libcoap 4.3.2
coap_handler(3)
coap_handler

SYNOPSIS

#include <coap3/coap.h>

void coap_register_request_handler(coap_resource_t *resource, coap_request_t method, coap_method_handler_t handler);

void coap_register_response_handler(coap_context_t *context, coap_response_handler_t handler);

void coap_register_nack_handler(coap_context_t *context, coap_nack_handler_t handler);

void coap_register_ping_handler(coap_context_t *context, coap_ping_handler_t handler);

void coap_register_pong_handler(coap_context_t *context, coap_pong_handler_t handler);

void coap_register_event_handler(coap_context_t *context, coap_event_handler_t handler);

For specific (D)TLS library support, link with -lcoap-3-notls, -lcoap-3-gnutls, -lcoap-3-openssl, -lcoap-3-mbedtls or -lcoap-3-tinydtls. Otherwise, link with -lcoap-3 to get the default (D)TLS library support.

DESCRIPTION

This documents the different callback handlers that can optionally be invoked on receipt of a packet or when a timeout occurs.

FUNCTIONS

Function: coap_register_request_handler()

The coap_register_request_handler() is a server side function that registers a callback handler handler that is called when there is an incoming request PDU, there is a URI match against the resource and there is a method (e.g. PUT, POST etc.) match. method can be one of the following.

COAP_REQUEST_GET
COAP_REQUEST_POST
COAP_REQUEST_PUT
COAP_REQUEST_DELETE
COAP_REQUEST_FETCH
COAP_REQUEST_PATCH
COAP_REQUEST_IPATCH

The method handler function prototype is defined as:

typedef void (*coap_method_handler_t)(coap_resource_t *resource,
                                      coap_session_t *session,
                                      const coap_pdu_t *incoming_pdu,
                                      const coap_string_t *query,
                                      coap_pdu_t *response_pdu);

In handler, data from incoming_pdu can be abstracted as described in coap_pdu_access(3) for analysis and then the handler updates response_pdu as appropriate as described in coap_pdu_setup(3). response_pdu is already pre-populated with the incoming_pdu's token and the PDU type. If this handler is called as a result of an unsolicited Observe trigger, then the Observe option (and potentially Block2 option) are also added in. The response_pdu's response code should always be updated.

NOTE: Any data associated with incoming_pdu is no longer be available after exiting this function as incoming_pdu is deleted. In particular incoming_pdu's data must not be used if calling coap_add_data_large_response(). However, it is safe to use the data if coap_add_data() is used to update response_pdu where a copy of the data is taken.

NOTE: A request callback handler can be called with a generic resource (i.e. set up using coap_resource_unknown_init2(3)), so coap_resource_get_uri_path(3) can be used to determine the URI in this case.

Function: coap_register_response_handler()

The coap_register_response_handler() is a client side function that registers a request’s response callback handler for traffic associated with the context. The application can use this for handling any response packets, including sending a RST packet if this response was unexpected. If handler is NULL, then the handler is de-registered.

The response handler function prototype is defined as:

typedef enum coap_response_t {
  COAP_RESPONSE_FAIL, /* Response not liked - send CoAP RST packet */
  COAP_RESPONSE_OK    /* Response is fine */
} coap_response_t;

typedef coap_response_t (*coap_response_handler_t)(coap_session_t *session,
                                                   const coap_pdu_t *sent,
                                                   const coap_pdu_t *received,
                                                   const coap_mid_t id);

In handler, data from received (and optionally sent if set) can be abstracted as described in coap_pdu_access(3) for analysis.

NOTE: sent will only be non NULL when the request PDU is Confirmable and this is an ACK or RST response to the request. In general, matching of Requests and Responses whould be done by generating unique Tokens for each Request and then matching up based on the Token in received Response.

NOTE: If the returned value is COAP_RESPONSE_FAIL, then a CoAP RST packet will get sent to the server by libcoap. The returned value of COAP_RESPONSE_OK indicates that all is OK.

Function: coap_register_nack_handler()

The coap_register_nack_handler() is a client side function that registers a request’s negative response callback handler for traffic associated with the context. If handler is NULL, then the handler is de-registered.

The nack handler function prototype is defined as:

typedef void (*coap_nack_handler_t)(coap_session_t *session,
                                    const coap_pdu_t *sent,
                                    const coap_nack_reason_t reason,
                                    const coap_mid_t mid);

NACK reason can be one of the following

COAP_NACK_TOO_MANY_RETRIES
COAP_NACK_NOT_DELIVERABLE
COAP_NACK_RST
COAP_NACK_TLS_FAILED
COAP_NACK_ICMP_ISSUE
COAP_NACK_BAD_RESPONSE

sent can be NULL. mid can be used for determining which is the transmitting request.

Function: coap_register_ping_handler()

The coap_register_ping_handler() function registers a callback handler for tracking receipt of CoAP ping traffic associated with the context. If handler is NULL, then the handler is de-registered. It can be used both client and server side.

The ping handler function prototype is defined as:

typedef void (*coap_ping_handler_t)(coap_session_t *session,
                                    const coap_pdu_t *received,
                                    const coap_mid_t mid);

Function: coap_register_pong_handler()

The coap_register_pong_handler() function registers a callback handler for tracking receipt of CoAP ping response traffic associated with the context. If handler is NULL, then the handler is de-registered. It can be used both client and server side.

The pong handler function prototype is defined as:

typedef void (*coap_pong_handler_t)(coap_session_t *session,
                                    const coap_pdu_t *received,
                                    const coap_mid_t mid);

Function: coap_register_event_handler()

The coap_register_event_handler() function registers a callback handler for tracking network events associated with the context. If handler is NULL, then the handler is de-registered. It can be used both client and server side.

The event handler function prototype is defined as:

typedef void (*coap_event_handler_t)(coap_session_t *session,
                                     const coap_event_t event);

Events can be one of the following

/**
 * (D)TLS events for COAP_PROTO_DTLS and COAP_PROTO_TLS
 */
COAP_EVENT_DTLS_CLOSED        0x0000
COAP_EVENT_DTLS_CONNECTED     0x01DE
COAP_EVENT_DTLS_RENEGOTIATE   0x01DF
COAP_EVENT_DTLS_ERROR         0x0200
/**
 * TCP events for COAP_PROTO_TCP and COAP_PROTO_TLS
 */
COAP_EVENT_TCP_CONNECTED      0x1001
COAP_EVENT_TCP_CLOSED         0x1002
COAP_EVENT_TCP_FAILED         0x1003
/**
 * CSM exchange events for reliable protocols only
 */
COAP_EVENT_SESSION_CONNECTED  0x2001
COAP_EVENT_SESSION_CLOSED     0x2002
COAP_EVENT_SESSION_FAILED     0x2003
/**
 * (Q-)BLOCK events
 */
COAP_EVENT_PARTIAL_BLOCK      0x3001
COAP_EVENT_XMIT_BLOCK_FAIL    0x3002
/**
 * Server session state management events
 */
COAP_EVENT_SERVER_SESSION_NEW 0x4001
COAP_EVENT_SERVER_SESSION_DEL 0x4002
/**
 * Message receive and transmit events
 */
COAP_EVENT_BAD_PACKET         0x5001
COAP_EVENT_MSG_RETRANSMITTED  0x5002
/**
 * OSCORE events
 */
COAP_EVENT_OSCORE_DECRYPTION_FAILURE   0x6001
COAP_EVENT_OSCORE_NOT_ENABLED          0x6002
COAP_EVENT_OSCORE_NO_PROTECTED_PAYLOAD 0x6003
COAP_EVENT_OSCORE_NO_SECURITY          0x6004
COAP_EVENT_OSCORE_INTERNAL_ERROR       0x6005
COAP_EVENT_OSCORE_DECODE_ERROR         0x6006
/**
 * WebSocket events
 */
COAP_EVENT_WS_PACKET_SIZE     0x7001
COAP_EVENT_WS_CONNECTED       0x7002
COAP_EVENT_WS_CLOSE           0x7003
/**
 * Keepalive events
 */
COAP_EVENT_KEEPALIVE_FAILURE  0x8001

EXAMPLES

GET Resource Callback Handler

#include <coap3/coap.h>

#include <stdio.h>

static void
hnd_get_time(coap_resource_t *resource, coap_session_t *session,
coap_pdu_t *request, coap_string_t *query, coap_pdu_t *response) {

  unsigned char buf[40];
  size_t len;
  time_t now;

  /* ... Additional analysis code for resource, request pdu etc.  ... */

  /* After analysis, generate a suitable response */

  now = time(NULL);

  if (query != NULL && coap_string_equal(query, coap_make_str_const("secs"))) {
    /* Output secs since Jan 1 1970 */
    len = snprintf((char *)buf, sizeof(buf), "%lu", now);
  }
  else {
    /* Output human-readable time */
    struct tm *tmp;
    tmp = gmtime(&now);
    if (!tmp) {
      /* If 'now' is not valid */
      coap_pdu_set_code(response, COAP_RESPONSE_CODE_NOT_FOUND);
      return;
    }
    len = strftime((char *)buf, sizeof(buf), "%b %d %H:%M:%S", tmp);
  }
  coap_pdu_set_code(response, COAP_RESPONSE_CODE_CONTENT);
  /*
   * Invoke coap_add_data_large_response() to do all the hard work.
   *
   * Define the format - COAP_MEDIATYPE_TEXT_PLAIN - to add in
   * Define how long this response is valid for (secs) - 1 - to add in.
   *
   * Observe Option added internally if needed within the function
   * Block2 Option added internally if output too large
   * ETag Option added internally
   */
  coap_add_data_large_response(resource, session, request, response,
                               query, COAP_MEDIATYPE_TEXT_PLAIN, 1, 0,
                               len,
                               buf, NULL, 0);

}

Packet Response Handler

#include <coap3/coap.h>

static int check_token(coap_pdu_t *received) {
  /* Remove (void) definition if variable is used */
  (void)received;

  /* Code to validate the token is what we expect */

  return 1;
}

static coap_response_t
response_handler(coap_context_t *ctx, coap_session_t *session,
coap_pdu_t *sent, coap_pdu_t *received, const coap_mid_t mid) {
  /* Remove (void) definition if variable is used */
  (void)ctx;
  (void)session;
  (void)mid;
  coap_pdu_type_t rcv_type = coap_pdu_get_type(received);
  coap_pdu_code_t rcv_code = coap_pdu_get_code(received);

  /* check if this is a response to our original request */
  if (!check_token(received)) {
    /* drop if this was just some message, or send RST in case of notification */
    if (!sent && (rcv_type == COAP_MESSAGE_CON ||
                  rcv_type == COAP_MESSAGE_NON)) {
      /* Cause a CoAP RST to be sent */
      return COAP_RESPONSE_FAIL;
    }
    return COAP_RESPONSE_OK;
  }

  if (rcv_type == COAP_MESSAGE_RST) {
    coap_log_info("got RST\n");
    return COAP_RESPONSE_OK;
  }

  /* Output the received data, if any */
  if (COAP_RESPONSE_CLASS(rcv_code) == 2) {
    /* Additional code to deal with the response */

  }
  return COAP_RESPONSE_OK;

}

FURTHER INFORMATION

See

"RFC7252: The Constrained Application Protocol (CoAP)"

for further information.

BUGS

Please report bugs on the mailing list for libcoap: libcoap-developers@lists.sourceforge.net or raise an issue on GitHub at https://github.com/obgm/libcoap/issues

AUTHORS

The libcoap project <libcoap-developers@lists.sourceforge.net>

coap_handler(3)