ErrorCode ProcessBase::resume(int signal, std::set<Thread *> const &excluded) {
enumerateThreads([&](Thread *thread) {
if (excluded.find(thread) != excluded.end())
return;
switch (thread->state()) {
case Thread::kInvalid:
case Thread::kTerminated:
DS2BUG("trying to resume tid %" PRI_PID " in state %s", thread->tid(),
Stringify::ThreadState(thread->state()));
break;
case Thread::kRunning:
DS2LOG(Debug, "not resuming tid %" PRI_PID ", already in state %s",
thread->tid(), Stringify::ThreadState(thread->state()));
break;
case Thread::kStopped:
case Thread::kStepped: {
Architecture::CPUState state;
thread->readCPUState(state);
DS2LOG(Debug,
"resuming tid %" PRI_PID " from pc %" PRI_PTR " with signal %d",
thread->tid(), PRI_PTR_CAST(state.pc()), signal);
ErrorCode error = thread->resume(signal);
if (error != kSuccess) {
DS2LOG(Warning, "failed resuming tid %" PRI_PID ", error=%s",
thread->tid(), Stringify::Error(error));
}
} break;
}
});
return kSuccess;
}
ErrorCode Process::suspend() {
std::set<Thread *> threads;
enumerateThreads([&](Thread *thread) { threads.insert(thread); });
for (auto thread : threads) {
Architecture::CPUState state;
if (thread->state() != Thread::kRunning) {
thread->readCPUState(state);
}
DS2LOG(Debug, "tid %d state %d at pc %#" PRIx64, thread->tid(),
thread->state(),
thread->state() == Thread::kStopped ? (uint64_t)state.pc() : 0);
if (thread->state() == Thread::kRunning) {
ErrorCode error;
DS2LOG(Debug, "suspending tid %d", thread->tid());
error = thread->suspend();
if (error == kSuccess) {
DS2LOG(Debug, "suspended tid %d at pc %#" PRIx64, thread->tid(),
(uint64_t)state.pc());
thread->readCPUState(state);
} else if (error == kErrorProcessNotFound) {
//
// Thread is dead.
//
removeThread(thread->tid());
DS2LOG(Debug, "tried to suspended tid %d which is already dead",
thread->tid());
} else {
return error;
}
} else if (thread->state() == Thread::kTerminated) {
//
// Thread is dead.
//
removeThread(thread->tid());
}
}
return kSuccess;
}
ErrorCode Process::resume(int signal, std::set<Thread *> const &excluded) {
enumerateThreads([&](Thread *thread) {
if (excluded.find(thread) != excluded.end())
return;
if (thread->state() == Thread::kStopped ||
thread->state() == Thread::kStepped) {
Architecture::CPUState state;
thread->readCPUState(state);
DS2LOG(Debug, "resuming tid %I64u from pc %#I64x",
(uint64_t)thread->tid(), (uint64_t)state.pc());
ErrorCode error = thread->resume(signal);
if (error != kSuccess) {
DS2LOG(Warning, "failed resuming tid %I64u, error=%d",
(uint64_t)thread->tid(), error);
}
}
});
return kSuccess;
}
ErrorCode Thread::prepareSoftwareSingleStep(Address const &address) {
Architecture::CPUState state;
ErrorCode error = readCPUState(state);
if (error != kSuccess)
return error;
bool link = false;
bool isThumb = (state.gp.cpsr & (1 << 5));
uint32_t pc = address.valid() ? address.value() : state.pc();
uint32_t nextPC = pc;
uint32_t branchPC = static_cast<uint32_t>(-1);
uint32_t size = 0;
//
// We need to read 8 bytes, because of IT block
//
if (isThumb) {
error = PrepareThumbSoftwareSingleStep(process(), pc, state, size, link,
branchPC, nextPC);
} else {
error = PrepareARMSoftwareSingleStep(process(), pc, state, size, link,
branchPC, nextPC);
}
DS2LOG(Architecture, Debug, "branchPC=%#lx[link=%s] nextPC=%#lx",
(unsigned long)branchPC, link ? "true" : "false",
(unsigned long)nextPC);
if (branchPC != static_cast<uint32_t>(-1)) {
error = process()->breakpointManager()->add(
branchPC, BreakpointManager::kTypeTemporaryOneShot, size);
if (error != kSuccess)
return error;
}
if (nextPC != static_cast<uint32_t>(-1)) {
if ((nextPC & ~1) == pc) {
if (!isThumb) {
nextPC += 4;
size = 4;
} else {
uint32_t insn;
error = process()->readMemory(pc & ~1, &insn, sizeof(insn));
if (error != kSuccess)
return error;
auto inst_size = Architecture::ARM::GetThumbInstSize(insn);
nextPC += static_cast<std::uint8_t>(inst_size);
size = 2;
}
}
error = process()->breakpointManager()->add(
nextPC, BreakpointManager::kTypeTemporaryOneShot, size);
if (error != kSuccess)
return error;
}
return kSuccess;
}
