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/* Copyright Joyent, Inc. and other Node contributors. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
#include <assert.h>
#include <stdlib.h>
#include "uv.h"
#include "internal.h"
/* Whether there are any non-IFS LSPs stacked on TCP */
int uv_tcp_non_ifs_lsp_ipv4;
int uv_tcp_non_ifs_lsp_ipv6;
/* Ip address used to bind to any port at any interface */
struct sockaddr_in uv_addr_ip4_any_;
struct sockaddr_in6 uv_addr_ip6_any_;
/*
* Retrieves the pointer to a winsock extension function.
*/
static BOOL uv_get_extension_function(SOCKET socket, GUID guid,
void **target) {
int result;
DWORD bytes;
result = WSAIoctl(socket,
SIO_GET_EXTENSION_FUNCTION_POINTER,
&guid,
sizeof(guid),
(void*)target,
sizeof(*target),
&bytes,
NULL,
NULL);
if (result == SOCKET_ERROR) {
*target = NULL;
return FALSE;
} else {
return TRUE;
}
}
BOOL uv_get_acceptex_function(SOCKET socket, LPFN_ACCEPTEX* target) {
const GUID wsaid_acceptex = WSAID_ACCEPTEX;
return uv_get_extension_function(socket, wsaid_acceptex, (void**)target);
}
BOOL uv_get_connectex_function(SOCKET socket, LPFN_CONNECTEX* target) {
const GUID wsaid_connectex = WSAID_CONNECTEX;
return uv_get_extension_function(socket, wsaid_connectex, (void**)target);
}
static int error_means_no_support(DWORD error) {
return error == WSAEPROTONOSUPPORT || error == WSAESOCKTNOSUPPORT ||
error == WSAEPFNOSUPPORT || error == WSAEAFNOSUPPORT;
}
void uv_winsock_init(void) {
WSADATA wsa_data;
int errorno;
SOCKET dummy;
WSAPROTOCOL_INFOW protocol_info;
int opt_len;
/* Initialize winsock */
errorno = WSAStartup(MAKEWORD(2, 2), &wsa_data);
if (errorno != 0) {
uv_fatal_error(errorno, "WSAStartup");
}
/* Set implicit binding address used by connectEx */
if (uv_ip4_addr("0.0.0.0", 0, &uv_addr_ip4_any_)) {
abort();
}
if (uv_ip6_addr("::", 0, &uv_addr_ip6_any_)) {
abort();
}
/* Detect non-IFS LSPs */
dummy = socket(AF_INET, SOCK_STREAM, IPPROTO_IP);
if (dummy != INVALID_SOCKET) {
opt_len = (int) sizeof protocol_info;
if (getsockopt(dummy,
SOL_SOCKET,
SO_PROTOCOL_INFOW,
(char*) &protocol_info,
&opt_len) == SOCKET_ERROR)
uv_fatal_error(WSAGetLastError(), "getsockopt");
if (!(protocol_info.dwServiceFlags1 & XP1_IFS_HANDLES))
uv_tcp_non_ifs_lsp_ipv4 = 1;
if (closesocket(dummy) == SOCKET_ERROR)
uv_fatal_error(WSAGetLastError(), "closesocket");
} else if (!error_means_no_support(WSAGetLastError())) {
/* Any error other than "socket type not supported" is fatal. */
uv_fatal_error(WSAGetLastError(), "socket");
}
/* Detect IPV6 support and non-IFS LSPs */
dummy = socket(AF_INET6, SOCK_STREAM, IPPROTO_IP);
if (dummy != INVALID_SOCKET) {
opt_len = (int) sizeof protocol_info;
if (getsockopt(dummy,
SOL_SOCKET,
SO_PROTOCOL_INFOW,
(char*) &protocol_info,
&opt_len) == SOCKET_ERROR)
uv_fatal_error(WSAGetLastError(), "getsockopt");
if (!(protocol_info.dwServiceFlags1 & XP1_IFS_HANDLES))
uv_tcp_non_ifs_lsp_ipv6 = 1;
if (closesocket(dummy) == SOCKET_ERROR)
uv_fatal_error(WSAGetLastError(), "closesocket");
} else if (!error_means_no_support(WSAGetLastError())) {
/* Any error other than "socket type not supported" is fatal. */
uv_fatal_error(WSAGetLastError(), "socket");
}
}
int uv_ntstatus_to_winsock_error(NTSTATUS status) {
switch (status) {
case STATUS_SUCCESS:
return ERROR_SUCCESS;
case STATUS_PENDING:
return ERROR_IO_PENDING;
case STATUS_INVALID_HANDLE:
case STATUS_OBJECT_TYPE_MISMATCH:
return WSAENOTSOCK;
case STATUS_INSUFFICIENT_RESOURCES:
case STATUS_PAGEFILE_QUOTA:
case STATUS_COMMITMENT_LIMIT:
case STATUS_WORKING_SET_QUOTA:
case STATUS_NO_MEMORY:
case STATUS_QUOTA_EXCEEDED:
case STATUS_TOO_MANY_PAGING_FILES:
case STATUS_REMOTE_RESOURCES:
return WSAENOBUFS;
case STATUS_TOO_MANY_ADDRESSES:
case STATUS_SHARING_VIOLATION:
case STATUS_ADDRESS_ALREADY_EXISTS:
return WSAEADDRINUSE;
case STATUS_LINK_TIMEOUT:
case STATUS_IO_TIMEOUT:
case STATUS_TIMEOUT:
return WSAETIMEDOUT;
case STATUS_GRACEFUL_DISCONNECT:
return WSAEDISCON;
case STATUS_REMOTE_DISCONNECT:
case STATUS_CONNECTION_RESET:
case STATUS_LINK_FAILED:
case STATUS_CONNECTION_DISCONNECTED:
case STATUS_PORT_UNREACHABLE:
case STATUS_HOPLIMIT_EXCEEDED:
return WSAECONNRESET;
case STATUS_LOCAL_DISCONNECT:
case STATUS_TRANSACTION_ABORTED:
case STATUS_CONNECTION_ABORTED:
return WSAECONNABORTED;
case STATUS_BAD_NETWORK_PATH:
case STATUS_NETWORK_UNREACHABLE:
case STATUS_PROTOCOL_UNREACHABLE:
return WSAENETUNREACH;
case STATUS_HOST_UNREACHABLE:
return WSAEHOSTUNREACH;
case STATUS_CANCELLED:
case STATUS_REQUEST_ABORTED:
return WSAEINTR;
case STATUS_BUFFER_OVERFLOW:
case STATUS_INVALID_BUFFER_SIZE:
return WSAEMSGSIZE;
case STATUS_BUFFER_TOO_SMALL:
case STATUS_ACCESS_VIOLATION:
return WSAEFAULT;
case STATUS_DEVICE_NOT_READY:
case STATUS_REQUEST_NOT_ACCEPTED:
return WSAEWOULDBLOCK;
case STATUS_INVALID_NETWORK_RESPONSE:
case STATUS_NETWORK_BUSY:
case STATUS_NO_SUCH_DEVICE:
case STATUS_NO_SUCH_FILE:
case STATUS_OBJECT_PATH_NOT_FOUND:
case STATUS_OBJECT_NAME_NOT_FOUND:
case STATUS_UNEXPECTED_NETWORK_ERROR:
return WSAENETDOWN;
case STATUS_INVALID_CONNECTION:
return WSAENOTCONN;
case STATUS_REMOTE_NOT_LISTENING:
case STATUS_CONNECTION_REFUSED:
return WSAECONNREFUSED;
case STATUS_PIPE_DISCONNECTED:
return WSAESHUTDOWN;
case STATUS_CONFLICTING_ADDRESSES:
case STATUS_INVALID_ADDRESS:
case STATUS_INVALID_ADDRESS_COMPONENT:
return WSAEADDRNOTAVAIL;
case STATUS_NOT_SUPPORTED:
case STATUS_NOT_IMPLEMENTED:
return WSAEOPNOTSUPP;
case STATUS_ACCESS_DENIED:
return WSAEACCES;
default:
if ((status & (FACILITY_NTWIN32 << 16)) == (FACILITY_NTWIN32 << 16) &&
(status & (ERROR_SEVERITY_ERROR | ERROR_SEVERITY_WARNING))) {
/* It's a windows error that has been previously mapped to an ntstatus
* code. */
return (DWORD) (status & 0xffff);
} else {
/* The default fallback for unmappable ntstatus codes. */
return WSAEINVAL;
}
}
}
/*
* This function provides a workaround for a bug in the winsock implementation
* of WSARecv. The problem is that when SetFileCompletionNotificationModes is
* used to avoid IOCP notifications of completed reads, WSARecv does not
* reliably indicate whether we can expect a completion package to be posted
* when the receive buffer is smaller than the received datagram.
*
* However it is desirable to use SetFileCompletionNotificationModes because
* it yields a massive performance increase.
*
* This function provides a workaround for that bug, but it only works for the
* specific case that we need it for. E.g. it assumes that the "avoid iocp"
* bit has been set, and supports only overlapped operation. It also requires
* the user to use the default msafd driver, doesn't work when other LSPs are
* stacked on top of it.
*/
int WSAAPI uv_wsarecv_workaround(SOCKET socket, WSABUF* buffers,
DWORD buffer_count, DWORD* bytes, DWORD* flags, WSAOVERLAPPED *overlapped,
LPWSAOVERLAPPED_COMPLETION_ROUTINE completion_routine) {
NTSTATUS status;
void* apc_context;
IO_STATUS_BLOCK* iosb = (IO_STATUS_BLOCK*) &overlapped->Internal;
AFD_RECV_INFO info;
DWORD error;
if (overlapped == NULL || completion_routine != NULL) {
WSASetLastError(WSAEINVAL);
return SOCKET_ERROR;
}
info.BufferArray = buffers;
info.BufferCount = buffer_count;
info.AfdFlags = AFD_OVERLAPPED;
info.TdiFlags = TDI_RECEIVE_NORMAL;
if (*flags & MSG_PEEK) {
info.TdiFlags |= TDI_RECEIVE_PEEK;
}
if (*flags & MSG_PARTIAL) {
info.TdiFlags |= TDI_RECEIVE_PARTIAL;
}
if (!((intptr_t) overlapped->hEvent & 1)) {
apc_context = (void*) overlapped;
} else {
apc_context = NULL;
}
iosb->Status = STATUS_PENDING;
iosb->Pointer = 0;
status = pNtDeviceIoControlFile((HANDLE) socket,
overlapped->hEvent,
NULL,
apc_context,
iosb,
IOCTL_AFD_RECEIVE,
&info,
sizeof(info),
NULL,
0);
*flags = 0;
*bytes = (DWORD) iosb->Information;
switch (status) {
case STATUS_SUCCESS:
error = ERROR_SUCCESS;
break;
case STATUS_PENDING:
error = WSA_IO_PENDING;
break;
case STATUS_BUFFER_OVERFLOW:
error = WSAEMSGSIZE;
break;
case STATUS_RECEIVE_EXPEDITED:
error = ERROR_SUCCESS;
*flags = MSG_OOB;
break;
case STATUS_RECEIVE_PARTIAL_EXPEDITED:
error = ERROR_SUCCESS;
*flags = MSG_PARTIAL | MSG_OOB;
break;
case STATUS_RECEIVE_PARTIAL:
error = ERROR_SUCCESS;
*flags = MSG_PARTIAL;
break;
default:
error = uv_ntstatus_to_winsock_error(status);
break;
}
WSASetLastError(error);
if (error == ERROR_SUCCESS) {
return 0;
} else {
return SOCKET_ERROR;
}
}
/* See description of uv_wsarecv_workaround. */
int WSAAPI uv_wsarecvfrom_workaround(SOCKET socket, WSABUF* buffers,
DWORD buffer_count, DWORD* bytes, DWORD* flags, struct sockaddr* addr,
int* addr_len, WSAOVERLAPPED *overlapped,
LPWSAOVERLAPPED_COMPLETION_ROUTINE completion_routine) {
NTSTATUS status;
void* apc_context;
IO_STATUS_BLOCK* iosb = (IO_STATUS_BLOCK*) &overlapped->Internal;
AFD_RECV_DATAGRAM_INFO info;
DWORD error;
if (overlapped == NULL || addr == NULL || addr_len == NULL ||
completion_routine != NULL) {
WSASetLastError(WSAEINVAL);
return SOCKET_ERROR;
}
info.BufferArray = buffers;
info.BufferCount = buffer_count;
info.AfdFlags = AFD_OVERLAPPED;
info.TdiFlags = TDI_RECEIVE_NORMAL;
info.Address = addr;
info.AddressLength = addr_len;
if (*flags & MSG_PEEK) {
info.TdiFlags |= TDI_RECEIVE_PEEK;
}
if (*flags & MSG_PARTIAL) {
info.TdiFlags |= TDI_RECEIVE_PARTIAL;
}
if (!((intptr_t) overlapped->hEvent & 1)) {
apc_context = (void*) overlapped;
} else {
apc_context = NULL;
}
iosb->Status = STATUS_PENDING;
iosb->Pointer = 0;
status = pNtDeviceIoControlFile((HANDLE) socket,
overlapped->hEvent,
NULL,
apc_context,
iosb,
IOCTL_AFD_RECEIVE_DATAGRAM,
&info,
sizeof(info),
NULL,
0);
*flags = 0;
*bytes = (DWORD) iosb->Information;
switch (status) {
case STATUS_SUCCESS:
error = ERROR_SUCCESS;
break;
case STATUS_PENDING:
error = WSA_IO_PENDING;
break;
case STATUS_BUFFER_OVERFLOW:
error = WSAEMSGSIZE;
break;
case STATUS_RECEIVE_EXPEDITED:
error = ERROR_SUCCESS;
*flags = MSG_OOB;
break;
case STATUS_RECEIVE_PARTIAL_EXPEDITED:
error = ERROR_SUCCESS;
*flags = MSG_PARTIAL | MSG_OOB;
break;
case STATUS_RECEIVE_PARTIAL:
error = ERROR_SUCCESS;
*flags = MSG_PARTIAL;
break;
default:
error = uv_ntstatus_to_winsock_error(status);
break;
}
WSASetLastError(error);
if (error == ERROR_SUCCESS) {
return 0;
} else {
return SOCKET_ERROR;
}
}
int WSAAPI uv_msafd_poll(SOCKET socket, AFD_POLL_INFO* info_in,
AFD_POLL_INFO* info_out, OVERLAPPED* overlapped) {
IO_STATUS_BLOCK iosb;
IO_STATUS_BLOCK* iosb_ptr;
HANDLE event = NULL;
void* apc_context;
NTSTATUS status;
DWORD error;
if (overlapped != NULL) {
/* Overlapped operation. */
iosb_ptr = (IO_STATUS_BLOCK*) &overlapped->Internal;
event = overlapped->hEvent;
/* Do not report iocp completion if hEvent is tagged. */
if ((uintptr_t) event & 1) {
event = (HANDLE)((uintptr_t) event & ~(uintptr_t) 1);
apc_context = NULL;
} else {
apc_context = overlapped;
}
} else {
/* Blocking operation. */
iosb_ptr = &iosb;
event = CreateEvent(NULL, FALSE, FALSE, NULL);
if (event == NULL) {
return SOCKET_ERROR;
}
apc_context = NULL;
}
iosb_ptr->Status = STATUS_PENDING;
status = pNtDeviceIoControlFile((HANDLE) socket,
event,
NULL,
apc_context,
iosb_ptr,
IOCTL_AFD_POLL,
info_in,
sizeof *info_in,
info_out,
sizeof *info_out);
if (overlapped == NULL) {
/* If this is a blocking operation, wait for the event to become signaled,
* and then grab the real status from the io status block. */
if (status == STATUS_PENDING) {
DWORD r = WaitForSingleObject(event, INFINITE);
if (r == WAIT_FAILED) {
DWORD saved_error = GetLastError();
CloseHandle(event);
WSASetLastError(saved_error);
return SOCKET_ERROR;
}
status = iosb.Status;
}
CloseHandle(event);
}
switch (status) {
case STATUS_SUCCESS:
error = ERROR_SUCCESS;
break;
case STATUS_PENDING:
error = WSA_IO_PENDING;
break;
default:
error = uv_ntstatus_to_winsock_error(status);
break;
}
WSASetLastError(error);
if (error == ERROR_SUCCESS) {
return 0;
} else {
return SOCKET_ERROR;
}
}
int uv__convert_to_localhost_if_unspecified(const struct sockaddr* addr,
struct sockaddr_storage* storage) {
struct sockaddr_in* dest4;
struct sockaddr_in6* dest6;
if (addr == NULL)
return UV_EINVAL;
switch (addr->sa_family) {
case AF_INET:
dest4 = (struct sockaddr_in*) storage;
memcpy(dest4, addr, sizeof(*dest4));
if (dest4->sin_addr.s_addr == 0)
dest4->sin_addr.s_addr = htonl(INADDR_LOOPBACK);
return 0;
case AF_INET6:
dest6 = (struct sockaddr_in6*) storage;
memcpy(dest6, addr, sizeof(*dest6));
if (memcmp(&dest6->sin6_addr,
&uv_addr_ip6_any_.sin6_addr,
sizeof(uv_addr_ip6_any_.sin6_addr)) == 0) {
struct in6_addr init_sin6_addr = IN6ADDR_LOOPBACK_INIT;
dest6->sin6_addr = init_sin6_addr;
}
return 0;
default:
return UV_EINVAL;
}
}
|