CN109067874B - Method for processing push information based on port occupation - Google Patents

Abstract

The invention provides a method for processing push information based on port occupation, which specifically comprises the following steps: step S100, receiving push information of a server side by application software, wherein the push information comprises a push information indication mark; step S200, the application software judges the indication mark and detects the port state according to the judgment result; step S300, the application software processes the push information according to the state of the port. According to the method, the management of the push information can be realized, so that the user is prevented from being disturbed repeatedly by the same push information.

Description

Method for processing push information based on port occupation

Technical Field

The invention belongs to the field of information processing, and particularly relates to a method for processing push information based on port occupation.

Background

In recent years, personal mobile terminals represented by smart phones are widely used, so that people increasingly obtain various information through the personal mobile terminals represented by smart phones or personal PCs, and application software installed on the mobile terminals or PCs receives various push information from a server. For example: some news application software receives news-like transmission information from a server side irregularly or periodically. Due to the different applications installed by the user, the push information received is usually different. However, in a special scenario, different applications may receive the same push information. For example: when an earthquake is forecasted to occur at a certain place, the server side pushes information related to earthquake early warning to application software of each mobile terminal or PC side within a range where the earthquake is likely to occur after receiving the forecasted event. Since a mobile terminal or a PC of a user usually installs a plurality of application software, a situation that the plurality of application software is presented to the user after receiving earthquake early warning information occurs, so that the user is repeatedly disturbed by the same push information, the efficiency of acquiring information is low, and the user's needs cannot be satisfied.

Disclosure of Invention

In order to overcome the above problems, the present application provides a method for processing push information based on port occupation, which specifically includes: step S100, receiving push information of a server side by application software, wherein the push information comprises a push information indication mark; step S200, the application software judges the indication mark and detects the port state according to the judgment result; step S300, the application software processes the push information according to the state of the port.

According to the method, the management of the push information can be realized, so that the user is prevented from being disturbed repeatedly by the same push information.

Drawings

Fig. 1 is a flow chart of a method of processing push information according to a first aspect of the invention.

Fig. 2 is a flow chart of a method of processing push information according to a second aspect of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. This description is made by way of example and not limitation to specific embodiments consistent with the principles of the invention, the description being in sufficient detail to enable those skilled in the art to practice the invention, other embodiments may be utilized and the structure of various elements may be changed and/or substituted without departing from the scope and spirit of the invention. The following detailed description is, therefore, not to be taken in a limiting sense. In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

The invention provides a method for processing pushed information based on port occupation, wherein the pushed information can be news information, advertisement information and natural disaster information including earthquake information. The present invention does not limit the application type of the push information, i.e. any type of push information will fall within the scope of the present invention. The server side pushes the information to the application software on the mobile terminal or the PC side, and the application software processes the pushed information. In an exemplary embodiment, when the pushed information is seismic information detected or acquired by the server, a specific detection or acquisition mode may be a mode published in CN103399340A by a daily interactive company or the like, or may be acquired from other servers with seismic information, and the pushed information is presented to all mobile terminals or PC terminals located within a range of 100-500 km (which may be selected and determined according to parameters such as earthquake magnitude and crack) with a radius of 100 + 500 km around a location where an earthquake may occur, so that the mobile terminals or PC terminals can acquire the pushed seismic information in time. Obviously, in other embodiments, the application software installed on the mobile terminal or the PC can also receive other kinds of push information such as news information, advertisement information, etc. from the server side according to the present invention.

According to a first aspect of the present invention, as shown in fig. 1, the method for processing push information based on port occupation of the present invention comprises the following steps:

step S100, the application software receives push information from a server side; because a plurality of application software are usually installed on the mobile terminal or the PC end, the mobile terminal or the PC end receives a plurality of pieces of push information with the same content; the received push information includes a push information indication identifier, and the push information indication identifier is used for subsequent judgment of whether to detect the port state.

For general push information, since the push information is closely related to the application software, the application software only receives the push information closely related to the application software. But for some special push information, such as push information including seismic information as described in the foregoing exemplary embodiments, push information having the same information source but being referenced by a different application developer, and so forth. When pushing such information, the server side pushes the same information to a plurality of application software of the mobile terminal or the PC side.

In order to distinguish whether the push information is general push information or specific push information, a push information indication identifier may be preset, and specifically includes a first indication identifier or a second indication identifier, where the first indication identifier corresponds to a specific category of push information, and the second indication identifier corresponds to a general category of push information. In an alternative embodiment, the first and second indicators are binary "0" and "1", or "1" and "0", respectively, so that the two types of delivery information can be distinguished unambiguously by using 1 bit.

And step S200, the application software judges the indication mark and detects the port state according to the judgment result.

According to the invention, after receiving the push information indicator, the application software judges whether the indicator is a first indicator or a second indicator.

When the application software determines that the indication identifier is the first indication identifier (e.g. 0), that is, determines that the push information is push information of a specific category (e.g. seismic information), which means that multiple application software of the mobile terminal or the PC end will receive the push information, it is necessary to detect the predetermined port list P ═ { P ═₁,p₂,...,p_nThe state of the port in (n ≧ 1, preferably n ═ 2), and then step S300 is executed.

When the judgment indication identifier is the second indication identifier, that is, after the judgment that the push information is the push information of the general category, it means that only the application software will receive the push information, and therefore, the application software does not need to check the state of the port, but directly processes the push information, for example, directly presents (broadcasts) the push information to the user.

Further, as known to those skilled in the art, the state of the port includes an occupied state and a non-occupied state, and the application software can switch the state of the port from the occupied state to the non-occupied state or from the non-occupied state to the occupied state through a system call of the mobile terminal or the PC. In the invention, the ports in the port list are generally ports with larger port numbers, for example, ports with port numbers exceeding 10000, and the probability of the ports being used by other application programs is very low, thereby avoiding competition of the application software and other application software on port occupation.

Step S300, the application software processes the push information according to the state of the port.

According to one embodiment of the invention, when n is 1, i.e. when there is only one predetermined port p in the predetermined port list₁When the predetermined port p is detected by the application software receiving the push information of the specific class₁If the predetermined port p is detected₁In the non-occupied state, the application software will occupy the predetermined port p₁And directly process the push information of the specific category, such as directly presenting and/or broadcasting the earthquake-related push information in the foregoing embodiment to the user; however, if the application software detects the predetermined port p₁If the state of the application software is an occupied state, that is, the port is occupied by other application software, the application software does not process the push information any more, and if the push information related to the earthquake early warning is not presented and/or broadcasted to the user any more. It is obvious to a person skilled in the art that seismic information is only one specific implementation in push information and does not mean that the invention is only capable of processing seismic information.

According to another embodiment of the invention, when n ≧ 2, i.e. when two or more predetermined ports p are included in the predetermined port list₁,p₂,...,p_nAnd if the application software detects that all the ports in the port list P are in the occupied state, namely all the ports are occupied by other application software, the application software does not process the push information, and if the push information related to earthquake early warning is not presented and/or broadcasted to the user. If the application software detects that a port in a non-occupied state exists in the port list P, the application software selects (for example, randomly selects or selects according to the sequence in P) one port from all ports in the non-occupied state and occupies the port, sets the selected port in an occupied state, and directly processes the push message of the specific category after occupying the port, for example, presenting and/or broadcasting the push message related to earthquake early warning to a user.

Further, when the application software selects a port to be occupied from the ports in the non-occupied state in sequence, if the application software selects a port to be occupied from the ports in the non-occupied state in sequenceDetecting a predetermined port p₁Is in a non-occupied state, i.e. the first port in the predetermined port list is not occupied by other application software, the application software will occupy the predetermined port p₁And directly processing the push information; if the application software detects the predetermined port p₁Is in an occupied state, i.e. the first port is already occupied by other application software, said application software will follow the predefined port list from p₁To p_nSequentially judging the subsequent predetermined ports p in the sequence₂,...,p_nIf the application software detects that the state of the subsequent predetermined port is a non-occupied state, that is, the application software is not occupied by other application software, the application software occupies the subsequent predetermined port and directly processes the push information; and if the application software detects that the states of all the subsequent preset ports are occupied states, the application software does not process the push information any more.

According to the invention, the way of processing the push information comprises any one of the following ways and the combination thereof: text broadcasting, picture broadcasting, voice broadcasting and video broadcasting. For example, when pushing news information of the same news source to different application software, the pushed information can be presented to the user in the notification bar of the mobile terminal, and a prompt tone can be sent or not sent according to the setting of the user. For another example, when seismic information, especially seismic information with high intensity, is pushed to mobile terminals around the seismic source, the processing mode is to invoke voice broadcast with maximum volume of the speaker, which is sharp and urgent, regardless of the setting mode of the mobile terminal of the user.

According to one embodiment of the invention, when the application software is closed or in background operation, the port which is occupied before the application software is released, so that the state of the port is converted into a non-occupied state. According to another embodiment of the invention, the ports that are already occupied between the two ports are released when the application software is closed, and the ports are not released when the application software runs in the background. According to a further embodiment of the present invention, the occupied port is released after a certain time, for example 10-60 minutes, after the application software processes the push message.

By the method for processing the push information in the first aspect of the present invention, for the push information of the specific category, the phenomenon that a plurality of pieces of information with the same content are simultaneously pushed on a plurality of pieces of application software is avoided, and the technical effects of avoiding the user from being repeatedly disturbed by the same push information for many times and ensuring the delivery rate of the push information are also considered.

According to another embodiment of the first aspect of the present invention, a method for processing push information based on port occupation comprises the steps of:

step S100, the application software receives the push information from the server side. The received push information comprises a push information indication mark, and the push information indication mark is used for subsequent judgment of whether the port state is detected or not. In order to distinguish whether the push information is of a general category or of a specific category, the system may preset the push information indicator to include a first indicator or a second indicator.

In step S200, the application software determines the indication identifier of the push information, detects the state of the predetermined port if the indication identifier is the first indication identifier, and executes step S300; and when the judgment identifier is the second indication identifier, directly processing the push information, and not detecting the state of the port, wherein the state comprises an occupied state and a non-occupied state.

In step S300, if the application software detects that the state of the predetermined port is a non-occupied state, the application software occupies the predetermined port and directly processes the push information; and if the application software detects that the state of the preset port is an occupied state, the application software does not process the push information.

Those skilled in the art understand that the definitions and functions of the first and second identifiers, the definitions and functions of the first and second states, the specific processing manner for receiving the push information, and the timing and manner for releasing the port in this embodiment are the same as those in the foregoing embodiment, and therefore are not described again.

In contrast to the previous embodiment, in this embodiment, a predetermined port list is not set, but a fixed one port number, for example, 34567 port is set. This arrangement, although slightly reducing the arrival rate of push information compared to the foregoing embodiment, allows push information to be processed at most 1 time (n times in the foregoing embodiment), thereby saving the user time in browsing duplicate information. It is suitable for pushing non-urgent important information with more emphasis on avoiding repeated browsing by the user.

According to a further embodiment of the first aspect of the invention, the method of handling push information based on port occupation comprises the steps of:

step S100, the application software receives the push information from the server side. The received push information comprises a push information indication identifier, the push information indication identifier comprises a port number, and the indication identifier is a port list Q ═ { Q ═ Q of the slave server side₁,q₂,...,q_mThe port number in Q is, for example, 34567, so as to avoid competition with port numbers of other applications. In this embodiment, m.gtoreq.2, preferably m.gtoreq.100.

And step S200, the application software judges the indication mark and detects the port state according to the judgment result. After receiving the push information, the application software needs to further detect the state of the port corresponding to the port number (e.g., 34567).

In step S300, the application software processes the push information according to the state of the port. If the application software detects that the state of the port is a non-occupied state, the application software occupies the port and directly processes the push information; however, if the application software detects that the state of the port is an occupied state, that is, the port is occupied by other application software, the application software will not process the push information any more, and if the push information related to the earthquake early warning is not presented (broadcasted) to the user any more.

Those skilled in the art understand that the definitions and functions of the first and second identifiers, the definitions and functions of the first and second states, the specific processing manner for receiving the push information, and the timing and manner for releasing the port in this embodiment are the same as those in the foregoing embodiment, and therefore are not described again.

Compared with the foregoing embodiment, the method for processing push information of this embodiment enables the server side to push a plurality of different pieces of special information to the mobile terminal or the PC side in a short time.

According to a second aspect of the present invention, as shown in fig. 2, a method for processing push information based on port occupation comprises the following steps:

step S100, a plurality of application software receive the push information of the server side.

In step S200, the application software detects that the predetermined port list P ═ P₁,p₂,...,p_nThe state of the ports in (n ≧ 1, preferably n ═ 1).

Step 300, the plurality of application software receiving the push information processes the push information according to the state of each port in the predetermined port list P.

In step S100, the application software capable of receiving the push information of the server is in an active state and a background running state, the application software in the closed state cannot receive the push information of the server, and the preferred number of times of presenting the push information to the user is 1.

In step S200, the application software detects the number of ports and the specific port number included in the predetermined port list P, and determines the number and the specific port number according to the specific type of the push information.

The step S300 specifically includes the steps of,

s3001, the application software receiving the push information judges the state of the port in the port list P.

S3002, when all the ports in the port list P are in the occupied state, further determining whether the ports in the port list P are occupied by the push information receiving application software, if so, presenting the push information to the user by the push information receiving application software occupying the ports in the port list P, and if not, not processing the push information by the push information receiving application software.

S3003, when there are ports in the port list P that are in the non-occupied state and also in the occupied state, selecting, by the application software receiving the push information, one occupied port from the ports in the non-occupied state in the port list P, so that the selected port is in the occupied state, and presenting the push information to the user by the application software occupying the selected port.

Step S3003 further includes, when the number of the application software receiving the push information occupying the port in the port list P is more than one, comparing the time that the application software receiving the push information occupies the port in the port list P, and presenting the push information to the user by the application software receiving the push information occupying the port in the port list P at the earliest time

S3004, when all the ports in the port list P are in the non-occupied state, then the application software receiving the push information selects one port from the ports in the port list P to be occupied, so that all the ports in the port list P are in the non-occupied state, the time when the application software occupies each port in the port list P is compared, and the push information is presented to the user by the application software occupying one port in the port list P at the earliest.

When the number of times of presenting the push information to the user is n, n is a natural number greater than or equal to 2, the number of the application software occupying the ports in the port list P is taken as m, and m is a natural number.

If all the ports in the port list P are occupied by one application software, that is, m is 1, the application software presents the push information to the user n times.

If the number of the port application software occupying the port in the port list P is equal to the number of times of presenting the push information to the user, that is, m is equal to n, each application software occupying the port in the port list P presents the push information to the user 1 time.

If the number of the application software occupying the ports in the port list P is greater than the number of times of presenting the push information to the user, that is, m > n, the n application software occupying the earliest ports in the port list P all present the push information to the user 1 time.

If the number of the application software occupying the ports in the port list P is less than the number of times of presenting the push information to the user, namely m < n, each application software occupying the ports in the port list P presents the push information to the user for 1 time, and then the earliest 1 application software occupying the ports in the port list P presents the push information to the user for n-m times.

The manner of presenting the push information to the user in this embodiment includes any one of the following manners and combinations thereof: text broadcasting, picture broadcasting, voice broadcasting and video broadcasting.

In this embodiment, when the application software is closed or in background operation, the port occupied by the application software is released, so that the port is in a non-occupied state.

Moreover, other implementations of the invention will be apparent to those skilled in the art from consideration of the specification of the invention disclosed herein. The embodiments and/or aspects of the embodiments can be used in the systems and methods of the present invention alone or in any combination. 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.

Claims (9)

1. A method for processing push information based on port occupation is characterized in that push information indication marks comprise a first indication mark or a second indication mark, and the method specifically comprises the following steps,

step S100, receiving push information of a server side by application software, wherein the push information comprises a push information indication mark;

step S200, the application software judges the indication mark and detects the port state according to the judgment result;

in step S200, when the application software determines that the indication identifier is the first indication identifier, it detects that the predetermined port list P is { P ═ P₁,p₂,...,p_nThe state of the middle port, wherein n is more than or equal to 1, executing the step S300; when the judgment mark is a second indication mark, directly processing the push information, and not detecting the state of the port, wherein the state comprises an occupied state and a non-occupied state;

step S300, the application software processes the push information according to the state of the port;

when n is 1, step S300 further includes: if the application software detects the predetermined port p₁Is in a non-occupied state, the application software occupies the predetermined port p₁And directly processing the push information; if the application software detects the predetermined port p₁If the state of the application software is an occupied state, the application software does not process the push information;

when n is greater than or equal to 2, the step S300 further comprises: if all ports in the port list P are in an occupied state, the application software does not process the push information; if the port list P has the port in the non-occupied state, the application software selects one port from the ports in the non-occupied state, sets the selected port to the occupied state, and processes the push information.

2. The method of claim 1, wherein the selecting a port from the non-occupied ports by the application software comprises selecting randomly or sequentially, and when the application software selects a port from the non-occupied ports sequentially for occupation, if the application software detects a predetermined port p₁Is in a non-occupied state, the application software occupies the predetermined port p₁And directly processing the push information; if the application software detects the predetermined port p₁Is in an occupied state, the application software follows the preset port list from p₁To p_nSequentially, determining the next predetermined port { p }₂,...,p_nIf the application software detects that the state of a subsequent preset port is a non-occupied state, the application software occupies the subsequent preset port,and directly processing the push information; if the application software detects a subsequent predetermined port p_nIf the state of (2) is an occupied state, the application software does not process the push information.

3. Method for handling push information according to claim 1 or 2, wherein the way of handling the push information comprises the following ways and combinations thereof: text broadcasting, picture broadcasting, voice broadcasting and video broadcasting.

4. Method of handling push information according to claim 1 or 2, characterized in that: and when the application software is closed or in background operation, releasing the port occupied by the application software so as to enable the port to be in a non-occupied state.

5. A method for processing push information based on port occupation is characterized in that push information indication marks comprise a first indication mark or a second indication mark, and the method specifically comprises the following steps,

step S100, receiving push information of a server side by application software, wherein the push information comprises a push information indication mark;

step S200, the application software judges the indication mark and detects the port state according to the judgment result;

in the step S200, the application software determines the indication identifier of the push information, and if the indication identifier is the first indication identifier, detects the state of the predetermined port, and executes the step S300; when the judgment mark is a second indication mark, directly processing the push information, and not detecting the state of the port, wherein the state comprises an occupied state and a non-occupied state;

step S300, the application software processes the push information according to the state of the port;

in the step S300, if the application software detects that the state of the predetermined port is a non-occupied state, the application software occupies the predetermined port and directly processes the push information; and if the application software detects that the state of the preset port is an occupied state, the application software does not process the push information.

6. The method of claim 5, wherein the push information indication identifier comprises a port number;

in step S200, the application software detects a state of a port corresponding to the port number, where the state includes an occupied state and a non-occupied state;

in the step S300, if the application software detects that the state of the port is a non-occupied state, the application software occupies the port and directly processes the push information; and if the application software detects that the state of the port is an occupied state, the application software does not process the push information.

7. The method of claim 6, wherein the indication is identified as a slave-side port list Q ═ Q [ [ Q ] ]₁,q₂,...,q_mThe selected port number in (j), m is more than or equal to 2.

8. Method for handling push information according to any of claims 5 to 7, wherein the way of handling the push information comprises the following ways and combinations thereof: text broadcasting, picture broadcasting, voice broadcasting and video broadcasting.

9. Method of handling push information according to any of claims 5 to 7, characterized in that: and when the application software is closed or in background operation, releasing the port occupied by the application software so as to enable the port to be in a non-occupied state.

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