//===-- ConnectionFileDescriptorPosix.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/Host/posix/ConnectionFileDescriptorPosix.h" #include "lldb/Host/Config.h" #include "lldb/Host/Socket.h" #include "lldb/Host/SocketAddress.h" #include "lldb/Utility/SelectHelper.h" #include "lldb/Utility/Timeout.h" #include #include #include #include #include #if LLDB_ENABLE_POSIX #include #include #endif #include #include #include "llvm/Support/Errno.h" #include "llvm/Support/ErrorHandling.h" #if defined(__APPLE__) #include "llvm/ADT/SmallVector.h" #endif #include "lldb/Host/Host.h" #include "lldb/Host/Socket.h" #include "lldb/Host/common/TCPSocket.h" #include "lldb/Host/common/UDPSocket.h" #include "lldb/Utility/Log.h" #include "lldb/Utility/StreamString.h" #include "lldb/Utility/Timer.h" using namespace lldb; using namespace lldb_private; const char *ConnectionFileDescriptor::LISTEN_SCHEME = "listen"; const char *ConnectionFileDescriptor::ACCEPT_SCHEME = "accept"; const char *ConnectionFileDescriptor::UNIX_ACCEPT_SCHEME = "unix-accept"; const char *ConnectionFileDescriptor::CONNECT_SCHEME = "connect"; const char *ConnectionFileDescriptor::TCP_CONNECT_SCHEME = "tcp-connect"; const char *ConnectionFileDescriptor::UDP_SCHEME = "udp"; const char *ConnectionFileDescriptor::UNIX_CONNECT_SCHEME = "unix-connect"; const char *ConnectionFileDescriptor::UNIX_ABSTRACT_CONNECT_SCHEME = "unix-abstract-connect"; const char *ConnectionFileDescriptor::FD_SCHEME = "fd"; const char *ConnectionFileDescriptor::FILE_SCHEME = "file"; namespace { llvm::Optional GetURLAddress(llvm::StringRef url, llvm::StringRef scheme) { if (!url.consume_front(scheme)) return llvm::None; if (!url.consume_front("://")) return llvm::None; return url; } } ConnectionFileDescriptor::ConnectionFileDescriptor(bool child_processes_inherit) : Connection(), m_pipe(), m_mutex(), m_shutting_down(false), m_waiting_for_accept(false), m_child_processes_inherit(child_processes_inherit) { Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION | LIBLLDB_LOG_OBJECT)); LLDB_LOGF(log, "%p ConnectionFileDescriptor::ConnectionFileDescriptor ()", static_cast(this)); } ConnectionFileDescriptor::ConnectionFileDescriptor(int fd, bool owns_fd) : Connection(), m_pipe(), m_mutex(), m_shutting_down(false), m_waiting_for_accept(false), m_child_processes_inherit(false) { m_write_sp = std::make_shared(fd, File::eOpenOptionWrite, owns_fd); m_read_sp = std::make_shared(fd, File::eOpenOptionRead, false); Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION | LIBLLDB_LOG_OBJECT)); LLDB_LOGF(log, "%p ConnectionFileDescriptor::ConnectionFileDescriptor (fd = " "%i, owns_fd = %i)", static_cast(this), fd, owns_fd); OpenCommandPipe(); } ConnectionFileDescriptor::ConnectionFileDescriptor(Socket *socket) : Connection(), m_pipe(), m_mutex(), m_shutting_down(false), m_waiting_for_accept(false), m_child_processes_inherit(false) { InitializeSocket(socket); } ConnectionFileDescriptor::~ConnectionFileDescriptor() { Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION | LIBLLDB_LOG_OBJECT)); LLDB_LOGF(log, "%p ConnectionFileDescriptor::~ConnectionFileDescriptor ()", static_cast(this)); Disconnect(nullptr); CloseCommandPipe(); } void ConnectionFileDescriptor::OpenCommandPipe() { CloseCommandPipe(); Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION)); // Make the command file descriptor here: Status result = m_pipe.CreateNew(m_child_processes_inherit); if (!result.Success()) { LLDB_LOGF(log, "%p ConnectionFileDescriptor::OpenCommandPipe () - could not " "make pipe: %s", static_cast(this), result.AsCString()); } else { LLDB_LOGF(log, "%p ConnectionFileDescriptor::OpenCommandPipe() - success " "readfd=%d writefd=%d", static_cast(this), m_pipe.GetReadFileDescriptor(), m_pipe.GetWriteFileDescriptor()); } } void ConnectionFileDescriptor::CloseCommandPipe() { Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION)); LLDB_LOGF(log, "%p ConnectionFileDescriptor::CloseCommandPipe()", static_cast(this)); m_pipe.Close(); } bool ConnectionFileDescriptor::IsConnected() const { return (m_read_sp && m_read_sp->IsValid()) || (m_write_sp && m_write_sp->IsValid()); } ConnectionStatus ConnectionFileDescriptor::Connect(llvm::StringRef path, Status *error_ptr) { std::lock_guard guard(m_mutex); Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION)); LLDB_LOGF(log, "%p ConnectionFileDescriptor::Connect (url = '%s')", static_cast(this), path.str().c_str()); OpenCommandPipe(); if (!path.empty()) { llvm::Optional addr; if ((addr = GetURLAddress(path, LISTEN_SCHEME))) { // listen://HOST:PORT return SocketListenAndAccept(*addr, error_ptr); } else if ((addr = GetURLAddress(path, ACCEPT_SCHEME))) { // unix://SOCKNAME return NamedSocketAccept(*addr, error_ptr); } else if ((addr = GetURLAddress(path, UNIX_ACCEPT_SCHEME))) { // unix://SOCKNAME return NamedSocketAccept(*addr, error_ptr); } else if ((addr = GetURLAddress(path, CONNECT_SCHEME))) { return ConnectTCP(*addr, error_ptr); } else if ((addr = GetURLAddress(path, TCP_CONNECT_SCHEME))) { return ConnectTCP(*addr, error_ptr); } else if ((addr = GetURLAddress(path, UDP_SCHEME))) { return ConnectUDP(*addr, error_ptr); } else if ((addr = GetURLAddress(path, UNIX_CONNECT_SCHEME))) { // unix-connect://SOCKNAME return NamedSocketConnect(*addr, error_ptr); } else if ((addr = GetURLAddress(path, UNIX_ABSTRACT_CONNECT_SCHEME))) { // unix-abstract-connect://SOCKNAME return UnixAbstractSocketConnect(*addr, error_ptr); } #if LLDB_ENABLE_POSIX else if ((addr = GetURLAddress(path, FD_SCHEME))) { // Just passing a native file descriptor within this current process that // is already opened (possibly from a service or other source). int fd = -1; if (!addr->getAsInteger(0, fd)) { // We have what looks to be a valid file descriptor, but we should make // sure it is. We currently are doing this by trying to get the flags // from the file descriptor and making sure it isn't a bad fd. errno = 0; int flags = ::fcntl(fd, F_GETFL, 0); if (flags == -1 || errno == EBADF) { if (error_ptr) error_ptr->SetErrorStringWithFormat("stale file descriptor: %s", path.str().c_str()); m_read_sp.reset(); m_write_sp.reset(); return eConnectionStatusError; } else { // Don't take ownership of a file descriptor that gets passed to us // since someone else opened the file descriptor and handed it to us. // TODO: Since are using a URL to open connection we should // eventually parse options using the web standard where we have // "fd://123?opt1=value;opt2=value" and we can have an option be // "owns=1" or "owns=0" or something like this to allow us to specify // this. For now, we assume we must assume we don't own it. std::unique_ptr tcp_socket; tcp_socket = std::make_unique(fd, false, false); // Try and get a socket option from this file descriptor to see if // this is a socket and set m_is_socket accordingly. int resuse; bool is_socket = !!tcp_socket->GetOption(SOL_SOCKET, SO_REUSEADDR, resuse); if (is_socket) { m_read_sp = std::move(tcp_socket); m_write_sp = m_read_sp; } else { m_read_sp = std::make_shared(fd, File::eOpenOptionRead, false); m_write_sp = std::make_shared(fd, File::eOpenOptionWrite, false); } m_uri = std::string(*addr); return eConnectionStatusSuccess; } } if (error_ptr) error_ptr->SetErrorStringWithFormat("invalid file descriptor: \"%s\"", path.str().c_str()); m_read_sp.reset(); m_write_sp.reset(); return eConnectionStatusError; } else if ((addr = GetURLAddress(path, FILE_SCHEME))) { std::string addr_str = addr->str(); // file:///PATH int fd = llvm::sys::RetryAfterSignal(-1, ::open, addr_str.c_str(), O_RDWR); if (fd == -1) { if (error_ptr) error_ptr->SetErrorToErrno(); return eConnectionStatusError; } if (::isatty(fd)) { // Set up serial terminal emulation struct termios options; ::tcgetattr(fd, &options); // Set port speed to maximum ::cfsetospeed(&options, B115200); ::cfsetispeed(&options, B115200); // Raw input, disable echo and signals options.c_lflag &= ~(ICANON | ECHO | ECHOE | ISIG); // Make sure only one character is needed to return from a read options.c_cc[VMIN] = 1; options.c_cc[VTIME] = 0; llvm::sys::RetryAfterSignal(-1, ::tcsetattr, fd, TCSANOW, &options); } int flags = ::fcntl(fd, F_GETFL, 0); if (flags >= 0) { if ((flags & O_NONBLOCK) == 0) { flags |= O_NONBLOCK; ::fcntl(fd, F_SETFL, flags); } } m_read_sp = std::make_shared(fd, File::eOpenOptionRead, true); m_write_sp = std::make_shared(fd, File::eOpenOptionWrite, false); return eConnectionStatusSuccess; } #endif if (error_ptr) error_ptr->SetErrorStringWithFormat("unsupported connection URL: '%s'", path.str().c_str()); return eConnectionStatusError; } if (error_ptr) error_ptr->SetErrorString("invalid connect arguments"); return eConnectionStatusError; } bool ConnectionFileDescriptor::InterruptRead() { size_t bytes_written = 0; Status result = m_pipe.Write("i", 1, bytes_written); return result.Success(); } ConnectionStatus ConnectionFileDescriptor::Disconnect(Status *error_ptr) { Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION)); LLDB_LOGF(log, "%p ConnectionFileDescriptor::Disconnect ()", static_cast(this)); ConnectionStatus status = eConnectionStatusSuccess; if (!IsConnected()) { LLDB_LOGF( log, "%p ConnectionFileDescriptor::Disconnect(): Nothing to disconnect", static_cast(this)); return eConnectionStatusSuccess; } if (m_read_sp && m_read_sp->IsValid() && m_read_sp->GetFdType() == IOObject::eFDTypeSocket) static_cast(*m_read_sp).PreDisconnect(); // Try to get the ConnectionFileDescriptor's mutex. If we fail, that is // quite likely because somebody is doing a blocking read on our file // descriptor. If that's the case, then send the "q" char to the command // file channel so the read will wake up and the connection will then know to // shut down. std::unique_lock locker(m_mutex, std::defer_lock); if (!locker.try_lock()) { if (m_pipe.CanWrite()) { size_t bytes_written = 0; Status result = m_pipe.Write("q", 1, bytes_written); LLDB_LOGF(log, "%p ConnectionFileDescriptor::Disconnect(): Couldn't get " "the lock, sent 'q' to %d, error = '%s'.", static_cast(this), m_pipe.GetWriteFileDescriptor(), result.AsCString()); } else if (log) { LLDB_LOGF(log, "%p ConnectionFileDescriptor::Disconnect(): Couldn't get the " "lock, but no command pipe is available.", static_cast(this)); } locker.lock(); } // Prevents reads and writes during shutdown. m_shutting_down = true; Status error = m_read_sp->Close(); Status error2 = m_write_sp->Close(); if (error.Fail() || error2.Fail()) status = eConnectionStatusError; if (error_ptr) *error_ptr = error.Fail() ? error : error2; // Close any pipes we were using for async interrupts m_pipe.Close(); m_uri.clear(); m_shutting_down = false; return status; } size_t ConnectionFileDescriptor::Read(void *dst, size_t dst_len, const Timeout &timeout, ConnectionStatus &status, Status *error_ptr) { Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION)); std::unique_lock locker(m_mutex, std::defer_lock); if (!locker.try_lock()) { LLDB_LOGF(log, "%p ConnectionFileDescriptor::Read () failed to get the " "connection lock.", static_cast(this)); if (error_ptr) error_ptr->SetErrorString("failed to get the connection lock for read."); status = eConnectionStatusTimedOut; return 0; } if (m_shutting_down) { if (error_ptr) error_ptr->SetErrorString("shutting down"); status = eConnectionStatusError; return 0; } status = BytesAvailable(timeout, error_ptr); if (status != eConnectionStatusSuccess) return 0; Status error; size_t bytes_read = dst_len; error = m_read_sp->Read(dst, bytes_read); if (log) { LLDB_LOGF(log, "%p ConnectionFileDescriptor::Read() fd = %" PRIu64 ", dst = %p, dst_len = %" PRIu64 ") => %" PRIu64 ", error = %s", static_cast(this), static_cast(m_read_sp->GetWaitableHandle()), static_cast(dst), static_cast(dst_len), static_cast(bytes_read), error.AsCString()); } if (bytes_read == 0) { error.Clear(); // End-of-file. Do not automatically close; pass along for // the end-of-file handlers. status = eConnectionStatusEndOfFile; } if (error_ptr) *error_ptr = error; if (error.Fail()) { uint32_t error_value = error.GetError(); switch (error_value) { case EAGAIN: // The file was marked for non-blocking I/O, and no data were // ready to be read. if (m_read_sp->GetFdType() == IOObject::eFDTypeSocket) status = eConnectionStatusTimedOut; else status = eConnectionStatusSuccess; return 0; case EFAULT: // Buf points outside the allocated address space. case EINTR: // A read from a slow device was interrupted before any data // arrived by the delivery of a signal. case EINVAL: // The pointer associated with fildes was negative. case EIO: // An I/O error occurred while reading from the file system. // The process group is orphaned. // The file is a regular file, nbyte is greater than 0, the // starting position is before the end-of-file, and the // starting position is greater than or equal to the offset // maximum established for the open file descriptor // associated with fildes. case EISDIR: // An attempt is made to read a directory. case ENOBUFS: // An attempt to allocate a memory buffer fails. case ENOMEM: // Insufficient memory is available. status = eConnectionStatusError; break; // Break to close.... case ENOENT: // no such file or directory case EBADF: // fildes is not a valid file or socket descriptor open for // reading. case ENXIO: // An action is requested of a device that does not exist.. // A requested action cannot be performed by the device. case ECONNRESET: // The connection is closed by the peer during a read // attempt on a socket. case ENOTCONN: // A read is attempted on an unconnected socket. status = eConnectionStatusLostConnection; break; // Break to close.... case ETIMEDOUT: // A transmission timeout occurs during a read attempt on a // socket. status = eConnectionStatusTimedOut; return 0; default: LLDB_LOG(log, "this = {0}, unexpected error: {1}", this, llvm::sys::StrError(error_value)); status = eConnectionStatusError; break; // Break to close.... } return 0; } return bytes_read; } size_t ConnectionFileDescriptor::Write(const void *src, size_t src_len, ConnectionStatus &status, Status *error_ptr) { Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION)); LLDB_LOGF(log, "%p ConnectionFileDescriptor::Write (src = %p, src_len = %" PRIu64 ")", static_cast(this), static_cast(src), static_cast(src_len)); if (!IsConnected()) { if (error_ptr) error_ptr->SetErrorString("not connected"); status = eConnectionStatusNoConnection; return 0; } if (m_shutting_down) { if (error_ptr) error_ptr->SetErrorString("shutting down"); status = eConnectionStatusError; return 0; } Status error; size_t bytes_sent = src_len; error = m_write_sp->Write(src, bytes_sent); if (log) { LLDB_LOGF(log, "%p ConnectionFileDescriptor::Write(fd = %" PRIu64 ", src = %p, src_len = %" PRIu64 ") => %" PRIu64 " (error = %s)", static_cast(this), static_cast(m_write_sp->GetWaitableHandle()), static_cast(src), static_cast(src_len), static_cast(bytes_sent), error.AsCString()); } if (error_ptr) *error_ptr = error; if (error.Fail()) { switch (error.GetError()) { case EAGAIN: case EINTR: status = eConnectionStatusSuccess; return 0; case ECONNRESET: // The connection is closed by the peer during a read // attempt on a socket. case ENOTCONN: // A read is attempted on an unconnected socket. status = eConnectionStatusLostConnection; break; // Break to close.... default: status = eConnectionStatusError; break; // Break to close.... } return 0; } status = eConnectionStatusSuccess; return bytes_sent; } std::string ConnectionFileDescriptor::GetURI() { return m_uri; } // This ConnectionFileDescriptor::BytesAvailable() uses select() via // SelectHelper // // PROS: // - select is consistent across most unix platforms // - The Apple specific version allows for unlimited fds in the fd_sets by // setting the _DARWIN_UNLIMITED_SELECT define prior to including the // required header files. // CONS: // - on non-Apple platforms, only supports file descriptors up to FD_SETSIZE. // This implementation will assert if it runs into that hard limit to let // users know that another ConnectionFileDescriptor::BytesAvailable() should // be used or a new version of ConnectionFileDescriptor::BytesAvailable() // should be written for the system that is running into the limitations. ConnectionStatus ConnectionFileDescriptor::BytesAvailable(const Timeout &timeout, Status *error_ptr) { // Don't need to take the mutex here separately since we are only called from // Read. If we ever get used more generally we will need to lock here as // well. Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_CONNECTION)); LLDB_LOG(log, "this = {0}, timeout = {1}", this, timeout); // Make a copy of the file descriptors to make sure we don't have another // thread change these values out from under us and cause problems in the // loop below where like in FS_SET() const IOObject::WaitableHandle handle = m_read_sp->GetWaitableHandle(); const int pipe_fd = m_pipe.GetReadFileDescriptor(); if (handle != IOObject::kInvalidHandleValue) { SelectHelper select_helper; if (timeout) select_helper.SetTimeout(*timeout); select_helper.FDSetRead(handle); #if defined(_WIN32) // select() won't accept pipes on Windows. The entire Windows codepath // needs to be converted over to using WaitForMultipleObjects and event // HANDLEs, but for now at least this will allow ::select() to not return // an error. const bool have_pipe_fd = false; #else const bool have_pipe_fd = pipe_fd >= 0; #endif if (have_pipe_fd) select_helper.FDSetRead(pipe_fd); while (handle == m_read_sp->GetWaitableHandle()) { Status error = select_helper.Select(); if (error_ptr) *error_ptr = error; if (error.Fail()) { switch (error.GetError()) { case EBADF: // One of the descriptor sets specified an invalid // descriptor. return eConnectionStatusLostConnection; case EINVAL: // The specified time limit is invalid. One of its // components is negative or too large. default: // Other unknown error return eConnectionStatusError; case ETIMEDOUT: return eConnectionStatusTimedOut; case EAGAIN: // The kernel was (perhaps temporarily) unable to // allocate the requested number of file descriptors, or // we have non-blocking IO case EINTR: // A signal was delivered before the time limit // expired and before any of the selected events occurred. break; // Lets keep reading to until we timeout } } else { if (select_helper.FDIsSetRead(handle)) return eConnectionStatusSuccess; if (select_helper.FDIsSetRead(pipe_fd)) { // There is an interrupt or exit command in the command pipe Read the // data from that pipe: char c; ssize_t bytes_read = llvm::sys::RetryAfterSignal(-1, ::read, pipe_fd, &c, 1); assert(bytes_read == 1); (void)bytes_read; switch (c) { case 'q': LLDB_LOGF(log, "%p ConnectionFileDescriptor::BytesAvailable() " "got data: %c from the command channel.", static_cast(this), c); return eConnectionStatusEndOfFile; case 'i': // Interrupt the current read return eConnectionStatusInterrupted; } } } } } if (error_ptr) error_ptr->SetErrorString("not connected"); return eConnectionStatusLostConnection; } ConnectionStatus ConnectionFileDescriptor::NamedSocketAccept(llvm::StringRef socket_name, Status *error_ptr) { Socket *socket = nullptr; Status error = Socket::UnixDomainAccept(socket_name, m_child_processes_inherit, socket); if (error_ptr) *error_ptr = error; m_write_sp.reset(socket); m_read_sp = m_write_sp; if (error.Fail()) { return eConnectionStatusError; } m_uri.assign(std::string(socket_name)); return eConnectionStatusSuccess; } ConnectionStatus ConnectionFileDescriptor::NamedSocketConnect(llvm::StringRef socket_name, Status *error_ptr) { Socket *socket = nullptr; Status error = Socket::UnixDomainConnect(socket_name, m_child_processes_inherit, socket); if (error_ptr) *error_ptr = error; m_write_sp.reset(socket); m_read_sp = m_write_sp; if (error.Fail()) { return eConnectionStatusError; } m_uri.assign(std::string(socket_name)); return eConnectionStatusSuccess; } lldb::ConnectionStatus ConnectionFileDescriptor::UnixAbstractSocketConnect(llvm::StringRef socket_name, Status *error_ptr) { Socket *socket = nullptr; Status error = Socket::UnixAbstractConnect(socket_name, m_child_processes_inherit, socket); if (error_ptr) *error_ptr = error; m_write_sp.reset(socket); m_read_sp = m_write_sp; if (error.Fail()) { return eConnectionStatusError; } m_uri.assign(std::string(socket_name)); return eConnectionStatusSuccess; } ConnectionStatus ConnectionFileDescriptor::SocketListenAndAccept(llvm::StringRef s, Status *error_ptr) { if (error_ptr) *error_ptr = Status(); m_port_predicate.SetValue(0, eBroadcastNever); m_waiting_for_accept = true; llvm::Expected> listening_socket = Socket::TcpListen(s, m_child_processes_inherit, &m_port_predicate); if (!listening_socket) { if (error_ptr) *error_ptr = listening_socket.takeError(); else LLDB_LOG_ERROR(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION), listening_socket.takeError(), "tcp listen failed: {0}"); return eConnectionStatusError; } Socket *accepted_socket; Status error = listening_socket.get()->Accept(accepted_socket); if (error_ptr) *error_ptr = error; if (error.Fail()) return eConnectionStatusError; InitializeSocket(accepted_socket); return eConnectionStatusSuccess; } ConnectionStatus ConnectionFileDescriptor::ConnectTCP(llvm::StringRef s, Status *error_ptr) { if (error_ptr) *error_ptr = Status(); llvm::Expected> socket = Socket::TcpConnect(s, m_child_processes_inherit); if (!socket) { if (error_ptr) *error_ptr = socket.takeError(); else LLDB_LOG_ERROR(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION), socket.takeError(), "tcp connect failed: {0}"); return eConnectionStatusError; } m_write_sp = std::move(*socket); m_read_sp = m_write_sp; m_uri.assign(std::string(s)); return eConnectionStatusSuccess; } ConnectionStatus ConnectionFileDescriptor::ConnectUDP(llvm::StringRef s, Status *error_ptr) { if (error_ptr) *error_ptr = Status(); llvm::Expected> socket = Socket::UdpConnect(s, m_child_processes_inherit); if (!socket) { if (error_ptr) *error_ptr = socket.takeError(); else LLDB_LOG_ERROR(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION), socket.takeError(), "tcp connect failed: {0}"); return eConnectionStatusError; } m_write_sp = std::move(*socket); m_read_sp = m_write_sp; m_uri.assign(std::string(s)); return eConnectionStatusSuccess; } uint16_t ConnectionFileDescriptor::GetListeningPort(const Timeout &timeout) { auto Result = m_port_predicate.WaitForValueNotEqualTo(0, timeout); return Result ? *Result : 0; } bool ConnectionFileDescriptor::GetChildProcessesInherit() const { return m_child_processes_inherit; } void ConnectionFileDescriptor::SetChildProcessesInherit( bool child_processes_inherit) { m_child_processes_inherit = child_processes_inherit; } void ConnectionFileDescriptor::InitializeSocket(Socket *socket) { m_write_sp.reset(socket); m_read_sp = m_write_sp; m_uri = socket->GetRemoteConnectionURI(); }