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/*
* Copyright (c) 2020, Itamar S. <itamar8910@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "DebugSession.h"
#include <AK/JsonObject.h>
#include <AK/JsonValue.h>
#include <AK/LexicalPath.h>
#include <AK/Optional.h>
#include <AK/Platform.h>
#include <LibCore/File.h>
#include <LibRegex/Regex.h>
#include <stdlib.h>
#include <sys/mman.h>
namespace Debug {
DebugSession::DebugSession(pid_t pid, String source_root)
: m_debuggee_pid(pid)
, m_source_root(source_root)
{
}
DebugSession::~DebugSession()
{
if (m_is_debuggee_dead)
return;
for (auto const& bp : m_breakpoints) {
disable_breakpoint(bp.key);
}
m_breakpoints.clear();
for (auto const& wp : m_watchpoints) {
disable_watchpoint(wp.key);
}
m_watchpoints.clear();
if (ptrace(PT_DETACH, m_debuggee_pid, 0, 0) < 0) {
perror("PT_DETACH");
}
}
void DebugSession::for_each_loaded_library(Function<IterationDecision(LoadedLibrary const&)> func) const
{
for (auto const& lib_name : m_loaded_libraries.keys()) {
auto const& lib = *m_loaded_libraries.get(lib_name).value();
if (func(lib) == IterationDecision::Break)
break;
}
}
OwnPtr<DebugSession> DebugSession::exec_and_attach(String const& command,
String source_root,
Function<ErrorOr<void>()> setup_child)
{
auto pid = fork();
if (pid < 0) {
perror("fork");
exit(1);
}
if (!pid) {
if (setup_child) {
if (setup_child().is_error()) {
perror("DebugSession::setup_child");
exit(1);
}
}
if (ptrace(PT_TRACE_ME, 0, 0, 0) < 0) {
perror("PT_TRACE_ME");
exit(1);
}
auto parts = command.split(' ');
VERIFY(!parts.is_empty());
char const** args = bit_cast<char const**>(calloc(parts.size() + 1, sizeof(char const*)));
for (size_t i = 0; i < parts.size(); i++) {
args[i] = parts[i].characters();
}
char const** envp = bit_cast<char const**>(calloc(2, sizeof(char const*)));
// This causes loader to stop on a breakpoint before jumping to the entry point of the program.
envp[0] = "_LOADER_BREAKPOINT=1";
int rc = execvpe(args[0], const_cast<char**>(args), const_cast<char**>(envp));
if (rc < 0) {
perror("execvp");
exit(1);
}
}
if (waitpid(pid, nullptr, WSTOPPED) != pid) {
perror("waitpid");
return {};
}
if (ptrace(PT_ATTACH, pid, 0, 0) < 0) {
perror("PT_ATTACH");
return {};
}
// We want to continue until the exit from the 'execve' syscall.
// This ensures that when we start debugging the process
// it executes the target image, and not the forked image of the tracing process.
// NOTE: we only need to do this when we are debugging a new process (i.e not attaching to a process that's already running!)
if (waitpid(pid, nullptr, WSTOPPED) != pid) {
perror("wait_pid");
return {};
}
auto debug_session = adopt_own(*new DebugSession(pid, source_root));
// Continue until breakpoint before entry point of main program
int wstatus = debug_session->continue_debuggee_and_wait();
if (WSTOPSIG(wstatus) != SIGTRAP) {
dbgln("expected SIGTRAP");
return {};
}
// At this point, libraries should have been loaded
debug_session->update_loaded_libs();
return debug_session;
}
bool DebugSession::poke(FlatPtr address, FlatPtr data)
{
if (ptrace(PT_POKE, m_debuggee_pid, bit_cast<void*>(address), bit_cast<void*>(data)) < 0) {
perror("PT_POKE");
return false;
}
return true;
}
Optional<FlatPtr> DebugSession::peek(FlatPtr address) const
{
Optional<FlatPtr> result;
auto rc = ptrace(PT_PEEK, m_debuggee_pid, bit_cast<void*>(address), nullptr);
if (errno == 0)
result = static_cast<FlatPtr>(rc);
return result;
}
bool DebugSession::poke_debug(u32 register_index, FlatPtr data) const
{
if (ptrace(PT_POKEDEBUG, m_debuggee_pid, bit_cast<void*>(static_cast<FlatPtr>(register_index)), bit_cast<void*>(data)) < 0) {
perror("PT_POKEDEBUG");
return false;
}
return true;
}
Optional<FlatPtr> DebugSession::peek_debug(u32 register_index) const
{
auto rc = ptrace(PT_PEEKDEBUG, m_debuggee_pid, bit_cast<void*>(static_cast<FlatPtr>(register_index)), nullptr);
if (errno == 0)
return static_cast<FlatPtr>(rc);
return {};
}
bool DebugSession::insert_breakpoint(FlatPtr address)
{
// We insert a software breakpoint by
// patching the first byte of the instruction at 'address'
// with the breakpoint instruction (int3)
if (m_breakpoints.contains(address))
return false;
auto original_bytes = peek(address);
if (!original_bytes.has_value())
return false;
VERIFY((original_bytes.value() & 0xff) != BREAKPOINT_INSTRUCTION);
BreakPoint breakpoint { address, original_bytes.value(), BreakPointState::Disabled };
m_breakpoints.set(address, breakpoint);
enable_breakpoint(breakpoint.address);
return true;
}
bool DebugSession::disable_breakpoint(FlatPtr address)
{
auto breakpoint = m_breakpoints.get(address);
VERIFY(breakpoint.has_value());
if (!poke(breakpoint.value().address, breakpoint.value().original_first_word))
return false;
auto bp = m_breakpoints.get(breakpoint.value().address).value();
bp.state = BreakPointState::Disabled;
m_breakpoints.set(bp.address, bp);
return true;
}
bool DebugSession::enable_breakpoint(FlatPtr address)
{
auto breakpoint = m_breakpoints.get(address);
VERIFY(breakpoint.has_value());
VERIFY(breakpoint.value().state == BreakPointState::Disabled);
if (!poke(breakpoint.value().address, (breakpoint.value().original_first_word & ~static_cast<FlatPtr>(0xff)) | BREAKPOINT_INSTRUCTION))
return false;
auto bp = m_breakpoints.get(breakpoint.value().address).value();
bp.state = BreakPointState::Enabled;
m_breakpoints.set(bp.address, bp);
return true;
}
bool DebugSession::remove_breakpoint(FlatPtr address)
{
if (!disable_breakpoint(address))
return false;
m_breakpoints.remove(address);
return true;
}
bool DebugSession::breakpoint_exists(FlatPtr address) const
{
return m_breakpoints.contains(address);
}
bool DebugSession::insert_watchpoint(FlatPtr address, u32 ebp)
{
auto current_register_status = peek_debug(DEBUG_CONTROL_REGISTER);
if (!current_register_status.has_value())
return false;
// FIXME: 64 bit support
u32 dr7_value = static_cast<u32>(current_register_status.value());
u32 next_available_index;
for (next_available_index = 0; next_available_index < 4; next_available_index++) {
auto bitmask = 1 << (next_available_index * 2);
if ((dr7_value & bitmask) == 0)
break;
}
if (next_available_index > 3)
return false;
WatchPoint watchpoint { address, next_available_index, ebp };
if (!poke_debug(next_available_index, bit_cast<FlatPtr>(address)))
return false;
dr7_value |= (1u << (next_available_index * 2)); // Enable local breakpoint for our index
auto condition_shift = 16 + (next_available_index * 4);
dr7_value &= ~(0b11u << condition_shift);
dr7_value |= 1u << condition_shift; // Trigger on writes
auto length_shift = 18 + (next_available_index * 4);
dr7_value &= ~(0b11u << length_shift);
// FIXME: take variable size into account?
dr7_value |= 0b11u << length_shift; // 4 bytes wide
if (!poke_debug(DEBUG_CONTROL_REGISTER, dr7_value))
return false;
m_watchpoints.set(address, watchpoint);
return true;
}
bool DebugSession::remove_watchpoint(FlatPtr address)
{
if (!disable_watchpoint(address))
return false;
return m_watchpoints.remove(address);
}
bool DebugSession::disable_watchpoint(FlatPtr address)
{
VERIFY(watchpoint_exists(address));
auto watchpoint = m_watchpoints.get(address).value();
if (!poke_debug(watchpoint.debug_register_index, 0))
return false;
auto current_register_status = peek_debug(DEBUG_CONTROL_REGISTER);
if (!current_register_status.has_value())
return false;
u32 dr7_value = current_register_status.value();
dr7_value &= ~(1u << watchpoint.debug_register_index * 2);
if (!poke_debug(watchpoint.debug_register_index, dr7_value))
return false;
return true;
}
bool DebugSession::watchpoint_exists(FlatPtr address) const
{
return m_watchpoints.contains(address);
}
PtraceRegisters DebugSession::get_registers() const
{
PtraceRegisters regs;
if (ptrace(PT_GETREGS, m_debuggee_pid, ®s, 0) < 0) {
perror("PT_GETREGS");
VERIFY_NOT_REACHED();
}
return regs;
}
void DebugSession::set_registers(PtraceRegisters const& regs)
{
if (ptrace(PT_SETREGS, m_debuggee_pid, bit_cast<void*>(®s), 0) < 0) {
perror("PT_SETREGS");
VERIFY_NOT_REACHED();
}
}
void DebugSession::continue_debuggee(ContinueType type)
{
int command = (type == ContinueType::FreeRun) ? PT_CONTINUE : PT_SYSCALL;
if (ptrace(command, m_debuggee_pid, 0, 0) < 0) {
perror("continue");
VERIFY_NOT_REACHED();
}
}
int DebugSession::continue_debuggee_and_wait(ContinueType type)
{
continue_debuggee(type);
int wstatus = 0;
if (waitpid(m_debuggee_pid, &wstatus, WSTOPPED | WEXITED) != m_debuggee_pid) {
perror("waitpid");
VERIFY_NOT_REACHED();
}
return wstatus;
}
FlatPtr DebugSession::single_step()
{
// Single stepping works by setting the x86 TRAP flag bit in the eflags register.
// This flag causes the cpu to enter single-stepping mode, which causes
// Interrupt 1 (debug interrupt) to be emitted after every instruction.
// To single step the program, we set the TRAP flag and continue the debuggee.
// After the debuggee has stopped, we clear the TRAP flag.
auto regs = get_registers();
constexpr u32 TRAP_FLAG = 0x100;
#if ARCH(I386)
regs.eflags |= TRAP_FLAG;
#elif ARCH(X86_64)
regs.rflags |= TRAP_FLAG;
#else
# error Unknown architecture
#endif
set_registers(regs);
continue_debuggee();
if (waitpid(m_debuggee_pid, 0, WSTOPPED) != m_debuggee_pid) {
perror("waitpid");
VERIFY_NOT_REACHED();
}
regs = get_registers();
#if ARCH(I386)
regs.eflags &= ~(TRAP_FLAG);
#elif ARCH(X86_64)
regs.rflags &= ~(TRAP_FLAG);
#else
# error Unknown architecture
#endif
set_registers(regs);
return regs.ip();
}
void DebugSession::detach()
{
for (auto& breakpoint : m_breakpoints.keys()) {
remove_breakpoint(breakpoint);
}
for (auto& watchpoint : m_watchpoints.keys())
remove_watchpoint(watchpoint);
continue_debuggee();
}
Optional<DebugSession::InsertBreakpointAtSymbolResult> DebugSession::insert_breakpoint(String const& symbol_name)
{
Optional<InsertBreakpointAtSymbolResult> result;
for_each_loaded_library([this, symbol_name, &result](auto& lib) {
// The loader contains its own definitions for LibC symbols, so we don't want to include it in the search.
if (lib.name == "Loader.so")
return IterationDecision::Continue;
auto symbol = lib.debug_info->elf().find_demangled_function(symbol_name);
if (!symbol.has_value())
return IterationDecision::Continue;
FlatPtr breakpoint_address = symbol->value() + lib.base_address;
bool rc = this->insert_breakpoint(breakpoint_address);
if (!rc)
return IterationDecision::Break;
result = InsertBreakpointAtSymbolResult { lib.name, breakpoint_address };
return IterationDecision::Break;
});
return result;
}
Optional<DebugSession::InsertBreakpointAtSourcePositionResult> DebugSession::insert_breakpoint(String const& filename, size_t line_number)
{
auto address_and_source_position = get_address_from_source_position(filename, line_number);
if (!address_and_source_position.has_value())
return {};
auto address = address_and_source_position.value().address;
bool rc = this->insert_breakpoint(address);
if (!rc)
return {};
auto lib = library_at(address);
VERIFY(lib);
return InsertBreakpointAtSourcePositionResult { lib->name, address_and_source_position.value().file, address_and_source_position.value().line, address };
}
void DebugSession::update_loaded_libs()
{
auto file = Core::File::construct(String::formatted("/proc/{}/vm", m_debuggee_pid));
bool rc = file->open(Core::OpenMode::ReadOnly);
VERIFY(rc);
auto file_contents = file->read_all();
auto json = JsonValue::from_string(file_contents).release_value_but_fixme_should_propagate_errors();
auto const& vm_entries = json.as_array();
Regex<PosixExtended> segment_name_re("(.+): ");
auto get_path_to_object = [&segment_name_re](String const& vm_name) -> Optional<String> {
if (vm_name == "/usr/lib/Loader.so")
return vm_name;
RegexResult result;
auto rc = segment_name_re.search(vm_name, result);
if (!rc)
return {};
auto lib_name = result.capture_group_matches.at(0).at(0).view.string_view().to_string();
if (lib_name.starts_with('/'))
return lib_name;
return String::formatted("/usr/lib/{}", lib_name);
};
vm_entries.for_each([&](auto& entry) {
// TODO: check that region is executable
auto vm_name = entry.as_object().get("name"sv).as_string();
auto object_path = get_path_to_object(vm_name);
if (!object_path.has_value())
return IterationDecision::Continue;
String lib_name = object_path.value();
if (Core::File::looks_like_shared_library(lib_name))
lib_name = LexicalPath::basename(object_path.value());
FlatPtr base_address = entry.as_object().get("address"sv).to_addr();
if (auto it = m_loaded_libraries.find(lib_name); it != m_loaded_libraries.end()) {
// We expect the VM regions to be sorted by address.
VERIFY(base_address >= it->value->base_address);
return IterationDecision::Continue;
}
auto file_or_error = Core::MappedFile::map(object_path.value());
if (file_or_error.is_error())
return IterationDecision::Continue;
auto image = make<ELF::Image>(file_or_error.value()->bytes());
auto debug_info = make<DebugInfo>(*image, m_source_root, base_address);
auto lib = make<LoadedLibrary>(lib_name, file_or_error.release_value(), move(image), move(debug_info), base_address);
m_loaded_libraries.set(lib_name, move(lib));
return IterationDecision::Continue;
});
}
}
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