RU2519470C1 - Method for secure distribution of multimedia information by peer-to-peer decentralised network deployment and decentralised network for realising said method - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: method of distributing multimedia information includes broadcasting a requested stream of secure multimedia information from a broadcaster node through a public repeater node. The decentralised network includes a set of nodes: a network member, public repeater nodes which facilitate relaying of the stream of multimedia information, broadcasters which facilitate broadcasting of the stream of multimedia information, channel classification and stream broadcast configuration. When broadcasting the multimedia information, the original stream is divided into segments based on the time said segments were formed, while assigning a unique and a permanent identifier. Each segment is loaded into a storage buffer of a member node, followed by copying of the segment into a playback buffer and deleting the copied segment.

EFFECT: high reliability of delivering a stream of multimedia information to a user.

13 cl, 1 dwg

Description

The present invention relates to computer networks, namely, networks based on the equality of participants.

Currently, decentralized networks (peer-to-peer networks, peer-to-peer networks) are known and actively developed and used, in which each computer node is allocated simultaneously for client and server functions, used to organize the exchange of files of various types, distributed computing, modeling and management of various processes. As an example of such a network, a network may be selected for distributing multimedia information files and described, for example, in RU 2415514 and RU 2374681.

The disadvantage of these networks is the inability to transmit streaming information in real time, as well as a decrease in the transmission speed and quality of service with a significant increase in the number of network users.

In turn, the invention will eliminate these drawbacks of known solutions, that is, it will provide an opportunity and improve the quality of delivery of a stream of multimedia information when it is transmitted to a large number of users of a decentralized network, which is important when the number of users of a decentralized network grows, and also ensures continuity of service. In general, the invention will expand the arsenal of technical means used in the operation of decentralized networks, as well as increase the reliability of the decentralized network in comparison with analogues.

The above technical result will be achieved by using the proposed method of secure (sustainable) distribution of multimedia information by deploying a peer-to-peer decentralized network using the appropriate decentralized network.

A method for distributing multimedia information is based on the deployment of a peer-to-peer decentralized network comprising at least one member of a network member connected through at least one public repeater node to at least one broadcasting node providing broadcasting the flow of multimedia information in respect of which protection measures have been taken. That is, multimedia information can be transmitted together with the network configuration parameters, while multimedia information can be signed using asymmetric keys or can be transmitted in encrypted form using a symmetric key. When implementing the method, the required multimedia information stream is jointly requested from the node of the network participant, for which protection measures have been taken (i.e., the multimedia information stream broadcast together with the network configuration parameters signed using asymmetric keys, or transmitted encrypted using a symmetric key ) The participant node is connected in series to at least one channel cataloging node and to at least one stream broadcast configuration node. Next, the requested multimedia information stream, in respect of which protection measures have been taken (i.e., the multimedia information stream broadcast together with the network configuration parameters signed using asymmetric keys, or broadcast in encrypted form using a symmetric key), is transmitted from the broadcaster’s node when, at least one connection through a public repeater node.

When broadcasting, the initial stream is divided into segments based on the time these segments were formed, with a unique and constant identifier assigned to each segment, each segment is loaded into the participant node’s storage buffer, then the segment is copied to the playback buffer and the specified copied segment is deleted from the storage buffer if it is not practical further save. If the public repeater node is unavailable, the participant node is connected to at least one stream broadcast configuration node. At regular intervals, a participant’s node can be connected to at least one statistics and service information exchange node. If it is not possible to broadcast the stream by the broadcaster to all public repeater nodes, at least one public repeater node may be connected to at least one hidden repeater node. In case of inaccessibility of the broadcaster’s node, the public and / or hidden repeater node may be connected to at least one backup broadcaster node.

A decentralized network includes at least one network member node. At the same time, at least two nodes of the network participant are interconnected. Also, a decentralized network includes at least one public repeater node for relaying at least one stream of multimedia information in respect of which protection measures have been taken, and at least one broadcaster node connected to the network participant node, providing the broadcast of one stream of the specified secure multimedia information connected to the repeater node. That is, multimedia information is provided either in conjunction with the configuration parameters of a network signed using asymmetric keys, or in encrypted form using a symmetric key. To control the operation of the network, at least one channel cataloging node is connected that is connected to the network member node, at least one stream translation configuration node connected to the network member node. Additionally, the network may include at least one node statistics and exchange of service information connected to the node of the network member, at least one hidden repeater node connected to the public repeater node, as well as at least one backup broadcaster node, providing broadcasting a single stream of multimedia information and connected to public and / or hidden repeater nodes, with the exception of communication with the host of the main broadcaster. The statistics node, the network participant node, the public and / or hidden repeater node are allocated for the exchange of service information.

The proposed network consists of a set of peer nodes of network participants (peer) 1 ₁ ... 1 _n , each of which provides the opportunity to interact with similar nodes of network participants. The nodes of network participants can be desktop or laptop personal computers, programmable mobile communication terminals connected to a wired or wireless network, as well as various household or specialized multimedia devices (televisions, multimedia consoles, etc.). Each of the nodes of network participants 1 ₁ ... 1 _n can be connected to any public nodes of a decentralized network, with the exception of broadcasters, namely to any nodes (i.e. corresponding servers) of a public spreader 2 relaying streams of multimedia information requested from nodes (i.e., corresponding servers of broadcasters) of broadcasters (streamer) 3 ₁ ... 3 _m , allocated for their information flow. To control the work and control the network, the following ones are selected, executed on one or several servers and accessible from any of the nodes of the network participants 1 ₁ ... 1 _n : channel provider node (channel provider) 4, configuration node for stream broadcasting (configurator) 5, statistics node (big brother) 6. Statistics node 6 provides the collection of statistical data used to assess the quality of network operation, as well as the exchange of addresses of network participants, characteristics of nodes of network participants 1 ₁ ... 1 _n , and configuration data. The optimal network operation is ensured by the hidden nodes (i.e., the corresponding servers) of the repeater (private spreader) 7, connected to the public nodes (i.e., the corresponding servers) of the repeater 2. Also, the smooth operation of the network is provided by the nodes (i.e., the corresponding servers) ) backup streamer 8 connected exclusively to public 2 and / or hidden 7 repeater nodes.

When connecting network nodes to each other to download a stream segment, service information is exchanged that determines the network configuration at the time of publication of the corresponding segment, including cryptographic information, as well as the exchange of lists of network nodes known to the nodes involved in the connection.

After the deployment of a decentralized network, including the nodes listed above, any of the nodes of the network participants 1 ₁ ... 1 _n can be requested the user-requested stream of multimedia information (video, audio content, etc.). The requested stream of multimedia information is broadcast from the selected node of the broadcaster 3 through the public node of the repeater 2. A stream of multimedia information is provided, for which protection measures have been taken: broadcast of multimedia information together with network configuration parameters; broadcasting multimedia information signed using asymmetric keys, together with network configuration parameters, including digitally signing a segment, broadcasting multimedia information encrypted using a symmetric key, also in conjunction with network configuration parameters. During the broadcast, the initial broadcast stream is divided into segments based on the time of formation of these segments, with each segment being assigned a unique and constant identifier, including information on the period of use of the segment during network operation. Upon entering the network participants 1 node, each selected segment is loaded into the storage buffer of participant 1 node, followed by copying the segment to the playback buffer and deleting the specified copied segment from the storage buffer if it is not practical to further save it (the segment exceeds the usage period set for it, the buffer overflows and etc.). When requesting a stream broadcast, participant 1 node is connected to channel cataloging node 4 to request a channel with the corresponding identifier.

The participant receives the channel identifier during the initialization of the viewing session by the user, for example, in the parameters from the web client, the DLNA parameters of the request by the TV receiver, in similar ways. After connecting to the channel cataloging node, or the public 2 repeater nodes are unavailable during operation, participant node 1 is connected to the stream broadcast configuration node 4. In addition, participant nodes are connected to statistics node 6 at regular intervals. If the stream cannot be broadcast to all public Repeater nodes The public node of the repeater 2 is connected to the hidden node of the repeater 7, in turn, the public 2 and / or hidden 7 node of the repeater is connected to the node of the backup STUDIO 8.

A feature of the operation of the proposed decentralized network, that is, a feature of the distribution of multimedia information through the proposed network is the transmission of multimedia information, for which protection measures have been taken. For different channels different content protection can be used.

For example, transmission of network configuration parameters together with multimedia information may be provided. Configuration parameters include constant parameters, rarely changing parameters, dynamically changing parameters. Constant parameters include the interval of segment formation; broadcast name, broadcast type (stream or video on demand), etc., these parameters are transmitted to the network member 1 ₁ ... 1 _n (peer) upon the first request to the stream broadcast configuration node 5. Rarely changing parameters characterize the structure of nodes (server structure ) of a decentralized network and includes a list of repeater nodes 2 and 7, the address of the statistics node 6, the frequency of sending statistics, information about the client software used, etc. Dynamically changing parameters vary from request to request between any network participants 1 ₁ ... 1 _n and include the current list of participants 1 ₁ ... 1 _{n-1 of} this network participant 1 _n , a list of segment identifiers available for this participant 1 _n , its status and network configuration of a peer, etc. It is advisable to transmit rarely changing parameters and dynamically changing parameters over the network with each data segment. When transmitting configuration parameters together with multimedia information, the network is decentralized. In this case, after connecting to the network, the network participant node 1 ₁ ... 1 _n no longer uses third-party resources (network trackers and similar services) to maintain operation (except for the statistics collection server, the failure of which does not lead to disruption of the network). All the necessary information about the operation and status of the network, the node of the network participant 1 ₁ ... 1 _n receives from the configuration parameters that are transmitted from node to node.

It is possible to broadcast a stream of multimedia information signed using an asymmetric key. In this case, the transmitted multimedia information is protected from spoofing (poisoning of the decentralized network) when it is transferred from node to node 1 ₁ ... 1 _n and the transmitted multimedia information (content) is checked for immutability (validity). In this case, the first private key is known only on the nodes of the broadcaster 3 ₁ ... 3 _m . Using a private key, each segment of the multimedia information stream is signed, that is, a digital signature is generated that is unique for each segment and transmitted in the configuration parameters for this segment.

To verify the signature is used the public key obtained by the node of the network participant 1 ₁ ... 1 _n at the initial stage of operation of the node or network, that is, at the time of configuration. If the content of the multimedia information (content) has been changed, the signature will not pass verification. Since without knowledge of the private key it is impossible to sign the content, the changed content will not be distributed over the network, and the network member node 1 ₁ ... 1 _n distributing the replaced content will be marked as bad and information about it will not be distributed. In another case, to protect multimedia information (content) from unauthorized access by an unlimited number of users, it is possible to broadcast a stream of multimedia information encrypted using a symmetric key. In this case, the key is known to all nodes of the network member 1 ₁ ... 1 _n , however, in order to find out the key, the node 1 ₁ ... 1 _n must confirm its rights to access the content. That is, at the configuration stage, the node receives a link to the key server node (not shown in the diagram), to which the unique identifier of the network user (viewer) is transmitted. The key server checks the rights of the viewer and, if successful, issues a key for the operation of the network node, if the verification fails, the node of the network participant does not receive the key and cannot participate in the network.

Thus, the proposed method for distributing multimedia information by deploying a peer-to-peer decentralized network, as well as a decentralized network that implements the proposed method, will provide highly reliable and fast delivery of multimedia information streams to the consumer.

Claims (13)

1. The method of distribution of multimedia information, including
deployment of a peer-to-peer decentralized network, including
at least one node of the network participant, connected through at least one public repeater node with at least one broadcaster node, which provides the broadcast of the multimedia information stream in respect of which protection measures have been taken,
request from the node of the network participant of the required stream of multimedia information, in respect of which protection measures have been taken,
serial connection of the participant’s node to at least one channel cataloging node and to at least one stream broadcast configuration node,
broadcasting the requested stream of multimedia information, in respect of which protection measures have been taken, segmented from the broadcaster’s node to the network participant’s node with at least one connection through the public repeater node,
moreover, when broadcasting multimedia information, the initial stream is divided into segments based on the time of formation of these segments, with each segment being assigned a unique and constant identifier,
in addition, each segment is loaded into the storage buffer of the participant’s node, followed by copying the segment to the playback buffer and deleting the specified copied segment from the storage buffer if it is not practical to store it further. 2. The method according to claim 1, characterized in that the broadcast stream of multimedia information in conjunction with the configuration parameters of the network,
moreover, a request is made from the node of the network participant of the required stream of multimedia information and the subsequent translation of the requested stream of this information from the node of the broadcaster to the node of the network participant, together with the network configuration parameters. 3. The method according to claim 2, characterized in that the broadcast stream of multimedia information signed using an asymmetric key,
moreover, a request is made from the node of the network participant of the required stream of multimedia information signed using an asymmetric key, and the subsequent broadcast of the requested stream of this information from the node of the broadcaster to the node of the network participant. 4. The method according to claim 2, characterized in that the broadcast stream of multimedia information encrypted using a symmetric key,
moreover, a request is made from the node of the network participant of the required stream of multimedia information encrypted using a symmetric key, and the subsequent broadcast of the requested stream of this information from the node of the broadcaster to the node of the network participant. 5. A decentralized network comprising at least one node of a network participant;
at least one public repeater node for relaying at least one stream of multimedia information in respect of which protection measures have been taken and connected to a network participant node;
at least one channel cataloging node connected to a network member node;
at least one stream broadcast configuration node connected to a network member node;
at least one node of the broadcaster connected to the node of the repeater, providing the broadcast of one stream of multimedia information, in respect of which protection measures have been taken, and segmented
based on the formation time of the segments of the original multimedia information stream, with each segment being assigned a unique and constant identifier,
in addition, each segment is loaded into the storage buffer of the participant’s node, followed by copying the segment to the playback buffer and deleting the specified copied segment from the storage buffer if it is not practical to store it further. 6. The network according to claim 5, characterized in that the multimedia information stream is broadcast together with the network configuration parameters. 7. The network according to claim 6, characterized in that the stream of multimedia information signed using an asymmetric key is broadcast. 8. The network according to claim 6, characterized in that the stream of multimedia information encrypted using a symmetric key is broadcast. 9. The network according to any one of paragraphs. 6 ÷ 8, characterized in that at least two nodes of the network participant are interconnected. 10. The network according to any one of paragraphs. 6 ÷ 8, characterized in that it includes at least one statistics node connected to the network member node. 11. The network according to any one of paragraphs. 6 ÷ 8, characterized in that it includes at least one hidden repeater node connected to a public repeater node. 12. The network according to any one of paragraphs. 6 ÷ 8, characterized in that it includes at least one backup backup node, providing the broadcast of one stream of multimedia information
and connected to the public and / or hidden repeater node, with the exception of communication with the main broadcaster node. 13. The network according to any one of paragraphs. 6 ÷ 8, characterized in that it includes a statistics node, a network participant node, a public and / or hidden repeater node, configured to provide exchange of service information.