RU2580395C2 - System and method for realizing end-to-end hierarchical quality of service - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: invention relates to information transmission. Provided for this purpose: in the presence of packet data to be transmitted, the transmission request the transmitter to the receiver of delivery; execution of HQoS planning by the receiver after receiving the request and sending a response to the transmitter with the authorization response to detecting that the transmitter can transmit data packets; and after receiving the authorization response, the transmitter data packet to be transmitted to the receiver.

EFFECT: technical result - ensuring through a hierarchical quality of service (HQoS) in the enforcement of planning functions HQoS at the receiver output.

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Description

Technical field

The invention relates to the field of information transfer, and in particular, to a system and method for implementing end-to-end hierarchical quality of service (HQoS).

BACKGROUND OF THE INVENTION

In the field of information transfer, HQoS is used to provide multi-user multi-service QoS, as shown in FIG. 1, while through a special port (physical or virtual ports) can be divided into three levels, i.e. user groups, users, and services, with nodes at each level can be configured with QoS characteristics to provide a multi-user multi-service hierarchical QoS service.

As shown in FIG. 2, the transfer process in a conventional distributed system includes: if there is data to be transmitted, the upstream switching chip transmits a data transfer request to the switching matrix; the switching matrix performing scheduling and response to the request based on the priority of the virtual output queue (VOQ); transmission of data packets by the switching chip in the upstream direction to the chip switching in the downstream direction through the switching matrix after receiving a response to the authorization request; and finally, the downstream switching chip sends data packets to the output port through local HQoS scheduling.

The disadvantage of such a forwarding process is that if the switching matrix detects a congestion in VOQ, i.e. Since the user data flow exceeds the throughput of the switching matrix, this leads to packet loss in the VOQ queue when the VOQ does not have a hierarchical scheduling function, which inevitably leads to a disruption in the downstream HQoS switching function.

Summary of the invention

The aim of the embodiments according to this document is to provide a system and method for implementing end-to-end HQoS in order to eliminate the existing disadvantage that standard output of the HQoS scheduling function cannot be ensured.

In order to solve the above technical problem, the embodiments according to this document provide a method for implementing end-to-end HQoS, which is used in a distributed system, including:

the transmitter transmitting a transfer request to the receiver when the transmitter has data packets to be transmitted;

the receiver performing HQoS scheduling after receiving the forwarding request, and responding to the transmitter with an authorization response when the receiver detects that the transmitter can transmit data packets; and

the transmitter transmitting data packets to be transmitted to the receiver after receiving an authorization response.

The method further includes:

the receiver transmits an authorization rejection response to the transmitter upon detection that the transmitter cannot transmit data packets.

The method further includes:

processing by the transmitter of data packets in the queue in accordance with the state of the congestion of the current queue in accordance with the early reset strategy, after receiving an authorization denial response.

If the transmitter has data packets to be transmitted, the method includes:

determination by the transmitter that the total number of data packets in the current queue has reached a predetermined threshold for the amount of data to be switched and forwarded.

If the receiver detects that the transmitter can transmit data packets, the method includes:

detection by the receiver that the total number of data packets in the current queue is less than the bandwidth set for the transmitter, and the priority of scheduling the current queue is higher than the scheduling priorities of other queues at the same level node.

In order to solve the above technical problem, the embodiments according to this document additionally provide an end-to-end HQoS implementation system that is used in a distributed system comprising a transmitter and a receiver, wherein

the transmitter is configured to send a forwarding request to the receiver when the transmitter has data packets designed to be transmitted locally; and transmitting data packets intended for transmission to the receiver after receiving an authorization response given by the receiver;

the receiver is configured to perform HQoS scheduling after receiving the forwarding request, and respond to the transmitter with an authorization response when the receiver detects that the transmitter can transmit data packets;

the receiver is further configured to transmit an authorization denial response to the transmitter upon detecting that the transmitter cannot transmit data packets;

the transmitter is further configured to process the data packet in the queue in accordance with the state of the current queue congestion in accordance with the early reset strategy after receiving an authorization denial response.

If the receiver detects that the transmitter can transmit data packets, the method comprises:

detection by the receiver that the total number of data packets in the current queue is less than the bandwidth set for the transmitter, and the priority of scheduling the current queue is higher than the scheduling priorities of other queues at the same level node.

The embodiments of this document further provide a receiver configured to perform HQoS scheduling after receiving a forwarding request transmitted by the transmitter and responding to the transmitter with an authorization response when it detects that the transmitter can transmit data packets.

The receiver is further configured to transmit an authorization denial response to the transmitter when it detects that the transmitter cannot transmit data packets.

The receiver is configured to detect that the transmitter can transmit data packets in the following mode: determining that the total number of data packets in the current queue is less than the bandwidth set for the transmitter, and the priority of scheduling the current queue is higher than the scheduling priorities of other queues at an identical level node .

The application of a system and method for managing end-to-end hierarchical QoS in the services of a distributed system provides a function for planning HQoS at the output and QoS of user services.

A brief description of the graphic materials

In FIG. 1 shows a hierarchical HQoS diagram corresponding to the prior art;

in FIG. 2 shows a flow diagram of the forwarding of data packets of a distributed system in an existing system;

in FIG. 3 is a block diagram of an end-to-end HQoS implementation system in an embodiment according to the present document; and

in FIG. 4 is a flowchart of a method for implementing end-to-end HQoS in an embodiment according to the present document.

Preferred Embodiments

Hereinafter, embodiments of this document will be described in detail in conjunction with the accompanying drawings. It should be noted that in the case of consistency, the embodiments of this application and the features in these embodiments may be randomly combined with each other.

A method for implementing end-to-end HQoS, which is used in a distributed system, includes the following steps.

In step a, when the transmitter has data packets to be transmitted, a forwarding request is transmitted by the transmitter to the receiver.

Moreover, the presence of data packets to be transmitted may be related to the fact that the total number of data packets in the current queue has reached a predetermined threshold for the amount of data to be switched and forwarded. After the transmitter transmits a transfer request, the transmitter can update the status information of the queue in which the data packets are located, and transmit status information to the receiver, while the status information contains the depth of the current queue, the total number of data packets stored in the current queue, and data packets for which a forwarding request has been transmitted.

In step b, the receiver performs HQoS scheduling after receiving the forwarding request, and when determining that the transmitter can transmit the above data packets, it answers the transmitter with an authorization response, and when determining that the transmitter cannot transmit the above data packets, it transmits an authorization denial response to transmitter.

In this case, the condition for determining that the transmitter can transmit data packets is that the total number of data packets in the current queue is less than the bandwidth set for the transmitter, and the priority of scheduling the current queue is higher than the planning priorities of other queues in a node of the same level .

In step c, after receiving an authorization response, the transmitter transmits the data packets to be transmitted to the receiver.

If the transmitter receives an authorization denial response, the transmitter processes the data packets in the queue in accordance with the state of the queue jam in accordance with the early reset strategy.

From the above description, it can be seen that in the method of implementing end-to-end HQoS in the present embodiment, the disadvantage caused by VOQ scheduling is avoided by communication between the transmitter and the receiver, so that the receiver directly performs authorization and scheduling for the transmitter, thereby effectively solving the HQoS problem. existing in a distributed system.

As shown in FIG. 3, the end-to-end HQoS implementation system comprises a transmitter and a receiver, the transmitter comprising an upstream switching queue module and a first message transmission module, and the receiver comprising a downstream switching planning module and a second message transmission module;

the upstream switching queue module is configured to receive data packets; and after receiving an authorization response transmitted by the first message transmitting unit for transmitting the above data packets through the first message transmitting unit;

the first message transmitting unit is configured to transmit the forwarding request to the receiver when the upstream switching queue module has data packets for transmission; and transmitting an authorization response or an authorization denial response transmitted by the second transmission module to the switching queue module in an upstream direction;

the second message transmitting unit is configured to forward the received forwarding request to the downlink switching planning unit, forwarding the received authorization response or the authorization denial response to the first message transmitting unit;

the downstream switching planning module is configured to receive a forwarding request and a queue status message sent by the second message sending module, determining whether to forward the forwarding authorization to the transmitter according to the user's HQoS configuration, and transmitting the corresponding authorization response or authorization denial response to the second module message passing.

As shown in FIG. 4, an HQoS implementation method implemented by the above end-to-end HQoS implementation system includes the following steps.

In step S401, the upstream switching queue module receives data packets, or data packets are in the queue, the upstream switching queue module transmits a forwarding request to the second message transmission module through the first message transmission module.

In step S402, the second message transmission unit sends the received forwarding request to the downlink switching module.

In step S403, the downlink switching module appropriately responds with an authorization response or an authorization denial response in accordance with the HQoS configuration.

In step S404, the second message transmitting unit sends an authorization response or an authorization denial response given by the downlink switching scheduling unit to the upstream switching queue module through the first message transmitting unit.

In step S405, in the case of receiving an authorization response, the upstream switching queue module transmits data packets through the first message transmission unit; and if an authorization denial response is received, the upstream switching queue module buffers data packets and manages the queue using an early reset strategy and waits for packets to be transmitted

One of ordinary skill in the art would understand that all or part of the steps of the above method can be performed by programs that control the corresponding hardware, which can be stored on a computer-readable storage medium, such as read-only memory, disk or disk, etc. Alternatively , all or part of the steps of the above embodiments may also be implemented by one or more integrated circuits. Accordingly, each module / unit in the above embodiments may be implemented as hardware, or may also be implemented as a functional software module. This document is not limited to any particular form or combination of hardware or software.

The above description is only preferred embodiments of this document and is not intended to limit the scope of legal protection of this document. In accordance with the inventive content of this document, numerous other embodiments may also be present, and those skilled in the art may make various corresponding changes and deviations in accordance with the embodiments of the present document without deviating from the inventive concept and its essence. Any change, equivalent substitution, improvement, etc., that are made in accordance with the idea and principle of this document should be included in the scope of protection of this document.

Industrial applicability

Using the embodiments of this document to perform end-to-end hierarchical QoS management in distributed system services provides an output HQoS scheduling function and user service QoS.

Claims (9)

1. A method for implementing end-to-end hierarchical quality of service (HQoS) used in a distributed system, including:
the transmitter transmitting a transfer request to the receiver when the transmitter has data packets to be transmitted;
the receiver performing HQoS scheduling after receiving the forwarding request and responding to the transmitter with an authorization response when the receiver detects that the transmitter can transmit data packets; and
the transmitter transmitting data packets to be transmitted to the receiver after receiving an authorization response;
wherein the detection by the receiver that the transmitter can transmit data packets includes:
detection by the receiver that the total number of data packets in the current queue is less than the bandwidth set for the transmitter, and the priority of scheduling the current queue is higher than the scheduling priorities of other queues at the same level node. 2. The method according to p. 1, further comprising:
the receiver transmits an authorization rejection response to the transmitter when it detects that the transmitter cannot transmit data packets. 3. The method according to p. 2, further comprising:
processing by the transmitter of data packets in the queue in accordance with the state of the congestion of the current queue in accordance with the early reset strategy, after receiving an authorization denial response. 4. The method according to p. 1, characterized in that
the transmitter has data packets to be transmitted if the transmitter determines that the total number of data packets in the current queue has reached a predetermined threshold for the amount of data to be switched and forwarded. 5. The system for implementing end-to-end hierarchical quality of service (HQoS) used in a distributed system comprising a transmitter and a receiver, characterized in that
the transmitter is configured to send a forwarding request to the receiver when the transmitter has data packets designed to be transmitted locally; and transmitting data packets intended for transmission to the receiver after receiving an authorization response given by the receiver; and
the receiver is configured to perform HQoS scheduling upon receipt of a forwarding request and a response to the transmitter with an authorization response when the receiver detects that the transmitter can transmit data packets;
while the receiver detects that the transmitter can transmit data packets if:
the receiver detects that the total number of data packets in the current queue is less than the bandwidth set for the transmitter, and the priority of scheduling the current queue is higher than the priorities of scheduling other queues at the same level node. 6. The system according to p. 5, characterized in that
the receiver is further configured to transmit a response to the authorization denial transmitter upon detecting that the transmitter cannot transmit data packets. 7. The system according to p. 6, characterized in that
the transmitter is further configured to process the data packet in the queue in accordance with the state of the current queue congestion in accordance with the early reset strategy after receiving an authorization denial response. 8. A receiver configured for:
performing hierarchical quality of service (HQoS) scheduling after receiving a forwarding request sent by the transmitter and responding to the transmitter with an authorization response when it detects that the transmitter can transmit data packets;
while the receiver is configured to detect that the transmitter can transmit data packets through the following step:
detecting that the total number of data packets in the current queue is less than the bandwidth set for the transmitter, and the priority of scheduling the current queue is higher than the scheduling priorities of other queues at the same level node. 9. The receiver of claim 8, further configured for:
transmitting an authorization denial response to the transmitter upon detecting that the transmitter cannot transmit data packets.

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