alan broad
arm studio build
src/wbit_util.cpp
- Committer:
- alan1974
- Date:
- 2020-02-22
- Revision:
- 26:f51ff4ad7a93
- Parent:
- 22:034c134f17c7
- Child:
- 31:4539c212ecaa
File content as of revision 26:f51ff4ad7a93:
#include "global.h"
#include "wbit_util.h"
#include "dot_util.h"
#include "commI2C.h"
#include "mbed.h"
#include "mDot.h"
extern Serial pc;
extern bool verbose;
uint8_t j_attempts = 0; //return number of attempts it took to join the network
//network keys
//these are used as backup keys in case nvm memory is corrupted and we can't read the keys correctly
uint8_t key_AppEUI[] = { 0x90, 0xF1, 0x47, 0x90, 0x6C, 0x48, 0x1D, 0x29 }; //AppEui
uint8_t key_AppKey[] = { 0x0F, 0xF9, 0xA2, 0x90, 0x2E, 0xAA, 0x6B, 0x8C, 0x6A, 0x4E, 0xFD, 0x67, 0xF9, 0xA6, 0xF3, 0xD3 }; ////OTAA appkey => loriot "Appkey" -> common to all nodes
//ADP keys: for xdot spoofer eui ---> need to be uploaded from proc, using EUI: #spoofer (EUI 00-80-00-00-04-00-FF-FF)
//static uint8_t network_address[] = {0x01,0x59,0xE2,0xC7};
//static uint8_t network_session_key[] = {0xBA, 0xEF, 0x4D, 0xA3, 0x66, 0xD1, 0x85, 0xDE, 0xB1, 0xCD, 0x79, 0x15, 0xC7, 0xEB, 0x72, 0x35};
//static uint8_t data_session_key[] = {0xF9,0x13,0x94,0x0D,0x12,0x95,0x96,0x5A,0xF4,0x34,0xBB,0xA9,0x8E,0x2A,0x83,0x10};
//============================================================================
// printRadioCfg
//============================================================================
void printRadioCfg(){
if(verbose){
pc.printf("\r\n************************************************************");
pc.printf("\r\n saved radio configuration: ");
pc.printf("\r\n public network: %d ",dot->getPublicNetwork());
pc.printf("\r\n subband: %d ",dot->getFrequencySubBand());
pc.printf("\n\r join delay %d ",dot->getJoinDelay());
pc.printf("\r\n ADR: %d ",dot->getAdr());
pc.printf("\r\n antenna gain: %d ",dot->getAntennaGain());
pc.printf("\r\n transmit max pwr: %d ",dot->getMaxTxPower()); //not saved in cfg
pc.printf("\r\n transmit min pwr: %d ",dot->getMinTxPower()); //not saved in cfg
pc.printf("\r\n transmit pwr: %d ",dot->getTxPower());
//deprecated API: pc.printf("\n\r tx inverted %d ",dot->getTxInverted());
//deprecated API: pc.printf("\n\r rx inverted %d ",dot->getRxInverted());
pc.printf("\n\r rx delay %d ",dot->getRxDelay());
pc.printf("\r\n TxDataRate: %d ",dot->getTxDataRate());
pc.printf("\r\n maxPktLen: %d ",dot->getMaxPacketLength()); //not saved in cfg
pc.printf("\r\n************************************************************\r\n");
}
}
//==============================================================================
//printNmvData
//==============================================================================
void printNmvData(nvm *pNvm){
uint8_t i;
if(verbose){
pc.printf("\r\n************************************************************");
pc.printf("\r\nnon-volatile memory (nvm):");
pc.printf("\r\nkey_AppEUI:");
for (i = 0; i < sizeof(key_AppEUI);i++)
pc.printf(" %x",pNvm->key_AppEUI[i]);
pc.printf("\r\nkey_AppKey:");
for (i = 0 ; i < sizeof(key_AppKey);i++)
pc.printf(" %x",pNvm->key_AppKey[i]);
pc.printf("\r\nbLogOutputOn: %d ",pNvm->bLogOutputOn);
pc.printf("\r\nstatic backup keys:");
pc.printf("\r\nkey_AppEUI:");
for (i = 0; i < sizeof(key_AppEUI);i++)
pc.printf(" %x",key_AppEUI[i]);
pc.printf("\r\nkey_AppKey:");
for (i = 0 ; i < sizeof(key_AppKey);i++)
pc.printf(" %x",key_AppKey[i]);
}
if(verbose)pc.printf("\r\n************************************************************\r\n");
}
//==============================================================================
//printNvmABPData --- OLD CODE
//==============================================================================
/*
void printNvmABPData(nvmABP *pNvmABP){
uint8_t i;
if(verbose){
pc.printf("\r\n************************************************************");
pc.printf("\r\nnon-volatile memory (nvm) for ABP credendtials:");
pc.printf("\r\nnetworkSessionKey:");
for (i = 0; i < 16;i++)
pc.printf(" %x",pNvmABP->key_nsk[i]);
pc.printf("\r\nappicationSessonKey");
for (i = 0; i < 16; i++)
pc.printf(" %x",pNvmABP->key_aps[i]);
pc.printf("\r\nDevAddr");
for (i = 0 ; i < 8; i++)
pc.printf(" %x",pNvmABP->devAdr[i]);
}
if(verbose)pc.printf("\r\n************************************************************\r\n");
}
*/
//==============================================================================
//getChkSum
//compute chksum
// *pData : pointer to byte data array
// len : len of byte data array
//==============================================================================
uint8_t getChkSum(uint8_t *pData,uint8_t len ){
uint8_t i;
uint8_t chksum= 0;
for (i = 0 ; i < len;i++)chksum += pData[i];
return chksum;
}
/*
//==============================================================================
//getNvmChkSum
//compute chksum for nvm data; don't include chksum byte in nvm struc
//==============================================================================
uint8_t getNvmChkSum(nvm *pNvm){
uint8_t i;
uint8_t chksum= 0;
uint8_t *pData = (uint8_t *)pNvm;
for (i = 0 ; i < sizeof(nvm)-1;i++)chksum += pData[i];
return chksum;
}
*/
//==============================================================================
//getNvmADPChkSum
//compute chksum for nvm data; don't include chksum byte in nvm struc
// TODO: COMBINE TWO CHKSUM PROCEDURES
//==============================================================================
/*
uint8_t getNvmABPChkSum(nvmABP *pNvmABP){
uint8_t i;
uint8_t chksum= 0;
uint8_t *pData = (uint8_t *)pNvmABP;
for (i = 0 ; i < sizeof(nvmABP)-1;i++)chksum += pData[i];
return chksum;
}
*/
//==============================================================================
//nvmWrite
//write nvmData struc to nvm memory
//==============================================================================
bool nvmWrite(nvm *pNvm){
//pNvm->chksum = getNvmChkSum(pNvm);
uint8_t len = sizeof(pNvm)-1; //doesn't include chksum byte
pNvm->chksum = getChkSum((uint8_t *)pNvm,len);
printNmvData(pNvm);
return dot->nvmWrite(NVM_ADDR_OTAA,pNvm,sizeof(nvm));
}
/*
//==============================================================================
//nvmWriteABP
//write nvmABPData struc to nvm memory TODO: WRITE PROCEDUREES
//==============================================================================
bool nvmWriteABP(nvmABP *pNvmABP){
// pNvmABP->chksum = getNvmABPChkSum(pNvmABP);
uint8_t len = sizeof(pNvmABP)-1; //doesn't include chksum byte
pNvmABP->chksum = getChkSum((uint8_t *)pNvmABP,len);
if(verbose)pc.printf("\r\n writing ABP creds to nvm:");
printNvmABPData(pNvmABP);
return dot->nvmWrite(NVM_ADDR_ABP,pNvmABP,sizeof(nvmABP));
}
*/
//==============================================================================
//nvmRestorekeys
//restore OTAA hard coded keys to nvm and also logdisplay enable/disable
//==============================================================================
bool nvmRestore(nvm *pNvm){
uint8_t i;
for (i = 0; i < sizeof(key_AppEUI);i++){
pNvm->key_AppEUI[i] = key_AppEUI[i];
}
for (i = 0; i < sizeof(key_AppKey);i++){
pNvm->key_AppKey[i] = key_AppKey[i];
}
uint8_t len = sizeof(pNvm)-1; //doesn't include chksum byte
pNvm->chksum = getChkSum((uint8_t *)pNvm,len);
//pNvm->chksum = getNvmChkSum(pNvm);
if(verbose)pc.printf("\r\n restoring OTAA backup keys:");
printNmvData(pNvm);
return dot->nvmWrite(NVM_ADDR_OTAA,pNvm,sizeof(nvm));
}
//==============================================================================
//nvmRead
//- read nvmData struc from nvm memory
//- if bad chksum then default to hard code network keys
//==============================================================================
bool nvmRead(nvm *pNvm){
dot->nvmRead(NVM_ADDR_OTAA,pNvm,sizeof(nvm));
uint8_t len = sizeof(pNvm)-1; //doesn't include chksum byte
uint8_t chksum = getChkSum((uint8_t *)pNvm,len);
//uint8_t chksum = getNvmChkSum(pNvm);
if (chksum == pNvm->chksum){
logInfo("nvmRead: nvm OTAA chksum ok");
return true;
}
return false;
}
//==============================================================================
//nvmReadABP ------------ OLD CODE
//- read nvmDataABP struc from nvm memory
//- if bad chksum then default to hard code network keys
//==============================================================================
/*
bool nvmReadABP(nvmABP *pNvmABP){
dot->nvmRead(NVM_ADDR_ABP,pNvmABP,sizeof(nvmABP));
//uint8_t chksum = getNvmABPChkSum(pNvmABP);
uint8_t len = sizeof(pNvmABP)-1; //doesn't include chksum byte
uint8_t chksum = getChkSum((uint8_t *)pNvmABP,len);
if (chksum == pNvmABP->chksum){
logInfo("nvmRead: ABP chksum ok");
return true;
}
return false;
}
*/
//============================================================================
uint8_t join_network_attempts_wbit() {
return j_attempts;
}
bool join_network_wbit(uint8_t nmbAttempts) {
j_attempts = 0;
int32_t ret = mDot::MDOT_ERROR;
// attempt to join the network
while (ret != mDot::MDOT_OK)
{
j_attempts++;
logInfo("attempt %d to join network",j_attempts);
ret = dot->joinNetwork();
if (ret == mDot::MDOT_OK) return true;
logError("failed to join network %d:%s", ret, mDot::getReturnCodeString(ret).c_str());
if (j_attempts >= nmbAttempts)
{
logInfo("attempts %d to join network exceeds specified attempts %d ",j_attempts,nmbAttempts);
return false;
}
// in some frequency bands we need to wait until another channel is available before transmitting again
uint32_t delay_s = (dot->getNextTxMs() / 1000) + 1;
if (delay_s < 2) {
logInfo("waiting %lu s until next free channel", delay_s);
wait(delay_s);
} else {
logInfo("sleeping %lu s until next free channel", delay_s);
dot->sleep(delay_s, mDot::RTC_ALARM, false);
}
}//while
return false;
}