Senet
Senet Packet API
Dependents: MTDOT-UDKDemo_Senet Senet NAMote mDot-IKS01A1 unh-hackathon-example ... more
senet_packet.cpp
- Committer:
- dkjendal
- Date:
- 2016-08-23
- Revision:
- 6:17e4e5f99d0c
- Parent:
- 4:7d43feca0e3d
File content as of revision 6:17e4e5f99d0c:
/*
* =====================================================================================
*
* Filename: senet_packet.cpp
*
* Description: Senet Packet Types implementation file
*
* Version: 1.0
* Created: 03/05/2016 04:23:40 PM
*
* Author: S. Nelson
* Company: Senet, Inc
*
* =====================================================================================
*/
#include "senet_packet.h"
#include <stdio.h>
#define ASSERT(_expr)
int32_t SenetPacket::
PacketHeader::serialize(uint8_t *frame, int32_t len)
{
int32_t serializedLen = -1;
if(len >= PacketHeader::HEADER_SIZE)
{
serializedLen = 0;
frame[serializedLen++] = version;
frame[serializedLen++] = type;
ASSERT(serializedLen == PacketHeader::HEADER_SIZE);
}
return serializedLen;
}
int32_t SenetPacket::
PacketHeader::deserialize(uint8_t *frame, int32_t len)
{
if((frame != NULL) && (len >= PacketHeader::HEADER_SIZE))
{
int32_t offset = 0;
version = frame[offset++];
type = frame[offset++];
ASSERT(offset == PacketHeader::HEADER_SIZE);
return PacketHeader::HEADER_SIZE;
}
return false;
}
SenetPacket::SenetPacket(uint8_t senetPktType, uint8_t *_buffer, uint8_t _buflen)
{
header.type = senetPktType;
header.version = VERSION;
pktLen = 0;
if(_buffer != NULL)
{
buffer = _buffer;
bufferLen = _buflen;
ownBuffer = false;
}
else
{
if(_buflen != 0)
bufferLen = _buflen;
else
bufferLen = MAX_FRAME_SIZE;
buffer = new uint8_t[bufferLen];
ASSERT(buffer != NULL);
ownBuffer = true;
}
memset(buffer, 0, bufferLen);
}
SenetPacket::~SenetPacket()
{
if(ownBuffer == true)
delete buffer;
}
int32_t SenetPacket::serialize()
{
pktLen = header.serialize(buffer, bufferLen);
ASSERT(pktLen > 0);
if(pktLen > 0)
{
int32_t payloadLen = serializePayload(buffer + pktLen, bufferLen - pktLen);
ASSERT(payloadLen > 0);
if(payloadLen > 0)
{
pktLen += payloadLen;
return pktLen;
}
}
return -1;
}
int32_t SenetPacket::deserialize(uint8_t *frame, int32_t len)
{
int32_t bytes = 0;
bytes = header.deserialize(frame, len);
if(bytes > 0)
{
int32_t payloadLen = deserializePayload(frame, len - bytes);
if(payloadLen > 0)
bytes += payloadLen;
else
bytes = payloadLen;
}
return bytes;
}
bool SensorPacket::addSensorValue(uint8_t position, uint8_t type, uint16_t value)
{
if (position < MAX_SENSOR_VALUES)
{
sensorValue[position].type = type;
sensorValue[position].value = value;
sensorValue[position].isSet = true;
return true;
}
else
return false;
}
int32_t SensorPacket::serializePayload(uint8_t *buffer, int32_t len)
{
int32_t bytes = 0;
int32_t dataLen = 0;
for(int32_t i = 0; i < MAX_SENSOR_VALUES; i++)
{
if(sensorValue[i].isSet == true)
{
dataLen = sensorValue[i].serialize(buffer+bytes, len - bytes);
if(dataLen == -1)
return -1;
bytes += dataLen;
}
}
return bytes;
}
int32_t SensorPacket::deserializePayload(uint8_t *frame, int32_t len)
{
int32_t num_sensors = 0;
for(int i = 0;i < MAX_SENSOR_VALUES;i++)
{
if(len < 3)
break;
sensorValue[i].type = frame[i*3+0];
sensorValue[i].value= (frame[i*3+1]<<8)|frame[i*3+2];
sensorValue[i].isSet= true;
len-=3;
num_sensors++;
}
return(num_sensors);
}
bool SelfIdPacket::setDeviceType(uint32_t model, uint8_t revision)
{
if((model & 0x00FFFFFF) != model)
return false;
deviceType = (model<<8)|revision;
return true;
}
bool SelfIdPacket::setSwVersion(uint8_t major, uint8_t minor, uint8_t point, uint16_t build, uint8_t developerId)
{
uint8_t _major = major & 0xf;
uint8_t _minor = minor & 0xf;
uint8_t _point = point & 0x3f;
uint16_t _build = build & 0x3ff;
uint8_t _devid = developerId & 0xff;
if((_major != major) || (_minor != minor) || (_point != point) || (_build != build) || (_devid != developerId))
return false;
swVersion = (_major << 28) | (_minor << 24) | (_point << 18) | (_build << 8) | _devid;
return true;
}
void SelfIdPacket::setBatteryFailState(bool failed)
{
if(failed == true)
powerMask |= 1 << 3;
else
powerMask &= ~(1 << 3);
}
bool SelfIdPacket::setBatteryLevel(uint8_t level)
{
uint8_t _level = level & 0x7;
if(level != _level)
return false;
powerMask &= 0xf8;
powerMask |= _level;
return true;
}
bool SelfIdPacket::setExtPowerSupplyState(uint8_t id, bool isPresent)
{
bool retVal = false;
if(id == EXT_POWER_SUPPLY_1)
{
powerMask &= 0x7F;
if(isPresent)
powerMask |= 0x80;
retVal = true;
}
else if(id == EXT_POWER_SUPPLY_2)
{
powerMask &= 0xBF;
if(isPresent)
powerMask |= 0x40;
retVal = true;
}
return retVal;
}
int32_t SelfIdPacket::serializePayload(uint8_t *frame, int32_t len)
{
int32_t out = -1;
if(SELFID_PAYLOAD_LEN <= len)
{
frame[0] = (deviceType>>24) & 0xff;
frame[1] = (deviceType>>16) & 0xff;
frame[2] = (deviceType>>8) & 0xff;
frame[3] = deviceType & 0xff;
frame[4] = (swVersion >> 24) & 0xff;
frame[5] = (swVersion >> 16) & 0xff;
frame[6] = (swVersion >> 8) & 0xff;
frame[7] = swVersion & 0xff;
frame[8] = powerMask;
out = SELFID_PAYLOAD_LEN;
}
return out;
}
int32_t ConfigWordPacket::serializePayload(uint8_t *frame, int32_t len)
{
int32_t out = -1;
if(CONTROL_PAYLOAD_LENGTH <= len)
{
frame[0] = (config>>24) & 0xff;
frame[1] = (config>>16) & 0xff;
frame[2] = (config>>8) & 0xff;
frame[3] = config & 0xff;
frame[4] = (mask>>24) & 0xff;
frame[5] = (mask>>16) & 0xff;
frame[6] = (mask>>8) & 0xff;
frame[7] = mask & 0xff;
frame[8] = authKey;
out = CONTROL_PAYLOAD_LENGTH;
}
return out;
}
int32_t ConfigWordPacket::deserializePayload(uint8_t *frame, int32_t len)
{
if(CONTROL_PAYLOAD_LENGTH <= len)
{
int32_t offset = 0;
config = frame[offset++]<<24;
config |= frame[offset++]<<16;
config |= frame[offset++]<<8;
config |= frame[offset++];
mask = frame[offset++]<<24;
mask |= frame[offset++]<<16;
mask |= frame[offset++]<<8;
mask |= frame[offset++];
authKey = frame[offset++];
return offset;
}
return -1;
}
int32_t BootInfoPacket::serializePayload(uint8_t *frame, int32_t len)
{
int32_t out = -1;
if(BOOT_PAYLOAD_LENGTH <= len)
{
frame[0] = (bootCount>>8) & 0xff;
frame[1] = bootCount & 0xff;
frame[2] = (resetCount>>8) & 0xff;
frame[3] = resetCount & 0xff;
frame[4] = (lastBootReason>>24) & 0xff;
frame[5] = (lastBootReason>>16) & 0xff;
frame[6] = (lastBootReason>>8) & 0xff;
frame[7] = lastBootReason & 0xff;
frame[8] = authKey;
out = BOOT_PAYLOAD_LENGTH;
}
return out;
}
int32_t BootInfoPacket::deserializePayload(uint8_t *frame, int32_t len)
{
if(BOOT_PAYLOAD_LENGTH <= len)
{
int32_t offset = 0;
bootCount = frame[offset++]<<8;
bootCount |= frame[offset++];
resetCount = frame[offset++]<<8;
resetCount |= frame[offset++];
lastBootReason = frame[offset++] << 24;
lastBootReason |= frame[offset++] << 16;
lastBootReason |= frame[offset++] << 8;
lastBootReason |= frame[offset++];
authKey = frame[offset++];
return offset;
}
return -1;
}
bool GpsPacket::setCoordinates(int32_t _latitude, int32_t _longitude, uint16_t _elevation)
{
latitude = _latitude;
longitude = _longitude;
elevation = _elevation;
return true;
}
int32_t GpsPacket::serializePayload(uint8_t *frame, int32_t len)
{
int32_t out = -1;
if(GPS_PAYLOAD_LENGTH <= len)
{
frame[0] = (latitude>>16) & 0xff;
frame[1] = (latitude>>8) & 0xff;
frame[2] = latitude & 0xff;
frame[3] = (longitude>>16) & 0xff;
frame[4] = (longitude>>8) & 0xff;
frame[5] = longitude & 0xff;
frame[6] = (elevation>>8) & 0xff;
frame[7] = elevation & 0xff;
frame[8] = txPower;
out = GPS_PAYLOAD_LENGTH;
}
return out;
}
int32_t RFDataPacket::serializePayload(uint8_t *frame, int32_t len)
{
int32_t out = -1;
if(RFDATA_PAYLOAD_LEN <= len)
{
frame[0] = channel;
frame[1] = txpower;
frame[2] = datarate;
frame[3] = snr;
frame[4] = (rssi >>8) & 0xff;
frame[5] = rssi & 0xff;
frame[6] = (timestamp >> 16) & 0xff;
frame[7] = (timestamp >> 8) & 0xff;
frame[8] = timestamp & 0xff;
out = RFDATA_PAYLOAD_LEN;
}
return out;
}
OctetStringPacket::OctetStringPacket(uint8_t size) :
SenetPacket(OCTET_STRING_PACKET, NULL, size + SenetPacket::PacketHeader::HEADER_SIZE)
{
max = size;
oslen = 0;
}
bool OctetStringPacket::setOctetString(uint8_t *os, uint8_t len)
{
if(len > max)
return false;
oslen = len;
memcpy(buffer+PacketHeader::HEADER_SIZE, os, oslen);
return true;
}
int32_t OctetStringPacket::serializePayload(uint8_t *frame, int32_t len)
{
int32_t out = -1;
if(oslen >= len)
{
memcpy(frame, buffer + PacketHeader::HEADER_SIZE, oslen);
out = oslen;
}
return out;
}
