LeOS-Genesis/external/badvpn/udpgw_client/UdpGwClient.c

598 lines
20 KiB
C

/*
* Copyright (C) Ambroz Bizjak <ambrop7@gmail.com>
* Contributions:
* Transparent DNS: Copyright (C) Kerem Hadimli <kerem.hadimli@gmail.com>
*
* 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 <string.h>
#include <misc/offset.h>
#include <misc/byteorder.h>
#include <misc/compare.h>
#include <base/BLog.h>
#include <udpgw_client/UdpGwClient.h>
#include <generated/blog_channel_UdpGwClient.h>
static int uint16_comparator (void *unused, uint16_t *v1, uint16_t *v2);
static int conaddr_comparator (void *unused, struct UdpGwClient_conaddr *v1, struct UdpGwClient_conaddr *v2);
static void free_server (UdpGwClient *o);
static void decoder_handler_error (UdpGwClient *o);
static void recv_interface_handler_send (UdpGwClient *o, uint8_t *data, int data_len);
static void send_monitor_handler (UdpGwClient *o);
static void keepalive_if_handler_done (UdpGwClient *o);
static struct UdpGwClient_connection * find_connection_by_conaddr (UdpGwClient *o, struct UdpGwClient_conaddr conaddr);
static struct UdpGwClient_connection * find_connection_by_conid (UdpGwClient *o, uint16_t conid);
static uint16_t find_unused_conid (UdpGwClient *o);
static void connection_init (UdpGwClient *o, struct UdpGwClient_conaddr conaddr, uint8_t flags, const uint8_t *data, int data_len);
static void connection_free (struct UdpGwClient_connection *con);
static void connection_first_job_handler (struct UdpGwClient_connection *con);
static void connection_send (struct UdpGwClient_connection *con, uint8_t flags, const uint8_t *data, int data_len);
static struct UdpGwClient_connection * reuse_connection (UdpGwClient *o, struct UdpGwClient_conaddr conaddr);
static int uint16_comparator (void *unused, uint16_t *v1, uint16_t *v2)
{
return B_COMPARE(*v1, *v2);
}
static int conaddr_comparator (void *unused, struct UdpGwClient_conaddr *v1, struct UdpGwClient_conaddr *v2)
{
int r = BAddr_CompareOrder(&v1->remote_addr, &v2->remote_addr);
if (r) {
return r;
}
return BAddr_CompareOrder(&v1->local_addr, &v2->local_addr);
}
static void free_server (UdpGwClient *o)
{
// disconnect send connector
PacketPassConnector_DisconnectOutput(&o->send_connector);
// free send sender
PacketStreamSender_Free(&o->send_sender);
// free receive decoder
PacketProtoDecoder_Free(&o->recv_decoder);
// free receive interface
PacketPassInterface_Free(&o->recv_if);
}
static void decoder_handler_error (UdpGwClient *o)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->have_server)
BLog(BLOG_ERROR, "decoder error");
// report error
o->handler_servererror(o->user);
return;
}
static void recv_interface_handler_send (UdpGwClient *o, uint8_t *data, int data_len)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->have_server)
ASSERT(data_len >= 0)
ASSERT(data_len <= o->udpgw_mtu)
// accept packet
PacketPassInterface_Done(&o->recv_if);
// check header
if (data_len < sizeof(struct udpgw_header)) {
BLog(BLOG_ERROR, "missing header");
return;
}
struct udpgw_header header;
memcpy(&header, data, sizeof(header));
data += sizeof(header);
data_len -= sizeof(header);
uint8_t flags = ltoh8(header.flags);
uint16_t conid = ltoh16(header.conid);
// parse address
BAddr remote_addr;
if ((flags & UDPGW_CLIENT_FLAG_IPV6)) {
if (data_len < sizeof(struct udpgw_addr_ipv6)) {
BLog(BLOG_ERROR, "missing ipv6 address");
return;
}
struct udpgw_addr_ipv6 addr_ipv6;
memcpy(&addr_ipv6, data, sizeof(addr_ipv6));
data += sizeof(addr_ipv6);
data_len -= sizeof(addr_ipv6);
BAddr_InitIPv6(&remote_addr, addr_ipv6.addr_ip, addr_ipv6.addr_port);
} else {
if (data_len < sizeof(struct udpgw_addr_ipv4)) {
BLog(BLOG_ERROR, "missing ipv4 address");
return;
}
struct udpgw_addr_ipv4 addr_ipv4;
memcpy(&addr_ipv4, data, sizeof(addr_ipv4));
data += sizeof(addr_ipv4);
data_len -= sizeof(addr_ipv4);
BAddr_InitIPv4(&remote_addr, addr_ipv4.addr_ip, addr_ipv4.addr_port);
}
// check remaining data
if (data_len > o->udp_mtu) {
BLog(BLOG_ERROR, "too much data");
return;
}
// find connection
struct UdpGwClient_connection *con = find_connection_by_conid(o, conid);
if (!con) {
BLog(BLOG_ERROR, "unknown conid");
return;
}
// check remote address
if (BAddr_CompareOrder(&con->conaddr.remote_addr, &remote_addr) != 0) {
BLog(BLOG_ERROR, "wrong remote address");
return;
}
// move connection to front of the list
LinkedList1_Remove(&o->connections_list, &con->connections_list_node);
LinkedList1_Append(&o->connections_list, &con->connections_list_node);
// pass packet to user
o->handler_received(o->user, con->conaddr.local_addr, con->conaddr.remote_addr, data, data_len);
return;
}
static void send_monitor_handler (UdpGwClient *o)
{
DebugObject_Access(&o->d_obj);
if (o->keepalive_sending) {
return;
}
BLog(BLOG_INFO, "keepalive");
// send keepalive
PacketPassInterface_Sender_Send(o->keepalive_if, (uint8_t *)&o->keepalive_packet, sizeof(o->keepalive_packet));
// set sending keep-alive
o->keepalive_sending = 1;
}
static void keepalive_if_handler_done (UdpGwClient *o)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->keepalive_sending)
// set not sending keepalive
o->keepalive_sending = 0;
}
static struct UdpGwClient_connection * find_connection_by_conaddr (UdpGwClient *o, struct UdpGwClient_conaddr conaddr)
{
BAVLNode *tree_node = BAVL_LookupExact(&o->connections_tree_by_conaddr, &conaddr);
if (!tree_node) {
return NULL;
}
return UPPER_OBJECT(tree_node, struct UdpGwClient_connection, connections_tree_by_conaddr_node);
}
static struct UdpGwClient_connection * find_connection_by_conid (UdpGwClient *o, uint16_t conid)
{
BAVLNode *tree_node = BAVL_LookupExact(&o->connections_tree_by_conid, &conid);
if (!tree_node) {
return NULL;
}
return UPPER_OBJECT(tree_node, struct UdpGwClient_connection, connections_tree_by_conid_node);
}
static uint16_t find_unused_conid (UdpGwClient *o)
{
ASSERT(o->num_connections < o->max_connections)
while (1) {
if (!find_connection_by_conid(o, o->next_conid)) {
return o->next_conid;
}
if (o->next_conid == o->max_connections - 1) {
o->next_conid = 0;
} else {
o->next_conid++;
}
}
}
static void connection_init (UdpGwClient *o, struct UdpGwClient_conaddr conaddr, uint8_t flags, const uint8_t *data, int data_len)
{
ASSERT(o->num_connections < o->max_connections)
ASSERT(!find_connection_by_conaddr(o, conaddr))
ASSERT(data_len >= 0)
ASSERT(data_len <= o->udp_mtu)
// allocate structure
struct UdpGwClient_connection *con = (struct UdpGwClient_connection *)malloc(sizeof(*con));
if (!con) {
BLog(BLOG_ERROR, "malloc failed");
goto fail0;
}
// init arguments
con->client = o;
con->conaddr = conaddr;
con->first_flags = flags;
con->first_data = data;
con->first_data_len = data_len;
// allocate conid
con->conid = find_unused_conid(o);
// init first job
BPending_Init(&con->first_job, BReactor_PendingGroup(o->reactor), (BPending_handler)connection_first_job_handler, con);
BPending_Set(&con->first_job);
// init queue flow
PacketPassFairQueueFlow_Init(&con->send_qflow, &o->send_queue);
// init PacketProtoFlow
if (!PacketProtoFlow_Init(&con->send_ppflow, o->udpgw_mtu, o->send_buffer_size, PacketPassFairQueueFlow_GetInput(&con->send_qflow), BReactor_PendingGroup(o->reactor))) {
BLog(BLOG_ERROR, "PacketProtoFlow_Init failed");
goto fail1;
}
con->send_if = PacketProtoFlow_GetInput(&con->send_ppflow);
// insert to connections tree by conaddr
ASSERT_EXECUTE(BAVL_Insert(&o->connections_tree_by_conaddr, &con->connections_tree_by_conaddr_node, NULL))
// insert to connections tree by conid
ASSERT_EXECUTE(BAVL_Insert(&o->connections_tree_by_conid, &con->connections_tree_by_conid_node, NULL))
// insert to connections list
LinkedList1_Append(&o->connections_list, &con->connections_list_node);
// increment number of connections
o->num_connections++;
return;
fail1:
PacketPassFairQueueFlow_Free(&con->send_qflow);
BPending_Free(&con->first_job);
free(con);
fail0:
return;
}
static void connection_free (struct UdpGwClient_connection *con)
{
UdpGwClient *o = con->client;
PacketPassFairQueueFlow_AssertFree(&con->send_qflow);
// decrement number of connections
o->num_connections--;
// remove from connections list
LinkedList1_Remove(&o->connections_list, &con->connections_list_node);
// remove from connections tree by conid
BAVL_Remove(&o->connections_tree_by_conid, &con->connections_tree_by_conid_node);
// remove from connections tree by conaddr
BAVL_Remove(&o->connections_tree_by_conaddr, &con->connections_tree_by_conaddr_node);
// free PacketProtoFlow
PacketProtoFlow_Free(&con->send_ppflow);
// free queue flow
PacketPassFairQueueFlow_Free(&con->send_qflow);
// free first job
BPending_Free(&con->first_job);
// free structure
free(con);
}
static void connection_first_job_handler (struct UdpGwClient_connection *con)
{
connection_send(con, UDPGW_CLIENT_FLAG_REBIND|con->first_flags, con->first_data, con->first_data_len);
}
static void connection_send (struct UdpGwClient_connection *con, uint8_t flags, const uint8_t *data, int data_len)
{
UdpGwClient *o = con->client;
B_USE(o)
ASSERT(data_len >= 0)
ASSERT(data_len <= o->udp_mtu)
// get buffer location
uint8_t *out;
if (!BufferWriter_StartPacket(con->send_if, &out)) {
BLog(BLOG_ERROR, "out of buffer");
return;
}
int out_pos = 0;
if (con->conaddr.remote_addr.type == BADDR_TYPE_IPV6) {
flags |= UDPGW_CLIENT_FLAG_IPV6;
}
// write header
struct udpgw_header header;
header.flags = ltoh8(flags);
header.conid = ltoh16(con->conid);
memcpy(out + out_pos, &header, sizeof(header));
out_pos += sizeof(header);
// write address
switch (con->conaddr.remote_addr.type) {
case BADDR_TYPE_IPV4: {
struct udpgw_addr_ipv4 addr_ipv4;
addr_ipv4.addr_ip = con->conaddr.remote_addr.ipv4.ip;
addr_ipv4.addr_port = con->conaddr.remote_addr.ipv4.port;
memcpy(out + out_pos, &addr_ipv4, sizeof(addr_ipv4));
out_pos += sizeof(addr_ipv4);
} break;
case BADDR_TYPE_IPV6: {
struct udpgw_addr_ipv6 addr_ipv6;
memcpy(addr_ipv6.addr_ip, con->conaddr.remote_addr.ipv6.ip, sizeof(addr_ipv6.addr_ip));
addr_ipv6.addr_port = con->conaddr.remote_addr.ipv6.port;
memcpy(out + out_pos, &addr_ipv6, sizeof(addr_ipv6));
out_pos += sizeof(addr_ipv6);
} break;
}
// write packet to buffer
memcpy(out + out_pos, data, data_len);
out_pos += data_len;
// submit packet to buffer
BufferWriter_EndPacket(con->send_if, out_pos);
}
static struct UdpGwClient_connection * reuse_connection (UdpGwClient *o, struct UdpGwClient_conaddr conaddr)
{
ASSERT(!find_connection_by_conaddr(o, conaddr))
ASSERT(o->num_connections > 0)
// get least recently used connection
struct UdpGwClient_connection *con = UPPER_OBJECT(LinkedList1_GetFirst(&o->connections_list), struct UdpGwClient_connection, connections_list_node);
// remove from connections tree by conaddr
BAVL_Remove(&o->connections_tree_by_conaddr, &con->connections_tree_by_conaddr_node);
// set new conaddr
con->conaddr = conaddr;
// insert to connections tree by conaddr
ASSERT_EXECUTE(BAVL_Insert(&o->connections_tree_by_conaddr, &con->connections_tree_by_conaddr_node, NULL))
return con;
}
int UdpGwClient_Init (UdpGwClient *o, int udp_mtu, int max_connections, int send_buffer_size, btime_t keepalive_time, BReactor *reactor, void *user,
UdpGwClient_handler_servererror handler_servererror,
UdpGwClient_handler_received handler_received)
{
ASSERT(udp_mtu >= 0)
ASSERT(udpgw_compute_mtu(udp_mtu) >= 0)
ASSERT(udpgw_compute_mtu(udp_mtu) <= PACKETPROTO_MAXPAYLOAD)
ASSERT(max_connections > 0)
ASSERT(send_buffer_size > 0)
// init arguments
o->udp_mtu = udp_mtu;
o->max_connections = max_connections;
o->send_buffer_size = send_buffer_size;
o->keepalive_time = keepalive_time;
o->reactor = reactor;
o->user = user;
o->handler_servererror = handler_servererror;
o->handler_received = handler_received;
// limit max connections to number of conid's
if (o->max_connections > UINT16_MAX + 1) {
o->max_connections = UINT16_MAX + 1;
}
// compute MTUs
o->udpgw_mtu = udpgw_compute_mtu(o->udp_mtu);
o->pp_mtu = o->udpgw_mtu + sizeof(struct packetproto_header);
// init connections tree by conaddr
BAVL_Init(&o->connections_tree_by_conaddr, OFFSET_DIFF(struct UdpGwClient_connection, conaddr, connections_tree_by_conaddr_node), (BAVL_comparator)conaddr_comparator, NULL);
// init connections tree by conid
BAVL_Init(&o->connections_tree_by_conid, OFFSET_DIFF(struct UdpGwClient_connection, conid, connections_tree_by_conid_node), (BAVL_comparator)uint16_comparator, NULL);
// init connections list
LinkedList1_Init(&o->connections_list);
// set zero connections
o->num_connections = 0;
// set next conid
o->next_conid = 0;
// init send connector
PacketPassConnector_Init(&o->send_connector, o->pp_mtu, BReactor_PendingGroup(o->reactor));
// init send monitor
PacketPassInactivityMonitor_Init(&o->send_monitor, PacketPassConnector_GetInput(&o->send_connector), o->reactor, o->keepalive_time, (PacketPassInactivityMonitor_handler)send_monitor_handler, o);
// init send queue
if (!PacketPassFairQueue_Init(&o->send_queue, PacketPassInactivityMonitor_GetInput(&o->send_monitor), BReactor_PendingGroup(o->reactor), 0, 1)) {
goto fail0;
}
// construct keepalive packet
o->keepalive_packet.pp.len = sizeof(o->keepalive_packet.udpgw);
memset(&o->keepalive_packet.udpgw, 0, sizeof(o->keepalive_packet.udpgw));
o->keepalive_packet.udpgw.flags = UDPGW_CLIENT_FLAG_KEEPALIVE;
// init keepalive queue flow
PacketPassFairQueueFlow_Init(&o->keepalive_qflow, &o->send_queue);
o->keepalive_if = PacketPassFairQueueFlow_GetInput(&o->keepalive_qflow);
// init keepalive output
PacketPassInterface_Sender_Init(o->keepalive_if, (PacketPassInterface_handler_done)keepalive_if_handler_done, o);
// set not sending keepalive
o->keepalive_sending = 0;
// set have no server
o->have_server = 0;
DebugObject_Init(&o->d_obj);
return 1;
fail0:
PacketPassInactivityMonitor_Free(&o->send_monitor);
PacketPassConnector_Free(&o->send_connector);
return 0;
}
void UdpGwClient_Free (UdpGwClient *o)
{
DebugObject_Free(&o->d_obj);
// allow freeing send queue flows
PacketPassFairQueue_PrepareFree(&o->send_queue);
// free connections
while (!LinkedList1_IsEmpty(&o->connections_list)) {
struct UdpGwClient_connection *con = UPPER_OBJECT(LinkedList1_GetFirst(&o->connections_list), struct UdpGwClient_connection, connections_list_node);
connection_free(con);
}
// free server
if (o->have_server) {
free_server(o);
}
// free keepalive queue flow
PacketPassFairQueueFlow_Free(&o->keepalive_qflow);
// free send queue
PacketPassFairQueue_Free(&o->send_queue);
// free send
PacketPassInactivityMonitor_Free(&o->send_monitor);
// free send connector
PacketPassConnector_Free(&o->send_connector);
}
void UdpGwClient_SubmitPacket (UdpGwClient *o, BAddr local_addr, BAddr remote_addr, int is_dns, const uint8_t *data, int data_len)
{
DebugObject_Access(&o->d_obj);
ASSERT(local_addr.type == BADDR_TYPE_IPV4 || local_addr.type == BADDR_TYPE_IPV6)
ASSERT(remote_addr.type == BADDR_TYPE_IPV4 || remote_addr.type == BADDR_TYPE_IPV6)
ASSERT(data_len >= 0)
ASSERT(data_len <= o->udp_mtu)
// build conaddr
struct UdpGwClient_conaddr conaddr;
conaddr.local_addr = local_addr;
conaddr.remote_addr = remote_addr;
// lookup connection
struct UdpGwClient_connection *con = find_connection_by_conaddr(o, conaddr);
uint8_t flags = 0;
if (is_dns) {
// route to remote DNS server instead of provided address
flags |= UDPGW_CLIENT_FLAG_DNS;
}
// if no connection and can't create a new one, reuse the least recently used une
if (!con && o->num_connections == o->max_connections) {
con = reuse_connection(o, conaddr);
flags |= UDPGW_CLIENT_FLAG_REBIND;
}
if (!con) {
// create new connection
connection_init(o, conaddr, flags, data, data_len);
} else {
// move connection to front of the list
LinkedList1_Remove(&o->connections_list, &con->connections_list_node);
LinkedList1_Append(&o->connections_list, &con->connections_list_node);
// send packet to existing connection
connection_send(con, flags, data, data_len);
}
}
int UdpGwClient_ConnectServer (UdpGwClient *o, StreamPassInterface *send_if, StreamRecvInterface *recv_if)
{
DebugObject_Access(&o->d_obj);
ASSERT(!o->have_server)
// init receive interface
PacketPassInterface_Init(&o->recv_if, o->udpgw_mtu, (PacketPassInterface_handler_send)recv_interface_handler_send, o, BReactor_PendingGroup(o->reactor));
// init receive decoder
if (!PacketProtoDecoder_Init(&o->recv_decoder, recv_if, &o->recv_if, BReactor_PendingGroup(o->reactor), o, (PacketProtoDecoder_handler_error)decoder_handler_error)) {
BLog(BLOG_ERROR, "PacketProtoDecoder_Init failed");
goto fail1;
}
// init send sender
PacketStreamSender_Init(&o->send_sender, send_if, o->pp_mtu, BReactor_PendingGroup(o->reactor));
// connect send connector
PacketPassConnector_ConnectOutput(&o->send_connector, PacketStreamSender_GetInput(&o->send_sender));
// set have server
o->have_server = 1;
return 1;
fail1:
PacketPassInterface_Free(&o->recv_if);
return 0;
}
void UdpGwClient_DisconnectServer (UdpGwClient *o)
{
DebugObject_Access(&o->d_obj);
ASSERT(o->have_server)
// free server
free_server(o);
// set have no server
o->have_server = 0;
}