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dart-sdk/runtime/vm/thread_interrupter_fuchsia.cc
Ryan Macnak 3609522166 printf format checking is a compiler feature, not a platform feature. 
Change-Id: Ib3e0beb814b5cae6f2b4be13f055069f682674f5
Reviewed-on: https://dart-review.googlesource.com/11645
Reviewed-by: Zach Anderson <zra@google.com>
2017-10-09 22:26:01 +00:00

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// Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#include "platform/globals.h"
#if defined(HOST_OS_FUCHSIA)
#include "vm/thread_interrupter.h"
#include <zircon/process.h>
#include <zircon/status.h>
#include <zircon/syscalls.h>
#include <zircon/syscalls/debug.h>
#include <zircon/syscalls/object.h>
#include <zircon/types.h>
#include "vm/flags.h"
#include "vm/instructions.h"
#include "vm/os.h"
#include "vm/profiler.h"
namespace dart {
#ifndef PRODUCT
DECLARE_FLAG(bool, thread_interrupter);
DECLARE_FLAG(bool, trace_thread_interrupter);
// TODO(ZX-430): Currently, CPU profiling for Fuchsia is arranged very similarly
// to our Windows profiling. That is, the interrupter thread iterates over
// all threads, suspends them, samples various things, and then resumes them.
// When ZX-430 is resolved, the code below should be rewritten to use whatever
// feature is added for it.
// A scope within which a target thread is suspended. When the scope is exited,
// the thread is resumed and its handle is closed.
class ThreadSuspendScope {
public:
explicit ThreadSuspendScope(zx_handle_t thread_handle)
: thread_handle_(thread_handle), suspended_(true) {
zx_status_t status = zx_task_suspend(thread_handle);
// If a thread is somewhere where suspend is impossible, zx_task_suspend()
// can return ZX_ERR_NOT_SUPPORTED.
if (status != ZX_OK) {
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter: zx_task_suspend failed: %s\n",
zx_status_get_string(status));
}
suspended_ = false;
}
}
~ThreadSuspendScope() {
if (suspended_) {
zx_status_t status = zx_task_resume(thread_handle_, 0);
if (status != ZX_OK) {
// If we fail to resume a thread, then it's likely the program will
// hang. Crash instead.
FATAL1("zx_task_resume failed: %s", zx_status_get_string(status));
}
}
zx_handle_close(thread_handle_);
}
bool suspended() const { return suspended_; }
private:
zx_handle_t thread_handle_;
bool suspended_;
DISALLOW_ALLOCATION();
DISALLOW_COPY_AND_ASSIGN(ThreadSuspendScope);
};
class ThreadInterrupterFuchsia : public AllStatic {
public:
#if defined(TARGET_ARCH_X64)
static bool GrabRegisters(zx_handle_t thread, InterruptedThreadState* state) {
zx_x86_64_general_regs_t regs;
uint32_t regset_size;
zx_status_t status = zx_thread_read_state(
thread, ZX_THREAD_STATE_REGSET0, &regs, sizeof(regs), &regset_size);
if (status != ZX_OK) {
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter failed to get registers: %s\n",
zx_status_get_string(status));
}
return false;
}
state->pc = static_cast<uintptr_t>(regs.rip);
state->fp = static_cast<uintptr_t>(regs.rbp);
state->csp = static_cast<uintptr_t>(regs.rsp);
state->dsp = static_cast<uintptr_t>(regs.rsp);
return true;
}
#elif defined(TARGET_ARCH_ARM64)
static bool GrabRegisters(zx_handle_t thread, InterruptedThreadState* state) {
zx_arm64_general_regs_t regs;
uint32_t regset_size;
zx_status_t status = zx_thread_read_state(
thread, ZX_THREAD_STATE_REGSET0, &regs, sizeof(regs), &regset_size);
if (status != ZX_OK) {
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter failed to get registers: %s\n",
zx_status_get_string(status));
}
return false;
}
state->pc = static_cast<uintptr_t>(regs.pc);
state->fp = static_cast<uintptr_t>(regs.r[FPREG]);
state->csp = static_cast<uintptr_t>(regs.sp);
state->dsp = static_cast<uintptr_t>(regs.r[SPREG]);
state->lr = static_cast<uintptr_t>(regs.lr);
return true;
}
#else
#error "Unsupported architecture"
#endif
static void Interrupt(OSThread* os_thread) {
ASSERT(os_thread->id() != ZX_KOID_INVALID);
ASSERT(!OSThread::Compare(OSThread::GetCurrentThreadId(), os_thread->id()));
zx_status_t status;
// Get a handle on the target thread.
const zx_koid_t target_thread_koid = os_thread->id();
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter: interrupting thread with koid=%ld\n",
target_thread_koid);
}
zx_handle_t target_thread_handle;
status = zx_object_get_child(zx_process_self(), target_thread_koid,
ZX_RIGHT_SAME_RIGHTS, &target_thread_handle);
if (status != ZX_OK) {
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter: zx_object_get_child failed: %s\n",
zx_status_get_string(status));
}
return;
}
if (target_thread_handle == ZX_HANDLE_INVALID) {
if (FLAG_trace_thread_interrupter) {
OS::PrintErr(
"ThreadInterrupter: zx_object_get_child gave an invalid "
"thread handle!");
}
return;
}
// This scope suspends the thread. When we exit the scope, the thread is
// resumed, and the thread handle is closed.
ThreadSuspendScope tss(target_thread_handle);
if (!tss.suspended()) {
return;
}
// Check that the thread is suspended.
status = PollThreadUntilSuspended(target_thread_handle);
if (status != ZX_OK) {
return;
}
// Grab the target thread's registers.
InterruptedThreadState its;
if (!GrabRegisters(target_thread_handle, &its)) {
return;
}
// Currently we sample only threads that are associated
// with an isolate. It is safe to call 'os_thread->thread()'
// here as the thread which is being queried is suspended.
Thread* thread = os_thread->thread();
if (thread != NULL) {
Profiler::SampleThread(thread, its);
}
}
private:
static const char* ThreadStateGetString(uint32_t state) {
switch (state) {
case ZX_THREAD_STATE_NEW:
return "ZX_THREAD_STATE_NEW";
case ZX_THREAD_STATE_RUNNING:
return "ZX_THREAD_STATE_RUNNING";
case ZX_THREAD_STATE_SUSPENDED:
return "ZX_THREAD_STATE_SUSPENDED";
case ZX_THREAD_STATE_BLOCKED:
return "ZX_THREAD_STATE_BLOCKED";
case ZX_THREAD_STATE_DYING:
return "ZX_THREAD_STATE_DYING";
case ZX_THREAD_STATE_DEAD:
return "ZX_THREAD_STATE_DEAD";
default:
return "<Unknown>";
}
}
static zx_status_t PollThreadUntilSuspended(zx_handle_t thread_handle) {
const intptr_t kMaxPollAttempts = 10;
intptr_t poll_tries = 0;
while (poll_tries < kMaxPollAttempts) {
zx_info_thread_t thread_info;
zx_status_t status =
zx_object_get_info(thread_handle, ZX_INFO_THREAD, &thread_info,
sizeof(thread_info), NULL, NULL);
poll_tries++;
if (status != ZX_OK) {
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter: zx_object_get_info failed: %s\n",
zx_status_get_string(status));
}
return status;
}
if (thread_info.state == ZX_THREAD_STATE_SUSPENDED) {
// Success.
return ZX_OK;
}
if (thread_info.state == ZX_THREAD_STATE_RUNNING) {
// Poll.
continue;
}
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter: Thread is not suspended: %s\n",
ThreadStateGetString(thread_info.state));
}
return ZX_ERR_BAD_STATE;
}
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter: Exceeded max suspend poll tries\n");
}
return ZX_ERR_BAD_STATE;
}
};
bool ThreadInterrupter::IsDebuggerAttached() {
return false;
}
void ThreadInterrupter::InterruptThread(OSThread* thread) {
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter suspending %p\n",
reinterpret_cast<void*>(thread->id()));
}
ThreadInterrupterFuchsia::Interrupt(thread);
if (FLAG_trace_thread_interrupter) {
OS::PrintErr("ThreadInterrupter resuming %p\n",
reinterpret_cast<void*>(thread->id()));
}
}
void ThreadInterrupter::InstallSignalHandler() {
// Nothing to do on Fuchsia.
}
void ThreadInterrupter::RemoveSignalHandler() {
// Nothing to do on Fuchsia.
}
#endif // !PRODUCT
} // namespace dart
#endif // defined(HOST_OS_FUCHSIA)
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