static smcp_status_t
smcp_outbound_add_options_up_to_key_(
coap_option_key_t key
) {
smcp_status_t ret = SMCP_STATUS_OK;
smcp_t const self = smcp_get_current_instance();
#if SMCP_CONF_TRANS_ENABLE_BLOCK2
if( (self->current_transaction
&& self->current_transaction->next_block2)
&& self->outbound.last_option_key<COAP_OPTION_BLOCK2
&& key>COAP_OPTION_BLOCK2
) {
uint32_t block2 = htonl(self->current_transaction->next_block2);
uint8_t size = 3; // TODO: calculate this properly
ret = smcp_outbound_add_option_(
COAP_OPTION_BLOCK2,
(char*)&block2+sizeof(block2)-size,
size
);
}
#endif
#if SMCP_CONF_TRANS_ENABLE_OBSERVING
if( (self->current_transaction && self->current_transaction->flags&SMCP_TRANSACTION_OBSERVE)
&& self->outbound.last_option_key<COAP_OPTION_OBSERVE
&& key>COAP_OPTION_OBSERVE
) {
if(self->outbound.packet->code && self->outbound.packet->code<COAP_RESULT_100) {
// For sending a request.
ret = smcp_outbound_add_option_(
COAP_OPTION_OBSERVE,
(void*)NULL,
0
);
}
}
#endif
if( self->outbound.last_option_key<COAP_OPTION_AUTHENTICATE
&& key>COAP_OPTION_AUTHENTICATE
) {
ret = smcp_auth_add_options();
}
#if SMCP_USE_CASCADE_COUNT
if( self->outbound.last_option_key<COAP_OPTION_CASCADE_COUNT
&& key>COAP_OPTION_CASCADE_COUNT
&& self->has_cascade_count
) {
ret = smcp_outbound_add_option_(
COAP_OPTION_CASCADE_COUNT,
(char*)&self->cascade_count,
1
);
}
#endif
return ret;
}
static smcp_status_t
smcp_outbound_add_options_up_to_key_(
coap_option_key_t key
) {
smcp_status_t ret = SMCP_STATUS_OK;
smcp_t const self = smcp_get_current_instance();
(void)self;
#if SMCP_CONF_TRANS_ENABLE_BLOCK2
if( (self->current_transaction
&& self->current_transaction->next_block2)
&& self->outbound.last_option_key<COAP_OPTION_BLOCK2
&& key>COAP_OPTION_BLOCK2
) {
uint32_t block2 = htonl(self->current_transaction->next_block2);
uint8_t size = smcp_calc_uint32_option_size(block2);
ret = smcp_outbound_add_option_(
COAP_OPTION_BLOCK2,
(char*)&block2+4-size,
size
);
}
#endif
#if SMCP_CONF_TRANS_ENABLE_OBSERVING
if( (self->current_transaction && self->current_transaction->flags&SMCP_TRANSACTION_OBSERVE)
&& self->outbound.last_option_key<COAP_OPTION_OBSERVE
&& key>COAP_OPTION_OBSERVE
) {
if(self->outbound.packet->code && self->outbound.packet->code<COAP_RESULT_100) {
// For sending a request.
ret = smcp_outbound_add_option_(
COAP_OPTION_OBSERVE,
(void*)NULL,
0
);
}
}
#endif
#if SMCP_USE_CASCADE_COUNT
if( self->outbound.last_option_key<COAP_OPTION_CASCADE_COUNT
&& key>COAP_OPTION_CASCADE_COUNT
&& self->cascade_count
) {
uint8_t cc = self->cascade_count-1;
ret = smcp_outbound_add_option_(
COAP_OPTION_CASCADE_COUNT,
(char*)&cc,
1
);
}
#endif
return ret;
}
smcp_status_t
smcp_outbound_add_option(
coap_option_key_t key, const char* value, size_t len
) {
smcp_status_t ret = 0;
ret = smcp_outbound_add_options_up_to_key_(key);
require_noerr(ret, bail);
#if SMCP_CONF_TRANS_ENABLE_BLOCK2
if(key==COAP_OPTION_BLOCK2
&& smcp_get_current_instance()->current_transaction
&& smcp_get_current_instance()->current_transaction->next_block2
) {
goto bail;
}
#endif
ret = smcp_outbound_add_option_(key,value,len);
require_noerr(ret, bail);
bail:
return ret;
}
