CN112040430B

CN112040430B - Short message sending method, device, server and storage medium

Info

Publication number: CN112040430B
Application number: CN202010900815.0A
Authority: CN
Inventors: 贾博宇
Original assignee: Beijing Dajia Internet Information Technology Co Ltd
Current assignee: Beijing Dajia Internet Information Technology Co Ltd
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2022-09-23
Anticipated expiration: 2040-08-31
Also published as: CN112040430A

Abstract

The disclosure relates to a short message sending method, a device, a server and a storage medium, wherein the method is applied to a short message server, and comprises the following steps: receiving a first short message sending request sent by an application server, wherein the first short message sending request comprises a target mobile phone number and target short message content; respectively sending second short message sending requests to the at least two resource supply servers, wherein the second short message sending requests comprise target short message contents and target mobile phone numbers, so that the at least two resource supply servers respectively verify whether the formats of the target mobile phone numbers are correct; and when the second resource supply server verifies that the format of the target mobile phone number is wrong, the short message server receives a first feedback result sent by the second resource supply server and sends a second short message sending request to a third resource supply server. The short message server in the disclosure respectively sends the second short message sending requests to the at least two resource supply servers, so that the probability of misjudgment of the format of the target mobile phone number can be reduced.

Description

Short message sending method, device, server and storage medium

Technical Field

The present disclosure relates to the field of communications, and in particular, to a short message sending method, apparatus, server, and storage medium.

Background

Currently, in some cases, a short message server of an application program sends a short message to a mobile phone number of a user. For example, the short message server pushes an advertisement short message to the user. For another example, when the user performs operations such as account registration, password recovery, payment and the like, short message authentication is required, and at this time, the short message server sends a short message including an authentication code to the user.

The short message server sometimes needs to send the short message through a third-party resource supply server. For example, when the short message server sends a short message to a mobile phone number in the overseas, the resource supply server needs to be called to send the short message. The resource supply server can determine whether the format of the mobile phone number is correct or not, and sends the short message to the mobile phone number under the condition of determining that the format of the mobile phone number is correct.

However, some resource supply servers cannot accurately determine whether the format of the mobile phone number is correct, which causes misjudgment of the format of the mobile phone number, and causes the mobile phone number with the correct format to be judged as abnormal, thereby causing failure in sending the short message.

Disclosure of Invention

The present disclosure provides a short message sending method, apparatus, server and storage medium, to at least solve the problem in the related art that a short message sending fails due to a resource providing server determining a mobile phone number with a correct format as abnormal. The technical scheme of the disclosure is as follows:

according to a first aspect of the embodiments of the present disclosure, a short message sending method is provided, which is applied to a short message server, and the method includes:

receiving a first short message sending request sent by an application server, wherein the first short message sending request comprises a target mobile phone number and target short message content;

sequentially sending second short message sending requests to at least two resource supply servers in the M resource supply servers respectively, wherein the second short message sending requests comprise the target short message content and the target mobile phone number, so that the at least two resource supply servers respectively verify whether the format of the target mobile phone number is correct, and M is an integer larger than 1;

when any first resource supply server in the at least two resource supply servers verifies that the format of the target mobile phone number is correct, the first resource supply server sends the target short message content to the target mobile phone number;

when any second resource supply server in the at least two resource supply servers verifies that the format of the target mobile phone number is wrong, the short message server receives a first feedback result sent by the second resource supply server, and the first feedback result comprises identification information used for representing the format error of the target mobile phone number; and sending the second short message sending request to other third resource supply servers in the at least two resource supply servers according to the first feedback result.

In one or more embodiments of the present disclosure, the method further comprises:

when a second feedback result sent by the first resource supply server is received and the second feedback result comprises identification information used for indicating that the target short message content is successfully sent to the target mobile phone number, stopping sending the second short message sending request to any one resource supply server in the M resource supply servers;

stopping sending the second short message sending request to any one of the M resource supply servers when the second short message sending request is sent to a predetermined resource supply server of the M resource supply servers;

stopping sending the second short message sending request to any one of the M resource supply servers when the second short message sending request has been sent to each of the M resource supply servers;

and when the second short message sending request is sent to any N servers in the M resource supply servers, stopping sending the second short message sending request to any resource supply server in the M resource supply servers, wherein N is a positive integer smaller than M and is a preset numerical value.

and under the condition of receiving the first feedback result sent by each resource supply server of the at least two resource supply servers, sending a target feedback result to the application server, wherein the target feedback result comprises information used for indicating that the short message sending to the target mobile phone number fails.

In one or more embodiments of the present disclosure, before the sending the second short message sending request to the other third resource providing server of the at least two resource providing servers according to the first feedback result, the method further includes:

determining, among the M resource provisioning servers arranged in order, the third resource provisioning server arranged after the first resource provisioning server;

the order of the M resource supply servers is obtained by arranging the weight values of the resource supply servers, the weight values are determined according to at least one index value of the resource supply servers, and the at least one index value comprises at least one of the following items: the index value used for representing the quality of the resource and the index value used for representing the price of the resource.

acquiring X resource supply servers which do not receive the second short message sending request from the M resource supply servers, wherein X is an integer greater than or equal to 2;

acquiring X preset value ranges which are in one-to-one correspondence with the X resource supply servers, wherein the difference value between the minimum value and the maximum value of each preset value range represents the probability that the resource supply server corresponding to the preset value range is selected to send the short message, and the X value ranges are not intersected with each other;

generating a first random number through a random number generator according to the X preset value ranges, wherein the first random number is in a value range formed by a union of the X preset value ranges;

determining, in the X resource provisioning servers, the third resource provisioning server corresponding to a target numerical range in the X preset numerical ranges, if the first random number is within the target numerical range.

According to a second aspect of the embodiments of the present disclosure, there is provided a short message sending apparatus applied to a short message server, the apparatus including:

the first receiving module is configured to receive a first short message sending request sent by an application server, wherein the first short message sending request comprises a target mobile phone number and target short message content;

the first sending module is configured to sequentially send second short message sending requests to at least two resource supply servers in M resource supply servers, wherein the second short message sending requests comprise the target short message content and the target mobile phone number, so that the at least two resource supply servers respectively verify whether the format of the target mobile phone number is correct, and M is an integer greater than 1; when any first resource supply server in the at least two resource supply servers verifies that the format of the target mobile phone number is correct, the first resource supply server sends the target short message content to the target mobile phone number;

a second receiving module, configured to receive a first feedback result sent by a second resource provisioning server when any one of the at least two resource provisioning servers verifies that the format of the target mobile phone number is wrong, where the first feedback result includes identification information used for indicating that the format of the target mobile phone number is wrong;

the first transmitting module is specifically configured to: and sending the second short message sending request to other third resource supply servers in the at least two resource supply servers according to the first feedback result.

In one or more embodiments of the present disclosure, the apparatus further comprises:

a third receiving module, configured to receive a second feedback result sent by the first resource provisioning server, where the second feedback result includes identification information used to indicate that the target short message content is successfully sent to the target mobile phone number;

the first transmitting module includes:

a first sending stopping unit, configured to stop sending the second short message sending request to any one of the M resource provisioning servers when the third receiving module receives the second feedback result;

a second stop transmission unit configured to stop transmission of the second short message transmission request to any one of the M resource provisioning servers when the first transmission module has transmitted the second short message transmission request to a predetermined resource provisioning server among the M resource provisioning servers;

a third stop transmission unit configured to stop transmitting the second short message transmission request to any one of the M resource provisioning servers when the first transmission module has transmitted the second short message transmission request to each of the M resource provisioning servers;

a fourth sending stopping unit, configured to stop sending the second short message sending request to any one of the M resource provisioning servers when the first sending module has sent the second short message sending request to any N of the M resource provisioning servers, where N is a positive integer smaller than M and is a preset numerical value.

a second sending module, configured to send a target feedback result to the application server under the condition that the first feedback result sent by each resource providing server of the at least two resource providing servers is received, where the target feedback result includes information used for indicating that sending a short message to the target mobile phone number fails.

In one or more embodiments of the present disclosure, further comprising:

a first determination module configured to determine, among the M resource provisioning servers arranged in order, the third resource provisioning server arranged after the first resource provisioning server,

wherein, the order of the M resource supply servers is obtained by arranging the weight values of the resource supply servers, the weight values are determined according to at least one index value of the resource supply servers, and the at least one index value comprises at least one of the following items: the index value used for representing the quality of the resource and the index value used for representing the price of the resource.

a first obtaining module configured to obtain, among the M resource provisioning servers, X resource provisioning servers that do not receive the second short message sending request, where X is an integer greater than or equal to 2;

a second obtaining module, configured to obtain X preset value ranges that are in one-to-one correspondence with the X resource supply servers, where a difference between a minimum value and a maximum value of each preset value range indicates a probability that a resource supply server corresponding to the preset value range is selected to send a short message, and there is no intersection between the X value ranges;

a generating module configured to generate a first random number through a random number generator according to the X preset value ranges, wherein the first random number is within a value range formed by a union of the X preset value ranges;

a second determining module configured to determine, in the X resource provisioning servers, the third resource provisioning server corresponding to a target value range within the X preset value ranges, if the first random number is within the target value range.

According to a fourth aspect of the embodiments of the present disclosure, there is provided a storage medium, where instructions executed by a processor of a server enable the server to perform the short message sending method according to the first aspect.

According to a fifth aspect of the embodiments of the present disclosure, there is provided a computer program product, wherein instructions of the computer program product, when executed by a processor of a server, enable the server to execute the short message sending method according to the first aspect.

The technical scheme provided by the embodiment of the disclosure at least brings the following beneficial effects: after receiving the target mobile phone number and the target short message content sent by the application server, the short message server sends a second short message sending request to a second resource supply server; and when a first feedback result sent by the second resource supply server is received and the first feedback result comprises identification information used for indicating that the format of the target mobile phone number is wrong, the second resource supply server possibly judges the format of the mobile phone number by mistake, so that the second short message sending request is sent to a third resource supply server. And determining whether the format of the target mobile phone number is correct or not by the third resource supply server. Since the second resource provisioning server and the third resource provisioning server differ in the manner of determining whether the format of the target cell phone number is correct, it is possible for the third resource provisioning server to correctly determine the format of the target cell phone number. Therefore, the probability of misjudgment of the format of the target mobile phone number can be reduced, and the short message can be sent through the third resource supply server under the condition that the second resource supply server misjudges the format of the target mobile phone number.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and, together with the description, serve to explain the principles of the disclosure and are not to be construed as limiting the disclosure.

FIG. 1 is a block diagram of a short message delivery system according to an exemplary embodiment;

FIG. 2 is a timing diagram illustrating a method of short message transmission in accordance with an exemplary embodiment;

fig. 3 is a flow chart illustrating a method for sending a short message according to an exemplary embodiment;

fig. 4 is a block diagram illustrating a short message transmission apparatus according to an exemplary embodiment;

fig. 5 is a block diagram illustrating another short message transmission apparatus according to an exemplary embodiment.

Detailed Description

In order to make the technical solutions of the present disclosure better understood by those of ordinary skill in the art, the technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the foregoing drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the disclosure described herein are capable of operation in other sequences than those illustrated or described herein. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

The above-mentioned short message server sometimes needs to send short messages through a third-party resource provisioning server. For example, when the short message server sends a short message to a mobile phone number in the overseas, the resource supply server needs to be called to send the short message. And the resource supply server can determine whether the format of the mobile phone number is correct or not, and the operator server is called to send the short message to the mobile phone number under the condition of determining that the format of the mobile phone number is correct.

The mobile phone number +551160750543 in brazilian areas will be described as an example.

First, a mobile phone number in the brazil area is introduced. The format of the Brazilian cell phone number includes: country code, two-bit region code, 5-bit prefix, and 4-bit suffix. For example, the country code: +55, two-bit area code for the region of saint paul: an 11, 5 bit prefix typically begins with 9. An example of a cell phone number that conforms to this format is: +5511984565666.

For +551160750543, because the fifth digit of the phone number in brazil is usually 9, and the fifth digit of the phone number is not 9, the local sms operator in brazil completes or is compatible with the phone number automatically, and changes the phone number to + 5511960750543, so that the phone number conforms to the correct format specification, and thus, the sms can be sent to the phone number.

However, after the sms server sends the mobile phone number +551160750543 to the operator server, some operator servers may consider that +551160750543 does not conform to the correct format rule of the mobile phone number, and intercept the mobile phone number, so that the originally legal mobile phone number cannot normally receive the sms.

It can be seen that some resource supply servers cannot accurately determine whether the format of the mobile phone number is correct, which results in that the mobile phone number with the correct format is judged to be abnormal, and thus the short message transmission fails.

Based on the above technical problem, the present disclosure provides a short message sending method, and a short message sending system for implementing the short message sending method of the present disclosure is described below.

Fig. 1 is a schematic diagram of a short message sending system according to an exemplary embodiment, where the short message sending system includes, as shown in fig. 1, an application server, a short message server, M resource provisioning servers (fig. 1 shows a first resource provisioning server and a second resource provisioning server of the M resource provisioning servers), and an operator server. The short message sending system carries out the following operations to realize the sending of the short message:

1. the application server sends a first short message sending request to the short message server, wherein the first short message sending request comprises a target mobile phone number and target short message content.

2. The short message server sends a second short message sending request to the first resource supply server, wherein the second short message sending request comprises target short message content and a target mobile phone number, so that the first resource supply server sends the short message. It should be noted that the formats of the first short message sending request and the second short message sending request may be the same or different.

3. And after receiving the second short message sending request, the first resource supply server determines whether the format of the target mobile phone number is correct.

4. And the first resource supply server sends a first feedback result of the wrong format of the mobile phone number to the short message server under the condition of determining that the format of the target mobile phone number is wrong.

5. And the short message server sends a second short message sending request to another second resource supply server under the condition of receiving the first feedback result.

6. And after receiving the second short message sending request, the second resource supply server determines whether the format of the target mobile phone number is correct.

7. And the second resource supply server calls the operator server to send the target short message content to the target mobile phone number under the condition of determining that the format of the target mobile phone number is correct.

Based on the above-mentioned framework of the short message sending system, the short message sending method provided by the embodiment of the disclosure is explained below.

Fig. 2 is a timing chart illustrating a short message sending method according to an exemplary embodiment, where as shown in fig. 2, the short message sending method includes the following steps:

step 102: the application server sends a first short message sending request to the short message server, wherein the first short message sending request comprises a target mobile phone number and target short message content;

step 104: the method comprises the steps that under the condition that a short message server receives a first short message sending request sent by an application server, a second short message sending request is sent to a first resource supply server, wherein the second short message sending request comprises target short message content and a target mobile phone number;

step 106: the first resource supply server determines whether the format of the target mobile phone number is correct;

step 108: under the condition that the first resource supply server determines that the format of the target mobile phone number is wrong, sending a first feedback result to the short message server, wherein the first feedback result comprises identification information used for representing the format error of the target mobile phone number;

step 110: the short message server sends a second short message sending request to a second resource supply server under the condition of receiving the first feedback result;

step 112: the second resource supply server determines whether the format of the target mobile phone number is correct;

step 114: under the condition that the second resource supply server determines that the format of the target mobile phone number is correct, the target mobile phone number and the target short message content are sent to an operator server;

step 116: and the operator server sends the target short message content to the target mobile phone number.

Step 118: and the second resource supply server sends information for indicating the successful sending of the short message to the short message server.

It should be noted that, in fig. 1 or fig. 2, the second resource provisioning server determines that the format of the target mobile phone number is correct. Of course, it is also possible that the second resource providing server determines that the format of the target mobile phone number is wrong, so that the short message server receives a feedback result sent by the second resource providing server, where the feedback result includes identification information used for indicating that the format of the target mobile phone number is wrong. In this case, the short message server continues to send the second short message sending request to the resource providing server that does not receive the second short message sending request. That is, fig. 1 and 2 are merely examples of the embodiment of the present disclosure, the number of the first resource provisioning servers is not limited to one, and the number of the first resource provisioning servers may be plural.

Based on the above-mentioned short message sending method applied to the short message sending system, the short message sending method applied to the short message server is described below.

Fig. 3 is a flowchart illustrating a method for sending a short message according to an exemplary embodiment.

As shown in fig. 3, the short message sending method includes the following steps:

step 202: the short message server receives a first short message sending request sent by the application server, wherein the first short message sending request comprises a target mobile phone number and target short message content;

step 204: the short message server sequentially sends second short message sending requests to at least two resource supply servers in the M resource supply servers respectively, wherein the second short message sending requests comprise target short message contents and target mobile phone numbers, so that the at least two resource supply servers respectively verify whether the formats of the target mobile phone numbers are correct, and M is an integer larger than 1;

when any one second resource supply server in at least two resource supply servers verifies that the format of the target mobile phone number is wrong, the short message server receives a first feedback result sent by the second resource supply server, and the first feedback result comprises identification information used for representing the format error of the target mobile phone number; and sending a second short message sending request to other third resource supply servers in the at least two resource supply servers according to the first feedback result.

In step 202, as an example, in a case that the application server needs to push the advertisement short message to the target mobile phone number, the application server sends a first short message sending request to the short message server, where the first short message sending request includes the content of the advertisement short message to be pushed and the target mobile phone number. The short message server receives a first short message sending request sent by the application server.

As another example, in a case where the application server needs to send the verification code to the target mobile phone number, the application server sends a first short message sending request to the short message server, where the first short message sending request includes the verification code information and the target mobile phone number to receive the verification code information. The short message server receives a first short message sending request sent by the application server.

As one example, the target cell phone number may be a cell phone number in overseas.

In step 204, the M resource provisioning servers may be resource provisioning servers selected by the user. The first resource provisioning server, the second resource provisioning server, or the third resource provisioning server may be: any one of the M resource provisioning servers, or a randomly selected resource provisioning server among the M resource provisioning servers, or a resource provisioning server selected in an order of the M resource provisioning servers.

It should be noted that the second resource provisioning server and the third resource provisioning server may or may not be the same resource provisioning server.

As an example, before sending the second short message sending request to a third resource providing server of the M resource providing servers, the third resource providing server may be selected from the resource providing servers that do not receive the second short message sending request.

As an example, the second resource provisioning server and the third resource provisioning server may be servers belonging to different vendors.

In the following, M resource provisioning servers are taken as the resource provisioning servers a to E, and the target mobile phone number is the mobile phone number +551160750543 in brazil.

The short message server receives a first short message sending request sent by the application server, wherein the first short message sending request comprises a mobile phone number +551160750543 and verification code information.

Then, the short message server sends a second short message sending request to the resource supply server a to request the resource supply server a to send the verification code information to the mobile phone number + 551160750543. However, the resource providing server a determines that the mobile phone number +551160750543 has a format error before sending the verification code information, and then returns an error code 1016 for indicating that the mobile phone number has a format error to the sms server.

Then, the sms server sends a second sms sending request to the resource provisioning server B when receiving the error code 1016 returned by the resource provisioning server a. But the resource supply server B also determines that the mobile phone number +551160750543 has a format error, and returns an error code 400 indicating that the mobile phone number has a format error to the sms server.

Similar to the resource providing server a and the resource providing server B, after the short message server sends the second short message sending request to the resource providing server C, the resource providing server C also returns an error code 4200 indicating the mobile phone number format error to the short message server.

Then, the short message server sends a second short message sending request to the resource supply server D, because the way that the resource supply server D determines whether the mobile phone number format is correct is different from the way that other resource supply servers determine whether the mobile phone number format is correct, and the way that the resource supply server D determines whether the mobile phone number format is correct is more reasonable, the resource supply server D can determine that the mobile phone number +551160750543 format is correct here.

Finally, the resource supply server D sends the mobile phone number +551160750543 and the verification code information to the operator server, the operator server completes or is compatible with the number automatically, and the mobile phone number is changed into + 5511960750543, so that the mobile phone number conforms to the correct format specification. The operator server sends the verification code information to the user equipment with the mobile phone number + 5511960750543.

In the embodiment of the disclosure, after receiving a target mobile phone number and a target short message content sent by an application server, a short message server sends a second short message sending request to a second resource supply server; when a first feedback result sent by the second resource supply server is received and the first feedback result comprises identification information used for indicating that the format of the target mobile phone number is wrong, the second resource supply server possibly judges the format of the mobile phone number in error, and therefore the second short message sending request is sent to the third resource supply server. And determining whether the format of the target mobile phone number is correct or not by the third resource supply server. Since the second resource provisioning server and the third resource provisioning server differ in the manner of determining whether the format of the target cell phone number is correct, it is possible for the third resource provisioning server to correctly determine the format of the target cell phone number. Therefore, the probability of misjudgment of the format of the target mobile phone number can be reduced, and the short message can be sent through the third resource supply server under the condition that the second resource supply server misjudges the format of the target mobile phone number.

In one or more embodiments of the present disclosure, the short message sending method may further include:

when a second feedback result sent by the first resource supply server is received and the second feedback result comprises identification information used for indicating that the target short message content is successfully sent to the target mobile phone number, stopping sending a second short message sending request to any one resource supply server in the M resource supply servers;

when a second short message sending request is sent to a preset resource supply server in the M resource supply servers, stopping sending the second short message sending request to any one resource supply server in the M resource supply servers;

when a second short message sending request is sent to each resource supply server in the M resource supply servers, stopping sending the second short message sending request to any one resource supply server in the M resource supply servers;

The following describes the short message server stopping sending the second short message sending request by taking M resource supply servers as the resource supply server a to the resource supply server E as examples.

As an example, the short message server receives a second feedback result sent by any one of the resource providing server a to the resource providing server E, and the second feedback result includes a success code 100, where the success code 100 indicates that the target short message content is successfully sent to the target mobile phone number, in this case, the short message server stops sending the second short message sending request to the resource providing server of the resource providing server a to the resource providing server E.

That is, in the case that any one of the resource providing server a to the resource providing server E determines that the format of the mobile phone number is correct and the short message is successfully sent, the sending of the second short message sending request may be stopped.

As another example, the user selects in advance one resource provisioning server D (i.e., a predetermined resource provisioning server) with a relatively high degree of reliability among the resource provisioning servers a to E. After the short message server sends the second short message sending request to the resource supply server D, the resource supply server D stops sending the second short message sending request to the resource supply server from the resource supply server A to the resource supply server E no matter whether the format of the mobile phone number is correct or not.

As yet another example, after the short message server has transmitted the second short message transmission request to the resource providing server a to the resource providing server E, respectively, the short message server may stop transmitting the second short message transmission request.

As still another example, the user sets N to 3 in advance, and based on this, after the short message server has transmitted the second short message transmission request to the 3 resource provisioning servers, the transmission of the second short message transmission request to the resource provisioning server from the resource provisioning server a to the resource provisioning server E is stopped regardless of whether the 3 resource provisioning servers determine that the format of the mobile phone number is correct.

In the embodiment of the present disclosure, when the short message server sends the second short message sending request to the resource providing server, the sending of the second short message sending request may be stopped in view of the above several situations. Therefore, the short message server can sequentially send second short message sending requests to the at least two resource supply servers respectively.

In one or more embodiments of the present disclosure, the method for sending a short message may further include:

and under the condition of receiving a first feedback result sent by each resource supply server of the at least two resource supply servers, sending a target feedback result to the application server, wherein the target feedback result comprises information used for indicating that the short message is failed to be sent to the target mobile phone number.

In the following, M resource provisioning servers are taken as the resource provisioning server a to the resource provisioning server E as an example.

It is assumed that the at least two resource providing servers are the resource providing server a, the resource providing server B and the resource providing server C, that is, the second short message sending requests have been sent to the resource providing server a, the resource providing server B and the resource providing server C respectively. And the short message server stops sending the second short message sending request, and each resource supply server receiving the second short message sending request feeds back a format error of the target mobile phone number to the short message server, so that in this case, the short message sending to the target mobile phone number fails, and the short message server sends a target feedback result to the application server so as to inform the application server of the failure of sending the short message to the target mobile phone number through the target feedback result.

In the embodiment of the disclosure, when the short message server fails to send the short message through the resource supply server, the short message server feeds back a result of the short message sending failure to the application server, so that the application server can perform subsequent processing.

In one or more embodiments of the present disclosure, before sending the second short message sending request to the third resource providing server of the M resource providing servers, the short message sending method further includes: among the M resource provisioning servers arranged in order, a third resource provisioning server arranged after the second resource provisioning server is determined.

The order of the M resource supply servers is obtained by arranging the weight values of the resource supply servers, the weight values are determined according to at least one index value of the resource supply servers, and the at least one index value comprises at least one of the following items: the index value used for representing the quality of the resource and the index value used for representing the price of the resource. The resource price may be a price for sending a short message to the resource provisioning server, and the index value for characterizing the resource quality may include at least one of: the public praise score corresponding to the resource supply server, the arrival rate of the short message and the safety degree of the short message sending.

As an example of determining the weight value, in a case where the number of index values of the resource provisioning server is one, it may be determined that the weight value of the resource provisioning server is one index value of the resource provisioning server, or that the weight value of the resource provisioning server is a numerical value corresponding to one index value of the resource provisioning server.

The following is an explanation by two examples.

For example, the index value of the resource provision server is an index value for characterizing the quality of the resource, and then the index value for characterizing the quality of the resource is in a positive correlation with the weight value. That is, the higher the quality of the resource provided by the resource provisioning server, the higher the weight value of the resource provisioning server.

For another example, the index value of the resource supply server is an index value for representing a resource price, and then the index value for representing the resource price and the weight value are in a negative correlation relationship. That is, the lower the price of the resource provided by the resource provisioning server, the higher the weight value of the resource provisioning server.

As another example of determining the weight value, in the case that the number of index values of the resource provisioning server is plural, the plural index values of the resource provisioning server may be weighted and summed to obtain the weight value of the resource provisioning server.

Assuming that the weight values of the resource provisioning server a to the resource provisioning server E are sequentially decreased, the resource provisioning server a to the resource provisioning server E are sequentially arranged.

Based on the arrangement sequence from the resource supply server a to the resource supply server E, the short message server first sends a second short message sending request to the resource supply server a. And under the condition that the resource supply server A feeds back the wrong format of the target mobile phone number to the short message server, the short message server sends a second short message sending request to the resource supply server B. And under the condition that the resource supply server B feeds back the wrong format of the target mobile phone number to the short message server, the short message server sends a second short message sending request to the resource supply server C. And so on until the predetermined condition described above is satisfied.

That is, the sms sends a second sms sending request to the resource provisioning server a, then sends a second sms sending request to the resource provisioning server B, and then sends a second sms sending request to the resource provisioning server C, and so on.

In this embodiment, for M resource provisioning servers arranged in sequence, the second short message transmission request is sequentially transmitted to the resource provisioning server among the M resource provisioning servers. Therefore, in the case that the weight value is determined according to the index value for representing the quality of the resource, the resource supply server with higher quality of the supplied resource can be arranged in front, and the second short message transmission request can be preferentially transmitted to the resource supply server with higher quality of the supplied resource. In the case where the weight value is determined according to the index value representing the price of the resource, the resource supply server with a lower price may be ranked in front, and the second short message transmission request may be preferentially transmitted to the resource supply server with a lower price. In the case that the weight value is determined according to the index value for representing the quality of the resource and the index value for representing the price of the resource, the resource supply servers with higher cost performance can be arranged in front of the weight value, and the resource supply servers with higher cost performance are sent a second short message sending request first, so that the resource supply servers with higher cost performance are preferentially utilized to send the short messages.

In one or more embodiments of the present disclosure, before sending the second short message sending request to the third resource providing server of the M resource providing servers, the short message sending method may further include:

acquiring X resource supply servers which do not receive the second short message sending request from M resource supply servers, wherein X is an integer greater than or equal to 2;

acquiring X preset value ranges which are in one-to-one correspondence with the X resource supply servers, wherein the difference value of the minimum value and the maximum value of each preset value range represents the probability that the resource supply server corresponding to the preset value range is selected to send the short message, and the X value ranges are not mutually intersected;

and under the condition that the first random number is in a target numerical range within X preset numerical ranges, determining a third resource supply server corresponding to the target numerical range in the X resource supply servers.

As an example, a preset value range is set in advance for each resource provisioning server in the M resource provisioning servers, and the difference between the minimum value and the maximum value of the preset value range represents the cost performance of the candidate provider. As an example, the higher the cost performance of the candidate provider, the greater the difference between the minimum value and the maximum value of the preset numerical range of the candidate provider, the greater the probability that the resource provisioning server is selected to send the short message. Therefore, the short message can be sent by preferentially utilizing the resource supply server with higher cost performance.

Assume that the preset value range of the resource provisioning server a is [0,40], the preset value range of the resource provisioning server B is (40,70], the preset value range of the resource provisioning server C is (70, 90), the preset value range of the resource provisioning server D is (90,100], and the preset value range of the resource provisioning server E is (100, 105).

Before the short message server sends the second short message sending request for the first time, the preset value ranges from the resource supply server A to the resource supply server E (the resource supply server A to the resource supply server E are the X resource supply servers) are obtained. Then, the short message server randomly generates a first random number in the range of [0,105 ]. Assuming that the first random number is in the range of [0,40] and [0,40] is the preset value range of the resource providing server a, the short message server first sends a second short message sending request to the resource providing server a.

Then, under the condition that the resource supply server a feeds back the format error of the target mobile phone number to the short message server, the short message server acquires the preset value ranges from the resource supply server B to the resource supply server E (the resource supply server B to the resource supply server E are the above-mentioned X resource supply servers). And then, the short message server randomly generates a first random number within the range of (40,105), and if the first random number is within the range of (70, 90) and (70, 90) is a preset value range of the resource supply server C, the short message server sends a second short message sending request to the resource supply server C.

In the embodiment of the present disclosure, the short message server randomly selects a third resource supply server to be used for receiving a second short message sending request next from the X resource supply servers that do not receive the second short message sending request.

The present disclosure provides a short message sending apparatus corresponding to the short message sending method of the present disclosure.

Fig. 4 is a block diagram illustrating a short message transmission apparatus according to an exemplary embodiment. Referring to fig. 4, the apparatus 300 includes a first receiving module 302, a first transmitting module 304, and a second receiving module 306.

The first receiving module 302 is configured to: receiving a first short message sending request sent by an application server, wherein the first short message sending request comprises a target mobile phone number and target short message content;

the first transmitting module 304 is configured to: sequentially sending second short message sending requests to at least two resource supply servers in the M resource supply servers respectively, wherein the second short message sending requests comprise target short message contents and target mobile phone numbers, so that the at least two resource supply servers respectively verify whether the formats of the target mobile phone numbers are correct, and M is an integer larger than 1; when any first resource supply server in the at least two resource supply servers verifies that the format of the target mobile phone number is correct, the first resource supply server sends the target short message content to the target mobile phone number;

the second receiving module 306 is configured to receive a first feedback result sent by the second resource provisioning server when any one of the at least two resource provisioning servers verifies that the format of the target mobile phone number is wrong, where the first feedback result includes identification information used for representing the format error of the target mobile phone number;

the first sending module 304 is specifically configured to: and sending a second short message sending request to other third resource supply servers in the at least two resource supply servers according to the first feedback result.

In the embodiment of the disclosure, after receiving a target mobile phone number and a target short message content sent by an application server, a short message server sends a second short message sending request to a second resource supply server; when a first feedback result sent by the second resource supply server is received and the first feedback result comprises identification information used for indicating that the format of the target mobile phone number is wrong, the second resource supply server possibly judges the format of the mobile phone number in error, and therefore the second short message sending request is sent to the third resource supply server. Determining, by the third resource provisioning server, whether the format of the target cell phone number is correct. Since the second resource provisioning server and the third resource provisioning server differ in the manner in which they determine whether the format of the target handset number is correct, it is possible for the third resource provisioning server to correctly determine the format of the target handset number. Therefore, the probability of misjudgment of the format of the target mobile phone number can be reduced, and the short message can be sent through the third resource supply server under the condition that the second resource supply server misjudges the format of the target mobile phone number.

In one or more embodiments of the present disclosure, the short message sending apparatus 300 may further include:

a third receiving module, configured to receive a second feedback result sent by the first resource provisioning server, where the second feedback result includes identification information used to indicate that the target short message content is successfully sent to the target mobile phone number.

The first sending module 304 may include:

In the embodiment of the present disclosure, when the short message server sends the second short message sending request to the resource providing server, under the above several conditions, the short message server may stop sending the second short message sending request. Therefore, the short message server can sequentially send second short message sending requests to the at least two resource supply servers respectively.

In one or more embodiments of the present disclosure, the short message sending apparatus may further include:

and the second sending module is configured to send a target feedback result to the application server under the condition of receiving the first feedback result sent by each of the at least two resource supply servers, wherein the target feedback result comprises information used for indicating that the short message is failed to be sent to the target mobile phone number.

In the embodiment of the disclosure, when the short message server fails to send the short message through the resource supply server, the short message server feeds back a result of the short message sending failure to the application server, so that the application server performs subsequent processing.

a first determining module configured to determine a third resource provisioning server arranged after the second resource provisioning server, among M resource provisioning servers arranged in sequence, wherein the sequence of the M resource provisioning servers is arranged according to the magnitude of a weight value of the resource provisioning server, the weight value is determined according to at least one index value of the resource provisioning server, and the at least one index value includes at least one of: the index value used for representing the quality of the resource and the index value used for representing the price of the resource.

In this embodiment, for the M resource provisioning servers arranged in sequence, the second short message transmission request is sequentially transmitted to the resource provisioning server among the M resource provisioning servers. Therefore, in the case that the weight value is determined according to the index value for representing the resource quality, the resource supply server with higher quality of the supplied resource can be ranked in front, and the second short message sending request can be sent to the resource supply server with higher quality of the supplied resource preferentially. In the case where the weight value is determined according to the index value representing the price of the resource, the resource supply server with a lower price may be ranked in front, and the second short message transmission request may be preferentially transmitted to the resource supply server with a lower price. In the case that the weight value is determined according to the index value for representing the quality of the resource and the index value for representing the price of the resource, the resource supply servers with higher cost performance can be arranged in front of the weight value, and the resource supply servers with higher cost performance are sent a second short message sending request first, so that the resource supply servers with higher cost performance are preferentially utilized to send the short messages.

the second acquisition module is configured to acquire X preset value ranges which are in one-to-one correspondence with the X resource supply servers, wherein the difference value between the minimum value and the maximum value of each preset value range represents the probability that the resource supply server corresponding to the preset value range is selected to send the short message, and the X value ranges are not intersected with each other;

the generating module is configured to generate a first random number through the random number generator according to the X preset numerical ranges, wherein the first random number is in a numerical range formed by a union set of the X preset numerical ranges;

a second determining module configured to determine, in the case that the first random number is within a target numerical range of the X preset numerical ranges, a third resource provisioning server corresponding to the target numerical range among the X resource provisioning servers.

With regard to the apparatus in the above-described embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and will not be elaborated here.

The disclosed embodiment provides a short message sending device, which can be provided as a short message server. As an example, the short message server includes: a processor; a memory for storing processor-executable instructions; the processor is configured to execute the instructions to implement the short message sending method.

Fig. 5 is a block diagram illustrating another short message sending apparatus 400 according to an exemplary embodiment. For example, the apparatus 400 may be provided as a short message server. Referring to fig. 5, apparatus 400 includes a processing component 422, which further includes one or more processors, and memory resources, represented by memory 432, for storing instructions, such as applications, that are executable by processing component 422. The application programs stored in memory 432 may include one or more modules that each correspond to a set of instructions. Further, the processing component 422 is configured to execute the instructions to perform the short message sending method.

The apparatus 400 may also include a power component 426 configured to perform power management of the apparatus 400, a wired or wireless network interface 450 configured to connect the apparatus 400 to a network, and an input/output (I/O) interface 458. The apparatus 400 may operate based on an operating system stored in the memory 432, such as Windows Server, Mac OS XTM, UnixTM, LinuxTM, FreeBSDTM, or the like.

In an exemplary embodiment, there is also provided a storage medium comprising instructions, such as a memory comprising instructions, executable by a processor of an apparatus to perform the above method. Alternatively, the storage medium may be a non-transitory computer readable storage medium, for example, the non-transitory computer readable storage medium may be a ROM, a Random Access Memory (RAM), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like.

In an exemplary embodiment, a computer program product is also provided, wherein instructions of the computer program product, when executed by a processor of a server, enable the server to perform the above-mentioned short message sending method.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This disclosure is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims

1. A short message sending method is applied to a short message server, and is characterized by comprising the following steps:

sequentially sending second short message sending requests to at least two resource supply servers in the M resource supply servers, wherein the second short message sending requests comprise the target short message content and the target mobile phone number, and M is an integer larger than 1;

after each second short message sending request is sent, the resource supply server receiving the second short message sending request verifies whether the format of the target mobile phone number is correct or not;

when the resource supply server verifies that the format of the target mobile phone number is correct, the resource supply server which verifies that the format is correct sends the target short message content to the target mobile phone number;

when the resource supply server verifies that the format of the target mobile phone number is wrong, the short message server receives a first feedback result sent by the resource supply server with the verified format being wrong, and the first feedback result comprises identification information used for representing the format error of the target mobile phone number; and returning to continue sending the second short message sending request according to the first feedback result.

2. The method of claim 1, further comprising:

when a second feedback result which is sent by the resource supply server and of which the format is verified to be correct is received and the second feedback result comprises identification information used for indicating that the target short message content is successfully sent to the target mobile phone number, stopping sending the second short message sending request;

or when the second short message sending request is sent to a preset resource supply server in the M resource supply servers, stopping sending the second short message sending request;

or when the second short message sending request is sent to each resource supply server in the M resource supply servers, stopping sending the second short message sending request;

or when the second short message sending request is sent to any N servers in the M resource supply servers, stopping sending the second short message sending request, wherein N is a positive integer smaller than M and is a preset numerical value.

3. The method of claim 2, further comprising:

4. The method of claim 1, wherein before continuing to send the second short message sending request according to the first feedback result, the method further comprises:

determining a resource supply server for sending the second short message sending request next in the M resource supply servers arranged in sequence;

5. The method of claim 1, wherein before continuing to send the second short message sending request according to the first feedback result, the method further comprises:

and under the condition that the first random number is in a target numerical range in the X preset numerical ranges, determining a resource supply server corresponding to the target numerical range in the X resource supply servers, wherein the determined resource supply server is a resource supply server for sending the second short message sending request next.

6. A short message sending device is applied to a short message server, and is characterized by comprising the following components:

a first sending module configured to send second short message sending requests to at least two resource supply servers of the M resource supply servers in sequence, where the second short message sending requests include the target short message content and the target mobile phone number; after each second short message sending request is sent, the resource supply server receiving the second short message sending request verifies whether the format of the target mobile phone number is correct, wherein M is an integer larger than 1; when the resource supply server verifies that the format of the target mobile phone number is correct, the resource supply server which verifies that the format is correct sends the target short message content to the target mobile phone number;

the second receiving module is configured to receive a first feedback result sent by the resource supply server with the format error verified when the resource supply server verifies that the format of the target mobile phone number is incorrect, and the first feedback result comprises identification information used for representing the format error of the target mobile phone number;

the first transmitting module is specifically configured to: and returning to continue sending the second short message sending request according to the first feedback result.

7. The apparatus of claim 6, further comprising:

a third receiving module, configured to receive a second feedback result sent by the resource supply server with a correct format, where the second feedback result includes identification information used to indicate that the target short message content is successfully sent to the target mobile phone number;

the first transmitting module comprises:

a first sending stopping unit configured to stop sending the second short message sending request when the third receiving module receives the second feedback result;

a second stop transmission unit configured to stop transmitting the second short message transmission request when the first transmission module has transmitted the second short message transmission request to a predetermined resource providing server among the M resource providing servers;

a third stop transmission unit configured to stop transmitting the second short message transmission request when the first transmission module has transmitted the second short message transmission request to each of the M resource providing servers;

a fourth sending stopping unit, configured to stop sending the second short message sending request when the first sending module has sent the second short message sending request to any N servers in the M resource provisioning servers, where N is a positive integer smaller than M, and N is a preset numerical value.

8. The apparatus of claim 7, further comprising:

9. The apparatus of claim 6, further comprising:

a first determining module configured to determine a resource providing server which transmits the second short message transmission request next among the M resource providing servers arranged in sequence,

10. The apparatus of claim 6, further comprising:

the second obtaining module is configured to obtain X preset value ranges in one-to-one correspondence with the X resource supply servers, wherein a difference value between a minimum value and a maximum value of each preset value range represents a probability that the resource supply server corresponding to the preset value range is selected to send a short message, and the X value ranges do not intersect with each other;

and a second determining module, configured to determine, in the X resource provisioning servers, a resource provisioning server corresponding to a target numerical range in the X preset numerical ranges, where the determined resource provisioning server is a resource provisioning server that sends the second short message sending request next time, when the first random number is in the target numerical range in the X preset numerical ranges.

11. A sms server, comprising:

a processor;

a memory for storing the processor-executable instructions;

wherein the processor is configured to execute the instructions to implement the short message sending method according to any one of claims 1 to 5.

12. A storage medium having instructions that, when executed by a processor of a short message server, enable the short message server to perform the short message transmission method of any one of claims 1 to 5.