CN107994943B - Parameter acquisition system, method and computer-readable storage medium - Google Patents

Abstract

The embodiment of the invention provides a parameter acquisition system, a parameter acquisition method and a computer readable storage medium, wherein the system comprises: the request receiving agent module is used for receiving request information of acquiring performance parameters, determining equipment to which the performance parameters needing to be acquired belong according to the request information, and forwarding the request information to the acquisition agent module corresponding to the equipment, wherein each equipment corresponds to the respective acquisition agent module; the acquisition agent module is used for receiving the request information, generating an acquisition task according to the request information, and putting the acquisition task into nodes corresponding to the equipment in a queue, wherein the nodes in the queue correspond to each equipment; and the acquisition machine corresponding to the equipment monitors the nodes corresponding to the equipment in the queue in real time, acquires the acquisition tasks in the nodes corresponding to the equipment in the queue, and acquires the performance parameters of the equipment according to the acquisition tasks.

Description

Parameter acquisition system, method and computer-readable storage medium

Technical Field

The present invention relates to the field of network diagnosis technologies, and in particular, to a parameter acquisition system, a parameter acquisition method, and a computer-readable storage medium.

Background

In the prior art, in order to implement service diagnosis in a PON (Passive Optical Network) Network, a client needs to acquire performance indexes of relevant devices in the PON Network, but a plurality of clients need to sequentially acquire the performance indexes of the relevant devices in the PON Network in a serial manner, and each performance index is also sequentially and serially acquired, so that the acquisition efficiency is low.

Disclosure of Invention

The embodiment of the invention provides a parameter acquisition system, which aims to solve the technical problem of low performance index acquisition efficiency in PON network service diagnosis in the prior art. The system comprises: the request receiving agent module is used for receiving request information of acquiring performance parameters, determining equipment to which the performance parameters needing to be acquired belong according to the request information, and forwarding the request information to the acquisition agent module corresponding to the equipment, wherein each equipment corresponds to the respective acquisition agent module; the acquisition agent module is used for receiving the request information, generating an acquisition task according to the request information, and putting the acquisition task into nodes corresponding to the equipment in a queue, wherein the nodes in the queue correspond to each equipment; and the acquisition machine corresponding to the equipment monitors the nodes corresponding to the equipment in the queue in real time, acquires the acquisition tasks in the nodes corresponding to the equipment in the queue, and acquires the performance parameters of the equipment according to the acquisition tasks.

The embodiment of the invention also provides a parameter acquisition method, which aims to solve the technical problem of low performance index acquisition efficiency in PON network service diagnosis in the prior art. The method comprises the following steps: receiving request information for acquiring performance parameters; determining the equipment to which the performance parameters to be acquired belong according to the request information, generating an acquisition task according to the request information, and putting the acquisition task into nodes corresponding to the equipment in a queue, wherein the nodes in the queue correspond to the equipment; monitoring nodes corresponding to the equipment in the queue in real time through a collector corresponding to the equipment, acquiring the collection tasks in the nodes corresponding to the equipment in the queue, and collecting the performance parameters of the equipment according to the collection tasks.

An embodiment of the present invention provides a computer-readable storage medium, where a computer program for executing any one of the above parameter acquisition methods is stored in the computer-readable storage medium.

In the embodiment of the present invention, the request receiving agent module receives the request information, may receive the request information sent by multiple clients at the same time, and determine the device to which the performance parameter to be acquired belongs according to the request information, for example, may determine the device to which the performance parameter to be acquired belongs according to parameters such as device alias or IP address included in the request information, so as to forward the request information to the acquisition agent module corresponding to the device; then, the acquisition agent modules corresponding to the devices generate acquisition tasks according to the request information, and the acquisition tasks are placed in nodes corresponding to the devices in the queue, so that the acquisition agent modules corresponding to the devices can process the request information of the corresponding devices in parallel; and finally, the collector corresponding to each device monitors the node corresponding to the device in the queue in real time, acquires the collection task in the node corresponding to the device in the queue, and collects the performance parameters of the device according to the collection task, so that the collectors corresponding to the devices simultaneously and parallelly collect the performance parameters of the corresponding devices. Therefore, the parameter acquisition system can process request information sent by a plurality of clients in parallel, and the acquisition machines corresponding to the devices can acquire performance parameters of the corresponding devices in parallel by using the queues.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a block diagram of a parameter acquisition system according to an embodiment of the present invention;

fig. 2 is a flowchart of a parameter acquisition system according to an embodiment of the present invention;

fig. 3 is a flowchart of a parameter acquisition method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

In an embodiment of the present invention, a parameter collecting system is provided, as shown in fig. 1, the system includes:

the request receiving agent module 101 is configured to receive request information for acquiring performance parameters, determine, according to the request information, a device to which the performance parameters to be acquired belong, and forward the request information to an acquisition agent module corresponding to the device, where each device corresponds to its own acquisition agent module;

the acquisition agent module 102 is configured to receive the request information, generate an acquisition task according to the request information, and place the acquisition task in a node corresponding to the device in a queue, where the node in the queue corresponds to each device, for example, each device corresponds to one or more nodes in the queue;

and the acquisition machine 103 corresponding to the equipment monitors the nodes corresponding to the equipment in the queue in real time, acquires the acquisition tasks in the nodes corresponding to the equipment in the queue, and acquires the performance parameters of the equipment according to the acquisition tasks. Specifically, one device may correspond to one or more acquisition machines.

As shown in fig. 1, in the embodiment of the present invention, the request receiving agent module receives the request information, may receive the request information sent by a plurality of clients at the same time, and determine the device to which the performance parameter to be acquired belongs according to the request information, for example, may determine the device to which the performance parameter to be acquired belongs according to parameters such as an alias of the device or an IP address included in the request information, so as to forward the request information to the acquisition agent module corresponding to the device; then, the acquisition agent modules corresponding to the devices generate acquisition tasks according to the request information, and the acquisition tasks are placed in nodes corresponding to the devices in the queue, so that the acquisition agent modules corresponding to the devices can process the request information of the corresponding devices in parallel; and finally, the collector corresponding to each device monitors the node corresponding to the device in the queue in real time, acquires the collection task in the node corresponding to the device in the queue, and collects the performance parameters of the device according to the collection task, so that the collectors corresponding to the devices simultaneously and parallelly collect the performance parameters of the corresponding devices. Therefore, the parameter acquisition system can process request information sent by a plurality of clients in parallel, and the acquisition machines corresponding to the devices can acquire performance parameters of the corresponding devices in parallel by using the queues.

In specific implementation, in order to achieve high-concurrency performance parameter acquisition of the device, in this embodiment, the acquisition machine 103 corresponding to the device is specifically configured to monitor the node corresponding to the device in the queue in real time through a daemon process, and acquire the acquisition task in the node corresponding to the device in the queue. For example, a device may correspond to one or more collectors, when a device has multiple request messages to collect its performance parameters at the same time, there are multiple collection tasks in a node corresponding to the device in a queue, and at this time, the multiple collectors monitor the node corresponding to the device in the queue in real time through a daemon process and respectively obtain the collection tasks in real time, and collect the performance parameters of the device according to the collection tasks, so that for a device, the multiple collectors may collect the performance parameters of the device in parallel, or for a device, different performance parameters of the device may be collected in parallel. The collection efficiency can be further improved.

In specific implementation, the request receiving agent module 101 may also receive and process the request information sent by the clients in parallel by using a coroutine mode.

In specific implementation, in order to improve efficiency of obtaining performance parameters, in this embodiment, the collection agent module 102 is further configured to generate a collection task according to the request information, place the collection task in a node corresponding to the device in a queue, and then subscribe a collection result of the collection task; the acquisition machine 103 corresponding to the equipment is further configured to issue the acquired performance parameters to the nodes corresponding to the equipment in the queue after acquiring the performance parameters of the equipment according to the acquisition task based on a coroutine mode; the collection agent module 102 is further configured to obtain the performance parameter from the node corresponding to the device in the queue. Namely, the performance parameters acquired by the acquisition machine are acquired by utilizing the redis subscription and release function.

In specific implementation, the request receiving agent module 101 is further configured to receive the performance parameter fed back by the collecting agent module 102, and feed back the performance parameter to a terminal (e.g., a client) that sends the request information.

In specific implementation, the parameter acquisition system can be used for acquiring performance parameters in a service diagnosis process of the passive optical network, that is, the acquired performance parameters can be used for service diagnosis of the passive optical network.

In specific implementation, in order to facilitate the request receiving agent module 101 to determine which device performance parameter the request information requires to acquire, in this embodiment, the system further includes: the storage device is configured to store device identification information (for example, information such as device alias or IP address) of each device before receiving the request information, where the device identification information provides a basis for the request receiving agent module to determine a device to which the performance parameter that needs to be acquired belongs.

In a specific implementation, the device may be an OLT (Optical Line Terminal) device and/or an ONU (Optical Network Unit) device in the PON Network.

With reference to fig. 2, a process of acquiring performance parameters in a service diagnosis process in a PON network is taken as an example to describe a working flow of the parameter acquisition system, where the working flow includes the following steps:

1): the client sends request information in an http mode, the request information comprises an information list of equipment needing to acquire performance parameters, and the information list mainly comprises: the device alias or ip address, and a name list of the performance parameters to be acquired;

2): after the golang main application service agent (namely the request receiving agent module) receives the request information, determining the equipment to which the performance parameters needing to be collected belong according to the request information, judging whether the equipment exists, and if so, executing the step 3; if not, executing the step 1;

3): the golang main application service agent inquires a collection agent module of the redis acquisition equipment and forwards the request information to the collection agent module of the equipment;

4): the acquisition machine golang agent (namely the acquisition agent module) receives the request information, generates an acquisition task, writes the acquisition task into a node corresponding to the equipment in a redis task queue, subscribes an acquisition result of the acquisition task, returns the acquisition result to the golang main application service agent after acquiring the subscription result, and returns the acquisition result to the client; the key of the implementation is that the high concurrency characteristic of the golang protocol is utilized to support the generation of high-concurrency real-time tasks and result subscription;

5): a daemon process of an acquisition machine corresponding to the equipment monitors nodes corresponding to the equipment in a redis task queue in real time, acquires performance parameters of the equipment in real time according to the acquisition tasks after acquiring the acquisition tasks, and directly releases the acquired results to the redis task queue;

6): the collector golang agent judges whether the performance parameters are collected, if so, the step 4 is executed; if not, executing step 7;

7) return an error and exit.

Based on the same inventive concept, the embodiment of the present invention further provides a parameter acquisition method, as described in the following embodiments. Because the principle of solving the problem of the parameter acquisition method is similar to that of the parameter acquisition system, the implementation of the parameter acquisition method can refer to the implementation of the parameter acquisition system, and repeated details are not repeated.

Fig. 3 is a flowchart of a parameter acquisition method according to an embodiment of the present invention, and as shown in fig. 3, the method includes:

step 301: receiving request information for acquiring performance parameters;

step 302: determining the equipment to which the performance parameters to be acquired belong according to the request information, generating an acquisition task according to the request information, and putting the acquisition task into nodes corresponding to the equipment in a queue, wherein the nodes in the queue correspond to the equipment;

step 303: monitoring nodes corresponding to the equipment in the queue in real time through a collector corresponding to the equipment, acquiring the collection tasks in the nodes corresponding to the equipment in the queue, and collecting the performance parameters of the equipment according to the collection tasks.

In one embodiment, the method further comprises: generating an acquisition task according to the request information, and subscribing an acquisition result of the acquisition task after the acquisition task is placed in a node corresponding to the equipment in a queue; after the acquisition machine corresponding to the equipment acquires the performance parameters of the equipment according to the acquisition task in a coroutine-based mode, the acquired performance parameters are issued to the nodes corresponding to the equipment in the queue; and acquiring the performance parameters from the nodes corresponding to the equipment in the queue.

In one embodiment, monitoring, in real time, a node corresponding to the device in the queue through a capture machine corresponding to the device, and acquiring the capture task in the node corresponding to the device in the queue includes: and monitoring the nodes corresponding to the equipment in the queue in real time through a daemon process in the acquisition machine corresponding to the equipment, and acquiring the acquisition tasks in the nodes corresponding to the equipment in the queue.

In one embodiment, the performance parameter is used for traffic diagnostics of the passive optical network.

In one embodiment, further comprising: and before receiving the request information, storing equipment identification information of each equipment, wherein the equipment identification information provides a basis for judging the equipment to which the performance parameters needing to be acquired belong.

In the present embodiment, a computer-readable storage medium is provided, which stores a computer program for executing any one of the above-described parameter acquisition methods.

The embodiment of the invention realizes the following technical effects: the request receiving agent module receives the request information, can simultaneously receive the request information sent by a plurality of clients, and determines the equipment to which the performance parameters to be acquired belong according to the request information, for example, the equipment to which the performance parameters to be acquired belong can be determined according to the parameters such as the alias or the IP address of the equipment included in the request information, so as to forward the request information to the acquisition agent module corresponding to the equipment; then, the acquisition agent modules corresponding to the devices generate acquisition tasks according to the request information, and the acquisition tasks are placed in nodes corresponding to the devices in the queue, so that the acquisition agent modules corresponding to the devices can process the request information of the corresponding devices in parallel; and finally, the collector corresponding to each device monitors the node corresponding to the device in the queue in real time, acquires the collection task in the node corresponding to the device in the queue, and collects the performance parameters of the device according to the collection task, so that the collectors corresponding to the devices simultaneously and parallelly collect the performance parameters of the corresponding devices. Therefore, the parameter acquisition system can process request information sent by a plurality of clients in parallel, and the acquisition machines corresponding to the devices can acquire performance parameters of the corresponding devices in parallel by using the queues.

It will be apparent to those skilled in the art that the modules or steps of the embodiments of the invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, embodiments of the invention are not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made to the embodiment of the present invention by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. A parameter acquisition system, comprising:

the request receiving agent module is used for receiving request information of acquiring performance parameters, determining equipment to which the performance parameters to be acquired belong according to the request information, and forwarding the request information to the acquisition agent module corresponding to the equipment, wherein each equipment corresponds to the respective acquisition agent module, and different performance parameters of each equipment correspond to different request information;

the acquisition agent module is used for receiving the request information, generating an acquisition task according to the request information, putting the acquisition task into a node corresponding to the equipment in a queue, and subscribing the acquisition result of the acquisition task, wherein the node in the queue corresponds to each equipment;

and the acquisition machine corresponding to the equipment monitors the nodes corresponding to the equipment in the queue in real time, acquires the acquisition tasks in the nodes corresponding to the equipment in the queue, and acquires the performance parameters of the equipment according to the acquisition tasks.

2. The parameter acquisition system of claim 1,

and the acquisition machine corresponding to the equipment is specifically used for monitoring the nodes corresponding to the equipment in the queue in real time through a daemon process, and acquiring the acquisition tasks in the nodes corresponding to the equipment in the queue.

3. The parameter acquisition system of claim 1,

the acquisition machine corresponding to the equipment is also used for issuing the acquired performance parameters to the nodes corresponding to the equipment in the queue after acquiring the performance parameters of the equipment according to the acquisition tasks based on a coroutine mode;

the collection agent module is further configured to obtain the performance parameter from the node corresponding to the device in the queue.

4. The parameter acquisition system of claim 3,

the request receiving agent module is further configured to receive the performance parameters fed back by the acquisition agent module, and feed back the performance parameters to the terminal sending the request information.

5. The parameter acquisition system of any one of claims 1 to 4 wherein the performance parameter is used for traffic diagnostics of a passive optical network.

6. The parameter acquisition system of any one of claims 1 to 4, further comprising:

and the storage device is used for storing the device identification information of each device before receiving the request information, and the device identification information provides a basis for the request receiving agent module to judge the device to which the performance parameters needing to be acquired belong.

7. A method of parameter acquisition, comprising:

receiving request information for acquiring performance parameters, wherein different performance parameters of each device correspond to different request information;

determining equipment to which performance parameters to be acquired belong according to the request information, receiving the request information through an acquisition agent module corresponding to the equipment, generating acquisition tasks according to the request information, putting the acquisition tasks into nodes corresponding to the equipment in a queue, and subscribing acquisition results of the acquisition tasks, wherein the nodes in the queue correspond to each equipment;

monitoring nodes corresponding to the equipment in the queue in real time through a collector corresponding to the equipment, acquiring the collection tasks in the nodes corresponding to the equipment in the queue, and collecting the performance parameters of the equipment according to the collection tasks.

8. The parameter acquisition method of claim 7, further comprising:

after the acquisition machine corresponding to the equipment acquires the performance parameters of the equipment according to the acquisition task in a coroutine-based mode, the acquired performance parameters are issued to the nodes corresponding to the equipment in the queue;

and acquiring the performance parameters from the nodes corresponding to the equipment in the queue.

9. The parameter collecting method according to claim 7, wherein the monitoring of the node corresponding to the device in the queue by the collector corresponding to the device in real time to obtain the collecting task in the node corresponding to the device in the queue comprises:

and monitoring the nodes corresponding to the equipment in the queue in real time through a daemon process in the acquisition machine corresponding to the equipment, and acquiring the acquisition tasks in the nodes corresponding to the equipment in the queue.

10. A method as claimed in any one of claims 7 to 9, wherein the performance parameters are used for traffic diagnostics of a passive optical network.

11. The parameter acquisition method according to any one of claims 7 to 9, further comprising:

and before receiving the request information, storing equipment identification information of each equipment, wherein the equipment identification information provides a basis for judging the equipment to which the performance parameters needing to be acquired belong.

12. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program for executing the parameter acquisition method according to any one of claims 7 to 11.

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