CN111064681A - Scheduling method and system - Google Patents

Abstract

The invention discloses a scheduling method and a system, wherein the method comprises the following steps: the method comprises the steps that environmental information of a plurality of service terminals is obtained through a scheduling server, and a preset mechanism is executed according to the environmental information so as to respectively obtain the offline rates of the service terminals; sending a request to a scheduling server through a user terminal to submit a task required to be requested; calculating the minimum download bandwidth and download duration required by the task through a scheduling server to obtain a calculation result; selecting one or more service terminals from the plurality of service terminals as service terminals to be selected according to the calculation result and/or the off-line rate, and returning the connection information of the service terminals to be selected to the user terminal; and connecting the service terminal to be selected through the user terminal to acquire service content corresponding to the task. The beneficial effects of the implementation of the invention are as follows: the scheduling quality is improved by accurately calculating the service capability and the service quality of the service node and the service quality required by the user, and the service reliability of the node is comprehensively evaluated by combining the reported data of the user side.

Description

Scheduling method and system

Technical Field

The present invention relates to the field of network bandwidth scheduling technologies, and in particular, to a scheduling method and system.

Background

Node scheduling techniques are commonly used in CDN, live and P2P (peer-to-peer network) products, and service node information is typically communicated to users in HTTPS, DNS resolution, or TCP proprietary protocols. The existing node scheduling techniques generally have the following disadvantages:

1. the service capability and the service quality of the service node and the service quality required by the user are not accurately calculated, so that the information of the two parties is not matched, and the scheduling quality is not high.

2. The reported data of the user side cannot be combined, and the service reliability of the node cannot be comprehensively evaluated.

Disclosure of Invention

The invention aims to provide a scheduling method and a scheduling system, which solve the problems that the service capability and the service quality of a service node and the service quality required by a user are not accurately calculated in the prior art, so that the information of the two parties is not matched, the scheduling quality is not high, the reported data of the user side cannot be combined, and the service reliability of the node cannot be comprehensively evaluated.

The technical scheme of the invention is realized as follows:

in one aspect, the present invention provides a scheduling method, including:

the method comprises the steps that environmental information of a plurality of service terminals is obtained through a scheduling server, and a preset mechanism is executed according to the environmental information so as to respectively obtain the offline rates of the plurality of service terminals;

sending a request to the scheduling server through a user terminal to submit a task required to be requested;

calculating the minimum download bandwidth and download duration required by the task through the scheduling server to obtain a calculation result;

selecting one or more service terminals from the plurality of service terminals as service terminals to be selected according to the calculation result and/or the offline rate, and returning the connection information of the service terminals to be selected to the user terminal;

and connecting the service terminal to be selected through the user terminal to acquire service content corresponding to the task.

In the scheduling method of the present invention, the obtaining, by the scheduling server, the environment information of the plurality of service terminals, and executing a preset mechanism according to the environment information to obtain the offline rates of the plurality of service terminals, respectively, includes:

periodically uploading own environment information to the scheduling server through the plurality of service terminals according to a preset time interval;

and respectively calculating the off-line rates of the plurality of service terminals by the scheduling server according to the missing records of the environment information periodically uploaded by the plurality of service terminals according to the preset time intervals.

In the scheduling method of the present invention, the selecting one or more service terminals from the plurality of service terminals as the service terminals to be selected according to the calculation result and/or the offline rate, and returning the connection information of the service terminals to be selected to the user terminal includes:

performing first service capability detection on the plurality of service terminals through the scheduling server according to the environment information;

and setting the service terminal qualified by the first service capability detection as a serviceable state.

In the scheduling method of the present invention, the performing, by the scheduling server, the first service capability detection on the plurality of service terminals according to the environment information includes:

respectively judging whether the available uploading bandwidths of the service terminals are larger than or equal to a preset first bandwidth threshold value, if so, detecting the first service capacity of the service terminals to be qualified, and if not, detecting the first service capacity of the service terminals to be unqualified; wherein the context information comprises the available upload bandwidth.

In the scheduling method of the present invention, the selecting one or more service terminals from the plurality of service terminals as service terminals to be selected according to the calculation result and/or the offline rate, and returning connection information of the service terminals to be selected to the user terminal, further includes:

and respectively screening out service terminals of which the available uploading bandwidth meets the preset bandwidth condition from the service terminals in the service available state.

In the scheduling method of the present invention, the step of respectively screening out the service terminals whose available upload bandwidths satisfy the preset bandwidth condition from the service terminals in the service available state includes:

respectively judging whether the available uploading bandwidth of the service terminal in the service available state is greater than or equal to the minimum downloading bandwidth, if so, the available uploading bandwidth of the service terminal meets a preset bandwidth condition, and if not, the service terminal does not meet the condition that the available uploading bandwidth meets the preset bandwidth condition.

In the scheduling method of the present invention, the selecting one or more service terminals from the plurality of service terminals as service terminals to be selected according to the calculation result and/or the offline rate, and returning connection information of the service terminals to be selected to the user terminal, further includes:

and respectively screening out service terminals which download tasks with preset downloading time length and meet the preset offline rate from the service terminals with the available uploading bandwidth meeting the preset bandwidth condition.

In the scheduling method of the present invention, the selecting one or more service terminals from the plurality of service terminals as service terminals to be selected according to the calculation result and/or the offline rate, and returning connection information of the service terminals to be selected to the user terminal, further includes:

performing second service capability detection on the service terminal of which the downloading time for downloading the task meets the preset offline rate;

and setting the service terminal with unqualified second service capability detection as an out-of-service state.

In the scheduling method of the present invention, the performing a second service capability detection on the service terminal whose download duration for downloading the task satisfies a preset offline rate includes:

and subtracting the minimum download bandwidth from the available upload bandwidth of the service terminal with the download duration of the task meeting the preset offline rate to obtain the residual available bandwidth, and judging whether the residual available bandwidth is smaller than a preset second bandwidth threshold, if so, the second service capability of the service terminal is unqualified, and if not, the second service capability of the service terminal is qualified.

In the scheduling method of the present invention, the method further includes:

and checking the available uploading bandwidth of the service terminal by the scheduling server according to the environment information periodically reported by the service terminal according to a preset time interval, and if the available uploading bandwidth meets a preset condition, recovering the non-service state of the service terminal to be a service-available state.

In another aspect, there is provided a scheduling system including the scheduling server and a plurality of terminals according to the scheduling method described above, wherein one of the plurality of terminals is a user terminal, the plurality of terminals excluding the user terminal are service terminals, and the plurality of terminals are connected to the scheduling server.

Therefore, the invention has the advantages that the scheduling quality is improved by accurately calculating the service capability and the service quality of the service node and the service quality required by the user, and the service reliability of the node is comprehensively evaluated by combining the reported data of the user side; the method has the advantages that the method is flexibly configured and quickly responds according to the actual conditions of customers, the service quality of the node to the files is greatly improved, the node capability is reasonably exerted, the node availability is improved, and the overall service capability of the system is further improved.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a flowchart of a scheduling method according to an embodiment of the present invention.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It is to be understood that the following description is only a specific illustration of the embodiments of the present invention and should not be taken as limiting the scope of the invention.

Referring to fig. 1, fig. 1 is a flowchart of a scheduling method according to an embodiment of the present invention, where the scheduling method includes steps S1-S5:

s1, acquiring environment information of a plurality of service terminals through a scheduling server, and executing a preset mechanism according to the environment information to respectively acquire the offline rates of the plurality of service terminals; step S1 includes steps S11-S12:

s11, uploading own environment information to the dispatching server periodically according to a preset time interval through a plurality of service terminals respectively; for example: preset software (hereinafter referred to as a service terminal) is implanted in the network-connectable device, the service terminal reports the device environment information interval time to the scheduling server, and the environment information comprises available uplink bandwidth, a service port and the like.

And S12, respectively calculating the offline rates of the plurality of service terminals by the scheduling server according to the missing records of the environment information periodically uploaded by the plurality of service terminals according to preset time intervals. The off-line rate is calculated according to the off-line duration of the service terminal in a historical period of time, and can be used for predicting the off-line time of the service terminal in a future period of time. For the off-line rate, the invention provides the following embodiments:

assuming that the time interval for the service terminal to report the information is 1 minute, and the full-term reporting number of times per day is 1440 times, then the daily offline rate of 5% indicates that the service terminal has 1440 × 5% offline in one day, that is, 72 minutes within one day cannot be reported or reporting errors occur, and the weekly offline rate of 10% indicates that the service terminal has 1440 × 7 × 10% offline in one week, that is, 1008 minutes offline.

S2, sending a request to the scheduling server through the user terminal to submit a task required to be requested; for example: and the user terminal is implanted with preset software and sends a request corresponding to the task by operating a front-end interface.

S3, calculating the minimum download bandwidth and download duration required by the task through the scheduling server to obtain a calculation result; for example: the scheduling server calculates the minimum download bandwidth and download duration required by the task according to a preset algorithm; aiming at the minimum download bandwidth and download duration, the invention provides the following embodiments:

the user terminal requests a video file A (task), the scheduling server obtains the code rate of the video file A as 1080kbps and the file size as 648MB by analyzing the meta information of the video file, then obtains the corresponding minimum download bandwidth as 1296kbps by dividing the code rate by 120%, and obtains the download duration by dividing the file size by the following carrier bandwidth, namely 648 1024 8/1296 as 4096 minutes.

S4, selecting one or more service terminals from the service terminals as service terminals to be selected according to the calculation result and/or the offline rate, and returning the connection information of the service terminals to be selected to the user terminal; step S4 includes steps S41-S42:

s41, performing first service capability detection on the service terminals through the scheduling server according to the environment information; the first service capability detection specifically includes:

respectively judging whether the available uploading bandwidths of the service terminals are larger than or equal to a preset first bandwidth threshold value, if so, detecting the first service capacity of the service terminals to be qualified, and if not, detecting the first service capacity of the service terminals to be unqualified; wherein the context information comprises the available upload bandwidth.

And S42, setting the service terminal qualified by the first service capability detection to be in a serviceable state. For example: and through the environment information, the scheduling server performs service equipment capability detection, and sets the equipment terminal to be in a serviceable state aiming at the qualified service equipment terminal (for example, the available uploading bandwidth of the equipment terminal is greater than a preset threshold).

Preferably, the step S4 further includes the step S43:

and S43, respectively screening out service terminals of which the available uploading bandwidth meets the preset bandwidth condition from the service terminals in the service available state. Specifically, whether the available upload bandwidth of the service terminal in the serviceable state is greater than or equal to the minimum download bandwidth is respectively judged, if yes, the available upload bandwidth of the service terminal meets a preset bandwidth condition, and if not, the service terminal does not meet the condition that the available upload bandwidth meets the preset bandwidth condition. For example: and screening a plurality of equipment terminals with available uplink bandwidth meeting a preset bandwidth (for example, greater than or equal to a minimum download bandwidth) from the service terminals in the service available state.

Preferably, the step S4 further includes the step S44:

and S44, respectively screening out service terminals which download tasks with preset downloading time length and meet the preset offline rate from the service terminals with the available uploading bandwidth meeting the preset bandwidth condition. For example: and matching preset algorithms according to the downloading time length one by one with the offline rate of the screened service terminals (for example, the offline rate of the service terminals is required to be lower than 1 percent for a file with the downloading time length of 2000 s), and screening the service terminals which finally meet the conditions.

The preferred step S4 further includes steps S45-S46:

s45, carrying out second service capability detection on the service terminal of which the downloading time length for downloading the task meets the preset offline rate; the second service capability detection specifically includes:

and subtracting the minimum download bandwidth from the available upload bandwidth of the service terminal with the download duration of the task meeting the preset offline rate to obtain the residual available bandwidth, and judging whether the residual available bandwidth is smaller than a preset second bandwidth threshold, if so, the second service capability of the service terminal is unqualified, and if not, the second service capability of the service terminal is qualified. And finally, determining the service terminal qualified by the second service capability detection as the service terminal to be selected.

And S46, setting the service terminal with the unqualified second service capability detection as an out-of-service state.

Preferably, the method further comprises step S0:

s0, checking, by the scheduling server, an available upload bandwidth of the service terminal according to the environment information periodically reported by the service terminal at a preset time interval, and if the available upload bandwidth meets a preset condition, restoring the non-serviceable state of the service terminal to a serviceable state.

For example: when the scheduling server allocates the service terminal that finally meets the condition as described in step S44 to the user, the service capability of the service terminal is calibrated (for example, the minimum download bandwidth is subtracted from the available uplink bandwidth value, which is called the remaining available bandwidth), and if the calibration result is lower than the preset threshold (for example, the remaining available bandwidth is lower than the preset threshold), the node is listed as the out-of-service state. And S5, connecting the service terminal to be selected through the user terminal to acquire the service content corresponding to the task. For example: the scheduling server matches one or more service terminals through a preset algorithm, and returns information such as network addresses, service ports and the like of the service terminals to the user terminal, so that the user terminal is connected with the returned service terminals through the network addresses and the service ports, and service content is obtained from the service terminals.

In another aspect, there is provided a scheduling system including the scheduling server and a plurality of terminals according to the scheduling method described above, wherein one of the plurality of terminals is a user terminal, the plurality of terminals excluding the user terminal are service terminals, and the plurality of terminals are connected to the scheduling server. That is, each terminal can utilize the idle bandwidth of other terminals, so that the flexible configuration and the quick response are realized according to the actual conditions of customers, the service quality of the node to the file is greatly improved, the node capability is reasonably exerted, the node availability is improved, and the overall service capability of the system is further improved.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, therefore, the scope of the present invention shall be determined by the appended claims.

Claims (11)

1. A method of scheduling, comprising:

the method comprises the steps that environmental information of a plurality of service terminals is obtained through a scheduling server, and a preset mechanism is executed according to the environmental information so as to respectively obtain the offline rates of the plurality of service terminals;

sending a request to the scheduling server through a user terminal to submit a task required to be requested;

calculating the minimum download bandwidth and download duration required by the task through the scheduling server to obtain a calculation result;

selecting one or more service terminals from the plurality of service terminals as service terminals to be selected according to the calculation result and/or the offline rate, and returning the connection information of the service terminals to be selected to the user terminal;

and connecting the service terminal to be selected through the user terminal to acquire service content corresponding to the task.

2. The scheduling method of claim 1, wherein the obtaining, by the scheduling server, environment information of a plurality of service terminals and executing a preset mechanism according to the environment information to obtain offline rates of the plurality of service terminals respectively comprises:

periodically uploading own environment information to the scheduling server through the plurality of service terminals according to a preset time interval;

and respectively calculating the off-line rates of the plurality of service terminals by the scheduling server according to the missing records of the environment information periodically uploaded by the plurality of service terminals according to the preset time intervals.

3. The scheduling method according to claim 1, wherein the selecting one or more service terminals from the plurality of service terminals as the service terminals to be selected according to the calculation result and/or the offline rate, and returning the connection information of the service terminals to be selected to the user terminal comprises:

performing first service capability detection on the plurality of service terminals through the scheduling server according to the environment information;

and setting the service terminal qualified by the first service capability detection as a serviceable state.

4. The scheduling method according to claim 3, wherein the performing, by the scheduling server, the first service capability detection on the plurality of service terminals according to the environment information comprises:

respectively judging whether the available uploading bandwidths of the service terminals are larger than or equal to a preset first bandwidth threshold value, if so, detecting the first service capacity of the service terminals to be qualified, and if not, detecting the first service capacity of the service terminals to be unqualified; wherein the context information comprises the available upload bandwidth.

5. The scheduling method according to claim 3, wherein the selecting one or more service terminals from the plurality of service terminals as the service terminals to be selected according to the calculation result and/or the offline rate, and returning connection information of the service terminals to be selected to the user terminal, further comprises:

and respectively screening out service terminals of which the available uploading bandwidth meets the preset bandwidth condition from the service terminals in the service available state.

6. The scheduling method according to claim 5, wherein the screening out the service terminals whose available upload bandwidth meets the preset bandwidth condition from the service terminals in the service available state respectively comprises:

respectively judging whether the available uploading bandwidth of the service terminal in the service available state is greater than or equal to the minimum downloading bandwidth, if so, the available uploading bandwidth of the service terminal meets a preset bandwidth condition, and if not, the service terminal does not meet the condition that the available uploading bandwidth meets the preset bandwidth condition.

7. The scheduling method according to claim 5, wherein the selecting one or more service terminals from the plurality of service terminals as the service terminals to be selected according to the calculation result and/or the offline rate, and returning connection information of the service terminals to be selected to the user terminal, further comprises:

and respectively screening out service terminals which download tasks with preset downloading time length and meet the preset offline rate from the service terminals with the available uploading bandwidth meeting the preset bandwidth condition.

8. The scheduling method according to claim 7, wherein the selecting one or more service terminals from the plurality of service terminals as the service terminals to be selected according to the calculation result and/or the offline rate, and returning connection information of the service terminals to be selected to the user terminal, further comprises:

performing second service capability detection on the service terminal of which the downloading time for downloading the task meets the preset offline rate;

and setting the service terminal with unqualified second service capability detection as an out-of-service state.

9. The scheduling method according to claim 8, wherein the performing of the second service capability detection on the service terminal whose download duration for downloading the task satisfies a preset offline rate includes:

and subtracting the minimum download bandwidth from the available upload bandwidth of the service terminal with the download duration of the task meeting the preset offline rate to obtain the residual available bandwidth, and judging whether the residual available bandwidth is smaller than a preset second bandwidth threshold, if so, the second service capability of the service terminal is unqualified, and if not, the second service capability of the service terminal is qualified.

10. The scheduling method of claim 8 or 9, further comprising:

and checking the available uploading bandwidth of the service terminal by the scheduling server according to the environment information periodically reported by the service terminal according to a preset time interval, and if the available uploading bandwidth meets a preset condition, recovering the non-service state of the service terminal to be a service-available state.

11. A scheduling system comprising a scheduling server according to the scheduling method of any one of claims 1 to 10 and a plurality of terminals, wherein one of the terminals is a user terminal, the terminals excluding the user terminal are service terminals, and the terminals are connected to the scheduling server.

Images