package com.geeksville.mesh.model import android.app.Application import android.content.Context import android.content.SharedPreferences import android.net.Uri import android.os.RemoteException import android.view.Menu import androidx.core.content.edit import androidx.lifecycle.MutableLiveData import androidx.lifecycle.ViewModel import androidx.lifecycle.viewModelScope import com.geeksville.android.Logging import com.geeksville.mesh.* import com.geeksville.mesh.database.PacketRepository import com.geeksville.mesh.database.entity.Packet import com.geeksville.mesh.service.MeshService import com.geeksville.mesh.ui.positionToMeter import dagger.hilt.android.lifecycle.HiltViewModel import kotlinx.coroutines.Dispatchers import kotlinx.coroutines.flow.MutableStateFlow import kotlinx.coroutines.flow.StateFlow import kotlinx.coroutines.flow.collect import kotlinx.coroutines.flow.first import kotlinx.coroutines.launch import kotlinx.coroutines.withContext import java.io.BufferedWriter import java.io.FileNotFoundException import java.io.FileWriter import java.text.SimpleDateFormat import java.util.* import javax.inject.Inject import kotlin.math.roundToInt /// Given a human name, strip out the first letter of the first three words and return that as the initials for /// that user. If the original name is only one word, strip vowels from the original name and if the result is /// 3 or more characters, use the first three characters. If not, just take the first 3 characters of the /// original name. fun getInitials(nameIn: String): String { val nchars = 3 val minchars = 2 val name = nameIn.trim() val words = name.split(Regex("\\s+")).filter { it.isNotEmpty() } val initials = when (words.size) { in 0..minchars - 1 -> { val nm = if (name.length >= 1) name.first() + name.drop(1).filterNot { c -> c.lowercase() in "aeiou" } else "" if (nm.length >= nchars) nm else name } else -> words.map { it.first() }.joinToString("") } return initials.take(nchars) } @HiltViewModel class UIViewModel @Inject constructor( private val app: Application, private val repository: PacketRepository, private val preferences: SharedPreferences ) : ViewModel(), Logging { private val _allPacketState = MutableStateFlow>(emptyList()) val allPackets: StateFlow> = _allPacketState init { viewModelScope.launch { repository.getAllPackets().collect { packets -> _allPacketState.value = packets } } debug("ViewModel created") } fun deleteAllPacket() = viewModelScope.launch(Dispatchers.IO) { repository.deleteAll() } companion object { fun getPreferences(context: Context): SharedPreferences = context.getSharedPreferences("ui-prefs", Context.MODE_PRIVATE) } var actionBarMenu: Menu? = null var meshService: IMeshService? = null val nodeDB = NodeDB(this) val messagesState = MessagesState(this) /// Are we connected to our radio device val isConnected = object : MutableLiveData(MeshService.ConnectionState.DISCONNECTED) { } /// various radio settings (including the channel) val radioConfig = object : MutableLiveData(null) { } val channels = object : MutableLiveData(null) { } var positionBroadcastSecs: Int? get() { radioConfig.value?.preferences?.let { if (it.positionBroadcastSecs > 0) return it.positionBroadcastSecs // These default values are borrowed from the device code. if (it.isRouter) return 60 * 60 return 15 * 60 } return null } set(value) { val config = radioConfig.value if (value != null && config != null) { val builder = config.toBuilder() builder.preferencesBuilder.positionBroadcastSecs = value setRadioConfig(builder.build()) } } var lsSleepSecs: Int? get() = radioConfig.value?.preferences?.lsSecs set(value) { val config = radioConfig.value if (value != null && config != null) { val builder = config.toBuilder() builder.preferencesBuilder.lsSecs = value setRadioConfig(builder.build()) } } var locationShare: Boolean? get() { return radioConfig.value?.preferences?.locationShare == RadioConfigProtos.LocationSharing.LocEnabled || radioConfig.value?.preferences?.locationShare == RadioConfigProtos.LocationSharing.LocUnset } set(value) { val config = radioConfig.value if (value != null && config != null) { val builder = config.toBuilder() if (value == true) { builder.preferencesBuilder.locationShare = RadioConfigProtos.LocationSharing.LocUnset } else { builder.preferencesBuilder.locationShare = RadioConfigProtos.LocationSharing.LocDisabled } setRadioConfig(builder.build()) } } var isPowerSaving: Boolean? get() = radioConfig.value?.preferences?.isPowerSaving set(value) { val config = radioConfig.value if (value != null && config != null) { val builder = config.toBuilder() builder.preferencesBuilder.isPowerSaving = value setRadioConfig(builder.build()) } } var isAlwaysPowered: Boolean? get() = radioConfig.value?.preferences?.isAlwaysPowered set(value) { val config = radioConfig.value if (value != null && config != null) { val builder = config.toBuilder() builder.preferencesBuilder.isAlwaysPowered = value setRadioConfig(builder.build()) } } var region: RadioConfigProtos.RegionCode get() = meshService?.region?.let { RadioConfigProtos.RegionCode.forNumber(it) } ?: RadioConfigProtos.RegionCode.Unset set(value) { meshService?.region = value.number } /// hardware info about our local device (can be null) val myNodeInfo = object : MutableLiveData(null) {} override fun onCleared() { super.onCleared() debug("ViewModel cleared") } /** * Return the primary channel info */ val primaryChannel: Channel? get() = channels.value?.primaryChannel /// // Set the radio config (also updates our saved copy in preferences) private fun setRadioConfig(c: RadioConfigProtos.RadioConfig) { debug("Setting new radio config!") meshService?.radioConfig = c.toByteArray() radioConfig.value = c // Must be done after calling the service, so we will will properly throw if the service failed (and therefore not cache invalid new settings) } /// Set the radio config (also updates our saved copy in preferences) fun setChannels(c: ChannelSet) { debug("Setting new channels!") meshService?.channels = c.protobuf.toByteArray() channels.value = c // Must be done after calling the service, so we will will properly throw if the service failed (and therefore not cache invalid new settings) preferences.edit(commit = true) { this.putString("channel-url", c.getChannelUrl().toString()) } } /// Kinda ugly - created in the activity but used from Compose - figure out if there is a cleaner way GIXME // lateinit var googleSignInClient: GoogleSignInClient /// our name in hte radio /// Note, we generate owner initials automatically for now /// our activity will read this from prefs or set it to the empty string val ownerName = object : MutableLiveData("MrIDE Test") { } val provideLocation = object : MutableLiveData(preferences.getBoolean(MyPreferences.provideLocationKey, false)) { override fun setValue(value: Boolean) { super.setValue(value) preferences.edit(commit = true) { this.putBoolean(MyPreferences.provideLocationKey, value) } } } // clean up all this nasty owner state management FIXME fun setOwner(s: String? = null) { if (s != null) { ownerName.value = s // note: we allow an empty userstring to be written to prefs preferences.edit(commit = true) { putString("owner", s) } } // Note: we are careful to not set a new unique ID if (ownerName.value!!.isNotEmpty()) try { meshService?.setOwner( null, ownerName.value, getInitials(ownerName.value!!) ) // Note: we use ?. here because we might be running in the emulator } catch (ex: RemoteException) { errormsg("Can't set username on device, is device offline? ${ex.message}") } } /** * Write the persisted packet data out to a CSV file in the specified location. */ fun saveMessagesCSV(file_uri: Uri) { viewModelScope.launch(Dispatchers.Main) { // Extract distances to this device from position messages and put (node,SNR,distance) in // the file_uri val myNodeNum = myNodeInfo.value?.myNodeNum ?: return@launch // Capture the current node value while we're still on main thread val nodes = nodeDB.nodes.value ?: emptyMap() val positionToPos: (MeshProtos.Position?) -> Position? = { meshPosition -> meshPosition?.let { Position(it) }.takeIf { it?.isValid() == true } } writeToUri(file_uri) { writer -> // Create a map of nodes keyed by their ID val nodesById = nodes.values.associateBy { it.num }.toMutableMap() val nodePositions = mutableMapOf() writer.appendLine("date,time,from,sender name,sender lat,sender long,rx lat,rx long,rx elevation,rx snr,distance,hop limit,payload") // Packets are ordered by time, we keep most recent position of // our device in localNodePosition. val dateFormat = SimpleDateFormat("yyyy-MM-dd,HH:mm:ss", Locale.getDefault()) repository.getAllPacketsInReceiveOrder(Int.MAX_VALUE).first().forEach { packet -> // If we get a NodeInfo packet, use it to update our position data (if valid) packet.nodeInfo?.let { nodeInfo -> positionToPos.invoke(nodeInfo.position)?.let { _ -> nodePositions[nodeInfo.num] = nodeInfo.position } } packet.meshPacket?.let { proto -> // If the packet contains position data then use it to update, if valid packet.position?.let { position -> positionToPos.invoke(position)?.let { _ -> nodePositions[proto.from] = position } } // Filter out of our results any packet that doesn't report SNR. This // is primarily ADMIN_APP. if (proto.rxSnr > 0.0f) { val rxDateTime = dateFormat.format(packet.received_date) val rxFrom = proto.from.toUInt() val senderName = nodesById[proto.from]?.user?.longName ?: "" // sender lat & long val senderPosition = nodePositions[proto.from] val senderPos = positionToPos.invoke(senderPosition) val senderLat = senderPos?.latitude ?: "" val senderLong = senderPos?.longitude ?: "" // rx lat, long, and elevation val rxPosition = nodePositions[myNodeNum] val rxPos = positionToPos.invoke(rxPosition) val rxLat = rxPos?.latitude ?: "" val rxLong = rxPos?.longitude ?: "" val rxAlt = rxPos?.altitude ?: "" val rxSnr = "%f".format(proto.rxSnr) // Calculate the distance if both positions are valid val dist = if (senderPos == null || rxPos == null) { "" } else { positionToMeter( rxPosition!!, // Use rxPosition but only if rxPos was valid senderPosition!! // Use senderPosition but only if senderPos was valid ).roundToInt().toString() } val hopLimit = proto.hopLimit val payload = when { proto.decoded.portnumValue != Portnums.PortNum.TEXT_MESSAGE_APP_VALUE -> "<${proto.decoded.portnum}>" proto.hasDecoded() -> "\"" + proto.decoded.payload.toStringUtf8() .replace("\"", "\\\"") + "\"" proto.hasEncrypted() -> "${proto.encrypted.size()} encrypted bytes" else -> "" } // date,time,from,sender name,sender lat,sender long,rx lat,rx long,rx elevation,rx snr,distance,hop limit,payload writer.appendLine("$rxDateTime,$rxFrom,$senderName,$senderLat,$senderLong,$rxLat,$rxLong,$rxAlt,$rxSnr,$dist,$hopLimit,$payload") } } } } } } private suspend inline fun writeToUri(uri: Uri, crossinline block: suspend (BufferedWriter) -> Unit) { withContext(Dispatchers.IO) { try { app.contentResolver.openFileDescriptor(uri, "wt")?.use { parcelFileDescriptor -> FileWriter(parcelFileDescriptor.fileDescriptor).use { fileWriter -> BufferedWriter(fileWriter).use { writer -> block.invoke(writer) } } } } catch (ex: FileNotFoundException) { errormsg("Can't write file error: ${ex.message}") } } } }