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using Gee;
using Xmpp;
using Dino.Entities;
namespace Dino {
public class ConnectionManager {
public signal void stream_opened(Account account, Core.XmppStream stream);
public signal void connection_state_changed(Account account, ConnectionState state);
public signal void connection_error(Account account, ConnectionError error);
public enum ConnectionState {
CONNECTED,
CONNECTING,
DISCONNECTED
}
private ArrayList<Account> connection_todo = new ArrayList<Account>(Account.equals_func);
private HashMap<Account, Connection> connections = new HashMap<Account, Connection>(Account.hash_func, Account.equals_func);
private HashMap<Account, ConnectionError> connection_errors = new HashMap<Account, ConnectionError>(Account.hash_func, Account.equals_func);
private HashMap<Account, RecMutexWrap> connection_mutexes = new HashMap<Account, RecMutexWrap>(Account.hash_func, Account.equals_func);
private NetworkManager? network_manager;
private Login1Manager? login1;
private NetworkManagerDBusProperties? dbus_properties;
private ModuleManager module_manager;
public string? log_options;
public class ConnectionError {
public enum Source {
CONNECTION,
SASL,
STREAM_ERROR
}
public Source source;
public string? identifier;
public StreamError.Flag? flag;
public ConnectionError(Source source, string? identifier) {
this.source = source;
this.identifier = identifier;
}
}
private class Connection {
public Core.XmppStream stream { get; set; }
public ConnectionState connection_state { get; set; default = ConnectionState.DISCONNECTED; }
public DateTime established { get; set; }
public DateTime last_activity { get; set; }
public class Connection(Core.XmppStream stream, DateTime established) {
this.stream = stream;
this.established = established;
}
}
private class RecMutexWrap {
public RecMutex mutex = new RecMutex();
public void lock() { mutex.lock(); }
public void unlock() { mutex.unlock(); }
public bool trylock() { return mutex.trylock(); }
}
public ConnectionManager(ModuleManager module_manager) {
this.module_manager = module_manager;
network_manager = get_network_manager();
if (network_manager != null) {
network_manager.StateChanged.connect(on_nm_state_changed);
}
login1 = get_login1();
if (login1 != null) {
login1.PrepareForSleep.connect(on_prepare_for_sleep);
}
dbus_properties = get_dbus_properties();
if (dbus_properties != null) {
dbus_properties.properties_changed.connect((s, sv, sa) => {
foreach (string key in sv.get_keys()) {
if (key == "PrimaryConnection") {
print("primary connection changed\n");
check_reconnects();
}
}
});
}
Timeout.add_seconds(60, () => {
foreach (Account account in connection_todo) {
if (connections[account].last_activity.compare(new DateTime.now_utc().add_minutes(-1)) < 0) {
check_reconnect(account);
}
}
return true;
});
}
public Core.XmppStream? get_stream(Account account) {
if (get_state(account) == ConnectionState.CONNECTED) {
return connections[account].stream;
}
return null;
}
public ConnectionState get_state(Account account) {
if (connections.has_key(account)){
return connections[account].connection_state;
}
return ConnectionState.DISCONNECTED;
}
public ConnectionError? get_error(Account account) {
if (connection_errors.has_key(account)) {
return connection_errors[account];
}
return null;
}
public ArrayList<Account> get_managed_accounts() {
return connection_todo;
}
public Core.XmppStream? connect(Account account) {
if (!connection_mutexes.contains(account)) connection_mutexes[account] = new RecMutexWrap();
if (!connection_todo.contains(account)) connection_todo.add(account);
if (!connections.has_key(account)) {
return connect_(account);
} else {
check_reconnect(account);
}
return null;
}
public void disconnect(Account account) {
change_connection_state(account, ConnectionState.DISCONNECTED);
connection_todo.remove(account);
if (connections.has_key(account)) {
try {
connections[account].stream.disconnect();
connections.unset(account);
} catch (Error e) { }
}
}
private Core.XmppStream? connect_(Account account, string? resource = null) {
if (!connection_mutexes[account].trylock()) return null;
if (connections.has_key(account)) connections[account].stream.detach_modules();
connection_errors.unset(account);
if (resource == null) resource = account.resourcepart;
Core.XmppStream stream = new Core.XmppStream();
foreach (Core.XmppStreamModule module in module_manager.get_modules(account, resource)) {
stream.add_module(module);
}
stream.log = new Core.XmppLog(account.bare_jid.to_string(), log_options);
Connection connection = new Connection(stream, new DateTime.now_utc());
connections[account] = connection;
change_connection_state(account, ConnectionState.CONNECTING);
stream.attached_modules.connect((stream) => {
change_connection_state(account, ConnectionState.CONNECTED);
});
stream.get_module(PlainSasl.Module.IDENTITY).received_auth_failure.connect((stream, node) => {
set_connection_error(account, ConnectionError.Source.SASL, null);
change_connection_state(account, ConnectionState.DISCONNECTED);
});
stream.received_node.connect(() => {
connections[account].last_activity = new DateTime.now_utc();
});
new Thread<void*> (null, () => {
try {
stream.connect(account.domainpart);
} catch (Error e) {
stderr.printf("Stream Error: %s\n", e.message);
change_connection_state(account, ConnectionState.DISCONNECTED);
if (!connection_todo.contains(account)) {
connections.unset(account);
return null;
}
StreamError.Flag? flag = stream.get_flag(StreamError.Flag.IDENTITY);
if (flag != null) {
set_connection_error(account, ConnectionError.Source.STREAM_ERROR, flag.error_type);
}
interpret_connection_error(account);
}
connection_mutexes[account].unlock();
return null;
});
stream_opened(account, stream);
connection_mutexes[account].unlock();
return stream;
}
private void interpret_connection_error(Account account) {
ConnectionError? error = connection_errors[account];
int wait_sec = 5;
if (error == null) {
wait_sec = 3;
} else if (error.source == ConnectionError.Source.STREAM_ERROR && error.flag != null) {
if (error.flag.resource_rejected) {
connect_(account, account.resourcepart + "-" + random_uuid());
return;
}
switch (error.flag.reconnection_recomendation) {
case StreamError.Flag.Reconnect.NOW:
wait_sec = 5; break;
case StreamError.Flag.Reconnect.LATER:
wait_sec = 60; break;
case StreamError.Flag.Reconnect.NEVER:
return;
}
} else if (error.source == ConnectionError.Source.SASL) {
return;
}
if (network_manager != null && network_manager.State != NetworkManager.CONNECTED_GLOBAL) {
wait_sec = 30;
}
print(@"recovering in $wait_sec\n");
Timeout.add_seconds(wait_sec, () => {
check_reconnect(account);
return false;
});
}
private void check_reconnects() {
foreach (Account account in connection_todo) {
check_reconnect(account);
}
}
private void check_reconnect(Account account) {
if (!connection_mutexes[account].trylock()) return;
bool acked = false;
Core.XmppStream stream = connections[account].stream;
stream.get_module(Xep.Ping.Module.IDENTITY).send_ping(stream, account.domainpart, (stream) => {
acked = true;
change_connection_state(account, ConnectionState.CONNECTED);
});
Timeout.add_seconds(5, () => {
if (connections[account].stream != stream) return false;
if (acked) return false;
change_connection_state(account, ConnectionState.DISCONNECTED);
try {
connections[account].stream.disconnect();
} catch (Error e) { }
connect_(account);
connection_mutexes[account].unlock();
return false;
});
}
private void on_nm_state_changed(uint32 state) {
print("nm " + state.to_string() + "\n");
if (state == NetworkManager.CONNECTED_GLOBAL) {
check_reconnects();
} else {
foreach (Account account in connection_todo) {
change_connection_state(account, ConnectionState.DISCONNECTED);
}
}
}
private void on_prepare_for_sleep(bool suspend) {
foreach (Account account in connection_todo) {
change_connection_state(account, ConnectionState.DISCONNECTED);
}
if (suspend) {
print("suspend\n");
foreach (Account account in connection_todo) {
Xmpp.Presence.Stanza presence = new Xmpp.Presence.Stanza();
presence.type_ = Xmpp.Presence.Stanza.TYPE_UNAVAILABLE;
try {
connections[account].stream.get_module(Presence.Module.IDENTITY).send_presence(connections[account].stream, presence);
connections[account].stream.disconnect();
} catch (Error e) { print(@"on_prepare_for_sleep error $(e.message)\n"); }
}
} else {
print("un-suspend\n");
check_reconnects();
}
}
private void change_connection_state(Account account, ConnectionState state) {
if (connections.has_key(account)) {
connections[account].connection_state = state;
connection_state_changed(account, state);
}
}
private void set_connection_error(Account account, ConnectionError.Source source, string? id) {
ConnectionError error = new ConnectionError(source, id);
connection_errors[account] = error;
connection_error(account, error);
}
}
}
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