tor-android/external/badvpn_dns/system/BConnection_win.c

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2015-01-25 11:08:34 +00:00
/**
* @file BConnection_win.c
* @author Ambroz Bizjak <ambrop7@gmail.com>
*
* @section LICENSE
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
* 3. Neither the name of the author 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 AUTHOR 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 <stdlib.h>
#include <limits.h>
#include <base/BLog.h>
#include "BConnection.h"
#include <generated/blog_channel_BConnection.h>
#define LISTEN_BACKLOG 128
struct sys_addr {
int len;
union {
struct sockaddr generic;
struct sockaddr_in ipv4;
struct sockaddr_in6 ipv6;
} addr;
};
static void addr_socket_to_sys (struct sys_addr *out, BAddr addr);
static void addr_any_to_sys (struct sys_addr *out, int family);
static void addr_sys_to_socket (BAddr *out, struct sys_addr addr);
static void listener_next_job_handler (BListener *o);
static void listener_olap_handler (BListener *o, int event, DWORD bytes);
static void connector_olap_handler (BConnector *o, int event, DWORD bytes);
static void connector_abort (BConnector *o);
static void connection_report_error (BConnection *o);
static void connection_abort (BConnection *o);
static void connection_send_iface_handler_send (BConnection *o, uint8_t *data, int data_len);
static void connection_recv_iface_handler_recv (BConnection *o, uint8_t *data, int data_len);
static void connection_send_olap_handler (BConnection *o, int event, DWORD bytes);
static void connection_recv_olap_handler (BConnection *o, int event, DWORD bytes);
static void addr_socket_to_sys (struct sys_addr *out, BAddr addr)
{
switch (addr.type) {
case BADDR_TYPE_IPV4: {
out->len = sizeof(out->addr.ipv4);
memset(&out->addr.ipv4, 0, sizeof(out->addr.ipv4));
out->addr.ipv4.sin_family = AF_INET;
out->addr.ipv4.sin_port = addr.ipv4.port;
out->addr.ipv4.sin_addr.s_addr = addr.ipv4.ip;
} break;
case BADDR_TYPE_IPV6: {
out->len = sizeof(out->addr.ipv6);
memset(&out->addr.ipv6, 0, sizeof(out->addr.ipv6));
out->addr.ipv6.sin6_family = AF_INET6;
out->addr.ipv6.sin6_port = addr.ipv6.port;
out->addr.ipv6.sin6_flowinfo = 0;
memcpy(out->addr.ipv6.sin6_addr.s6_addr, addr.ipv6.ip, 16);
out->addr.ipv6.sin6_scope_id = 0;
} break;
default: ASSERT(0);
}
}
static void addr_any_to_sys (struct sys_addr *out, int family)
{
switch (family) {
case BADDR_TYPE_IPV4: {
out->len = sizeof(out->addr.ipv4);
memset(&out->addr.ipv4, 0, sizeof(out->addr.ipv4));
out->addr.ipv4.sin_family = AF_INET;
out->addr.ipv4.sin_port = 0;
out->addr.ipv4.sin_addr.s_addr = INADDR_ANY;
} break;
case BADDR_TYPE_IPV6: {
out->len = sizeof(out->addr.ipv6);
memset(&out->addr.ipv6, 0, sizeof(out->addr.ipv6));
out->addr.ipv6.sin6_family = AF_INET6;
out->addr.ipv6.sin6_port = 0;
out->addr.ipv6.sin6_flowinfo = 0;
struct in6_addr any = IN6ADDR_ANY_INIT;
out->addr.ipv6.sin6_addr = any;
out->addr.ipv6.sin6_scope_id = 0;
} break;
default: ASSERT(0);
}
}
static void addr_sys_to_socket (BAddr *out, struct sys_addr addr)
{
switch (addr.addr.generic.sa_family) {
case AF_INET: {
ASSERT(addr.len == sizeof(struct sockaddr_in))
BAddr_InitIPv4(out, addr.addr.ipv4.sin_addr.s_addr, addr.addr.ipv4.sin_port);
} break;
case AF_INET6: {
ASSERT(addr.len == sizeof(struct sockaddr_in6))
BAddr_InitIPv6(out, addr.addr.ipv6.sin6_addr.s6_addr, addr.addr.ipv6.sin6_port);
} break;
default: {
BAddr_InitNone(out);
} break;
}
}
static void listener_next_job_handler (BListener *o)
{
DebugObject_Access(&o->d_obj);
ASSERT(!o->busy)
// free ready socket
if (o->ready) {
BLog(BLOG_ERROR, "discarding connection");
// close new socket
if (closesocket(o->newsock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
// set not ready
o->ready = 0;
}
// create new socket
if ((o->newsock = WSASocket(o->sys_family, SOCK_STREAM, 0, NULL, 0, WSA_FLAG_OVERLAPPED)) == INVALID_SOCKET) {
BLog(BLOG_ERROR, "WSASocket failed");
goto fail0;
}
// start accept operation
while (1) {
memset(&o->olap.olap, 0, sizeof(o->olap.olap));
DWORD bytes;
BOOL res = o->fnAcceptEx(o->sock, o->newsock, o->addrbuf, 0, sizeof(struct BListener_addrbuf_stub), sizeof(struct BListener_addrbuf_stub), &bytes, &o->olap.olap);
if (res == FALSE && WSAGetLastError() != ERROR_IO_PENDING) {
BLog(BLOG_ERROR, "AcceptEx failed");
continue;
}
break;
}
// set busy
o->busy = 1;
return;
fail0:
return;
}
static void listener_olap_handler (BListener *o, int event, DWORD bytes)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->busy)
ASSERT(!o->ready)
ASSERT(event == BREACTOR_IOCP_EVENT_SUCCEEDED || event == BREACTOR_IOCP_EVENT_FAILED)
// set not busy
o->busy = 0;
// schedule next accept
BPending_Set(&o->next_job);
if (event == BREACTOR_IOCP_EVENT_FAILED) {
BLog(BLOG_ERROR, "accepting failed");
// close new socket
if (closesocket(o->newsock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
return;
}
BLog(BLOG_INFO, "connection accepted");
// set ready
o->ready = 1;
// call handler
o->handler(o->user);
return;
}
static void connector_olap_handler (BConnector *o, int event, DWORD bytes)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->sock != INVALID_SOCKET)
ASSERT(o->busy)
ASSERT(!o->ready)
ASSERT(event == BREACTOR_IOCP_EVENT_SUCCEEDED || event == BREACTOR_IOCP_EVENT_FAILED)
// set not busy
o->busy = 0;
if (event == BREACTOR_IOCP_EVENT_FAILED) {
BLog(BLOG_ERROR, "connection failed");
} else {
// set ready
o->ready = 1;
}
// call handler
o->handler(o->user, !o->ready);
return;
}
static void connector_abort (BConnector *o)
{
if (o->sock != INVALID_SOCKET) {
// cancel I/O
if (o->busy) {
if (!CancelIo((HANDLE)o->sock)) {
BLog(BLOG_ERROR, "CancelIo failed");
}
}
// close socket
if (closesocket(o->sock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
}
// wait for connect operation to finish
if (o->busy) {
BReactorIOCPOverlapped_Wait(&o->olap, NULL, NULL);
}
// free olap
BReactorIOCPOverlapped_Free(&o->olap);
}
static void connection_report_error (BConnection *o)
{
DebugError_AssertNoError(&o->d_err);
ASSERT(o->handler)
// report error
DEBUGERROR(&o->d_err, o->handler(o->user, BCONNECTION_EVENT_ERROR));
return;
}
static void connection_abort (BConnection *o)
{
ASSERT(!o->aborted)
// cancel I/O
if ((o->recv.inited && o->recv.busy) || (o->send.inited && o->send.busy)) {
if (!CancelIo((HANDLE)o->sock)) {
BLog(BLOG_ERROR, "CancelIo failed");
}
}
// close socket
if (closesocket(o->sock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
// wait for receiving to complete
if (o->recv.inited && o->recv.busy) {
BReactorIOCPOverlapped_Wait(&o->recv.olap, NULL, NULL);
}
// wait for sending to complete
if (o->send.inited && o->send.busy) {
BReactorIOCPOverlapped_Wait(&o->send.olap, NULL, NULL);
}
// free recv olap
BReactorIOCPOverlapped_Free(&o->recv.olap);
// free send olap
BReactorIOCPOverlapped_Free(&o->send.olap);
// set aborted
o->aborted = 1;
}
static void connection_send_iface_handler_send (BConnection *o, uint8_t *data, int data_len)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(!o->aborted)
ASSERT(o->send.inited)
ASSERT(!o->send.busy)
ASSERT(data_len > 0)
if (data_len > ULONG_MAX) {
data_len = ULONG_MAX;
}
WSABUF buf;
buf.buf = (char *)data;
buf.len = data_len;
memset(&o->send.olap.olap, 0, sizeof(o->send.olap.olap));
// send
int res = WSASend(o->sock, &buf, 1, NULL, 0, &o->send.olap.olap, NULL);
if (res == SOCKET_ERROR && WSAGetLastError() != WSA_IO_PENDING) {
BLog(BLOG_ERROR, "WSASend failed (%d)", WSAGetLastError());
connection_report_error(o);
return;
}
// set busy
o->send.busy = 1;
o->send.busy_data_len = data_len;
}
static void connection_recv_iface_handler_recv (BConnection *o, uint8_t *data, int data_len)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(!o->recv.closed)
ASSERT(!o->aborted)
ASSERT(o->recv.inited)
ASSERT(!o->recv.busy)
ASSERT(data_len > 0)
if (data_len > ULONG_MAX) {
data_len = ULONG_MAX;
}
WSABUF buf;
buf.buf = (char *)data;
buf.len = data_len;
memset(&o->recv.olap.olap, 0, sizeof(o->recv.olap.olap));
// recv
DWORD flags = 0;
int res = WSARecv(o->sock, &buf, 1, NULL, &flags, &o->recv.olap.olap, NULL);
if (res == SOCKET_ERROR && WSAGetLastError() != WSA_IO_PENDING) {
BLog(BLOG_ERROR, "WSARecv failed (%d)", WSAGetLastError());
connection_report_error(o);
return;
}
// set busy
o->recv.busy = 1;
o->recv.busy_data_len = data_len;
}
static void connection_send_olap_handler (BConnection *o, int event, DWORD bytes)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(!o->aborted)
ASSERT(o->send.inited)
ASSERT(o->send.busy)
ASSERT(event == BREACTOR_IOCP_EVENT_SUCCEEDED || event == BREACTOR_IOCP_EVENT_FAILED)
// set not busy
o->send.busy = 0;
if (event == BREACTOR_IOCP_EVENT_FAILED) {
BLog(BLOG_ERROR, "sending failed");
connection_report_error(o);
return;
}
ASSERT(bytes > 0)
ASSERT(bytes <= o->send.busy_data_len)
// done
StreamPassInterface_Done(&o->send.iface, bytes);
}
static void connection_recv_olap_handler (BConnection *o, int event, DWORD bytes)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(!o->recv.closed)
ASSERT(!o->aborted)
ASSERT(o->recv.inited)
ASSERT(o->recv.busy)
ASSERT(event == BREACTOR_IOCP_EVENT_SUCCEEDED || event == BREACTOR_IOCP_EVENT_FAILED)
// set not busy
o->recv.busy = 0;
if (event == BREACTOR_IOCP_EVENT_FAILED) {
BLog(BLOG_ERROR, "receiving failed");
connection_report_error(o);
return;
}
if (bytes == 0) {
// set closed
o->recv.closed = 1;
// report recv closed
o->handler(o->user, BCONNECTION_EVENT_RECVCLOSED);
return;
}
ASSERT(bytes > 0)
ASSERT(bytes <= o->recv.busy_data_len)
// done
StreamRecvInterface_Done(&o->recv.iface, bytes);
}
int BConnection_AddressSupported (BAddr addr)
{
BAddr_Assert(&addr);
return (addr.type == BADDR_TYPE_IPV4 || addr.type == BADDR_TYPE_IPV6);
}
int BListener_Init (BListener *o, BAddr addr, BReactor *reactor, void *user,
BListener_handler handler)
{
ASSERT(handler)
BNetwork_Assert();
// init arguments
o->reactor = reactor;
o->user = user;
o->handler = handler;
// check address
if (!BConnection_AddressSupported(addr)) {
BLog(BLOG_ERROR, "address not supported");
goto fail0;
}
// convert address
struct sys_addr sysaddr;
addr_socket_to_sys(&sysaddr, addr);
// remember family
o->sys_family = sysaddr.addr.generic.sa_family;
// init socket
if ((o->sock = WSASocket(sysaddr.addr.generic.sa_family, SOCK_STREAM, 0, NULL, 0, WSA_FLAG_OVERLAPPED)) == INVALID_SOCKET) {
BLog(BLOG_ERROR, "WSASocket failed");
goto fail0;
}
// associate with IOCP
if (!CreateIoCompletionPort((HANDLE)o->sock, BReactor_GetIOCPHandle(o->reactor), 0, 0)) {
BLog(BLOG_ERROR, "CreateIoCompletionPort failed");
goto fail1;
}
// bind
if (bind(o->sock, &sysaddr.addr.generic, sysaddr.len) < 0) {
BLog(BLOG_ERROR, "bind failed");
goto fail1;
}
// listen
if (listen(o->sock, LISTEN_BACKLOG) < 0) {
BLog(BLOG_ERROR, "listen failed");
goto fail1;
}
DWORD out_bytes;
// obtain AcceptEx
GUID guid1 = WSAID_ACCEPTEX;
if (WSAIoctl(o->sock, SIO_GET_EXTENSION_FUNCTION_POINTER, &guid1, sizeof(guid1), &o->fnAcceptEx, sizeof(o->fnAcceptEx), &out_bytes, NULL, NULL) != 0) {
BLog(BLOG_ERROR, "faild to obtain AcceptEx");
goto fail1;
}
// obtain GetAcceptExSockaddrs
GUID guid2 = WSAID_GETACCEPTEXSOCKADDRS;
if (WSAIoctl(o->sock, SIO_GET_EXTENSION_FUNCTION_POINTER, &guid2, sizeof(guid2), &o->fnGetAcceptExSockaddrs, sizeof(o->fnGetAcceptExSockaddrs), &out_bytes, NULL, NULL) != 0) {
BLog(BLOG_ERROR, "faild to obtain GetAcceptExSockaddrs");
goto fail1;
}
// init olap
BReactorIOCPOverlapped_Init(&o->olap, o->reactor, o, (BReactorIOCPOverlapped_handler)listener_olap_handler);
// init next job
BPending_Init(&o->next_job, BReactor_PendingGroup(o->reactor), (BPending_handler)listener_next_job_handler, o);
// set not busy
o->busy = 0;
// set not ready
o->ready = 0;
// set next job
BPending_Set(&o->next_job);
DebugObject_Init(&o->d_obj);
return 1;
fail1:
if (closesocket(o->sock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
fail0:
return 0;
}
void BListener_Free (BListener *o)
{
DebugObject_Free(&o->d_obj);
// cancel I/O
if (o->busy) {
if (!CancelIo((HANDLE)o->sock)) {
BLog(BLOG_ERROR, "CancelIo failed");
}
}
// close socket
if (closesocket(o->sock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
// wait for accept operation to finish
if (o->busy) {
BReactorIOCPOverlapped_Wait(&o->olap, NULL, NULL);
}
// close new socket
if (o->busy || o->ready) {
if (closesocket(o->newsock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
}
// free next job
BPending_Free(&o->next_job);
// free olap
BReactorIOCPOverlapped_Free(&o->olap);
}
int BConnector_Init (BConnector *o, BAddr addr, BReactor *reactor, void *user,
BConnector_handler handler)
{
ASSERT(handler)
BNetwork_Assert();
// init arguments
o->reactor = reactor;
o->user = user;
o->handler = handler;
// check address
if (!BConnection_AddressSupported(addr)) {
BLog(BLOG_ERROR, "address not supported");
goto fail0;
}
// convert address
struct sys_addr sysaddr;
addr_socket_to_sys(&sysaddr, addr);
// create local any address
struct sys_addr local_sysaddr;
addr_any_to_sys(&local_sysaddr, addr.type);
// init socket
if ((o->sock = WSASocket(sysaddr.addr.generic.sa_family, SOCK_STREAM, 0, NULL, 0, WSA_FLAG_OVERLAPPED)) == INVALID_SOCKET) {
BLog(BLOG_ERROR, "WSASocket failed");
goto fail0;
}
// associate with IOCP
if (!CreateIoCompletionPort((HANDLE)o->sock, BReactor_GetIOCPHandle(o->reactor), 0, 0)) {
BLog(BLOG_ERROR, "CreateIoCompletionPort failed");
goto fail1;
}
// bind socket
if (bind(o->sock, &local_sysaddr.addr.generic, local_sysaddr.len) < 0) {
BLog(BLOG_ERROR, "bind failed");
goto fail1;
}
// obtain ConnectEx
GUID guid = WSAID_CONNECTEX;
DWORD out_bytes;
if (WSAIoctl(o->sock, SIO_GET_EXTENSION_FUNCTION_POINTER, &guid, sizeof(guid), &o->fnConnectEx, sizeof(o->fnConnectEx), &out_bytes, NULL, NULL) != 0) {
BLog(BLOG_ERROR, "faild to get ConnectEx");
goto fail1;
}
// init olap
BReactorIOCPOverlapped_Init(&o->olap, o->reactor, o, (BReactorIOCPOverlapped_handler)connector_olap_handler);
// start connect operation
BOOL res = o->fnConnectEx(o->sock, &sysaddr.addr.generic, sysaddr.len, NULL, 0, NULL, &o->olap.olap);
if (res == FALSE && WSAGetLastError() != ERROR_IO_PENDING) {
BLog(BLOG_ERROR, "ConnectEx failed (%d)", WSAGetLastError());
goto fail2;
}
// set busy
o->busy = 1;
// set not ready
o->ready = 0;
DebugObject_Init(&o->d_obj);
return 1;
fail2:
BReactorIOCPOverlapped_Free(&o->olap);
fail1:
if (closesocket(o->sock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
fail0:
return 0;
}
void BConnector_Free (BConnector *o)
{
DebugObject_Free(&o->d_obj);
if (o->sock != INVALID_SOCKET) {
connector_abort(o);
}
}
int BConnection_Init (BConnection *o, struct BConnection_source source, BReactor *reactor, void *user,
BConnection_handler handler)
{
switch (source.type) {
case BCONNECTION_SOURCE_TYPE_LISTENER: {
BListener *listener = source.u.listener.listener;
DebugObject_Access(&listener->d_obj);
ASSERT(BPending_IsSet(&listener->next_job))
ASSERT(!listener->busy)
ASSERT(listener->ready)
} break;
case BCONNECTION_SOURCE_TYPE_CONNECTOR: {
BConnector *connector = source.u.connector.connector;
DebugObject_Access(&connector->d_obj);
ASSERT(connector->reactor == reactor)
ASSERT(connector->sock != INVALID_SOCKET)
ASSERT(!connector->busy)
ASSERT(connector->ready)
} break;
default: ASSERT(0);
}
ASSERT(handler)
BNetwork_Assert();
// init arguments
o->reactor = reactor;
o->user = user;
o->handler = handler;
switch (source.type) {
case BCONNECTION_SOURCE_TYPE_LISTENER: {
BListener *listener = source.u.listener.listener;
// grab new socket from listener
o->sock = listener->newsock;
listener->ready = 0;
// associate with IOCP
if (!CreateIoCompletionPort((HANDLE)o->sock, BReactor_GetIOCPHandle(o->reactor), 0, 0)) {
BLog(BLOG_ERROR, "CreateIoCompletionPort failed");
goto fail1;
}
// return address
if (source.u.listener.out_addr) {
struct sockaddr *addr_local;
struct sockaddr *addr_remote;
int len_local;
int len_remote;
listener->fnGetAcceptExSockaddrs(listener->addrbuf, 0, sizeof(struct BListener_addrbuf_stub), sizeof(struct BListener_addrbuf_stub),
&addr_local, &len_local, &addr_remote, &len_remote);
struct sys_addr sysaddr;
ASSERT_FORCE(len_remote >= 0)
ASSERT_FORCE(len_remote <= sizeof(sysaddr.addr))
memcpy((uint8_t *)&sysaddr.addr, (uint8_t *)addr_remote, len_remote);
sysaddr.len = len_remote;
addr_sys_to_socket(source.u.listener.out_addr, sysaddr);
}
} break;
case BCONNECTION_SOURCE_TYPE_CONNECTOR: {
BConnector *connector = source.u.connector.connector;
// grab fd from connector
o->sock = connector->sock;
connector->sock = INVALID_SOCKET;
// release connector resources
connector_abort(connector);
} break;
}
// set not aborted
o->aborted = 0;
// init send olap
BReactorIOCPOverlapped_Init(&o->send.olap, o->reactor, o, (BReactorIOCPOverlapped_handler)connection_send_olap_handler);
// set send not inited
o->send.inited = 0;
// init recv olap
BReactorIOCPOverlapped_Init(&o->recv.olap, o->reactor, o, (BReactorIOCPOverlapped_handler)connection_recv_olap_handler);
// set recv not closed
o->recv.closed = 0;
// set recv not inited
o->recv.inited = 0;
DebugError_Init(&o->d_err, BReactor_PendingGroup(o->reactor));
DebugObject_Init(&o->d_obj);
return 1;
fail1:
if (closesocket(o->sock) == SOCKET_ERROR) {
BLog(BLOG_ERROR, "closesocket failed");
}
return 0;
}
void BConnection_Free (BConnection *o)
{
DebugObject_Free(&o->d_obj);
DebugError_Free(&o->d_err);
ASSERT(!o->recv.inited)
ASSERT(!o->send.inited)
if (!o->aborted) {
connection_abort(o);
}
}
void BConnection_SetHandlers (BConnection *o, void *user, BConnection_handler handler)
{
DebugObject_Access(&o->d_obj);
// set handlers
o->user = user;
o->handler = handler;
}
int BConnection_SetSendBuffer (BConnection *o, int buf_size)
{
DebugObject_Access(&o->d_obj);
if (setsockopt(o->sock, SOL_SOCKET, SO_SNDBUF, (char *)&buf_size, sizeof(buf_size)) < 0) {
BLog(BLOG_ERROR, "setsockopt failed");
return 0;
}
return 1;
}
void BConnection_SendAsync_Init (BConnection *o)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(!o->aborted)
ASSERT(!o->send.inited)
// init interface
StreamPassInterface_Init(&o->send.iface, (StreamPassInterface_handler_send)connection_send_iface_handler_send, o, BReactor_PendingGroup(o->reactor));
// set not busy
o->send.busy = 0;
// set inited
o->send.inited = 1;
}
void BConnection_SendAsync_Free (BConnection *o)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->send.inited)
// abort if busy
if (o->send.busy && !o->aborted) {
connection_abort(o);
}
// free interface
StreamPassInterface_Free(&o->send.iface);
// set not inited
o->send.inited = 0;
}
StreamPassInterface * BConnection_SendAsync_GetIf (BConnection *o)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->send.inited)
return &o->send.iface;
}
void BConnection_RecvAsync_Init (BConnection *o)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(!o->recv.closed)
ASSERT(!o->aborted)
ASSERT(!o->recv.inited)
// init interface
StreamRecvInterface_Init(&o->recv.iface, (StreamRecvInterface_handler_recv)connection_recv_iface_handler_recv, o, BReactor_PendingGroup(o->reactor));
// set not busy
o->recv.busy = 0;
// set inited
o->recv.inited = 1;
}
void BConnection_RecvAsync_Free (BConnection *o)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->recv.inited)
// abort if busy
if (o->recv.busy && !o->aborted) {
connection_abort(o);
}
// free interface
StreamRecvInterface_Free(&o->recv.iface);
// set not inited
o->recv.inited = 0;
}
StreamRecvInterface * BConnection_RecvAsync_GetIf (BConnection *o)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->recv.inited)
return &o->recv.iface;
}