Duckstation/src/core/gdb_protocol.cpp

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// SPDX-FileCopyrightText: 2019-2022 Connor McLaughlin <stenzek@gmail.com> and contributors.
// SPDX-License-Identifier: (GPL-3.0 OR CC-BY-NC-ND-4.0)
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#include "gdb_protocol.h"
#include "bus.h"
#include "cpu_core_private.h"
#include "cpu_core.h"
#include "system.h"
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#include "common/log.h"
#include "common/small_string.h"
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#include "common/string_util.h"
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#include <functional>
#include <iomanip>
#include <map>
#include <optional>
#include <sstream>
#include <string>
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Log_SetChannel(GDBProtocol);
namespace GDBProtocol
{
static u8* GetMemoryPointer(PhysicalMemoryAddress address, u32 length)
{
auto region = Bus::GetMemoryRegionForAddress(address);
if (region) {
u8* data = GetMemoryRegionPointer(*region);
if (data && (address + length <= GetMemoryRegionEnd(*region))) {
return data + (address - GetMemoryRegionStart(*region));
}
}
return nullptr;
}
static u8 ComputeChecksum(const std::string_view& str)
{
u8 checksum = 0;
for (char c : str) {
checksum = (checksum + c) % 256;
}
return checksum;
}
static std::optional<std::string_view> DeserializePacket(const std::string_view& in)
{
if ((in.size() < 4) || (in[0] != '$') || (in[in.size()-3] != '#')) {
return std::nullopt;
}
std::string_view data = in.substr(1, in.size()-4);
u8 packetChecksum = StringUtil::FromChars<u8>(in.substr(in.size()-2, 2), 16).value_or(0);
u8 computedChecksum = ComputeChecksum(data);
if (packetChecksum == computedChecksum) {
return { data };
}
else {
return std::nullopt;
}
}
static std::string SerializePacket(const std::string_view& in)
{
std::stringstream ss;
ss << '$' << in << '#' << TinyString::from_format("{:02x}", ComputeChecksum(in));
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return ss.str();
}
/// List of GDB remote protocol registers for MIPS III (excluding FP).
static const std::array<u32*, 38> REGISTERS {
&CPU::g_state.regs.r[0],
&CPU::g_state.regs.r[1],
&CPU::g_state.regs.r[2],
&CPU::g_state.regs.r[3],
&CPU::g_state.regs.r[4],
&CPU::g_state.regs.r[5],
&CPU::g_state.regs.r[6],
&CPU::g_state.regs.r[7],
&CPU::g_state.regs.r[8],
&CPU::g_state.regs.r[9],
&CPU::g_state.regs.r[10],
&CPU::g_state.regs.r[11],
&CPU::g_state.regs.r[12],
&CPU::g_state.regs.r[13],
&CPU::g_state.regs.r[14],
&CPU::g_state.regs.r[15],
&CPU::g_state.regs.r[16],
&CPU::g_state.regs.r[17],
&CPU::g_state.regs.r[18],
&CPU::g_state.regs.r[19],
&CPU::g_state.regs.r[20],
&CPU::g_state.regs.r[21],
&CPU::g_state.regs.r[22],
&CPU::g_state.regs.r[23],
&CPU::g_state.regs.r[24],
&CPU::g_state.regs.r[25],
&CPU::g_state.regs.r[26],
&CPU::g_state.regs.r[27],
&CPU::g_state.regs.r[28],
&CPU::g_state.regs.r[29],
&CPU::g_state.regs.r[30],
&CPU::g_state.regs.r[31],
&CPU::g_state.cop0_regs.sr.bits,
&CPU::g_state.regs.lo,
&CPU::g_state.regs.hi,
&CPU::g_state.cop0_regs.BadVaddr,
&CPU::g_state.cop0_regs.cause.bits,
&CPU::g_state.pc,
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};
/// Number of registers in GDB remote protocol for MIPS III.
constexpr int NUM_GDB_REGISTERS = 73;
/// Get stop reason.
static std::optional<std::string> Cmd$_questionMark(const std::string_view& data)
{
return { "S02" };
}
/// Get general registers.
static std::optional<std::string> Cmd$g(const std::string_view& data)
{
std::stringstream ss;
for (u32* reg : REGISTERS) {
// Data is in host order (little endian).
ss << StringUtil::EncodeHex(reinterpret_cast<u8*>(reg), 4);
}
// Pad with dummy data (FP registers stuff).
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for (int i = 0; i < NUM_GDB_REGISTERS - static_cast<int>(REGISTERS.size()); i++) {
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ss << "00000000";
}
return { ss.str() };
}
/// Set general registers.
static std::optional<std::string> Cmd$G(const std::string_view& data)
{
if (data.size() == NUM_GDB_REGISTERS*8) {
int offset = 0;
for (u32* reg : REGISTERS) {
// Data is in host order (little endian).
auto value = StringUtil::DecodeHex({data.data()+offset, 8});
if (value) {
*reg = *reinterpret_cast<u32*>(&(*value)[0]);
}
offset += 8;
}
}
else {
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Log_ErrorPrintf("Wrong payload size for 'G' command, expected %d got %zu", NUM_GDB_REGISTERS*8, data.size());
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}
return { "" };
}
/// Get memory.
static std::optional<std::string> Cmd$m(const std::string_view& data)
{
std::stringstream ss{std::string{data}};
std::string dataAddress, dataLength;
std::getline(ss, dataAddress, ',');
std::getline(ss, dataLength, '\0');
auto address = StringUtil::FromChars<VirtualMemoryAddress>(dataAddress, 16);
auto length = StringUtil::FromChars<u32>(dataLength, 16);
if (address && length) {
PhysicalMemoryAddress phys_addr = *address & CPU::PHYSICAL_MEMORY_ADDRESS_MASK;
u32 phys_length = *length;
u8* ptr_data = GetMemoryPointer(phys_addr, phys_length);
if (ptr_data) {
return { StringUtil::EncodeHex(ptr_data, phys_length) };
}
}
return { "E00" };
}
/// Set memory.
static std::optional<std::string> Cmd$M(const std::string_view& data)
{
std::stringstream ss{std::string{data}};
std::string dataAddress, dataLength, dataPayload;
std::getline(ss, dataAddress, ',');
std::getline(ss, dataLength, ':');
std::getline(ss, dataPayload, '\0');
auto address = StringUtil::FromChars<VirtualMemoryAddress>(dataAddress, 16);
auto length = StringUtil::FromChars<u32>(dataLength, 16);
auto payload = StringUtil::DecodeHex(dataPayload);
if (address && length && payload && (payload->size() == *length)) {
u32 phys_addr = *address & CPU::PHYSICAL_MEMORY_ADDRESS_MASK;
u32 phys_length = *length;
u8* ptr_data = GetMemoryPointer(phys_addr, phys_length);
if (ptr_data) {
memcpy(ptr_data, payload->data(), phys_length);
return { "OK" };
}
}
return { "E00" };
}
/// Remove hardware breakpoint.
static std::optional<std::string> Cmd$z1(const std::string_view& data)
{
auto address = StringUtil::FromChars<VirtualMemoryAddress>(data, 16);
if (address) {
CPU::RemoveBreakpoint(CPU::BreakpointType::Execute, *address);
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return { "OK" };
}
else {
return std::nullopt;
}
}
/// Insert hardware breakpoint.
static std::optional<std::string> Cmd$Z1(const std::string_view& data)
{
auto address = StringUtil::FromChars<VirtualMemoryAddress>(data, 16);
if (address) {
CPU::AddBreakpoint(CPU::BreakpointType::Execute, *address, false);
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return { "OK" };
}
else {
return std::nullopt;
}
}
static std::optional<std::string> Cmd$vMustReplyEmpty(const std::string_view& data)
{
return { "" };
}
static std::optional<std::string> Cmd$qSupported(const std::string_view& data)
{
return { "" };
}
/// List of all GDB remote protocol packets supported by us.
static const std::map<const char*, std::function<std::optional<std::string>(const std::string_view&)>> COMMANDS
{
{ "?", Cmd$_questionMark },
{ "g", Cmd$g },
{ "G", Cmd$G },
{ "m", Cmd$m },
{ "M", Cmd$M },
{ "z0,", Cmd$z1 },
{ "Z0,", Cmd$Z1 },
{ "z1,", Cmd$z1 },
{ "Z1,", Cmd$Z1 },
{ "vMustReplyEmpty", Cmd$vMustReplyEmpty },
{ "qSupported", Cmd$qSupported },
};
bool IsPacketInterrupt(const std::string_view& data)
{
return (data.size() >= 1) && (data[data.size()-1] == '\003');
}
bool IsPacketContinue(const std::string_view& data)
{
return (data.size() >= 5) && (data.substr(data.size()-5) == "$c#63");
}
bool IsPacketComplete(const std::string_view& data)
{
return ((data.size() == 1) && (data[0] == '\003')) ||
((data.size() > 3) && (*(data.end()-3) == '#'));
}
std::string ProcessPacket(const std::string_view& data)
{
std::string_view trimmedData = data;
// Eat ACKs.
while (!trimmedData.empty() && (trimmedData[0] == '+' || trimmedData[0] == '-')) {
if (trimmedData[0] == '-') {
Log_ErrorPrint("Received negative ack");
}
trimmedData = trimmedData.substr(1);
}
// Validate packet.
auto packet = DeserializePacket(trimmedData);
if (!packet) {
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Log_ErrorPrintf("Malformed packet '%*s'", static_cast<int>(trimmedData.size()), trimmedData.data());
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return "-";
}
std::optional<std::string> reply = { "" };
// Try to invoke packet command.
bool processed = false;
for (const auto& command : COMMANDS) {
if (packet->starts_with(command.first)) {
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Log_DebugPrintf("Processing command '%s'", command.first);
// Invoke command, remove command name from payload.
reply = command.second(packet->substr(strlen(command.first)));
processed = true;
break;
}
}
if (!processed) {
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Log_WarningPrintf("Failed to process packet '%*s'", static_cast<int>(trimmedData.size()), trimmedData.data());
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}
return reply ? "+"+SerializePacket(*reply) : "+";
}
} // namespace GDBProtocol