Managementul contactului
În această secțiune se va prezenta modul de a găsi și de a adăuga un contact de la DHT la client. Utilizarea unui server de nume nu va fi explicată aici. Dacă doriți mai multe detalii despre asta, vă rugăm să citiți Numele Protocolului serverului.
Prezența pe rețea
Anunţaţi prezenţa pe DHT
Prezența este destul de simplă de anunțat pe DHT. De fapt, este doar o valoare care conține hash-ul dispozitivului (vezi secțiunea precedentă, Administrarea contului) pe hash-ul corespunzător amprentului de deget al cheii. Deci, dacă avem contul bf5f1e21d3eb2c1246946aa49d5dcf3e5b9cb1b9 cu dispozitivul 62fbdff0ce86f368c7d3c2682539e5ba9e06404f, următoarea valoare definită va fi trimisă prin DHT:
/**
* Device announcement stored on DHT.
*/
struct DeviceAnnouncement : public dht::SignedValue<DeviceAnnouncement>
{
private:
using BaseClass = dht::SignedValue<DeviceAnnouncement>;
public:
static const constexpr dht::ValueType& TYPE = dht::ValueType::USER_DATA;
dht::InfoHash dev;
std::shared_ptr<dht::crypto::PublicKey> pk;
MSGPACK_DEFINE_MAP(dev, pk)
};
(Această valoare poate fi pusă cu dht_.put(h, VALUE, dht::DoneCallback{}, {}, true);, ca put permanent). Dacă dispozitivul este anunțat, dispozitivul este prezent. Pentru moment, nu există nici o modalitate de a șterge sau edita o valoare pe DHT (aceasta va veni când OpenDHT va susține ECC).
Dacă e vreun contact, să-l anunţăm.
Now our presence on the network, it’s time to get if somebody is present on the DHT. With the previous section, it’s easy to do the reverse process. To know if somebody is present on the DHT (ex: bf5f1e21d3eb2c1246946aa49d5dcf3e5b9cb1b9), we have to get value at bf5f1e21d3eb2c1246946aa49d5dcf3e5b9cb1b9 and retrieve the DeviceAnnouncement on this hash. The related code in the daemon is in jamiaccount.cpp:
auto shared = std::static_pointer_cast<RingAccount>(shared_from_this());
auto treatedDevices = std::make_shared<std::set<dht::InfoHash>>();
dht_.get<dht::crypto::RevocationList>(to, [to](dht::crypto::RevocationList&& crl){
tls::CertificateStore::instance().pinRevocationList(to.toString(), std::move(crl));
return true;
});
dht_.get<DeviceAnnouncement>(to, [shared,to,treatedDevices,op](DeviceAnnouncement&& dev) {
if (dev.from != to)
return true;
if (treatedDevices->emplace(dev.dev).second)
op(shared, dev.dev);
return true;
}, [=](bool /*ok*/){
{
std::lock_guard<std::recursive_mutex> lock(shared->buddyInfoMtx);
auto buddy_info_it = shared->trackedBuddies_.find(to);
if (buddy_info_it != shared->trackedBuddies_.end()) {
if (not treatedDevices->empty()) {
for (auto& device_id : *treatedDevices)
shared->onTrackedBuddyOnline(buddy_info_it, device_id);
} else
shared->onTrackedBuddyOffline(buddy_info_it);
}
}
RING_DBG("[Account %s] found %lu devices for %s",
getAccountID().c_str(), treatedDevices->size(), to.to_c_str());
if (end) end(shared, not treatedDevices->empty());
});
Şi asta e tot.
Client perspective
<method name="subscribeBuddy" tp:name-for-bindings="subscribeBuddy">
<tp:docstring>
Ask be be notified when 'uri' presence change
</tp:docstring>
<tp:added version="1.3.0"/>
<arg type="s" name="accountID" direction="in">
<tp:docstring>
An account from which get request presence informations
</tp:docstring>
</arg>
<arg type="s" name="uri" direction="in">
<tp:docstring>
A SIP uri to watch
</tp:docstring>
</arg>
<arg type="b" name="flag" direction="in">
<tp:docstring>
</tp:docstring>
</arg>
</method>
<signal name="newBuddyNotification" tp:name-for-bindings="newBuddyNotification">
<tp:added version="1.3.0"/>
<tp:docstring>
Notify when a registered presence uri presence informations changes
</tp:docstring>
<arg type="s" name="accountID">
<tp:docstring>
The associated account
</tp:docstring>
</arg>
<arg type="s" name="buddyUri">
<tp:docstring>
The registered URI
</tp:docstring>
</arg>
<arg type="i" name="status">
<tp:docstring>
Is the URI present or not
</tp:docstring>
</arg>
<arg type="s" name="lineStatus">
<tp:docstring>
A string containing informations from the user (human readable)
</tp:docstring>
</arg>
</signal>
<method name="publish" tp:name-for-bindings="publish">
<tp:added version="1.3.0"/>
<arg type="s" name="accountID" direction="in">
<tp:docstring>
The account from which the presence will be emitted
</tp:docstring>
</arg>
<arg type="b" name="status" direction="in">
<tp:docstring>
Is this account present or not
</tp:docstring>
</arg>
<arg type="s" name="note" direction="in">
<tp:docstring>
A message transmitted by the server to other users
</tp:docstring>
</arg>
</method>
Are the main APIs for clients. subscribeBuddy will listen on the DHT to detect presence changes and newBuddyNotification will be sent whenever a new status is detected:
The status sent to the client is now 0=offline (no device found on the DHT), 1=dht_presence (at least a device is found on the DHT), 2=connected (with a TCP + SIP channel, so ready to exchange data).
lineStatuswill contain any custom status sent by the peer (e.g. Lunch Time!)
publish is used for publishing a custom note (status is ignored for Jami accounts, note will contain the custom status).
RFC3863 is used to send status over the SIP connection.
Cerere în curs de executare
Trimite o cerere
** Cererea de navă TODO**
În cele din urmă, odată ce solicitarea de încredere este elaborată, putem împinge cererea în următorul hash: InfoHash("inbox:" + deviceId)
În daemon se utilizează următorul cod:
dht_.putEncrypted(dht::InfoHash::get("inbox:"+dev.toString()), dev, dht::TrustRequest(DHT_TYPE_NS, payload));
Primirea unei cereri
** TODO**
(Accept/bloc/disculp)
API-ul de serviciu
Toate metodele de urmărire a prezenței unui prieten se află în PresenceManager, cum ar fi:
<signal name="newBuddyNotification" tp:name-for-bindings="newBuddyNotification">
<tp:added version="1.3.0"/>
<tp:docstring>
Notify when a registered presence uri presence informations changes
</tp:docstring>
<arg type="s" name="accountID">
<tp:docstring>
The associated account
</tp:docstring>
</arg>
<arg type="s" name="buddyUri">
<tp:docstring>
The registered URI
</tp:docstring>
</arg>
<arg type="b" name="status">
<tp:docstring>
Is the URI present or not
</tp:docstring>
</arg>
<arg type="s" name="lineStatus">
<tp:docstring>
A string containing informations from the user (human readable)
</tp:docstring>
</arg>
</signal>
Toate metodele și semnalele utilizate pentru gestionarea cererilor de încredere și a contacților se află în ConfigurationManager, cum ar fi:
<method name="getTrustRequests" tp:name-for-bindings="getTrustRequests">
<tp:added version="2.2.0"/>
<arg type="s" name="accountID" direction="in">
</arg>
<annotation name="org.qtproject.QtDBus.QtTypeName.Out0" value="VectorMapStringString"/>
<arg type="aa{ss}" name="requests" direction="out" >
<tp:docstring>
A list of contact request details. Details:
- from: account ID of sender
- received: UNIX timestamp of reception date
- payload: attached payload
</tp:docstring>
</arg>
</method>
<method name="acceptTrustRequest" tp:name-for-bindings="acceptTrustRequest">
<tp:added version="2.2.0"/>
<arg type="s" name="accountID" direction="in">
</arg>
<arg type="s" name="from" direction="in">
</arg>
<arg type="b" name="success" direction="out" tp:type="Boolean">
<tp:docstring>
True if the operation succeeded.
</tp:docstring>
</arg>
</method>
<method name="discardTrustRequest" tp:name-for-bindings="discardTrustRequest">
<tp:added version="2.2.0"/>
<arg type="s" name="accountID" direction="in">
</arg>
<arg type="s" name="from" direction="in">
</arg>
<arg type="b" name="success" direction="out" tp:type="Boolean">
<tp:docstring>
True if the operation succeeded.
</tp:docstring>
</arg>
</method>
<signal name="incomingTrustRequest" tp:name-for-bindings="incomingTrustRequest">
<tp:added version="2.2.0"/>
<tp:docstring>
Notify clients that a new contact request has been received.
</tp:docstring>
<arg type="s" name="accountID">
</arg>
<arg type="s" name="from">
</arg>
<arg type="ay" name="payload">
</arg>
<arg type="t" name="receiveTime">
</arg>
</signal>
<method name="sendTrustRequest" tp:name-for-bindings="sendTrustRequest">
<tp:added version="2.2.0"/>
<arg type="s" name="accountID" direction="in">
</arg>
<arg type="s" name="to" direction="in">
</arg>
<arg type="ay" name="payload" direction="in">
</arg>
</method>
<method name="addContact" tp:name-for-bindings="addContact">
<tp:added version="3.0.0"/>
<arg type="s" name="accountID" direction="in">
</arg>
<arg type="s" name="uri" direction="in">
</arg>
</method>
<method name="removeContact" tp:name-for-bindings="removeContact">
<tp:added version="3.0.0"/>
<arg type="s" name="accountID" direction="in">
</arg>
<arg type="s" name="uri" direction="in">
</arg>
<arg type="b" name="ban" direction="in" tp:type="Boolean">
<tp:docstring>
True if the the contact should be banned.
If false, the contact is removed from the contact list (banned or not).
</tp:docstring>
</arg>
</method>
Dacă doriţi câteva exemple, aceste metode sunt utilizate în contactmodel.cpp în LRC.