LeOS-Genesis/external/badvpn/ncd/extra/NCDRequestClient.c

648 lines
20 KiB
C

/**
* @file NCDRequestClient.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 <stddef.h>
#include <stdint.h>
#include <limits.h>
#include <inttypes.h>
#include <string.h>
#include <misc/byteorder.h>
#include <misc/expstring.h>
#include <misc/offset.h>
#include <misc/compare.h>
#include <protocol/packetproto.h>
#include <protocol/requestproto.h>
#include <base/BLog.h>
#include "NCDRequestClient.h"
#include <generated/blog_channel_NCDRequestClient.h>
#define SEND_PAYLOAD_MTU 32768
#define RECV_PAYLOAD_MTU 32768
#define SEND_MTU (SEND_PAYLOAD_MTU + sizeof(struct requestproto_header))
#define RECV_MTU (RECV_PAYLOAD_MTU + sizeof(struct requestproto_header))
#define CSTATE_CONNECTING 1
#define CSTATE_CONNECTED 2
#define RSTATE_SENDING_REQUEST 1
#define RSTATE_READY 2
#define RSTATE_SENDING_REQUEST_ABORT 3
#define RSTATE_SENDING_ABORT 4
#define RSTATE_WAITING_END 5
#define RSTATE_DEAD_SENDING 6
static int uint32_comparator (void *unused, void *vv1, void *vv2);
static void report_error (NCDRequestClient *o);
static void request_report_finished (NCDRequestClientRequest *o, int is_error);
static void connector_handler (NCDRequestClient *o, int is_error);
static void connection_handler (NCDRequestClient *o, int event);
static void decoder_handler_error (NCDRequestClient *o);
static void recv_if_handler_send (NCDRequestClient *o, uint8_t *data, int data_len);
static struct NCDRequestClient_req * find_req (NCDRequestClient *o, uint32_t request_id);
static int get_free_request_id (NCDRequestClient *o, uint32_t *out);
static int build_requestproto_packet (uint32_t request_id, uint32_t type, NCDValRef payload_value, uint8_t **out_data, int *out_len);
static void build_nodata_packet (uint32_t request_id, uint32_t type, uint8_t *data, int *out_len);
static int req_is_aborted (struct NCDRequestClient_req *req);
static void req_abort (struct NCDRequestClient_req *req);
static void req_free (struct NCDRequestClient_req *req);
static void req_send_abort (struct NCDRequestClient_req *req);
static void req_qflow_send_iface_handler_done (struct NCDRequestClient_req *req);
static int uint32_comparator (void *unused, void *vv1, void *vv2)
{
uint32_t *v1 = vv1;
uint32_t *v2 = vv2;
return B_COMPARE(*v1, *v2);
}
static void report_error (NCDRequestClient *o)
{
ASSERT(!o->is_error)
o->is_error = 1;
DEBUGERROR(&o->d_err, o->handler_error(o->user))
}
static void request_report_finished (NCDRequestClientRequest *o, int is_error)
{
o->req = NULL;
DEBUGERROR(&o->d_err, o->handler_finished(o->user, is_error))
}
static void connector_handler (NCDRequestClient *o, int is_error)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(o->state == CSTATE_CONNECTING)
// check error
if (is_error) {
BLog(BLOG_ERROR, "failed to connect to socket");
goto fail0;
}
BPendingGroup *pg = BReactor_PendingGroup(o->reactor);
// init connection
if (!BConnection_Init(&o->con, BConnection_source_connector(&o->connector), o->reactor, o, (BConnection_handler)connection_handler)) {
BLog(BLOG_ERROR, "BConnection_Init failed");
goto fail0;
}
// init connection interfaces
BConnection_SendAsync_Init(&o->con);
BConnection_RecvAsync_Init(&o->con);
StreamPassInterface *con_send_if = BConnection_SendAsync_GetIf(&o->con);
StreamRecvInterface *con_recv_if = BConnection_RecvAsync_GetIf(&o->con);
// init receive interface
PacketPassInterface_Init(&o->recv_if, RECV_MTU, (PacketPassInterface_handler_send)recv_if_handler_send, o, pg);
// init receive decoder
if (!PacketProtoDecoder_Init(&o->recv_decoder, con_recv_if, &o->recv_if, pg, o, (PacketProtoDecoder_handler_error)decoder_handler_error)) {
BLog(BLOG_ERROR, "PacketProtoDecoder_Init failed");
goto fail1;
}
// init send sender
PacketStreamSender_Init(&o->send_sender, con_send_if, PACKETPROTO_ENCLEN(SEND_MTU), pg);
// init send queue
PacketPassFifoQueue_Init(&o->send_queue, PacketStreamSender_GetInput(&o->send_sender), pg);
// set state connected
o->state = CSTATE_CONNECTED;
// call connected handler
o->handler_connected(o->user);
return;
fail1:
PacketPassInterface_Free(&o->recv_if);
BConnection_RecvAsync_Free(&o->con);
BConnection_SendAsync_Free(&o->con);
BConnection_Free(&o->con);
fail0:
report_error(o);
}
static void connection_handler (NCDRequestClient *o, int event)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(o->state == CSTATE_CONNECTED)
BLog(BLOG_ERROR, "connection error");
report_error(o);
}
static void decoder_handler_error (NCDRequestClient *o)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(o->state == CSTATE_CONNECTED)
BLog(BLOG_ERROR, "decoder error");
report_error(o);
}
static void recv_if_handler_send (NCDRequestClient *o, uint8_t *data, int data_len)
{
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
ASSERT(o->state == CSTATE_CONNECTED)
ASSERT(data_len >= 0)
ASSERT(data_len <= RECV_MTU)
// accept packet
PacketPassInterface_Done(&o->recv_if);
if (data_len < sizeof(struct requestproto_header)) {
BLog(BLOG_ERROR, "missing requestproto header");
goto fail;
}
struct requestproto_header header;
memcpy(&header, data, sizeof(header));
uint32_t request_id = ltoh32(header.request_id);
uint32_t type = ltoh32(header.type);
uint8_t *payload = data + sizeof(header);
int payload_len = data_len - sizeof(header);
// find request
struct NCDRequestClient_req *req = find_req(o, request_id);
if (!req) {
BLog(BLOG_ERROR, "received packet with unknown request ID");
goto fail;
}
switch (type) {
case REQUESTPROTO_TYPE_SERVER_REPLY: {
switch (o->state) {
case RSTATE_READY: {
// init memory
NCDValMem mem;
NCDValMem_Init(&mem);
// parse payload
NCDValRef payload_value;
if (!NCDValParser_Parse((char *)payload, payload_len, &mem, &payload_value)) {
BLog(BLOG_ERROR, "failed to parse reply payload");
NCDValMem_Free(&mem);
goto fail;
}
// call reply handler
req->creq->handler_reply(req->creq->user, mem, payload_value);
return;
} break;
case RSTATE_SENDING_ABORT:
case RSTATE_WAITING_END:
return;
default:
BLog(BLOG_ERROR, "received unexpected reply");
goto fail;
}
} break;
case REQUESTPROTO_TYPE_SERVER_FINISHED:
case REQUESTPROTO_TYPE_SERVER_ERROR: {
if (payload_len != 0) {
BLog(BLOG_ERROR, "finshed/aborted message has non-empty payload");
goto fail;
}
NCDRequestClientRequest *creq = req->creq;
req->creq = NULL;
switch (req->state) {
case RSTATE_SENDING_ABORT: {
// set state dying send
req->state = RSTATE_DEAD_SENDING;
} break;
case RSTATE_WAITING_END:
case RSTATE_READY: {
// free req
req_free(req);
} break;
default:
BLog(BLOG_ERROR, "received unexpected finished/aborted");
goto fail;
}
// report finished
if (creq) {
request_report_finished(creq, type == REQUESTPROTO_TYPE_SERVER_ERROR);
}
return;
} break;
default:
BLog(BLOG_ERROR, "received invalid message type");
goto fail;
}
ASSERT(0)
fail:
report_error(o);
}
static struct NCDRequestClient_req * find_req (NCDRequestClient *o, uint32_t request_id)
{
BAVLNode *tn = BAVL_LookupExact(&o->reqs_tree, &request_id);
if (!tn) {
return NULL;
}
struct NCDRequestClient_req *req = UPPER_OBJECT(tn, struct NCDRequestClient_req, reqs_tree_node);
ASSERT(req->request_id == request_id)
return req;
}
static int get_free_request_id (NCDRequestClient *o, uint32_t *out)
{
uint32_t first = o->next_request_id;
do {
if (!find_req(o, o->next_request_id)) {
*out = o->next_request_id;
return 1;
}
o->next_request_id++;
} while (o->next_request_id != first);
return 0;
}
static int build_requestproto_packet (uint32_t request_id, uint32_t type, NCDValRef payload_value, uint8_t **out_data, int *out_len)
{
ExpString str;
if (!ExpString_Init(&str)) {
BLog(BLOG_ERROR, "ExpString_Init failed");
goto fail0;
}
if (!ExpString_AppendZeros(&str, sizeof(struct packetproto_header) + sizeof(struct requestproto_header))) {
BLog(BLOG_ERROR, "ExpString_AppendBinary failed");
goto fail1;
}
if (!NCDVal_IsInvalid(payload_value) && !NCDValGenerator_AppendGenerate(payload_value, &str)) {
BLog(BLOG_ERROR, "NCDValGenerator_AppendGenerate failed");
goto fail1;
}
size_t len = ExpString_Length(&str);
if (len > INT_MAX || len > PACKETPROTO_ENCLEN(SEND_MTU) || len - sizeof(struct packetproto_header) > UINT16_MAX) {
BLog(BLOG_ERROR, "reply is too long");
goto fail1;
}
uint8_t *packet = (uint8_t *)ExpString_Get(&str);
struct packetproto_header pp;
pp.len = htol16(len - sizeof(struct packetproto_header));
struct requestproto_header rp;
rp.request_id = htol32(request_id);
rp.type = htol32(type);
memcpy(packet, &pp, sizeof(pp));
memcpy(packet + sizeof(pp), &rp, sizeof(rp));
*out_data = packet;
*out_len = len;
return 1;
fail1:
ExpString_Free(&str);
fail0:
return 0;
}
static void build_nodata_packet (uint32_t request_id, uint32_t type, uint8_t *data, int *out_len)
{
struct packetproto_header pp;
pp.len = htol16(sizeof(struct requestproto_header));
struct requestproto_header rp;
rp.request_id = htol32(request_id);
rp.type = htol32(type);
memcpy(data, &pp, sizeof(pp));
memcpy(data + sizeof(pp), &rp, sizeof(rp));
*out_len = sizeof(pp) + sizeof(rp);
}
static int req_is_aborted (struct NCDRequestClient_req *req)
{
switch (req->state) {
case RSTATE_SENDING_REQUEST:
case RSTATE_READY:
return 0;
default:
return 1;
}
}
static void req_abort (struct NCDRequestClient_req *req)
{
ASSERT(!req_is_aborted(req))
ASSERT(!req->client->is_error)
switch (req->state) {
case RSTATE_SENDING_REQUEST: {
req->state = RSTATE_SENDING_REQUEST_ABORT;
} break;
case RSTATE_READY: {
req_send_abort(req);
} break;
default: ASSERT(0);
}
}
static void req_free (struct NCDRequestClient_req *req)
{
NCDRequestClient *client = req->client;
PacketPassFifoQueueFlow_AssertFree(&req->send_qflow);
ASSERT(!req->creq)
// free queue flow
PacketPassFifoQueueFlow_Free(&req->send_qflow);
// free request data
free(req->request_data);
// remove from reqs tree
BAVL_Remove(&client->reqs_tree, &req->reqs_tree_node);
// free structure
free(req);
}
static void req_send_abort (struct NCDRequestClient_req *req)
{
// build packet
build_nodata_packet(req->request_id, REQUESTPROTO_TYPE_CLIENT_ABORT, req->request_data, &req->request_len);
// start sending
PacketPassInterface_Sender_Send(req->send_qflow_iface, req->request_data, req->request_len);
// set state sending abort
req->state = RSTATE_SENDING_ABORT;
}
static void req_qflow_send_iface_handler_done (struct NCDRequestClient_req *req)
{
switch (req->state) {
case RSTATE_SENDING_REQUEST: {
// set state ready
req->state = RSTATE_READY;
// call sent handler
req->creq->handler_sent(req->creq->user);
return;
} break;
case RSTATE_SENDING_REQUEST_ABORT: {
// send abort
req_send_abort(req);
} break;
case RSTATE_SENDING_ABORT: {
// set state waiting end
req->state = RSTATE_WAITING_END;
} break;
case RSTATE_DEAD_SENDING: {
// free req
req_free(req);
} break;
default: ASSERT(0);
}
}
int NCDRequestClient_Init (NCDRequestClient *o, struct BConnection_addr addr, BReactor *reactor, void *user,
NCDRequestClient_handler_error handler_error,
NCDRequestClient_handler_connected handler_connected)
{
ASSERT(handler_error)
ASSERT(handler_connected)
// init arguments
o->reactor = reactor;
o->user = user;
o->handler_error = handler_error;
o->handler_connected = handler_connected;
// init connector
if (!BConnector_InitGeneric(&o->connector, addr, reactor, o, (BConnector_handler)connector_handler)) {
BLog(BLOG_ERROR, "BConnector_InitGeneric failed");
goto fail0;
}
// init reqs tree
BAVL_Init(&o->reqs_tree, OFFSET_DIFF(struct NCDRequestClient_req, request_id, reqs_tree_node), uint32_comparator, NULL);
// set next request ID
o->next_request_id = 0;
// set state connecting
o->state = CSTATE_CONNECTING;
// set is not error
o->is_error = 0;
DebugCounter_Init(&o->d_reqests_ctr);
DebugError_Init(&o->d_err, BReactor_PendingGroup(reactor));
DebugObject_Init(&o->d_obj);
return 1;
fail0:
return 0;
}
void NCDRequestClient_Free (NCDRequestClient *o)
{
DebugObject_Free(&o->d_obj);
DebugError_Free(&o->d_err);
DebugCounter_Free(&o->d_reqests_ctr);
if (o->state == CSTATE_CONNECTED) {
// allow freeing queue flow
PacketPassFifoQueue_PrepareFree(&o->send_queue);
// free remaining reqs
BAVLNode *tn;
while (tn = BAVL_GetFirst(&o->reqs_tree)) {
struct NCDRequestClient_req *req = UPPER_OBJECT(tn, struct NCDRequestClient_req, reqs_tree_node);
ASSERT(!req->creq)
req_free(req);
}
// free connection stuff
PacketPassFifoQueue_Free(&o->send_queue);
PacketStreamSender_Free(&o->send_sender);
PacketProtoDecoder_Free(&o->recv_decoder);
PacketPassInterface_Free(&o->recv_if);
BConnection_RecvAsync_Free(&o->con);
BConnection_SendAsync_Free(&o->con);
BConnection_Free(&o->con);
}
// free connector
BConnector_Free(&o->connector);
}
int NCDRequestClientRequest_Init (NCDRequestClientRequest *o, NCDRequestClient *client, NCDValRef payload_value, void *user,
NCDRequestClientRequest_handler_sent handler_sent,
NCDRequestClientRequest_handler_reply handler_reply,
NCDRequestClientRequest_handler_finished handler_finished)
{
ASSERT(client->state == CSTATE_CONNECTED)
DebugError_AssertNoError(&client->d_err);
ASSERT(!NCDVal_IsInvalid(payload_value))
ASSERT(handler_sent)
ASSERT(handler_reply)
ASSERT(handler_finished)
// init arguments
o->client = client;
o->user = user;
o->handler_sent = handler_sent;
o->handler_reply = handler_reply;
o->handler_finished = handler_finished;
// allocate req structure
struct NCDRequestClient_req *req = malloc(sizeof(*req));
if (!req) {
BLog(BLOG_ERROR, "malloc failed");
goto fail0;
}
// allocate request ID
if (!get_free_request_id(client, &req->request_id)) {
BLog(BLOG_ERROR, "failed to allocate request ID");
goto fail1;
}
// insert to reqs tree
int res = BAVL_Insert(&client->reqs_tree, &req->reqs_tree_node, NULL);
ASSERT_EXECUTE(res)
// set pointers
o->req = req;
req->creq = o;
req->client = client;
// build request
if (!build_requestproto_packet(req->request_id, REQUESTPROTO_TYPE_CLIENT_REQUEST, payload_value, &req->request_data, &req->request_len)) {
BLog(BLOG_ERROR, "failed to build request");
goto fail2;
}
// init queue flow
PacketPassFifoQueueFlow_Init(&req->send_qflow, &client->send_queue);
// init send interface
req->send_qflow_iface = PacketPassFifoQueueFlow_GetInput(&req->send_qflow);
PacketPassInterface_Sender_Init(req->send_qflow_iface, (PacketPassInterface_handler_done)req_qflow_send_iface_handler_done, req);
// start sending request
PacketPassInterface_Sender_Send(req->send_qflow_iface, req->request_data, req->request_len);
// set state sending request
req->state = RSTATE_SENDING_REQUEST;
DebugCounter_Increment(&client->d_reqests_ctr);
DebugError_Init(&o->d_err, BReactor_PendingGroup(client->reactor));
DebugObject_Init(&o->d_obj);
return 1;
fail2:
BAVL_Remove(&client->reqs_tree, &req->reqs_tree_node);
fail1:
free(req);
fail0:
return 0;
}
void NCDRequestClientRequest_Free (NCDRequestClientRequest *o)
{
struct NCDRequestClient_req *req = o->req;
DebugObject_Free(&o->d_obj);
DebugError_Free(&o->d_err);
DebugCounter_Decrement(&o->client->d_reqests_ctr);
if (req) {
ASSERT(req->creq == o)
// remove reference to us
req->creq = NULL;
// abort req if not already
if (!req->client->is_error && !req_is_aborted(req)) {
req_abort(req);
}
}
}
void NCDRequestClientRequest_Abort (NCDRequestClientRequest *o)
{
struct NCDRequestClient_req *req = o->req;
DebugObject_Access(&o->d_obj);
DebugError_AssertNoError(&o->d_err);
DebugError_AssertNoError(&o->client->d_err);
ASSERT(req)
ASSERT(req->creq == o)
ASSERT(!req_is_aborted(req))
// abort req
req_abort(req);
}