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llvm-project/lldb/source/Host/posix/ConnectionFileDescriptorPosix.cpp
Pavel Labath b6dbe9a99c Clean up lldb-types.h 
Summary:
It defined a couple of types (condition_t) which we don't use anymore,
as we have c++11 goodies now. I remove these definitions.

Also it unnecessarily included a couple of headers which weren't
necessary for it's operation. I remove these, and place the includes in
the relevant files (usually .cpp, usually in Host code) which use them.
This allows us to reduce namespace pollution in most of the lldb files
which don't need the OS-specific definitions.

Reviewers: zturner, jingham

Subscribers: ki.stfu, lldb-commits

Differential Revision: https://reviews.llvm.org/D35113

llvm-svn: 308304
2017-07-18 13:14:01 +00:00

786 lines
27 KiB
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Raw Blame History

//===-- ConnectionFileDescriptorPosix.cpp -----------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#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"
// C Includes
#include <errno.h>
#include <fcntl.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#ifndef LLDB_DISABLE_POSIX
#include <termios.h>
#include <unistd.h>
#endif
// C++ Includes
#include <sstream>
// Other libraries and framework includes
#include "llvm/Support/Errno.h"
#include "llvm/Support/ErrorHandling.h"
#if defined(__APPLE__)
#include "llvm/ADT/SmallVector.h"
#endif
// Project includes
#include "lldb/Host/Host.h"
#include "lldb/Host/Socket.h"
#include "lldb/Host/common/TCPSocket.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<llvm::StringRef> 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));
if (log)
log->Printf("%p ConnectionFileDescriptor::ConnectionFileDescriptor ()",
static_cast<void *>(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.reset(new File(fd, owns_fd));
m_read_sp.reset(new File(fd, false));
Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION |
LIBLLDB_LOG_OBJECT));
if (log)
log->Printf("%p ConnectionFileDescriptor::ConnectionFileDescriptor (fd = "
"%i, owns_fd = %i)",
static_cast<void *>(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));
if (log)
log->Printf("%p ConnectionFileDescriptor::~ConnectionFileDescriptor ()",
static_cast<void *>(this));
Disconnect(NULL);
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()) {
if (log)
log->Printf("%p ConnectionFileDescriptor::OpenCommandPipe () - could not "
"make pipe: %s",
static_cast<void *>(this), result.AsCString());
} else {
if (log)
log->Printf("%p ConnectionFileDescriptor::OpenCommandPipe() - success "
"readfd=%d writefd=%d",
static_cast<void *>(this), m_pipe.GetReadFileDescriptor(),
m_pipe.GetWriteFileDescriptor());
}
}
void ConnectionFileDescriptor::CloseCommandPipe() {
Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
if (log)
log->Printf("%p ConnectionFileDescriptor::CloseCommandPipe()",
static_cast<void *>(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<std::recursive_mutex> guard(m_mutex);
Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
if (log)
log->Printf("%p ConnectionFileDescriptor::Connect (url = '%s')",
static_cast<void *>(this), path.str().c_str());
OpenCommandPipe();
if (!path.empty()) {
llvm::Optional<llvm::StringRef> 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);
}
#ifndef LLDB_DISABLE_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<TCPSocket> tcp_socket;
tcp_socket.reset(new TCPSocket(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.reset(new File(fd, false));
m_write_sp.reset(new File(fd, false));
}
m_uri = *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;
::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.reset(new File(fd, true));
m_write_sp.reset(new File(fd, 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));
if (log)
log->Printf("%p ConnectionFileDescriptor::Disconnect ()",
static_cast<void *>(this));
ConnectionStatus status = eConnectionStatusSuccess;
if (!IsConnected()) {
if (log)
log->Printf(
"%p ConnectionFileDescriptor::Disconnect(): Nothing to disconnect",
static_cast<void *>(this));
return eConnectionStatusSuccess;
}
if (m_read_sp && m_read_sp->IsValid() &&
m_read_sp->GetFdType() == IOObject::eFDTypeSocket)
static_cast<Socket &>(*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.
m_shutting_down = true;
std::unique_lock<std::recursive_mutex> 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);
if (log)
log->Printf("%p ConnectionFileDescriptor::Disconnect(): Couldn't get "
"the lock, sent 'q' to %d, error = '%s'.",
static_cast<void *>(this), m_pipe.GetWriteFileDescriptor(),
result.AsCString());
} else if (log) {
log->Printf("%p ConnectionFileDescriptor::Disconnect(): Couldn't get the "
"lock, but no command pipe is available.",
static_cast<void *>(this));
}
locker.lock();
}
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<std::micro> &timeout,
ConnectionStatus &status,
Status *error_ptr) {
Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
std::unique_lock<std::recursive_mutex> locker(m_mutex, std::defer_lock);
if (!locker.try_lock()) {
if (log)
log->Printf("%p ConnectionFileDescriptor::Read () failed to get the "
"connection lock.",
static_cast<void *>(this));
if (error_ptr)
error_ptr->SetErrorString("failed to get the connection lock for read.");
status = eConnectionStatusTimedOut;
return 0;
}
if (m_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) {
log->Printf("%p ConnectionFileDescriptor::Read() fd = %" PRIu64
", dst = %p, dst_len = %" PRIu64 ") => %" PRIu64 ", error = %s",
static_cast<void *>(this),
static_cast<uint64_t>(m_read_sp->GetWaitableHandle()),
static_cast<void *>(dst), static_cast<uint64_t>(dst_len),
static_cast<uint64_t>(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));
if (log)
log->Printf(
"%p ConnectionFileDescriptor::Write (src = %p, src_len = %" PRIu64 ")",
static_cast<void *>(this), static_cast<const void *>(src),
static_cast<uint64_t>(src_len));
if (!IsConnected()) {
if (error_ptr)
error_ptr->SetErrorString("not connected");
status = eConnectionStatusNoConnection;
return 0;
}
Status error;
size_t bytes_sent = src_len;
error = m_write_sp->Write(src, bytes_sent);
if (log) {
log->Printf("%p ConnectionFileDescriptor::Write(fd = %" PRIu64
", src = %p, src_len = %" PRIu64 ") => %" PRIu64
" (error = %s)",
static_cast<void *>(this),
static_cast<uint64_t>(m_write_sp->GetWaitableHandle()),
static_cast<const void *>(src), static_cast<uint64_t>(src_len),
static_cast<uint64_t>(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<std::micro> &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(_MSC_VER)
// 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':
if (log)
log->Printf("%p ConnectionFileDescriptor::BytesAvailable() "
"got data: %c from the command channel.",
static_cast<void *>(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(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(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(socket_name);
return eConnectionStatusSuccess;
}
ConnectionStatus
ConnectionFileDescriptor::SocketListenAndAccept(llvm::StringRef s,
Status *error_ptr) {
m_port_predicate.SetValue(0, eBroadcastNever);
Socket *socket = nullptr;
m_waiting_for_accept = true;
Status error = Socket::TcpListen(s, m_child_processes_inherit, socket,
&m_port_predicate);
if (error_ptr)
*error_ptr = error;
if (error.Fail())
return eConnectionStatusError;
std::unique_ptr<Socket> listening_socket_up;
listening_socket_up.reset(socket);
socket = nullptr;
error = listening_socket_up->Accept(socket);
listening_socket_up.reset();
if (error_ptr)
*error_ptr = error;
if (error.Fail())
return eConnectionStatusError;
InitializeSocket(socket);
return eConnectionStatusSuccess;
}
ConnectionStatus ConnectionFileDescriptor::ConnectTCP(llvm::StringRef s,
Status *error_ptr) {
Socket *socket = nullptr;
Status error = Socket::TcpConnect(s, 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(s);
return eConnectionStatusSuccess;
}
ConnectionStatus ConnectionFileDescriptor::ConnectUDP(llvm::StringRef s,
Status *error_ptr) {
Socket *socket = nullptr;
Status error = Socket::UdpConnect(s, 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(s);
return eConnectionStatusSuccess;
}
uint16_t ConnectionFileDescriptor::GetListeningPort(uint32_t timeout_sec) {
uint16_t bound_port = 0;
if (timeout_sec == UINT32_MAX)
m_port_predicate.WaitForValueNotEqualTo(0, bound_port);
else
m_port_predicate.WaitForValueNotEqualTo(0, bound_port,
std::chrono::seconds(timeout_sec));
return bound_port;
}
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) {
assert(socket->GetSocketProtocol() == Socket::ProtocolTcp);
TCPSocket *tcp_socket = static_cast<TCPSocket *>(socket);
m_write_sp.reset(socket);
m_read_sp = m_write_sp;
StreamString strm;
strm.Printf("connect://%s:%u", tcp_socket->GetRemoteIPAddress().c_str(),
tcp_socket->GetRemotePortNumber());
m_uri = strm.GetString();
}
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