Beispiel #1
0
        std::string formatUuid(mongo::BSONElement &element, Robomongo::UUIDEncoding encoding)
        {
            mongo::BinDataType binType = element.binDataType();

            if (binType != mongo::newUUID && binType != mongo::bdtUUID)
                throw new std::invalid_argument("Binary subtype should be 3 (bdtUUID) or 4 (newUUID)");

            int len;
            const char *data = element.binData(len);
            std::string hex = HexUtils::toStdHexLower(data, len);

            if (binType == mongo::bdtUUID) {
                std::string uuid = HexUtils::hexToUuid(hex, encoding);

                switch(encoding) {
                case DefaultEncoding: return "LUUID(\"" + uuid + "\")";
                case JavaLegacy:      return "JUUID(\"" + uuid + "\")";
                case CSharpLegacy:    return "NUUID(\"" + uuid + "\")";
                case PythonLegacy:    return "PYUUID(\"" + uuid + "\")";
                default:              return "LUUID(\"" + uuid + "\")";
                }
            } else {
                std::string uuid = HexUtils::hexToUuid(hex, DefaultEncoding);
                return "UUID(\"" + uuid + "\")";
            }
        }
Beispiel #2
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        bool isUuidType(const mongo::BSONElement &elem) 
        {
            if (elem.type() != mongo::BinData)
                return false;

            mongo::BinDataType binType = elem.binDataType();
            return (binType == mongo::newUUID || binType == mongo::bdtUUID);
        }
void repo::core::RepoNodeMesh::retrieveFacesArray(
    const mongo::BSONElement &bse,
    const unsigned int api,
    const unsigned int facesByteCount,
    const unsigned int facesCount,
    std::vector<aiFace> *faces)
{
    //--------------------------------------------------------------------------
    // TODO make use of RepoTranscoderBSON to retrieve vector of unsigned int
    if (REPO_NODE_API_LEVEL_1 == api)
    {
        faces->resize(facesCount);
        unsigned int * serializedFaces = new unsigned int[facesByteCount/sizeof(unsigned int)];
        if (NULL != faces &&
                NULL != serializedFaces &&
                facesCount > 0 &&
                bse.binDataType() == mongo::BinDataGeneral)
        {
            // Copy over all the integers
            int len = (int) facesByteCount;
            const char *binData = bse.binData(len);
            memcpy(serializedFaces, binData, facesByteCount);

            // Retrieve numbers of vertices for each face and subsequent
            // indices into the vertex array.
            // In API level 1, mesh is represented as
            // [n1, v1, v2, ..., n2, v1, v2...]
            unsigned int counter = 0;
            int mNumIndicesIndex = 0;
            while (counter < facesCount)
            {
                int mNumIndices = serializedFaces[mNumIndicesIndex];
                aiFace face;
                face.mNumIndices = mNumIndices;
                unsigned int *indices = new unsigned int[mNumIndices];
                for (int i = 0; i < mNumIndices; ++i)
                    indices[i] = serializedFaces[mNumIndicesIndex + 1 + i];
                face.mIndices = indices;
                (*faces)[counter] = face;
                mNumIndicesIndex = mNumIndicesIndex + mNumIndices + 1;
                ++counter;
            }
        }

        // Memory cleanup
        if (NULL != serializedFaces)
            delete [] serializedFaces;

    }
    else if (REPO_NODE_API_LEVEL_2 == api)
    {
        // TODO: triangles only
    }
    else if (REPO_NODE_API_LEVEL_3 == api)
    {
        // TODO: compression
    }
}
Datum convert_element<int>(PG_FUNCTION_ARGS, const mongo::BSONElement e)
{
    if(e.type() == mongo::NumberInt)
    {
        PG_RETURN_INT32(e._numberInt());
    }
    else
    {
        throw convertion_error("int4");
    }
}
Datum convert_element<std::string>(PG_FUNCTION_ARGS, const mongo::BSONElement e)
{
    std::stringstream ss;
    switch(e.type())
    {
        case mongo::String:
        case mongo::DBRef:
        case mongo::Symbol:
            return return_string(std::string(e.valuestr(), e.valuestrsize()-1));

        case mongo::NumberDouble:
            ss << e._numberDouble();
            break;

        case mongo::jstOID:
            ss << e.__oid().str();
            break;

        case mongo::Bool:
            ss << std::boolalpha << e.boolean();
            break;

        case mongo::Date:
            return return_string(
                to_iso_extended_string(
                    boost::posix_time::ptime(
                        boost::gregorian::date(1970, 1, 1),
                        boost::posix_time::milliseconds(e.date().millis)
                        )
                    )
                );

        case mongo::RegEx:
            ss << e.regex();
            break;

        case mongo::NumberInt:
            ss << e._numberInt();
            break;

        case mongo::NumberLong:
            ss << e._numberLong();
            break;

        default:
            throw convertion_error("text");

    }
    return return_string(ss.str());
}
Datum convert_element<int64>(PG_FUNCTION_ARGS, const mongo::BSONElement e)
{
    switch(e.type())
    {
        case mongo::NumberLong:
            PG_RETURN_INT64(e._numberLong());

        // this conversion has to be imlicitly allowedm, otherwise defining object form json would be pain int the ass
        case mongo::NumberInt:
            PG_RETURN_INT64(static_cast<int64>(e._numberInt()));

        default:
            throw convertion_error("int8");
    }
}
Beispiel #7
0
bool GroupCache::Replicate(const mongo::BSONElement& id)
{
  if (id.type() != 16) return true;
  acl::GroupID gid = id.Int();

  try
  {
    SafeConnection conn;  
    auto fields = BSON("gid" << 1 << "name" << 1);
    auto data = conn.QueryOne<GroupPair>("groups", QUERY("gid" << gid), &fields);
    if (data)
    {
      // group found, refresh cached data
      {
        std::lock_guard<std::mutex> lock(gidsMutex);
        gids[data->name] = data->gid;
      }
      
      {
        std::lock_guard<std::mutex> lock(namesMutex);
        names[data->gid] = data->name;
      }
    }
    else
    {
      // group not found, must be deleted, remove from cache
      std::lock(gidsMutex, namesMutex);
      std::lock_guard<std::mutex> gidsLock(gidsMutex, std::adopt_lock);
      std::lock_guard<std::mutex> namesLock(namesMutex, std::adopt_lock);
      
      auto it = names.find(gid);
      if (it != names.end())
      {
        gids.erase(it->second);
        names.erase(it);
      }
    }
  }
  catch (const DBError&)
  {
    return false;
  }
  
  return true;
}
Beispiel #8
0
repoUUID RepoBSON::getUUIDField(const std::string &label) const{
	repoUUID uuid;
	if (hasField(label))
	{

		const mongo::BSONElement bse = getField(label);
		if (bse.type() == mongo::BSONType::BinData && (bse.binDataType() == mongo::bdtUUID ||
			bse.binDataType() == mongo::newUUID))
		{
			int len = static_cast<int>(bse.size() * sizeof(boost::uint8_t));
			const char *binData = bse.binData(len);
			memcpy(uuid.data, binData, len);
		}
		else
		{
			repoError << "Field  " << label << " is not of type UUID!";
			uuid = generateUUID();  // failsafe
		}
	}
	else
	{
		repoError << "Field  " << label << " does not exist!";
		uuid = generateUUID();  // failsafe
	}

	return uuid;
}
Beispiel #9
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            mongo::BSONObj getField<mongo::BSONObj>(const mongo::BSONElement &elem) 
            {
                mongo::BSONObj res;
                try
                {
                   res = elem.Obj();
                }
                catch(const UserException &)
                {

                }
                return res;
            }
Beispiel #10
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	std::string MongoSchema::getType(mongo::BSONElement belem){
		
		if(belem.isABSONObj()) {	
			return "BSON";
		}else if(belem.isSimpleType()){
			// Simple Type: Number, String, Date, Bool or OID
			if(belem.isNumber()){
				return "Number";
			}else if(belem.type() == mongo::String){
				return "String";
			}else if(belem.type() == mongo::Date){
				return "Date";
			}else if(belem.type() == mongo::Bool){
				return "Boolean";
			}else{
				return "Other";
			}
			
		}else{
			return "Unknown";
		}		
	}
Beispiel #11
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 mongo::BSONObj getField<mongo::BSONObj>(const mongo::BSONElement &elem) 
 {
     return elem.embeddedObject();
 }
Beispiel #12
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 long long getField<long long>(const mongo::BSONElement &elem)
 {
     return elem.safeNumberLong();
 }
Beispiel #13
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 int getField<int>(const mongo::BSONElement &elem)
 {
     return elem.Int();
 }
Beispiel #14
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bool UserCache::Replicate(const mongo::BSONElement& id)
{
  if (id.type() != 16) return true;
  acl::UserID uid = id.Int();

  updatedCallback(uid);
  
  try
  {
    SafeConnection conn;  
    auto fields = BSON("uid" << 1 << "name" << 1 << "primary gid" << 1);
    auto data = conn.QueryOne<UserTriple>("users", QUERY("uid" << uid), &fields);
    if (data)
    {
      // user found, refresh cached data
      {
        std::lock_guard<std::mutex> lock(uidsMutex);
        uids[data->name] = data->uid;
      }
      
      {
        std::lock_guard<std::mutex> lock(namesMutex);
        names[data->uid] = data->name;
      }
      
      {
        std::lock_guard<std::mutex> lock(primaryGidsMutex);
        primaryGids[data->uid] = data->primaryGid;
      }
      
      auto masks = LookupIPMasks(conn, uid);
      
      {
        std::lock_guard<std::mutex> lock(ipMasksMutex);
        ipMasks[data->uid] = std::move(masks);
      }
    }
    else
    {
      // user not found, must be deleted, remove from cache
      {
        std::lock(uidsMutex, namesMutex);
        std::lock_guard<std::mutex> uidsLock(uidsMutex, std::adopt_lock);
        std::lock_guard<std::mutex> namesLock(namesMutex, std::adopt_lock);
        
        auto it = names.find(uid);
        if (it != names.end())
        {
          uids.erase(it->second);
          names.erase(it);
        }
      }
      
      {
        std::lock_guard<std::mutex> lock(primaryGidsMutex);
        primaryGids.erase(uid);
      }
      
      {
        std::lock_guard<std::mutex> lock(ipMasksMutex);
        ipMasks.erase(uid);
      }
    }
  }
  catch (const DBError&)
  {
    return false;
  }
  
  return true;
}
Beispiel #15
0
 bool getField<bool>(const mongo::BSONElement &elem)
 {
     return elem.Bool();
 }
Beispiel #16
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 std::string getField<std::string>(const mongo::BSONElement &elem)
 {
     return elem.String();
 }
Beispiel #17
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 int decode(T *t, const mongo::BSONElement &elm){
     int len = 0;            
     const char *p = elm.binData(len);
     memcpy((t->*ptr).id, p, len);                
     return 0;                                       
 }                                                       
Beispiel #18
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 bool isArray(const mongo::BSONElement &elem)
 {
     return isArray(elem.type());
 }
Beispiel #19
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 bool isDocument(const mongo::BSONElement &elem)
 {
     return isDocument(elem.type());
 }
Beispiel #20
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 std::vector<BSONElement> getField<std::vector<BSONElement> >(const mongo::BSONElement &elem)
 {
     return elem.Array();
 }
Beispiel #21
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        void buildJsonString(const mongo::BSONElement &elem,std::string &con, UUIDEncoding uuid, SupportedTimes tz)
        {
            switch (elem.type())
            {
            case NumberDouble:
                {
                    char dob[32] = {0};
                    sprintf(dob, "%f", elem.Double());
                    con.append(dob);
                }
                break;
            case String:
                {
                    con.append(elem.valuestr(), elem.valuestrsize() - 1);
                }
                break;
            case Object:
                {
                    buildJsonString(elem.Obj(), con, uuid, tz);
                }
                break;
            case Array:
                {
                    buildJsonString(elem.Obj(), con, uuid, tz);
                }
                break;
            case BinData:
                {
                    mongo::BinDataType binType = elem.binDataType();
                    if (binType == mongo::newUUID || binType == mongo::bdtUUID) {
                        std::string uu = HexUtils::formatUuid(elem, uuid);
                        con.append(uu);
                        break;
                    }
                    con.append("<binary>");
                }
                break;
            case Undefined:
                con.append("<undefined>");
                break;
            case jstOID:
                {
                    std::string idValue = elem.OID().toString();
                    char buff[256] = {0};
                    sprintf(buff, "ObjectId(\"%s\")", idValue.c_str());
                    con.append(buff);
                }
                break;
            case Bool:
                con.append(elem.Bool() ? "true" : "false");
                break;
            case Date:
                {
                    long long ms = (long long) elem.Date().millis;

                    boost::posix_time::ptime epoch(boost::gregorian::date(1970,1,1));
                    boost::posix_time::time_duration diff = boost::posix_time::millisec(ms);
                    boost::posix_time::ptime time = epoch + diff;

                    std::string date = miutil::isotimeString(time,false,tz==LocalTime);

                    con.append(date);
                    break;
                }
            case jstNULL:
                con.append("<null>");
                break;

            case RegEx:
                {
                    con.append("/" + std::string(elem.regex()) + "/");

                    for ( const char *f = elem.regexFlags(); *f; ++f ) {
                        switch ( *f ) {
                        case 'g':
                        case 'i':
                        case 'm':
                            con+=*f;
                        default:
                            break;
                        }
                    }
                }
                break;
            case DBRef:
                break;
            case Code:
                con.append(elem._asCode());
                break;
            case Symbol:
                con.append(elem.valuestr(), elem.valuestrsize() - 1);
                break;
            case CodeWScope:
                {
                    mongo::BSONObj scope = elem.codeWScopeObject();
                    if (!scope.isEmpty() ) {
                        con.append(elem._asCode());
                        break;
                    }
                }
                break;
            case NumberInt:
                {
                    char num[16]={0};
                    sprintf(num,"%d",elem.Int());
                    con.append(num);
                    break;
                }           
            case Timestamp:
                {
                    Date_t date = elem.timestampTime();
                    unsigned long long millis = date.millis;
                    if ((long long)millis >= 0 &&
                        ((long long)millis/1000) < (std::numeric_limits<time_t>::max)()) {
                            con.append(date.toString());
                    }
                    break;
                }
            case NumberLong:
                {
                    char num[32]={0};
                    sprintf(num,"%lld",elem.Long());
                    con.append(num);
                    break; 
                }
            default:
                con.append("<unsupported>");
                break;
            }
        }
Beispiel #22
0
 bool isSimpleType(const mongo::BSONElement &elem) 
 {
     return isSimpleType(elem.type()); 
 }
Beispiel #23
0
 double getField<double>(const mongo::BSONElement &elem)
 {
     return elem.numberDouble();
 }