/* * Copyright 2006, Brian Swetland * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define TRACE_TAG FDEVENT #include "sysdeps.h" #include #include #include #include #include "adb_utils.h" #include "fdevent.h" #include "fdevent_epoll.h" #include "fdevent_poll.h" using namespace std::chrono_literals; using std::chrono::duration_cast; void invoke_fde(struct fdevent* fde, unsigned events) { if (auto f = std::get_if(&fde->func)) { (*f)(fde->fd.get(), events, fde->arg); } else if (auto f = std::get_if(&fde->func)) { (*f)(fde, events, fde->arg); } else { __builtin_unreachable(); } } std::string dump_fde(const fdevent* fde) { std::string state; if (fde->state & FDE_READ) { state += "R"; } if (fde->state & FDE_WRITE) { state += "W"; } if (fde->state & FDE_ERROR) { state += "E"; } return android::base::StringPrintf("(fdevent %" PRIu64 ": fd %d %s)", fde->id, fde->fd.get(), state.c_str()); } fdevent* fdevent_context::Create(unique_fd fd, std::variant func, void* arg) { CheckMainThread(); CHECK_GE(fd.get(), 0); int fd_num = fd.get(); fdevent* fde = new fdevent(); fde->id = fdevent_id_++; fde->state = 0; fde->fd = std::move(fd); fde->func = func; fde->arg = arg; if (!set_file_block_mode(fde->fd, false)) { // Here is not proper to handle the error. If it fails here, some error is // likely to be detected by poll(), then we can let the callback function // to handle it. LOG(ERROR) << "failed to set non-blocking mode for fd " << fde->fd.get(); } auto [it, inserted] = this->installed_fdevents_.emplace(fd_num, fde); CHECK(inserted); UNUSED(it); this->Register(fde); return fde; } unique_fd fdevent_context::Destroy(fdevent* fde) { CheckMainThread(); if (!fde) { return {}; } this->Unregister(fde); auto erased = this->installed_fdevents_.erase(fde->fd.get()); CHECK_EQ(1UL, erased); unique_fd result = std::move(fde->fd); delete fde; return result; } void fdevent_context::Add(fdevent* fde, unsigned events) { CHECK(!(events & FDE_TIMEOUT)); Set(fde, fde->state | events); } void fdevent_context::Del(fdevent* fde, unsigned events) { CHECK(!(events & FDE_TIMEOUT)); Set(fde, fde->state & ~events); } void fdevent_context::SetTimeout(fdevent* fde, std::optional timeout) { CheckMainThread(); fde->timeout = timeout; fde->last_active = std::chrono::steady_clock::now(); } std::optional fdevent_context::CalculatePollDuration() { std::optional result = std::nullopt; auto now = std::chrono::steady_clock::now(); CheckMainThread(); for (const auto& [fd, fde] : this->installed_fdevents_) { UNUSED(fd); auto timeout_opt = fde->timeout; if (timeout_opt) { auto deadline = fde->last_active + *timeout_opt; auto time_left = duration_cast(deadline - now); if (time_left < 0ms) { time_left = 0ms; } if (!result) { result = time_left; } else { result = std::min(*result, time_left); } } } return result; } void fdevent_context::HandleEvents(const std::vector& events) { for (const auto& event : events) { invoke_fde(event.fde, event.events); } FlushRunQueue(); } void fdevent_context::FlushRunQueue() { // We need to be careful around reentrancy here, since a function we call can queue up another // function. while (true) { std::function fn; { std::lock_guard lock(this->run_queue_mutex_); if (this->run_queue_.empty()) { break; } fn = std::move(this->run_queue_.front()); this->run_queue_.pop_front(); } fn(); } } void fdevent_context::CheckMainThread() { if (main_thread_id_) { CHECK_EQ(*main_thread_id_, android::base::GetThreadId()); } } void fdevent_context::Run(std::function fn) { { std::lock_guard lock(run_queue_mutex_); run_queue_.push_back(std::move(fn)); } Interrupt(); } void fdevent_context::TerminateLoop() { terminate_loop_ = true; Interrupt(); } static std::unique_ptr fdevent_create_context() { #if defined(__linux__) return std::make_unique(); #else return std::make_unique(); #endif } static auto& g_ambient_fdevent_context = *new std::unique_ptr(fdevent_create_context()); static fdevent_context* fdevent_get_ambient() { return g_ambient_fdevent_context.get(); } fdevent* fdevent_create(int fd, fd_func func, void* arg) { unique_fd ufd(fd); return fdevent_get_ambient()->Create(std::move(ufd), func, arg); } fdevent* fdevent_create(int fd, fd_func2 func, void* arg) { unique_fd ufd(fd); return fdevent_get_ambient()->Create(std::move(ufd), func, arg); } unique_fd fdevent_release(fdevent* fde) { return fdevent_get_ambient()->Destroy(fde); } void fdevent_destroy(fdevent* fde) { fdevent_get_ambient()->Destroy(fde); } void fdevent_set(fdevent* fde, unsigned events) { fdevent_get_ambient()->Set(fde, events); } void fdevent_add(fdevent* fde, unsigned events) { fdevent_get_ambient()->Add(fde, events); } void fdevent_del(fdevent* fde, unsigned events) { fdevent_get_ambient()->Del(fde, events); } void fdevent_set_timeout(fdevent* fde, std::optional timeout) { fdevent_get_ambient()->SetTimeout(fde, timeout); } void fdevent_run_on_main_thread(std::function fn) { fdevent_get_ambient()->Run(std::move(fn)); } void fdevent_loop() { fdevent_get_ambient()->Loop(); } void check_main_thread() { fdevent_get_ambient()->CheckMainThread(); } void fdevent_terminate_loop() { fdevent_get_ambient()->TerminateLoop(); } size_t fdevent_installed_count() { return fdevent_get_ambient()->InstalledCount(); } void fdevent_reset() { g_ambient_fdevent_context = fdevent_create_context(); }