void bbk_init(){
// prepare the resource descriptor for the /bbk path
bbk_vars.desc.path0len = sizeof(bbk_path0)-1;
bbk_vars.desc.path0val = (uint8_t*)(&bbk_path0);
bbk_vars.desc.path1len = 0;
bbk_vars.desc.path1val = NULL;
bbk_vars.desc.componentID = 0xcc; //just a number
bbk_vars.desc.callbackRx = &bbk_receive;
bbk_vars.desc.callbackSendDone = &bbk_sendDone;
opencoap_register(&bbk_vars.desc);
bbk_vars.timerId = opentimers_start(BBKPERIOD,
TIMER_PERIODIC,TIME_MS,
bbk_timer_cb);
bbk_vars.sequence = 0;
}
void cexample_init() {
// prepare the resource descriptor for the /ex path
cexample_vars.desc.path0len = sizeof(cexample_path0)-1;
cexample_vars.desc.path0val = (uint8_t*)(&cexample_path0);
cexample_vars.desc.path1len = 0;
cexample_vars.desc.path1val = NULL;
cexample_vars.desc.componentID = COMPONENT_CEXAMPLE;
cexample_vars.desc.callbackRx = &cexample_receive;
cexample_vars.desc.callbackSendDone = &cexample_sendDone;
opencoap_register(&cexample_vars.desc);
cexample_vars.timerId = opentimers_start(CEXAMPLEPERIOD,
TIMER_PERIODIC,TIME_MS,
cexample_timer_cb);
}
void rex_init() {
// prepare the resource descriptor for the /rex path
rex_vars.desc.path0len = sizeof(rex_path0)-1;
rex_vars.desc.path0val = (uint8_t*)(&rex_path0);
rex_vars.desc.path1len = 0;
rex_vars.desc.path1val = NULL;
rex_vars.desc.componentID = COMPONENT_REX;
rex_vars.desc.callbackRx = &rex_receive;
rex_vars.desc.callbackSendDone = &rex_sendDone;
opencoap_register(&rex_vars.desc);
rex_vars.timerId = opentimers_start(REXPERIOD,
TIMER_PERIODIC,TIME_MS,
rex_timer_cb);
}
void rheli_init() {
// initialize the heli drivers
heli_init();
// prepare the resource descriptor
rheli_vars.desc.path0len = sizeof(rheli_path0)-1;
rheli_vars.desc.path0val = (uint8_t*)(&rheli_path0);
rheli_vars.desc.path1len = 0;
rheli_vars.desc.path1val = NULL;
rheli_vars.desc.componentID = COMPONENT_RHELI;
rheli_vars.desc.callbackRx = &rheli_receive;
rheli_vars.desc.callbackSendDone = &rheli_sendDone;
opencoap_register(&rheli_vars.desc);
rheli_vars.timerId = opentimers_start(1000,
TIMER_PERIODIC,TIME_MS,
rheli_timer);
}
void rreg_init() {
// prepare the resource descriptor for the /.well-known/core path
rreg_vars.desc.path0len = sizeof(rreg_path0)-1;
rreg_vars.desc.path0val = (uint8_t*)(&rreg_path0);
rreg_vars.desc.path1len = 0;
rreg_vars.desc.path1val = NULL;
rreg_vars.desc.componentID = COMPONENT_RREG;
rreg_vars.desc.callbackRx = &rreg_receive;
rreg_vars.desc.callbackSendDone = &rreg_sendDone;
opencoap_register(&rreg_vars.desc);
// register to the RD server every 30s
rreg_vars.timerId = opentimers_start(RREGPERIOD,
TIMER_PERIODIC,TIME_MS,
rreg_timer);
}
owerror_t openserial_printCritical(uint8_t calling_component, uint8_t error_code,
errorparameter_t arg1,
errorparameter_t arg2) {
// blink error LED, this is serious
leds_error_blink();
// schedule for the mote to reboot in 10s
opentimers_start(10000,
TIMER_ONESHOT,TIME_MS,
board_reset);
return openserial_printInfoErrorCritical(
SERFRAME_MOTE2PC_CRITICAL,
calling_component,
error_code,
arg1,
arg2
);
}
void update(debugNeighborEntry_t* entry, uint8_t ind, char act)
{
table_update_vars.desc.path0len = sizeof(table_update_path0)-1;
table_update_vars.desc.path0val = (uint8_t*)(&table_update_path0);
table_update_vars.desc.path1len = 0;
table_update_vars.desc.path1val = NULL;
table_update_vars.desc.componentID = COMPONENT_TABLE_UPDATE;
table_update_vars.desc.callbackRx = &table_update_receive;
table_update_vars.desc.callbackSendDone = &table_update_sendDone;
opencoap_register(&table_update_vars.desc);
i = ind;
action = act;
tableEntry = entry;
//scheduler_push_task(table_update_task_cb,TASKPRIO_COAP);
table_update_vars.timerId = opentimers_start(WAITPERIOD,
TIMER_ONESHOT,TIME_MS,
table_update_timer_cb);
}
void rt_init() {
// startup the sensor
sensitive_accel_temperature_init();
// prepare the resource descriptor for the /temp path
rt_vars.desc.path0len = sizeof(rt_path0)-1;
rt_vars.desc.path0val = (uint8_t*)(&rt_path0);
rt_vars.desc.path1len = 0;
rt_vars.desc.path1val = NULL;
rt_vars.desc.componentID = COMPONENT_RT;
rt_vars.desc.callbackRx = &rt_receive;
rt_vars.desc.callbackSendDone = &rt_sendDone;
rt_vars.timerId = opentimers_start(openrandom_get16b()%RTPERIOD,
TIMER_PERIODIC,TIME_MS,
rt_timer);
opencoap_register(&rt_vars.desc);
}
/**
\brief Initialize this module.
*/
void icmpv6rpl_init() {
//===== reset local variables
memset(&icmpv6rpl_vars,0,sizeof(icmpv6rpl_vars_t));
//=== admin
icmpv6rpl_vars.busySending = FALSE;
icmpv6rpl_vars.DODAGIDFlagSet = 0;
//=== DIO-related
icmpv6rpl_vars.dio.rplinstanceId = 0x00; ///< TODO: put correct value
icmpv6rpl_vars.dio.verNumb = 0x00; ///< TODO: put correct value
// rank: to be populated upon TX
icmpv6rpl_vars.dio.rplOptions = MOP_DIO_A | \
MOP_DIO_B | \
MOP_DIO_C | \
PRF_DIO_A | \
PRF_DIO_B | \
PRF_DIO_C | \
G_DIO ;
icmpv6rpl_vars.dio.DTSN = 0x33; ///< TODO: put correct value
icmpv6rpl_vars.dio.flags = 0x00;
icmpv6rpl_vars.dio.reserved = 0x00;
// DODAGID: to be populated upon receiving DIO
icmpv6rpl_vars.dioDestination.type = ADDR_128B;
memcpy(&icmpv6rpl_vars.dioDestination.addr_128b[0],all_routers_multicast,sizeof(all_routers_multicast));
icmpv6rpl_vars.periodDIO = TIMER_DIO_TIMEOUT+(openrandom_get16b()&0xff);
icmpv6rpl_vars.timerIdDIO = opentimers_start(
icmpv6rpl_vars.periodDIO,
TIMER_PERIODIC,
TIME_MS,
icmpv6rpl_timer_DIO_cb
);
//=== DAO-related
icmpv6rpl_vars.dao.rplinstanceId = 0x00; ///< TODO: put correct value
icmpv6rpl_vars.dao.K_D_flags = FLAG_DAO_A | \
FLAG_DAO_B | \
FLAG_DAO_C | \
FLAG_DAO_D | \
FLAG_DAO_E | \
PRF_DIO_C | \
FLAG_DAO_F | \
D_DAO |
K_DAO;
icmpv6rpl_vars.dao.reserved = 0x00;
icmpv6rpl_vars.dao.DAOSequence = 0x00;
// DODAGID: to be populated upon receiving DIO
icmpv6rpl_vars.dao_transit.type = OPTION_TRANSIT_INFORMATION_TYPE;
// optionLength: to be populated upon TX
icmpv6rpl_vars.dao_transit.E_flags = E_DAO_Transit_Info;
icmpv6rpl_vars.dao_transit.PathControl = PC1_A_DAO_Transit_Info | \
PC1_B_DAO_Transit_Info | \
PC2_A_DAO_Transit_Info | \
PC2_B_DAO_Transit_Info | \
PC3_A_DAO_Transit_Info | \
PC3_B_DAO_Transit_Info | \
PC4_A_DAO_Transit_Info | \
PC4_B_DAO_Transit_Info;
icmpv6rpl_vars.dao_transit.PathSequence = 0x00; // to be incremented at each TX
icmpv6rpl_vars.dao_transit.PathLifetime = 0xAA;
//target information
icmpv6rpl_vars.dao_target.type = OPTION_TARGET_INFORMATION_TYPE;
icmpv6rpl_vars.dao_target.optionLength = 0;
icmpv6rpl_vars.dao_target.flags = 0;
icmpv6rpl_vars.dao_target.prefixLength = 0;
icmpv6rpl_vars.periodDAO = TIMER_DAO_TIMEOUT+(openrandom_get16b()&0xff);
icmpv6rpl_vars.timerIdDAO = opentimers_start(
icmpv6rpl_vars.periodDAO,
TIMER_PERIODIC,
TIME_MS,
icmpv6rpl_timer_DAO_cb
);
}
void udprand_init() {
udprand_vars.timerId = opentimers_start(openrandom_get16b()%UDPRANDPERIOD,
TIMER_PERIODIC,TIME_MS,
udprand_timer);
}
owerror_t osens_val_receive(
OpenQueueEntry_t* msg,
coap_header_iht* coap_header,
coap_option_iht* coap_options
) {
owerror_t outcome = E_FAIL;
uint8_t n;
static uint8_t buf[128];
uint8_t *pbuf = &buf[0];
uint8_t index;
switch (coap_header->Code) {
case COAP_CODE_REQ_GET:
// reset packet payload
msg->payload = &(msg->packet[127]);
msg->length = 0;
// /s
if (((coap_options[1].length == 0) && (coap_options[1].type == COAP_OPTION_NUM_URIPATH)) ||
(coap_options[1].type != COAP_OPTION_NUM_URIPATH))
{
} // /s/1 or /s/12
else if(((coap_options[1].length == 1 || coap_options[1].length == 2)) &&
(coap_options[1].type == COAP_OPTION_NUM_URIPATH))
{
osens_point_t pt;
#if (MYLINKXS_LIGHT_CONTROL == 0)
if(coap_options[1].length == 2)
index = (coap_options[1].pValue[0] - 0x30) * 10 + (coap_options[1].pValue[1] - 0x30);
else
index = coap_options[1].pValue[0] - 0x30;
if(osens_get_point(index,&pt))
{
pbuf = insert_str(pbuf,(uint8_t*)"{\"v\":",5,0);
pbuf = insert_point_val(pbuf,&pt);
pbuf = insert_str(pbuf,(uint8_t*)"}",1,0);
#if (ENABLE_DEBUG_RFF == 1) && (DBG_APP_1 == 1)
uint8_t pos=0;
uint8_t *paux;
rffbuf[pos++]= 0x85;
rffbuf[pos++]= index;
paux = (uint8_t*) &pt.value.fp32;
rffbuf[pos++]= *paux++;
rffbuf[pos++]= *paux++;
rffbuf[pos++]= *paux++;
rffbuf[pos++]= *paux++;
paux = (uint8_t*) &pbuf[0];
rffbuf[pos++]= *paux++;
rffbuf[pos++]= *paux++;
rffbuf[pos++]= *paux++;
rffbuf[pos++]= *paux++;
openserial_printStatus(STATUS_RFF,(uint8_t*)&rffbuf,pos);
#endif
}
else
pbuf = insert_str(pbuf,(uint8_t*)"{}",2,0);
#else
//QUANDO TRABALHANDO COM A LAMPADA ESTAVA ESTE OUTRO CODIGO
//TODO!!! DEIXAR O CODIGO UNICO
pt.type = OSENS_DT_U8;
pt.value.u8 = light_get_value();
pbuf = insert_str(pbuf,(uint8_t*)"{\"v\":",5,0);
pbuf = insert_point_val(pbuf,&pt);
pbuf = insert_str(pbuf,(uint8_t*)"}",1,0);
#endif
outcome = E_SUCCESS;
}
if(outcome == E_SUCCESS)
{
n = ((uint32_t)pbuf - (uint32_t)buf);
packetfunctions_reserveHeaderSize(msg, 1 + n);
msg->payload[0] = COAP_PAYLOAD_MARKER;
memcpy(&msg->payload[1], buf, n);
coap_header->Code = COAP_CODE_RESP_CONTENT;
}
break;
case COAP_CODE_REQ_PUT:
// reset packet payload
msg->payload = &(msg->packet[127]);
msg->length = 0;
#if (DEBUG_LOG_RIT == 1)
{
uint8_t pos=0;
rffbuf[pos++]= RFF_COMPONENT_STORMCOAP_TX;
rffbuf[pos++]= 0x01;
rffbuf[pos++]= coap_options[1].length;
rffbuf[pos++]= coap_options[2].length;
rffbuf[pos++]= coap_options[1].type;
rffbuf[pos++]= coap_options[2].type;
//rffbuf[pos++]= sensor_points.points[0].value.value.u8;
openserial_printStatus(STATUS_RFF,(uint8_t*)&rffbuf,pos);
}
#endif
// /s/2/-12.45 or /s/12/12.45
if((coap_options[1].length == 1 || coap_options[1].length == 2) &&
(coap_options[2].length > 0) &&
(coap_options[1].type == COAP_OPTION_NUM_URIPATH) &&
(coap_options[2].type == COAP_OPTION_NUM_URIPATH))
{
#if 0
uint8_t index;
double number;
osens_point_t pt;
if(coap_options[1].length == 2)
index = (coap_options[1].pValue[0] - 0x30) * 10 + (coap_options[1].pValue[1] - 0x30);
else
index = coap_options[1].pValue[0] - 0x30;
number = decode_number(coap_options[2].pValue,coap_options[2].length);
pt.type = osens_get_ptype(index);
if(pt.type >= 0)
{
set_point_val(&pt,number);
if(osens_set_pvalue(index,&pt))
{
// set the CoAP header
coap_header->Code = COAP_CODE_RESP_CHANGED;
outcome = E_SUCCESS;
}
}
#else
// switch on the light pulse (50 ms)
light_on();
opentimers_start(1000,TIMER_ONESHOT,TIME_MS,light_timer);
#endif
}
break;
default:
outcome = E_FAIL;
break;
}
return outcome;
}
/**
\brief Initialize this module.
*/
void icmpv6rpl_init() {
uint8_t dodagid[16];
uint32_t dioPeriod;
uint32_t daoPeriod;
// retrieve my prefix and EUI64
memcpy(&dodagid[0],idmanager_getMyID(ADDR_PREFIX)->prefix,8); // prefix
memcpy(&dodagid[8],idmanager_getMyID(ADDR_64B)->addr_64b,8); // eui64
//===== reset local variables
memset(&icmpv6rpl_vars,0,sizeof(icmpv6rpl_vars_t));
//=== admin
icmpv6rpl_vars.busySending = FALSE;
icmpv6rpl_vars.fDodagidWritten = 0;
//=== DIO
icmpv6rpl_vars.dio.rplinstanceId = 0x00; ///< TODO: put correct value
icmpv6rpl_vars.dio.verNumb = 0x00; ///< TODO: put correct value
// rank: to be populated upon TX
icmpv6rpl_vars.dio.rplOptions = MOP_DIO_A | \
MOP_DIO_B | \
MOP_DIO_C | \
PRF_DIO_A | \
PRF_DIO_B | \
PRF_DIO_C | \
G_DIO ;
icmpv6rpl_vars.dio.DTSN = 0x33; ///< TODO: put correct value
icmpv6rpl_vars.dio.flags = 0x00;
icmpv6rpl_vars.dio.reserved = 0x00;
memcpy(
&(icmpv6rpl_vars.dio.DODAGID[0]),
dodagid,
sizeof(icmpv6rpl_vars.dio.DODAGID)
); // can be replaced later
icmpv6rpl_vars.dioDestination.type = ADDR_128B;
memcpy(&icmpv6rpl_vars.dioDestination.addr_128b[0],all_routers_multicast,sizeof(all_routers_multicast));
icmpv6rpl_vars.dioPeriod = TIMER_DIO_TIMEOUT;
dioPeriod = icmpv6rpl_vars.dioPeriod - 0x80 + (openrandom_get16b()&0xff);
icmpv6rpl_vars.timerIdDIO = opentimers_start(
dioPeriod,
TIMER_PERIODIC,
TIME_MS,
icmpv6rpl_timer_DIO_cb
);
//=== DAO
icmpv6rpl_vars.dao.rplinstanceId = 0x00; ///< TODO: put correct value
icmpv6rpl_vars.dao.K_D_flags = FLAG_DAO_A | \
FLAG_DAO_B | \
FLAG_DAO_C | \
FLAG_DAO_D | \
FLAG_DAO_E | \
PRF_DIO_C | \
FLAG_DAO_F | \
D_DAO |
K_DAO;
icmpv6rpl_vars.dao.reserved = 0x00;
icmpv6rpl_vars.dao.DAOSequence = 0x00;
memcpy(
&(icmpv6rpl_vars.dao.DODAGID[0]),
dodagid,
sizeof(icmpv6rpl_vars.dao.DODAGID)
); // can be replaced later
icmpv6rpl_vars.dao_transit.type = OPTION_TRANSIT_INFORMATION_TYPE;
// optionLength: to be populated upon TX
icmpv6rpl_vars.dao_transit.E_flags = E_DAO_Transit_Info;
icmpv6rpl_vars.dao_transit.PathControl = PC1_A_DAO_Transit_Info | \
PC1_B_DAO_Transit_Info | \
PC2_A_DAO_Transit_Info | \
PC2_B_DAO_Transit_Info | \
PC3_A_DAO_Transit_Info | \
PC3_B_DAO_Transit_Info | \
PC4_A_DAO_Transit_Info | \
PC4_B_DAO_Transit_Info;
icmpv6rpl_vars.dao_transit.PathSequence = 0x00; // to be incremented at each TX
icmpv6rpl_vars.dao_transit.PathLifetime = 0xAA;
//target information
icmpv6rpl_vars.dao_target.type = OPTION_TARGET_INFORMATION_TYPE;
icmpv6rpl_vars.dao_target.optionLength = 0;
icmpv6rpl_vars.dao_target.flags = 0;
icmpv6rpl_vars.dao_target.prefixLength = 0;
icmpv6rpl_vars.daoPeriod = TIMER_DAO_TIMEOUT;
daoPeriod = icmpv6rpl_vars.daoPeriod - 0x80 + (openrandom_get16b()&0xff);
icmpv6rpl_vars.timerIdDAO = opentimers_start(
daoPeriod,
TIMER_PERIODIC,
TIME_MS,
icmpv6rpl_timer_DAO_cb
);
}
void mpls_init(){
mpls_vars.refreshperiod = 60000; // fires every 10 s on average
mpls_vars.busySending = FALSE;
mpls_vars.timerId = opentimers_start(mpls_vars.refreshperiod,TIMER_PERIODIC,TIME_MS, mpls_timer_cb);
}
