CN109743409A - Asynchronous communication method and device - Google Patents

Abstract

The application provides a kind of asynchronous communication method and device, is related to field of communication technology, can be realized the asynchronous communication between management platform and eUICC.This method comprises: management platform obtains the parameter of sub-process, according to the parameter of sub-process, instruction is generated, sends instruction to the corresponding eUICC of MSISDN.Management platform can also receive response instruction, sequence number and MSISDN in instruction according to response, determine sub-process performed by the corresponding eUICC of MSISDN, status information in instruction according to response, it is determined whether obtain the parameter of the adjacent next sub-process of sub-process performed by eUICC corresponding with MSISDN.Wherein, instructing includes sequence number and mobile station international member identification code MSISDN, and sequence number is used to indicate the serial number of instruction, and response instruction includes sequence number, MSISDN and the corresponding eUICC of MSISDN according to instruction status information adjusted.

Description

Asynchronous communication method and device

Technical field

This application involves the communications field more particularly to a kind of asynchronous communication methods and device.

Background technique

Currently, universal embedded integrated circuit card (embedded universal integrated circuit card, EUICC) it is widely used in internet of things field, such as eUICC is welded on the mainboard of equipment, so that equipment has networking and communication Ability.Management platform is communicated using over the air (over the air technology, OTA) with eUICC, To be managed to equipment.For the operation flow between management platform and eUICC, generally require to interact a plurality of finger between the two Order could be completed.And manage and mostly use synchronous communication mode transmission instruction between platform and eUICC, that is, it is directed to a certain Business Stream Journey, after management platform sends an instruction to eUICC, management platform can wait always eUICC to reply response instruction.If management is flat Platform receives response instruction in preset time range, then next instruction of the operation flow is sent to eUICC.If management is flat Platform does not receive response instruction in preset time range, then declares that this operation flow fails, need to re-execute the business Process.

In addition, the equipment equipped with eUICC is often applied in adverse circumstances, extremely low environment, rugged environment such as temperature Factor will affect the working performance of equipment, further extend the response time of equipment.Equipment equipped with eUICC usually requires together When with communicated between multiple equipment, equally can also increase equipment to management platform send response instruction interval time, cause Make management platform that can not receive response instruction in preset time range, influences the execution of operation flow.

Summary of the invention

The application provides a kind of asynchronous communication method and device, can be realized asynchronous logical between management platform and eUICC Letter.

In order to achieve the above objectives, the application adopts the following technical scheme that

In a first aspect, the application provides a kind of asynchronous communication method, it is applied to asynchronous communication system, asynchronous communication system packet Include management platform and at least one universal embedded integrated circuit card eUICC, management platform with it is each at least one eUICC There are at least one operation flow between eUICC, each operation flow includes at least one sub-process, and this method may include:

Manage the parameter that platform obtains sub-process；

Platform is managed according to the parameter of sub-process, generates instruction, instruction includes that sequence number and mobile station international member identify Code MSISDN, sequence number are used to indicate the serial number of instruction；

It manages platform and sends instruction to the corresponding eUICC of MSISDN；

Manage platform receive response instruction, response instruction include sequence number, MSISDN and the corresponding eUICC of MSISDN according to Instruct status information adjusted；

Management platform instruct according to response in sequence number and MSISDN, determine performed by the corresponding eUICC of MSISDN Sub-process；

Management platform instruct according to response in status information, it is determined whether acquisition eUICC corresponding with MSISDN is held The parameter of the adjacent next sub-process of row sub-process.

Second aspect, the application provide a kind of asynchronous communication device, asynchronous applied to the management platform of asynchronous communication system Communication system further includes at least one universal embedded integrated circuit card eUICC, management platform with it is each at least one eUICC There are at least one operation flow between eUICC, each operation flow includes at least one sub-process, the apparatus may include: Parameter acquisition module, directive generation module, instruction sending module, response command reception module, sub-process determining module and state Information checking module.Wherein, parameter acquisition module, for obtaining the parameter of sub-process；Directive generation module, for according to subflow The parameter of journey, generates instruction, and instruction includes that sequence number and mobile station international member identification code MSISDN, sequence number are used to indicate finger The serial number of order；Instruction sending module, for sending instruction to the corresponding eUICC of MSISDN；Command reception module is responded, for connecing It receives and responds instruction, response instruction includes that sequence number, MSISDN and the corresponding eUICC of MSISDN believe according to instruction state adjusted Breath；Sub-process determining module determines the corresponding eUICC institute of MSISDN for the sequence number and MSISDN in instructing according to response The sub-process of execution；Status information correction verification module, for the status information in instructing according to response, it is determined whether obtain with The parameter of the adjacent next sub-process of sub-process performed by the corresponding eUICC of MSISDN.

The third aspect, the application provide a kind of asynchronous communication device, the apparatus may include: processor, communication interface and Memory；Wherein, for memory for storing one or more programs, which includes computer executed instructions, When asynchronous communication device operation, processor executes the computer executed instructions of memory storage, so that this is asynchronous logical T unit executes asynchronous communication method one of any in first aspect and its various optional implementations.

Fourth aspect, the application provide a kind of computer readable storage medium, are stored in computer readable storage medium Instruction, when computer executes the instruction, which, which executes in above-mentioned first aspect and its various optional implementations, appoints The asynchronous communication method of one of meaning.

5th aspect, the application provides a kind of computer program product comprising instruction, when computer program product is being counted When being run on calculation machine so that computer execute in above-mentioned first aspect and its various optional implementations it is one of any asynchronous Communication means.

Asynchronous communication method and device provided by the present application, after management platform obtains the parameter of sub-process, according to son The parameter of process generates instruction, then sends instruction to the corresponding eUICC of MSISDN.Management platform can also obtain response instruction, Sequence number and MSISDN in instruction according to response, determines sub-process performed by the corresponding eUICC of MSISDN, refers to according to response Status information in order, it is determined whether obtain the adjacent next sub-process of sub-process performed by eUICC corresponding with MSISDN Parameter.In compared with the existing technology, management platform at the appointed time in section, does not receive the response instruction of eUICC feedback, then Management platform is abandoned and the currently performed operation flow of eUICC, asynchronous communication method provided by the present application, since management platform will Instruction interaction between eUICC is split as sending instruction and receives response instruction, the instruction of transmission and received response instruction Sequence number and MSISDN are carried, management platform can determine sub-process performed by the corresponding eUICC of MSISDN, in conjunction with Status information in response instruction, it is determined whether obtain adjacent next of sub-process performed by eUICC corresponding with MSISDN The parameter of sub-process realizes the asynchronous communication between management platform and eUICC, facilitates management platform to carry out sub-process allotment, mentions The efficiency of management of the height to eUICC.

Detailed description of the invention

Fig. 1 is asynchronous communication system configuration diagram one provided by the embodiments of the present application；

Fig. 2 is asynchronous communication method flow diagram one provided by the embodiments of the present application；

Fig. 3 is asynchronous communication method flow diagram two provided by the embodiments of the present application；

Fig. 4 is asynchronous communication system configuration diagram two provided by the embodiments of the present application；

Fig. 5 is operation flow method schematic diagram provided by the embodiments of the present application；

Fig. 6 is first stage corresponding method schematic diagram in operation flow provided by the embodiments of the present application；

Fig. 7 is the corresponding method signal of first sub-process of second stage in operation flow provided by the embodiments of the present application Figure；

Fig. 8 is the corresponding method signal of second sub-process of second stage in operation flow provided by the embodiments of the present application Figure；

Fig. 9 is the corresponding method signal of third sub-process of second stage in operation flow provided by the embodiments of the present application Figure；

Figure 10 is phase III corresponding method schematic diagram in operation flow provided by the embodiments of the present application；

Figure 11 is data account checking apparatus structural schematic diagram one provided by the embodiments of the present application；

Figure 12 is data account checking apparatus structural schematic diagram two provided by the embodiments of the present application；

Figure 13 is data account checking apparatus structural schematic diagram three provided by the embodiments of the present application.

Specific embodiment

Asynchronous communication method provided by the embodiments of the present application and device are described in detail with reference to the accompanying drawing.

The terms "and/or", only a kind of incidence relation for describing affiliated partner, indicates that there may be three kinds of passes System, for example, A and/or B, can indicate: individualism A exists simultaneously A and B, these three situations of individualism B.

Term " first " and " second " in the description of the present application and attached drawing etc. be for distinguishing different objects, or Person is used to distinguish the different disposal to same target, rather than is used for the particular order of description object.

In addition, the term " includes " being previously mentioned in the description of the present application and " having " and their any deformation, it is intended that It is to cover and non-exclusive includes.Such as the process, method, system, product or equipment for containing a series of steps or units do not have It is defined in listed step or unit, but optionally further comprising the step of other are not listed or unit, or optionally It further include the other step or units intrinsic for these process, methods, product or equipment.

It should be noted that in the embodiment of the present application, " illustrative " or " such as " etc. words make example, example for indicating Card or explanation.Be described as in the embodiment of the present application " illustrative " or " such as " any embodiment or design scheme do not answer It is interpreted than other embodiments or design scheme more preferably or more advantage.Specifically, " illustrative " or " example are used Such as " word is intended to that related notion is presented in specific ways.

In the description of the present application, unless otherwise indicated, the meaning of " plurality " is refer to two or more.

Asynchronous communication method provided by the embodiments of the present application can be applied to asynchronous communication system, as shown in Figure 1.The system Including management platform and the universal embedded integrated circuit card of one or more (embedded universal integrated circuit card,eUICC).There are one or more operation flows between management platform and every eUICC.Each Business Stream Cheng Jun includes one or more sub-process.Each sub-process is provided with corresponding parameter.

Referring to Fig.1, platform is managed, for the parameter according to sub-process a certain in a certain operation flow, generates instruction, to EUICC sends instruction.Wherein, instruction includes that sequence number and mobile station international member identification code MSISDN, sequence number are used to indicate The serial number of the instruction.Management platform be also used to from eUICC obtain response instruction, according to response instruction in sequence number and MSISDN determines sub-process performed by the corresponding eUICC of MSISDN, in order to obtain the next height adjacent with the sub-process The parameter of process.Wherein, after response instruction is adjusted including sequence number, MSISDN eUICC corresponding with the MSISDN according to instruction Status information.

Management platform can be the electronic equipment for having computing function, such as computer, desktop computer, laptop.

Referring to Fig.1, eUICC, for generating response from management platform acquisition instruction according to instruction carry out state adjustment and referring to It enables.Wherein, instruction includes sequence number and MSISDN, and sequence number is used to indicate the serial number of the instruction, and MSISDN is corresponding with eUICC. Institute is according to sequence number, the MSISDN and according to instruction status information adjusted in instruction when response instruction includes state adjustment. Response instruction in sequence number, with eUICC state adjust institute according to instruct in sequence number it is identical.In response instruction MSISDN, with eUICC state adjust institute according to instruct in MSISDN it is identical.

It should be noted that operation flow is the process of service execution that is arranged to realize a certain management effect.It is each Kind operation flow needs to manage the instruction that interaction is different between platform and eUICC, so that management platform can play pipe to eUICC Corresponding management effect is realized in the effect of reason.In order to realize different management effects, manage platform and eUICC need to be implemented with The corresponding operation flow of management effect, the different instruction of interaction between management platform and eUICC.

Each operation flow includes one or more sub-process.In the implementation procedure of operation flow, management platform and Every interactive once command between eUICC, that is, be considered as a sub-process.

Illustratively, it is issued to eUICC in order to make to manage platform for configuration file, eUICC is needed to be implemented " under configuration file Carry " operation flow, need to manage the corresponding instruction of interaction between platform and eUICC, such as " the creation safe domain configuration file of publisher (issuer security domain profile,

ISD-P instruction) ", " application identifier (the issuer security of the transmission safe domain configuration file of publisher Domain profile application identifier, ISD-P-AID) " instruction, the instruction of " send certificate ", " hair Send signature " instruction, " open Hyper text transfer security protocol (hypertext transfer protocol secure, HTTPS) channel " instruction, " HTTPS is opened successfully in channel " response instruction etc..Therefore, the son of " configuration file downloading " operation flow Process includes: creation ISD-P, sends ISD-P-AID, send certificate, send signature and translation profile.Wherein, it " opens The channel HTTPS " instruction and " HTTPS is opened successfully in channel " response instruction are to establish between management platform and eUICC The channel HTTPS, so that management platform passes through the channel HTTPS to eUICC translation profile.

Each sub-process is provided with corresponding parameter, so that parameter of the management platform according to each sub-process, generates phase The instruction answered is sent to eUICC, also, managing platform can also be according to the parameter of each sub-process, in conjunction with eUICC feedback Response instruction, determine sub-process performed by eUICC, and determine the next subflow adjacent with sub-process performed by eUICC The parameter of journey.

As a kind of possible implementation, the parameter of each sub-process may include MSISDN, sequence number and process section Point identification.

Wherein, MSISDN is used to indicate: the effective object of the parameter of the sub-process is the corresponding eUICC of the MSISDN.Pipe Platform generates instruction, then send and instruct to eUICC according to the parameter of sub-process.It sends and instructs to eUICC in management platform When, the instruction can be transmitted to the corresponding eUICC of the MSISDN according to the MSISDN in instruction.EUICC to management platform When sending response instruction, the MSISDN can be also stored in response instruction, in order to manage during platform instructs according to response MSISDN determines the eUICC for sending response instruction.

Wherein, sequence number is used to indicate: managing platform according to the sequence number of the generated instruction of parameter of the sub-process.Example Property, when MSISDN be 86-13915900000, management platform to

When eUICC corresponding to 86-13915900000 sends first instruction, the sequence number in the instruction is are as follows: the One；When sending Article 2 instruction to eUICC corresponding to 86-13915900000, the sequence number in the instruction is are as follows: second.When MSISDN is 86-13915911111, management platform to

When eUICC corresponding to 86-13915911111 sends first instruction, the sequence number in the instruction is are as follows: the One；When sending Article 2 instruction to eUICC corresponding to 86-13915911111, the sequence number in the instruction is are as follows: second.

Wherein, flow nodes mark identifies a corresponding sub-process for identifying sub-process, each flow nodes, in order to Manage platform from eUICC obtain response instruction after, according to response instruction in MSISDN and sequence number, determine with response instruction in MSISDN and sequence number corresponding flow nodes mark, that is, can determine sub-process performed by the corresponding eUICC of MSISDN.

The embodiment of the present application provides a kind of asynchronous communication method, as shown in Fig. 2, this method may include S201~S207:

S201, management platform obtain the parameter of sub-process.

It should be noted that between management platform and every eUICC, there are one or more operation flows.Each Business Stream Cheng Jun includes one or more sub-process.Each sub-process is provided with corresponding parameter.

For a type of operation flow, operation flow, the only certificate in eUICC certificate and management platform are such as downloaded When for same root certificate, management platform just can eUICC corresponding with eUICC certificate carry out instruction interaction.Executing first sub-process When, management platform needs to carry out certificate sign test, i.e. whether the certificate of verification eUICC certificate and management platform is same root certificate It signs and issues: if so, management platform obtains the parameter of corresponding sub-process, carrying out instruction interaction with the eUICC, execute corresponding business Process；If it is not, then managing the parameter that platform no longer obtains corresponding sub-process, abandon carrying out instruction interaction with the eUICC.Referring to Fig. 3 specifically can be implemented as following steps:

S2011, if sub-process is the first sub-process in operation flow, management platform obtains eUICC certificate.

Wherein, eUICC certificate is used to indicate the power whether corresponding eUICC of eUICC certificate has with manage Platform communication Limit.

Illustratively, when the certificate of eUICC certificate and management platform is with root certificate, the corresponding eUICC energy of eUICC certificate It is enough to be communicated with management platform.The certificate of eUICC certificate and management platform is not when being same root certificate, management platform no longer with The corresponding eUICC of eUICC certificate is communicated.

As a kind of possible implementation, manages platform and obtain universal embedded integrated circuit card information collection (embedded universal integrated circuit card information set, EIS).Wherein, EIS includes The corresponding eUICC certificate of eUICC.

Manage the eUICC certificate in platform verification EIS.Illustratively, management platform is according to a certain

EUICC certificate is found and the eUICC credentials match certificate.If managing the certificate of platform and the certificate being matched to For same root certificate, then success is verified, also indicates that the corresponding eUICC of eUICC certificate can continue to communicate with management platform.If management The certificate of platform and the certificate being matched to are not same root certificates, then verify failure, also indicate that management platform no longer with eUICC certificate Corresponding eUICC is communicated.Wherein, what management platform was found can be with the certificate of the eUICC credentials match are as follows: certificate hair Cloth person (certificate issuer, CI) certificate and eUICC manufacturer (embedded universal integrated Circuit card manufacturer, EUM) certificate.

The eUICC certificate of some eUICC is managed if the certificate of eUICC certificate and management platform is same root certificate Platform executes S2012.If the certificate of eUICC certificate and management platform is not same root certificate, manages platform and execute S2013.

S2012, management platform obtain the corresponding parameter of sub-process of operation flow.

Wherein, the corresponding parameter of sub-process headed by the corresponding parameter of sub-process, the corresponding parameter of first sub-process include: The corresponding MSISDN of eUICC for having communication authority (management platform determines that there are same root certificates).

Illustratively, the first sub-process when operation flow is eUICC download configuration file, in the operation flow are as follows: EUICC creates the safe domain configuration file of publisher (issuer security domain profile, ISD-P).The sub-process (eUICC creates the safe domain configuration file of publisher) corresponding parameter includes: a certain determining corresponding in the presence of the eUICC with root certificate MSISDN, the corresponding flow nodes mark of sequence number, the sub-process and configuration file mark.

S2013, management platform are abandoned carrying out instruction interaction with the eUICC.

Here, management platform determines the certificate of management platform and whether eUICC certificate is that same root is demonstrate,proved by eUICC certificate Book, then handled for the eUICC existed with root certificate, meet the needs of actual operation flow.

It should be noted that being necessary to determine whether exist in the operation flow with root certificate, for there are same root certificates EUICC, manage and execute S2011 and S2012 between platform and eUICC, for there is no the eUICC with root certificate, management is flat S2011 and S2013 is executed between platform and eUICC.

For another type of operation flow, operation flow is such as deleted, then manages platform and does not need to determine with the presence or absence of same Root certificate, and the information for needing to verify are as follows: whether first, eUICC to be deleted are in the management platform management；Second, if permit Perhaps the eUICC of processing to be deleted is deleted.After information checking completion, management platform can just obtain the parameter of sub-process, at this point, Platform is managed without executing

S2011 executes S2012 after information checking completion.

It should be noted that if current sub-process is not the first sub-process where it in operation flow, then management is flat Platform can also directly execute S2012.

Illustratively, also by taking " eUICC download configuration file " operation flow as an example, second sub-process are as follows: send wound Build application identifier (the issuer security domain profile application of the safe domain configuration file of publisher Identifier, ISD-P-AID), which is not the first sub-process of " eUICC download configuration file " operation flow, The parameter that platform directly acquires the sub-process, the i.e. parameter of " transmission ISD-P-AID " sub-process are then managed, can specifically include: The application identifier AID of MSISDN, sequence number, the sub-process corresponding flow nodes mark and ISD-P.

In addition, carrying out information management and statistics to make to manage subsequent facilitate of platform, sub-process is got in management platform Parameter after, store the parameter of the sub-process got.That is, executing S2014 after S2012.

S2014, the parameter of management platform storage sub-process.

Illustratively, the parameter of sub-process may include being used to indicate the sequence number of instruction and can determine eUICC's MSISDN can also include the flow nodes mark that can be identified for that sub-process.

It should be noted that management platform can execute S2014 any time after executing S2012, before S205.

S202, management platform generate instruction according to the parameter of sub-process.

Wherein, instruction includes sequence number and MSISDN, and sequence number is used to indicate the serial number of instruction.

It should be noted that MSISDN is used to indicate: the effective object of the instruction is the corresponding eUICC of the MSISDN.Sequence Row number is used to indicate the serial number of instruction.

Illustratively, when MSISDN is 86-13915900000, management platform is to corresponding to 86-13915900000 When eUICC sends first instruction, the sequence number in the instruction is are as follows: first；To eUICC corresponding to 86-13915900000 When sending Article 2 instruction, the sequence number in the instruction is are as follows: second.When MSISDN is 86-13915911111, management platform When sending first instruction to eUICC corresponding to 86-13915911111, the sequence number in the instruction is are as follows: first；To 86- When eUICC corresponding to 13915911111 sends Article 2 instruction, the sequence number in the instruction is are as follows: second.

S203, management platform send instruction to the corresponding eUICC of MSISDN.

Correspondingly, the corresponding eUICC of MSISDN receives instruction from management platform.

Specifically, instruction is transmitted to the corresponding eUICC of the MSISDN according to the MSISDN in instruction by management platform.

S204, management platform receive response instruction.

Wherein, response instruction includes sequence number, MSISDN and the corresponding eUICC of MSISDN according to instruction state adjusted Information.

It should be noted that eUICC after management platform acquisition instruction, according to instruction carry out state adjustment, generates response Instruction.Since the instruction obtained from management platform carries sequence number and MSISDN, also, eUICC can also carry instruction Sequence number and MSISDN are stored into response instruction.It is adjusted that is, being not only stored with eUICC in response instruction according to instruction Status information after whole, there are also sequence numbers and MSISDN.In this way, management platform receives response instruction, sequence can be also got Row number, MSISDN and the corresponding eUICC of MSISDN are according to instruction status information adjusted.

S205, management platform instruct according to response in sequence number and MSISDN, determine that the corresponding eUICC of MSISDN is held Capable sub-process.

Specifically, management platform storage sub-process flow nodes mark and flow nodes mark respectively with sequence number With the corresponding relationship of MSISDN.Management platform receive response instruction after, according to response instruction in sequence number and MSISDN, And the flow nodes of storage identify the corresponding relationship with sequence number and MSISDN respectively, obtain the corresponding eUICC institute of MSISDN Execute the flow nodes mark of sub-process.Since flow nodes mark has the function of identifying sub-process, in this way, management platform is It can determine sub-process performed by the corresponding eUICC of MSISDN.Referring to Fig. 3, specifically can be implemented as S2014, S2051 and S2052:

Wherein, the detailed process of S2014 can be found in above description, and which is not described herein again.

It should be noted that in S2014 stored sub-process parameter, need include: sub-process flow nodes mark, Sequence number and MSISDN.

S2051, management platform instruct according to response in sequence number and MSISDN, and be pre-stored sub-process process Node identification, sequence number and MSISDN determine the flow nodes mark of sub-process performed by the corresponding eUICC of MSISDN.

S2052, the flow nodes mark of management platform sub-process according to performed by the corresponding eUICC of MSISDN, determines Sub-process performed by the corresponding eUICC of MSISDN.

Here, management platform can be by being stored in advance the parameter of sub-process, in conjunction with the response instruction that eUICC is fed back, i.e., It can determine sub-process performed by the eUICC.In compared with the existing technology, if management platform at the appointed time in section, does not receive To eUICC feed back response instruction, then manage platform abandon with the currently performed operation flow of eUICC, in the embodiment of the present application In the asynchronous communication method of offer, due to the parameter of management platform pre-selection storage sub-process, at any time, management platform is received The response instruction fed back to eUICC, can be accurately positioned out sub-process performed by the eUICC of feedback response instruction, in order to It manages platform and determines the next sub-process adjacent with sub-process performed by eUICC, and make to manage the next subflow of platform acquisition The parameter of journey.

S206, management platform instruct according to response in status information, it is determined whether acquisition eUICC corresponding with MSISDN The parameter of the adjacent next sub-process of performed sub-process.

Specifically, the status information in response instruction can indicate: the corresponding eUICC of MSISDN is according to instruction adjustment itself State whether succeed and the corresponding eUICC of MSISDN whether all sub-processes in finishing service process.Manage platform according to The state of the corresponding eUICC of MSISDN, it is determined whether obtain adjacent next of sub-process performed by eUICC corresponding with MSISDN The parameter of a sub-process.Following process can be implemented as referring to Fig. 3, S206:

S2061, if status information is first state information, first state information indicate the corresponding eUICC of MSISDN according to Instruction adjustment oneself state success, and do not complete all sub-processes in operation flow, then it manages platform and obtains and MSISDN pairs The parameter of the adjacent next sub-process of sub-process performed by the eUICC answered.

S2062, if status information is the second status information, the second status information indicate the corresponding eUICC of MSISDN according to Instruction adjustment oneself state failure, alternatively, the corresponding eUICC of MSISDN is successfully completed all sub-processes in operation flow, Then manage the parameter that platform stops obtaining the adjacent next sub-process of sub-process performed by eUICC corresponding with MSISDN.

Here, state of the management platform according to the corresponding eUICC of MSISDN, it is determined whether obtain corresponding with MSISDN The parameter of the adjacent next sub-process of sub-process performed by eUICC, can either guarantee that operation flow smoothly executes, and can mention The efficiency of senior executive's platform.

In addition, referring to improve management platform to the efficiency of management of eUICC in the response that management platform gets eUICC After order, the corresponding state parameter of local side operation flow is updated.That is, executing S207 after S204.

S207, management platform instruct according to response in status information, the corresponding state parameter of update operation flow.

Illustratively, also by taking " eUICC download configuration file " operation flow as an example, management platform sends to eUICC and configures After file, the response instruction of eUICC feedback will receive.At this point, the status information in response instruction are as follows: configuration file has been downloaded At management platform updates the state parameter of operation flow, i.e., by configuration file according to " configuration file downloading is completed " status information Status modifier in information is " un-activation ", and to indicate that configuration file has been downloaded in eUICC, and configuration file is in and does not swash State living.

Asynchronous communication method provided by the embodiments of the present application, after management platform obtains the parameter of sub-process, according to son The parameter of process generates instruction, then sends instruction to the corresponding eUICC of MSISDN.Management platform can also obtain response instruction, Sequence number and MSISDN in instruction according to response, determines sub-process performed by the corresponding eUICC of MSISDN, refers to according to response Status information in order, it is determined whether obtain the adjacent next sub-process of sub-process performed by eUICC corresponding with MSISDN Parameter.In compared with the existing technology, management platform at the appointed time in section, does not receive the response instruction of eUICC feedback, then Management platform is abandoned and the currently performed operation flow of eUICC, asynchronous communication method provided by the embodiments of the present application, due to management Platform is split as the instruction interaction between eUICC to send instruction and receives response instruction, the instruction of transmission and received sound It should instruct and carry sequence number and MSISDN, management platform can determine sub-process performed by the corresponding eUICC of MSISDN, In conjunction with the status information in response instruction, it is determined whether it is adjacent to obtain sub-process performed by eUICC corresponding with MSISDN The parameter of next sub-process realizes the asynchronous communication between management platform and eUICC, and management platform is facilitated to carry out sub-process tune Match, improves the efficiency of management to eUICC.

For managing platform, referring to fig. 4, management platform includes subscription manager data preparation (subscription Manager data preparation, SM-DP) unit, subscription manager Security routing (subscription manager Secure routing, SM-SR) unit and allotment center.Wherein, SM-DP unit is for securely generating and management business process The parameter of neutron process, SM-SR unit are used for the parameter of Security routing and transmission services process neutron current journey, and allotment center is used for Deploy each sub-process in operation flow.

Illustratively, referring to fig. 4, SM-DP unit carries out data preparation, prepares the data of current substream journey, such as current son The flow nodes of process identify and the instruction comprising relevant parameter, for example, including related ginseng when relevant parameter is configuration file Several instruction are as follows: the instruction comprising configuration file.SM-DP unit sends the flow nodes mark of current substream journey to SM-SR unit Know and the instruction comprising relevant parameter, SM-SR unit send the flow nodes mark of current substream journey to allotment center, include phase Instruction, sequence number and the MSISDN of parameter are closed, allotment center is according to the flow nodes mark of current substream journey, relevant parameter, sequence Row number and MSISDN generate instruction, send and instruct to eUICC.EUICC generates response and refers to according to the state of instruction adjustment itself It enables, sends response instruction to allotment center.Allotment center instruct according to response in sequence number and MSISDN, determine MSISDN pairs Current substream journey performed by the eUICC answered sends the corresponding response sub-process of current substream journey to SM-SR unit, and SM-SR is mono- Status information in first instruction according to response, the next sub-process adjacent with current substream journey, SM- are sent to SM-DP unit DP unit carries out data preparation, prepares the data of next sub-process, the flow nodes mark of such as next sub- process and comprising The instruction of relevant parameter.

In the following, by taking " eUICC download configuration file " operation flow as an example, to asynchronous communication side provided by the embodiments of the present application Method is illustrated.Referring to Fig. 5, " eUICC download configuration file " operation flow includes three phases, first stage are as follows: management is flat Platform remotely creates the safe domain configuration file of publisher (issuer security domain profile, ISD- on eUICC P), second stage are as follows: management platform remotely establish key between eUICC, be mutually authenticated, the phase III are as follows: manage platform to EUICC translation profile.Wherein, the first stage includes a sub-process, i.e. " creation ISD-P ", and second stage includes three Sub-process sends application identifier (the issuer security domain profile of the safe domain configuration file of publisher Application identifier,

ISD-P-AID), send certificate and send signature, the phase III includes a sub-process, i.e. transmission configuration file.

Referring to Fig. 6 to Figure 10, the specific implementation process of operation flow " eUICC download configuration file " can be divided into three ranks Section, wherein referring to Fig. 6, the first stage of operation flow " eUICC download configuration file " are as follows: management platform is remotely on eUICC ISD-P is created, the first stage includes a sub-process, i.e. " creation ISD-P ", and the specific implementation process of first stage includes S601 ~S612:

S601, SM-DP unit obtain universal embedded integrated circuit card information collection (embedded from SM-SR unit Universal integrated circuit card information set, EIS), verify the eUICC certificate in EIS.

Wherein, EIS includes the corresponding eUICC certificate of eUICC.The certificate of eUICC certificate and SM-DP unit is same root certificate When, the corresponding eUICC of eUICC certificate can be communicated with management platform, then SM-DP unit executes S602.EUICC certificate with When the certificate of SM-DP unit is not same root certificate, management platform eUICC no longer corresponding with eUICC certificate is communicated, then SM-DP unit abandons preparing the flow nodes mark and relevant parameter of " creation ISD-P " sub-process.

Illustratively, when whether the certificate of verifying eUICC certificate and SM-DP unit is same root certificate, process is implemented It is as follows:

According to eUICC certificate, the certificate issuer (certification with the eUICC credentials match is found Issuer, CI) certificate and eUICC manufacturer (eUICC manufacturer, EUM) certificate certificate.CI certificate sign test EUM card Book, after EUM sign test passes through, EUM certificate sign test eUICC certificate.Here, the certificate of SM-DP unit is by certificate issuer CI The certificate of private key signature.If eUICC certificate sign test passes through, the certificate of eUICC certificate and SM-DP unit is same root certificate, no Then, the certificate of eUICC certificate and SM-DP unit is not same root certificate.

S602, SM-DP unit prepare the flow nodes mark and relevant parameter of " creation ISD-P " sub-process, such as embedded Universal Integrated Circuit Card mark (embedded universal integrated circuit card identification, EID), in eUICC configuration file Integrated Circuit Card Identity (integrated circuit card identification, ICCID), to SM-SR unit transmission flow node identification " creation ISD-P ", universal embedded Integrated Circuit Card Identity EID sum aggregate ICCID is identified at circuit card.Wherein, ICCID is the unique number of configuration file in eUICC.

Application identifier (the application of S603, SM-SR unit the generation safe domain configuration file of publisher Identifier, AID).

S604, SM-SR unit send the application identities AID of the safe domain configuration file of publisher, mobile station to allotment center The integrated circuit card of configuration file in international member identification code MSISDN, universal embedded Integrated Circuit Card Identity EID, eUICC Identify ICCID, sequence number and flow nodes mark " creation ISD-P ".

Wherein, sequence number can be the serial number after counter accumulation process.

S605, allotment center record AID, MSISDN, EID, ICCID, sequence number and flow nodes mark " creation ISD- P”。

S606, allotment center send " creation ISD-P " instruction to the corresponding eUICC of MSISDN.

Wherein, " creation ISD-P " instruction includes: AID, MSISDN and sequence number of ISD-P.

S607, eUICC create the safe domain configuration file of publisher according to " creation ISD-P " instruction.

S608, eUICC send " creation ISD-P " response instruction to allotment center.

Wherein, " creation ISD-P " response instruction includes: MSISDN, sequence number and the safe domain configuration file creation of publisher As a result.MSISDN in " creation ISD-P " response instruction is identical as the MSISDN in " creation ISD-P " instruction, " creation ISD-P " Sequence number in response instruction is identical as the sequence number in " creation ISD-P " instruction.The safe domain configuration file creation knot of publisher The corresponding eUICC of fruit, as MSISDN is according to " creation ISD-P " instruction status information adjusted.

S609, allotment center is according to the sequence number and MSISDN in " creation ISD-P " response instruction, and pre-stored son Flow nodes mark " creation ISD-P ", sequence number and the MSISDN of process, determine subflow performed by the corresponding eUICC of MSISDN The flow nodes mark " creation ISD-P " of journey.

Illustratively, flow nodes mark " creation ISD-P " belongs to the information of EID, and allotment center is searched according to MSISDN To with the matched EID of MSISDN.At this point, allotment center can find the information of the eUICC of feedback response instruction, that is, can determine The flow nodes mark " creation ISD-P " of sub-process performed by eUICC.

S610, allotment center identify " creation ISD-P " according to flow nodes, determine response sub-process, i.e. " response creation ISD-P " sends " response creation ISD-P " to SM-SR unit.

Status information in the verification of S611, SM-SR unit " creation ISD-P " response instruction.

If status information are as follows: the safe domain configuration file success of creation publisher then shows eUICC according to " creation ISD-P " Instruction adjustment oneself state is successful, and does not complete all sub-processes in " eUICC download configuration file " operation flow, then SM- SR unit executes S612.Meanwhile SM-SR unit can also create profile information in local side, wherein profile information packet Include the application identities AID of EID, ICCID and the safe domain configuration file ISD-P of publisher.

Illustratively, status information " the safe domain configuration file success of creation publisher " can use

" 9000 " are identified.

If status information are as follows: creation publisher's security domain profile down then shows eUICC according to " creation ISD-P " Instruction adjustment oneself state failure, then SM-SR unit determines whether to retransmit " creation ISD-P " instruction.Illustratively, if by In eUICC there are problem, lead to " creation ISD-P " instruction execution failure, then SM-SR unit is determined without retransmitting " creation ISD-P " instruction.If causing eUICC instruction execution to fail, then SM-SR unit is true since there are problems for " creation ISD-P " instruction Surely it needs to retransmit " creation ISD-P " instruction, and then starts retransmission mechanism, send " creation ISD-P " instruction again.

Illustratively, status information " creation publisher's security domain profile down " can use

" 0000 " is identified.

S612, SM-SR unit to SM-DP unit send sub-process performed by eUICC corresponding with MSISDN it is adjacent under One sub-process " sends application identities (the issuer security domain profile of the safe domain configuration file of publisher Application identifier, ISD-P-AID) ".

So far, by executing S601 to S612 the first stage can be completed, i.e. management platform remotely exists in management platform The safe domain configuration file success of publisher is created on eUICC.

Referring to Fig. 5, the second stage of operation flow " eUICC download configuration file " are as follows: management platform is long-range and eUICC it Between establish key, be mutually authenticated, second stage includes three sub-processes, i.e. transmission ISD-P-AID, sends certificate and send label Name.

Referring to Fig. 7, the specific implementation process of " sending ISD-P-AID " sub-process includes S701~S709:

S701, SM-DP unit prepare the flow nodes mark of " sending ISD-P-AID " sub-process, and include publisher The instruction of the application identities ISD-P-AID of safe domain configuration file " sends ISD- to SM-SR unit transmission flow node identification P-AID " and instruction comprising ISD-P-AID.

S702, SM-SR unit send MSISDN, sequence number, the instruction comprising ISD-P-AID and process section to allotment center Point identification " sends ISD-P-AID ".

Wherein, sequence number can be the serial number after counter accumulation process.

S703, allotment center record flow nodes mark " sending ISD-P-AID ", sequence number and mobile station international member and know Other code MSISDN.

S704, allotment center send " sending ISD-P-AID " instruction to the corresponding eUICC of MSISDN.

Wherein, " sending ISD-P-AID " and instruct includes: answering for MSISDN, sequence number and the safe domain configuration file of publisher With mark ISD-P-AID.

S705, eUICC send " sending ISD-P-AID " response instruction to allotment center.

Wherein, " sending ISD-P-AID " to respond instruction includes: MSISDN, sequence number and ISD-P-AID reception result." hair It send the MSISDN in ISD-P-AID " response instruction identical as the MSISDN in " sending ISD-P-AID " instruction, " sends ISD-P- Sequence number in AID " response instruction is identical as the sequence number in " sending ISD-P-AID " instruction.ISD-P-AID reception result, The corresponding eUICC of as MSISDN is according to " sending ISD-P-AID " instruction, if is successfully received the safe configuration of territory text of publisher The application identities ISD-P-AID of part.

S706, allotment center is according to the sequence number and MSISDN in " sending ISD-P-AID " response instruction, and is pre-stored Sub-process flow nodes mark " send ISD-P-AID ", sequence number and MSISDN, determine the corresponding eUICC institute of MSISDN Execute the flow nodes mark " sending ISD-P-AID " of sub-process.

S707, allotment center identify " sending ISD-P-AID " according to flow nodes, determine response sub-process, i.e. " response hair ISD-P-AID " is sent, sends " response sends ISD-P-AID " to SM-SR unit.

Status information in the verification of S708, SM-SR unit " sending ISD-P-AID " response instruction.

If status information are as follows: ISD-P-AID is received successfully, then shows that eUICC is instructed successfully according to " sending ISD-P-AID " ISD-P-AID is received, and does not complete all sub-processes in " eUICC download configuration file " operation flow, then SM-SR unit is held Row S709.

If status information are as follows: ISD-P-AID reception failure then shows that eUICC does not connect according to " sending ISD-P-AID " instruction ISD-P-AID is received, then SM-SR unit determines whether to retransmit " sending ISD-P-AID " instruction.Illustratively, if due to EUICC causes not receive ISD-P-AID there are problem, then SM-SR unit, which is determined, " sends ISD-P- without retransmitting AID " instruction.If causing eUICC not receive ISD-P-AID, then SM-SR since " sending ISD-P-AID " there are problems for instruction Unit, which determines, needs to retransmit " sending ISD-P-AID " instruction, and then starts retransmission mechanism, sends " send ISD-P- again AID " instruction.

S709, SM-SR unit to SM-DP unit send sub-process performed by eUICC corresponding with MSISDN it is adjacent under One sub-process " sending certificate ".

In this way, management platform is by executing S701 to S709, it can complete first sub-process in second stage, i.e., " sending ISD-P-AID " sub-process.

Referring to Fig. 8, the specific implementation process of " sending certificate " sub-process includes S801~S809:

S801, SM-DP unit prepare the flow nodes mark of " sending certificate " sub-process, and the finger comprising authenticating certificate It enables, to SM-SR unit transmission flow node identification " sending certificate " and the instruction comprising authenticating certificate.

S802, SM-SR unit send MSISDN, sequence number, the instruction comprising authenticating certificate and process section to allotment center Point identification " sends certificate ".

Wherein, sequence number can be the serial number after counter accumulation process.

S803, allotment center record flow nodes mark " sending certificate ", sequence number and mobile station international member identification code MSISDN。

S804, allotment center send " sending certificate " instruction to the corresponding eUICC of MSISDN.

Wherein, " sending certificate " and instruct includes: MSISDN, sequence number and certification certificate.

S805, eUICC send " sending certificate " response instruction to allotment center.

Wherein, " sending certificate " to respond instruction includes: MSISDN, sequence number and certification certificate verification result." send card MSISDN in book " response instruction is identical as the MSISDN in " sending certificate " instruction, the sequence in " sending certificate " response instruction Row number is identical as the sequence number in " sending certificate " instruction.Authenticate certificate verification result, the corresponding eUICC of as MSISDN according to " sending certificate " instruction, if be proved to be successful.

S806, allotment center is according to the sequence number and MSISDN in " sending certificate " response instruction, and pre-stored son Flow nodes mark " sending certificate ", sequence number and the MSISDN of process, determine sub-process performed by the corresponding eUICC of MSISDN Flow nodes mark " send certificate ".

S807, allotment center identify " sending certificate " according to flow nodes, determine response sub-process, i.e., " response sends card Book " sends " response sends certificate " to SM-SR unit.

Status information in the verification of S808, SM-SR unit " sending certificate " response instruction.

If status information are as follows: certification certificate is proved to be successful, then shows that eUICC is tested according to " sending certificate " instruction certification certificate It demonstrate,proves successfully, and does not complete all sub-processes in " eUICC download configuration file " operation flow, then SM-SR unit executes S809.

If status information are as follows: certification certificate authentication failed then shows that eUICC is tested according to " sending certificate " instruction certification certificate It demonstrate,proves successfully, then SM-SR unit determines whether to retransmit " sending certificate " instruction.Illustratively, if being asked since eUICC exists Topic causes to authenticate certificate authentication failed, then SM-SR unit is determined without retransmitting " sending certificate " instruction.If due to " sending There are problems for certificate " instruction, and eUICC is caused to authenticate certificate authentication failed, then SM-SR unit is determined to need to retransmit and " be sent Certificate " instruction, and then start retransmission mechanism, " sending certificate " instruction is sent again.

S809, SM-SR unit to SM-DP unit send sub-process performed by eUICC corresponding with MSISDN it is adjacent under One sub-process " sending signature ".

In this way, management platform is by executing S801 to S809, it can complete second sub-process in second stage, i.e., " sending certificate " sub-process.

Referring to Fig. 9, the specific implementation process of " sending signature " sub-process includes S901~S909:

S901, SM-DP unit prepare the flow nodes mark of " sending signature " sub-process, and the instruction comprising signature, Instruction to SM-SR unit transmission flow node identification " sending signature " and comprising signature.

S902, SM-SR unit send MSISDN, sequence number, the instruction comprising signature and flow nodes mark to allotment center Know " sending signature ".

Wherein, sequence number can be the serial number after counter accumulation process.

S903, allotment center record flow nodes mark " sending signature ", sequence number and mobile station international member identification code MSISDN。

S904, allotment center send " sending signature " instruction to the corresponding eUICC of MSISDN.

Wherein, " sending signature " and instruct includes: MSISDN, sequence number and signature.

S905, eUICC send " sending signature " response instruction to allotment center.

Wherein, " sending signature " to respond instruction includes: MSISDN, sequence number and signature verification result." sending signature " rings MSISDN in should instructing is identical as the MSISDN in " send and sign " instruction, the sequence number in " sending signature " response instruction with Sequence number in " sending signature " instruction is identical.Signature verification as a result, the corresponding eUICC of as MSISDN according to " send sign " Instruction, if good authentication signature.

S906, allotment center is according to the sequence number and MSISDN in " send and sign " response instruction, and pre-stored son Flow nodes mark " sending signature ", sequence number and the MSISDN of process, determine sub-process performed by the corresponding eUICC of MSISDN Flow nodes mark " send signature ".

S907, allotment center identify " send and sign " according to flow nodes, determine response sub-process, i.e., " response sends label Name " sends " response sends signature " to SM-SR unit.

Status information in the verification of S908, SM-SR unit " sending signature " response instruction.

If status information are as follows: signature verification success then shows that eUICC signs according to " send and sign " instruction good authentication, And not completing all sub-processes in " eUICC download configuration file " operation flow, then SM-SR unit executes S909.

If status information are as follows: signature verification failure then shows eUICC according to the failed verifying label of " send and sign " instruction Name, then SM-SR unit determines whether to retransmit " sending signature " instruction.Illustratively, if being led since there are problems by eUICC Failed verifying signature is caused, then SM-SR unit is determined without retransmitting " sending signature " instruction.If since " sending signature " refers to There are problems for order, and eUICC is caused to verify signature not successfully, then SM-SR unit, which determines, needs to retransmit " sending signature " instruction, And then start retransmission mechanism, " sending signature " instruction is sent again.

S909, SM-SR unit to SM-DP unit send sub-process performed by eUICC corresponding with MSISDN it is adjacent under One sub-process " sending configuration file ".

In this way, management platform is by executing S901 to S909, it can complete the third sub-process in second stage, i.e., " sending signature " sub-process.So far, management platform is by executing S701 to S709, S801 to S809 and S901 to S909 To complete second stage, i.e., management platform is long-range completes to establish key and be mutually authenticated between eUICC.

Referring to Figure 10, the phase III of operation flow " eUICC download configuration file " are as follows: management platform is transmitted to eUICC Configuration file, phase III include a sub-process, i.e., transmission configuration file, the specific implementation process of phase III include S1001~S1011:

S1001, SM-DP unit prepare the flow nodes mark and configuration file of " sending configuration file " sub-process, to SM-SR unit transmission flow node identification " sending configuration file " and configuration file.

Wherein, configuration file is the file after encryption.

S1002, SM-SR unit send MSISDN, sequence number, configuration file and flow nodes mark " hair to allotment center Send configuration file ".

Wherein, sequence number can be the serial number after counter accumulation process.

S1003, allotment center record flow nodes mark " sending configuration file ", sequence number and mobile station international member and know Other code MSISDN.

S1004, allotment center send " opening the channel HTTPS " instruction to the corresponding eUICC of MSISDN.

Wherein, " opening the channel HTTPS " and instruct includes: MSISDN and sequence number.

S1005, eUICC send " HTTPS is opened successfully in channel " response instruction to allotment center.

S1006, allotment center send configuration file to eUICC by the channel HTTPS.

S1007, eUICC send MSISDN and configuration file reception result to allotment center by the channel HTTPS.

Wherein, the corresponding eUICC of configuration file reception result, as MSISDN according to " send configuration file " instruction whether It is successfully received configuration file.

S1008, allotment center is according to the MSISDN obtained from the channel HTTPS, and the process section of pre-stored sub-process Point identification " sending configuration file ", MSISDN and sequence number, determine the process section of sub-process performed by the corresponding eUICC of MSISDN Point identification " sends configuration file ".

S1009, allotment center identify " sending configuration file " according to flow nodes, determine response sub-process, i.e. " response hair Send configuration file ", " response sends configuration file " is sent to SM-SR unit.

S1010, SM-SR unit verify status information (configuration file reception result).

If status information are as follows: configuration file receives successfully, then shows that eUICC is properly received configuration file, and be completed All sub-processes in " eUICC download configuration file " operation flow, then SM-SR unit executes S1011.

If status information are as follows: configuration file reception failure then shows that eUICC is unsuccessfully received configuration file, then SM-SR Unit determines whether to retransmit configuration file.Illustratively, if since eUICC is there are problem, cause not receive configuration text Part, then SM-SR unit is determined without retransmitting configuration file.If since allotment center sends configuration file, there are problems, lead Cause eUICC not receive configuration file, then SM-SR unit, which determines, needs to retransmit configuration file, and then starts retransmission mechanism, Configuration file is sent again.

The state of S1011, SM-SR unit more new configuration file.Here, the state of configuration file is updated are as follows: un-activation, To indicate that configuration file has been downloaded in eUICC, and configuration file is in unactivated state.

So far, management platform by execute S1001 to S1011, it can complete the phase III, i.e., management platform to The success of eUICC translation profile.

In actual application, if desired activation profiles, then manage and continue to instruct between platform and eUICC Interaction, with activation profiles.

The embodiment of the present application can carry out functional module or function list to asynchronous communication device according to above method example The division of member, for example, each functional module of each function division or functional unit can be corresponded to, it can also be by two or two Above function is integrated in a processing module.Above-mentioned integrated module both can take the form of hardware realization, can also be with It is realized in the form of software function module or functional unit.Wherein, module or unit are drawn in the embodiment of the present application It is schematical for dividing, and only a kind of logical function partition, there may be another division manner in actual implementation.

Figure 11 shows a kind of possible structural schematic diagram of asynchronous communication device involved in above-described embodiment.It is asynchronous Communication device is applied to management platform, the apparatus may include: parameter acquisition module 1101, directive generation module 1102, instruction Sending module 1103, response command reception module 1104, sub-process determining module 1105 and status information correction verification module 1106.

Wherein, parameter acquisition module 1101, for obtaining the parameter of sub-process.

Directive generation module 1102 generates instruction for the parameter according to sub-process, and instruction includes sequence number and mobile station International member identification code MSISDN, sequence number are used to indicate the serial number of instruction.

Instruction sending module 1103, for sending instruction to the corresponding eUICC of MSISDN.

Respond command reception module 1104, for receive response instruction, response instruction include sequence number, MSISDN and The corresponding eUICC of MSISDN is according to instruction status information adjusted.

Sub-process determining module 1105 determines that MSISDN is corresponding for the sequence number and MSISDN in instructing according to response EUICC performed by sub-process.

Status information correction verification module 1106, for the status information in instructing according to response, it is determined whether obtain with The parameter of the adjacent next sub-process of sub-process performed by the corresponding eUICC of MSISDN.

Optionally, parameter acquisition module 1101 are specifically used for: if sub-process is the first sub-process in operation flow, obtaining EUICC certificate is taken, eUICC certificate is used to indicate the power whether corresponding eUICC of eUICC certificate has with manage Platform communication Limit.The corresponding parameter of first sub-process of operation flow is obtained, the corresponding parameter of first sub-process includes: to have communication authority The corresponding MSISDN of eUICC.

Optionally, asynchronous communication device provided by the embodiments of the present application can also include: memory module 1107, for joining Number obtain modules 1101 obtain sub-processes parameters after, sub-process determining module 1105 instruct according to response in sequence number with MSISDN stores the parameter of sub-process before determining sub-process performed by the corresponding eUICC of MSISDN.The parameter of sub-process It include: flow nodes mark, sequence number and the MSISDN of sub-process.

Optionally, sub-process determining module 1105, is specifically used for: the sequence number and MSISDN in instruction according to response, with And flow nodes mark, sequence number and the MSISDN of pre-stored sub-process, determine son performed by the corresponding eUICC of MSISDN Process.

Optionally, status information correction verification module 1106, is specifically used for: if status information is first state information, the first shape It is successful according to instruction adjustment oneself state that state information indicates the corresponding eUICC of MSISDN, and does not complete all in operation flow Sub-process then obtains the parameter of the adjacent next sub-process of sub-process performed by eUICC corresponding with MSISDN.

If status information is the second status information, the second status information indicates that the corresponding eUICC of MSISDN is adjusted according to instruction Whole oneself state failure, or all sub-processes being successfully completed in operation flow, then stop obtaining corresponding with MSISDN The parameter of the adjacent next sub-process of sub-process performed by eUICC.

Optionally, asynchronous communication device provided by the embodiments of the present application can also include: update module 1108, in sound After answering command reception module 1104 to receive response instruction, the status information in instruction, it is corresponding to update operation flow according to response State parameter.

Asynchronous communication device provided by the embodiments of the present application, after the parameter for obtaining sub-process, according to the ginseng of sub-process Number generates instruction, then sends instruction to the corresponding eUICC of MSISDN.Response instruction is obtained, according to response the sequence number in instruction And MSISDN, determine sub-process performed by the corresponding eUICC of MSISDN, the status information in instruction, determination according to response is The no parameter for obtaining the adjacent next sub-process of sub-process performed by eUICC corresponding with MSISDN.Compared with the existing technology In, management platform at the appointed time in section, does not receive the response instruction of eUICC feedback, then manages platform and abandon working as with eUICC The operation flow of preceding execution, asynchronous communication device provided by the embodiments of the present application, due to tearing the instruction interaction between eUICC open It is divided into transmission instruction and receives response instruction, the instruction of transmission and received response instruction carry sequence number and MSISDN, The device can determine sub-process performed by the corresponding eUICC of MSISDN, in conjunction with the status information in response instruction, determine The parameter of the adjacent next sub-process of sub-process performed by eUICC corresponding with MSISDN whether is obtained, realizes management platform Asynchronous communication between eUICC facilitates management platform to carry out sub-process allotment, improves the efficiency of management to eUICC.

Figure 12 shows another possible structural schematic diagram of asynchronous communication device involved in above-described embodiment.It should Asynchronous communication device 1200 includes: processor 1202 and communication interface 1203.Processor 1202 is used for asynchronous communication device Movement carries out control management, for example, executing above-metioned instruction generation module 1102, sub-process determining module 1105, status information school The step of testing module 1106 and the execution of update module 1108, and/or other processes for executing techniques described herein.It is logical Letter interface 1203 is used to support the communication of asynchronous communication device Yu other network entities, for example, executing above-mentioned parameter obtains module 1101, the step of instruction sending module 1103 and response command reception module 1104 execute.Asynchronous communication device can also include Memory 1201 and bus 1204, memory 1201 are used to store the program code and data of asynchronous communication device.

Wherein, memory 1201 can be the memory etc. in asynchronous communication device, which may include easy The property lost memory, such as random access memory；The memory 1201 also may include nonvolatile memory, such as read-only deposit Reservoir, flash memory, hard disk or solid state hard disk；The memory 1201 can also include the combination of the memory of mentioned kind.

Above-mentioned processor 1202 can be realization or execute various illustrative in conjunction with described in present disclosure Logic block, module and circuit.The processor 1202 can be central processing unit, general processor, digital signal processor, specially With integrated circuit, field programmable gate array or other programmable logic device, transistor logic, hardware component or Any combination thereof.It, which may be implemented or executes, combines various illustrative logic blocks described in present disclosure, mould Block and circuit.Processor 1202 is also possible to realize the combination of computing function, such as combines comprising one or more microprocessors, DSP and the combination of microprocessor etc..

Bus 1204 can be expanding the industrial standard structure (extended industry standard Architecture, EISA) bus etc..Bus 1204 can be divided into address bus, data/address bus, control bus etc..For convenient for It indicates, is only indicated with a thick line in Figure 12, it is not intended that an only bus or a type of bus.

As shown in figure 13, the embodiment of the present application provides the alternatively possible structural schematic diagram of asynchronous communication device.This is different Walking communication device 1300 includes: processing unit 1301.Processing unit 1301 is for controlling the movement of asynchronous communication device Management, for example, executing above-metioned instruction generation module 1102, sub-process determining module 1105,1106 and of status information correction verification module The step of update module 1108 executes, and/or other processes for executing techniques described herein.Asynchronous communication device is also It may include storage unit 1302 and communication unit 1303, storage unit 1302 is used to store the program code of asynchronous communication device And data；Communication unit 1303 is used to support the communication of asynchronous communication device Yu other network entities, for example, executing above-mentioned parameter Obtain the step of module 1101, instruction sending module 1103 and response command reception module 1104 execute.

Wherein, above-mentioned processing unit 1301 can be processor 1202 or controller in asynchronous communication device.

Storage unit 1302 can be memory 1201 in asynchronous communication device etc..

Communication unit 1303 can be transceiver, transmission circuit or communication interface 1203 in asynchronous communication device etc..

Through the above description of the embodiments, it is apparent to those skilled in the art that, for description It is convenienct and succinct, only the example of the division of the above functional modules, in practical application, can according to need and will be upper It states function distribution to be completed by different functional modules, i.e., the internal structure of device is divided into different functional modules, to complete All or part of function described above.The specific work process of the system, apparatus, and unit of foregoing description, before can referring to The corresponding process in embodiment of the method is stated, details are not described herein.

The embodiment of the present application also provides a kind of computer readable storage medium, and finger is stored in computer readable storage medium It enables, when asynchronous communication device executes the instruction, which executes asynchronous communication device institute in the various embodiments described above The step of execution.

Wherein, computer readable storage medium, such as electricity, magnetic, optical, electromagnetic, infrared ray can be but not limited to or partly led System, device or the device of body, or any above combination.The more specific example of computer readable storage medium is (non-poor The list of act) it include: the electrical connection with one or more conducting wires, portable computer diskette, hard disk, random access memory (random access memory, RAM), read-only memory (read-only memory, ROM), erasable type may be programmed read-only It is memory (erasable programmable read only memory, EPROM), register, hard disk, optical fiber, portable Compact disc read-only memory (compact disc read-only memory, CD-ROM), light storage device, magnetic memory The computer readable storage medium of part or above-mentioned any appropriate combination or any other form well known in the art. A kind of illustrative storage medium is coupled to processor, to enable a processor to from the read information, and can be to Information is written in the storage medium.Certainly, storage medium is also possible to the component part of processor.Pocessor and storage media can be with In application-specific IC (application specific integrated circuit, ASIC).In the application In embodiment, computer readable storage medium can be any tangible medium for including or store program, which can be referred to Enable execution system, device or device use or in connection.

The application provides a kind of computer program product comprising instruction, when computer program product is run on computers When, when so that asynchronous communication device executing the instruction, which executes asynchronous communication device in the various embodiments described above Performed step.

The above, the only specific embodiment of the application, but the protection scope of the application is not limited thereto, it is any Change or replacement within the technical scope of the present application should all be covered within the scope of protection of this application.Therefore, this Shen Protection scope please should be subject to the protection scope in claims.

Claims (13)

1. a kind of asynchronous communication method, which is characterized in that be applied to asynchronous communication system, the asynchronous communication system includes management Platform and at least one universal embedded integrated circuit card eUICC, the management platform with it is each at least one described eUICC There are at least one operation flow between eUICC, each operation flow includes at least one sub-process, which comprises

The management platform obtains the parameter of sub-process；

The management platform generates instruction according to the parameter of the sub-process, and described instruction includes that sequence number and mobile station are international CUSTOMER ID MSISDN, the sequence number are used to indicate the serial number of described instruction；

The management platform sends described instruction to the corresponding eUICC of the MSISDN；

The management platform receives response instruction, and the response instruction includes the sequence number, the MSISDN and described The corresponding eUICC of MSISDN is according to described instruction status information adjusted；

The management platform determines the corresponding eUICC of the MSISDN according to sequence number and MSISDN in the response instruction Performed sub-process；

The management platform is according to the status information in the response instruction, it is determined whether obtains corresponding with the MSISDN The parameter of the adjacent next sub-process of sub-process performed by eUICC.

2. asynchronous communication method according to claim 1, which is characterized in that the management platform obtains the ginseng of sub-process Number, comprising:

If the sub-process is the first sub-process in operation flow,

The management platform obtains eUICC certificate, and the eUICC certificate, which is used to indicate the corresponding eUICC of the eUICC certificate, is The no permission having with the management Platform communication；

The management platform obtains the corresponding parameter of first sub-process of the operation flow, the corresponding ginseng of the first sub-process Number includes: the corresponding MSISDN of eUICC for having communication authority.

3. asynchronous communication method according to claim 1, which is characterized in that

The parameter of the sub-process includes: flow nodes mark, the sequence number and the MSISDN of the sub-process；

After the management platform obtains the parameter of sub-process, according to the sequence number and MSISDN in the response instruction, really Before determining sub-process performed by the corresponding eUICC of the MSISDN, the method also includes:

The management platform stores the parameter of the sub-process；

The management platform determines the corresponding eUICC of the MSISDN according to sequence number and MSISDN in the response instruction Performed sub-process, comprising:

The management platform is according to the sequence number and MSISDN in the response instruction, and the process section of pre-stored sub-process Point identification, sequence number and MSISDN determine sub-process performed by the corresponding eUICC of the MSISDN.

4. asynchronous communication method according to claim 1, which is characterized in that the management platform is instructed according to the response In status information, it is determined whether obtain the adjacent next subflow of sub-process performed by eUICC corresponding with the MSISDN The parameter of journey, comprising:

If the status information is first state information, the first state information indicates the corresponding eUICC root of the MSISDN According to described instruction adjustment oneself state success, and all sub-processes in operation flow are not completed, then the management platform obtains The parameter of the adjacent next sub-process of sub-process performed by eUICC corresponding with the MSISDN；

If the status information is the second status information, second status information indicates the corresponding eUICC root of the MSISDN According to described instruction adjustment oneself state failure, or all sub-processes being successfully completed in operation flow, then the management is flat Platform stops obtaining the parameter of the adjacent next sub-process of sub-process performed by eUICC corresponding with the MSISDN.

5. asynchronous communication method according to any one of claims 1 to 4, which is characterized in that the management platform, which receives, to be rung After should instructing, the method also includes:

The management platform updates the corresponding state parameter of operation flow according to the status information in the response instruction.

6. a kind of asynchronous communication device, which is characterized in that applied to the management platform of asynchronous communication system, the asynchronous communication system System further includes at least one universal embedded integrated circuit card eUICC, every in the management platform and at least one described eUICC There are at least one operation flow between one eUICC, each operation flow includes at least one sub-process, and described device includes:

Parameter acquisition module, for obtaining the parameter of sub-process；

Directive generation module generates instruction, described instruction includes sequence number and mobile station for the parameter according to the sub-process International member identification code MSISDN, the sequence number are used to indicate the serial number of described instruction；

Instruction sending module, for sending described instruction to the corresponding eUICC of the MSISDN；

Respond command reception module, for receiving response instruction, response instruction including the sequence number, the MSISDN and The corresponding eUICC of the MSISDN is according to described instruction status information adjusted；

Sub-process determining module, for determining that the MSISDN is corresponding according to the sequence number and MSISDN in the response instruction EUICC performed by sub-process；

Status information correction verification module, for according to it is described response instruction in status information, it is determined whether obtain with it is described The parameter of the adjacent next sub-process of sub-process performed by the corresponding eUICC of MSISDN.

7. asynchronous communication device according to claim 6, which is characterized in that

The parameter acquisition module, is specifically used for:

If the sub-process is the first sub-process in operation flow, eUICC certificate is obtained, the eUICC certificate is for referring to Show whether the corresponding eUICC of the eUICC certificate has the permission with the management Platform communication；

Obtain the corresponding parameter of first sub-process of the operation flow, the corresponding parameter of the first sub-process includes: to have The corresponding MSISDN of the eUICC of communication authority.

8. asynchronous communication device according to claim 6, which is characterized in that described device further include: memory module is used for After the parameter that the parameter acquisition module obtains sub-process, the sub-process determining module is according in response instruction Sequence number and MSISDN store the ginseng of the sub-process before determining sub-process performed by the corresponding eUICC of the MSISDN Number；The parameter of the sub-process includes: flow nodes mark, the sequence number and the MSISDN of the sub-process；

The sub-process determining module, is specifically used for: according to the sequence number and MSISDN in the response instruction, and being pre-stored The flow nodes mark of sub-process, sequence number and MSISDN, determine subflow performed by the corresponding eUICC of the MSISDN Journey.

9. asynchronous communication device according to claim 6, which is characterized in that

The status information correction verification module, is specifically used for:

If the status information is first state information, the first state information indicates the corresponding eUICC root of the MSISDN According to described instruction adjustment oneself state success, and all sub-processes in operation flow are not completed, then obtained and the MSISDN The parameter of the adjacent next sub-process of sub-process performed by corresponding eUICC；

If the status information is the second status information, second status information indicates the corresponding eUICC root of the MSISDN According to described instruction adjustment oneself state failure, or all sub-processes being successfully completed in operation flow, then stop obtaining with The parameter of the adjacent next sub-process of sub-process performed by the corresponding eUICC of the MSISDN.

10. according to the described in any item asynchronous communication devices of claim 6 to 9, which is characterized in that described device further include: more New module, for being believed after the response command reception module receives response instruction according to the state in the response instruction Breath updates the corresponding state parameter of operation flow.

11. a kind of asynchronous communication device, which is characterized in that described device includes: processor, communication interface and memory；Wherein, Memory is for storing one or more programs, and one or more of programs include computer executed instructions, when described asynchronous When communication device is run, the processor executes the computer executed instructions of the memory storage, so that described asynchronous Communication device perform claim require it is one of any in 1 to 5 described in asynchronous communication method.

12. a kind of computer readable storage medium, be stored with instruction in computer readable storage medium, executed when computer described in When instruction, the computer execute it is one of any in the claims 1 to 5 described in asynchronous communication method.

13. a kind of computer program product comprising instruction, described when the computer program product is run on computers Computer execute it is one of any in the claims 1 to 5 described in asynchronous communication method.