/* * * Copyright 2015, Google Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #include #ifdef GPR_WINSOCK_SOCKET #include "src/core/iomgr/sockaddr_win32.h" #include #include #include #include #include #include "src/core/iomgr/alarm.h" #include "src/core/iomgr/iocp_windows.h" #include "src/core/iomgr/sockaddr.h" #include "src/core/iomgr/sockaddr_utils.h" #include "src/core/iomgr/socket_windows.h" #include "src/core/iomgr/tcp_client.h" static int set_non_block(SOCKET sock) { int status; unsigned long param = 1; DWORD ret; status = WSAIoctl(sock, FIONBIO, ¶m, sizeof(param), NULL, 0, &ret, NULL, NULL); return status == 0; } static int set_dualstack(SOCKET sock) { int status; unsigned long param = 0; status = setsockopt(sock, IPPROTO_IPV6, IPV6_V6ONLY, (const char *) ¶m, sizeof(param)); return status == 0; } int grpc_tcp_prepare_socket(SOCKET sock) { if (!set_non_block(sock)) return 0; if (!set_dualstack(sock)) return 0; return 1; } typedef struct grpc_tcp { /* This is our C++ class derivation emulation. */ grpc_endpoint base; /* The one socket this endpoint is using. */ grpc_winsocket *socket; /* Refcounting how many operations are in progress. */ gpr_refcount refcount; grpc_endpoint_read_cb read_cb; void *read_user_data; gpr_slice read_slice; grpc_endpoint_write_cb write_cb; void *write_user_data; gpr_slice_buffer write_slices; /* The IO Completion Port runs from another thread. We need some mechanism to protect ourselves when requesting a shutdown. */ gpr_mu mu; int shutting_down; } grpc_tcp; static void tcp_ref(grpc_tcp *tcp) { gpr_ref(&tcp->refcount); } static void tcp_unref(grpc_tcp *tcp) { if (gpr_unref(&tcp->refcount)) { gpr_slice_buffer_destroy(&tcp->write_slices); grpc_winsocket_orphan(tcp->socket); gpr_mu_destroy(&tcp->mu); gpr_free(tcp); } } /* Asynchronous callback from the IOCP, or the background thread. */ static void on_read(void *tcpp, int from_iocp) { grpc_tcp *tcp = (grpc_tcp *) tcpp; grpc_winsocket *socket = tcp->socket; gpr_slice sub; gpr_slice *slice = NULL; size_t nslices = 0; grpc_endpoint_cb_status status; grpc_endpoint_read_cb cb; grpc_winsocket_callback_info *info = &socket->read_info; void *opaque = tcp->read_user_data; int do_abort = 0; gpr_mu_lock(&tcp->mu); cb = tcp->read_cb; tcp->read_cb = NULL; if (!from_iocp || tcp->shutting_down) { /* If we are here with from_iocp set to true, it means we got raced to shutting down the endpoint. No actual abort callback will happen though, so we're going to do it from here. */ do_abort = 1; } gpr_mu_unlock(&tcp->mu); if (do_abort) { if (from_iocp) { tcp->socket->read_info.outstanding = 0; gpr_slice_unref(tcp->read_slice); } tcp_unref(tcp); if (cb) cb(opaque, NULL, 0, GRPC_ENDPOINT_CB_SHUTDOWN); return; } GPR_ASSERT(tcp->socket->read_info.outstanding); if (socket->read_info.wsa_error != 0) { char *utf8_message = gpr_format_message(info->wsa_error); gpr_log(GPR_ERROR, "ReadFile overlapped error: %s", utf8_message); gpr_free(utf8_message); status = GRPC_ENDPOINT_CB_ERROR; } else { if (info->bytes_transfered != 0) { sub = gpr_slice_sub(tcp->read_slice, 0, info->bytes_transfered); status = GRPC_ENDPOINT_CB_OK; slice = ⊂ nslices = 1; } else { gpr_slice_unref(tcp->read_slice); status = GRPC_ENDPOINT_CB_EOF; } } tcp->socket->read_info.outstanding = 0; tcp_unref(tcp); cb(opaque, slice, nslices, status); } static void win_notify_on_read(grpc_endpoint *ep, grpc_endpoint_read_cb cb, void *arg) { grpc_tcp *tcp = (grpc_tcp *) ep; grpc_winsocket *handle = tcp->socket; grpc_winsocket_callback_info *info = &handle->read_info; int status; DWORD bytes_read = 0; DWORD flags = 0; WSABUF buffer; GPR_ASSERT(!tcp->socket->read_info.outstanding); if (tcp->shutting_down) { cb(arg, NULL, 0, GRPC_ENDPOINT_CB_SHUTDOWN); return; } tcp_ref(tcp); tcp->socket->read_info.outstanding = 1; tcp->read_cb = cb; tcp->read_user_data = arg; tcp->read_slice = gpr_slice_malloc(8192); buffer.len = GPR_SLICE_LENGTH(tcp->read_slice); buffer.buf = (char *)GPR_SLICE_START_PTR(tcp->read_slice); /* First let's try a synchronous, non-blocking read. */ status = WSARecv(tcp->socket->socket, &buffer, 1, &bytes_read, &flags, NULL, NULL); info->wsa_error = status == 0 ? 0 : WSAGetLastError(); /* Did we get data immediately ? Yay. */ if (info->wsa_error != WSAEWOULDBLOCK) { info->bytes_transfered = bytes_read; /* This might heavily recurse. */ on_read(tcp, 1); return; } /* Otherwise, let's retry, by queuing a read. */ memset(&tcp->socket->read_info.overlapped, 0, sizeof(OVERLAPPED)); status = WSARecv(tcp->socket->socket, &buffer, 1, &bytes_read, &flags, &info->overlapped, NULL); if (status != 0) { int wsa_error = WSAGetLastError(); if (wsa_error != WSA_IO_PENDING) { info->wsa_error = wsa_error; on_read(tcp, 1); return; } } grpc_socket_notify_on_read(tcp->socket, on_read, tcp); } /* Asynchronous callback from the IOCP, or the background thread. */ static void on_write(void *tcpp, int from_iocp) { grpc_tcp *tcp = (grpc_tcp *) tcpp; grpc_winsocket *handle = tcp->socket; grpc_winsocket_callback_info *info = &handle->write_info; grpc_endpoint_cb_status status = GRPC_ENDPOINT_CB_OK; grpc_endpoint_write_cb cb; void *opaque = tcp->write_user_data; int do_abort = 0; gpr_mu_lock(&tcp->mu); cb = tcp->write_cb; tcp->write_cb = NULL; if (!from_iocp || tcp->shutting_down) { /* If we are here with from_iocp set to true, it means we got raced to shutting down the endpoint. No actual abort callback will happen though, so we're going to do it from here. */ do_abort = 1; } gpr_mu_unlock(&tcp->mu); if (do_abort) { if (from_iocp) { tcp->socket->write_info.outstanding = 0; gpr_slice_buffer_reset_and_unref(&tcp->write_slices); } tcp_unref(tcp); if (cb) cb(opaque, GRPC_ENDPOINT_CB_SHUTDOWN); return; } GPR_ASSERT(tcp->socket->write_info.outstanding); if (info->wsa_error != 0) { char *utf8_message = gpr_format_message(info->wsa_error); gpr_log(GPR_ERROR, "WSASend overlapped error: %s", utf8_message); gpr_free(utf8_message); status = GRPC_ENDPOINT_CB_ERROR; } else { GPR_ASSERT(info->bytes_transfered == tcp->write_slices.length); } gpr_slice_buffer_reset_and_unref(&tcp->write_slices); tcp->socket->write_info.outstanding = 0; tcp_unref(tcp); cb(opaque, status); } /* Initiates a write. */ static grpc_endpoint_write_status win_write(grpc_endpoint *ep, gpr_slice *slices, size_t nslices, grpc_endpoint_write_cb cb, void *arg) { grpc_tcp *tcp = (grpc_tcp *) ep; grpc_winsocket *socket = tcp->socket; grpc_winsocket_callback_info *info = &socket->write_info; unsigned i; DWORD bytes_sent; int status; WSABUF local_buffers[16]; WSABUF *allocated = NULL; WSABUF *buffers = local_buffers; GPR_ASSERT(!tcp->socket->write_info.outstanding); if (tcp->shutting_down) { return GRPC_ENDPOINT_WRITE_ERROR; } tcp_ref(tcp); tcp->socket->write_info.outstanding = 1; tcp->write_cb = cb; tcp->write_user_data = arg; gpr_slice_buffer_addn(&tcp->write_slices, slices, nslices); if (tcp->write_slices.count > GPR_ARRAY_SIZE(local_buffers)) { buffers = (WSABUF *) gpr_malloc(sizeof(WSABUF) * tcp->write_slices.count); allocated = buffers; } for (i = 0; i < tcp->write_slices.count; i++) { buffers[i].len = GPR_SLICE_LENGTH(tcp->write_slices.slices[i]); buffers[i].buf = (char *)GPR_SLICE_START_PTR(tcp->write_slices.slices[i]); } /* First, let's try a synchronous, non-blocking write. */ status = WSASend(socket->socket, buffers, tcp->write_slices.count, &bytes_sent, 0, NULL, NULL); info->wsa_error = status == 0 ? 0 : WSAGetLastError(); /* We would kind of expect to get a WSAEWOULDBLOCK here, especially on a busy connection that has its send queue filled up. But if we don't, then we can avoid doing an async write operation at all. */ if (info->wsa_error != WSAEWOULDBLOCK) { grpc_endpoint_write_status ret = GRPC_ENDPOINT_WRITE_ERROR; if (status == 0) { ret = GRPC_ENDPOINT_WRITE_DONE; GPR_ASSERT(bytes_sent == tcp->write_slices.length); } else { char *utf8_message = gpr_format_message(info->wsa_error); gpr_log(GPR_ERROR, "WSASend error: %s", utf8_message); gpr_free(utf8_message); } if (allocated) gpr_free(allocated); gpr_slice_buffer_reset_and_unref(&tcp->write_slices); tcp->socket->write_info.outstanding = 0; tcp_unref(tcp); return ret; } /* If we got a WSAEWOULDBLOCK earlier, then we need to re-do the same operation, this time asynchronously. */ memset(&socket->write_info.overlapped, 0, sizeof(OVERLAPPED)); status = WSASend(socket->socket, buffers, tcp->write_slices.count, &bytes_sent, 0, &socket->write_info.overlapped, NULL); if (allocated) gpr_free(allocated); if (status != 0) { int wsa_error = WSAGetLastError(); if (wsa_error != WSA_IO_PENDING) { gpr_slice_buffer_reset_and_unref(&tcp->write_slices); tcp->socket->write_info.outstanding = 0; tcp_unref(tcp); return GRPC_ENDPOINT_WRITE_ERROR; } } /* As all is now setup, we can now ask for the IOCP notification. It may trigger the callback immediately however, but no matter. */ grpc_socket_notify_on_write(socket, on_write, tcp); return GRPC_ENDPOINT_WRITE_PENDING; } static void win_add_to_pollset(grpc_endpoint *ep, grpc_pollset *pollset) { grpc_tcp *tcp = (grpc_tcp *) ep; grpc_iocp_add_socket(tcp->socket); } /* Initiates a shutdown of the TCP endpoint. This will queue abort callbacks for the potential read and write operations. It is up to the caller to guarantee this isn't called in parallel to a read or write request, so we're not going to protect against these. However the IO Completion Port callback will happen from another thread, so we need to protect against concurrent access of the data structure in that regard. */ static void win_shutdown(grpc_endpoint *ep) { grpc_tcp *tcp = (grpc_tcp *) ep; int extra_refs = 0; gpr_mu_lock(&tcp->mu); /* At that point, what may happen is that we're already inside the IOCP callback. See the comments in on_read and on_write. */ tcp->shutting_down = 1; extra_refs = grpc_winsocket_shutdown(tcp->socket); while (extra_refs--) tcp_ref(tcp); gpr_mu_unlock(&tcp->mu); } static void win_destroy(grpc_endpoint *ep) { grpc_tcp *tcp = (grpc_tcp *) ep; tcp_unref(tcp); } static grpc_endpoint_vtable vtable = { win_notify_on_read, win_write, win_add_to_pollset, win_shutdown, win_destroy }; grpc_endpoint *grpc_tcp_create(grpc_winsocket *socket) { grpc_tcp *tcp = (grpc_tcp *) gpr_malloc(sizeof(grpc_tcp)); memset(tcp, 0, sizeof(grpc_tcp)); tcp->base.vtable = &vtable; tcp->socket = socket; gpr_mu_init(&tcp->mu); gpr_slice_buffer_init(&tcp->write_slices); gpr_ref_init(&tcp->refcount, 1); return &tcp->base; } #endif /* GPR_WINSOCK_SOCKET */