:
return "Idle";
case ParsingState::kPacketData:
return "PacketData";
case ParsingState::kPacketDataBinSecond:
return "PacketDataBinSecond";
case ParsingState::kChecksum1:
return "Checksum1";
case ParsingState::kChecksum2:
return "Checksum2";
}
return "<unknown>";
}
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