ClickHouse/src/Common/ThreadStatus.cpp

262 lines
7.7 KiB
C++

#include <Common/Exception.h>
#include <Common/ThreadProfileEvents.h>
#include <Common/QueryProfiler.h>
#include <Common/ThreadStatus.h>
#include <base/errnoToString.h>
#include <Interpreters/Context.h>
#include <Poco/Logger.h>
#include <base/getThreadId.h>
#include <base/getPageSize.h>
#include <csignal>
#include <mutex>
#include <sys/mman.h>
namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
}
thread_local ThreadStatus constinit * current_thread = nullptr;
#if !defined(SANITIZER)
namespace
{
/// Alternative stack for signal handling.
///
/// This stack should not be located in the TLS (thread local storage), since:
/// - TLS locates data on the per-thread stack
/// - And in case of stack in the signal handler will grow too much,
/// it will start overwriting TLS storage
/// (and note, that it is not too small, due to StackTrace obtaining)
/// - Plus there is no way to determine TLS block size, yes there is
/// __pthread_get_minstack() in glibc, but it is private and hence not portable.
///
/// Also we should not use getStackSize() (pthread_attr_getstack()) since it
/// will return 8MB, and this is too huge for signal stack.
struct ThreadStack
{
ThreadStack()
: data(aligned_alloc(getPageSize(), getSize()))
{
/// Add a guard page
/// (and since the stack grows downward, we need to protect the first page).
mprotect(data, getPageSize(), PROT_NONE);
}
~ThreadStack()
{
mprotect(data, getPageSize(), PROT_WRITE|PROT_READ);
free(data);
}
static size_t getSize() { return std::max<size_t>(16 << 10, MINSIGSTKSZ); }
void * getData() const { return data; }
private:
/// 16 KiB - not too big but enough to handle error.
void * data;
};
}
static thread_local ThreadStack alt_stack;
static thread_local bool has_alt_stack = false;
#endif
std::vector<ThreadGroupStatus::ProfileEventsCountersAndMemory> ThreadGroupStatus::getProfileEventsCountersAndMemoryForThreads()
{
std::lock_guard guard(mutex);
/// It is OK to move it, since it is enough to report statistics for the thread at least once.
auto stats = std::move(finished_threads_counters_memory);
for (auto * thread : threads)
{
stats.emplace_back(ProfileEventsCountersAndMemory{
thread->performance_counters.getPartiallyAtomicSnapshot(),
thread->memory_tracker.get(),
thread->thread_id,
});
}
return stats;
}
ThreadStatus::ThreadStatus()
: thread_id{getThreadId()}
{
last_rusage = std::make_unique<RUsageCounters>();
memory_tracker.setDescription("(for thread)");
log = &Poco::Logger::get("ThreadStatus");
current_thread = this;
/// NOTE: It is important not to do any non-trivial actions (like updating ProfileEvents or logging) before ThreadStatus is created
/// Otherwise it could lead to SIGSEGV due to current_thread dereferencing
/// Will set alternative signal stack to provide diagnostics for stack overflow errors.
/// If not already installed for current thread.
/// Sanitizer makes larger stack usage and also it's incompatible with alternative stack by default (it sets up and relies on its own).
#if !defined(SANITIZER)
if (!has_alt_stack)
{
/// Don't repeat tries even if not installed successfully.
has_alt_stack = true;
/// We have to call 'sigaltstack' before first 'sigaction'. (It does not work other way, for unknown reason).
stack_t altstack_description{};
altstack_description.ss_sp = alt_stack.getData();
altstack_description.ss_flags = 0;
altstack_description.ss_size = alt_stack.getSize();
if (0 != sigaltstack(&altstack_description, nullptr))
{
LOG_WARNING(log, "Cannot set alternative signal stack for thread, {}", errnoToString());
}
else
{
/// Obtain existing sigaction and modify it by adding a flag.
struct sigaction action{};
if (0 != sigaction(SIGSEGV, nullptr, &action))
{
LOG_WARNING(log, "Cannot obtain previous signal action to set alternative signal stack for thread, {}", errnoToString());
}
else if (!(action.sa_flags & SA_ONSTACK))
{
action.sa_flags |= SA_ONSTACK;
if (0 != sigaction(SIGSEGV, &action, nullptr))
{
LOG_WARNING(log, "Cannot set action with alternative signal stack for thread, {}", errnoToString());
}
}
}
}
#endif
}
ThreadStatus::~ThreadStatus()
{
memory_tracker.adjustWithUntrackedMemory(untracked_memory);
if (thread_group)
{
ThreadGroupStatus::ProfileEventsCountersAndMemory counters
{
performance_counters.getPartiallyAtomicSnapshot(),
memory_tracker.get(),
thread_id
};
std::lock_guard guard(thread_group->mutex);
thread_group->finished_threads_counters_memory.emplace_back(std::move(counters));
thread_group->threads.erase(this);
}
/// It may cause segfault if query_context was destroyed, but was not detached
auto query_context_ptr = query_context.lock();
assert((!query_context_ptr && query_id.empty()) || (query_context_ptr && query_id == query_context_ptr->getCurrentQueryId()));
if (deleter)
deleter();
/// Only change current_thread if it's currently being used by this ThreadStatus
/// For example, PushingToViews chain creates and deletes ThreadStatus instances while running in the main query thread
if (current_thread == this)
current_thread = nullptr;
}
void ThreadStatus::updatePerformanceCounters()
{
try
{
RUsageCounters::updateProfileEvents(*last_rusage, performance_counters);
if (taskstats)
taskstats->updateCounters(performance_counters);
}
catch (...)
{
tryLogCurrentException(log);
}
}
void ThreadStatus::assertState(const std::initializer_list<int> & permitted_states, const char * description) const
{
for (auto permitted_state : permitted_states)
{
if (getCurrentState() == permitted_state)
return;
}
if (description)
throw Exception(ErrorCodes::LOGICAL_ERROR, "Unexpected thread state {}: {}", getCurrentState(), description);
else
throw Exception(ErrorCodes::LOGICAL_ERROR, "Unexpected thread state {}", getCurrentState());
}
void ThreadStatus::attachInternalTextLogsQueue(const InternalTextLogsQueuePtr & logs_queue,
LogsLevel client_logs_level)
{
logs_queue_ptr = logs_queue;
if (!thread_group)
return;
std::lock_guard lock(thread_group->mutex);
thread_group->logs_queue_ptr = logs_queue;
thread_group->client_logs_level = client_logs_level;
}
void ThreadStatus::attachInternalProfileEventsQueue(const InternalProfileEventsQueuePtr & profile_queue)
{
profile_queue_ptr = profile_queue;
if (!thread_group)
return;
std::lock_guard lock(thread_group->mutex);
thread_group->profile_queue_ptr = profile_queue;
}
void ThreadStatus::setFatalErrorCallback(std::function<void()> callback)
{
fatal_error_callback = std::move(callback);
if (!thread_group)
return;
std::lock_guard lock(thread_group->mutex);
thread_group->fatal_error_callback = fatal_error_callback;
}
void ThreadStatus::onFatalError()
{
if (fatal_error_callback)
fatal_error_callback();
}
ThreadStatus * MainThreadStatus::main_thread = nullptr;
MainThreadStatus & MainThreadStatus::getInstance()
{
static MainThreadStatus thread_status;
return thread_status;
}
MainThreadStatus::MainThreadStatus()
{
main_thread = current_thread;
}
MainThreadStatus::~MainThreadStatus()
{
main_thread = nullptr;
}
}