//===-- SelectHelper.cpp --------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #if defined(__APPLE__) // Enable this special support for Apple builds where we can have unlimited // select bounds. We tried switching to poll() and kqueue and we were panicing // the kernel, so we have to stick with select for now. #define _DARWIN_UNLIMITED_SELECT #endif #include "lldb/Utility/SelectHelper.h" #include "lldb/Utility/LLDBAssert.h" #include "lldb/Utility/Status.h" #include "lldb/lldb-enumerations.h" #include "lldb/lldb-types.h" #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/Optional.h" #include #include #include #if defined(_WIN32) // Define NOMINMAX to avoid macros that conflict with std::min and std::max #define NOMINMAX #include #else #include #include #endif SelectHelper::SelectHelper() : m_fd_map(), m_end_time() // Infinite timeout unless // SelectHelper::SetTimeout() gets called {} void SelectHelper::SetTimeout(const std::chrono::microseconds &timeout) { using namespace std::chrono; m_end_time = steady_clock::time_point(steady_clock::now() + timeout); } void SelectHelper::FDSetRead(lldb::socket_t fd) { m_fd_map[fd].read_set = true; } void SelectHelper::FDSetWrite(lldb::socket_t fd) { m_fd_map[fd].write_set = true; } void SelectHelper::FDSetError(lldb::socket_t fd) { m_fd_map[fd].error_set = true; } bool SelectHelper::FDIsSetRead(lldb::socket_t fd) const { auto pos = m_fd_map.find(fd); if (pos != m_fd_map.end()) return pos->second.read_is_set; else return false; } bool SelectHelper::FDIsSetWrite(lldb::socket_t fd) const { auto pos = m_fd_map.find(fd); if (pos != m_fd_map.end()) return pos->second.write_is_set; else return false; } bool SelectHelper::FDIsSetError(lldb::socket_t fd) const { auto pos = m_fd_map.find(fd); if (pos != m_fd_map.end()) return pos->second.error_is_set; else return false; } static void updateMaxFd(llvm::Optional &vold, lldb::socket_t vnew) { if (!vold.hasValue()) vold = vnew; else vold = std::max(*vold, vnew); } lldb_private::Status SelectHelper::Select() { lldb_private::Status error; #ifdef _WIN32 // On windows FD_SETSIZE limits the number of file descriptors, not their // numeric value. lldbassert(m_fd_map.size() <= FD_SETSIZE); if (m_fd_map.size() > FD_SETSIZE) return lldb_private::Status("Too many file descriptors for select()"); #endif llvm::Optional max_read_fd; llvm::Optional max_write_fd; llvm::Optional max_error_fd; llvm::Optional max_fd; for (auto &pair : m_fd_map) { pair.second.PrepareForSelect(); const lldb::socket_t fd = pair.first; #if !defined(__APPLE__) && !defined(_WIN32) lldbassert(fd < static_cast(FD_SETSIZE)); if (fd >= static_cast(FD_SETSIZE)) { error.SetErrorStringWithFormat("%i is too large for select()", fd); return error; } #endif if (pair.second.read_set) updateMaxFd(max_read_fd, fd); if (pair.second.write_set) updateMaxFd(max_write_fd, fd); if (pair.second.error_set) updateMaxFd(max_error_fd, fd); updateMaxFd(max_fd, fd); } if (!max_fd.hasValue()) { error.SetErrorString("no valid file descriptors"); return error; } const unsigned nfds = static_cast(*max_fd) + 1; fd_set *read_fdset_ptr = nullptr; fd_set *write_fdset_ptr = nullptr; fd_set *error_fdset_ptr = nullptr; // Initialize and zero out the fdsets #if defined(__APPLE__) llvm::SmallVector read_fdset; llvm::SmallVector write_fdset; llvm::SmallVector error_fdset; if (max_read_fd.hasValue()) { read_fdset.resize((nfds / FD_SETSIZE) + 1); read_fdset_ptr = read_fdset.data(); } if (max_write_fd.hasValue()) { write_fdset.resize((nfds / FD_SETSIZE) + 1); write_fdset_ptr = write_fdset.data(); } if (max_error_fd.hasValue()) { error_fdset.resize((nfds / FD_SETSIZE) + 1); error_fdset_ptr = error_fdset.data(); } for (auto &fd_set : read_fdset) FD_ZERO(&fd_set); for (auto &fd_set : write_fdset) FD_ZERO(&fd_set); for (auto &fd_set : error_fdset) FD_ZERO(&fd_set); #else fd_set read_fdset; fd_set write_fdset; fd_set error_fdset; if (max_read_fd.hasValue()) { FD_ZERO(&read_fdset); read_fdset_ptr = &read_fdset; } if (max_write_fd.hasValue()) { FD_ZERO(&write_fdset); write_fdset_ptr = &write_fdset; } if (max_error_fd.hasValue()) { FD_ZERO(&error_fdset); error_fdset_ptr = &error_fdset; } #endif // Set the FD bits in the fdsets for read/write/error for (auto &pair : m_fd_map) { const lldb::socket_t fd = pair.first; if (pair.second.read_set) FD_SET(fd, read_fdset_ptr); if (pair.second.write_set) FD_SET(fd, write_fdset_ptr); if (pair.second.error_set) FD_SET(fd, error_fdset_ptr); } // Setup our timeout time value if needed struct timeval *tv_ptr = nullptr; struct timeval tv = {0, 0}; while (true) { using namespace std::chrono; // Setup out relative timeout based on the end time if we have one if (m_end_time.hasValue()) { tv_ptr = &tv; const auto remaining_dur = duration_cast( m_end_time.getValue() - steady_clock::now()); if (remaining_dur.count() > 0) { // Wait for a specific amount of time const auto dur_secs = duration_cast(remaining_dur); const auto dur_usecs = remaining_dur % seconds(1); tv.tv_sec = dur_secs.count(); tv.tv_usec = dur_usecs.count(); } else { // Just poll once with no timeout tv.tv_sec = 0; tv.tv_usec = 0; } } const int num_set_fds = ::select(nfds, read_fdset_ptr, write_fdset_ptr, error_fdset_ptr, tv_ptr); if (num_set_fds < 0) { // We got an error error.SetErrorToErrno(); if (error.GetError() == EINTR) { error.Clear(); continue; // Keep calling select if we get EINTR } else return error; } else if (num_set_fds == 0) { // Timeout error.SetError(ETIMEDOUT, lldb::eErrorTypePOSIX); error.SetErrorString("timed out"); return error; } else { // One or more descriptors were set, update the FDInfo::select_is_set // mask so users can ask the SelectHelper class so clients can call one // of: for (auto &pair : m_fd_map) { const int fd = pair.first; if (pair.second.read_set) { if (FD_ISSET(fd, read_fdset_ptr)) pair.second.read_is_set = true; } if (pair.second.write_set) { if (FD_ISSET(fd, write_fdset_ptr)) pair.second.write_is_set = true; } if (pair.second.error_set) { if (FD_ISSET(fd, error_fdset_ptr)) pair.second.error_is_set = true; } } break; } } return error; }