JP2006352290A - Scenario creating apparatus, test system, scenario generating method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology capable of automatically creating a scenario in matching with a test desirably executed for a test object communication apparatus on the basis of a signal actually transmitted/received by an operation communication apparatus during operation. <P>SOLUTION: A test personnel uses an extract condition setting means 18 to set an extract condition denoting which of packets is to be used for scenario generation among packets actually transmitted/received by the operation communication apparatus 5 such as a mobile phone. For example, a protocol type set to a header part of an application layer of a packet can be set as the extract condition A packet acquisition means 11 acquires the packet actually transmitted/received by the operation communication apparatus 5, an extract means 13 extracts only a packet in matching with the extract condition, a conversion means 14 converts data (control signal or image data or the like) stored in the data part of the packet into an instruction described in the scenario, and a scenario creating means 15 generates the scenario describing the instruction and the data associated with each other. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a test technique for a communication device that performs network communication, and more particularly to a scenario creation technique for creating a scenario describing a test procedure.

  When testing a communication device that performs communication via a network, a scenario has been conventionally used (see, for example, Patent Document 1). The scenario describes the test procedure such as what pseudo signals are given to the communication device under test in what order, and the load generating device communicates with the communication under test according to the test procedure described in this scenario. A pseudo signal is given to the device, and it is determined whether or not the test target communication device is operating normally based on the log information obtained at that time and the behavior of the test target communication device. By the way, since the scenario describing the test procedure has been created manually, there has been a problem that much time is spent on creating the scenario.

Therefore, in order to solve such problems, a technique for testing a test target communication device using an input signal to an actually operated communication device (operation communication device) has been proposed (for example, Patent Document 2). In the conventional technique described in Patent Document 2, first, the test support apparatus acquires an input signal to an operational communication device that is actually communicating via a network. Thereafter, the test support device instructs the pseudo call device to place a pseudo call similar to the call made to the operational communication device into the test target communication device based on the acquired input signal. The pseudo call device operates the test target communication device by placing a pseudo call to the test target communication device in accordance with the above instruction. Then, the signal output from the operational communication device in response to the input signal is compared with the signal output from the test target communication device in response to the pseudo call. In the case, it is determined as abnormal.
JP 2000-354263 A JP 2004-64695 A

  The technique described in Patent Document 2 described above is not a technique for creating a scenario, but a scenario can be easily created by using this technique. In other words, a scenario can be automatically created by collecting commands to the pseudo call device. Thus, if the technique described in Patent Document 2 is used, it is possible to eliminate the need for manually creating a scenario. However, the conventional technique described in Patent Document 2 performs tests using only signals related to calls among various signals input to the operational communication device, so that there are limitations on the tests that can be performed. . That is, when a scenario is created using the conventional technique described in Patent Document 2, a test using audio data or image data cannot be performed.

  In order to solve such a problem, for example, a scenario in which pseudo signals are generated for all signals input to the operational communication device may be created. In this way, it is possible to perform a test using not only a call but also audio data, image data, and the like. However, in this case, it becomes impossible to perform a test using only a signal related to a call.

(Object of invention)
Therefore, an object of the present invention is to automatically create a scenario suitable for a test to be performed based on a signal actually transmitted / received by an operational communication device.

A first scenario creation device according to the present invention includes:
Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a signal satisfying the extraction condition set by the extraction condition setting means from signals transmitted and received by the operational communication device in operation;
Conversion means for converting the signal extracted by the extraction means into a command for instructing transmission of a pseudo signal equivalent to the signal or waiting for reception of a signal equivalent to the signal;
Scenario creation means for creating a scenario describing the instruction converted by the conversion means is provided.

The second scenario creation device according to the present invention is:
Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a packet that satisfies the extraction condition set by the extraction condition setting means from packets transmitted and received by an operational communication device in operation;
Conversion means for converting the packet extracted by the extraction means into a command for instructing transmission of a pseudo packet equivalent to the packet or waiting for reception of a packet equivalent to the packet;
Scenario creation means for creating a scenario describing the instruction converted by the conversion means is provided.

A third scenario creation device according to the present invention is the second scenario creation device,
The extraction condition setting means has a configuration for setting the protocol type of the application layer as the extraction condition,
The extraction unit extracts a packet whose protocol type set in the header part of the application layer matches the protocol type set by the extraction condition setting unit from the packets transmitted and received by the operational communication device. It has the structure.

A fourth scenario creation device according to the present invention is the third scenario creation device,
The extraction condition setting means has a configuration for setting an address in addition to the protocol type of the application layer as an extraction condition,
Among the packets transmitted and received by the operational communication device, the extraction unit matches the protocol type set in the header part of the application layer with the protocol type set by the extraction condition setting unit, and the application It is characterized by having a configuration for extracting a packet whose source address or destination address set in the header of the layer matches the address set by the extraction condition setting means.

A first test system according to the present invention includes:
Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a signal satisfying the extraction condition set by the extraction condition setting means from signals transmitted and received by the operational communication device in operation;
Conversion means for converting the signal extracted by the extraction means into a command for instructing transmission of a pseudo signal equivalent to the signal or waiting for reception of a signal equivalent to the signal;
Scenario creation means for creating a scenario describing the instruction converted by the conversion means;
According to the scenario created by the scenario creation means, a load generation device that performs pseudo signal transmission processing to the test target communication device and waits for signal reception is provided.

The second test system according to the present invention includes:
Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a packet that satisfies the extraction condition set by the extraction condition setting means from packets transmitted and received by an operational communication device in operation;
Conversion means for converting the packet extracted by the extraction means into a command for instructing transmission of a pseudo packet equivalent to the packet or waiting for reception of a packet equivalent to the packet;
Scenario creation means for creating a scenario describing the instruction converted by the conversion means;
According to the scenario created by the scenario creating means, a load generating device is provided that performs pseudo packet transmission processing to a test target communication device and waits to receive a packet.

A third test system according to the present invention is the second test system,
The extraction condition setting means has a configuration for setting the protocol type of the application layer as the extraction condition,
The extraction unit extracts a packet whose protocol type set in the header part of the application layer matches the protocol type set by the extraction condition setting unit from the packets transmitted and received by the operational communication device. It has the structure.

A fourth test system according to the present invention is the third test system,
The extraction condition setting means has a configuration for setting an address in addition to the protocol type of the application layer as an extraction condition,
Among the packets transmitted and received by the operational communication device, the extraction unit matches the protocol type set in the header part of the application layer with the protocol type set by the extraction condition setting unit, and the application It is characterized by having a configuration for extracting a packet whose source address or destination address set in the header of the layer matches the address set by the extraction condition setting means.

The first scenario creation method according to the present invention includes:
The extraction condition setting means sets the extraction condition,
The extraction means extracts a signal satisfying the extraction condition set by the extraction condition setting means from signals transmitted and received by the operational communication device in operation,
The converting means converts the signal extracted by the extracting means into a command for instructing transmission of a pseudo signal equivalent to the signal or waiting for reception of a signal equivalent to the signal,
The scenario creating means creates a scenario describing the instruction converted by the converting means.

The second scenario creation method according to the present invention is:
The extraction condition setting means sets the extraction condition,
The extraction unit extracts a packet that satisfies a condition set by the extraction condition setting unit from packets transmitted and received by an operational communication device in operation,
The converting means converts the packet extracted by the extracting means into an instruction for instructing transmission of a pseudo packet equivalent to the packet or reception of a packet equivalent to the packet,
The scenario creating means creates a scenario describing the instruction converted by the converting means.

A third scenario creation method according to the present invention is the second scenario creation method,
The extraction condition setting means sets the protocol type of the application layer as the extraction condition,
The extraction unit extracts a packet whose protocol type set in the header part of the application layer matches the protocol type set by the extraction condition setting unit from the packets transmitted and received by the operational communication device. It is characterized by that.

A fourth scenario creation method according to the present invention is the third scenario creation method,
The extraction condition setting means sets an address in addition to the protocol type of the application layer as an extraction condition,
Among the packets transmitted and received by the operational communication device, the extraction unit matches the protocol type set in the header part of the application layer with the protocol type set by the extraction condition setting unit, and the application A packet in which a transmission source address or a transmission destination address set in a header part of a layer matches an address set by the extraction condition setting unit is extracted.

The first program according to the present invention is:
Computer
Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a signal satisfying the extraction condition set by the extraction condition setting means from signals transmitted and received by the operational communication device in operation;
Conversion means for converting the signal extracted by the extraction means into a command for instructing transmission of a pseudo signal equivalent to the signal or reception of a signal equivalent to the signal;
It is made to function as a scenario creation means for creating a scenario describing the instruction converted by the conversion means.

The second program according to the present invention is:
Computer
Extraction condition setting means for setting extraction conditions;
Extraction means for extracting packets satisfying the extraction condition set by the extraction condition setting means from packets transmitted and received by the operational communication device in operation;
Conversion means for converting the packet extracted by the extraction means into a command for instructing transmission of a pseudo packet equivalent to the packet or waiting for reception of a packet equivalent to the packet;
It is made to function as a scenario creation means for creating a scenario describing the instruction converted by the conversion means.

A third program according to the present invention is the second program,
The extraction condition setting means has a configuration for setting the protocol type of the application layer as the extraction condition,
The extraction unit extracts a packet whose protocol type set in the header part of the application layer matches the protocol type set by the extraction condition setting unit from the packets transmitted and received by the operational communication device. It has the structure.

A fourth program according to the present invention is the third program,
The extraction condition setting means has a configuration for setting an address in addition to the protocol type of the application layer as an extraction condition,
Among the packets transmitted and received by the operational communication device, the extraction unit matches the protocol type set in the header part of the application layer with the protocol type set by the extraction condition setting unit, and the application It is characterized by having a configuration for extracting a packet whose source address or destination address set in the header of the layer matches the address set by the extraction condition setting means.

[Action]
The tester uses the extraction condition setting means to set an extraction condition indicating what signal is used to create the scenario among the signals actually transmitted / received by the operational communication device such as the mobile phone. . For example, when creating a scenario using only the control signal, the control signal is set as the extraction condition. When creating a scenario using not only a control signal but also an audio signal, the control signal and the audio signal are set as extraction conditions. When the operational communication device transmits and receives packets, the protocol type set in the header part of the packet application layer can be used as the extraction condition.

  The extraction means extracts only signals that meet the extraction conditions from the signals transmitted / received by the operational communication device, and the conversion means transmits the signals extracted by the extraction means to a pseudo signal equivalent to that signal. The scenario creation unit creates a scenario describing the command converted by the conversion unit.

  According to the present invention, it is possible to automatically create a scenario suitable for a test to be performed based on a signal actually transmitted / received by an operational communication device. The reason is that an extraction condition setting means for setting an extraction condition indicating what kind of signal is used to create a scenario among signals actually transmitted / received by an operation communication device such as a mobile phone, and operation communication This is because the apparatus includes extraction means for extracting a signal that meets the extraction condition set by the extraction condition setting means from signals actually transmitted and received by the device.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

[Configuration of the embodiment]
FIG. 1 is a block diagram showing an example of an embodiment of a scenario creation device according to the present invention. Referring to the figure, the load generating device 3 and the operational communication device 5 are connected to the scenario creating device 1, and the test target communication device 4 is connected to the load generating device 3. The scenario creation device 1 and the load generation device 3 constitute a test system.

  The communication device 4 to be tested is a communication device to be tested, and may be a terminal device such as a mobile phone as long as it communicates with a packet via a network, or an exchange that exchanges packets. There may be.

  The operational communication device 5 is a communication device that transmits / receives a packet via the network 6 and has a function of transmitting / receiving a packet equivalent to the packet transmitted / received by the test target communication device 4. A packet transmitted and received by the operational communication device 5 via the network 6 is taken into the scenario creation device 1 as a packet 7.

  The scenario creation device 1 includes a packet acquisition unit 11, a packet decomposition unit 12, an extraction unit 13, a conversion unit 14, a scenario creation unit 15, a scenario storage unit 16, a scenario selection unit 17, and an extraction condition setting unit. 18, an extraction condition storage unit 19, a correspondence table 20, an input unit 21 such as a keyboard, and a display unit 22 such as an LCD.

  The packet acquisition unit 11 has a function of acquiring a packet transmitted and received by the operational communication device 5 via the network 6 as a packet 7. As shown in FIG. 2 (A), the packet 7 includes a data part 71 storing data created by the application (AP) layer of the operational communication device 5 or data to the AP layer, and a header part of the AP layer. 72 and a header portion 73 of another layer. The packet 7 includes a packet that includes a control signal such as a call control signal in the data portion 71 and a packet that includes audio data and image data in the data portion 71.

  The packet disassembling unit 12 has a function of removing the header portion 73 from the packet 7 acquired by the packet acquiring unit 11 and creating the packet 7a shown in FIG. That is, the packet disassembling unit 12 has a function of deleting the header part 73 from the packet 7 and creating a packet 7a including the data part 71 and the AP layer header part 72.

  The extraction condition setting means 18 has a function of storing the extraction conditions in the extraction condition storage unit 19 in accordance with the tester's instruction input from the input unit 21. As the extraction condition, for example, the protocol type of the application layer, the packet source address, and the packet destination address can be set.

  When the packet 7a created by the packet decomposition unit 12 satisfies the extraction condition stored in the extraction condition storage unit 19, the extraction unit 13 passes the packet 7a to the conversion unit 14 and does not satisfy the extraction condition. In this case, the packet 7a is discarded.

  In the correspondence table 20, instructions (character strings) described in the scenario are registered in association with various control signals such as a call signal and a response signal that may be stored in the data portion 71 of the packet 7a. Yes.

  The conversion means 14 has the following functions.

A function of converting the data included in the data portion 71 of the packet 7a passed from the extracting means 13 into an instruction (character string) described in the scenario. More specifically, when the data included in the data unit 71 is registered in the correspondence table 20 (when the data is a control signal), the command registered in the correspondence table 20 in association with the data. Is an instruction described in the scenario. If it is not registered in the correspondence table 20 (data is not a control signal, but audio data, etc.), a command corresponding to that is generated.
A function of passing a pair of the converted instruction and the data stored in the data section 71 to the scenario creating means 15.

  The scenario creation unit 15 has a function of creating a scenario based on the pair of the instruction and data passed from the conversion unit 14 and storing the created scenario in the scenario storage unit 16. More specifically, the scenario creation means 15 creates a scenario by arranging the pairs of instructions and data passed from the conversion means 14 in the order of delivery.

  FIG. 3 is a diagram showing an example of the contents of the scenario storage unit 16. As shown in the figure, the scenario storage unit 16 stores a scenario 161. The scenario 161 includes an instruction part 162 and a data part 163. The instruction part 162 describes an instruction converted by the conversion means 14, and the data part 163 describes data corresponding to the instruction. . In the example of FIG. 3, only one scenario 161 is stored in the scenario storage unit 16, but a plurality of scenarios may be stored.

  The scenario selection unit 17 has a function of passing the scenario 8 selected by the tester using the input unit 21 among the scenarios stored in the scenario storage unit 16 to the load generation device 3.

  The scenario creation device 1 having the above-described functions can be realized by a computer. When the scenario creation device 1 is realized by a computer, for example, the following is performed. A disk, a semiconductor memory, and other recording media on which a program for causing the computer to function as the scenario creating device 1 is recorded are prepared, and the computer reads the program. The computer controls its own operation according to the read program, so that the packet acquisition means 11, the packet decomposition means 12, the extraction means 13, the conversion means 14, the scenario creation means 15, the scenario selection means 17 and the extraction conditions are stored on the computer. The setting means 18 is realized.

  The load generating device 3 transmits a pseudo packet to the test target communication device 4 according to the scenario 8 passed from the scenario selection unit 17 and a waiting process for waiting for a packet sent from the test target communication device 4 And so on.

[Operation of the embodiment]
Next, the operation of the present embodiment will be described in detail.

[Operation when creating a scenario]
First, the operation when creating a scenario will be described. When creating a scenario to be used when testing the test target communication device 4, the tester first connects the scenario creation device 1 and the operational communication device 5. The operational communication device 5 may be any device as long as it has a function of transmitting and receiving a packet equivalent to the packet transmitted and received by the test target communication device 4. For example, when the test target communication device 4 is a mobile phone, as shown in FIG. 4A, a mobile phone 5a that can transmit and receive packets equivalent to the test target communication device 4 may be used as the operation communication device 5. As shown in FIG. 5B, an exchange 5b that exchanges packets with the mobile phone 5a may be used as the operational communication device 5.

  Thereafter, the tester activates the extraction condition setting means 18. As a result, the extraction condition setting means 18 displays the extraction condition setting screen 181 on the display unit 22 as shown in the flowchart of FIG. 5 (step S51). FIG. 6 shows an example of the extraction condition setting screen 181. As shown in the figure, the extraction condition setting screen 181 includes a selection field 182 for selecting the protocol type of the application layer of the packet to be extracted, an input field 183 for the address of the packet to be extracted, and a decision. A button 184 is provided.

  When the extraction condition setting screen 181 as shown in FIG. 6 is displayed, the tester performs an extraction condition setting operation described below (step S52). The tester first uses the selection field 182 to select the protocol type of the application layer of the packet to be extracted. Here, the tester selects a corresponding protocol type according to the content of the test to be performed. For example, when it is desired to test only the exchange of control signals, RRC (Radio Resource Control), GMM (GPRS Mobility Management) or the like is selected, and PDCP (Packet Data Convergence Protocol) or the like is not selected. On the other hand, when it is desired to test not only exchange of control signals but also exchange of audio data, PDCP or the like is selected in addition to RRC, GMM and the like.

  Thereafter, the tester inputs an address in the input field 183. For example, when the mobile phone 5a is the operational communication device 5 as shown in FIG. 4A, or when the exchange 5b is the operational communication device 5 as shown in FIG. Enter the address. As shown in FIG. 4B, this address is used to extract only packets transmitted / received by the mobile phone 5a from packets exchanged by the exchange 5b when the exchange 5b is connected as the operation communication device 5. Or used by the conversion means 14 to determine the direction (upstream or downstream) of the packet.

  Thereafter, the tester operates the determination button 184. Thereby, the extraction condition setting means 18 stores the protocol type selected using the selection field 182 and the address input in the input field 183 in the extraction condition storage unit 19 (step S53).

  When the setting of the extraction condition is completed, the tester instructs the packet acquisition unit 11 to start the packet acquisition process. Thereby, the packet acquisition unit 11 sequentially takes in the packets 7 transmitted and received by the operational communication device 5 and passes them to the packet decomposition unit 12.

  When the packet disassembly means 12 receives the packet 7 from the packet acquisition means 11, the packet disassembly means 12 deletes the header part 73 from the packet 7 as shown in FIGS. A packet 7 a composed of the unit 72 is created and passed to the extracting means 13.

  When the packet 7a is delivered from the packet disassembling means 12, the extracting means 13 has the same protocol type as the protocol type set in the header part 72 of the packet 7a as shown in the flowchart of FIG. Is stored (step S71). If the same protocol type is not stored (NO in step S72), the packet 7a is discarded (step S76), and the process ends. On the other hand, if the same protocol type is stored (YES in step S72), the source address or destination address set in the header part 72 of the packet 7a is registered in the extraction condition storage part 19. It is checked whether or not it matches the address that has been set (step S73).

  If neither the transmission source address nor the transmission destination address matches the address stored in the extraction condition storage unit 19 (NO in step S74), the packet 7a is discarded (step S76), and the process ends. On the other hand, when the transmission source address or the transmission destination address matches the address stored in the extraction condition storage unit 19 (YES in step S74), the packet 7a is transferred to the conversion means 14 (step S75). The process is terminated.

  When the packet 7a is passed from the extracting means 13, the converting means 14 converts the data stored in the data portion 71 of the packet 7a into an instruction described in the scenario as shown in the flowchart of FIG. S81), a pair of the instruction and the data stored in the data unit 71 is passed to the scenario creating means 15 (step S82). Here, the process of step S81 will be described in detail as follows. In step S81, the conversion means 14 first searches the correspondence table 20, and checks whether the same data as the data stored in the data portion 71 is stored in the correspondence table 20. If it is stored, that is, if a control signal is stored as data in the data section 71, an instruction registered in association with the data is extracted from the correspondence table 20, and this instruction is described in the scenario. It is an instruction. On the other hand, if the data is not stored, that is, if the data stored in the data unit 71 is not a control signal but audio data or image data, a command corresponding to the data is generated. For example, when the data stored in the data unit 71 is voice data and the packet 7a is a packet to the operational communication device 5, for example, a command such as “send voice data” is generated. The above is the detailed processing content performed in step S81.

  When a pair of an instruction and data is passed from the conversion means 14, the scenario creating means 15 describes the instruction in the instruction part 162 in the scenario 161 and corresponds the data to the instruction as shown in the flowchart of FIG. 9. In addition, it is described in the data part 163 (steps S91 and S92). When the tester finishes creating the scenario, the tester inputs a scenario creation end instruction including the scenario name to be given to the created scenario from the input unit 21 to the scenario creating unit 15. Upon receiving this instruction, the scenario creation means 15 adds a scenario name to the created scenario 161 and stores it in the scenario storage unit 16.

[Operation during testing]
Next, the operation when the test target communication device 4 is tested will be described. When the tester performs a test on the test target communication device 4, first, the tester connects the load generator 3 and the test target communication device 4.

  Thereafter, the tester activates the scenario selection means 17 using the input unit 21. Thereby, the scenario selection means 17 displays the scenario selection screen 171 as shown in the flowchart of FIG. 10 (step S101). An example of the scenario selection screen 171 is shown in FIG. As shown in the figure, on the scenario selection screen 171, the scenario names “scenario A, scenario B,..., Scenario N” of each scenario stored in the scenario storage unit 16 are displayed and each scenario name is displayed. A corresponding selection field 172 is displayed. Furthermore, a determination button 173 is displayed on the scenario selection screen 171.

  When the scenario selection screen 171 as shown in FIG. 11 is displayed, the tester uses the selection field 172 to select a scenario to be used for the test of the test target communication device 4, and then operates the decision button 173. (Step S102).

  When the determination button 173 is operated, the scenario selection unit 17 takes out the scenario 8 selected using the selection field 172 from the scenario storage unit 16 and passes it to the load generation device 3 (step S103). In step S103, the contents of the instruction part 162 of the scenario 8 or the contents of the instruction part 162 and the data part 163 of the scenario 8 are displayed on the display part 22 as necessary.

  The load generating device 3 transmits a pseudo packet to the test target communication device 4 or waits for a predetermined packet from the test target communication device 4 according to the scenario 8 passed from the scenario selection unit 17. After (after waiting for reception of a predetermined packet), processing such as transmitting the next pseudo packet specified by scenario 8 is performed. The pseudo packet is created by adding the header portion of each layer to the data stored in the scenario data portion 163. The tester determines whether or not the test target communication device 4 operates normally based on the behavior of the test target communication device 4 or the log information collected from the test target communication device 4. When the tester determines that it is necessary to operate the test target communication device 4 based on the content of the command unit 162 of the scenario 8 displayed on the display unit 22, the tester operates the test target communication device 4. To do.

[Effect of the embodiment]
According to the present embodiment, it is possible to automatically create a scenario suitable for a test to be performed based on a packet actually transmitted / received by the operational communication device 5. The reason is that an extraction condition setting means 18 for setting an extraction condition indicating what packet is used to create a scenario among packets actually transmitted / received by the operational communication device 5 such as a mobile phone, This is because the operation communication device 5 includes the extraction unit 13 that extracts packets that meet the extraction condition set by the extraction condition setting unit 18 from the packets that are actually transmitted and received.

  It is effective when used for testing communication devices such as mobile phones.

It is a block diagram of an embodiment of a scenario creation device according to the present invention. FIG. 6 is a diagram for explaining the operation of packet disassembling means 12. 4 is a diagram illustrating an example of contents of a scenario storage unit 16. FIG. It is a figure for demonstrating what kind of communication apparatus the operation communication apparatus 5 is made. 4 is a flowchart illustrating an example of processing of an extraction condition setting unit 18. 6 is a diagram illustrating an example of an extraction condition setting screen 181. FIG. 5 is a flowchart illustrating a processing example of an extraction unit 13; 5 is a flowchart illustrating a processing example of a conversion unit 14. 5 is a flowchart showing a processing example of a scenario creating unit 15. 7 is a flowchart showing a processing example of a scenario selection unit 17. It is a figure which shows an example of the scenario selection screen.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Scenario creation apparatus 11 ... Packet acquisition means 12 ... Packet decomposition means 13 ... Extraction means 14 ... Conversion means 15 ... Scenario creation means 16 ... Scenario storage part 17 ... Scenario selection means 18 ... Extraction condition setting means 19 ... Extraction condition storage part 20 ... correspondence table 21 ... input unit 22 ... display unit 3 ... load generator 4 ... test target communication device 5 ... operation communication device 6 ... network 7, 7a ... packet 8 ... scenario

Claims (16)

Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a signal satisfying the extraction condition set by the extraction condition setting means from signals transmitted and received by the operational communication device in operation;
Conversion means for converting the signal extracted by the extraction means into a command for instructing transmission of a pseudo signal equivalent to the signal or waiting for reception of a signal equivalent to the signal;
A scenario creation device comprising scenario creation means for creating a scenario describing an instruction converted by the conversion means. Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a packet that satisfies the extraction condition set by the extraction condition setting means from packets transmitted and received by an operational communication device in operation;
Conversion means for converting the packet extracted by the extraction means into a command for instructing transmission of a pseudo packet equivalent to the packet or waiting for reception of a packet equivalent to the packet;
A scenario creation device comprising scenario creation means for creating a scenario describing an instruction converted by the conversion means. The scenario creation device according to claim 2,
The extraction condition setting means has a configuration for setting the protocol type of the application layer as the extraction condition,
The extraction unit extracts a packet whose protocol type set in the header part of the application layer matches the protocol type set by the extraction condition setting unit from the packets transmitted and received by the operational communication device. A scenario creation device having a configuration. The scenario creation device according to claim 3,
The extraction condition setting means has a configuration for setting an address in addition to the protocol type of the application layer as an extraction condition,
Among the packets transmitted and received by the operational communication device, the extraction unit matches the protocol type set in the header part of the application layer with the protocol type set by the extraction condition setting unit, and the application A scenario creating apparatus characterized by having a configuration for extracting a packet whose source address or destination address set in the header of the layer matches the address set by the extraction condition setting means. Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a signal satisfying the extraction condition set by the extraction condition setting means from signals transmitted and received by the operational communication device in operation;
Conversion means for converting the signal extracted by the extraction means into a command for instructing transmission of a pseudo signal equivalent to the signal or waiting for reception of a signal equivalent to the signal;
Scenario creation means for creating a scenario describing the instruction converted by the conversion means;
A test system comprising: a load generator that performs pseudo signal transmission processing and signal reception waiting for a test target communication device in accordance with a scenario created by the scenario creating means. Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a packet that satisfies the extraction condition set by the extraction condition setting means from packets transmitted and received by an operational communication device in operation;
Conversion means for converting the packet extracted by the extraction means into a command for instructing transmission of a pseudo packet equivalent to the packet or waiting for reception of a packet equivalent to the packet;
Scenario creation means for creating a scenario describing the instruction converted by the conversion means;
A test system comprising: a load generation device that performs pseudo packet transmission processing to a test target communication device and waits to receive a packet in accordance with a scenario created by the scenario creating means. The test system according to claim 6, wherein
The extraction condition setting means has a configuration for setting the protocol type of the application layer as the extraction condition,
The extraction unit extracts a packet whose protocol type set in the header part of the application layer matches the protocol type set by the extraction condition setting unit from the packets transmitted and received by the operational communication device. A test system having a configuration. The test system according to claim 7, wherein
The extraction condition setting means has a configuration for setting an address in addition to the protocol type of the application layer as an extraction condition,
Among the packets transmitted and received by the operational communication device, the extraction unit matches the protocol type set in the header part of the application layer with the protocol type set by the extraction condition setting unit, and the application A test system having a configuration for extracting a packet in which a transmission source address or a transmission destination address set in a header part of a layer matches an address set by the extraction condition setting means. The extraction condition setting means sets the extraction condition,
The extraction means extracts a signal satisfying the extraction condition set by the extraction condition setting means from signals transmitted and received by the operational communication device in operation,
The converting means converts the signal extracted by the extracting means into a command for instructing transmission of a pseudo signal equivalent to the signal or waiting for reception of a signal equivalent to the signal,
A scenario creation method, wherein the scenario creation means creates a scenario describing the instruction converted by the conversion means. The extraction condition setting means sets the extraction condition,
The extraction unit extracts a packet that satisfies a condition set by the extraction condition setting unit from packets transmitted and received by an operational communication device in operation,
The converting means converts the packet extracted by the extracting means into an instruction for instructing transmission of a pseudo packet equivalent to the packet or reception of a packet equivalent to the packet,
A scenario creation method, wherein the scenario creation means creates a scenario describing the instruction converted by the conversion means. In the scenario creation method of Claim 10,
The extraction condition setting means sets the protocol type of the application layer as the extraction condition,
The extraction unit extracts a packet whose protocol type set in the header part of the application layer matches the protocol type set by the extraction condition setting unit from the packets transmitted and received by the operational communication device. A scenario creation method characterized by this. In the scenario creation method of Claim 11,
The extraction condition setting means sets an address in addition to the protocol type of the application layer as an extraction condition,
Among the packets transmitted and received by the operational communication device, the extraction unit matches the protocol type set in the header part of the application layer with the protocol type set by the extraction condition setting unit, and the application A scenario creation method, wherein a packet whose source address or destination address set in a header part of a layer matches an address set by the extraction condition setting means is extracted. Computer
Extraction condition setting means for setting extraction conditions;
Extraction means for extracting a signal satisfying the extraction condition set by the extraction condition setting means from signals transmitted and received by the operational communication device in operation;
Conversion means for converting the signal extracted by the extraction means into a command for instructing transmission of a pseudo signal equivalent to the signal or reception of a signal equivalent to the signal;
A program for functioning as scenario creation means for creating a scenario describing an instruction converted by the conversion means. Computer
Extraction condition setting means for setting extraction conditions;
Extraction means for extracting packets satisfying the extraction condition set by the extraction condition setting means from packets transmitted and received by the operational communication device in operation;
Conversion means for converting the packet extracted by the extraction means into a command for instructing transmission of a pseudo packet equivalent to the packet or waiting for reception of a packet equivalent to the packet;
A program for functioning as scenario creation means for creating a scenario describing an instruction converted by the conversion means. The program according to claim 14, wherein
The extraction condition setting means has a configuration for setting the protocol type of the application layer as the extraction condition,
The extraction unit extracts a packet whose protocol type set in the header part of the application layer matches the protocol type set by the extraction condition setting unit from the packets transmitted and received by the operational communication device. A program characterized by having a configuration. The program according to claim 15, wherein
The extraction condition setting means has a configuration for setting an address in addition to the protocol type of the application layer as an extraction condition,
Among the packets transmitted and received by the operational communication device, the extraction unit matches the protocol type set in the header part of the application layer with the protocol type set by the extraction condition setting unit, and the application A program having a configuration for extracting a packet in which a source address or a destination address set in a header of a layer matches an address set by the extraction condition setting means.

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