JP2010282549A - Redundant call control server system, backup server call control check method and program, and program recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a redundant call control server system that checks whether a call control function of a backup server is normal. <P>SOLUTION: A driver 51 of the backup server 11 holds a physical address of an active server 10. When a physical address attached to a call control signal packet 100 delivered from an IP network is the physical address of the active server 10, the driver captures the call control signal packet 100, which is subjected to a call control process in a call control processing part 57 via a packet transmission/reception processing part 53 and a message analysis processing part 55, and saves an internal log indicating the content of execution at a preset checkpoint and message information generated as the result of execution, which are output on an operator's instruction or periodically. The backup server 11 has an identification flag indicating a backup system, and accordingly prohibits from transmitting the message information generated as the result of call control processing, to the IP network. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a redundant call control server system, a standby server call control confirmation method, a standby server call control confirmation program, and a program recording medium.

  In recent years, IP telephone communication technology (VoIP: Voice over IP) using an IP (Internet Protocol) network has become widespread. In such IP telephone communication, for example, as described in Japanese Patent Laid-Open No. 2003-258837 “Communication System” of Patent Document 1, a call control server for controlling a telephone call includes an active system and a standby system. The configuration of the redundant configuration call control server system consisting of the above is adopted so that the IP telephone communication service can be continued even if the operational server fails.

JP 2003-258837 A (page 3-5)

  However, conventionally, when a call control server adopting a redundant configuration (active / standby) is switched from the standby to the active, whether or not the call control process operates normally after switching There was a situation where an abnormality could not be guaranteed and an abnormality was detected after the actual switching. In other words, when the standby server is switched to the active server due to a failure of the active server, check in advance whether the call control processing will operate normally on the new active server (old standby server) after switching. I could not keep it.

  Furthermore, although the standby server may have a means to check the start of call control related processes and monitor faults, whether it can perform the same processing as the active system for actual calls I could not guarantee it.

  For this reason, there is a demand to reduce the risk of failure after system switching, and a method for confirming the normality of call processing in the standby server is required.

  The present invention has been made in view of the circumstances as described above, and in the call control server system having a redundant configuration, the call control function of the standby server is confirmed even during standby before switching to the active system. It is an object of the present invention to provide a redundantly configured call control server system, a standby server call control confirmation method, a standby server call control confirmation program, and a program recording medium having a mechanism capable of doing so.

  In order to solve the above-described problems, the redundant configuration call control server system, standby server call control confirmation method, standby server call control confirmation program, and program recording medium according to the present invention employ the following characteristic configurations. ing. The numbers (1) and (7) below correspond to the item numbers in the claims.

(1) In a redundant call control server system having a redundant configuration of an active server and a standby server as a call control server for performing call control in an IP network, the standby server is a physical address of the active server And when the physical address attached to the call control signal packet distributed from the IP network is the physical address of the active server, the call control signal packet is fetched and the call control processing is performed. A redundantly configured call control server system that stores an internal log indicating execution contents at checkpoints that are executed and set in advance and message information generated as an execution result.
(7) A standby server call control confirmation method in a redundant configuration call control server system having a redundant configuration of an active server and a standby server as a call control server for performing call control in an IP network, wherein the standby system The server holds the physical address of the active server, and when the physical address attached to the call control signal packet distributed from the IP network is the physical address of the active server, the call control A standby server call control confirmation method that captures a signal packet, performs call control processing, and stores an internal log indicating implementation details at a preset checkpoint and message information generated as an implementation result.

  According to the redundant configuration call control server system, standby server call control confirmation method, standby server call control confirmation program, and program recording medium of the present invention, the following effects can be obtained.

  First, the standby server can perform call control processing equivalent to that of the active server, and the normality of the call control processing can be confirmed in advance. When switching to a system server, it is possible to prevent the risk of call processing abnormalities after switching.

  Second, by checking the message information and internal log information saved on the standby server, it is possible to debug the call control processing software that cannot be executed on the active server on the standby server side. Even software problems that depend on the operating environment can be resolved early.

It is a system configuration diagram showing an example of a basic configuration of a redundant configuration call control server system according to the present invention. It is explanatory drawing which shows an example of the outline | summary of the process structure in the redundant structure call control server system of FIG.

  Preferred embodiments of a redundant call control server system, standby server call control confirmation method, standby server call control confirmation program, and program recording medium according to the present invention will be described below with reference to the accompanying drawings. In the following description, the redundant call control server system and the standby server call control confirmation method according to the present invention will be described. However, this standby server call control confirmation method can be executed by a computer. Needless to say, the program may be implemented as a program, or the standby server call control confirmation program may be recorded on a computer-readable recording medium.

(Features of the present invention)
Prior to the description of the embodiments of the present invention, an outline of the features of the present invention will be described first. The present invention enables a call control signal packet received by an active server to be received by a standby server in a call control server system adopting a redundant configuration (active / standby) as a call control server. The same processing as that of the active server is performed, and the processing result of the standby server is compared with the result of processing of the standby server or by comparing the processing results of both the standby server and the active server. It is characterized by enabling normality confirmation.

  In other words, in the present invention, in a call control server system employing a redundant configuration (active / standby system), the physical address of the active server (for example, Ethernet (registered trademark)) is used on the standby server side. MAC address in the case of a simple IP protocol), and the standby server's reception driver holds the physical address of the active server previously held in addition to the packet addressed to the physical address of the standby server. It is also possible to receive packets addressed to it.

  Thus, in the standby server reception driver, as an identifier for identifying that the packet addressed to the physical address of the active server is received in order to confirm the call control processing of the standby server, When an identification flag indicating processing is set and the packet for which the identification flag is set is a call processing signal, the upper processing module performs reception processing on a control signal for normal call processing, and When transmitting / replying a packet related to message information generated as a processing result, the identification flag is checked, and if the identification flag is set, the packet is not transmitted, and the message regarding the packet After the information is saved, the packet is discarded, and in response to an instruction from the operator of the call control server or at a predetermined cycle In addition, it is possible to check the normality of the call processing in the standby server by outputting the stored message information and the processing status collected as an internal log at a preset checkpoint. .

(Configuration example of embodiment)
FIG. 1 is a system configuration diagram showing an example of a basic configuration of a redundant configuration call control server system according to the present invention.

  In the redundant configuration call control server system of FIG. 1, the active server 10 and the standby server 11 each indicate a call control server that processes a call control signal, each having an IP interface, and a hub 20. Via the IP network 30. Similarly, the IP terminal A 40 and the IP terminal B 41 are connected to the IP network 30.

  The components of the active server 10, the standby server 11, the hub 20, the IP network 30, the IP terminal A40, and the IP terminal B41 are configured to be able to transmit and receive call control signal packets using the IP protocol. It has become.

  In such a system configuration, the present invention is characterized in that a call control signal packet addressed to the active server 10 can be received also by the standby server 11, and the standby server 11 is addressed to the active server 10. By executing the call control process based on the result of receiving the call control signal packet, the normality of the call process of the standby server 11 can be confirmed.

  FIG. 2 is an explanatory diagram showing an example of the outline of the processing configuration in the redundant call control server system of FIG. In the explanatory diagram of FIG. 2, the active server 10 and the standby server 11 correspond to the active server 10 and the standby server 11 in FIG. 1, respectively, and the hub 20 in FIG. The hub 20 is shown.

  As processing modules in the active server 10 and the standby server 11, a driver 50 and a driver 51, a packet transmission / reception processing unit 52 and a packet transmission / reception processing unit 53, a message analysis processing unit 54 and a message analysis processing unit 55, respectively, At least a control processing unit 56 and a call control processing unit 57 are provided.

  The driver 50 and the driver 51 identify a physical address (MAC address in the case of an IP interface), perform transmission / reception operations of various information such as a call control signal packet, and the packet transmission / reception processing unit 52 and the packet transmission / reception processing unit 53 The message analysis processing unit 54 and the message analysis processing unit 55 analyze the message information related to the call connection, and perform the call control processing unit 56 and the call control. The processing unit 57 performs call control processing as each upper module.

  Note that the driver 50 and the driver 51 or the packet transmission / reception processing unit 52 and the packet transmission / reception processing unit 53 determine whether or not to suppress the call control signal packet transmission operation based on the determination result of the identification flag indicating standby processing. A function of determining, and a function of saving message information included in a packet to be transmitted (that is, the active server 10 permits a call control signal packet transmission operation; and A function for storing message information of a packet to be transmitted is provided, and the standby server 11 suppresses the transmission operation of the call control signal packet and stores the message information of the packet whose transmission operation is suppressed. Features). Each processing unit has a checkpoint set in a predetermined part such as an output unit, and the call control server determines whether or not to store the processing status of each processing unit as an internal log at the checkpoint. It can be arbitrarily set by the operator.

  Here, the active server 10 and the standby server 11 have a redundant configuration, but both servers can receive the same packet and operate independently, and can be operated independently. As a result of the processing, when transmitting a packet, the operation server 10 can perform a transmission operation depending on whether or not the identification flag is set, but the packet transmission operation from the standby server 11 Is configured to be suppressed.

(Description of operation of embodiment)
First, a call connection operation required as an explanation of the operation of the present invention will be described using the system configuration diagram of FIG. 1, and then the system configuration diagram of FIG. 1 and the explanatory diagram of FIG. A processing operation example of the embodiment will be described.

  First, an outline of basic connection processing between the IP terminal A 40 and the IP terminal B 41 will be described as the basic operation of the operational server 10 in the system configuration of FIG.

  When connecting from the IP terminal A40 to the IP terminal B41, a call control signal packet addressed to the IP address of the active server 10 (a call packet for the IP terminal B41) is transmitted from the IP terminal A40 to the IP network 30. The call control signal packet transmitted from the IP terminal A 40 reaches the hub 20 connecting the active server 10 and the standby server 11 via the IP network 30. However, in the IP network 30, the destination physical address indicating the destination in the header is rewritten to the physical address of the active server 10, and the call control signal packet 100 is transferred to the destination active server 10 via the hub 20. To do.

  The active server 10 that has received the call control signal packet 100 transferred from the IP network 30 via the hub 20 checks the destination physical address of the received call control signal packet 100 and performs call control addressed to its own physical address. The signal packet 100 is captured and signal reception processing is performed. When it is identified as a result of the signal processing in the active server 10 that the call control signal requests connection with the IP terminal B41, the active server 10 calls the call control signal packet ( A call control signal packet for calling from the IP terminal A40) is generated and transmitted to the IP network 30 as the call control signal packet 101 addressed to the IP terminal B41 via the hub 20.

  The IP network 30 rewrites the destination physical address indicating the destination in the header of the transmitted call control signal packet 101 addressed to the IP terminal B41 to the physical address of the IP terminal B41, and transfers it to the destination IP terminal B41.

  The IP terminal B41 that has received the call control signal packet from the IP network 30 identifies that it is a call control signal from the IP terminal A40, and creates a call control signal packet for a response message addressed to the IP terminal A40. To the IP network 30.

  The IP network 30 rewrites the destination physical address indicating the destination in the header with the physical address of the active server 10 and transfers the call control signal packet 100 to the destination active server 10 via the hub 20.

  The active server 10 that has received the call control signal packet 100 from the IP network 30 identifies that it is a response control signal from the IP terminal B41 to the IP terminal A40, and calls for a response message addressed to the IP terminal A40. A control signal packet 101 is created and transmitted to the IP network 30.

  The IP network 30 rewrites the destination physical address indicating the destination in the header of the transmitted call control signal packet 101 addressed to the IP terminal A40 to the physical address of the IP terminal A40, and transfers it to the destination IP terminal A40.

  As a result, the connection between the IP terminal A 40 and the IP terminal B 41 is established via the operational server 10.

  Although basic call control is performed by the sequence as described above, the present invention is characterized in that the standby server 11 also receives and processes a call control signal addressed to the active server 10. Also in the server 11, the normality of the call control in the standby server 11 is realized by performing the same processing as that of the active server 10.

  Next, with reference to FIGS. 1 and 2, the internal processing operation in the standby server 11 will be described as an example of the basic connection operation.

  In FIG. 1, when connecting from the IP terminal A40 to the IP terminal B41, as described above, the call control signal packet addressed to the IP address of the active server 10 from the IP terminal A40 to the IP network 30 (for the IP terminal B41). Call packet) is transmitted. The call control signal packet reaches the hub 20 to which the active server 10 and the standby server 11 are connected by rewriting the destination physical address to the physical address of the active server 10 in the IP network 30.

  In the driver 50 of the active server 10, if the call control signal packet 100 of the physical address addressed to the self-operating server 10 is fetched and is not a standby process, the identification flag indicating the standby system is reset. Then, the packet transmission / reception processing unit 52 takes over. The packet transmission / reception processing unit 52 performs a packet level analysis process on the received call control signal packet. When the packet transmission / reception processing unit 52 recognizes that the packet is a legitimate call control signal packet addressed to the self-operating server, the packet transmission / reception processing unit Take over to the processing unit 54. The message analysis processing unit 54 performs a rationality check as the received call control signal message and takes over to the call control processing unit 56.

  The call control processing unit 56 identifies the call control signal for calling the IP terminal B41 from the IP terminal A40, generates a call control signal for calling the IP terminal B41, and causes the message analysis processing unit 54 to Via the packet transmission / reception processing unit 52. The packet transmission / reception processing unit 52 assembles the received call control signal into a packet addressed to the IP terminal B 41 and transmits the call control signal packet 101 to the hub 20 via the driver 50. In the active server 10, since the identification flag is not set (reset), the driver 50 performs an operation of transmitting the call control signal packet 101 to the hub 20. Here, the driver 50 may store message information related to the call control signal packet 101 (call control signal packet for calling the IP terminal B41) to be transmitted.

  The processing in the operational server 10 as described above is performed when a call control signal packet for response from the IP terminal B41 is received or a call control signal packet for disconnection / end of call is received from the IP terminal A40 or the IP terminal B41. The case is almost the same.

  Here, in the present invention, as described above, the standby server 11 also checks the destination physical address of the received call control signal packet. When recognizing that it is a call control signal packet addressed to a physical address of a certain active server 10, the call control signal packet is fetched and an identification flag indicating that it is a standby process is set. The signal reception process is performed.

  In other words, the driver 51 of the standby server 11 captures and waits for the call control signal packet 100 of the physical address addressed to the other active server 10, even if it is not the physical address addressed to the own standby server 11. The packet transmission / reception processing unit 53 takes over in a state where an identification flag indicating that the process is a system process is set. The packet transmission / reception processing unit 53 performs a packet level analysis process on the received call control signal packet. When the packet transmission / reception processing unit 53 recognizes that the call control signal is valid for the other operational server 10, the packet transmission / reception processing unit 53 performs a packet disassembly process. The analysis processing unit 55 takes over. The message analysis processing unit 55 performs a rationality check as a received message for the call control signal and takes over to the call control processing unit 57.

  The call control processing unit 57 identifies a call control signal for calling the IP terminal B41 from the IP terminal A40, generates a call control signal for calling the IP terminal B41, and causes the message analysis processing unit 55 to Via the packet transmission / reception processing unit 53. The packet transmission / reception processing unit 53 assembles a packet addressed to the IP terminal B 41 and takes over the received call control signal to the driver 51. When the identification flag indicating that the process is a standby process is set, the driver 51 stores message information about the call control signal packet without transmitting the inherited call control signal packet. The call control signal packet is discarded.

  In the processing in the standby server 11 as described above, a call control signal packet for response from the IP terminal B41 is received, or a call control signal packet for disconnection / end of call is received from the IP terminal A40 or the IP terminal B41. The case is almost the same.

  That is, the standby server 11 captures the call control signal packet addressed to the active server 10, executes the same call control processing as that of the active server 10, stores the call control processing result, and performs the final call control. Only the operation of transmitting the call control signal packet generated as a processing result to the IP network 30 via the hub 20 is suppressed. Thus, the stored call control processing result is output according to an instruction from the operator of the call control server or at a predetermined period, or compared with the call control processing result on the active server 10 side. By comparing and confirming, it is possible to determine whether the standby server 11 is normally executing the call control process.

  Information stored as a result of the call control processing is not collected only by the driver 51, but a plurality of parts (for example, call control processing unit 57, message analysis processing unit 55, packet transmission / reception) set in advance as checkpoints. In each output unit such as the processing unit 53), the execution content of the call control processing in each part may be stored as an internal log. Also, on the active server 10 side, as with the standby server 11, not only in the driver 50 but also in the internal log, the contents of call control processing performed in each part set in advance as the checkpoint are stored. It is also good.

  As described above, when multiple checkpoints are set, whether or not to enable the operation of collecting and storing call control processing contents and message information for any checkpoint is determined by the call control server. It may be possible for the operator to arbitrarily specify. It is desirable that such designation is performed for both the active server 10 and the standby server 11.

  In addition, an internal log indicating the message information of the call control processing result on the active server 10 side and the execution contents at the checkpoint, and an internal log indicating the message information of the call control processing result on the standby server 11 side and the execution contents at the checkpoint The comparison and verification is performed at any timing designated by the operator of the call control server or at predetermined intervals, by outputting message information of each implementation result and an internal log indicating the implementation contents, and Or may be automatically transferred from the active server 10 side to the standby server 11 side according to an instruction from the operator of the call control server or at predetermined intervals. The comparison and verification is automatically performed on the standby server 11 side, and the comparison and verification result is output for presentation to the operator. And it may be. Also, only the standby server 11 side, not the active server 10 side, provides an instruction from the call control server operator for message information generated as a result of the call control processing and internal log indicating the contents of the checkpoint. Or may be output at predetermined intervals.

  As described above, by checking the message information stored in the standby server 11 and checking the internal log that is the content of the call control process, the call control process operates normally in the standby server 11. It is possible to confirm whether or not In addition, by comparing the message information stored in the standby server 11 and the internal log that is the execution content of the call control process with the message information transmitted in the active server 10 and the internal log that is the execution content of the call control process, It is possible to confirm whether or not the standby server 11 is performing the same call control processing as that of the active server 10.

  Further, the standby server 11 checks the stored message information, confirms the internal log information that is the content of the call control process, or the message information and internal log on the active server 10 side. By comparing the above, it becomes possible to debug the call control processing software that cannot be performed by the active server 10 on the standby server 11 side, and there is also a software problem that depends on the operating environment. Can be extracted and solved.

  The standby server 11 generates a signal processing result in the standby server 11 that has captured a call control signal packet addressed to the active server 10 (for example, a call packet from the IP terminal A 40 to the IP terminal B 41). For example, the call control signal packet (call packet) addressed to the IP terminal B41 is discarded without being transmitted as described above from the check result of the identification flag indicating the standby system.

  However, in the active server 10 that has fetched the same call control signal packet (for example, a call packet from the IP terminal A 40 to the IP terminal B 41), the identification flag is not set and is reset. Therefore, for example, a call control signal packet (call packet) addressed to the IP terminal B41 generated by the active server 10 is transmitted via the hub 20 and the IP network 30 without being inhibited from being transmitted. Delivered to. Therefore, the processing related to the call control signal packet between the IP terminal A 40 and the IP terminal B 41 as the call control server is executed by the active server 10 regardless of the standby server 11 side.

  When the active server 10 and the standby server 11 are switched, the old active server 10 sets an identification flag indicating the standby system when receiving the call control signal packet, while the old standby server 10 When the system server 11 resets the identification flag indicating the standby system, the old standby server 11 operates as a new operational server. However, even if the old standby server 11 becomes a new active server, the received call control signal packet normally remains the destination physical address of the old active server 10 in the IP network 30. The physical address related to the reception processing of the call control signal packet in the old standby server 11 is performed using the physical address of the old active server 10 as well as the own standby server 11. On the other hand, the transmission processing of the call control signal packet is performed using the physical address of the own standby server 11 that has become a new active server.

(Explanation of effect of embodiment)
As described in detail above, according to the present embodiment, the standby server 11 can perform call control processing equivalent to that of the active server 10, and the normality of the call control processing can be improved in advance. Since it is possible to confirm, when the standby server 11 is switched to the active server, it is possible to prevent a risk that a call processing abnormality after switching occurs.

  In addition, the active server 10 implements by checking the message information and internal log information stored in the standby server 11 or comparing the message information and internal log on the active server 10 side. Call control processing software that cannot be debugged can also be implemented on the standby server 11 side, and even software problems that depend on the operating environment can be resolved early.

The configuration of the preferred embodiment of the present invention has been described above. However, it should be noted that such examples are merely illustrative of the invention and do not limit the invention in any way. Those skilled in the art will readily understand that various modifications and changes can be made according to a specific application without departing from the gist of the present invention. For example, the embodiment of the present invention can be expressed as the following configurations in addition to the configurations (1) and (7) in the means for solving the problems. The numbers (2)-(6) and (8)-(14) below correspond to the item numbers in the claims.
(2) The standby server suppresses the transmission operation of the message information generated as a call control processing result to the IP network by setting an identification flag indicating the standby system, while the operation server The redundant configuration call control server system according to (1), wherein the system server performs an operation of transmitting the message information generated as a call control processing result to the IP network when the identification flag is reset.
(3) The internal log and the message information stored in the standby server are output according to an instruction from an operator of the call control server or at a predetermined cycle. 2) Redundant call control server system.
(4) The active server stores the internal log and message information in the active server collected at the same checkpoint as the internal log and message information stored in the standby server, and the call control server The redundantly configured call control server system according to any one of (1) to (3), which is output in accordance with an instruction from the operator or at predetermined intervals.
(5) The standby server stores the internal log and the message in the active server stored by the active server according to an instruction from the operator of the call control server or at a predetermined cycle. The redundantly configured call control server system according to (4), which receives information and outputs a result of comparison with the internal log and the message information stored in the standby server.
(6) Whether or not to collect the internal log and the message information for each of the checkpoints of the standby server and / or the active server is arbitrarily determined by an instruction from the operator of the call control server The redundantly configured call control server system according to any one of the above (1) to (5).
(8) Since the identification flag indicating the standby system is set, the standby server suppresses the transmission operation of the message information generated as a result of the call control process to the IP network, while the operation server The standby server call control confirmation method according to (7), wherein the system server performs an operation of transmitting the message information generated as a result of the call control process to the IP network when the identification flag is reset.
(9) The standby server call control confirmation method according to (7) or (8), wherein the internal log and the message information stored in the standby server are output according to an instruction from an operator of the call control server. .
(10) The active server stores the internal log and message information in the active server collected at the same checkpoint as the internal log and message information stored in the standby server, and the call control server The standby server call control confirmation method according to any one of (7) to (9), which is output in response to an instruction from the operator or at predetermined intervals.
(11) The standby server stores the internal log and the message in the active server stored by the active server according to an instruction from an operator of the call control server or at predetermined intervals. The standby server call control confirmation method according to (10), wherein information is received and a result of comparison with the internal log and the message information stored in the standby server is output.
(12) Whether or not to collect the internal log and the message information for each of the checkpoints of the standby server and / or the active server is arbitrarily determined by an instruction from the operator of the call control server The standby server call control confirmation method according to any one of (7) to (11), which can be set to:
(13) A standby server call control confirmation program implementing the standby server call control confirmation method according to any one of (7) to (12) as a program executable by a computer.
(14) A program recording medium in which the standby server call control confirmation program of (13) is recorded on a computer-readable recording medium.

10 Active server 11 Standby server 20 Hub 30 IP network 40 IP terminal A
41 IP terminal B
50 driver 51 driver 52 packet transmission / reception processing unit 53 packet transmission / reception processing unit 54 message analysis processing unit 55 message analysis processing unit 56 call control processing unit 57 call control processing unit 100 call control signal packet 101 call control signal packet

Claims (14)

  As a call control server for performing call control in an IP network, in a redundant configuration call control server system having a redundant configuration of an active server and a standby server, the standby server holds a physical address of the active server. When the physical address attached to the call control signal packet distributed from the IP network is the physical address of the active server, the call control signal packet is fetched and the call control process is performed. A redundant call control server system, characterized in that an internal log indicating execution contents at a preset checkpoint and message information generated as an execution result are stored.   The standby server suppresses the transmission operation of the message information generated as a call control processing result to the IP network by setting an identification flag indicating the standby system, while the active server The redundantly configured call control server system according to claim 1, wherein the message information generated as a call control processing result is transmitted to the IP network when the identification flag is reset. .   The internal log and the message information stored in the standby server are output in accordance with an instruction from an operator of the call control server or at a predetermined cycle. 3. The redundant call control server system according to 2. The active server stores the internal log and message information in the active server collected at the same checkpoint as the internal log and message information stored in the standby server, and the call control server operator 4. The redundantly configured call control server system according to claim 1, wherein the redundantly configured call control server system outputs the data according to an instruction from the system or at predetermined intervals.   The standby server receives the internal log and the message information in the active server stored in the active server according to an instruction from the operator of the call control server or at predetermined intervals. 5. The redundant call control server system according to claim 4, wherein a result of comparison with the internal log and the message information stored in the standby server is output.   Whether to collect the internal log and the message information for each checkpoint of the standby server and / or the active server is arbitrarily set according to an instruction from the operator of the call control server 6. The redundant call control server system according to claim 1, wherein the call control server system can be configured as described above.   As a call control server for performing call control in an IP network, a standby server call control confirmation method in a redundant configuration call control server system having a redundant configuration of an active server and a standby server, wherein the standby server includes: The physical address of the active server is held, and when the physical address attached to the call control signal packet distributed from the IP network is the physical address of the active server, the call control signal packet is A standby server call control confirmation method, which captures and executes call control processing, and stores an internal log indicating implementation details at a preset checkpoint and message information generated as an implementation result.   The standby server suppresses the transmission operation of the message information generated as a call control processing result to the 1P network by setting an identification flag indicating the standby system, while the active server 8. The standby server call control confirmation according to claim 7, wherein when the identification flag is reset, the message information generated as a call control processing result is transmitted to the IP network. Method.   The standby server call control confirmation according to claim 7 or 8, wherein the internal log and the message information stored in the standby server are output according to an instruction from an operator of the call control server. Method.   The active server stores the internal log and message information in the active server collected at the same checkpoint as the internal log and message information stored in the standby server, and the call control server operator 10. The standby server call control confirmation method according to any one of claims 7 to 9, wherein the standby server call control confirmation method is output in response to an instruction from or at predetermined intervals.   The standby server receives the internal log and the message information in the active server stored in the active server according to an instruction from the operator of the call control server or at predetermined intervals. 11. The standby server call control confirmation method according to claim 10, wherein a result of comparison with the internal log and the message information stored in the standby server is output.   Whether to collect the internal log and the message information for each checkpoint of the standby server and / or the active server is arbitrarily set according to an instruction from the operator of the call control server 12. The standby server call control confirmation method according to claim 7, wherein the standby server call control confirmation method can be performed.   13. A standby server call control confirmation program, wherein the standby server call control confirmation method according to claim 7 is implemented as a program executable by a computer. 14. A program recording medium, wherein the standby server call control confirmation program according to claim 13 is recorded in a computer-readable recording medium.

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