//===-- SocketTestUtilities.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 // //===----------------------------------------------------------------------===// #include "SocketTestUtilities.h" #include "lldb/Host/Config.h" #include "lldb/Utility/StreamString.h" #ifdef _WIN32 #include #include #else #include #endif using namespace lldb_private; static void AcceptThread(Socket *listen_socket, bool child_processes_inherit, Socket **accept_socket, Status *error) { *error = listen_socket->Accept(*accept_socket); } template void lldb_private::CreateConnectedSockets( llvm::StringRef listen_remote_address, const std::function &get_connect_addr, std::unique_ptr *a_up, std::unique_ptr *b_up) { bool child_processes_inherit = false; Status error; std::unique_ptr listen_socket_up( new SocketType(true, child_processes_inherit)); ASSERT_THAT_ERROR(error.ToError(), llvm::Succeeded()); error = listen_socket_up->Listen(listen_remote_address, 5); ASSERT_THAT_ERROR(error.ToError(), llvm::Succeeded()); ASSERT_TRUE(listen_socket_up->IsValid()); Status accept_error; Socket *accept_socket; std::thread accept_thread(AcceptThread, listen_socket_up.get(), child_processes_inherit, &accept_socket, &accept_error); std::string connect_remote_address = get_connect_addr(*listen_socket_up); std::unique_ptr connect_socket_up( new SocketType(true, child_processes_inherit)); ASSERT_THAT_ERROR(error.ToError(), llvm::Succeeded()); error = connect_socket_up->Connect(connect_remote_address); ASSERT_THAT_ERROR(error.ToError(), llvm::Succeeded()); ASSERT_TRUE(connect_socket_up->IsValid()); a_up->swap(connect_socket_up); ASSERT_TRUE((*a_up)->IsValid()); accept_thread.join(); b_up->reset(static_cast(accept_socket)); ASSERT_THAT_ERROR(accept_error.ToError(), llvm::Succeeded()); ASSERT_NE(nullptr, b_up->get()); ASSERT_TRUE((*b_up)->IsValid()); listen_socket_up.reset(); } bool lldb_private::CreateTCPConnectedSockets( std::string listen_remote_ip, std::unique_ptr *socket_a_up, std::unique_ptr *socket_b_up) { StreamString strm; strm.Printf("[%s]:0", listen_remote_ip.c_str()); CreateConnectedSockets( strm.GetString(), [=](const TCPSocket &s) { char connect_remote_address[64]; snprintf(connect_remote_address, sizeof(connect_remote_address), "[%s]:%u", listen_remote_ip.c_str(), s.GetLocalPortNumber()); return std::string(connect_remote_address); }, socket_a_up, socket_b_up); return true; } #if LLDB_ENABLE_POSIX void lldb_private::CreateDomainConnectedSockets( llvm::StringRef path, std::unique_ptr *socket_a_up, std::unique_ptr *socket_b_up) { return CreateConnectedSockets( path, [=](const DomainSocket &) { return path.str(); }, socket_a_up, socket_b_up); } #endif static bool CheckIPSupport(llvm::StringRef Proto, llvm::StringRef Addr) { llvm::Expected> Sock = Socket::TcpListen( Addr, /*child_processes_inherit=*/false, /*predicate=*/nullptr); if (Sock) return true; llvm::Error Err = Sock.takeError(); GTEST_LOG_(WARNING) << llvm::formatv( "Creating a canary {0} TCP socket failed: {1}.", Proto, Err) .str(); bool HasProtocolError = false; handleAllErrors(std::move(Err), [&](std::unique_ptr ECErr) { std::error_code ec = ECErr->convertToErrorCode(); if (ec == std::make_error_code(std::errc::address_family_not_supported) || ec == std::make_error_code(std::errc::address_not_available)) HasProtocolError = true; }); if (HasProtocolError) { GTEST_LOG_(WARNING) << llvm::formatv( "Assuming the host does not support {0}. Skipping test.", Proto) .str(); return false; } GTEST_LOG_(WARNING) << "Continuing anyway. The test will probably fail."; return true; } bool lldb_private::HostSupportsIPv4() { return CheckIPSupport("IPv4", "127.0.0.1:0"); } bool lldb_private::HostSupportsIPv6() { return CheckIPSupport("IPv6", "[::1]:0"); }