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PalladiumWallet/src/App/ViewModels/MainWindowViewModel.Sync.cs
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using System;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Linq;
using System.Threading.Tasks;
using Avalonia.Threading;
using CommunityToolkit.Mvvm.ComponentModel;
using CommunityToolkit.Mvvm.Input;
using PalladiumWallet.App.Localization;
using PalladiumWallet.Core.Chain;
using PalladiumWallet.Core.Net;
using PalladiumWallet.Core.Spv;
using PalladiumWallet.Core.Storage;
namespace PalladiumWallet.App.ViewModels;
public partial class MainWindowViewModel
{
// ---- server and connection ----
[ObservableProperty]
private string serverHost = "";
[ObservableProperty]
private string serverPort = "";
[ObservableProperty]
private bool useSsl = true;
[ObservableProperty]
private bool isServerSettingsOpen;
[RelayCommand]
private void OpenServerSettings()
{
IsSettingsOpen = false;
IsServerSettingsOpen = true;
}
[RelayCommand]
private void CloseServerSettings() => IsServerSettingsOpen = false;
[ObservableProperty]
private string connectionStatus = Loc.Tr("conn.none");
[ObservableProperty]
private bool isConnected;
[ObservableProperty]
private bool isSyncing;
public ObservableCollection<KnownServer> KnownServers { get; } = [];
[ObservableProperty]
private KnownServer? selectedKnownServer;
partial void OnSelectedKnownServerChanged(KnownServer? value)
{
if (value is null)
return;
_syncingServerFields = true;
ServerHost = value.Host;
ServerPort = value.PortFor(UseSsl).ToString();
_syncingServerFields = false;
}
partial void OnUseSslChanged(bool value)
{
if (_syncingServerFields)
return;
_syncingServerFields = true;
ServerPort = SelectedKnownServer is { } server
? server.PortFor(value).ToString()
: (value ? Profile.DefaultSslPort : Profile.DefaultTcpPort).ToString();
_syncingServerFields = false;
}
partial void OnServerPortChanged(string value)
{
if (_syncingServerFields)
return;
if (!int.TryParse(value.Trim(), out var port))
return;
bool? wantSsl =
SelectedKnownServer is { } s && port == s.SslPort ? true :
SelectedKnownServer is { } t && port == t.TcpPort ? false :
port == Profile.DefaultSslPort ? true :
port == Profile.DefaultTcpPort ? false :
null;
if (wantSsl is bool b && b != UseSsl)
{
_syncingServerFields = true;
UseSsl = b;
_syncingServerFields = false;
}
}
private void RefreshServers()
{
KnownServers.Clear();
foreach (var server in Registry.All)
KnownServers.Add(server);
SelectedKnownServer = KnownServers.FirstOrDefault();
if (SelectedKnownServer is null)
{
ServerHost = "127.0.0.1";
ServerPort = (UseSsl ? Profile.DefaultSslPort : Profile.DefaultTcpPort).ToString();
}
}
private (string Host, int Port) ParseServer()
{
var host = ServerHost.Trim();
var port = int.TryParse(ServerPort.Trim(), out var p)
? p
: UseSsl ? Profile.DefaultSslPort : Profile.DefaultTcpPort;
return (host, port);
}
/// <summary>
/// Returns servers to try in order: first the one selected in the UI
/// (or manually typed), then the remaining KnownServers, with duplicates skipped.
/// </summary>
private IEnumerable<(string Host, int Port)> BuildServerCandidates(string selectedHost, int selectedPort)
{
var seen = new HashSet<string>(StringComparer.OrdinalIgnoreCase);
// 1. Current server (selected or manually typed).
if (!string.IsNullOrWhiteSpace(selectedHost))
{
var key = $"{selectedHost}:{selectedPort}";
if (seen.Add(key))
yield return (selectedHost, selectedPort);
}
// 2. Other known servers, in list order.
foreach (var s in KnownServers)
{
var p = s.PortFor(UseSsl);
var key = $"{s.Host}:{p}";
if (seen.Add(key))
yield return (s.Host, p);
}
}
[RelayCommand]
private async Task ConnectAndSync()
{
if (IsSyncing)
{
_resyncRequested = true;
return;
}
IsSyncing = true;
StatusMessage = "";
try
{
var (host, port) = ParseServer();
if (_client is { } current &&
(current.Host != host || current.Port != port || current.UseSsl != UseSsl))
{
await DisconnectAsync();
}
if (_client is null || !_client.IsConnected)
{
// Persist caches before destroying the synchronizer: the new
// synchronizer will use a different client and must be recreated,
// but already-downloaded data is preserved via _doc.Cache.
PersistPartialTxCache();
_synchronizer = null;
// Try all known servers in order; starts with the selected one
// and walks the list until the first that responds.
var candidates = BuildServerCandidates(host, port);
Exception? lastError = null;
foreach (var (h, p) in candidates)
{
ConnectionStatus = $"{Loc.Tr("conn.connectingto")} {h}:{p}…";
try
{
var pins = new CertificatePinStore(AppPaths.CertificatePinsPath(Net));
_client = await ElectrumClient.ConnectAsync(h, p, UseSsl, pins);
_client.NotificationReceived += OnServerNotification;
_client.Disconnected += _ => Dispatcher.UIThread.Post(() =>
{
IsConnected = false;
ConnectionStatus = Loc.Tr("conn.none");
});
IsConnected = true;
_autoReconnect = true;
ConnectionStatus = Loc.Tr("conn.connectedto");
// Update the UI to reflect the server actually connected.
_syncingServerFields = true;
ServerHost = h;
ServerPort = p.ToString();
SelectedKnownServer = KnownServers.FirstOrDefault(s => s.Host == h)
?? SelectedKnownServer;
_syncingServerFields = false;
lastError = null;
break;
}
catch (Exception ex)
{
lastError = ex;
_client = null;
}
}
if (lastError is not null)
throw lastError;
}
if (_account is null || _doc is null)
return;
if (_synchronizer is null)
{
_synchronizer = new WalletSynchronizer(_account, _client!, _doc.GapLimit);
// Reload from disk cache: avoids re-downloading already known transactions
// (essential for wallets with thousands of historical txs — prevents -101).
var net = PalladiumNetworks.For(_account.Profile.Kind);
_synchronizer.PreloadCaches(
_doc.Cache?.RawTxHex ?? [],
_doc.Cache?.VerifiedAt ?? [],
_doc.Cache?.BlockHeaders,
_doc.Cache?.NextReceiveIndex ?? 0,
_doc.Cache?.NextChangeIndex ?? 0,
net);
_synchronizer.Progress += msg => Dispatcher.UIThread.Post(() => StatusMessage = msg);
}
do
{
_resyncRequested = false;
var result = await _synchronizer.SyncOnceAsync();
_lastTransactions = result.Transactions;
var (rawHex, verifiedAt, blockHeaders) = _synchronizer.ExportCaches(
PalladiumNetworks.For(_account.Profile.Kind));
_doc.Cache = new SyncCache
{
TipHeight = result.TipHeight,
ConfirmedSats = result.ConfirmedSats,
UnconfirmedSats = result.UnconfirmedSats,
NextReceiveIndex = result.NextReceiveIndex,
NextChangeIndex = result.NextChangeIndex,
History = [.. result.History],
Utxos = [.. result.Utxos],
Addresses = [.. result.AddressRows],
RawTxHex = rawHex,
VerifiedAt = verifiedAt,
BlockHeaders = blockHeaders,
};
WalletStore.Save(_doc, _walletPath!, _password);
ApplyCache(_doc.Cache);
_syncFailed = false;
StatusMessage = $"{Loc.Tr("msg.synced")}: {Loc.Tr("msg.height")} {result.TipHeight}, " +
$"{result.History.Count} {Loc.Tr("msg.synced.detail")}";
} while (_resyncRequested);
}
catch (CertificatePinMismatchException ex)
{
IsConnected = false;
ConnectionStatus = Loc.Tr("conn.none");
StatusMessage = ex.Message;
}
catch (Exception ex)
{
IsConnected = _client?.IsConnected == true;
ConnectionStatus = IsConnected ? ConnectionStatus : Loc.Tr("conn.none");
StatusMessage = $"Errore: {ex.Message}";
if (_account is not null)
{
_syncFailed = true;
// Persist already-downloaded transactions: on retry the synchronizer
// resumes from here instead of starting from scratch (e.g. after -101).
PersistPartialTxCache();
}
}
finally
{
IsSyncing = false;
}
}
[RelayCommand]
private async Task DiscoverServers()
{
if (_client is null || !_client.IsConnected)
{
StatusMessage = Loc.Tr("conn.none") + ".";
return;
}
try
{
var added = await Registry.DiscoverAsync(_client);
var selected = SelectedKnownServer;
RefreshServers();
SelectedKnownServer = KnownServers.FirstOrDefault(s => s.Host == selected?.Host)
?? KnownServers.FirstOrDefault();
StatusMessage = added > 0
? $"Trovati {added} nuovi server dai peer (totale {KnownServers.Count})."
: $"Nessun nuovo server annunciato (totale {KnownServers.Count}).";
}
catch (Exception ex)
{
StatusMessage = $"Errore nella scoperta peer: {ex.Message}";
}
}
private void OnServerNotification(string method, System.Text.Json.JsonElement payload)
{
if (method is "blockchain.scripthash.subscribe" or "blockchain.headers.subscribe")
Dispatcher.UIThread.Post(() =>
{
if (IsSyncing)
_resyncRequested = true;
else
_ = ConnectAndSync();
});
}
[RelayCommand]
private void ResetCertificates()
{
new CertificatePinStore(AppPaths.CertificatePinsPath(Net)).ResetAll();
StatusMessage = Loc.Tr("msg.certreset");
}
/// <summary>
/// Persists the transactions and Merkle proofs already accumulated by the synchronizer
/// into SyncCache, even if sync is not yet complete. Allows the next retry
/// (or app restart) to resume without re-downloading from scratch.
/// </summary>
private void PersistPartialTxCache()
{
if (_synchronizer is null || _doc is null || _walletPath is null || _account is null)
return;
try
{
var net = PalladiumNetworks.For(_account.Profile.Kind);
var (rawHex, verifiedAt, blockHeaders) = _synchronizer.ExportCaches(net);
if (rawHex.Count == 0 && verifiedAt.Count == 0)
return;
(_doc.Cache ??= new SyncCache()).RawTxHex = rawHex;
_doc.Cache.VerifiedAt = verifiedAt;
_doc.Cache.BlockHeaders = blockHeaders;
WalletStore.Save(_doc, _walletPath, _password);
}
catch { /* non-fatal: the next full save will recover */ }
}
private async Task DisconnectAsync()
{
if (_client is { } client)
{
_client = null;
_synchronizer = null;
try { await client.DisposeAsync(); } catch { }
}
IsConnected = false;
}
}