third_party/llvm-project/lldb/source/Host/common/Socket.cpp - cobalt - Git at Google

 //===-- Socket.cpp ----------------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "lldb/Host/Socket.h"

 #include "lldb/Host/Config.h"
 #include "lldb/Host/Host.h"
 #include "lldb/Host/SocketAddress.h"
 #include "lldb/Host/StringConvert.h"
 #include "lldb/Host/common/TCPSocket.h"
 #include "lldb/Host/common/UDPSocket.h"
 #include "lldb/Utility/Log.h"
 #include "lldb/Utility/RegularExpression.h"

 #include "llvm/ADT/STLExtras.h"

 #ifndef LLDB_DISABLE_POSIX
 #include "lldb/Host/posix/DomainSocket.h"

 #include <arpa/inet.h>
 #include <netdb.h>
 #include <netinet/in.h>
 #include <netinet/tcp.h>
 #include <sys/socket.h>
 #include <sys/un.h>
 #include <unistd.h>
 #endif

 #ifdef __linux__
 #include "lldb/Host/linux/AbstractSocket.h"
 #endif

 #ifdef __ANDROID__
 #include <arpa/inet.h>
 #include <asm-generic/errno-base.h>
 #include <errno.h>
 #include <linux/tcp.h>
 #include <fcntl.h>
 #include <sys/syscall.h>
 #include <unistd.h>
 #endif // __ANDROID__

 using namespace lldb;
 using namespace lldb_private;

 #if defined(_WIN32)
 typedef const char *set_socket_option_arg_type;
 typedef char *get_socket_option_arg_type;
 const NativeSocket Socket::kInvalidSocketValue = INVALID_SOCKET;
 #else  // #if defined(_WIN32)
 typedef const void *set_socket_option_arg_type;
 typedef void *get_socket_option_arg_type;
 const NativeSocket Socket::kInvalidSocketValue = -1;
 #endif // #if defined(_WIN32)

 namespace {

 bool IsInterrupted() {
 #if defined(_WIN32)
   return ::WSAGetLastError() == WSAEINTR;
 #else
   return errno == EINTR;
 #endif
 }
 }

 Socket::Socket(SocketProtocol protocol, bool should_close,
                bool child_processes_inherit)
     : IOObject(eFDTypeSocket, should_close), m_protocol(protocol),
       m_socket(kInvalidSocketValue),
       m_child_processes_inherit(child_processes_inherit) {}

 Socket::~Socket() { Close(); }

 std::unique_ptr<Socket> Socket::Create(const SocketProtocol protocol,
                                        bool child_processes_inherit,
                                        Status &error) {
   error.Clear();

   std::unique_ptr<Socket> socket_up;
   switch (protocol) {
   case ProtocolTcp:
     socket_up =
         llvm::make_unique<TCPSocket>(true, child_processes_inherit);
     break;
   case ProtocolUdp:
     socket_up =
         llvm::make_unique<UDPSocket>(true, child_processes_inherit);
     break;
   case ProtocolUnixDomain:
 #ifndef LLDB_DISABLE_POSIX
     socket_up =
         llvm::make_unique<DomainSocket>(true, child_processes_inherit);
 #else
     error.SetErrorString(
         "Unix domain sockets are not supported on this platform.");
 #endif
     break;
   case ProtocolUnixAbstract:
 #ifdef __linux__
     socket_up =
         llvm::make_unique<AbstractSocket>(child_processes_inherit);
 #else
     error.SetErrorString(
         "Abstract domain sockets are not supported on this platform.");
 #endif
     break;
   }

   if (error.Fail())
     socket_up.reset();

   return socket_up;
 }

 Status Socket::TcpConnect(llvm::StringRef host_and_port,
                           bool child_processes_inherit, Socket *&socket) {
   Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_COMMUNICATION));
   if (log)
     log->Printf("Socket::%s (host/port = %s)", __FUNCTION__,
                 host_and_port.data());

   Status error;
   std::unique_ptr<Socket> connect_socket(
       Create(ProtocolTcp, child_processes_inherit, error));
   if (error.Fail())
     return error;

   error = connect_socket->Connect(host_and_port);
   if (error.Success())
     socket = connect_socket.release();

   return error;
 }

 Status Socket::TcpListen(llvm::StringRef host_and_port,
                          bool child_processes_inherit, Socket *&socket,
                          Predicate<uint16_t> *predicate, int backlog) {
   Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
   if (log)
     log->Printf("Socket::%s (%s)", __FUNCTION__, host_and_port.data());

   Status error;
   std::string host_str;
   std::string port_str;
   int32_t port = INT32_MIN;
   if (!DecodeHostAndPort(host_and_port, host_str, port_str, port, &error))
     return error;

   std::unique_ptr<TCPSocket> listen_socket(
       new TCPSocket(true, child_processes_inherit));
   if (error.Fail())
     return error;

   error = listen_socket->Listen(host_and_port, backlog);
   if (error.Success()) {
     // We were asked to listen on port zero which means we must now read the
     // actual port that was given to us as port zero is a special code for
     // "find an open port for me".
     if (port == 0)
       port = listen_socket->GetLocalPortNumber();

     // Set the port predicate since when doing a listen://<host>:<port> it
     // often needs to accept the incoming connection which is a blocking system
     // call. Allowing access to the bound port using a predicate allows us to
     // wait for the port predicate to be set to a non-zero value from another
     // thread in an efficient manor.
     if (predicate)
       predicate->SetValue(port, eBroadcastAlways);
     socket = listen_socket.release();
   }

   return error;
 }

 Status Socket::UdpConnect(llvm::StringRef host_and_port,
                           bool child_processes_inherit, Socket *&socket) {
   Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
   if (log)
     log->Printf("Socket::%s (host/port = %s)", __FUNCTION__,
                 host_and_port.data());

   return UDPSocket::Connect(host_and_port, child_processes_inherit, socket);
 }

 Status Socket::UnixDomainConnect(llvm::StringRef name,
                                  bool child_processes_inherit,
                                  Socket *&socket) {
   Status error;
   std::unique_ptr<Socket> connect_socket(
       Create(ProtocolUnixDomain, child_processes_inherit, error));
   if (error.Fail())
     return error;

   error = connect_socket->Connect(name);
   if (error.Success())
     socket = connect_socket.release();

   return error;
 }

 Status Socket::UnixDomainAccept(llvm::StringRef name,
                                 bool child_processes_inherit, Socket *&socket) {
   Status error;
   std::unique_ptr<Socket> listen_socket(
       Create(ProtocolUnixDomain, child_processes_inherit, error));
   if (error.Fail())
     return error;

   error = listen_socket->Listen(name, 5);
   if (error.Fail())
     return error;

   error = listen_socket->Accept(socket);
   return error;
 }

 Status Socket::UnixAbstractConnect(llvm::StringRef name,
                                    bool child_processes_inherit,
                                    Socket *&socket) {
   Status error;
   std::unique_ptr<Socket> connect_socket(
       Create(ProtocolUnixAbstract, child_processes_inherit, error));
   if (error.Fail())
     return error;

   error = connect_socket->Connect(name);
   if (error.Success())
     socket = connect_socket.release();
   return error;
 }

 Status Socket::UnixAbstractAccept(llvm::StringRef name,
                                   bool child_processes_inherit,
                                   Socket *&socket) {
   Status error;
   std::unique_ptr<Socket> listen_socket(
       Create(ProtocolUnixAbstract, child_processes_inherit, error));
   if (error.Fail())
     return error;

   error = listen_socket->Listen(name, 5);
   if (error.Fail())
     return error;

   error = listen_socket->Accept(socket);
   return error;
 }

 bool Socket::DecodeHostAndPort(llvm::StringRef host_and_port,
                                std::string &host_str, std::string &port_str,
                                int32_t &port, Status *error_ptr) {
   static RegularExpression g_regex(
       llvm::StringRef("([^:]+|\\[[0-9a-fA-F:]+.*\\]):([0-9]+)"));
   RegularExpression::Match regex_match(2);
   if (g_regex.Execute(host_and_port, &regex_match)) {
     if (regex_match.GetMatchAtIndex(host_and_port.data(), 1, host_str) &&
         regex_match.GetMatchAtIndex(host_and_port.data(), 2, port_str)) {
       // IPv6 addresses are wrapped in [] when specified with ports
       if (host_str.front() == '[' && host_str.back() == ']')
         host_str = host_str.substr(1, host_str.size() - 2);
       bool ok = false;
       port = StringConvert::ToUInt32(port_str.c_str(), UINT32_MAX, 10, &ok);
       if (ok && port <= UINT16_MAX) {
         if (error_ptr)
           error_ptr->Clear();
         return true;
       }
       // port is too large
       if (error_ptr)
         error_ptr->SetErrorStringWithFormat(
             "invalid host:port specification: '%s'", host_and_port.data());
       return false;
     }
   }

   // If this was unsuccessful, then check if it's simply a signed 32-bit
   // integer, representing a port with an empty host.
   host_str.clear();
   port_str.clear();
   bool ok = false;
   port = StringConvert::ToUInt32(host_and_port.data(), UINT32_MAX, 10, &ok);
   if (ok && port < UINT16_MAX) {
     port_str = host_and_port;
     if (error_ptr)
       error_ptr->Clear();
     return true;
   }

   if (error_ptr)
     error_ptr->SetErrorStringWithFormat("invalid host:port specification: '%s'",
                                         host_and_port.data());
   return false;
 }

 IOObject::WaitableHandle Socket::GetWaitableHandle() {
   // TODO: On Windows, use WSAEventSelect
   return m_socket;
 }

 Status Socket::Read(void *buf, size_t &num_bytes) {
   Status error;
   int bytes_received = 0;
   do {
     bytes_received = ::recv(m_socket, static_cast<char *>(buf), num_bytes, 0);
   } while (bytes_received < 0 && IsInterrupted());

   if (bytes_received < 0) {
     SetLastError(error);
     num_bytes = 0;
   } else
     num_bytes = bytes_received;

   Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_COMMUNICATION));
   if (log) {
     log->Printf("%p Socket::Read() (socket = %" PRIu64
                 ", src = %p, src_len = %" PRIu64 ", flags = 0) => %" PRIi64
                 " (error = %s)",
                 static_cast<void *>(this), static_cast<uint64_t>(m_socket), buf,
                 static_cast<uint64_t>(num_bytes),
                 static_cast<int64_t>(bytes_received), error.AsCString());
   }

   return error;
 }

 Status Socket::Write(const void *buf, size_t &num_bytes) {
   Status error;
   int bytes_sent = 0;
   do {
     bytes_sent = Send(buf, num_bytes);
   } while (bytes_sent < 0 && IsInterrupted());

   if (bytes_sent < 0) {
     SetLastError(error);
     num_bytes = 0;
   } else
     num_bytes = bytes_sent;

   Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_COMMUNICATION));
   if (log) {
     log->Printf("%p Socket::Write() (socket = %" PRIu64
                 ", src = %p, src_len = %" PRIu64 ", flags = 0) => %" PRIi64
                 " (error = %s)",
                 static_cast<void *>(this), static_cast<uint64_t>(m_socket), buf,
                 static_cast<uint64_t>(num_bytes),
                 static_cast<int64_t>(bytes_sent), error.AsCString());
   }

   return error;
 }

 Status Socket::PreDisconnect() {
   Status error;
   return error;
 }

 Status Socket::Close() {
   Status error;
   if (!IsValid() || !m_should_close_fd)
     return error;

   Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
   if (log)
     log->Printf("%p Socket::Close (fd = %i)", static_cast<void *>(this),
                 m_socket);

 #if defined(_WIN32)
   bool success = !!closesocket(m_socket);
 #else
   bool success = !!::close(m_socket);
 #endif
   // A reference to a FD was passed in, set it to an invalid value
   m_socket = kInvalidSocketValue;
   if (!success) {
     SetLastError(error);
   }

   return error;
 }

 int Socket::GetOption(int level, int option_name, int &option_value) {
   get_socket_option_arg_type option_value_p =
       reinterpret_cast<get_socket_option_arg_type>(&option_value);
   socklen_t option_value_size = sizeof(int);
   return ::getsockopt(m_socket, level, option_name, option_value_p,
                       &option_value_size);
 }

 int Socket::SetOption(int level, int option_name, int option_value) {
   set_socket_option_arg_type option_value_p =
       reinterpret_cast<get_socket_option_arg_type>(&option_value);
   return ::setsockopt(m_socket, level, option_name, option_value_p,
                       sizeof(option_value));
 }

 size_t Socket::Send(const void *buf, const size_t num_bytes) {
   return ::send(m_socket, static_cast<const char *>(buf), num_bytes, 0);
 }

 void Socket::SetLastError(Status &error) {
 #if defined(_WIN32)
   error.SetError(::WSAGetLastError(), lldb::eErrorTypeWin32);
 #else
   error.SetErrorToErrno();
 #endif
 }

 NativeSocket Socket::CreateSocket(const int domain, const int type,
                                   const int protocol,
                                   bool child_processes_inherit, Status &error) {
   error.Clear();
   auto socket_type = type;
 #ifdef SOCK_CLOEXEC
   if (!child_processes_inherit)
     socket_type |= SOCK_CLOEXEC;
 #endif
   auto sock = ::socket(domain, socket_type, protocol);
   if (sock == kInvalidSocketValue)
     SetLastError(error);

   return sock;
 }

 NativeSocket Socket::AcceptSocket(NativeSocket sockfd, struct sockaddr *addr,
                                   socklen_t *addrlen,
                                   bool child_processes_inherit, Status &error) {
   error.Clear();
 #if defined(ANDROID_USE_ACCEPT_WORKAROUND)
   // Hack:
   // This enables static linking lldb-server to an API 21 libc, but still
   // having it run on older devices. It is necessary because API 21 libc's
   // implementation of accept() uses the accept4 syscall(), which is not
   // available in older kernels. Using an older libc would fix this issue, but
   // introduce other ones, as the old libraries were quite buggy.
   int fd = syscall(__NR_accept, sockfd, addr, addrlen);
   if (fd >= 0 && !child_processes_inherit) {
     int flags = ::fcntl(fd, F_GETFD);
     if (flags != -1 && ::fcntl(fd, F_SETFD, flags | FD_CLOEXEC) != -1)
       return fd;
     SetLastError(error);
     close(fd);
   }
   return fd;
 #elif defined(SOCK_CLOEXEC) && defined(HAVE_ACCEPT4)
   int flags = 0;
   if (!child_processes_inherit) {
     flags |= SOCK_CLOEXEC;
   }
   NativeSocket fd = ::accept4(sockfd, addr, addrlen, flags);
 #else
   NativeSocket fd = ::accept(sockfd, addr, addrlen);
 #endif
   if (fd == kInvalidSocketValue)
     SetLastError(error);
   return fd;
 }
	//===-- Socket.cpp ----------------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "lldb/Host/Socket.h"

	#include "lldb/Host/Config.h"
	#include "lldb/Host/Host.h"
	#include "lldb/Host/SocketAddress.h"
	#include "lldb/Host/StringConvert.h"
	#include "lldb/Host/common/TCPSocket.h"
	#include "lldb/Host/common/UDPSocket.h"
	#include "lldb/Utility/Log.h"
	#include "lldb/Utility/RegularExpression.h"

	#include "llvm/ADT/STLExtras.h"

	#ifndef LLDB_DISABLE_POSIX
	#include "lldb/Host/posix/DomainSocket.h"

	#include <arpa/inet.h>
	#include <netdb.h>
	#include <netinet/in.h>
	#include <netinet/tcp.h>
	#include <sys/socket.h>
	#include <sys/un.h>
	#include <unistd.h>
	#endif

	#ifdef __linux__
	#include "lldb/Host/linux/AbstractSocket.h"
	#endif

	#ifdef __ANDROID__
	#include <arpa/inet.h>
	#include <asm-generic/errno-base.h>
	#include <errno.h>
	#include <linux/tcp.h>
	#include <fcntl.h>
	#include <sys/syscall.h>
	#include <unistd.h>
	#endif // __ANDROID__

	using namespace lldb;
	using namespace lldb_private;

	#if defined(_WIN32)
	typedef const char *set_socket_option_arg_type;
	typedef char *get_socket_option_arg_type;
	const NativeSocket Socket::kInvalidSocketValue = INVALID_SOCKET;
	#else // #if defined(_WIN32)
	typedef const void *set_socket_option_arg_type;
	typedef void *get_socket_option_arg_type;
	const NativeSocket Socket::kInvalidSocketValue = -1;
	#endif // #if defined(_WIN32)

	namespace {

	bool IsInterrupted() {
	#if defined(_WIN32)
	return ::WSAGetLastError() == WSAEINTR;
	#else
	return errno == EINTR;
	#endif
	}
	}

	Socket::Socket(SocketProtocol protocol, bool should_close,
	bool child_processes_inherit)
	: IOObject(eFDTypeSocket, should_close), m_protocol(protocol),
	m_socket(kInvalidSocketValue),
	m_child_processes_inherit(child_processes_inherit) {}

	Socket::~Socket() { Close(); }

	std::unique_ptr<Socket> Socket::Create(const SocketProtocol protocol,
	bool child_processes_inherit,
	Status &error) {
	error.Clear();

	std::unique_ptr<Socket> socket_up;
	switch (protocol) {
	case ProtocolTcp:
	socket_up =
	llvm::make_unique<TCPSocket>(true, child_processes_inherit);
	break;
	case ProtocolUdp:
	socket_up =
	llvm::make_unique<UDPSocket>(true, child_processes_inherit);
	break;
	case ProtocolUnixDomain:
	#ifndef LLDB_DISABLE_POSIX
	socket_up =
	llvm::make_unique<DomainSocket>(true, child_processes_inherit);
	#else
	error.SetErrorString(
	"Unix domain sockets are not supported on this platform.");
	#endif
	break;
	case ProtocolUnixAbstract:
	#ifdef __linux__
	socket_up =
	llvm::make_unique<AbstractSocket>(child_processes_inherit);
	#else
	error.SetErrorString(
	"Abstract domain sockets are not supported on this platform.");
	#endif
	break;
	}

	if (error.Fail())
	socket_up.reset();

	return socket_up;
	}

	Status Socket::TcpConnect(llvm::StringRef host_and_port,
	bool child_processes_inherit, Socket *&socket) {
	Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_COMMUNICATION));
	if (log)
	log->Printf("Socket::%s (host/port = %s)", __FUNCTION__,
	host_and_port.data());

	Status error;
	std::unique_ptr<Socket> connect_socket(
	Create(ProtocolTcp, child_processes_inherit, error));
	if (error.Fail())
	return error;

	error = connect_socket->Connect(host_and_port);
	if (error.Success())
	socket = connect_socket.release();

	return error;
	}

	Status Socket::TcpListen(llvm::StringRef host_and_port,
	bool child_processes_inherit, Socket *&socket,
	Predicate<uint16_t> *predicate, int backlog) {
	Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
	if (log)
	log->Printf("Socket::%s (%s)", __FUNCTION__, host_and_port.data());

	Status error;
	std::string host_str;
	std::string port_str;
	int32_t port = INT32_MIN;
	if (!DecodeHostAndPort(host_and_port, host_str, port_str, port, &error))
	return error;

	std::unique_ptr<TCPSocket> listen_socket(
	new TCPSocket(true, child_processes_inherit));
	if (error.Fail())
	return error;

	error = listen_socket->Listen(host_and_port, backlog);
	if (error.Success()) {
	// We were asked to listen on port zero which means we must now read the
	// actual port that was given to us as port zero is a special code for
	// "find an open port for me".
	if (port == 0)
	port = listen_socket->GetLocalPortNumber();

	// Set the port predicate since when doing a listen://<host>:<port> it
	// often needs to accept the incoming connection which is a blocking system
	// call. Allowing access to the bound port using a predicate allows us to
	// wait for the port predicate to be set to a non-zero value from another
	// thread in an efficient manor.
	if (predicate)
	predicate->SetValue(port, eBroadcastAlways);
	socket = listen_socket.release();
	}

	return error;
	}

	Status Socket::UdpConnect(llvm::StringRef host_and_port,
	bool child_processes_inherit, Socket *&socket) {
	Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
	if (log)
	log->Printf("Socket::%s (host/port = %s)", __FUNCTION__,
	host_and_port.data());

	return UDPSocket::Connect(host_and_port, child_processes_inherit, socket);
	}

	Status Socket::UnixDomainConnect(llvm::StringRef name,
	bool child_processes_inherit,
	Socket *&socket) {
	Status error;
	std::unique_ptr<Socket> connect_socket(
	Create(ProtocolUnixDomain, child_processes_inherit, error));
	if (error.Fail())
	return error;

	error = connect_socket->Connect(name);
	if (error.Success())
	socket = connect_socket.release();

	return error;
	}

	Status Socket::UnixDomainAccept(llvm::StringRef name,
	bool child_processes_inherit, Socket *&socket) {
	Status error;
	std::unique_ptr<Socket> listen_socket(
	Create(ProtocolUnixDomain, child_processes_inherit, error));
	if (error.Fail())
	return error;

	error = listen_socket->Listen(name, 5);
	if (error.Fail())
	return error;

	error = listen_socket->Accept(socket);
	return error;
	}

	Status Socket::UnixAbstractConnect(llvm::StringRef name,
	bool child_processes_inherit,
	Socket *&socket) {
	Status error;
	std::unique_ptr<Socket> connect_socket(
	Create(ProtocolUnixAbstract, child_processes_inherit, error));
	if (error.Fail())
	return error;

	error = connect_socket->Connect(name);
	if (error.Success())
	socket = connect_socket.release();
	return error;
	}

	Status Socket::UnixAbstractAccept(llvm::StringRef name,
	bool child_processes_inherit,
	Socket *&socket) {
	Status error;
	std::unique_ptr<Socket> listen_socket(
	Create(ProtocolUnixAbstract, child_processes_inherit, error));
	if (error.Fail())
	return error;

	error = listen_socket->Listen(name, 5);
	if (error.Fail())
	return error;

	error = listen_socket->Accept(socket);
	return error;
	}

	bool Socket::DecodeHostAndPort(llvm::StringRef host_and_port,
	std::string &host_str, std::string &port_str,
	int32_t &port, Status *error_ptr) {
	static RegularExpression g_regex(
	llvm::StringRef("([^:]+\|\\[[0-9a-fA-F:]+.*\\]):([0-9]+)"));
	RegularExpression::Match regex_match(2);
	if (g_regex.Execute(host_and_port, &regex_match)) {
	if (regex_match.GetMatchAtIndex(host_and_port.data(), 1, host_str) &&
	regex_match.GetMatchAtIndex(host_and_port.data(), 2, port_str)) {
	// IPv6 addresses are wrapped in [] when specified with ports
	if (host_str.front() == '[' && host_str.back() == ']')
	host_str = host_str.substr(1, host_str.size() - 2);
	bool ok = false;
	port = StringConvert::ToUInt32(port_str.c_str(), UINT32_MAX, 10, &ok);
	if (ok && port <= UINT16_MAX) {
	if (error_ptr)
	error_ptr->Clear();
	return true;
	}
	// port is too large
	if (error_ptr)
	error_ptr->SetErrorStringWithFormat(
	"invalid host:port specification: '%s'", host_and_port.data());
	return false;
	}
	}

	// If this was unsuccessful, then check if it's simply a signed 32-bit
	// integer, representing a port with an empty host.
	host_str.clear();
	port_str.clear();
	bool ok = false;
	port = StringConvert::ToUInt32(host_and_port.data(), UINT32_MAX, 10, &ok);
	if (ok && port < UINT16_MAX) {
	port_str = host_and_port;
	if (error_ptr)
	error_ptr->Clear();
	return true;
	}

	if (error_ptr)
	error_ptr->SetErrorStringWithFormat("invalid host:port specification: '%s'",
	host_and_port.data());
	return false;
	}

	IOObject::WaitableHandle Socket::GetWaitableHandle() {
	// TODO: On Windows, use WSAEventSelect
	return m_socket;
	}

	Status Socket::Read(void *buf, size_t &num_bytes) {
	Status error;
	int bytes_received = 0;
	do {
	bytes_received = ::recv(m_socket, static_cast<char *>(buf), num_bytes, 0);
	} while (bytes_received < 0 && IsInterrupted());

	if (bytes_received < 0) {
	SetLastError(error);
	num_bytes = 0;
	} else
	num_bytes = bytes_received;

	Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_COMMUNICATION));
	if (log) {
	log->Printf("%p Socket::Read() (socket = %" PRIu64
	", src = %p, src_len = %" PRIu64 ", flags = 0) => %" PRIi64
	" (error = %s)",
	static_cast<void *>(this), static_cast<uint64_t>(m_socket), buf,
	static_cast<uint64_t>(num_bytes),
	static_cast<int64_t>(bytes_received), error.AsCString());
	}

	return error;
	}

	Status Socket::Write(const void *buf, size_t &num_bytes) {
	Status error;
	int bytes_sent = 0;
	do {
	bytes_sent = Send(buf, num_bytes);
	} while (bytes_sent < 0 && IsInterrupted());

	if (bytes_sent < 0) {
	SetLastError(error);
	num_bytes = 0;
	} else
	num_bytes = bytes_sent;

	Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_COMMUNICATION));
	if (log) {
	log->Printf("%p Socket::Write() (socket = %" PRIu64
	", src = %p, src_len = %" PRIu64 ", flags = 0) => %" PRIi64
	" (error = %s)",
	static_cast<void *>(this), static_cast<uint64_t>(m_socket), buf,
	static_cast<uint64_t>(num_bytes),
	static_cast<int64_t>(bytes_sent), error.AsCString());
	}

	return error;
	}

	Status Socket::PreDisconnect() {
	Status error;
	return error;
	}

	Status Socket::Close() {
	Status error;
	if (!IsValid() \|\| !m_should_close_fd)
	return error;

	Log *log(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_CONNECTION));
	if (log)
	log->Printf("%p Socket::Close (fd = %i)", static_cast<void *>(this),
	m_socket);

	#if defined(_WIN32)
	bool success = !!closesocket(m_socket);
	#else
	bool success = !!::close(m_socket);
	#endif
	// A reference to a FD was passed in, set it to an invalid value
	m_socket = kInvalidSocketValue;
	if (!success) {
	SetLastError(error);
	}

	return error;
	}

	int Socket::GetOption(int level, int option_name, int &option_value) {
	get_socket_option_arg_type option_value_p =
	reinterpret_cast<get_socket_option_arg_type>(&option_value);
	socklen_t option_value_size = sizeof(int);
	return ::getsockopt(m_socket, level, option_name, option_value_p,
	&option_value_size);
	}

	int Socket::SetOption(int level, int option_name, int option_value) {
	set_socket_option_arg_type option_value_p =
	reinterpret_cast<get_socket_option_arg_type>(&option_value);
	return ::setsockopt(m_socket, level, option_name, option_value_p,
	sizeof(option_value));
	}

	size_t Socket::Send(const void *buf, const size_t num_bytes) {
	return ::send(m_socket, static_cast<const char *>(buf), num_bytes, 0);
	}

	void Socket::SetLastError(Status &error) {
	#if defined(_WIN32)
	error.SetError(::WSAGetLastError(), lldb::eErrorTypeWin32);
	#else
	error.SetErrorToErrno();
	#endif
	}

	NativeSocket Socket::CreateSocket(const int domain, const int type,
	const int protocol,
	bool child_processes_inherit, Status &error) {
	error.Clear();
	auto socket_type = type;
	#ifdef SOCK_CLOEXEC
	if (!child_processes_inherit)
	socket_type \|= SOCK_CLOEXEC;
	#endif
	auto sock = ::socket(domain, socket_type, protocol);
	if (sock == kInvalidSocketValue)
	SetLastError(error);

	return sock;
	}

	NativeSocket Socket::AcceptSocket(NativeSocket sockfd, struct sockaddr *addr,
	socklen_t *addrlen,
	bool child_processes_inherit, Status &error) {
	error.Clear();
	#if defined(ANDROID_USE_ACCEPT_WORKAROUND)
	// Hack:
	// This enables static linking lldb-server to an API 21 libc, but still
	// having it run on older devices. It is necessary because API 21 libc's
	// implementation of accept() uses the accept4 syscall(), which is not
	// available in older kernels. Using an older libc would fix this issue, but
	// introduce other ones, as the old libraries were quite buggy.
	int fd = syscall(__NR_accept, sockfd, addr, addrlen);
	if (fd >= 0 && !child_processes_inherit) {
	int flags = ::fcntl(fd, F_GETFD);
	if (flags != -1 && ::fcntl(fd, F_SETFD, flags \| FD_CLOEXEC) != -1)
	return fd;
	SetLastError(error);
	close(fd);
	}
	return fd;
	#elif defined(SOCK_CLOEXEC) && defined(HAVE_ACCEPT4)
	int flags = 0;
	if (!child_processes_inherit) {
	flags \|= SOCK_CLOEXEC;
	}
	NativeSocket fd = ::accept4(sockfd, addr, addrlen, flags);
	#else
	NativeSocket fd = ::accept(sockfd, addr, addrlen);
	#endif
	if (fd == kInvalidSocketValue)
	SetLastError(error);
	return fd;
	}