Doug Anson
BLE mbed Endpoint network stack for mbedConnectorInterface. The stack makes use of a special BLE Socket abstraction to create socket() semantics over BLE.
Dependencies: libnsdl_m0 BLE_API Base64 nRF51822 SplitterAssembler
NSDL/nsdl_support.cpp
- Committer:
- ansond
- Date:
- 2015-04-14
- Revision:
- 27:bfadf9e0bbff
- Parent:
- 26:6c1ee1a58f8e
File content as of revision 27:bfadf9e0bbff:
// NSDL library support functions
#include "mbed.h"
#include "nsdl_support.h"
#include "mbedConnectorInterface.h"
// we have to redefine DBG as its used differently here...
#ifdef DBG
#undef DBG
#endif
#define DBG std::printf
#include "UDPSocket.h"
#include "Endpoint.h"
#include "BLEDevice.h"
#define NSDL_BUFFER_LENGTH 1024
extern BLEDevice ble;
Endpoint nsp;
UDPSocket server;
Endpoint from;
uint8_t nsp_received_address[4];
char nsp_buffer[NSDL_BUFFER_LENGTH];
char null_endpoint_name[] = "";
char null_domain[] = "";
uint8_t null_ep_type[] = "";
uint8_t null_lifetime_ptr[] = "";
bool endpoint_registered = false;
void *nsdl_alloc(uint16_t size) {
void *chunk = NULL;
if (size > 0) chunk = malloc(size);
if (chunk != NULL && size > 0) memset(chunk,0,size);
return chunk;
}
void nsdl_free(void* ptr_to_free) {
if (ptr_to_free != NULL) free(ptr_to_free);
}
/*
* Create a static resoure
* Only get is allowed
*/
void nsdl_create_static_resource(sn_nsdl_resource_info_s *resource_structure, uint16_t pt_len, uint8_t *pt, uint16_t rpp_len, uint8_t *rpp_ptr, uint8_t *rsc, uint16_t rsc_len)
{
resource_structure->access = SN_GRS_GET_ALLOWED;
resource_structure->mode = SN_GRS_STATIC;
resource_structure->pathlen = pt_len;
resource_structure->path = pt;
resource_structure->resource_parameters_ptr->resource_type_len = rpp_len;
resource_structure->resource_parameters_ptr->resource_type_ptr = rpp_ptr;
resource_structure->resource = rsc;
resource_structure->resourcelen = rsc_len;
sn_nsdl_create_resource(resource_structure);
}
void nsdl_create_dynamic_resource(sn_nsdl_resource_info_s *resource_structure, uint16_t pt_len, uint8_t *pt, uint16_t rpp_len, uint8_t *rpp_ptr, uint8_t is_observable, sn_grs_dyn_res_callback_t callback_ptr, int access_right)
{
resource_structure->access = (sn_grs_resource_acl_e)access_right;
resource_structure->resource = 0;
resource_structure->resourcelen = 0;
resource_structure->sn_grs_dyn_res_callback = callback_ptr;
resource_structure->mode = SN_GRS_DYNAMIC;
resource_structure->pathlen = pt_len;
resource_structure->path = pt;
resource_structure->resource_parameters_ptr->resource_type_len = rpp_len;
resource_structure->resource_parameters_ptr->resource_type_ptr = rpp_ptr;
resource_structure->resource_parameters_ptr->observable = is_observable;
sn_nsdl_create_resource(resource_structure);
}
sn_nsdl_ep_parameters_s* nsdl_init_register_endpoint(sn_nsdl_ep_parameters_s *endpoint_structure, uint8_t *domain, uint8_t* name, uint8_t* typename_ptr, uint8_t *lifetime_ptr) {
if (endpoint_structure == NULL) {
endpoint_structure = (sn_nsdl_ep_parameters_s*)nsdl_alloc(sizeof(sn_nsdl_ep_parameters_s));
}
if (endpoint_structure != NULL) {
memset(endpoint_structure, 0, sizeof(sn_nsdl_ep_parameters_s));
endpoint_structure->endpoint_name_ptr = name;
endpoint_structure->endpoint_name_len = strlen((char*)name);
endpoint_structure->domain_name_ptr = domain;
endpoint_structure->domain_name_len = strlen((char *)domain);
endpoint_structure->type_ptr = typename_ptr;
endpoint_structure->type_len = strlen((char*)typename_ptr);
endpoint_structure->lifetime_ptr = lifetime_ptr;
endpoint_structure->lifetime_len = strlen((char*)lifetime_ptr);
}
return endpoint_structure;
}
void nsdl_clean_register_endpoint(sn_nsdl_ep_parameters_s **endpoint_structure) {
if (endpoint_structure != NULL) {
if (*endpoint_structure != NULL) {
nsdl_free(*endpoint_structure);
*endpoint_structure = NULL;
}
}
}
static uint8_t tx_cb(sn_nsdl_capab_e protocol, uint8_t *data_ptr, uint16_t data_len, sn_nsdl_addr_s *address_ptr) {
//DBG("NSP: tx_cb(): sending %d bytes...\r\n",data_len);
int sent = server.sendTo(nsp,(char*)data_ptr, data_len);
return 1;
}
static uint8_t rx_cb(sn_coap_hdr_s *coap_packet_ptr, sn_nsdl_addr_s *address_ptr) {
// Rx callback process it...
//DBG("NSP: rx_cb(): received data. processing...\r\n");
return 0;
}
void register_endpoint(bool init) {
sn_nsdl_ep_parameters_s *endpoint_ptr = NULL;
if (init) {
endpoint_ptr = nsdl_init_register_endpoint(endpoint_ptr, (uint8_t *)domain_name, (uint8_t*)endpoint_name, ep_type, lifetime_ptr);
if(sn_nsdl_register_endpoint(endpoint_ptr) != 0) {
DBG("NSP initial registration failed\r\n");
endpoint_registered = false;
}
else {
//DBG("NSP initial registration OK\r\n");
endpoint_registered = true;
}
}
else {
endpoint_ptr = nsdl_init_register_endpoint(endpoint_ptr, (uint8_t *)null_domain, (uint8_t*)null_endpoint_name, null_ep_type, null_lifetime_ptr);
if(sn_nsdl_update_registration(endpoint_ptr) != 0) {
//DBG("NSP re-registration failed\r\n");
endpoint_registered = false;
}
else {
//DBG("NSP re-registration OK\r\n");
endpoint_registered = true;
}
}
nsdl_clean_register_endpoint(&endpoint_ptr);
}
bool nsdl_endpoint_is_registered(void) {
return endpoint_registered;
}
// Simple Ticker-based re-registration updating...
void registration_update_tick(void) {
register_endpoint(!endpoint_registered);
}
void nsdl_init() {
sn_nsdl_mem_s memory_cbs;
// initilize the UDP channel
server.init();
server.bind(nsp_port);
/* Initialize libNsdl */
memset(&memory_cbs,0,sizeof(memory_cbs));
memory_cbs.sn_nsdl_alloc = &nsdl_alloc;
memory_cbs.sn_nsdl_free = &nsdl_free;
if(sn_nsdl_init(&tx_cb, &rx_cb, &memory_cbs) == -1) {
DBG("NSP: libNsdl init failed.\r\n");
}
else {
DBG("NSP: libNsdl init successful.\r\n");
}
}
void nsdl_set_nsp_address(void) {
char NSP_address_str[16];
/* Set nsp address for library */
sprintf(NSP_address_str,"%d.%d.%d.%d",NSP_address_bytes[0],NSP_address_bytes[1],NSP_address_bytes[2],NSP_address_bytes[3]);
DBG("NSP: libNsdl NSP_ADDRESS: %s port: %d\r\n",NSP_address_str,nsp_port);
set_NSP_address(NSP_address_bytes, nsp_port, SN_NSDL_ADDRESS_TYPE_IPV4);
nsp.set_address(NSP_address_str,nsp_port);
}
extern "C" volatile bool __registered;
// NSP event loop - spawn a re-registration thread AFTER we have initially registered and begun event processing...
void nsdl_event_loop() {
sn_nsdl_addr_s received_packet_address;
memset(&received_packet_address, 0, sizeof(sn_nsdl_addr_s));
memset(nsp_received_address, 0, sizeof(nsp_received_address));
received_packet_address.addr_ptr = nsp_received_address;
// re-registration update ticker...
Ticker ticker;
ticker.attach(registration_update_tick,NSP_TICKERUPDATE_PERIOD);
// FOREVER: main loop for event processing
while(true) {
// wait for BLE events...
ble.waitForEvent();
// only process if we are registered and thus connected... otherwise ignore
if (endpoint_registered == true) {
//DBG("NSP: waiting for data...\r\n");
memset(nsp_buffer,0,NSDL_BUFFER_LENGTH);
int n = server.receiveFrom(from,nsp_buffer,NSDL_BUFFER_LENGTH);
if (n > 0) {
//DBG("NSP: received %d bytes... processing..\r\n.",n);
sn_nsdl_process_coap((uint8_t*)nsp_buffer,n,&received_packet_address);
}
}
}
}