JP2012124756A - Communication device and method of controlling the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique for a communication device by which a work for decreasing and exchanging packages can be implemented quickly without affecting a user who utilizes a communication system.SOLUTION: A communication device having a plurality of call processors each having a different address from each other, includes: a pre-blockade transition part making one of the plurality of call processors transit to a pre-blockade state where new call allocation is restricted; a transfer part associating a call included in the call processor which was made transit to the pre-blockade state with the address held by the call processor, and transferring the associated call and address to any one of the plurality of call processors which is different from the call processor which was made transit to the pre-blockade state; an activation transition part activating the transferred call and address in the transfer destination call processor; and a transfer call processing part performing communication of the transferred call by using the associated address.

Description

  The present invention relates to a technology of a communication device.

  Conventionally, in a communication device including a plurality of call processing packages (a hardware package including a control device that implements call processing), calls are managed for each call processing package. Therefore, as described in Patent Document 1 and the like, when a call processing package is changed, the call processing package (VoIP processing unit) is placed in a pre-blocking state, and all voice communication calls in the call processing package are placed in the call processing package. After the disconnection is completed, autonomous switching from the VoIP processing unit to the backup VoIP processing unit is performed.

JP 2005-236645 A

  However, in the above technique, when an Always-On terminal such as an electronic book service where a call remains in the call processing package to be worked for a long time is connected, the call always remains in the call processing package. This is because in the electronic book service, it is necessary to enable immediate download in order to move the page smoothly when the page of the book is moved. In such a case, since it is difficult to release a call, the package removal operation or the package replacement operation may not be performed smoothly.

  An object of the present invention is to provide a technology of a communication device that can quickly perform an operation for package removal and replacement without affecting a user who uses the communication system.

  In order to solve the above problems, a communication device according to the present invention is a communication device including a plurality of call processing devices having different addresses, and assigns a new call to one of the plurality of call processing devices. A pre-occlusion transition unit that transits to the pre-occlusion state to be restricted, a call included in the call processing device that has transited to the pre-occlusion state, and the address of the call processing device are associated with each other, and the pre-occlusion state is entered. A transfer unit for transferring to one of the plurality of call processing devices different from the transferred call processing device, and an operation transition unit for operating the transferred call and the address in the transferred call processing device; A transfer call processing unit that performs communication of the transferred call using the associated address.

  In the communication device control method according to the present invention, the communication device includes a plurality of call processing devices having different addresses, and a new call is made to one of the plurality of call processing devices. A pre-occlusion transition step for transitioning to a pre-occlusion state that restricts allocation, a call included in the call processing device transited to the pre-occlusion state, and the address of the call processing device are associated with each other, and A transfer step of transferring the call processing device to any one of the plurality of call processing devices different from the call processing device changed to the blocked state, and an operation of operating the transferred call and the address in the transferred call processing device A transition step and a transfer call processing step of performing communication of the transferred call using the associated address are performed.

  According to the present invention, it is possible to quickly replace and replace packages without affecting users who use the communication system.

It is a figure which shows the structural example of the communication system which concerns on embodiment of this invention. It is a figure which shows the structural example of the call control information management table of a communication apparatus. It is a figure which shows the hardware constitutions of a communication apparatus. It is a sequence diagram which shows a process when package switching is impossible (processing capability is insufficient). It is a sequence diagram which shows the process at the time of package switching impossible (call transfer failure). It is a sequence diagram which shows the process at the time of package switching success. It is a sequence diagram which shows a package complete transfer process. It is a sequence diagram which shows the process at the time of package switchback. It is a sequence diagram which shows the process at the time of package failback (call extinction). It is a sequence diagram which shows an incoming call process in a package switching state. It is a sequence diagram which shows the switching origin response call process in a package switching state. It is a sequence diagram which shows the switching destination call process in a package switching state.

  Hereinafter, a communication system 1 including a communication device to which a first embodiment of the present invention is applied will be described with reference to the drawings.

  FIG. 1 is a diagram showing a communication system 1 according to an embodiment of the present invention. The communication system 1 according to the present invention includes a communication device 100, a counter device 200 that can be connected to the communication device 100 via the network 150, and a maintenance device 300 that can be connected to the communication device 100 via the network 150. The opposing device 200 is a terminal device such as an electronic book service terminal (electronic book viewer), for example, and performs data communication with the communication device 100 via the network 150. The maintenance device 300 is a terminal device such as a so-called PC (Personal Computer) capable of issuing various work instructions for maintenance of the communication device 100.

  In the present embodiment, the network 150 is assumed to be a wide area network based on TCP / IP or the like such as the Internet, but is not limited thereto, and is not limited to a LAN (Local Area Network) or a WAN (Wide Area Network). It may be a network.

  The communication device 100 includes a device control unit 110, a call control unit 120, and a switch unit 130. The device control unit 110 includes a control message transmission / reception unit 111. The control message transmission / reception unit 111 accepts various maintenance instruction messages from the maintenance device 300. Further, the control message transmission / reception unit 111 requests a plurality of call processing packages 121 included in the call control unit 120 to switch the connection destination of the call, and requests a package state transition in response to the received instruction message. An IP address is set in the call processing package 121 and the IP address of the call processing package 121 is deleted. After the call connection destination is switched, the control message transmission / reception unit 111 performs a complete migration process described later when there is no call of the switching source call processing package in the call processing package of the call switching destination. In addition, the control message transmission / reception unit 111 notifies the maintenance apparatus 300 of the results of various instruction message processes.

  The call control unit 120 includes a plurality of call processing packages 121. Each call processing package includes an IP address control unit 122, a control message transmission / reception unit 123, a call processing message transmission / reception unit 124, a user data transmission / reception unit 125, a package state control unit 126, and a call control information storage unit 127. , Is included.

  In response to an instruction from the device control unit 110, the IP address control unit 122 sets or deletes a global IP address that can be referred to from the opposite device 200 with respect to the self-call processing package. Each call processing package can set and use a plurality of IP addresses simultaneously. In the present embodiment, communication between the communication device 100 and the opposite device 200 and communication between the communication device 100 and the maintenance device 300 are performed using a global IP address. Communication between the device control unit 110 and the call processing package and between the call processing packages is performed using a private IP address.

  The control message transmission / reception unit 123 transmits / receives a control message to / from the device control unit 110. The call processing message transmission / reception unit 124 transmits / receives a call processing message to / from the opposite device 200 or between call processing packages. The call processing message transmission / reception unit 124 transfers call control information between call processing packages. That is, it can be said that the call processing message transmission / reception unit 124 can transfer a call between call processing packages.

  The user data transmission / reception unit 125 receives user data having a predetermined format (for example, a SIP protocol format) transmitted from the opposite apparatus 200. Further, the user data transmission / reception unit 125 transmits user data having a predetermined format to be transmitted to the opposite device 200.

  The package state control unit 126 receives a package state transition request from the device control unit 110, and sets the state of the self-call processing package as a pre-blocking state in which a newly connected call is not accepted while continuing communication of an existing call. Transition is made to either a blocked state in which any communication with the device 200 is restricted or an operating state in which the call connection is not restricted.

  The call control information storage unit 127 stores management information necessary for call processing. Specifically, the call control information storage unit 127 includes a call control information management table 500 shown in FIG.

  As shown in FIG. 2, the call control information management table 500 includes a call number 501 for storing a call number for identifying a call, and information for specifying a use state of a call identified by the information stored in the call number 501 ( For example, a table use state 502 for storing “in use or dormant”, a switching source package identifier 503 for storing information for specifying a call processing package of a call switching source identified by the information stored in the call number 501, , And a switching source package IP address 505 for storing information for specifying a global IP address set in the call switching source package identified by the information stored in the call number 501. That is, the call control information management table 500 can store the call and the IP address of the call processing package to which the call belongs in association with each other.

  The switch unit 130 distributes each message according to a transmission destination of a call processing message, user data, or control message transmitted / received during communication with the outside of the communication apparatus 100. In addition, the switch unit 130 distributes each message according to a transmission destination of a call processing message or a control message transmitted and received during communication inside the communication apparatus 100. Further, the switch unit 130 determines a transmission destination for a call processing message that requires a new call assignment, excluding a call processing package that has received information indicating that the call is pre-blocked or blocked. That is, it can be said that the switch unit 130 does not allocate a new call to a call processing package in a pre-blocked state or a blocked state.

  Note that a call processing message using a global IP address and user data are transmitted and received between the opposite device 200 and the call control unit 120 via the switch unit 130. A control message using a global IP address is transmitted and received between the maintenance device 300 and the device control unit 110 via the switch unit 130. In addition, a control message using a private IP address is transmitted and received between the device control unit 110 and the call control unit 120 via the switch unit 130.

  FIG. 3 is a diagram illustrating an example of a hardware configuration of the communication apparatus 100. In the present embodiment, the communication device 100 is, for example, a so-called server device or a router device. However, the computer is not limited to this, and may be a computer classified into a PC (personal computer), a workstation, various mobile phone terminals, a PDA (Personal Digital Assistant), a smartphone, and the like.

  The communication device 100 includes a switch unit 130, a device control unit 110, and a plurality of call processing packages 121. The switch unit 130 includes an external communication device 401, an internal communication device 402, an arithmetic device 403, a main storage device 404, and a bus 405 that connects the devices to each other.

  The external communication device 401 is a communication device that performs communication with a device connected to the network 150 such as the Internet.

  The internal communication device 402 is a communication device that communicates with a device connected to an internal network in the communication device 100.

  The arithmetic device 403 is an arithmetic device such as a CPU (Central Processing Unit).

  The main storage device 404 is a memory device such as a RAM (Random Access Memory).

  The switch unit 130 is realized by a program that causes the arithmetic device 403 to perform processing.

  This program is stored in the main storage device 404 or a ROM device (not shown), loaded onto the main storage device 404 for execution, and executed by the arithmetic device 403.

  Communication with an external device of the communication device 100 is realized by the external communication device 401.

  Communication between the switch unit 130 and devices inside the communication device 100 is realized by the internal communication device 402.

  The device control unit 110 includes an internal communication device 411, an arithmetic device 412, a main storage device 413, and a bus 414 that connects the devices to each other.

  The internal communication device 411 is a communication device that communicates with a device connected to the internal network in the communication device 100.

  The arithmetic device 412 is an arithmetic device such as a CPU (Central Processing Unit).

  The main storage device 413 is a memory device such as a RAM (Random Access Memory).

  The control message transmission / reception unit 111 of the device control unit 110 is realized by a program that causes the arithmetic device 412 to perform processing.

  This program is stored in the main storage device 413 or a ROM device (not shown), loaded onto the main storage device 413 for execution, and executed by the arithmetic device 412.

  Communication between the device control unit 110 and devices inside the communication device 100 is realized by the internal communication device 411. In addition, communication between the device control unit 110 and an external device of the communication device 100, for example, the maintenance device 300, is performed by the external communication device 401 of the switch unit 130, the internal communication device 402 of the switch unit 130, and the inside of the device control unit 110. And the communication device 411.

  Each of the plurality of call processing packages 121 constituting the call control unit 120 includes an internal communication device 421, a computing device 422, a main storage device 423, and a bus 424 that connects the devices to each other.

  The internal communication device 421 is a communication device that communicates with a device connected to the internal network in the communication device 100.

  The arithmetic device 422 is an arithmetic device such as a CPU (Central Processing Unit).

  The main storage device 423 is a memory device such as a RAM (Random Access Memory).

  Each IP address control unit 122, control message transmission / reception unit 123, call processing message transmission / reception unit 124, user data transmission / reception unit 125, and package state control unit 126 of the call processing package 121 are realized by a program that causes the arithmetic device 422 to perform processing. Is done.

  This program is stored in the main storage device 423 or a ROM device (not shown), loaded onto the main storage device 423 for execution, and executed by the arithmetic device 422.

  The call control information storage unit 127 is realized by a storage area in the main storage device 423.

  Communication between each of the call processing packages 121 and devices inside the communication device 100 is realized by the internal communication device 421. Communication between each of the call processing packages 121 and an external device of the communication device 100, for example, the opposite device 200, is performed by the external communication device 401 of the switch unit 130, the internal communication device 402 of the switch unit 130, and the call processing package. 121, each internal communication device 421.

  Note that each of the above-described components is a classification of the configuration of the communication device 100 according to main processing contents in order to facilitate understanding. Therefore, the present invention is not limited by the way of classifying the components and their names. The configuration of the communication device 100 can be classified into more components depending on the processing content. Moreover, it can also classify | categorize so that one component may perform more processes.

  Each functional unit may be constructed by hardware (ASIC, GPU, etc.). Further, the processing of each functional unit may be executed by one hardware or may be executed by a plurality of hardware.

  [Description of Operation] Next, the operation of the package switching process performed by the communication apparatus 100 will be described. FIG. 4 is a sequence diagram showing a flow of processing when switching fails due to insufficient processing capacity of the package switching processing performed by the communication apparatus 100. The sequence is executed when a switching instruction is transmitted from the maintenance device 300 while the communication device 100 is operating.

  First, the control message transmission / reception unit 111 of the control device 110 receives the switching instruction message transmitted from the maintenance device 300 (step S001).

  Next, the control message transmission / reception unit 111 of the control device 110 requests a call volume survey for the call processing package to be switched included in the switching instruction message (step S002). In the present embodiment, the switching instruction message includes an instruction to switch from the call processing package (1) that is one of the call processing packages to the call processing package (3) that is one of the other call processing packages. It shall be. In the present embodiment, the control message transmission / reception unit 111 requests the call processing package (1) to investigate the call volume.

  The control message transmission / reception unit 123 of the call processing package to be switched reports the amount of calls in use to the control message transmission / reception unit 111 (step S003). Specifically, the control message transmission / reception unit 123 of the call processing package (1), which is a call processing package to be switched, transmits the amount of calls in use at the time of response to the control message transmission / reception unit 111, Report call volume.

  Similarly, the control message transmission / reception unit 111 of the control device 110 requests a call volume survey to the switching destination call processing package included in the switching instruction message (step S004). In the present embodiment, the control message transmission / reception unit 111 transmits a message requesting a call volume survey to the call processing package (3).

  The control message transmission / reception unit 123 of the switching destination call processing package reports the amount of calls in use to the control message transmission / reception unit 111 (step S005). The control message transmission / reception unit 123 of the call processing package (3), which is a switching destination call processing package, reports the call volume by transmitting the amount of calls in use at the time of response to the control message transmission / reception unit 111. .

  The control message transmission / reception unit 111 of the control device 110 determines whether or not it can be performed (step S006). Specifically, the control message transmission / reception unit 111 adds the call volume reported from the call processing package (1) to be switched and the call volume reported from the call processing package (3) to be switched to, When the call volume exceeds a predetermined call volume, it is determined that switching cannot be performed, and when it is less than the predetermined call volume, it is determined that switching can be performed. Note that the predetermined call volume used for the determination may be a predetermined value or a value corresponding to a ratio to the processing allowable amount of the call processing package at the switching destination.

  FIG. 4 shows the flow of processing at the time of switching failure due to insufficient processing capacity of the package switching processing performed by the communication apparatus 100. Therefore, in the implementation feasibility determination S006, it is determined that switching cannot be performed, and the subsequent processing flow Will be explained.

  The control message transmission / reception unit 111 transmits a failure notification message to the maintenance device 300 that has transmitted the switching instruction (step S050).

  The above is the flow of processing when switching fails due to insufficient processing capacity of the package switching processing performed by the communication apparatus 100.

  Next, the flow of processing at the time of switching failure due to call control information transfer impossibility of the package switching processing performed by the communication apparatus 100 will be described using FIG. This sequence is executed when a switching instruction is transmitted from the maintenance device 300 while the communication device 100 is in operation, and the processing from steps S001 to S006 is the same as the sequence in FIG. Omit.

  When it is determined in step S006 that switching can be performed, the control message transmission / reception unit 111 of the control device 110 transmits a request message for transition to the pre-blocking state to the call processing package to be switched (step S007). . In the present embodiment, the control message transmission / reception unit 111 transmits a request message for transition to the pre-blocking state to the call processing package (1).

  Then, the package state control unit 126 of the call processing package to be switched causes the own package to transition to the pre-blocking state (step S008). Specifically, the package state control unit 126 of the call processing package (1) changes its own package to the pre-blocking state and transmits information indicating that the switch unit 130 has shifted to the pre-blocking state. That is, by the step S008, the call processing package (1) to be switched is excluded from the new call allocation target.

  When switching to the pre-blocking state, the package state control unit 126 of the call processing package to be switched transmits a message notifying the control message transmitting / receiving unit 111 that the pre-blocking transition has been completed (step S009). Specifically, the package state control unit 126 of the call processing package (1) to be switched detects the completion of the pre-blocking state transition of the own call processing package, and indicates that the pre-blocking transition has been completed. A message to notify 111 is transmitted.

  The control message transmission / reception unit 111 of the control device 110 requests the call processing package to be switched to transfer the call control information (step S010). Specifically, the control message transmission / reception unit 111 of the control device 110 sends a message requesting the call processing package (1) to be switched to transfer the call control information to the call processing package (3) to be switched. Send.

  The call processing message transmission / reception unit 124 of the call processing package to be switched inquires of the call processing package of the switching destination whether the call control information can be transferred (step S011). Specifically, the call processing message transmission / reception unit 124 of the call processing package (1) to be switched can determine whether call control information can be transferred to the call processing message transmission / reception unit 124 of the call processing package (3) to be switched. Send a message asking for It should be noted that the call processing message transmission / reception unit 124 of the call processing package to be switched is for a call in which the table usage state 502 of the call control information management table 500 stored in the call control information storage unit 127 of the own call processing package is in the usage state. Count the number and include it in the message.

  The call processing message transmission / reception unit 124 of the switching destination call processing package responds to the call processing package to be switched as to whether or not the call control information can be transferred (step S012). Specifically, the call processing message transmission / reception unit 124 of the switching destination call processing package (3) determines whether the call control information can be transferred to the call processing message transmission / reception unit 124 of the switching target call processing package (1). Send a message that responds. At that time, the call processing message transmission / reception unit 124 of the switching destination call processing package (3) has the usage status 502 of the call control information management table 500 stored in the call control information storage unit 127 of the own call processing package. The number of calls is counted and added to the number of calls included in the message transmitted in step S011, and if it exceeds a predetermined ratio with respect to the maximum number of calls, call control information transfer is impossible. Include specific information in the message. When the ratio is less than the predetermined ratio, information specifying that the call control information can be transferred is included in the message.

  In FIG. 5, in order to show the flow of processing at the time of switching failure due to call control information transfer impossible in the package switching processing performed by the communication apparatus 100, it is determined in the call control information transfer availability response S012 that call control information cannot be transferred. As a thing, the flow of subsequent processing will be described.

  When the call processing message transmission / reception unit 124 of the call processing package to be switched receives a response indicating that the call control information cannot be transferred from the call processing package of the switching destination, the call control information transmission / reception unit 111 transmits the call control information Failure notification is performed (step S060). Specifically, the call processing message transmission / reception unit 124 of the call processing package to be switched sends a message including information specifying that transfer of the call control information is impossible to the call of the call processing package (3) of the switching destination. When received from the processing message transmission / reception unit 124, a message including information indicating that the transfer of the call control information has failed is transmitted to the control message transmission / reception unit 111 of the control device 110.

  Next, the control message transmission / reception unit 111 of the control device 110 transmits an operation state transition request message to the call processing package to be switched (step S061). In the present embodiment, the control message transmission / reception unit 111 transmits an operation state transition request message to the call processing package (1).

  Then, the package state control unit 126 of the call processing package to be switched shifts its own package to the operating state (step S062). Specifically, the package state control unit 126 of the call processing package (1) changes its own package to the operating state and transmits information indicating that the switching to the operating state is made to the switch unit 130. That is, by the step S062, the call processing package (1) to be switched becomes a new call allocation target.

  When switching to the operating state, the package state control unit 126 of the call processing package to be switched transmits a message notifying the control message transmitting / receiving unit 111 that the operation transition has been completed (step S063). Specifically, the package state control unit 126 of the call processing package (1) to be switched detects the completion of the operation state transition of the own call processing package, and notifies the control message transmission / reception unit 111 that the operation transition has been completed. Send a notification message.

  Then, the control message transmission / reception unit 111 transmits a failure notification message to the maintenance device 300 that has transmitted the switching instruction (step S064).

  The above is the flow of processing when switching fails due to call control information transfer failure of the package switching processing performed by the communication apparatus 100.

  Next, the flow of processing when switching of the package switching processing performed by the communication apparatus 100 is successful will be described with reference to FIG. This sequence is executed when a switching instruction is transmitted from the maintenance device 300 while the communication device 100 is operating, and the processing from steps S001 to S012 is the same as the sequence in FIG. Omit.

  If there is a response that the call control information can be transferred in step S012, the call processing message transmission / reception unit 124 of the switching target call processing package transfers the call control information to the switching destination call processing package ( Step S013). In the present embodiment, the call processing message transmission / reception unit 124 of the call processing package (1) reads the information stored in the call control information management table 500 of the call control information storage unit 127 and calls the call processing package (3). The message is transmitted to the processing message transmission / reception unit 124. At that time, the call processing message transmitting / receiving unit 124 of the call processing package (1) acquires the global IP address set in the own call processing package from the IP address control unit 122, and the call processing message of the call processing package (3). The data is transmitted to the transmission / reception unit 124.

  The call processing message transmission / reception unit 124 of the switching destination call processing package receives the transmitted call control information and the global IP address, and stores the call control information in the call control information storage unit 127 (step S014). Specifically, the call processing message transmission / reception unit 124 of the switching destination call processing package receives the transmitted call control information and global IP address, and stores the call control information in the call control information management table of the call control information storage unit 127. The received IP address is transferred to the IP address control unit 122. At that time, the call processing message transmitting / receiving unit 124 stores information for identifying the call control package to be switched in the switching source package identifier 503 of the call control information management table 500, and converts the received global IP address to the switching source package. Stored in association with the IP address 504.

  In addition, the IP address control unit 122 of the call processing package to be switched deletes the global IP address set in the own call processing package. Further, the package state control unit 126 of the call processing package to be switched causes the own call control package to transition to the closed state (step S015). Specifically, the package state control unit 126 of the call processing package (1) changes its own package to the closed state and transmits information indicating that the package unit 130 has changed to the closed state to the switch unit 130. That is, by the step S015, the call processing package (1) to be switched is excluded from the new call allocation target, and the call communication existing in the call processing package (1) is also blocked.

  When switching to the blocked state, the package state control unit 126 of the call processing package to be switched transmits a message notifying the control message transmission / reception unit 111 that the call control information transfer has been completed (step S016). Specifically, the package state control unit 126 of the call processing package (1) to be switched detects the completion of the blocking state transition of the own call processing package, and notifies the control message transmission / reception unit 111 that the blocking transition has been completed. Send a notification message.

  The control message transmission / reception unit 111 of the control device 110 requests the switching destination call control package to additionally set a global IP address and to operate the switched call (step S017). Specifically, the control message transmission / reception unit 111 of the control device 110 adds the global IP address received from the call control package (1) to the switching destination call control package (3) and operates the switched call. Send a message requesting

  The call processing message transmission / reception unit 124 of the switching destination call processing package operates the switched call. In addition, the IP address control unit 122 of the switching destination call processing package additionally sets the global IP address of the switching target call processing package received in step S013 as the global IP address of the own call processing package (step S018). As a result, the user data transmission / reception unit 125 of the switching destination call processing package can select either the global IP address set in the switching destination call processing package or the global IP address set in the switching target call processing package. Even an address works, and communication is possible using a set IP address.

  When the operation of the switched call and the global IP address is completed, the call processing message transmission / reception unit 124 of the switching destination call processing package notifies the control message transmission / reception unit 111 of the control device 110 of the completion of the switching call operation ( Step S019). Specifically, when the call processing message transmission / reception unit 124 of the switching destination call processing package (3) detects that the operation of the switched call is completed, the control message transmission / reception unit 111 of the control device 110 A message including information indicating that the switched call has been completed is transmitted.

  Then, the control message transmission / reception unit 111 transmits a message notifying the completion of switching to the maintenance device 300 that has transmitted the switching instruction (step S020).

  The above is the process flow when the switching of the package switching process performed by the communication apparatus 100 is successful. Due to the success of the package switching process, communication of calls belonging to the subsequent call processing package (1) is substituted by the call processing package (3) including the IP address, and the call processing package (1) is quickly blocked. The

  Next, with reference to FIG. 7, a description will be given of a complete package migration process for returning a switching destination call processing package to an operating state before switching when a call switched by the package switching process disappears. FIG. 7 is a sequence diagram showing the complete package migration process. The package complete migration process is performed periodically (for example, once every minute) in a state where the call is switched by the package switching process.

  First, the control message transmission / reception unit 111 of the control device 110 inquires of the call processing message transmission / reception unit 124 of the switching destination call processing package about the presence of the switching call (call transferred by the switching process) (step S101). Specifically, the control message transmission / reception unit 111 of the control device 110 transmits a message inquiring about the existence of the switching call to the call processing message transmission / reception unit 124 of the switching destination call processing package.

  Then, the call processing message transmission / reception unit 124 of the switching destination call processing package determines the presence of the switching call (step S102). Specifically, the call processing message transmission / reception unit 124 of the call control package (3) stores a call (call) whose switching source package identifier 503 is different from that of the own call control package in the call control information management table 500 of the call control information storage unit 127. It is determined whether or not the information of the control package (1) is present.

  If there is no call information different from the own call control package, the call processing message transmission / reception unit 124 of the switching destination call processing package transmits to the control message transmission / reception unit 111 that there is no switching call (step S103). . When there is information on a call different from the own call control package (call of the call control package (1)), the call processing message transmission / reception unit 124 of the switching destination call processing package indicates that the switching call exists. The control message transmission / reception unit 111 transmits the control message transmission / reception unit 111, and the control message transmission / reception unit 111 ends the complete package migration process.

  The control message transmission / reception unit 111 of the control device 110 requests the IP address control unit 122 of the switching destination call processing package to delete the global IP address of the switching target call control package (step S104). Specifically, the control message transmission / reception unit 111 of the control device 110 sends a global IP that is attracted from the call control package (1) to be switched to the IP address control unit 122 of the switching destination call processing package (3). Send a message requesting address deletion.

  The IP address control unit 122 of the switching destination call processing package sets a global IP address not included in the switching source package IP address 504 of the call control information management table 500 of the call control information storage unit 127 in the own call control package. If so, the global IP address is deleted (step S105). Specifically, the IP address control unit 122 of the switching destination call processing package (3) is included in the switching source package IP address 504 of the call control information management table 500 of the call control information storage unit 127 in its own call control package. It is determined whether or not a global IP address that is not set is set. If it is set, the global IP address is deleted.

  The IP address control unit 122 of the switching destination call processing package reports information indicating that the deletion of the IP address is completed to the control message transmission / reception unit 111 of the control device 110 (step S106). Specifically, the IP address control unit 122 of the switching destination call processing package (3) receives information indicating that the deletion of the global IP address used by the switching target call control package has been completed. It transmits to the control message transmission / reception unit 111.

  Then, the control message transmission / reception unit 111 of the control device 110 transmits a completion notification to a predetermined address of the maintenance device 300 (step S107).

  The above is the flow of the complete package migration process. According to the complete package migration process, when the switched call disappears from the call control package of the switching destination, the global IP address used by the call processing package to be switched can be released immediately. Effective use is possible, and it is possible to suppress the occurrence of problems such as duplicate settings for a plurality of devices having the same IP address.

  Next, the operation of the package failback process performed by the communication apparatus 100 will be described with reference to FIG. The package fail-back process is a process of transferring the switched call processing package separately to another call processing package or the original call processing package. For example, it is performed when maintenance work such as version upgrade is performed on the call processing package blocked by the package switching process and the call is switched back to the upgraded call processing package. FIG. 8 is a sequence diagram illustrating a flow of package failback processing performed by the communication apparatus 100. The sequence is executed when a switch-back instruction is transmitted from the maintenance device 300 in a state where the call processing package is switched.

  First, the control message transmission / reception unit 111 of the control device 110 receives the switch-back instruction message transmitted from the maintenance device 300 (step S201). The failback instruction message includes a failback source call control package having a call to be transferred, a failback destination call control package as a call transfer destination, and a global IP address set in the failback destination call control package. It is.

  The control message transmission / reception unit 111 of the control device 110 receives the call control information for the switch back call control package included in the received switch back instruction message for the switch back source call control package included in the received switch back instruction message. A failback request is transmitted (step S202). Specifically, the control message transmission / reception unit 111 of the control device 110 performs the return destination call control package (1) with respect to the return source call control package (3) included in the return instruction message received in step S201. A message including a request for switching back call control information is transmitted.

  The call processing message transmission / reception unit 124 of the fail-back source call control package determines use of the call of the fail-back destination call control package in use (step S203). Specifically, the call processing message transmission / reception unit 124 of the return source call control package identifies the call of the return destination call control package (1) in use as a transfer call.

  The call processing message transmission / reception unit 124 of the switchback source call control package transfers the call of the switchback destination call control package in use to the call processing message transmission / reception unit 124 of the switchback call control package (step S204). Specifically, the call processing message transmission / reception unit 124 of the call processing package (3) uses the information stored in the call control information management table 500 of the call control information storage unit 127 to change the switching source package identifier 503 from the call-back destination call processing. The call control information that is a package is read and transmitted to the call processing message transmission / reception unit 124 of the call processing package (1) that is the call-back destination call processing package.

  The IP address control unit 122 of the return source call control package deletes the global IP address of the return destination call control package from the own call control package (step S205). Specifically, the IP address control unit 122 of the call processing package (3) acquires the global IP address set in the own call processing package from the IP address control unit 122, and is set in the return destination call control package. The global IP address that had been deleted is deleted.

  The call processing message transmission / reception unit 124 of the return source call control package notifies the control message transmission / reception unit 111 of the control device 110 of the completion of the return of the call control information (step S206). Specifically, the call processing message transmission / reception unit 124 of the return source call control package transmits information indicating that the return of the call control information has been completed to the control message transmission / reception unit 111 of the control device 110.

  The control message transmission / reception unit 111 of the control device 110 transmits a global IP address setting and an operation transition request to the call-back package to be switched back (step S207). Specifically, the control message transmission / reception unit 111 of the control device 110 transmits a global IP address setting and an operation transition request to the call control package (1) to be switched back. Note that the global IP address to be set is the global IP address included in the failback instruction from the maintenance device 300.

  The IP address control unit 122 of the call control package of the return destination sets the global IP address included in the return instruction as the IP address of the own call control package. In addition, the call back of the call control package to be switched back is operated (step S208). As a result, the IP address control unit 122 of the call processing package (1) as the return destination can communicate using the global IP address included in the return instruction.

  When the call processing message transmission / reception unit 124 of the call processing package at the return destination completes the operation of the returned call, the call processing message transmission / reception unit 124 notifies the control message transmission / reception unit 111 of the control device 110 of the completion of the return call operation (step S110) S209). Specifically, when the call processing message transmission / reception unit 124 of the call processing package (1) to be switched back detects that the operation of the call that has been switched back is completed, the call processing message transmission / reception unit 111 of the control device 110 Then, a message including information indicating that the returned call has been completed is transmitted.

  Then, the control message transmission / reception unit 111 transmits a message notifying completion of reversion to the maintenance apparatus 300 that has transmitted the reversion instruction (step S210).

  The above is the flow of the package failback process performed by the communication apparatus 100. Due to the success of the package failback process, the communication of the call belonging to the call processing package (3) as the failback source is subsequently performed by the call processing package (1) including the IP address, and the call processing package (3). Quickly returns to normal operation.

  FIG. 9 is a sequence diagram illustrating a flow of processing when the switchback processing is not possible due to call disappearance in the package switchback processing performed by the communication apparatus 100. This sequence is executed when a switchback instruction is transmitted from the maintenance device 300 in a state where the call processing package is switched, and the processing from steps S201 to S203 is the same as the sequence of FIG. Therefore, the explanation is omitted.

  The call processing message transmission / reception unit 124 of the switchback source call control package determines that the call of the switchback destination call control package that is being used is not used. If the IP address is not included in the switching source package IP address 504, a message indicating that the call control information does not need to be switched back is transmitted to the control message transmission / reception unit 111 of the control device 110 (step S220).

  Then, the control message transmission / reception unit 111 transmits a message for notifying the failure of the reversion to the maintenance apparatus 300 that has transmitted the reversion instruction (step S221).

  The above is the flow of processing when switching back is not possible due to call cancellation in package switching back processing. If the call to be switched back no longer exists from the switching destination, there is no target to be switched back, and this can be solved by switching the call processing package at the switch back to operation.

  Next, the incoming call processing in the package switching state will be described with reference to FIG. That is, an incoming call process in a state where the call processing package (1) is in a blocked state and a call that existed before the call processing package (1) is blocked is switched to the call processing package (3) will be described. .

  First, user data of a call specifying the call control package (1) arrives from the opposite device 200 to the switch unit 130 (step S301). Here, the destination IP address included in the user data is the IP address included in the call processing package (1) before switching.

  The switch unit 130 identifies the destination IP address included in the user data (step S302).

  The switch unit 130 distributes the user data to the call processing package having the destination of the IP address, that is, the switching destination call processing package (step S303).

  The user data transmission / reception unit 125 of the switching destination call processing package performs processing for the distributed call (step S304). At this time, the user data transmission / reception unit 125 adds a new call to the call control information management table 500 when it is necessary to create a new call. The user data transmission / reception unit 125 stores information for identifying the call control package to be switched in the switching source package identifier 503, and the global set in the switching control call control package in the switching source package IP address 504. Stores the IP address.

  The above is the flow of incoming call processing in the package switching state. By the incoming call processing in the package switching state, the switched call is processed in the package of the switching destination.

  Next, switching source response call processing in the package switching state will be described with reference to FIG. That is, response processing for an incoming call when the call processing package (1) is in a blocked state and a call that existed before the call processing package (1) is blocked is switched to the call processing package (3). explain.

  The user data transmission / reception unit 125 of the switching destination call processing package acquires information on the switching source package IP address 504 of the corresponding call in the call control management table 50, and transmits the result of executing the processing for the call. (Step S401). That is, by setting the IP address included in the call processing package to be switched for the response source to the user data, it seems to the opposite device 200 that communication with the same IP address continues.

  The user data transmission / reception unit 125 of the switching destination call processing package transmits the result of the processing for the call to the switch unit 130 (step S402).

  The switch unit 130 transmits response user data including the result of executing the process for the call to the opposite device (step S403).

  The above is the flow of the switching source response call processing in the package switching state. By the switching source response call processing in the package switching state, even if the call is switched, it is possible to respond to the opposite device 200 without affecting the switching.

  Next, switching destination call processing in the package switching state will be described with reference to FIG. That is, the switching destination call processing in a state where the call processing package (1) is in the blocked state and the call that existed before the call processing package (1) is blocked is switched to the call processing package (3). A response process for an incoming call processed from before the switching in the package will be described.

  When there is no information on the switching source package IP address 504 of the corresponding call in the call control management table 50, the user data transmission / reception unit 125 of the switching destination call processing package transmits a result of executing the processing for the call. The IP address of the switching destination call processing package is specified as the transmission source (step S501). That is, for the response source to the user data, by setting the IP address included in the call processing package of the switching destination, communication with the same IP address can be continued with respect to the opposite device 200.

  The user data transmitting / receiving unit 125 of the switching destination call processing package transmits the result of the processing for the call to the switch unit 130 (step S502).

  The switch unit 130 transmits response user data including the result of executing the process for the call to the opposite device (step S503).

  The above is the flow of the switching destination call processing in the package switching state. By the switching destination call processing in the package switching state, it is possible to respond to the opposite device 200 without affecting the switching of the call that has not been switched.

  The above is the communication system by the communication apparatus to which the first embodiment according to the present invention is applied. According to the first embodiment, the call control information is transferred to the active call control package after the pre-occlusion and the IP address can be taken over, so that the user who uses the communication system is not affected quickly. It becomes possible to shift to the closed state, and as a result, the replacement and replacement of the package can be quickly performed.

  The present invention is not limited to the first embodiment. The first embodiment described above can be variously modified within the scope of the technical idea of the present invention. For example, in the first embodiment, the communication device includes a plurality of call processing packages. However, the communication device is not limited thereto, and a plurality of call processing packages may be provided in a distributed manner. For example, a call processing package may be configured by server devices that operate independently, and a plurality of server devices may be linked to form a communication device. Thereby, more flexible hardware operation can be realized.

  Further, for example, a plurality of call processing packages may be mounted on one hardware board. In this way, a communication system with high investment efficiency can be realized using a hardware substrate with a high degree of integration.

  The modifications of the above-described embodiment may be applied independently or may be applied in combination with a part.

  In the above, this invention was demonstrated centering on embodiment. In the above embodiment, communication such as the Internet is assumed to be communication using an existing protocol such as HTTP, FTP, SIP, POP, SMTP, TCP / IP, etc. It may be.

DESCRIPTION OF SYMBOLS 1 ... Communication system, 100 ... Communication apparatus, 110 ... Apparatus control part, 120 ... Call control part, 121 ... Call processing package, 130 ... Switch part, 150 ... Network , 200 ... Counter apparatus, 300 ... Maintenance apparatus

Claims (12)

A communication device comprising a plurality of call processing devices having different addresses,
For one of the plurality of call processing devices, a pre-blocking transition unit that shifts to a pre-blocking state that restricts allocation of new calls;
The plurality of call processing devices different from the call processing device transitioned to the pre-blocking state by associating the call included in the call processing device transitioned to the pre-blocking state with the address of the call processing device A transfer unit that transfers to one of
An operation transition unit for operating the transferred call and the address in the transferred call processing device;
A transfer call processing unit for performing communication of the transferred call using the associated address;
A communication apparatus comprising: The communication device according to claim 1, further comprising:
In the transfer process by the transfer unit, an address deletion unit that deletes the address of the call processing device that has transitioned to the pre-blocking state from the call processing device,
A communication apparatus comprising: The communication device according to claim 1, further comprising:
A transfer processing unit for deleting the transferred address from the transferred call processing device when all of the transferred calls are terminated in the call processing device to which the call is transferred by the transfer unit;
A communication apparatus comprising: The communication device according to any one of claims 1 to 3, further comprising:
A switch-back transfer unit that transfers the transferred call and the transferred address operated by the operation transition unit to one of the plurality of call processing devices and operates the transferred call processing device. ,
A communication apparatus comprising: The communication device according to any one of claims 1 to 4,
The transfer unit does not transfer if the transfer destination call processing device cannot accept the transfer,
A communication device. The communication device according to claim 5,
The transfer unit cannot accept the transfer if the call volume included in the transfer destination call processing device and the call volume to be transferred exceed the predetermined call volume. To determine,
A communication device. A communication device control method comprising:
The communication device
A communication device comprising a plurality of call processing devices having different addresses,
For one of the plurality of call processing devices, a pre-occlusion transition step for transitioning to a pre-occlusion state that restricts allocation of new calls;
The plurality of call processing devices different from the call processing device transitioned to the pre-blocking state by associating the call included in the call processing device transitioned to the pre-blocking state with the address of the call processing device A transfer step to transfer to one of the following:
An operation transition step of operating the transferred call and the address in the transferred call processing device;
A transfer call processing step of performing communication of the transferred call using the associated address;
The control method characterized by implementing. The control method according to claim 7, further comprising:
In the transfer process of the transfer step, an address deletion step of deleting the address of the call processing device that has transitioned to the pre-blocking state from the call processing device;
The control method characterized by implementing. The control method according to claim 7 or 8, further comprising:
A transition processing step of deleting the transferred address from the transferred call processing device when all of the transferred calls are terminated in the call processing device to which the call is transferred by the transferring step;
The control method characterized by implementing. The control method according to any one of claims 7 to 9, further comprising:
Switch-back transfer step of transferring the transferred call and the transferred address operated by the operation transition step to one of the plurality of call processing devices and operating the transferred call processing device. ,
The control method characterized by implementing. A control method according to any one of claims 7 to 10, comprising:
In the transfer step, if the transfer destination call processing device cannot accept the transfer, the transfer is not performed.
A control method characterized by that. The control method according to claim 11, comprising:
In the transfer step, the transfer cannot be accepted if the total amount of calls included in the transfer destination call processing device and the amount of calls to be transferred exceeds a predetermined call amount. To determine,
A control method characterized by that.

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