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339 lines
12 KiB
339 lines
12 KiB
4 months ago
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//===-- PipeWindows.cpp ---------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "lldb/Host/windows/PipeWindows.h"
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#include "llvm/ADT/SmallString.h"
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#include "llvm/Support/Process.h"
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#include "llvm/Support/raw_ostream.h"
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#include <fcntl.h>
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#include <io.h>
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#include <rpc.h>
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#include <atomic>
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#include <string>
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using namespace lldb;
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using namespace lldb_private;
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namespace {
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std::atomic<uint32_t> g_pipe_serial(0);
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constexpr llvm::StringLiteral g_pipe_name_prefix = "\\\\.\\Pipe\\";
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} // namespace
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PipeWindows::PipeWindows()
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: m_read(INVALID_HANDLE_VALUE), m_write(INVALID_HANDLE_VALUE),
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m_read_fd(PipeWindows::kInvalidDescriptor),
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m_write_fd(PipeWindows::kInvalidDescriptor) {
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ZeroMemory(&m_read_overlapped, sizeof(m_read_overlapped));
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ZeroMemory(&m_write_overlapped, sizeof(m_write_overlapped));
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}
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PipeWindows::PipeWindows(pipe_t read, pipe_t write)
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: m_read((HANDLE)read), m_write((HANDLE)write),
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m_read_fd(PipeWindows::kInvalidDescriptor),
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m_write_fd(PipeWindows::kInvalidDescriptor) {
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assert(read != LLDB_INVALID_PIPE || write != LLDB_INVALID_PIPE);
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// Don't risk in passing file descriptors and getting handles from them by
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// _get_osfhandle since the retrieved handles are highly likely unrecognized
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// in the current process and usually crashes the program. Pass handles
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// instead since the handle can be inherited.
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if (read != LLDB_INVALID_PIPE) {
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m_read_fd = _open_osfhandle((intptr_t)read, _O_RDONLY);
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// Make sure the fd and native handle are consistent.
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if (m_read_fd < 0)
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m_read = INVALID_HANDLE_VALUE;
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}
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if (write != LLDB_INVALID_PIPE) {
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m_write_fd = _open_osfhandle((intptr_t)write, _O_WRONLY);
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if (m_write_fd < 0)
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m_write = INVALID_HANDLE_VALUE;
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}
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ZeroMemory(&m_read_overlapped, sizeof(m_read_overlapped));
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ZeroMemory(&m_write_overlapped, sizeof(m_write_overlapped));
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}
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PipeWindows::~PipeWindows() { Close(); }
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Status PipeWindows::CreateNew(bool child_process_inherit) {
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// Create an anonymous pipe with the specified inheritance.
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SECURITY_ATTRIBUTES sa{sizeof(SECURITY_ATTRIBUTES), 0,
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child_process_inherit ? TRUE : FALSE};
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BOOL result = ::CreatePipe(&m_read, &m_write, &sa, 1024);
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if (result == FALSE)
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return Status(::GetLastError(), eErrorTypeWin32);
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m_read_fd = _open_osfhandle((intptr_t)m_read, _O_RDONLY);
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ZeroMemory(&m_read_overlapped, sizeof(m_read_overlapped));
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m_read_overlapped.hEvent = ::CreateEventA(nullptr, TRUE, FALSE, nullptr);
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m_write_fd = _open_osfhandle((intptr_t)m_write, _O_WRONLY);
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ZeroMemory(&m_write_overlapped, sizeof(m_write_overlapped));
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return Status();
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}
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Status PipeWindows::CreateNewNamed(bool child_process_inherit) {
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// Even for anonymous pipes, we open a named pipe. This is because you
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// cannot get overlapped i/o on Windows without using a named pipe. So we
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// synthesize a unique name.
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uint32_t serial = g_pipe_serial.fetch_add(1);
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std::string pipe_name;
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llvm::raw_string_ostream pipe_name_stream(pipe_name);
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pipe_name_stream << "lldb.pipe." << ::GetCurrentProcessId() << "." << serial;
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pipe_name_stream.flush();
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return CreateNew(pipe_name.c_str(), child_process_inherit);
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}
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Status PipeWindows::CreateNew(llvm::StringRef name,
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bool child_process_inherit) {
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if (name.empty())
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return Status(ERROR_INVALID_PARAMETER, eErrorTypeWin32);
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if (CanRead() || CanWrite())
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return Status(ERROR_ALREADY_EXISTS, eErrorTypeWin32);
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std::string pipe_path = g_pipe_name_prefix.str();
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pipe_path.append(name.str());
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// Always open for overlapped i/o. We implement blocking manually in Read
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// and Write.
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DWORD read_mode = FILE_FLAG_OVERLAPPED;
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m_read = ::CreateNamedPipeA(
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pipe_path.c_str(), PIPE_ACCESS_INBOUND | read_mode,
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PIPE_TYPE_BYTE | PIPE_WAIT, 1, 1024, 1024, 120 * 1000, NULL);
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if (INVALID_HANDLE_VALUE == m_read)
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return Status(::GetLastError(), eErrorTypeWin32);
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m_read_fd = _open_osfhandle((intptr_t)m_read, _O_RDONLY);
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ZeroMemory(&m_read_overlapped, sizeof(m_read_overlapped));
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m_read_overlapped.hEvent = ::CreateEvent(nullptr, TRUE, FALSE, nullptr);
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// Open the write end of the pipe. Note that closing either the read or
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// write end of the pipe could directly close the pipe itself.
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Status result = OpenNamedPipe(name, child_process_inherit, false);
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if (!result.Success()) {
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CloseReadFileDescriptor();
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return result;
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}
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return result;
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}
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Status PipeWindows::CreateWithUniqueName(llvm::StringRef prefix,
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bool child_process_inherit,
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llvm::SmallVectorImpl<char> &name) {
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llvm::SmallString<128> pipe_name;
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Status error;
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::UUID unique_id;
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RPC_CSTR unique_string;
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RPC_STATUS status = ::UuidCreate(&unique_id);
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if (status == RPC_S_OK || status == RPC_S_UUID_LOCAL_ONLY)
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status = ::UuidToStringA(&unique_id, &unique_string);
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if (status == RPC_S_OK) {
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pipe_name = prefix;
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pipe_name += "-";
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pipe_name += reinterpret_cast<char *>(unique_string);
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::RpcStringFreeA(&unique_string);
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error = CreateNew(pipe_name, child_process_inherit);
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} else {
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error.SetError(status, eErrorTypeWin32);
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}
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if (error.Success())
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name = pipe_name;
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return error;
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}
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Status PipeWindows::OpenAsReader(llvm::StringRef name,
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bool child_process_inherit) {
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if (CanRead())
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return Status(ERROR_ALREADY_EXISTS, eErrorTypeWin32);
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return OpenNamedPipe(name, child_process_inherit, true);
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}
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Status
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PipeWindows::OpenAsWriterWithTimeout(llvm::StringRef name,
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bool child_process_inherit,
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const std::chrono::microseconds &timeout) {
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if (CanWrite())
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return Status(ERROR_ALREADY_EXISTS, eErrorTypeWin32);
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return OpenNamedPipe(name, child_process_inherit, false);
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}
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Status PipeWindows::OpenNamedPipe(llvm::StringRef name,
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bool child_process_inherit, bool is_read) {
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if (name.empty())
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return Status(ERROR_INVALID_PARAMETER, eErrorTypeWin32);
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assert(is_read ? !CanRead() : !CanWrite());
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SECURITY_ATTRIBUTES attributes = {};
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attributes.bInheritHandle = child_process_inherit;
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std::string pipe_path = g_pipe_name_prefix.str();
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pipe_path.append(name.str());
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if (is_read) {
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m_read = ::CreateFileA(pipe_path.c_str(), GENERIC_READ, 0, &attributes,
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OPEN_EXISTING, FILE_FLAG_OVERLAPPED, NULL);
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if (INVALID_HANDLE_VALUE == m_read)
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return Status(::GetLastError(), eErrorTypeWin32);
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m_read_fd = _open_osfhandle((intptr_t)m_read, _O_RDONLY);
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ZeroMemory(&m_read_overlapped, sizeof(m_read_overlapped));
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m_read_overlapped.hEvent = ::CreateEvent(nullptr, TRUE, FALSE, nullptr);
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} else {
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m_write = ::CreateFileA(pipe_path.c_str(), GENERIC_WRITE, 0, &attributes,
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OPEN_EXISTING, FILE_FLAG_OVERLAPPED, NULL);
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if (INVALID_HANDLE_VALUE == m_write)
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return Status(::GetLastError(), eErrorTypeWin32);
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m_write_fd = _open_osfhandle((intptr_t)m_write, _O_WRONLY);
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ZeroMemory(&m_write_overlapped, sizeof(m_write_overlapped));
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}
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return Status();
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}
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int PipeWindows::GetReadFileDescriptor() const { return m_read_fd; }
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int PipeWindows::GetWriteFileDescriptor() const { return m_write_fd; }
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int PipeWindows::ReleaseReadFileDescriptor() {
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if (!CanRead())
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return PipeWindows::kInvalidDescriptor;
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int result = m_read_fd;
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m_read_fd = PipeWindows::kInvalidDescriptor;
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if (m_read_overlapped.hEvent)
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::CloseHandle(m_read_overlapped.hEvent);
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m_read = INVALID_HANDLE_VALUE;
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ZeroMemory(&m_read_overlapped, sizeof(m_read_overlapped));
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return result;
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}
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int PipeWindows::ReleaseWriteFileDescriptor() {
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if (!CanWrite())
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return PipeWindows::kInvalidDescriptor;
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int result = m_write_fd;
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m_write_fd = PipeWindows::kInvalidDescriptor;
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m_write = INVALID_HANDLE_VALUE;
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ZeroMemory(&m_write_overlapped, sizeof(m_write_overlapped));
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return result;
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}
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void PipeWindows::CloseReadFileDescriptor() {
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if (!CanRead())
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return;
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if (m_read_overlapped.hEvent)
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::CloseHandle(m_read_overlapped.hEvent);
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_close(m_read_fd);
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m_read = INVALID_HANDLE_VALUE;
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m_read_fd = PipeWindows::kInvalidDescriptor;
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ZeroMemory(&m_read_overlapped, sizeof(m_read_overlapped));
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}
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void PipeWindows::CloseWriteFileDescriptor() {
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if (!CanWrite())
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return;
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_close(m_write_fd);
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m_write = INVALID_HANDLE_VALUE;
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m_write_fd = PipeWindows::kInvalidDescriptor;
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ZeroMemory(&m_write_overlapped, sizeof(m_write_overlapped));
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}
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void PipeWindows::Close() {
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CloseReadFileDescriptor();
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CloseWriteFileDescriptor();
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}
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Status PipeWindows::Delete(llvm::StringRef name) { return Status(); }
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bool PipeWindows::CanRead() const { return (m_read != INVALID_HANDLE_VALUE); }
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bool PipeWindows::CanWrite() const { return (m_write != INVALID_HANDLE_VALUE); }
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HANDLE
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PipeWindows::GetReadNativeHandle() { return m_read; }
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HANDLE
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PipeWindows::GetWriteNativeHandle() { return m_write; }
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Status PipeWindows::ReadWithTimeout(void *buf, size_t size,
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const std::chrono::microseconds &duration,
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size_t &bytes_read) {
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if (!CanRead())
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return Status(ERROR_INVALID_HANDLE, eErrorTypeWin32);
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bytes_read = 0;
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DWORD sys_bytes_read = size;
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BOOL result = ::ReadFile(m_read, buf, sys_bytes_read, &sys_bytes_read,
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&m_read_overlapped);
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if (!result && GetLastError() != ERROR_IO_PENDING)
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return Status(::GetLastError(), eErrorTypeWin32);
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DWORD timeout = (duration == std::chrono::microseconds::zero())
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? INFINITE
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: duration.count() * 1000;
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DWORD wait_result = ::WaitForSingleObject(m_read_overlapped.hEvent, timeout);
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if (wait_result != WAIT_OBJECT_0) {
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// The operation probably failed. However, if it timed out, we need to
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// cancel the I/O. Between the time we returned from WaitForSingleObject
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// and the time we call CancelIoEx, the operation may complete. If that
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// hapens, CancelIoEx will fail and return ERROR_NOT_FOUND. If that
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// happens, the original operation should be considered to have been
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// successful.
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bool failed = true;
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DWORD failure_error = ::GetLastError();
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if (wait_result == WAIT_TIMEOUT) {
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BOOL cancel_result = CancelIoEx(m_read, &m_read_overlapped);
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if (!cancel_result && GetLastError() == ERROR_NOT_FOUND)
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failed = false;
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}
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if (failed)
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return Status(failure_error, eErrorTypeWin32);
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}
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// Now we call GetOverlappedResult setting bWait to false, since we've
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// already waited as long as we're willing to.
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if (!GetOverlappedResult(m_read, &m_read_overlapped, &sys_bytes_read, FALSE))
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return Status(::GetLastError(), eErrorTypeWin32);
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bytes_read = sys_bytes_read;
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return Status();
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}
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Status PipeWindows::Write(const void *buf, size_t num_bytes,
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size_t &bytes_written) {
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if (!CanWrite())
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return Status(ERROR_INVALID_HANDLE, eErrorTypeWin32);
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DWORD sys_bytes_written = 0;
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BOOL write_result = ::WriteFile(m_write, buf, num_bytes, &sys_bytes_written,
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&m_write_overlapped);
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if (!write_result && GetLastError() != ERROR_IO_PENDING)
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return Status(::GetLastError(), eErrorTypeWin32);
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BOOL result = GetOverlappedResult(m_write, &m_write_overlapped,
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&sys_bytes_written, TRUE);
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if (!result)
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return Status(::GetLastError(), eErrorTypeWin32);
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return Status();
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}
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