package com.aoleyun.sn.utils; import android.content.Context; import android.content.Intent; import androidx.annotation.NonNull; import androidx.annotation.RequiresApi; import android.os.Build; import android.os.SystemClock; import android.text.TextUtils; import android.util.Log; import com.aoleyun.sn.bean.PoweroffBean; import com.aoleyun.sn.service.main.MainService; import java.net.DatagramPacket; import java.net.DatagramSocket; import java.net.InetAddress; import java.text.DateFormat; import java.text.ParseException; import java.text.SimpleDateFormat; import java.time.LocalDate; import java.time.LocalDateTime; import java.time.format.DateTimeFormatter; import java.util.Date; /** * @author Administrator * 时间管控工具类 */ public class TimeUtils { private static final String TAG = "TimeUtils"; private static DateFormat df = new SimpleDateFormat("HH:mm"); public static final String START_TIME_KEY = "START_TIME"; public static final String END_TIME_KEY = "END_TIME"; public static long dayTime = 60 * 60 * 24 * 1000; public static long minuteTime = 60 * 1000; public static String getNowTime() { long nowTime = System.currentTimeMillis(); DateFormat df = ContralTime.getDf(); return df.format(nowTime); } // public static boolean CurrentInTimeScope(ContralTime contralTime) { // boolean result = true; // final long aDayInMillis = 1000 * 60 * 60 * 24; // long currentTimeMillis = System.currentTimeMillis(); // // } public static boolean isShutdownTime(PoweroffBean poweroffBean) { int type = poweroffBean.getType(); if (type == 1) { //单次定时关机 return isShutdownTime(poweroffBean.getTime()); } else if (type == 2) {//循环定时关机 return isShutdownTime(getZeroTiemstamp() + getLoopTime(poweroffBean.getTime())); } return false; } /** * @return 获取今日0点时间戳 * 没有管时区问题 */ private static long getZeroTiemstamp() { long nowTime = System.currentTimeMillis(); long dayMillisecond = 60 * 60 * 24 * 1000; long zeroTime = ((nowTime) / dayMillisecond) * dayMillisecond; Log.e(TAG, "getZeroTiemstamp: " + zeroTime); return zeroTime; } public static String getPhotoDate() { long millisecond = System.currentTimeMillis(); SimpleDateFormat sdf = new SimpleDateFormat("yyyyMMddHHmmssSSS"); Date date = new Date(millisecond); return sdf.format(date); } @RequiresApi(api = Build.VERSION_CODES.O) public static boolean isTodayTime(long timeStamp) { String time = transferLongToDate(timeStamp); DateTimeFormatter dtf = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss"); LocalDateTime localTime = LocalDateTime.parse(time, dtf); LocalDateTime startTime = LocalDate.now().atTime(0, 0, 0); LocalDateTime endTime = LocalDate.now().atTime(23, 59, 59); return localTime.isAfter(startTime) && localTime.isBefore(endTime); } public static String transferLongToDate(Long millSec) { SimpleDateFormat sdf = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss"); Date date = new Date(millSec); return sdf.format(date); } public static String getActivationTime(long second) { SimpleDateFormat sdf = new SimpleDateFormat("yyyy-MM-dd"); Date date = new Date(second * 1000); return sdf.format(date); } private static long getLoopTime(String timestamp) { //"15:34:39" SimpleDateFormat sdf = new SimpleDateFormat("HH:mm:ss"); try { Date d = sdf.parse(timestamp); long loopTime = d.getTime(); Log.e(TAG, "getLoopTime: LoopTime = " + loopTime); return loopTime; } catch (ParseException e) { Log.e(TAG, "getLoopTime: e: " + e.getStackTrace()); return 0; } } public static boolean isShutdownTime(String timestamp) { //"2021-11-18 00:00:00" SimpleDateFormat sdf = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss"); try { Date d = sdf.parse(timestamp); long realTime = d.getTime(); return isShutdownTime(realTime); } catch (ParseException e) { Log.e(TAG, "isShutdownTime: " + e.getStackTrace()); return false; } } public static boolean isShutdownTime(long timestamp) { long realTime = timestamp; long nowTime = System.currentTimeMillis(); if (String.valueOf(timestamp).length() < String.valueOf(nowTime).length()) { realTime = timestamp * 1000; } if (realTime >= nowTime && realTime <= (nowTime + 1000 * 60)) { return true; } else { return false; } } /** * 是否在管控时间内 * * @param context * @param startTime * @param endTime * @return */ public static ContralTime getContralTime(Context context, String startTime, String endTime) { if (null == startTime || null == endTime || ("00:00".equals(startTime) && "00:00".equals(endTime))) { return null; } else { try { Date startDate = df.parse(startTime.trim()); Date endDate = df.parse(endTime.trim()); ContralTime contralTime = new ContralTime(); contralTime.setStartTime(df.format(startDate)); contralTime.setEndTime(df.format(endDate)); return contralTime; } catch (ParseException e) { e.printStackTrace(); return null; } } } public static ContralTime String2ContralTime(Context context, @NonNull String timeText) { DateFormat df = ContralTime.getDf(); String[] time = timeText.trim().split("-"); if (time.length != 2) { throw new RuntimeException("Time format error!"); } try { SPUtils.put(context, START_TIME_KEY, time[0].trim()); SPUtils.put(context, END_TIME_KEY, time[1].trim()); Date startDate = df.parse(time[0].trim()); Date endDate = df.parse(time[1].trim()); ContralTime contralTime = new ContralTime(); // if (date1.getTime() < date2.getTime()) { contralTime.setStartTime(df.format(startDate)); contralTime.setEndTime(df.format(endDate)); // } else { // contralTime.setStartTime(df.format(date2)); // contralTime.setEndTime(df.format(date1)); // } return contralTime; } catch (ParseException e) { e.printStackTrace(); return null; } } public static ContralTime getDefaltContralTime(Context context) { String startTime = (String) SPUtils.get(context, START_TIME_KEY, "00:00"); String endTime = (String) SPUtils.get(context, END_TIME_KEY, "00:00"); if (null == startTime || null == endTime || ("00:00".equals(startTime) && "00:00".equals(endTime))) { return null; } else { try { Date startDate = df.parse(startTime.trim()); Date endDate = df.parse(endTime.trim()); ContralTime contralTime = new ContralTime(); contralTime.setStartTime(df.format(startDate)); contralTime.setEndTime(df.format(endDate)); return contralTime; } catch (ParseException e) { e.printStackTrace(); return null; } } } public static void setEmpty(Context context) { SPUtils.put(context, START_TIME_KEY, "00:00"); SPUtils.put(context, END_TIME_KEY, "00:00"); Intent intent = new Intent(); intent.setAction(MainService.TimeChangedReceiver.ACTION_UPDATE); context.sendBroadcast(intent); } public static class ContralTime { //format HH:mm String startTime; String endTime; public ContralTime() { } public ContralTime(String startT, String endT) { this.startTime = startT; endTime = endT; } public String getStartTime() { return startTime; } public void setStartTime(String startT) { this.startTime = startT; } public String getEndTime() { return endTime; } public void setEndTime(String endT) { this.endTime = endT; } public static DateFormat getDf() { return df; } public static void setDf(DateFormat d) { df = d; } public String getNowTimeString(long time) { return df.format(new Date(time)); } /** * @return 这个时反的,为了对接专注模式 */ public boolean inControlTime() { long time = System.currentTimeMillis(); return !inControlTime(time); } public boolean inControlTime(long time) { return inControlTime(df.format(new Date(time))); } public boolean inControlTime(String time) { if (TextUtils.isEmpty(time)) { throw new RuntimeException("Time is empty"); } else { if (!time.contains(":")) { throw new RuntimeException("Time format error"); } } try { Date startDate = df.parse(startTime); Date endDate = df.parse(endTime); Log.e(TAG, "inControlTime: startDate time = " +startDate.getTime()); Log.e(TAG, "inControlTime: endDate time = " +endDate.getTime()); if (startDate.getTime() == endDate.getTime()) { return false; } Date nowDate = df.parse(time); if (startDate.getTime() > endDate.getTime()) { //开始时间大于结束时间 列 16:00-01:00 endDate.setTime(endDate.getTime() + dayTime); } Log.e(TAG, "inControlTime: " + (startDate.getTime() - minuteTime)); assert nowDate != null; if (nowDate.getTime() <= startDate.getTime() - minuteTime || nowDate.getTime() >= endDate.getTime()) { return true; } else { return false; } } catch (ParseException e) { e.printStackTrace(); } return false; } @NonNull @Override public String toString() { return startTime + "\t-\t" + endTime; } } private static SntpClient mNtpClient; public static long getTimeFromNtpServer(String hostAddress) { if (TextUtils.isEmpty(hostAddress)) { Log.e("getTimeFromNtpServer", "Ntp host is null."); return -1; } if (mNtpClient == null) { mNtpClient = new SntpClient(); } boolean isSuccessful = mNtpClient.requestTime(hostAddress, 20000); Log.e("getTimeFromNtpServer", "requestTime:" + isSuccessful); if (isSuccessful) { long now = mNtpClient.getNtpTime();//now就是获取的时间 return now; } else { Log.e("getTimeFromNtpServer", " failed"); } return -1; } public static class SntpClient { private static final String TAG = "SntpClient"; private static final int REFERENCE_TIME_OFFSET = 16; private static final int ORIGINATE_TIME_OFFSET = 24; private static final int RECEIVE_TIME_OFFSET = 32; private static final int TRANSMIT_TIME_OFFSET = 40; private static final int NTP_PACKET_SIZE = 48; private static final int NTP_PORT = 123; private static final int NTP_MODE_CLIENT = 3; private static final int NTP_VERSION = 3; // Number of seconds between Jan 1, 1900 and Jan 1, 1970 // 70 years plus 17 leap days private static final long OFFSET_1900_TO_1970 = ((365L * 70L) + 17L) * 24L * 60L * 60L; // system time computed from NTP server response private long mNtpTime; // value of SystemClock.elapsedRealtime() corresponding to mNtpTime private long mNtpTimeReference; // round trip time in milliseconds private long mRoundTripTime; /** * Sends an SNTP request to the given host and processes the response. * * @param host host name of the server. * @param timeout network timeout in milliseconds. * @return true if the transaction was successful. */ public boolean requestTime(String host, int timeout) { DatagramSocket socket = null; try { socket = new DatagramSocket(); socket.setSoTimeout(timeout); InetAddress address = InetAddress.getByName(host); byte[] buffer = new byte[NTP_PACKET_SIZE]; DatagramPacket request = new DatagramPacket(buffer, buffer.length, address, NTP_PORT); // set mode = 3 (client) and version = 3 // mode is in low 3 bits of first byte // version is in bits 3-5 of first byte buffer[0] = NTP_MODE_CLIENT | (NTP_VERSION << 3); // get current time and write it to the request packet long requestTime = System.currentTimeMillis(); Log.d(TAG, "RequestTime:" + new Date(requestTime)); long requestTicks = SystemClock.elapsedRealtime(); writeTimeStamp(buffer, TRANSMIT_TIME_OFFSET, requestTime); socket.send(request); // read the response DatagramPacket response = new DatagramPacket(buffer, buffer.length); socket.receive(response); long responseTicks = SystemClock.elapsedRealtime(); long responseTime = requestTime + (responseTicks - requestTicks); // extract the results long originateTime = readTimeStamp(buffer, ORIGINATE_TIME_OFFSET); long receiveTime = readTimeStamp(buffer, RECEIVE_TIME_OFFSET); long transmitTime = readTimeStamp(buffer, TRANSMIT_TIME_OFFSET); long roundTripTime = responseTicks - requestTicks - (transmitTime - receiveTime); // receiveTime = originateTime + transit + skew // responseTime = transmitTime + transit - skew // clockOffset = ((receiveTime - originateTime) + (transmitTime // - responseTime))/2 // = ((originateTime + transit + skew - originateTime) + // (transmitTime - (transmitTime + transit - skew)))/2 // = ((transit + skew) + (transmitTime - transmitTime - transit // + skew))/2 // = (transit + skew - transit + skew)/2 // = (2 * skew)/2 = skew long clockOffset = ((receiveTime - requestTime) + (transmitTime - System.currentTimeMillis())) / 2; // if (false) Log.d(TAG, "round trip: " + roundTripTime + // " ms"); // if (false) Log.d(TAG, "clock offset: " + clockOffset + // " ms"); // save our results - use the times on this side of the network // latency // (response rather than request time) mNtpTime = System.currentTimeMillis() + clockOffset; // mNtpTime = transmitTime; mNtpTimeReference = responseTicks; mRoundTripTime = roundTripTime; } catch (Exception e) { if (false) Log.e(TAG, "request time failed:" + e); e.printStackTrace(); return false; } finally { if (socket != null) { socket.close(); } } return true; } /** * Returns the time computed from the NTP transaction. * * @return time value computed from NTP server response. */ public long getNtpTime() { return mNtpTime; } /** * Returns the reference clock value (value of * SystemClock.elapsedRealtime()) corresponding to the NTP time. * * @return reference clock corresponding to the NTP time. */ public long getNtpTimeReference() { return mNtpTimeReference; } /** * Returns the round trip time of the NTP transaction * * @return round trip time in milliseconds. */ public long getRoundTripTime() { return mRoundTripTime; } /** * Reads an unsigned 32 bit big endian number from the given offset in * the buffer. */ private long read32(byte[] buffer, int offset) { byte b0 = buffer[offset]; byte b1 = buffer[offset + 1]; byte b2 = buffer[offset + 2]; byte b3 = buffer[offset + 3]; // convert signed bytes to unsigned values int i0 = ((b0 & 0x80) == 0x80 ? (b0 & 0x7F) + 0x80 : b0); int i1 = ((b1 & 0x80) == 0x80 ? (b1 & 0x7F) + 0x80 : b1); int i2 = ((b2 & 0x80) == 0x80 ? (b2 & 0x7F) + 0x80 : b2); int i3 = ((b3 & 0x80) == 0x80 ? (b3 & 0x7F) + 0x80 : b3); return ((long) i0 << 24) + ((long) i1 << 16) + ((long) i2 << 8) + (long) i3; } /** * Reads the NTP time stamp at the given offset in the buffer and * returns it as a system time (milliseconds since January 1, 1970). */ private long readTimeStamp(byte[] buffer, int offset) { long seconds = read32(buffer, offset); long fraction = read32(buffer, offset + 4); return ((seconds - OFFSET_1900_TO_1970) * 1000) + ((fraction * 1000L) / 0x100000000L); } /** * Writes system time (milliseconds since January 1, 1970) as an NTP * time stamp at the given offset in the buffer. */ private void writeTimeStamp(byte[] buffer, int offset, long time) { long seconds = time / 1000L; long milliseconds = time - seconds * 1000L; seconds += OFFSET_1900_TO_1970; // write seconds in big endian format buffer[offset++] = (byte) (seconds >> 24); buffer[offset++] = (byte) (seconds >> 16); buffer[offset++] = (byte) (seconds >> 8); buffer[offset++] = (byte) (seconds >> 0); long fraction = milliseconds * 0x100000000L / 1000L; // write fraction in big endian format buffer[offset++] = (byte) (fraction >> 24); buffer[offset++] = (byte) (fraction >> 16); buffer[offset++] = (byte) (fraction >> 8); // low order bits should be random data buffer[offset++] = (byte) (Math.random() * 255.0); } } }