Exemplo n.º 1
0
void DoOpenUrl(LPSTR tokenResp, LPSTR url)
{
	ptrA encodedUrl(mir_urlEncode(url)), encodedToken(mir_urlEncode(tokenResp));
	size_t size = mir_strlen(TOKEN_AUTH_URL) + 1 + mir_strlen(encodedToken) + mir_strlen(encodedUrl);
	LPSTR composedUrl = (LPSTR)alloca(size);
	mir_snprintf(composedUrl, size, TOKEN_AUTH_URL, encodedToken, encodedUrl);
	Utils_OpenUrl(composedUrl);
}
Exemplo n.º 2
0
// TODO: 
//   how to handle lastEdited?
//   how to handle lastUpdated?
//   consider handling case where no properties are included... we should just ignore this packet...
//
// TODO: Right now, all possible properties for all subclasses are handled here. Ideally we'd prefer
//       to handle this in a more generic way. Allowing subclasses of EntityItem to register their properties
//
// TODO: There's a lot of repeated patterns in the code below to handle each property. It would be nice if the property
//       registration mechanism allowed us to collapse these repeated sections of code into a single implementation that
//       utilized the registration table to shorten up and simplify this code.
//
// TODO: Implement support for paged properties, spanning MTU, and custom properties
//
// TODO: Implement support for script and visible properties.
//
bool EntityItemProperties::decodeEntityEditPacket(const unsigned char* data, int bytesToRead, int& processedBytes,
                        EntityItemID& entityID, EntityItemProperties& properties) {
    bool valid = false;

    const unsigned char* dataAt = data;
    processedBytes = 0;

    // the first part of the data is an octcode, this is a required element of the edit packet format, but we don't
    // actually use it, we do need to skip it and read to the actual data we care about.
    int octets = numberOfThreeBitSectionsInCode(data);
    int bytesToReadOfOctcode = bytesRequiredForCodeLength(octets);

    // we don't actually do anything with this octcode...
    dataAt += bytesToReadOfOctcode;
    processedBytes += bytesToReadOfOctcode;
    
    // Edit packets have a last edited time stamp immediately following the octcode.
    // NOTE: the edit times have been set by the editor to match out clock, so we don't need to adjust
    // these times for clock skew at this point.
    quint64 lastEdited;
    memcpy(&lastEdited, dataAt, sizeof(lastEdited));
    dataAt += sizeof(lastEdited);
    processedBytes += sizeof(lastEdited);
    properties.setLastEdited(lastEdited);

    // NOTE: We intentionally do not send "created" times in edit messages. This is because:
    //   1) if the edit is to an existing entity, the created time can not be changed
    //   2) if the edit is to a new entity, the created time is the last edited time

    // encoded id
    QByteArray encodedID((const char*)dataAt, NUM_BYTES_RFC4122_UUID); // maximum possible size
    QUuid editID = QUuid::fromRfc4122(encodedID);
    dataAt += encodedID.size();
    processedBytes += encodedID.size();

    bool isNewEntityItem = (editID == NEW_ENTITY);

    if (isNewEntityItem) {
        // If this is a NEW_ENTITY, then we assume that there's an additional uint32_t creatorToken, that
        // we want to send back to the creator as an map to the actual id

        QByteArray encodedToken((const char*)dataAt, (bytesToRead - processedBytes));
        ByteCountCoded<quint32> tokenCoder = encodedToken;
        quint32 creatorTokenID = tokenCoder;
        encodedToken = tokenCoder; // determine true bytesToRead
        dataAt += encodedToken.size();
        processedBytes += encodedToken.size();

        //newEntityItem.setCreatorTokenID(creatorTokenID);
        //newEntityItem._newlyCreated = true;
        
        entityID.id = NEW_ENTITY;
        entityID.creatorTokenID = creatorTokenID;
        entityID.isKnownID = false;

        valid = true;

        // created time is lastEdited time
        properties.setCreated(lastEdited);
    } else {
        entityID.id = editID;
        entityID.creatorTokenID = UNKNOWN_ENTITY_TOKEN;
        entityID.isKnownID = true;
        valid = true;

        // created time is lastEdited time
        properties.setCreated(USE_EXISTING_CREATED_TIME);
    }

    // Entity Type...
    QByteArray encodedType((const char*)dataAt, (bytesToRead - processedBytes));
    ByteCountCoded<quint32> typeCoder = encodedType;
    quint32 entityTypeCode = typeCoder;
    properties.setType((EntityTypes::EntityType)entityTypeCode);
    encodedType = typeCoder; // determine true bytesToRead
    dataAt += encodedType.size();
    processedBytes += encodedType.size();

    // Update Delta - when was this item updated relative to last edit... this really should be 0
    // TODO: Should we get rid of this in this in edit packets, since this has to always be 0?
    // TODO: do properties need to handle lastupdated???

    // last updated is stored as ByteCountCoded delta from lastEdited
    QByteArray encodedUpdateDelta((const char*)dataAt, (bytesToRead - processedBytes));
    ByteCountCoded<quint64> updateDeltaCoder = encodedUpdateDelta;
    encodedUpdateDelta = updateDeltaCoder; // determine true bytesToRead
    dataAt += encodedUpdateDelta.size();
    processedBytes += encodedUpdateDelta.size();

    // TODO: Do we need this lastUpdated?? We don't seem to use it.
    //quint64 updateDelta = updateDeltaCoder;
    //quint64 lastUpdated = lastEdited + updateDelta; // don't adjust for clock skew since we already did that for lastEdited
    
    // Property Flags...
    QByteArray encodedPropertyFlags((const char*)dataAt, (bytesToRead - processedBytes));
    EntityPropertyFlags propertyFlags = encodedPropertyFlags;
    dataAt += propertyFlags.getEncodedLength();
    processedBytes += propertyFlags.getEncodedLength();

    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_POSITION, glm::vec3, setPosition);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_DIMENSIONS, glm::vec3, setDimensions);  // NOTE: PROP_RADIUS obsolete
    READ_ENTITY_PROPERTY_QUAT_TO_PROPERTIES(PROP_ROTATION, setRotation);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_MASS, float, setMass);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_VELOCITY, glm::vec3, setVelocity);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_GRAVITY, glm::vec3, setGravity);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_DAMPING, float, setDamping);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_LIFETIME, float, setLifetime);
    READ_ENTITY_PROPERTY_STRING_TO_PROPERTIES(PROP_SCRIPT,setScript);
    READ_ENTITY_PROPERTY_COLOR_TO_PROPERTIES(PROP_COLOR, setColor);
    READ_ENTITY_PROPERTY_STRING_TO_PROPERTIES(PROP_MODEL_URL, setModelURL);
    READ_ENTITY_PROPERTY_STRING_TO_PROPERTIES(PROP_ANIMATION_URL, setAnimationURL);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_ANIMATION_FPS, float, setAnimationFPS);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_ANIMATION_FRAME_INDEX, float, setAnimationFrameIndex);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_ANIMATION_PLAYING, bool, setAnimationIsPlaying);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_REGISTRATION_POINT, glm::vec3, setRegistrationPoint);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_ANGULAR_VELOCITY, glm::vec3, setAngularVelocity);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_ANGULAR_DAMPING, float, setAngularDamping);
    READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_VISIBLE, bool, setVisible);

    return valid;
}