JP6690474B2 - Communication device, communication program, and communication system - Google Patents

Description

  The present invention relates to a communication device, a communication program, and a communication system, and can be applied to, for example, a communication device that accommodates a telephone terminal via a subscriber line and a system including the communication device.

  For example, an access gateway device (hereinafter, also referred to as “AGW”) accommodating a subscriber telephone terminal connected to an analog line or an ISDN line is an SIP (Session) with an SIP server on an IP network. The VoIP service is provided to the accommodated subscriber telephone terminal by transmitting and receiving a call control signal according to a call control protocol such as Initiation Protocol).

  FIG. 2 is a basic call connection sequence diagram between ISDN subscriber terminals connected to a conventional SIP server and AGW.

  The AGWs 2-1 and 2-2 and the SIP server 1 are connected via an IP network. Since voice (RTP stream) communication is performed between the AGWs 2-1 and 2-2, the AGWs 2-1 and 2-2 are IP addresses and ports for transmitting and receiving RTP in the SDP offer answer model defined by RFC3264. Exchange information including numbers, audio codecs, etc.

  Specifically, in FIG. 2, the AGW 2-2 sends the SDP offer (SDP (O)) given to the SIP INVITE to the SIP server 1 (S902), and the SIP server 1 sends the SDP offer (SDP (O). )) Is transmitted to AGW2-1 (S904). When allowing the SDP, the AGW 2-1 adds the SDP answer of the 200 response to the SIP INVITE to the SIP server 1 and transmits the SDP answer to the SIP server 1 (S912), and the SIP server 1 transmits the 200 response to the AGW 2-2 (S913).

  Each of the AGWs 2-1 and 2-2 reads the contents of the SDP received from the other party, and determines which type of codec, which IP address and which port the RTP stream should be transmitted to.

  As described in RFC4566, the contents described in SDP are various, such as the type of IP address, codec, voice packetization period, and non-active voice stream (SDP a = inactive designation of line).

Therefore, for example, in the following cases, the AGW may not allow the received SDP.
(A) The codec of the SDP received by the AGW does not have a codec supported by the AGW. (B) The AGW supports only the packetization period of 20 msec, but the packetization period of the received SDP specifies 10 msec ( a = ptime: 10 is specified by SDP)
(C) The AGW does not support RFC4585, but the received SDP description is a description according to RFC4585, and the AGW fails to read the SDP.

  When the AGW 2-1 detects an error like the above example when receiving the SDP offer (FIG. 3: S920), the AGW 2-1 sends an INVITE error response to the SIP server 1 as shown in FIG. (S921, S922). At this time, the SIP server 1 generally records the status code of the received 488 error response in a call detail information recording unit (CDR: Call Detail Recorder).

  When the AGW 2-2 receives the SDP answer and detects an error like the above example (FIG. 4: S930), after the AGW 2-2 sends an ACK for 200 OK to the SIP server 1 as shown in FIG. (S915), AGW2-2 transmits BYE from AGW2-2, and prompts the call disconnection (S931, S932). At this time, the CDR output by the SIP server 1 is generally the CDR for which the call time is 0 after the call is established once.

JP, 2006-229820, A

  As described above, when the AGW fails to read the SDP, the maintenance person can detect that some abnormality has occurred by looking at the CDR of the SIP server. However, the information recorded in the CDR alone does not explain the reason why the AGW returned an error response or immediately disconnected. This is because, in order to know the reason why the AGW determines that there is an error, it is necessary for the AGW to check the content of the SDP that has been regarded as an error when receiving, and it is necessary to output the content of the SDP to the log when the error is detected. .

  However, since the AGW generally accommodates an ISDN line and an analog line, it is a dedicated hardware device, and its disk size and write / read performance are significantly lower than those of general-purpose server devices such as SIP servers.

  Therefore, when outputting the contents of the SDP as a log to the AGW disk, there is a problem that the disk access is slow, and when the SDP error is detected by multiple calls and the log becomes large, the disk capacity becomes small and the free space becomes small. is there. On the other hand, the SIP server is generally a general-purpose server device, and its disk size and disk write performance are much higher than those of the AGW.

  Therefore, the access gateway apparatus requests the SIP server for log output of information including the reason why the protocol describing the information necessary for establishing a call connection session such as SDP has failed, There is a demand for a communication device, a communication program, and a communication system capable of recording the above information.

  In order to solve such a problem, the communication device according to the first aspect of the present invention is (1) facing each other in a communication device which performs a relay process of a call control signal between a housed telephone terminal and a call control server. Session establishment information judging means for judging the contents of the session establishment information included in the call control signal received from the communication device; and (2) call control when the contents of the session establishment information cannot be judged by the session establishment information judging means. A message creating means for creating a response signal including a request for recording session establishment information to the server; and (3) a communication processing means for sending the response signal created by the message creating means to the call control server. And

  A communication program according to a second aspect of the present invention is a communication program of a communication device that performs a relay process of a call control signal between a housed telephone terminal and a call control server. Session establishment information determining means for determining the content of the session establishment information included in the call control signal received from the call control server, and (2) if the session establishment information determining means cannot determine the content of the session establishment information, the call control server On the other hand, it is characterized by functioning as a message creating means for creating a response signal including a request to record session establishment information and (3) as a communication processing means for sending the response signal created by the message creating means to the call control server. .

  A communication system according to a third aspect of the present invention provides a call control server, call detail information recording means for recording call detail information acquired from the call control server, and a call between the housed telephone terminal and the call control server. A session establishment information determining means for determining the content of the session establishment information included in the call control signal received from the opposite communication device, and the session establishment information. When the content of the session establishment information cannot be determined by the determination means, a message creating means for creating a response signal including a request for recording the session establishment information to the call control server, and a call control for the response signal created by the message creating means It has a communication processing means for transmitting to the server.

  According to the present invention, the access gateway device outputs, to the SIP server, log information including the reason why the protocol describing the information necessary for establishing a call connection session such as SDP fails. Upon request, the above information can be recorded.

1 is an overall configuration diagram showing an overall configuration of a voice communication system according to an embodiment. It is a basic call connection sequence diagram between the ISDN subscriber terminal connected to the conventional SIP server and AGW. FIG. 8 is a sequence diagram when the AGW detects an error in the SDP offer in the conventional call connection process. It is a sequence diagram when AGW detects an error by SDP answer in the conventional call connection process. It is an internal block diagram which shows the internal structure of the access gateway apparatus which concerns on embodiment. It is a sequence diagram which shows the call connection process when the access gateway apparatus which concerns on embodiment detects an error by an SDP offer. It is a block diagram which shows the structure of the log which the SIP server which concerns on embodiment outputs. It is a sequence diagram which shows the call connection process when the access gateway apparatus which concerns on embodiment detects an error by SDP answer.

(A) Main Embodiment Hereinafter, embodiments of a communication device, a communication program, and a communication system according to the present invention will be described in detail with reference to the drawings.

  This embodiment exemplifies a case where the present invention is applied to a voice communication system that employs SIP as a communication protocol for call processing (hereinafter, also referred to as a call control protocol).

  The call control protocol is not limited to SIP. The session description protocol describing the information necessary for call connection is SDP, but is not limited to this. For example, based on the same concept as the present invention, H.264 based on ITU-T was established. It can also be applied to the technology standardized by the H.323 recommendation.

(A-1) Configuration of Embodiment FIG. 1 is an overall configuration diagram showing an overall configuration of a voice communication system according to this embodiment.

  1, a voice communication system 10 according to this embodiment includes a SIP server 1, an access gateway device (AGW) 2, a subscriber terminal 3, and a call detail information recording unit 5.

  In this embodiment, for example, an access gateway device 2 that accommodates a subscriber telephone line 6 such as an analog line or an ISDN line, and a SIP server 1 as a call agent (CA) that performs call control are physically different. The case of a device is illustrated.

  The access gateway device 2 is connected to the SIP server 1 via a network (for example, an IP network) 4 and houses one or a plurality of subscriber terminals 3 via a subscriber telephone line 6. The access gateway device 2 relays a call signal and a control signal between the network 4 and the subscriber telephone line 6. For example, the access gateway device 2 and the subscriber terminal 3 communicate with each other by the protocol of the existing telephone system. The access gateway device 2 and the SIP server 1 communicate with each other by SIP.

  When an error occurs in reading the SDP (Session Description Protocol) received from the opposite access gateway device 2 when the call is established for the accommodated subscriber terminal 3, the access gateway device 2 causes the read error to occur in the SDP. Create a SIP message containing the contents of Then, the access gateway device 2 transmits a SIP message including the contents of the SDP in which the read error has occurred to the SIP server 1.

  The SIP server 1 performs call control in order to establish a call between a telephone terminal of a caller and a telephone terminal of a callee according to SIP. The SIP server 1 generally holds the content of the SIP message transmitted / received before the session starts in association with the call identification information (for example, Call-ID).

  Further, the SIP server 1 is connected to the call detail information recording unit 5 and records each call detail information in the call detail information recording unit 5. In the case where the SIP server 1 receives the Log Request (more specifically, “Log Request: SDP” that requests to log out the SDP content) in the header information of the SIP message received from the access gateway device 2, The content of the corresponding SDP is searched based on the call identification information (for example, Call-ID) for identifying the call, and the content of the SDP is recorded in the call detail information recording unit 5.

  The call detail information recording unit 5 is connected to the SIP server 1 and records call detail information for each session. The call detail information recording unit 5 uses, for example, the address information of the sender of the SIP message, the address information of the destination of the SIP message, and the call identification information (for example, Call-ID) as keys, and associates these keys with each other to relate to the call. Record detailed information.

  FIG. 5 is an internal configuration diagram showing an internal configuration of the access gateway device 2 according to the embodiment.

  5, the access gateway device 2 includes a control unit 20, a subscriber side interface unit 21, a network side interface unit 22, a communication processing unit 23, and a storage unit 24.

  The subscriber-side interface unit 21 is connected to the subscriber telephone line 6 and exchanges signals with the subscriber terminal 3.

  The network side interface unit 22 is connected to the network 4 and transmits / receives a packet including a SIP message to / from the SIP server 1.

  The control unit 20 is a processing unit or device that controls the function of the access gateway device 2. Although the hardware configuration of the control unit 20 is not shown, the control unit 20 includes, for example, a CPU, a ROM, a RAM, an EEPROM, an input / output interface, and the like. Then, the CPU realizes the communication processing by executing the processing program (communication program) stored in the ROM.

  When the accommodated subscriber terminal 3 is the originator, the control unit 20 converts the dialed signal input from the subscriber terminal 3 into a destination number to create an INVITE message. When the accommodated subscriber terminal 3 is the destination, the control unit 20 identifies the destination dial number based on the information included in the SIP message from the SIP server 1, and the subscriber terminal 3 Send a call signal to.

  As shown in FIG. 2, the control unit 20 has an SDP determining unit 201 and a message creating unit 202.

  The SDP judging unit 201 judges the contents described in the SDP included in the received SIP message.

  Here, the SIP message is configured to have header information and a body portion, like HTTP, and in the case of voice communication, generally, in the body portion of the SIP message, an IP address, a codec type, Information about the packetization period of voice, non-active voice stream, and the like is described in SDP.

  Then, the SDP judging unit 201 judges the contents described in the body portion of the SIP message, and judges whether or not voice communication is possible with the opposite access gateway device 2. More specifically, the SDP determining unit 201 determines whether the codec specified by the received SDP is a codec that can be supported by the access gateway device 2 itself, or the packetization cycle specified by the received SDP. Whether it can be supported by itself or can read the received SDP description (for example, when the access gateway device 2 itself does not support the SDP description according to RFC 4585, but the received SDP complies with RFC 4585). Etc.

  The message creating unit 202 creates a SIP message according to SIP basically for call connection. In this embodiment, in particular, the message creating unit 202 creates the SIP message in accordance with the result of the determination by the SDP determining unit 201 of the content described in the SDP.

  That is, the message creating unit 202 defines, as an extension header of the SIP message, a LogRequest header that means requesting the SIP server 1 to output a log to the call detail information recording unit 5. When an error is detected by reading SDP or the like, the message creating unit 202 sets an SDP parameter, which means a request to write the contents of SDP in a log, in the LogRequest header.

  More specifically, when the SDP determination unit 201 detects a read error such as not being able to accept the contents described in the SDP, or being unable to read the contents of the SDP because the rules of the SDP description method are different, In order to record the SDP contents in the call detail information recording unit 5 (to log the SDP contents), the message creating unit 202 indicates that the SIP server 1 records the SDP contents in the error response message to the received SIP message. Create a message with the LogRequest header added to the request. This allows the SIP server 1 to record the contents of the SDP in which an error has occurred in the access gateway device 2 in the call detail information recording unit 5 as a log.

  Under the control of the control unit 20, the communication processing unit 23 transmits / receives SIP messages via the network side interface unit 22 and transmits / receives signals via the subscriber side interface unit 21. .

  The storage unit 24 stores a conversion table for specifying the telephone number of the subscriber terminal 3 to be accommodated, and information regarding call connection such as codec type and packetization period.

(A-2) Operation of Embodiment Next, the operation of the call connection process in the voice communication system 10 of this embodiment will be described with reference to the drawings.

  FIG. 6 is a sequence diagram showing a call connection process when the access gateway device 2 according to the embodiment detects an error in the SDP offer.

  In FIG. 6, the subscriber terminal 3-2, which is an ISDN terminal, is the originator, and the subscriber terminal 3-1, which is an ISDN terminal, is the recipient.

  First, in the subscriber terminal 3-2, which is the sender, the user goes off-hook to enter the destination number, and a SETUP message, which is a call setup request, is transmitted from the subscriber terminal 3-2 to the access gateway device 2 ( S101).

  In the AGW 2-2, the message creating unit 202 refers to the storage unit 24 and identifies the VoIP number (for example, IP address) that identifies the calling number included in the SETUP message from the subscriber terminal 3-2. Further, the message creating unit 202 sets the specified VoIP number as the calling number and the called number included in the SETUP message as the called number. Further, the message creating unit 202 stores, from the storage unit 24, an INVITE message (INVITE w SDP (ODP) in which the body part of the SIP message describes the codec type, the packetization period, etc., that the AGW 2-2 itself can support. ) Message) and sends it to the SIP server 1 (S102). Further, the access gateway device 1 transmits a CALL PROC message indicating the call processing to the subscriber terminal 3-2 (S103).

  The SIP server 1 transmits the INVITE message (INVITE w SDP (O) message) received from the AGW 2-2 to the AGW 2-1 (S104).

  In AGW2-1, the SDP determination unit 201 determines the content of the SDP offer included in the received INVITE message. At this time, the SDP determination unit 201 determines that there is a problem in the content of the received SDP offer (S105).

  In the AGW 2-1, when the SDP determination unit 201 determines that there is a problem with SDP, the SIP server 1 can output the contents of SDP as a log, and therefore the message creation unit 202 causes the message creation unit 202 to output a 488 error response message to the INVITE message. "LogRequest: SDP" is set in the field and is transmitted to the SIP server 1 (S106). At this time, the message creation unit 202 describes the Call-ID value that identifies the call in the header information of the 488 response error message.

  When the SIP server 1 receives the 488 error response message to which “LogRequest: SDP” is added from the AGW 2-1, the SIP server 1 retransmits it based on the Call-ID included in the header of the 488 error response message. The contents of the SDP offer stored for the purpose of reading are read out, and as shown in FIG. 7, the Call-ID and the contents of the SDP offer are associated with each other and output (recorded) as a log to the call detail information recording unit 5. (S107).

  Then, the SIP server 1 transmits the 488 response error message received from the AGW 2-1 to the AGW 2-2 (S108). Also, the AGW 2-2 transmits a RELCOMP message indicating the line release to the subscriber terminal 3-2 (S109).

  Next, the operation of the call connection process when the access gateway device 2 detects an error in the received SDP answer will be described with reference to FIG.

  FIG. 8 is a sequence diagram showing a call connection process when the access gateway device 2 according to the embodiment detects an error in the SDP answer.

  First, in the subscriber terminal 3-2, which is the sender, the user goes off-hook to enter the destination number, and a SETUP message, which is a call setup request, is transmitted from the subscriber terminal 3-2 to the access gateway device 2 ( S201).

  In the AGW 2-2, the message creating unit 202 refers to the storage unit 24 and identifies the VoIP number (for example, IP address) that identifies the calling number included in the SETUP message from the subscriber terminal 3-2. Further, the message creating unit 202 sets the specified VoIP number as the calling number and the called number included in the SETUP message as the called number. Further, the message creating unit 202 stores, from the storage unit 24, an INVITE message (INVITE w SDP (ODP) in which the body part of the SIP message describes the codec type, the packetization period, etc., that the AGW 2-2 itself can support. ) Message) and send it to the SIP server 1 (S202). Further, the access gateway device 1 transmits a CALL PROC message indicating that the call processing is performed to the subscriber terminal 3-2 (S203).

  The SIP server 1 transmits the INVITE message (INVITE w SDP (O) message) received from the AGW 2-2 to the AGW 2-1 (S204).

  In the AGW2-1, the control unit 20 identifies the line accommodated by the AGW2-1 based on the called number included in the received INVITE message (INVITE w SDP (O) message), and the subscriber A call request (SETUP message) is issued to the terminal 3-1 (S205).

  The subscriber terminal 3-1 transmits a CALLPROC message indicating that the call is being processed to the AGW 2-1 (S206), and transmits an ALERT message indicating that the call is being performed to the AGW 2-1 (S207).

  The AGW 2-1 sends a 180 Ringing message to the SIP server 1 via the SIP server 1 to notify that it is calling (S208, S209), and the AGW 2-2 notifies the subscriber terminal 3 -2 to the ALERT message (S210).

  Then, when the subscriber terminal 3-1 goes off-hook, a CONNECT message is transmitted from the subscriber terminal 3-1 to the AGW 2-1 (S211).

  In AGW2-1, the message creation unit 202 creates a 200OK message (200OK w SDP (A) message) for the INVITE message and sends it to the SIP server 1 (S212). Moreover, the SIP server 1 transmits the 200OK message (200OK w SDP (A) message) from the AGW 2-1 to the AGW 2-2 (S213).

  In the AGW 2-2, the control unit 20 analyzes the 200OK message (200OK w SDP (A) message) received, but the SDP error detection unit 201 fails to read the SDP included in the 200OK message, and the SDP contents are changed. It is assumed that a problem is detected (S214). For example, there is a problem that the AGW 2-1 does not support RFC 4585, and the SDP answer received by the AGW 2-2 cannot be read.

  In this case, in the AGW 2-2, the message creating unit 202 adds “LogRequest: SDP” to the header of the ACK message for the received 200OK message, and sends the ACK message with “LogRequest: SDP” to the SIP server 1 (S215). Also, the AGW 2-2 transmits a RELCOMP message indicating the line release to the subscriber terminal 3-2 (S216).

  The SIP server 1 reads out the content of the SDP answer held by the SIP server 1 for retransmission based on the Call-ID included in the ACK message received from the AGW 2-2, and as illustrated in FIG. The value of the Call-ID header and the content of the SDP answer are associated and recorded in the call detail information recording unit 5 (S217).

  Then, the SIP server 1 transmits the ACK message received from the AGW 2-2 to the AGW 2-1 (S218).

  After that, the AGW 2-2 transmits a BYE message to the SIP server 1 (S219), and the SIP server 1 transmits the received BYE message to the AGW 2-1 (S220).

(A-3) Effects of the Embodiment As described above, according to this embodiment, when the AGW detects an SDP read error, a LogRequest header indicating a request to output to a log is added to the response message of the SIP message. By doing so, the contents of the SDP requested by the AGW can be output (recorded) to the SIP server in the call detail information recording unit.

  Further, according to this embodiment, the AGW causes the SIP server to output the contents of the SDP as a log, so that the disk access and the log capacity of the AGW, which is a dedicated hardware device, can be reduced.

(B) Other Embodiments Although various modified embodiments have been mentioned in the above-described embodiments, the following modified embodiments can also be applied to the present invention.

  (B-1) In the present invention, since the AGW is a dedicated hardware device and the disk size is small, in order to detect a log early when an SDP error is detected, a SIP response or ACK is required when the AGW needs the log. Is characterized in that the SIP server side outputs the log required by the AGW by adding a header for requesting log output.

  (B-2) In the above-described embodiment, the case where the SDP log is output by the SIP server is illustrated. There is a case where information other than SDP (for example, ISUP signal) is put on the body part of SIP. In that case, when the AGW requests the log output of the ISUP signal, by specifying ISUP in the LogRequest header of the first embodiment, the SIP server side can output the contents of ISUP instead of SDP to the log. Is. That is, the session establishment information described in the claims is not limited to the information described in SDP, and includes, for example, ISUP signal information.

  (B-3) Further, in the above-described embodiment, the AGW is taken as an example, but the device for reading the SDP is not limited to the AGW, but may be the MS or the IBCF-TrGW device. In the case where these communication devices are dedicated hardware devices, when these communication devices detect an SDP error, the LogRequest header is included in the SIP response or ACK as in the above-described embodiment, so that the general-purpose server device It is possible to output the log with the SIP server. That is, the communication device described in the claims is not limited to the AGW, but can be widely applied as long as it is a device that reads the contents of session establishment information such as SDP.

10 ... Voice communication system, 1 ... SIP server, 2 (2-1, 2-2) ... Access gateway device (AGW), 3 (3-1, 3-2) ... Subscriber terminal, 5 ... Call detail information record Department,
20 ... Control part, 21 ... Subscriber side interface part, 22 ... Network side interface part, 23 ... Communication processing part, 24 ... Storage part, 201 ... SDP error detection part, 202 ... Message creation part.

Claims (5)

In a communication device for relaying a call control signal between a housed telephone terminal and a call control server,
Session establishment information determining means for determining the content of the session establishment information included in the call control signal received from the opposite communication device,
Message creating means for creating a response signal including a request to record the session establishment information to the call control server when the content of the session establishment information cannot be determined by the session establishment information determining means,
Communication processing means for transmitting the response signal created by the message creating means to the call control server.   2. The session establishment information determining means determines whether or not the content of the designated session establishment information is acceptable, based on the session establishment information included in the call control signal. Communication device.   3. The communication device according to claim 1, wherein the session establishment information determining means determines whether or not the session establishment information included in the call control signal can be read. In a communication program of a communication device for relaying a call control signal between a housed telephone terminal and a call control server,
Computer,
Session establishment information determining means for determining the content of the session establishment information included in the call control signal received from the opposite communication device,
Message creating means for creating a response signal including a request to record the session establishment information to the call control server when the content of the session establishment information cannot be determined by the session establishment information determining means,
A communication program which functions as communication processing means for transmitting the response signal created by the message creating means to the call control server. A call control server,
Call detail information recording means for recording the call detail information acquired from the call control server,
A communication device for relaying a call control signal between the accommodated telephone terminal and the call control server,
The communication device is
Session establishment information determining means for determining the content of the session establishment information included in the call control signal received from the opposite communication device,
Message creating means for creating a response signal including a request to record the session establishment information to the call control server when the content of the session establishment information cannot be determined by the session establishment information determining means,
Communication processing means for transmitting the response signal created by the message creating means to the call control server.

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