void coap_createCoapRequest(void * context, coap_method_t method, const char * uri, ContentType contentType, const char * payload, int payloadLen, TransactionCallback callback)
{
coap_packet_t request;
uip_ipaddr_t * remote_ipaddr = coap_getIpFromURI(uri);
int remote_port = coap_getPortFromURI(uri);
coap_transaction_t *transaction;
char path[128] = {0};
char query[128] = {0};
coap_getPathQueryFromURI(uri, path, query);
Lwm2m_Debug("Coap request: %s\n", uri);
Lwm2m_Debug("Coap IPv6 request address: " PRINT6ADDR(remote_ipaddr));
Lwm2m_Debug("Coap request port: %d\n", remote_port);
Lwm2m_Debug("Coap request path: %s\n", path);
Lwm2m_Debug("Coap request query: %s\n", query);
coap_init_message(&request, COAP_TYPE_CON, method, coap_get_mid());
coap_set_header_uri_path(&request, path);
coap_set_header_uri_query(&request, query);
if (contentType != ContentType_None)
{
coap_set_header_content_format(&request, contentType);
coap_set_payload(&request, payload, payloadLen);
}
if (CurrentTransaction[CurrentTransactionIndex].TransactionUsed && CurrentTransaction[CurrentTransactionIndex].TransactionPtr)
{
Lwm2m_Warning("Canceled previous transaction [%d]: %p\n", CurrentTransactionIndex, CurrentTransaction[CurrentTransactionIndex].TransactionPtr);
coap_clear_transaction(CurrentTransaction[CurrentTransactionIndex].TransactionPtr);
}
if ((transaction = coap_new_transaction(request.mid, remote_ipaddr, uip_htons(remote_port))))
{
transaction->callback = coap_CoapRequestCallback;
CurrentTransaction[CurrentTransactionIndex].Callback = callback;
CurrentTransaction[CurrentTransactionIndex].Context = context;
CurrentTransaction[CurrentTransactionIndex].TransactionUsed = true;
CurrentTransaction[CurrentTransactionIndex].TransactionPtr = transaction;
memcpy(&CurrentTransaction[CurrentTransactionIndex].Address.Addr, remote_ipaddr, sizeof(uip_ipaddr_t));
CurrentTransaction[CurrentTransactionIndex].Address.Port = uip_htons(remote_port);
transaction->callback_data = &CurrentTransaction[CurrentTransactionIndex];
transaction->packet_len = coap_serialize_message(&request, transaction->packet);
Lwm2m_Debug("Sending transaction [%d]: %p\n", CurrentTransactionIndex, CurrentTransaction[CurrentTransactionIndex].TransactionPtr);
coap_send_transaction(transaction);
CurrentTransactionIndex++;
if(CurrentTransactionIndex >= MAX_COAP_TRANSACTIONS)
{
CurrentTransactionIndex = 0;
}
}
}
/*----------------------------------------------------------------------------*/
static
int
coap_receive(void)
{
coap_error_code = NO_ERROR;
PRINTF("handle_incoming_data(): received uip_datalen=%u \n",(uint16_t)uip_datalen());
/* Static declaration reduces stack peaks and program code size. */
static coap_packet_t message[1]; /* This way the packet can be treated as pointer as usual. */
static coap_packet_t response[1];
static coap_transaction_t *transaction = NULL;
if (uip_newdata()) {
PRINTF("receiving UDP datagram from: ");
PRINT6ADDR(&UIP_IP_BUF->srcipaddr);
PRINTF(":%u\n Length: %u\n Data: ", uip_ntohs(UIP_UDP_BUF->srcport), uip_datalen() );
PRINTBITS(uip_appdata, uip_datalen());
PRINTF("\n");
coap_error_code = coap_parse_message(message, uip_appdata, uip_datalen());
if (coap_error_code==NO_ERROR)
{
/*TODO duplicates suppression, if required by application */
PRINTF(" Parsed: v %u, t %u, oc %u, c %u, mid %u\n", message->version, message->type, message->option_count, message->code, message->mid);
PRINTF(" URL: %.*s\n", message->uri_path_len, message->uri_path);
PRINTF(" Payload: %.*s\n", message->payload_len, message->payload);
/* Handle requests. */
if (message->code >= COAP_GET && message->code <= COAP_DELETE)
{
/* Use transaction buffer for response to confirmable request. */
if ( (transaction = coap_new_transaction(message->mid, &UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport)) )
{
uint32_t block_num = 0;
uint16_t block_size = REST_MAX_CHUNK_SIZE;
uint32_t block_offset = 0;
int32_t new_offset = 0;
/* prepare response */
if (message->type==COAP_TYPE_CON)
{
/* Reliable CON requests are answered with an ACK. */
coap_init_message(response, COAP_TYPE_ACK, CONTENT_2_05, message->mid);
}
else
{
/* Unreliable NON requests are answered with a NON as well. */
coap_init_message(response, COAP_TYPE_NON, CONTENT_2_05, coap_get_mid());
}
/* resource handlers must take care of different handling (e.g., TOKEN_OPTION_REQUIRED_240) */
if (IS_OPTION(message, COAP_OPTION_TOKEN))
{
coap_set_header_token(response, message->token, message->token_len);
SET_OPTION(response, COAP_OPTION_TOKEN);
}
/* get offset for blockwise transfers */
if (coap_get_header_block2(message, &block_num, NULL, &block_size, &block_offset))
{
PRINTF("Blockwise: block request %lu (%u/%u) @ %lu bytes\n", block_num, block_size, REST_MAX_CHUNK_SIZE, block_offset);
block_size = MIN(block_size, REST_MAX_CHUNK_SIZE);
new_offset = block_offset;
}
/* Invoke resource handler. */
if (service_cbk)
{
/* Call REST framework and check if found and allowed. */
if (service_cbk(message, response, transaction->packet+COAP_MAX_HEADER_SIZE, block_size, &new_offset))
{
if (coap_error_code==NO_ERROR)
{
/* Apply blockwise transfers. */
if ( IS_OPTION(message, COAP_OPTION_BLOCK1) && response->code<BAD_REQUEST_4_00 && !IS_OPTION(response, COAP_OPTION_BLOCK1) )
{
PRINTF("Block1 NOT IMPLEMENTED\n");
coap_error_code = NOT_IMPLEMENTED_5_01;
coap_error_message = "NoBlock1Support";
}
else if ( IS_OPTION(message, COAP_OPTION_BLOCK2) )
{
/* unchanged new_offset indicates that resource is unaware of blockwise transfer */
if (new_offset==block_offset)
{
PRINTF("Blockwise: unaware resource with payload length %u/%u\n", response->payload_len, block_size);
if (block_offset >= response->payload_len)
{
PRINTF("handle_incoming_data(): block_offset >= response->payload_len\n");
response->code = BAD_OPTION_4_02;
coap_set_payload(response, "BlockOutOfScope", 15); /* a const char str[] and sizeof(str) produces larger code size */
}
else
{
coap_set_header_block2(response, block_num, response->payload_len - block_offset > block_size, block_size);
coap_set_payload(response, response->payload+block_offset, MIN(response->payload_len - block_offset, block_size));
} /* if (valid offset) */
}
else
{
/* resource provides chunk-wise data */
PRINTF("Blockwise: blockwise resource, new offset %ld\n", new_offset);
coap_set_header_block2(response, block_num, new_offset!=-1 || response->payload_len > block_size, block_size);
if (response->payload_len > block_size) coap_set_payload(response, response->payload, block_size);
} /* if (resource aware of blockwise) */
}
else if (new_offset!=0)
{
PRINTF("Blockwise: no block option for blockwise resource, using block size %u\n", REST_MAX_CHUNK_SIZE);
coap_set_header_block2(response, 0, new_offset!=-1, REST_MAX_CHUNK_SIZE);
coap_set_payload(response, response->payload, MIN(response->payload_len, REST_MAX_CHUNK_SIZE));
} /* if (blockwise request) */
} /* no errors/hooks */
} /* successful service callback */
/* Serialize response. */
if (coap_error_code==NO_ERROR)
{
if ((transaction->packet_len = coap_serialize_message(response, transaction->packet))==0)
{
coap_error_code = PACKET_SERIALIZATION_ERROR;
}
}
}
else
{
coap_error_code = NOT_IMPLEMENTED_5_01;
coap_error_message = "NoServiceCallbck"; // no a to fit 16 bytes
} /* if (service callback) */
} else {
coap_error_code = SERVICE_UNAVAILABLE_5_03;
coap_error_message = "NoFreeTraBuffer";
} /* if (transaction buffer) */
}
else
{
/* Responses */
if (message->type==COAP_TYPE_ACK)
{
PRINTF("Received ACK\n");
}
else if (message->type==COAP_TYPE_RST)
{
PRINTF("Received RST\n");
/* Cancel possible subscriptions. */
coap_remove_observer_by_mid(&UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport, message->mid);
}
transaction = coap_get_transaction_by_mid(message->mid);
if (message->type != COAP_TYPE_CON && transaction)
{
/* Free transaction memory before callback, as it may create a new transaction. */
restful_response_handler callback = transaction->callback;
void *callback_data = transaction->callback_data;
coap_clear_transaction(transaction);
/* Check if someone registered for the response */
if (callback) {
callback(callback_data, message);
}
} /* if (ACKed transaction) */
/* Observe notification */
if ((message->type == COAP_TYPE_CON || message->type == COAP_TYPE_NON) \
&& IS_OPTION(message, COAP_OPTION_OBSERVE)) {
PRINTF("Observe [%u]\n", message->observe);
coap_handle_notification(&UIP_IP_BUF->srcipaddr, \
UIP_UDP_BUF->srcport, message);
}
transaction = NULL;
} /* Request or Response */
} /* if (parsed correctly) */
if (coap_error_code==NO_ERROR)
{
if (transaction) coap_send_transaction(transaction);
}
else if (coap_error_code==MANUAL_RESPONSE)
{
PRINTF("Clearing transaction for manual response");
coap_clear_transaction(transaction);
}
else
{
PRINTF("ERROR %u: %s\n", coap_error_code, coap_error_message);
coap_clear_transaction(transaction);
/* Set to sendable error code. */
if (coap_error_code >= 192)
{
coap_error_code = INTERNAL_SERVER_ERROR_5_00;
}
/* Reuse input buffer for error message. */
coap_init_message(message, COAP_TYPE_ACK, coap_error_code, message->mid);
coap_set_payload(message, coap_error_message, strlen(coap_error_message));
coap_send_message(&UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport, uip_appdata, coap_serialize_message(message, uip_appdata));
}
} /* if (new data) */
return coap_error_code;
}
/*---------------------------------------------------------------------------*/
int
coap_engine_receive(coap_context_t *coap_ctx)
{
erbium_status_code = NO_ERROR;
coap_packet_t message[1]; /* this way the packet can be treated as pointer as usual */
coap_packet_t response[1];
coap_transaction_t *transaction = NULL;
PRINTF("%s(): received data len %u\n", __FUNCTION__,
(uint16_t)uip_appdatalen(coap_ctx->buf));
if(uip_newdata(coap_ctx->buf)) {
PRINTF("receiving UDP datagram from: ");
PRINT6ADDR(&UIP_IP_BUF(coap_ctx->buf)->srcipaddr);
PRINTF(":%u\n Length: %u\n",
uip_ntohs(UIP_UDP_BUF(coap_ctx->buf)->srcport),
uip_appdatalen(coap_ctx->buf));
erbium_status_code =
coap_parse_message(message, uip_appdata(coap_ctx->buf), uip_appdatalen(coap_ctx->buf));
coap_set_context(message, coap_ctx);
if(erbium_status_code == NO_ERROR) {
NET_COAP_STAT(recv++);
/*TODO duplicates suppression, if required by application */
PRINTF(" Parsed: v %u, t %u, tkl %u, c %u, mid %u\n", message->version,
message->type, message->token_len, message->code, message->mid);
PRINTF(" URL[%d]: %.*s\n", message->uri_path_len, message->uri_path_len, message->uri_path);
PRINTF(" Payload[%d]: %.*s\n", message->payload_len, message->payload_len, message->payload);
/* handle requests */
if(message->code >= COAP_GET && message->code <= COAP_DELETE) {
/* use transaction buffer for response to confirmable request */
if((transaction = coap_new_transaction(message->mid, coap_ctx,
&UIP_IP_BUF(coap_ctx->buf)->srcipaddr,
UIP_UDP_BUF(coap_ctx->buf)->srcport))) {
uint32_t block_num = 0;
uint16_t block_size = REST_MAX_CHUNK_SIZE;
uint32_t block_offset = 0;
int32_t new_offset = 0;
/* prepare response */
if(message->type == COAP_TYPE_CON) {
/* reliable CON requests are answered with an ACK */
coap_init_message(response, COAP_TYPE_ACK, CONTENT_2_05,
message->mid);
} else {
/* unreliable NON requests are answered with a NON as well */
coap_init_message(response, COAP_TYPE_NON, CONTENT_2_05,
coap_get_mid());
/* mirror token */
} if(message->token_len) {
coap_set_token(response, message->token, message->token_len);
/* get offset for blockwise transfers */
}
if(coap_get_header_block2
(message, &block_num, NULL, &block_size, &block_offset)) {
PRINTF("Blockwise: block request %lu (%u/%u) @ %lu bytes\n",
(unsigned long)block_num, block_size, REST_MAX_CHUNK_SIZE, (unsigned long)block_offset);
block_size = MIN(block_size, REST_MAX_CHUNK_SIZE);
new_offset = block_offset;
}
/* invoke resource handler */
if(service_cbk) {
/* call REST framework and check if found and allowed */
if(service_cbk
(message, response, transaction->packet + COAP_MAX_HEADER_SIZE,
block_size, &new_offset)) {
if(erbium_status_code == NO_ERROR) {
/* TODO coap_handle_blockwise(request, response, start_offset, end_offset); */
/* resource is unaware of Block1 */
if(IS_OPTION(message, COAP_OPTION_BLOCK1)
&& response->code < BAD_REQUEST_4_00
&& !IS_OPTION(response, COAP_OPTION_BLOCK1)) {
PRINTF("Block1 NOT IMPLEMENTED\n");
erbium_status_code = NOT_IMPLEMENTED_5_01;
coap_error_message = "NoBlock1Support";
/* client requested Block2 transfer */
} else if(IS_OPTION(message, COAP_OPTION_BLOCK2)) {
/* unchanged new_offset indicates that resource is unaware of blockwise transfer */
if(new_offset == block_offset) {
PRINTF
("Blockwise: unaware resource with payload length %u/%u\n",
response->payload_len, block_size);
if(block_offset >= response->payload_len) {
PRINTF
("handle_incoming_data(): block_offset >= response->payload_len\n");
response->code = BAD_OPTION_4_02;
coap_set_payload(response, "BlockOutOfScope", 15); /* a const char str[] and sizeof(str) produces larger code size */
} else {
coap_set_header_block2(response, block_num,
response->payload_len -
block_offset > block_size,
block_size);
coap_set_payload(response,
response->payload + block_offset,
MIN(response->payload_len -
block_offset, block_size));
} /* if(valid offset) */
/* resource provides chunk-wise data */
} else {
PRINTF("Blockwise: blockwise resource, new offset %ld\n",
(long)new_offset);
coap_set_header_block2(response, block_num,
new_offset != -1
|| response->payload_len >
block_size, block_size);
if(response->payload_len > block_size) {
coap_set_payload(response, response->payload,
block_size);
}
} /* if(resource aware of blockwise) */
/* Resource requested Block2 transfer */
} else if(new_offset != 0) {
PRINTF
("Blockwise: no block option for blockwise resource, using block size %u\n",
COAP_MAX_BLOCK_SIZE);
coap_set_header_block2(response, 0, new_offset != -1,
COAP_MAX_BLOCK_SIZE);
coap_set_payload(response, response->payload,
MIN(response->payload_len,
COAP_MAX_BLOCK_SIZE));
} /* blockwise transfer handling */
} /* no errors/hooks */
/* successful service callback */
/* serialize response */
}
if(erbium_status_code == NO_ERROR) {
if((transaction->packet_len = coap_serialize_message(response,
transaction->
packet)) ==
0) {
erbium_status_code = PACKET_SERIALIZATION_ERROR;
}
}
} else {
erbium_status_code = NOT_IMPLEMENTED_5_01;
coap_error_message = "NoServiceCallbck"; /* no 'a' to fit into 16 bytes */
} /* if(service callback) */
} else {
erbium_status_code = SERVICE_UNAVAILABLE_5_03;
coap_error_message = "NoFreeTraBuffer";
} /* if(transaction buffer) */
/* handle responses */
} else {
if(message->type == COAP_TYPE_CON && message->code == 0) {
PRINTF("Received Ping\n");
erbium_status_code = PING_RESPONSE;
} else if(message->type == COAP_TYPE_ACK) {
/* transactions are closed through lookup below */
PRINTF("Received ACK\n");
} else if(message->type == COAP_TYPE_RST) {
PRINTF("Received RST\n");
/* cancel possible subscriptions */
coap_remove_observer_by_mid(coap_ctx, &UIP_IP_BUF(coap_ctx->buf)->srcipaddr,
UIP_UDP_BUF(coap_ctx->buf)->srcport, message->mid);
}
if((transaction = coap_get_transaction_by_mid(message->mid))) {
/* free transaction memory before callback, as it may create a new transaction */
restful_response_handler callback = transaction->callback;
void *callback_data = transaction->callback_data;
coap_clear_transaction(transaction);
/* check if someone registered for the response */
if(callback) {
callback(callback_data, message);
}
}
/* if(ACKed transaction) */
transaction = NULL;
#if COAP_OBSERVE_CLIENT
/* if observe notification */
if((message->type == COAP_TYPE_CON || message->type == COAP_TYPE_NON)
&& IS_OPTION(message, COAP_OPTION_OBSERVE)) {
PRINTF("Observe [%u]\n", message->observe);
coap_handle_notification(coap_ctx, &UIP_IP_BUF(coap_ctx->buf)->srcipaddr,
UIP_UDP_BUF(coap_ctx->buf)->srcport, message);
}
#endif /* COAP_OBSERVE_CLIENT */
} /* request or response */
} else { /* parsed correctly */
NET_COAP_STAT(recv_err++);
}
/* if(parsed correctly) */
if(erbium_status_code == NO_ERROR) {
if(transaction) {
coap_send_transaction(transaction);
}
} else if(erbium_status_code == MANUAL_RESPONSE) {
PRINTF("Clearing transaction for manual response");
coap_clear_transaction(transaction);
} else {
coap_message_type_t reply_type = COAP_TYPE_ACK;
PRINTF("ERROR %u: %s\n", erbium_status_code, coap_error_message);
coap_clear_transaction(transaction);
if(erbium_status_code == PING_RESPONSE) {
erbium_status_code = 0;
reply_type = COAP_TYPE_RST;
} else if(erbium_status_code >= 192) {
/* set to sendable error code */
erbium_status_code = INTERNAL_SERVER_ERROR_5_00;
/* reuse input buffer for error message */
}
coap_init_message(message, reply_type, erbium_status_code,
message->mid);
coap_set_payload(message, coap_error_message,
strlen(coap_error_message));
coap_send_message(coap_ctx, &UIP_IP_BUF(coap_ctx->buf)->srcipaddr,
UIP_UDP_BUF(coap_ctx->buf)->srcport,
uip_appdata(coap_ctx->buf),
coap_serialize_message(message,
uip_appdata(coap_ctx->buf)));
}
}
/* if(new data) */
return erbium_status_code;
}
static
int
coap_receive(void)
{
coap_error_code = NO_ERROR;
PRINTF("handle_incoming_data(): received uip_datalen=%u \n",
(uint16_t)uip_datalen());
if (uip_newdata()) {
PRINTF("receiving UDP datagram from: ");
PRINT6ADDR(&UIP_IP_BUF->srcipaddr);
PRINTF(":%u\n Length: %u\n Data: ", uip_ntohs(UIP_UDP_BUF->srcport), uip_datalen() );
PRINTBITS(uip_appdata, uip_datalen());
PRINTF("\n");
coap_error_code = coap_parse_message(message, uip_appdata, uip_datalen());
if (coap_error_code==NO_ERROR)
{
/*TODO duplicates suppression, if required by application */
PRINTF(" Parsed: v %u, t %u, tkl %u, c %u, mid %u\n", message->version, message->type, message->token_len, message->code, message->mid);
PRINTF(" URL: %.*s\n", message->uri_path_len, message->uri_path);
PRINTF(" Payload: %.*s\n", message->payload_len, message->payload);
/* Handle requests. */
if (message->code >= COAP_GET && message->code <= COAP_DELETE)
{
#if COAP_CEU
int ret;
TCEU_Transaction t = {
message->mid, &UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport,
request1, NULL, NULL, NULL, 0, {}
};
tceu__int___void_ ps = { &ret, &t };
ceu_go_event(CEU_IN_COAP_REQUEST, &ps);
if (! ret) {
coap_error_code = SERVICE_UNAVAILABLE_5_03;
coap_error_message = "NoFreeTraBuffer";
}
#else
/* Use transaction buffer for response to confirmable request. */
if ( (transaction = coap_new_transaction(message->mid, &UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport)) )
{
request1(transaction,NULL);
} else {
coap_error_code = SERVICE_UNAVAILABLE_5_03;
coap_error_message = "NoFreeTraBuffer";
} /* if (transaction buffer) */
#endif
}
else
{
/* Responses */
if (message->type==COAP_TYPE_CON && message->code==0)
{
PRINTF("Received Ping\n");
coap_error_code = PING_RESPONSE;
}
else if (message->type==COAP_TYPE_ACK)
{
/* Transactions are closed through lookup below */
PRINTF("Received ACK\n");
}
else if (message->type==COAP_TYPE_RST)
{
PRINTF("Received RST\n");
/* Cancel possible subscriptions. */
#ifdef COAP_OBSERVER
coap_remove_observer_by_mid(&UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport, message->mid);
#endif
}
#if COAP_CEU
ceu_go_event(CEU_IN_COAP_RESPONSE, message);
#else
if ( (transaction = coap_get_transaction_by_mid(message->mid)) )
{
/* Free transaction memory before callback, as it may create a new transaction. */
restful_response_handler callback = transaction->callback;
void *callback_data = transaction->callback_data;
coap_clear_transaction(transaction);
/* Check if someone registered for the response */
if (callback) {
callback(callback_data, message);
}
} /* if (ACKed transaction) */
transaction = NULL;
#endif
} /* Request or Response */
} /* if (parsed correctly) */
if (coap_error_code==NO_ERROR)
{
#if ! COAP_CEU
if (transaction) coap_send_transaction(transaction);
#endif
}
else if (coap_error_code==MANUAL_RESPONSE) /* TODO! */
{
PRINTF("Clearing transaction for manual response");
#if ! COAP_CEU
coap_clear_transaction(transaction);
#endif
}
else
{
coap_message_type_t reply_type = COAP_TYPE_ACK;
PRINTF("ERROR %u: %s\n", coap_error_code, coap_error_message);
#if ! COAP_CEU
coap_clear_transaction(transaction);
#endif
/* Set to sendable error code. */
if (coap_error_code >= 192)
{
coap_error_code = INTERNAL_SERVER_ERROR_5_00;
}
if (coap_error_code == PING_RESPONSE)
{
coap_error_code = 0;
reply_type = COAP_TYPE_RST;
}
/* Reuse input buffer for error message. */
coap_init_message(message, reply_type, coap_error_code, message->mid);
coap_set_payload(message, coap_error_message, strlen(coap_error_message));
coap_send_message(&UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport, uip_appdata, coap_serialize_message(message, uip_appdata));
}
} /* if (new data) */
return coap_error_code;
}
/*---------------------------------------------------------------------------*/
int
coap_receive(oc_message_t *msg)
{
erbium_status_code = NO_ERROR;
LOG("\n\nCoAP Engine: received datalen=%u \n", (unsigned int) msg->length);
/* static declaration reduces stack peaks and program code size */
static coap_packet_t
message[1]; /* this way the packet can be treated as pointer as usual */
static coap_packet_t response[1];
static coap_transaction_t *transaction = NULL;
erbium_status_code = coap_parse_message(message, msg->data, msg->length);
if (erbium_status_code == NO_ERROR) {
/*TODO duplicates suppression, if required by application */
#if DEBUG
LOG(" Parsed: CoAP version: %u, token: 0x%02X%02X, mid: %u\n",
message->version, message->token[0], message->token[1], message->mid);
switch (message->type) {
case COAP_TYPE_CON:
LOG(" type: CON\n");
break;
case COAP_TYPE_NON:
LOG(" type: NON\n");
break;
case COAP_TYPE_ACK:
LOG(" type: ACK\n");
break;
case COAP_TYPE_RST:
LOG(" type: RST\n");
break;
default:
break;
}
#endif
/* handle requests */
if (message->code >= COAP_GET && message->code <= COAP_DELETE) {
#if DEBUG
switch (message->code) {
case COAP_GET:
LOG(" method: GET\n");
break;
case COAP_PUT:
LOG(" method: PUT\n");
break;
case COAP_POST:
LOG(" method: POST\n");
break;
case COAP_DELETE:
LOG(" method: DELETE\n");
break;
}
LOG(" URL: %.*s\n", (int) message->uri_path_len, message->uri_path);
LOG(" Payload: %.*s\n", (int) message->payload_len, message->payload);
#endif
/* use transaction buffer for response to confirmable request */
if ((transaction = coap_new_transaction(message->mid, &msg->endpoint))) {
uint32_t block_num = 0;
uint16_t block_size = COAP_MAX_BLOCK_SIZE;
uint32_t block_offset = 0;
int32_t new_offset = 0;
/* prepare response */
if (message->type == COAP_TYPE_CON) {
/* reliable CON requests are answered with an ACK */
coap_init_message(response, COAP_TYPE_ACK, CONTENT_2_05,
message->mid);
} else {
/* unreliable NON requests are answered with a NON as well */
coap_init_message(response, COAP_TYPE_NON, CONTENT_2_05,
coap_get_mid());
/* mirror token */
}
if (message->token_len) {
coap_set_token(response, message->token, message->token_len);
/* get offset for blockwise transfers */
}
if (coap_get_header_block2(message, &block_num, NULL, &block_size,
&block_offset)) {
LOG("\tBlockwise: block request %u (%u/%u) @ %u bytes\n", (unsigned int) block_num,
block_size, COAP_MAX_BLOCK_SIZE, (unsigned int) block_offset);
block_size = MIN(block_size, COAP_MAX_BLOCK_SIZE);
new_offset = block_offset;
}
/* invoke resource handler in RI layer */
if (oc_ri_invoke_coap_entity_handler(
message, response,
transaction->message->data + COAP_MAX_HEADER_SIZE, block_size,
&new_offset, &msg->endpoint)) {
if (erbium_status_code == NO_ERROR) {
/* TODO coap_handle_blockwise(request, response, start_offset,
* end_offset); */
/* resource is unaware of Block1 */
if (IS_OPTION(message, COAP_OPTION_BLOCK1) &&
response->code < BAD_REQUEST_4_00 &&
!IS_OPTION(response, COAP_OPTION_BLOCK1)) {
LOG("\tBlock1 option NOT IMPLEMENTED\n");
erbium_status_code = NOT_IMPLEMENTED_5_01;
coap_error_message = "NoBlock1Support";
/* client requested Block2 transfer */
} else if (IS_OPTION(message, COAP_OPTION_BLOCK2)) {
/* unchanged new_offset indicates that resource is unaware of
* blockwise transfer */
if (new_offset == block_offset) {
LOG("\tBlockwise: unaware resource with payload length %u/%u\n",
response->payload_len, block_size);
if (block_offset >= response->payload_len) {
LOG("\t\t: block_offset >= response->payload_len\n");
response->code = BAD_OPTION_4_02;
coap_set_payload(response, "BlockOutOfScope",
15); /* a const char str[] and sizeof(str)
produces larger code size */
} else {
coap_set_header_block2(response, block_num,
response->payload_len - block_offset >
block_size,
block_size);
coap_set_payload(
response, response->payload + block_offset,
MIN(response->payload_len - block_offset, block_size));
} /* if(valid offset) */
/* resource provides chunk-wise data */
} else {
LOG("\tBlockwise: blockwise resource, new offset %d\n",
(int) new_offset);
coap_set_header_block2(response, block_num,
new_offset != -1 ||
response->payload_len > block_size,
block_size);
if (response->payload_len > block_size) {
coap_set_payload(response, response->payload, block_size);
}
} /* if(resource aware of blockwise) */
/* Resource requested Block2 transfer */
} else if (new_offset != 0) {
LOG("\tBlockwise: no block option for blockwise resource, using "
"block size %u\n",
COAP_MAX_BLOCK_SIZE);
coap_set_header_block2(response, 0, new_offset != -1,
COAP_MAX_BLOCK_SIZE);
coap_set_payload(response, response->payload,
MIN(response->payload_len, COAP_MAX_BLOCK_SIZE));
} /* blockwise transfer handling */
} /* no errors/hooks */
/* successful service callback */
/* serialize response */
}
if (erbium_status_code == NO_ERROR) {
if ((transaction->message->length = coap_serialize_message(
response, transaction->message->data)) == 0) {
erbium_status_code = PACKET_SERIALIZATION_ERROR;
}
}
} else {
erbium_status_code = SERVICE_UNAVAILABLE_5_03;
coap_error_message = "NoFreeTraBuffer";
} /* if(transaction buffer) */
/* handle responses */
} else { // Fix this
if (message->type == COAP_TYPE_CON) {
erbium_status_code = EMPTY_ACK_RESPONSE;
} else if (message->type == COAP_TYPE_ACK) {
/* transactions are closed through lookup below */
} else if (message->type == COAP_TYPE_RST) {
#ifdef OC_SERVER
/* cancel possible subscriptions */
coap_remove_observer_by_mid(&msg->endpoint, message->mid);
#endif
}
/* Open transaction now cleared for ACK since mid matches */
if ((transaction = coap_get_transaction_by_mid(message->mid))) {
coap_clear_transaction(transaction);
}
/* if(ACKed transaction) */
transaction = NULL;
#ifdef OC_CLIENT // ACKs and RSTs sent to oc_ri.. RSTs cleared, ACKs sent to
// client
oc_ri_invoke_client_cb(message, &msg->endpoint);
#endif
} /* request or response */
} /* parsed correctly */
/* if(parsed correctly) */
if (erbium_status_code == NO_ERROR) {
if (transaction) { // Server transactions sent from here
coap_send_transaction(transaction);
}
} else if (erbium_status_code == CLEAR_TRANSACTION) {
LOG("Clearing transaction for manual response");
coap_clear_transaction(transaction); // used in server for separate response
}
#ifdef OC_CLIENT
else if (erbium_status_code == EMPTY_ACK_RESPONSE) {
coap_init_message(message, COAP_TYPE_ACK, 0, message->mid);
oc_message_t *response = oc_allocate_message();
if (response) {
memcpy(&response->endpoint, &msg->endpoint, sizeof(msg->endpoint));
response->length = coap_serialize_message(message, response->data);
coap_send_message(response);
}
}
#endif /* OC_CLIENT */
#ifdef OC_SERVER
else { // framework errors handled here
coap_message_type_t reply_type = COAP_TYPE_RST;
coap_clear_transaction(transaction);
coap_init_message(message, reply_type, SERVICE_UNAVAILABLE_5_03,
message->mid);
oc_message_t *response = oc_allocate_message();
if (response) {
memcpy(&response->endpoint, &msg->endpoint, sizeof(msg->endpoint));
response->length = coap_serialize_message(message, response->data);
coap_send_message(response);
}
}
#endif /* OC_SERVER */
/* if(new data) */
return erbium_status_code;
}
void coap_createCoapRequest(coap_method_t method, const char * uri, ContentType contentType, ObserveState observeState,
const char * payload, int payloadLen, TransactionCallback callback, void * context)
{
coap_packet_t request;
char path[MAX_COAP_PATH] =
{ 0 };
char query[128] =
{ 0 };
coap_transaction_t *transaction;
NetworkAddress * remoteAddress = NetworkAddress_New(uri, strlen(uri));
coap_getPathQueryFromURI(uri, path, query);
Lwm2m_Info("Coap request: %s\n", uri);
//Lwm2m_Debug("Coap request path: %s\n", path);
//Lwm2m_Debug("Coap request query: %s\n", query);
coap_init_message(&request, COAP_TYPE_CON, method, coap_get_mid());
coap_set_header_uri_path(&request, path);
if (strlen(query) > 0)
coap_set_header_uri_query(&request, query);
// TODO - REVIEW: Erbium must copy path/query from request - else mem out of scope
if (contentType != ContentType_None)
{
if ((method == COAP_POST) || (method == COAP_PUT))
{
coap_set_header_content_format(&request, contentType);
coap_set_payload(&request, payload, payloadLen);
}
else
{
coap_set_header_accept(&request, contentType);
}
}
if (method == COAP_GET)
{
if (observeState == ObserveState_Establish)
{
coap_set_header_observe(&request, 0);
int token = addObserve(remoteAddress, path, callback, context);
if (token != 0)
coap_set_token(&request, (const uint8_t *) &token, sizeof(token));
}
else if (observeState == ObserveState_Cancel)
{
coap_set_header_observe(&request, 1);
int token = removeObserve(remoteAddress, path);
if (token != 0)
coap_set_token(&request, (const uint8_t *) &token, sizeof(token));
}
}
if (CurrentTransaction[CurrentTransactionIndex].TransactionUsed && CurrentTransaction[CurrentTransactionIndex].TransactionPtr)
{
Lwm2m_Warning("Canceled previous transaction [%d]: %p\n", CurrentTransactionIndex,
CurrentTransaction[CurrentTransactionIndex].TransactionPtr);
coap_clear_transaction(&CurrentTransaction[CurrentTransactionIndex].TransactionPtr);
}
//if ((transaction = coap_new_transaction(request.mid, remote_ipaddr, uip_htons(remote_port))))
if ((transaction = coap_new_transaction(networkSocket, request.mid, remoteAddress)))
{
transaction->callback = coap_CoapRequestCallback;
memcpy(CurrentTransaction[CurrentTransactionIndex].Path, path, MAX_COAP_PATH);
CurrentTransaction[CurrentTransactionIndex].Callback = callback;
CurrentTransaction[CurrentTransactionIndex].Context = context;
CurrentTransaction[CurrentTransactionIndex].TransactionUsed = true;
CurrentTransaction[CurrentTransactionIndex].TransactionPtr = transaction;
NetworkAddress_SetAddressType(remoteAddress, &CurrentTransaction[CurrentTransactionIndex].Address);
transaction->callback_data = &CurrentTransaction[CurrentTransactionIndex];
transaction->packet_len = coap_serialize_message(&request, transaction->packet);
Lwm2m_Debug("Sending transaction [%d]: %p\n", CurrentTransactionIndex, CurrentTransaction[CurrentTransactionIndex].TransactionPtr);
coap_send_transaction(transaction);
CurrentTransactionIndex++;
if (CurrentTransactionIndex >= MAX_COAP_TRANSACTIONS)
{
CurrentTransactionIndex = 0;
}
}
}
/*-----------------------------------------------------------------------------------*/
static
int
handle_incoming_data(void)
{
int error = NO_ERROR;
PRINTF("handle_incoming_data(): received uip_datalen=%u \n",(uint16_t)uip_datalen());
if (uip_newdata()) {
PRINTF("receiving UDP datagram from: ");
PRINT6ADDR(&UIP_IP_BUF->srcipaddr);
PRINTF(":%u\n Length: %u\n Data: ", uip_ntohs(UIP_UDP_BUF->srcport), uip_datalen() );
PRINTBITS(uip_appdata, uip_datalen());
PRINTF("\n");
coap_packet_t message[1];
coap_transaction_t *transaction = NULL;
error = coap_parse_message(message, uip_appdata, uip_datalen());
if (error==NO_ERROR)
{
/*TODO duplicates suppression, if required */
PRINTF(" Parsed: v %u, t %u, oc %u, c %u, tid %u\n", message->version, message->type, message->option_count, message->code, message->tid);
PRINTF(" URL: %.*s\n", message->uri_path_len, message->uri_path);
PRINTF(" Payload: %.*s\n", message->payload_len, message->payload);
/* Handle requests. */
if (message->code >= COAP_GET && message->code <= COAP_DELETE)
{
/* Use transaction buffer for response to confirmable request. */
if ( (transaction = coap_new_transaction(message->tid, &UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport)) )
{
uint32_t block_num = 0;
uint16_t block_size = REST_MAX_CHUNK_SIZE;
uint32_t block_offset = 0;
int32_t new_offset = 0;
/* prepare response */
coap_packet_t response[1]; /* This way the packet can be treated as pointer as usual. */
if (message->type==COAP_TYPE_CON)
{
/* Reliable CON requests are answered with an ACK. */
coap_init_message(response, COAP_TYPE_ACK, OK_200, message->tid);
}
else
{
/* Unreliable NON requests are answered with a NON as well. */
coap_init_message(response, COAP_TYPE_NON, OK_200, coap_get_tid());
}
/* resource handlers must take care of different handling (e.g., TOKEN_OPTION_REQUIRED_240) */
if (IS_OPTION(message, COAP_OPTION_TOKEN))
{
coap_set_header_token(response, message->token, message->token_len);
SET_OPTION(response, COAP_OPTION_TOKEN);
}
/* get offset for blockwise transfers */
if (coap_get_header_block(message, &block_num, NULL, &block_size, &block_offset))
{
PRINTF("Blockwise: block request %lu (%u/%u) @ %lu bytes\n", block_num, block_size, REST_MAX_CHUNK_SIZE, block_offset);
block_size = MIN(block_size, REST_MAX_CHUNK_SIZE);
new_offset = block_offset;
}
/*------------------------------------------*/
/* call application-specific handler */
/*------------------------------------------*/
if (service_cbk) {
service_cbk(message, response, transaction->packet+COAP_MAX_HEADER_SIZE, block_size, &new_offset);
}
/*------------------------------------------*/
/* apply blockwise transfers */
if ( IS_OPTION(message, COAP_OPTION_BLOCK) )
{
/* unchanged new_offset indicates that resource is unaware of blockwise transfer */
if (new_offset==block_offset)
{
PRINTF("Blockwise: unaware resource with payload length %u/%u\n", response->payload_len, block_size);
if (block_offset >= response->payload_len)
{
response->code = BAD_REQUEST_400;
coap_set_payload(response, (uint8_t*)"Block out of scope", 18);
}
else
{
coap_set_header_block(response, block_num, response->payload_len - block_offset > block_size, block_size);
coap_set_payload(response, response->payload+block_offset, MIN(response->payload_len - block_offset, block_size));
} /* if (valid offset) */
}
else
{
/* resource provides chunk-wise data */
PRINTF("Blockwise: blockwise resource, new offset %ld\n", new_offset);
coap_set_header_block(response, block_num, new_offset!=-1 || response->payload_len > block_size, block_size);
if (response->payload_len > block_size) coap_set_payload(response, response->payload, block_size);
} /* if (resource aware of blockwise) */
}
else if (new_offset!=0)
{
PRINTF("Blockwise: no block option for blockwise resource, using block size %u\n", REST_MAX_CHUNK_SIZE);
coap_set_header_block(response, 0, new_offset!=-1, REST_MAX_CHUNK_SIZE);
coap_set_payload(response, response->payload, MIN(response->payload_len, REST_MAX_CHUNK_SIZE));
} /* if (blockwise request) */
if ((transaction->packet_len = coap_serialize_message(response, transaction->packet))==0)
{
error = PACKET_SERIALIZATION_ERROR;
}
} else {
error = MEMORY_ALLOCATION_ERROR;
}
}
else
{
/* Responses */
coap_transaction_t *t;
if (message->type==COAP_TYPE_ACK)
{
PRINTF("Received ACK\n");
}
else if (message->type==COAP_TYPE_RST)
{
PRINTF("Received RST\n");
/* Cancel possible subscriptions. */
if (IS_OPTION(message, COAP_OPTION_TOKEN))
{
PRINTF(" Token 0x%02X%02X\n", message->token[0], message->token[1]);
coap_remove_observer_by_token(&UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport, message->token, message->token_len);
}
}
if ( (t = coap_get_transaction_by_tid(message->tid)) )
{
/* Free transaction memory before callback, as it may create a new transaction. */
restful_response_handler callback = t->callback;
void *callback_data = t->callback_data;
coap_clear_transaction(t);
/* Check if someone registered for the response */
if (callback) {
callback(callback_data, message);
}
} /* if (transaction) */
}
} /* if (parsed correctly) */
if (error==NO_ERROR) {
if (transaction) coap_send_transaction(transaction);
}
else
{
PRINTF("ERROR %u: %s\n", error, error_messages[error]);
/* reuse input buffer */
coap_init_message(message, COAP_TYPE_ACK, INTERNAL_SERVER_ERROR_500, message->tid);
coap_set_payload(message, (uint8_t *) error_messages[error], strlen(error_messages[error]));
coap_send_message(&UIP_IP_BUF->srcipaddr, UIP_UDP_BUF->srcport, uip_appdata, coap_serialize_message(message, uip_appdata));
}
} /* if (new data) */
return error;
}
