package no.naiv.meddetsamme.alarm import android.app.AlarmManager import android.app.PendingIntent import android.content.Context import android.content.Intent import android.os.Build import java.time.LocalDateTime import java.time.LocalTime import java.time.ZoneId import no.naiv.meddetsamme.data.MedDatabase import no.naiv.meddetsamme.domain.ScheduleEngine /** * The only writer of AlarmManager state. Invariant: at most ONE pending alarm * per dose-time (its next occurrence) plus at most one escalation alarm per * unresolved dose-log. Everything is recomputed from the DB via the pure * engine — reboot, update, Taken and Snooze all just call back in here, so * alarm state can never drift from schedule state. */ class AlarmScheduler(private val context: Context) { companion object { /** Escalation contract (CLAUDE.md): re-nag every 10 min, ~6 nags / ~1 h. */ const val NAG_INTERVAL_MINUTES = 10L const val NAG_CAP = 6 const val SNOOZE_MINUTES = 15L private const val SUPPLY_REQUEST_CODE = 9_001 } private val alarmManager = context.getSystemService(AlarmManager::class.java) private val zone: ZoneId get() = ZoneId.systemDefault() /** * Exact when permitted, inexact otherwise — a slightly late reminder still * beats a crash, and canScheduleExactAlarms() can be revoked at runtime. * On API 33+ USE_EXACT_ALARM makes this effectively always true. */ private fun setAlarm(triggerAtMillis: Long, operation: PendingIntent) { val canExact = Build.VERSION.SDK_INT < 31 || alarmManager.canScheduleExactAlarms() if (canExact) { alarmManager.setExactAndAllowWhileIdle(AlarmManager.RTC_WAKEUP, triggerAtMillis, operation) } else { alarmManager.setAndAllowWhileIdle(AlarmManager.RTC_WAKEUP, triggerAtMillis, operation) } } // ---- dose-time occurrence alarms -------------------------------------- private fun doseIntent(doseTimeId: Long, scheduledAtMillis: Long): PendingIntent = PendingIntent.getBroadcast( context, doseTimeId.mod(Int.MAX_VALUE.toLong()).toInt(), Intent(context, DoseAlarmReceiver::class.java) .putExtra(DoseAlarmReceiver.EXTRA_DOSE_TIME_ID, doseTimeId) .putExtra(DoseAlarmReceiver.EXTRA_SCHEDULED_AT, scheduledAtMillis), PendingIntent.FLAG_UPDATE_CURRENT or PendingIntent.FLAG_IMMUTABLE, ) /** Arm (or re-arm) the single alarm for one dose-time's next occurrence. */ suspend fun armDoseTime(doseTimeId: Long, after: LocalDateTime = LocalDateTime.now()) { val db = MedDatabase.get(context) val doseTime = db.doseTimeDao().getById(doseTimeId) ?: return val med = db.medicationDao().getById(doseTime.medId) if (med == null || !med.med.active) { cancelDoseTime(doseTimeId) return } val next = ScheduleEngine.nextOccurrence(doseTime, after) if (next == null) { cancelDoseTime(doseTimeId) return } val millis = next.atZone(zone).toInstant().toEpochMilli() // Same requestCode per dose-time + FLAG_UPDATE_CURRENT = the invariant: // re-arming replaces, it never stacks. setAlarm(millis, doseIntent(doseTimeId, millis)) } fun cancelDoseTime(doseTimeId: Long) { alarmManager.cancel(doseIntent(doseTimeId, 0)) } /** Full rebuild from DB: boot, app update, schedule edits, app start. */ suspend fun armAll() { val db = MedDatabase.get(context) db.doseTimeDao().getAllForActiveMeds().forEach { armDoseTime(it.id) } armSupplyCheck() // Resume nagging for doses that were unresolved when the device died — // but only PAST-DUE ones. An unresolved log can also be a future dose // (e.g. "Ta nå" + "Angre" before its time); its own occurrence alarm // handles it when it actually falls due. val now = System.currentTimeMillis() db.doseLogDao().getUnresolved().forEach { log -> if (log.nagCount < NAG_CAP && log.scheduledAtMillis <= now) { armEscalation(log.id, delayMinutes = 1) } } } // ---- escalation alarms ------------------------------------------------- private fun escalationIntent(logId: Long): PendingIntent = PendingIntent.getBroadcast( context, // Offset keeps escalation requestCodes from colliding with dose-time codes. (logId.mod((Int.MAX_VALUE / 2).toLong())).toInt() + Int.MAX_VALUE / 2, Intent(context, DoseAlarmReceiver::class.java) .putExtra(DoseAlarmReceiver.EXTRA_LOG_ID, logId), PendingIntent.FLAG_UPDATE_CURRENT or PendingIntent.FLAG_IMMUTABLE, ) /** One escalation alarm per unresolved log; re-arming replaces. */ fun armEscalation(logId: Long, delayMinutes: Long = NAG_INTERVAL_MINUTES) { val triggerAt = System.currentTimeMillis() + delayMinutes * 60_000 setAlarm(triggerAt, escalationIntent(logId)) } fun cancelEscalation(logId: Long) { alarmManager.cancel(escalationIntent(logId)) } // ---- daily supply / renewal check -------------------------------------- private fun supplyIntent(): PendingIntent = PendingIntent.getBroadcast( context, SUPPLY_REQUEST_CODE, Intent(context, SupplyCheckReceiver::class.java), PendingIntent.FLAG_UPDATE_CURRENT or PendingIntent.FLAG_IMMUTABLE, ) /** * Inexact daily check at the user-configured morning time (default 10:00); * the receiver re-arms the next one. Same PendingIntent → re-arming after a * settings change replaces the alarm, never stacks. */ fun armSupplyCheck() { val minute = no.naiv.meddetsamme.settings.SettingsStore(context).supplyCheckMinuteOfDay val time = LocalTime.of(minute / 60, minute % 60) var next = LocalDateTime.of(java.time.LocalDate.now(), time) if (!next.isAfter(LocalDateTime.now())) next = next.plusDays(1) alarmManager.setAndAllowWhileIdle( AlarmManager.RTC_WAKEUP, next.atZone(zone).toInstant().toEpochMilli(), supplyIntent(), ) } }