NTPClient/NTPClient.cpp

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/**
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* The MIT License (MIT)
* Copyright (c) 2015 by Fabrice Weinberg
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include "NTPClient.h"
NTPClient::NTPClient(UDP& udp) {
this->_udp = &udp;
}
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NTPClient::NTPClient(UDP& udp, long timeOffset) {
this->_udp = &udp;
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this->_timeOffset = timeOffset;
}
NTPClient::NTPClient(UDP& udp, const char* poolServerName) {
this->_udp = &udp;
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this->_poolServerName = poolServerName;
}
NTPClient::NTPClient(UDP& udp, IPAddress poolServerIP) {
this->_udp = &udp;
this->_poolServerIP = poolServerIP;
this->_poolServerName = NULL;
}
NTPClient::NTPClient(UDP& udp, const char* poolServerName, long timeOffset) {
this->_udp = &udp;
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this->_timeOffset = timeOffset;
this->_poolServerName = poolServerName;
}
NTPClient::NTPClient(UDP& udp, IPAddress poolServerIP, long timeOffset){
this->_udp = &udp;
this->_timeOffset = timeOffset;
this->_poolServerIP = poolServerIP;
this->_poolServerName = NULL;
}
NTPClient::NTPClient(UDP& udp, const char* poolServerName, long timeOffset, unsigned long updateInterval) {
this->_udp = &udp;
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this->_timeOffset = timeOffset;
this->_poolServerName = poolServerName;
this->_updateInterval = updateInterval;
}
NTPClient::NTPClient(UDP& udp, IPAddress poolServerIP, long timeOffset, unsigned long updateInterval) {
this->_udp = &udp;
this->_timeOffset = timeOffset;
this->_poolServerIP = poolServerIP;
this->_poolServerName = NULL;
this->_updateInterval = updateInterval;
}
void NTPClient::begin() {
this->begin(NTP_DEFAULT_LOCAL_PORT);
}
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void NTPClient::begin(unsigned int port) {
this->_port = port;
this->_state = State::uninitialized;
}
bool NTPClient::update() {
switch (this->_state) {
case State::uninitialized:
this->_udp->begin(this->_port);
this->_state = State::idle;
// fall through -- we're all initialized now
case State::idle:
if ((millis() - this->_lastUpdate < this->_updateInterval) // Update after _updateInterval
&& this->_lastUpdate != 0) // Update if there was no update yet.
return false;
this->_state = State::send_request;
// fall through -- ready to send request now
case State::send_request:
#ifdef DEBUG_NTPClient
Serial.println(F("Sending NTP request"));
#endif
// flush any existing packets
while(this->_udp->parsePacket() != 0)
this->_udp->flush();
this->sendNTPPacket();
this->_lastRequest = millis();
this->_state = State::wait_response;
// fall through -- if we're lucky we may already receive a response
case State::wait_response:
if (!this->_udp->parsePacket()) {
// no reply yet
if (millis() - this->_lastRequest >= 1000) {
// time out
#ifdef DEBUG_NTPClient
Serial.println(F("NTP reply timeout"));
#endif
this->_state = State::idle;
}
return false;
}
#ifdef DEBUG_NTPClient
Serial.println(F("NTP reply received"));
#endif
// got a reply!
this->_lastUpdate = this->_lastRequest;
this->_udp->read(this->_packetBuffer, NTP_PACKET_SIZE);
{
unsigned long highWord = word(this->_packetBuffer[40], this->_packetBuffer[41]);
unsigned long lowWord = word(this->_packetBuffer[42], this->_packetBuffer[43]);
// combine the four bytes (two words) into a long integer
// this is NTP time (seconds since Jan 1 1900):
unsigned long secsSince1900 = highWord << 16 | lowWord;
this->_currentEpoc = secsSince1900 - SEVENZYYEARS;
}
return true; // return true after successful update
default:
this->_state = State::uninitialized;
}
return false;
}
bool NTPClient::forceUpdate() {
// In contrast to NTPClient::update(), this function always sends a NTP
// request and only returns when the whole operation completes (no matter
// if it's a success or a failure because of a timeout). In other words
// this function is fully synchronous. It will block until the whole
// NTP operation completes.
//
// We could only make this function switch the state to State::send_request
// to ensure a NTP request would happen with the next call to
// NTPClient::update(). However, this would be an API change, users could
// expect synchronous behaviour and even skip the calls to NTPClient::update()
// completely relying only on this function for time updates.
// ensure we're initialized
if (this->_state == State::uninitialized) {
this->_udp->begin(this->_port);
}
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// At this point we can be in any state except for State::uninitialized.
// Let's ignore that and switch right to State::send_request to send a
// fresh NTP request.
this->_state = State::send_request;
while (true) {
if (this->update()) {
// time updated
return true;
} else if (this->_state != State::idle) {
// still waiting for response
delay(10);
} else {
// failure
return false;
}
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}
}
bool NTPClient::isTimeSet() const {
return (this->_lastUpdate != 0); // returns true if the time has been set, else false
}
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unsigned long NTPClient::getEpochTime() const {
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return this->_timeOffset + // User offset
this->_currentEpoc + // Epoch returned by the NTP server
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((millis() - this->_lastUpdate) / 1000); // Time since last update
}
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int NTPClient::getDay() const {
return (((this->getEpochTime() / 86400L) + 4 ) % 7); //0 is Sunday
}
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int NTPClient::getHours() const {
return ((this->getEpochTime() % 86400L) / 3600);
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}
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int NTPClient::getMinutes() const {
return ((this->getEpochTime() % 3600) / 60);
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}
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int NTPClient::getSeconds() const {
return (this->getEpochTime() % 60);
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}
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String NTPClient::getFormattedTime() const {
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unsigned long rawTime = this->getEpochTime();
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unsigned long hours = (rawTime % 86400L) / 3600;
String hoursStr = hours < 10 ? "0" + String(hours) : String(hours);
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unsigned long minutes = (rawTime % 3600) / 60;
String minuteStr = minutes < 10 ? "0" + String(minutes) : String(minutes);
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unsigned long seconds = rawTime % 60;
String secondStr = seconds < 10 ? "0" + String(seconds) : String(seconds);
return hoursStr + ":" + minuteStr + ":" + secondStr;
}
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void NTPClient::end() {
this->_udp->stop();
this->_state = State::uninitialized;
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}
void NTPClient::setTimeOffset(int timeOffset) {
this->_timeOffset = timeOffset;
}
void NTPClient::setUpdateInterval(unsigned long updateInterval) {
this->_updateInterval = updateInterval;
}
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void NTPClient::setPoolServerName(const char* poolServerName) {
this->_poolServerName = poolServerName;
}
void NTPClient::sendNTPPacket() {
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// set all bytes in the buffer to 0
memset(this->_packetBuffer, 0, NTP_PACKET_SIZE);
// Initialize values needed to form NTP request
this->_packetBuffer[0] = 0b11100011; // LI, Version, Mode
this->_packetBuffer[1] = 0; // Stratum, or type of clock
this->_packetBuffer[2] = 6; // Polling Interval
this->_packetBuffer[3] = 0xEC; // Peer Clock Precision
// 8 bytes of zero for Root Delay & Root Dispersion
this->_packetBuffer[12] = 49;
this->_packetBuffer[13] = 0x4E;
this->_packetBuffer[14] = 49;
this->_packetBuffer[15] = 52;
// all NTP fields have been given values, now
// you can send a packet requesting a timestamp:
if (this->_poolServerName) {
this->_udp->beginPacket(this->_poolServerName, 123);
} else {
this->_udp->beginPacket(this->_poolServerIP, 123);
}
this->_udp->write(this->_packetBuffer, NTP_PACKET_SIZE);
this->_udp->endPacket();
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}
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void NTPClient::setRandomPort(unsigned int minValue, unsigned int maxValue) {
randomSeed(analogRead(0));
this->_port = random(minValue, maxValue);
// we've set a new port, remember to reinitialize UDP next time
this->_state = State::uninitialized;
}