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Atmosphere/stratosphere/dmnt.gen2/source/dmnt2_debug_process.hpp

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/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <stratosphere.hpp>
#include "dmnt2_gdb_signal.hpp"
#include "dmnt2_module_definition.hpp"
#include "dmnt2_software_breakpoint.hpp"
#include "dmnt2_hardware_breakpoint.hpp"
#include "dmnt2_hardware_watchpoint.hpp"
namespace ams::dmnt {
class DebugProcess {
public:
static constexpr size_t ThreadCountMax = 0x100;
static constexpr size_t ModuleCountMax = 0x60;
enum ProcessStatus {
ProcessStatus_DebugBreak,
ProcessStatus_Running,
ProcessStatus_Exited,
};
enum ContinueMode {
ContinueMode_Stopped,
ContinueMode_Continue,
ContinueMode_Step,
};
private:
os::NativeHandle m_debug_handle{os::InvalidNativeHandle};
s32 m_thread_count{0};
bool m_is_valid{false};
bool m_is_64_bit{false};
bool m_is_64_bit_address_space{false};
ProcessStatus m_status{ProcessStatus_DebugBreak};
os::ProcessId m_process_id{os::InvalidProcessId};
u64 m_last_thread_id{};
u64 m_thread_id_override{};
u64 m_continue_thread_id{};
GdbSignal m_last_signal{};
bool m_stepping{false};
bool m_use_hardware_single_step{false};
bool m_thread_valid[ThreadCountMax]{};
u64 m_thread_ids[ThreadCountMax]{};
osdbg::ThreadInfo m_thread_infos[ThreadCountMax]{};
svc::DebugInfoCreateProcess m_create_process_info{};
SoftwareBreakPointManager m_software_breakpoints;
HardwareBreakPointManager m_hardware_breakpoints;
HardwareWatchPointManager m_hardware_watchpoints;
BreakPointManager &m_step_breakpoints;
ModuleDefinition m_module_definitions[ModuleCountMax]{};
size_t m_module_count{};
size_t m_main_module{};
public:
DebugProcess() : m_software_breakpoints(this), m_hardware_breakpoints(this), m_hardware_watchpoints(this), m_step_breakpoints(m_software_breakpoints) {
if (svc::IsKernelMesosphere()) {
uint64_t value = 0;
m_use_hardware_single_step = R_SUCCEEDED(::ams::svc::GetInfo(std::addressof(value), ::ams::svc::InfoType_MesosphereMeta, ::ams::svc::InvalidHandle, ::ams::svc::MesosphereMetaInfo_IsSingleStepEnabled)) && value != 0;
}
}
~DebugProcess() { this->Detach(); }
os::NativeHandle GetHandle() const { return m_debug_handle; }
bool IsValid() const { return m_is_valid; }
bool Is64Bit() const { return m_is_64_bit; }
bool Is64BitAddressSpace() const { return m_is_64_bit_address_space; }
size_t GetModuleCount() const { return m_module_count; }
size_t GetMainModuleIndex() const { return m_main_module; }
const char *GetModuleName(size_t ix) const { return m_module_definitions[ix].GetName(); }
uintptr_t GetBaseAddress(size_t ix) const { return m_module_definitions[ix].GetAddress(); }
ProcessStatus GetStatus() const { return m_status; }
os::ProcessId GetProcessId() const { return m_process_id; }
const char *GetProcessName() const { return m_create_process_info.name; }
void SetLastSignal(GdbSignal signal) { m_last_signal = signal; }
GdbSignal GetLastSignal() const { return m_last_signal; }
Result GetThreadList(s32 *out_count, u64 *out_thread_ids, size_t max_count);
Result GetThreadInfoList(s32 *out_count, osdbg::ThreadInfo **out_infos, size_t max_count);
u64 GetLastThreadId();
u64 GetThreadIdOverride() { this->GetLastThreadId(); return m_thread_id_override; }
void SetLastThreadId(u64 tid) {
m_last_thread_id = tid;
m_thread_id_override = tid;
}
void SetThreadIdOverride(u64 tid) {
m_thread_id_override = tid;
}
void SetDebugBreaked() {
m_status = ProcessStatus_DebugBreak;
}
public:
Result Attach(os::ProcessId process_id);
void Detach();
Result GetThreadContext(svc::ThreadContext *out, u64 thread_id, u32 flags);
Result SetThreadContext(const svc::ThreadContext *ctx, u64 thread_id, u32 flags);
Result ReadMemory(void *dst, uintptr_t address, size_t size);
Result WriteMemory(const void *src, uintptr_t address, size_t size);
Result Continue();
Result Continue(u64 thread_id);
Result Step();
Result Step(u64 thread_id);
void ClearStep();
Result Break();
Result Terminate();
Result SetBreakPoint(uintptr_t address, size_t size, bool is_step);
Result ClearBreakPoint(uintptr_t address, size_t size);
Result SetHardwareBreakPoint(uintptr_t address, size_t size, bool is_step);
Result ClearHardwareBreakPoint(uintptr_t address, size_t size);
Result SetWatchPoint(u64 address, u64 size, bool read, bool write);
Result ClearWatchPoint(u64 address, u64 size);
Result GetWatchPointInfo(u64 address, bool &read, bool &write);
static bool IsValidWatchPoint(u64 address, u64 size);
Result GetThreadCurrentCore(u32 *out, u64 thread_id);
Result GetProcessDebugEvent(svc::DebugEventInfo *out);
void GetBranchTarget(svc::ThreadContext &ctx, u64 thread_id, u64 &current_pc, u64 &target);
Result CollectModules();
private:
Result Start();
s32 ThreadCreate(u64 thread_id);
void ThreadExit(u64 thread_id);
};
}