wiced_result_t wiced_tcp_stream_deinit( wiced_tcp_stream_t* tcp_stream )
{
/* Flush the TX */
wiced_tcp_stream_flush( tcp_stream );
/* Flush the RX */
if ( tcp_stream->rx_packet != NULL )
{
wiced_packet_delete( tcp_stream->rx_packet );
tcp_stream->rx_packet = NULL;
}
tcp_stream->tx_packet = NULL;
tcp_stream->rx_packet = NULL;
tcp_stream->socket = NULL;
return WICED_TCPIP_SUCCESS;
}
int platform_network_write(Network* n, unsigned char* buffer, int length, int timeout)
{
wiced_result_t rc = wiced_tcp_stream_write(&n->stream, buffer, length);
if (rc != WICED_SUCCESS)
{
platform_printf("unable to write data to tcp stream, rc = %d\n", rc);
return -1;
}
rc = wiced_tcp_stream_flush(&n->stream);
if (rc != WICED_SUCCESS)
{
platform_printf("unable to flush tcp stream, rc = %d\n", rc);
return -1;
}
//platform_printf("%s: successfully sent %d bytes to tcp stream\n", __func__, length);
return length;
}
wiced_result_t xively_flush_datastream( xively_datastream_t* stream )
{
wiced_packet_t* response_packet;
WICED_VERIFY( wiced_tcp_stream_flush( &stream->tcp_stream ) );
/* Receive and free response packet */
if ( wiced_tcp_receive( stream->tcp_stream.socket, &response_packet, 3000 ) == WICED_SUCCESS )
{
uint8_t* data;
uint16_t data_length;
uint16_t available_data_length;
char* is_ok_found;
/* Parse HTTP response. */
wiced_packet_get_data( response_packet, 0, &data, &data_length, &available_data_length );
/* Ensure that packet payload is NUL-terminated */
*( data + data_length - 1 ) = 0;
/* Find OK. Returns NULL of not found */
is_ok_found = strstr( (char*) data, (char*) "OK" );
wiced_packet_delete( response_packet );
/* OK found. */
if ( is_ok_found != NULL )
{
return WICED_SUCCESS;
}
/* If Not OK, assert flag to perform DNS query in the next data sending */
is_ip_address_resolved = WICED_FALSE;
}
return WICED_ERROR;
}
// The nonsecure server thread
static void tcp_server_nonsecure_thread_main(wiced_thread_arg_t arg)
{
wiced_result_t result;
wiced_tcp_stream_t stream; // The TCP stream
wiced_tcp_socket_t socket;
uint8_t rbuffer[MAX_LEGAL_MSG];
char returnMessage[128]; // better use less than 128 bytes
// setup the server by creating the socket and hooking it to the correct TCP Port
result = wiced_tcp_create_socket(&socket, INTERFACE);
if(WICED_SUCCESS != result)
{
WPRINT_APP_INFO(("Create socket failed\n"));
return; // this is a bad outcome
}
wiced_tcp_stream_init(&stream,&socket);
if(WICED_SUCCESS != result)
{
WPRINT_APP_INFO(("Init stream failed\n"));
return; // this is a bad outcome
}
result = wiced_tcp_listen( &socket, TCP_SERVER_NONSECURE_LISTEN_PORT );
if(WICED_SUCCESS != result)
{
WPRINT_APP_INFO(("Listen socket failed\n"));
return;
}
while (1 )
{
result = wiced_tcp_accept( &socket ); // this halts the thread until there is a connection
if(result != WICED_SUCCESS) // this occurs if the accept times out
continue;
nonsecureConnectionCount += 1;
/// Figure out which client is talking to us... and on which port
wiced_ip_address_t peerAddress;
uint16_t peerPort;
wiced_tcp_server_peer(&socket,&peerAddress,&peerPort);
uint32_t dataReadCount;
wiced_tcp_stream_read_with_count(&stream,&rbuffer,MAX_LEGAL_MSG,100,&dataReadCount); // timeout in 100 ms
processClientCommand(rbuffer, dataReadCount ,returnMessage);
displayResult(peerAddress,peerPort,returnMessage);
// send response and close things up
wiced_tcp_stream_write(&stream,returnMessage,strlen(returnMessage));
wiced_tcp_stream_flush(&stream);
wiced_tcp_disconnect(&socket); // disconnect the connection
wiced_tcp_stream_deinit(&stream); // clear the stream if any crap left
wiced_tcp_stream_init(&stream,&socket); // setup for next connection
}
}
wiced_result_t open_websocket(websocket_handshake_t *hs, websocket_msg_handler_t binary_msg_handler, websocket_msg_handler_t text_msg_handler, void *ctx) {
wiced_result_t ret;
wiced_ip_address_t host_ip;
wiced_tls_context_t tls_ctx;
wiced_tcp_socket_t sock;
wiced_tcp_stream_t stream;
char *buf = NULL;
uint32_t i;
https_header_t *header;
WPRINT_LIB_INFO( ("Starting WebSocket handshake to https://%s%s\n", hs->hostname, hs->path) );
ret = wiced_hostname_lookup(hs->hostname, &host_ip, DNS_TIMEOUT);
if (ret != WICED_SUCCESS) {
WPRINT_LIB_INFO( ("DNS lookup failed for %s (err=%u)\n", hs->hostname, ret) );
return ret;
}
wiced_tls_init_context(&tls_ctx, NULL, NULL);
wiced_tcp_create_socket(&sock, WICED_STA_INTERFACE);
wiced_tcp_enable_tls(&sock, &tls_ctx);
{
char ip_str[48];
ip_to_str(&host_ip, ip_str);
WPRINT_LIB_INFO( ("Establishing TLS connection to %s port %d\n", ip_str, HTTPS_PORT) );
}
ret = wiced_tcp_connect(&sock, &host_ip, HTTPS_PORT, HTTPS_CONNECT_TIMEOUT);
if (ret != WICED_SUCCESS) {
WPRINT_LIB_INFO( ("Failed to create TCP connection (err=%u)\n", ret) );
wiced_tcp_delete_socket(&sock);
return ret;
}
do {
ret = wiced_tcp_stream_init(&stream, &sock);
if (ret != WICED_SUCCESS) {
WPRINT_LIB_INFO( ("Failed to initialize TCP stream (err=%u)\n", ret) );
break;
}
buf = (char *)malloc(STREAM_BUF_SIZE);
snprintf(buf, STREAM_BUF_SIZE, "GET %s HTTP/1.1\r\n", hs->path);
WRITE_STREAM(stream, buf, ret);
// Required headers.
snprintf(buf, STREAM_BUF_SIZE,
"Host: %s\r\n" \
"Connection: upgrade\r\n" \
"Upgrade: websocket\r\n" \
"Sec-WebSocket-Key: %s\r\n" \
"Sec-WebSocket-Version: 13\r\n",
hs->hostname, hs->key);
WRITE_STREAM(stream, buf, ret);
// Additional headers.
for (i = 0; i < hs->num_headers; i++) {
header = &(hs->headers[i]);
snprintf(buf, STREAM_BUF_SIZE, "%s: %s\r\n", header->name, header->value);
WRITE_STREAM(stream, buf, ret);
}
if (i < hs->num_headers) {
break;
}
strcpy(buf, "\r\n");
WRITE_STREAM(stream, buf, ret);
ret = wiced_tcp_stream_flush(&stream);
if (ret != WICED_SUCCESS) {
break;
}
ret = process_handshake_response(hs, &sock);
} while (WICED_FALSE);
if (buf) {
free(buf);
}
wiced_tcp_stream_deinit(&stream);
if (ret == WICED_SUCCESS) {
WPRINT_LIB_INFO( ("WebSocket handshake OK\n") );
process_frames(&sock, binary_msg_handler, text_msg_handler, ctx);
WPRINT_LIB_INFO( ("Closing WebSocket.\n") );
}
else {
WPRINT_LIB_INFO( ("WebSocket handshake failed (err=%u)\n", ret) );
}
wiced_tcp_disconnect(&sock);
wiced_tcp_delete_socket(&sock);
return ret;
}
wiced_result_t wiced_establish_websocket_handshake( wiced_websocket_t* websocket, wiced_websocket_handshake_fields_t* websocket_header_fields )
{
wiced_tcp_stream_t stream;
wiced_packet_t* tcp_reply_packet;
uint16_t tcp_data_available;
uint16_t total_received_bytes;
uint8_t* received_handshake;
/*Initialise the tcp stream*/
wiced_tcp_stream_init(&stream, &websocket->socket);
/*Initialise key array*/
memset(websocket_key_base64,0x0,CLIENT_WEBSOCKET_BASE64_KEY_LENGTH);
/*generate a unique websocket key to send to server as part of initial handshake*/
WICED_VERIFY( wiced_generate_client_websocket_key( websocket_key_base64 ) );
/*build the handshaking headers*/
/*< GET /uri HTTP/1.1 >*/
wiced_tcp_stream_write( &stream, "GET ",( uint16_t )strlen("GET ") );
wiced_tcp_stream_write(&stream, websocket_header_fields->request_uri, ( uint16_t )strlen(websocket_header_fields->request_uri) );
wiced_tcp_stream_write( &stream, " HTTP/1.1\r\n",( uint16_t )strlen(" HTTP/1.1\r\n") );
/*< Host: ip1.ip2.ip3.ip4 >*/
wiced_tcp_stream_write( &stream, "Host: ",( uint16_t )strlen("Host: ") );
wiced_tcp_stream_write(&stream, websocket_header_fields->host, ( uint16_t )strlen(websocket_header_fields->host) );
wiced_tcp_stream_write( &stream, "\r\n",( uint16_t )strlen("\r\n") );
/*< Upgrade: websocket>*/
wiced_tcp_stream_write(&stream, "Upgrade: websocket\r\n",( uint16_t )strlen("Upgrade: websocket\r\n") );
/*< Connection: Upgrade >*/
wiced_tcp_stream_write(&stream, "Connection: Upgrade\r\n",( uint16_t )strlen("Connection: Upgrade\r\n") );
/*< Sec-WebSocket-Key: random_base4_value >*/
wiced_tcp_stream_write(&stream, "Sec-WebSocket-Key: ",( uint16_t )strlen("Sec-WebSocket-Key: ") );
wiced_tcp_stream_write(&stream, websocket_key_base64, ( uint16_t )strlen((char*)websocket_key_base64) );
wiced_tcp_stream_write(&stream, "\r\n", ( uint16_t )strlen("\r\n") );
/*< Origin: ip1.ip2.ip3.ip4 >*/
wiced_tcp_stream_write(&stream, "Origin: ", ( uint16_t )strlen("Origin: ") );
wiced_tcp_stream_write(&stream, websocket_header_fields->origin, ( uint16_t )strlen( websocket_header_fields->origin ) );
wiced_tcp_stream_write(&stream, "\r\n",( uint16_t )strlen("\r\n") );
/*The sec_websocket_protocol is optional, so check if it has been added, include in header if required*/
if ( websocket_header_fields->sec_websocket_protocol != NULL)
{
/*< Sec-WebSocket-Protocol: server_understood_protocol >*/
wiced_tcp_stream_write(&stream, "Sec-WebSocket-Protocol: ",( uint16_t )strlen("Sec-WebSocket-Protocol: ") );
wiced_tcp_stream_write(&stream, websocket_header_fields->sec_websocket_protocol, ( uint16_t )strlen( websocket_header_fields->sec_websocket_protocol ) );
wiced_tcp_stream_write(&stream, "\r\n",( uint16_t )strlen("\r\n") );
}
/*< Sec-WebSocket-Version: 13 >*/
wiced_tcp_stream_write(&stream, "Sec-WebSocket-Version: 13\r\n\r\n",strlen("Sec-WebSocket-Version: 13\r\n\r\n") );
/*send the handshake to server*/
wiced_tcp_stream_flush( &stream );
wiced_tcp_stream_deinit( &stream );
WICED_VERIFY( wiced_tcp_receive( &websocket->socket, &tcp_reply_packet, WICED_WAIT_FOREVER ) );
wiced_packet_get_data( tcp_reply_packet, 0, (uint8_t**)&received_handshake, &total_received_bytes, &tcp_data_available );
WICED_VERIFY( wiced_verify_server_handshake( (char*)received_handshake ) );
return WICED_SUCCESS;
}
static wiced_result_t process_request( ota_http_request_message_t* request, wiced_tcp_socket_t* socket, const ota_http_page_t* server_url_list )
{
/* Search the url to find the question mark if there is one */
int i = 0;
wiced_tcp_stream_t stream;
wiced_bool_t found = WICED_FALSE;
/* Init the tcp stream */
wiced_tcp_stream_init(&stream, socket);
/* Search URL list to determine if request matches one of our pages */
while ( server_url_list[i].ota_url != NULL )
{
/* Compare request to a path */
if ( 0 == strncmp( server_url_list[i].ota_url, (const char*)request->url_ptr, request->url_length ) )
{
/* Matching path found */
found = WICED_TRUE;
/* Call the content handler function to write the page content into the packet and adjust the write pointers */
switch (server_url_list[i].ota_url_content_type)
{
case OTA_DYNAMIC_URL_CONTENT:
write_reply_header(&stream, server_url_list[i].ota_mime_type, WICED_TRUE);
/* Fall through */
case OTA_RAW_DYNAMIC_URL_CONTENT:
server_url_list[i].ota_url_content.ota_dynamic_data.generator( request, &stream, server_url_list[i].ota_url_content.ota_dynamic_data.arg );
wiced_tcp_stream_flush(&stream);
break;
case OTA_STATIC_URL_CONTENT:
write_reply_header(&stream, server_url_list[i].ota_mime_type, WICED_FALSE);
/* Fall through */
case OTA_RAW_STATIC_URL_CONTENT:
wiced_tcp_stream_write(&stream, server_url_list[i].ota_url_content.ota_static_data.ptr, server_url_list[i].ota_url_content.ota_static_data.length);
wiced_tcp_stream_flush(&stream);
break;
case OTA_RESOURCE_URL_CONTENT:
write_reply_header(&stream, server_url_list[i].ota_mime_type, WICED_FALSE);
/* Fall through */
case OTA_RAW_RESOURCE_URL_CONTENT:
wiced_tcp_stream_write_resource( &stream, server_url_list[i].ota_url_content.ota_resource_data );
wiced_tcp_stream_flush( &stream );
break;
default:
wiced_assert("Unknown entry in URL list", 0 != 0 );
break;
}
break;
}
i++;
}
/* Check if page was not found */
if ( found == WICED_FALSE )
{
/* Send back 404 */
wiced_tcp_stream_write(&stream, not_found_header, sizeof(not_found_header)-1);
wiced_tcp_stream_flush(&stream);
}
wiced_assert( "Page Serve finished with data still in stream", stream.tx_packet == NULL );
return WICED_SUCCESS;
}
static void tcp_server_thread_main(wiced_thread_arg_t arg)
{
wiced_bool_t wwepSecurity = (wiced_bool_t)arg;
wiced_result_t result;
wiced_tcp_stream_t stream; // The TCP stream
wiced_tcp_socket_t socket;
platform_dct_security_t *dct_security;
wiced_tls_identity_t tls_identity;
wiced_tls_context_t tls_context;
uint8_t rbuffer[MAX_LEGAL_MSG];
char returnMessage[128]; // better use less than 128 bytes
// setup the server by creating the socket and hooking it to the correct TCP Port
result = wiced_tcp_create_socket(&socket, INTERFACE);
if(WICED_SUCCESS != result)
{
WPRINT_APP_INFO(("Create socket failed\n"));
return; // this is a bad outcome
}
if(wwepSecurity == WICED_TRUE)
{
WPRINT_APP_INFO(("Starting secure\n"));
}
else
{
WPRINT_APP_INFO(("Starting non-secure\n"));
}
result = wiced_tcp_listen( &socket, (wwepSecurity == WICED_TRUE)?TCP_SERVER_SECURE_LISTEN_PORT:TCP_SERVER_NONSECURE_LISTEN_PORT );
if(WICED_SUCCESS != result)
{
WPRINT_APP_INFO(("Listen socket failed\n"));
return;
}
if(wwepSecurity == WICED_TRUE)
{
/* Lock the DCT to allow us to access the certificate and key */
WPRINT_APP_INFO(( "Read the certificate Key from DCT\n" ));
result = wiced_dct_read_lock( (void**) &dct_security, WICED_FALSE, DCT_SECURITY_SECTION, 0, sizeof( *dct_security ) );
if ( result != WICED_SUCCESS )
{
WPRINT_APP_INFO(("Unable to lock DCT to read certificate\n"));
return;
}
/* Setup TLS identity */
result = wiced_tls_init_identity( &tls_identity, dct_security->private_key, strlen( dct_security->private_key ), (uint8_t*) dct_security->certificate, strlen( dct_security->certificate ) );
if ( result != WICED_SUCCESS )
{
WPRINT_APP_INFO(( "Unable to initialize TLS identity. Error = [%d]\n", result ));
return;
}
}
else
{
wiced_tcp_stream_init(&stream,&socket);
if(WICED_SUCCESS != result)
{
WPRINT_APP_INFO(("Init stream failed\n"));
return; // this is a bad outcome
}
}
while (1 )
{
if(wwepSecurity == WICED_TRUE)
{
result = wiced_tls_init_context( &tls_context, &tls_identity, NULL );
if(result != WICED_SUCCESS)
{
WPRINT_APP_INFO(("Init context failed %d",result));
return;
}
result = wiced_tcp_enable_tls(&socket,&tls_context);
if(result != WICED_SUCCESS)
{
WPRINT_APP_INFO(("Enabling TLS failed %d",result));
return;
}
wiced_tcp_stream_init(&stream,&socket);
if(WICED_SUCCESS != result)
{
WPRINT_APP_INFO(("Init stream failed\n"));
return; // this is a bad outcome
}
}
result = wiced_tcp_accept( &socket ); // this halts the thread until there is a connection
if(result != WICED_SUCCESS) // this occurs if the accept times out
continue;
if(wwepSecurity == WICED_TRUE)
secureConnectionCount += 1;
else
nonsecureConnectionCount += 1;
/// Figure out which client is talking to us... and on which port
wiced_ip_address_t peerAddress;
uint16_t peerPort;
wiced_tcp_server_peer(&socket,&peerAddress,&peerPort);
uint32_t dataReadCount;
wiced_tcp_stream_read_with_count(&stream,&rbuffer,MAX_LEGAL_MSG,100,&dataReadCount); // timeout in 100 ms
processClientCommand(rbuffer, dataReadCount ,returnMessage);
displayResult(peerAddress,peerPort,returnMessage);
// send response and close things up
wiced_tcp_stream_write(&stream,returnMessage,strlen(returnMessage));
wiced_tcp_stream_flush(&stream);
wiced_tcp_disconnect(&socket); // disconnect the connection
if(wwepSecurity == WICED_TRUE)
{
wiced_tls_deinit_context(&tls_context);
}
wiced_tcp_stream_deinit(&stream); // clear the stream if any crap left
wiced_tcp_stream_init(&stream,&socket); // setup for next connection
}
}