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Fields With Sub-fields. Some fields are defined as having sub-fields (for example, Access Transfer Specific Data or Redirection Feature Specific Data). The field could be empty if no information is available, so when decoding the field you should check for zero content. If there are sub-fields present, then the field will contain double quotes with a number of commas dependent on the number of sub-fields being printed.

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The SBC generates timestamps in the local time format in the ACT files for any of the fields that were previously in the GMT time format.

Accounting Records Summary Table

The following table lists the 

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 Accounting Records. Click the field name to view the description.

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Caption 0 Table 1 Accounting Records Summary for Call-Specific records Field name ASCII Accounting Max ASCII Length Type Record Number START STOP ATTEMPT INTERMEDIATE START 5 Characters  1 N/A N/A N/A STOP 4 Characters N/A 1 N/A N/A ATTEMPT 7 Characters N/A N/A 1 N/A INTERMEDIATE 12 Characters N/A N/A N/A 1 Gateway Name 23 Characters 2 2 2 2 Accounting ID 18 64-Bit Hex 3 3 3 3 Start Time in System Ticks 10 Decimal 4 4 4 4 Node Time Zone 23 Characters 5 5 5 5 Start Time (Date) 10 mm/dd/yyyy 6 6 6 6 Start Time (Time) 10 hh:mm:ss.d 7 7 7 7 Time Elapsed from Receipt of Setup Message to Policy Server/SoftSwitch Response 10 Decimal 8 8 8 8 Time Elapsed from Receipt of Setup Message to Receipt of Alerting/ProcProg 10 Decimal 9 9 9 N/A Time Elapsed from Receipt of Setup Message to Service Established 10 Decimal 10 10 N/A 9 Intermediate Time (Date) 10 mm/dd/yyyy N/A N/A N/A 10 Intermediate Time (Time) 10 hh:mm:ss.d N/A N/A N/A 11 Disconnect Time (Date) 10 mm/dd/yyyy N/A 11 105 N/A Disconnect Time (Time) 10 hh:mm:ss.d N/A 12 10 N/A Time Elapsed from Receipt of Disconnect to Completion of Call 10 Decimal N/A 13 11 N/A Call Service Duration 10 Decimal N/A 14 N/A 12 Call Disconnect Reason 3 Decimal N/A 15 12 N/A Service Delivered 22 Characters 11 16 13 13 Call Direction 12 Characters 12 17 14 14 Service Provider 23 Characters 13 18 15 15 Transit Network Selection Code 5 Characters 14 19 16 16 Calling Number 30 Characters 15 20 17 17 Called Number 30 Characters 16 21 18 18 Extra Called Address Digits 30 Characters 17 22 19 19 Number of Called Num Translations Done by This Node 1 Decimal 18 23 20 20 Called Number Before Translation #1 30 Characters 19 24 21 21 Translation Type 1 1 Decimal 20 25 22 22 Called Number Before Translation #2 30 Characters 21 26 23 23 Translation Type 2 1 Decimal 22 27 24 24 Billing Number 30 Characters 23 28 25 25 Route Label 23 Characters 24 29 26 26 Route Attempt Number 5 Decimal 25 30 27 27 Route Selected 63 Characters 26 31 28 28 Egress Local Gateway Signaling IP Address 39 Dotted Decimal 27 32 29 29 Egress Remote Gateway Signaling IP Address 39 Dotted Decimal 28 33 30 30 Ingress Trunk Group Name 23 Characters 29 34 31 31 Ingress PSTN Circuit End Point 38 Characters 30 35 32 32 Ingress IP Circuit End Point 91 Characters 31 36 33 33 Egress PSTN Circuit End Point 38 Characters 32 37 34 34 Egress IP Circuit End Point 91 Characters 33 38 35 35 Ingress Number of Audio Bytes Sent 20 Decimal N/A 39 N/A N/A Ingress Number of Audio Packets Sent 20 Decimal N/A 40 N/A N/A Ingress Number of Audio Bytes Received 20 Decimal N/A 41 N/A N/A Ingress Number of Audio Packets Received 20 Decimal N/A 42 N/A N/A Originating Line Information (OLIP) 3 Decimal 34 43 36 54 Jurisdiction Information Parameter 15 Characters 35 44 37 55 Carrier Code 5 Characters 36 45 38 36 Call Group ID 10 32-Bit Hex 37 46 39 37 Script Log Data 95 Characters 47 40 Time Elapsed from Receipt of Setup Message to Receipt of Exit Message 10 Decimal 38 48 41 95 Time Elapsed from Receipt of Setup Message to Generation of Exit Message 10 Decimal 39 49 42 96 Calling Party Nature of Address 3 Decimal 40 50 43 56 Called Party Nature of Address 3 Decimal 41 51 44 57 Ingress Protocol Variant Specific Data 4794 Characters 42 52 45 38 Ingress Signaling Type 2 Decimal 43 53 46 39 Egress Signaling Type 2 Decimal 44 54 47 40 Ingress Far End Switch Type 1 Decimal 45 55 48 41 Egress Far End Switch Type 1 Decimal 46 56 49 42 Far End Ingress TG Carrier Code 5 Characters 47 57 50 43 Far End Egress TG Carrier Code 5 Characters 48 58 51 44 Calling Party Category 4 8 Bit Hex 49 59 52 45 Dialed Number 30 Characters 50 60 53 46 Carrier Selection Information 1 Decimal 51 61 54 47 Called Number Numbering Plan 2 Decimal 52 62 55 48 Generic Address Parameter 30 Characters 53 63 56 49 Disconnect Initiator 1 Decimal N/A 64 57 N/A Ingress Number of Packets Recorded as Lost 10 Decimal N/A 65 N/A N/A Ingress Interarrival Packet Jitter 5 Decimal N/A 66 N/A N/A Ingress Last Measurement for Latency 5 Decimal N/A 67 N/A N/A Egress Trunk Group Name 23 Characters 54 68 58 50 Egress Protocol Variant Specific Data 4794 Characters 55 69 59 51 Incoming Calling Number 30 Characters 56 70 60 52 Intermediate Record Reason 1 Decimal N/A N/A N/A 53 AMA Call Type 3 Characters 57 71 61 58 Message Billing Index (MBI) 3 Characters 58 72 62 59 Originating LATA 3 Characters 59 73 63 60 Route Index Used 2 Decimal 60 74 64 Calling Party Number Presentation Restriction 1 Decimal 61 75 65 61 Incoming ISUP Charge Number 30 Characters 62 76 66 62 Incoming ISUP Charge Number NOA 3 Decimal 63 77 67 63 Dialed Number NOA 3 Decimal 64 78 68 64 Ingress Codec Type 6 String N/A 79 69 N/A Egress Codec Type 6 String N/A 80 70 N/A Ingress RTP Packetization Time 3 Decimal N/A 81 71 N/A SBC Call ID 10 32 Bit Hex 65 82 72 65 Terminated with Script Execution 1 Boolean N/A N/A 73 N/A Originator Echo Cancellation 1 Decimal N/A 83 74 N/A Terminator Echo Cancellation 1 Decimal N/A 84 75 N/A Charge Flag 1 Decimal 66 85 76 66 AMA Service Logic Identification 9 Characters 67 86 77 67 AMA BAF Module 256 Characters 68 87 78 68 AMA Set Hex AB Indication 1 Boolean 69 88 79 69 Service Feature ID 3 Characters 70 89 80 70 FE Parameter 22 Hex (10 bytes) 71 90 81 71 Satellite Indicator 1 Decimal 72 91 82 72 PSX Billing Information 256 Hex (128 bytes) 73 92 83 73 Originating TDM Trunk Group Type 1 Decimal 74 93 84 74 Terminating TDM Trunk Group Type 1 Decimal 75 94 85 75 Ingress Trunk Member Number 5 Decimal 76 95 86 76 Egress Trunk Group ID 12 Decimal 77 96 87 77 Egress Switch ID 8 Decimal 78 97 88 78 Ingress Local ATM Address 0 Reserved 79 98 89 79 Ingress Remote ATM Address 0 Reserved 80 99 90 80 Egress Local ATM Address 0 Reserved 81 100 91 81 Egress Remote ATM Address 0 Reserved 82 101 92 82 Policy Response Call Type 4 Decimal 83 102 93 83 Outgoing Route Identification 5 Decimal 84 103 94 84 Outgoing Message Identification 1 Decimal 85 104 95 85 Incoming Route Identification 5 Decimal 86 105 96 86 Calling Name 25 Characters 87 106 97 87 Calling Name Type 1 Decimal 88 107 98 88 Incoming Calling Party Numbering Plan 2 Decimal 89 108 99 89 Outgoing Calling Party Numbering Plan 2 Decimal 90 109 100 90 Calling Party Business Group ID 10 Decimal 91 110 101 91 Called Party Business Group ID 10 Decimal 92 111 102 92 Calling Party Public Presence Directory Number 30 Characters 93 112 103 93 Elapsed Time from Receipt of Setup Message to Last Call Routing Attempt  10 Decimal (10 ms ticks) 94 113 104 94 Billing Number NOA 3 Decimal 95 114 106 97 Incoming Calling Number NOA 3 Decimal 96 115 107 98 Egress Trunk Member Number 5 Decimal 97 116 108 99 Selected Route Type 1 Decimal 98 117 109 100 Telcordia Long Duration Record Type 1 Decimal N/A 118 N/A 101 Time Elapsed from Previous Record 10 Decimal (10 ms ticks) 119 102 Cumulative Route Index 5 Decimal 99 120 110 N/A Call Disconnect Reason Transmitted to Ingress 3 Decimal N/A 121 111 N/A Call Disconnect Reason Transmitted to Egress 3 Decimal N/A 122 112 N/A ISDN PRI Calling Party Subaddress 30 Characters 100 123 113 103 Outgoing Trunk Group Number in EXM 6 Decimal 101 124 114 104 Ingress Local Gateway Signaling IP Address 39 Dotted Decimal 102 125 115 105 Ingress Remote Gateway Signaling IP Address 39 Dotted Decimal 103 126 116 106 Record Sequence Number 10 Decimal 104 127 117 107 Transmission Medium Requirement (TMR) 3 Decimal 105 128 118 108 Information Transfer Rate (ITR) 2 Decimal 106 129 119 109 User Service Information (USI) User Information Layer 1 2 Decimal 107 130 120 110 Unrecognized Raw ISUP Calling Party Category 3 Decimal 108 131 121 111 Egress RLT Feature Specific Data 598 Characters 109 132 122 112 Two B-Channel Transfer Feature Specific Data 72 Characters 110 133 123 113 Calling Party Business Unit 10 Decimal 111 134 124 114 Called Party Business Unit 10 Decimal 112 135 125 115 Redirection Feature Specific Data 123 Characters 113 136 126 116 Ingress RLT Feature Specific Data 598 Characters 114 137 127 117 PSX Index 2 Decimal 115 138 128 118 PSX Congestion Level 1 Decimal 116 139 129 119 PSX Processing Time 5 Decimal 117 140 130 120 Script Name 23 Characters 118 141 131 121 Ingress External Accounting Data 128 Characters 119 142 132 122 Egress External Accounting Data 128 Characters 120 143 133 123 Egress RTP Packetization Time 3 Decimal N/A 144 134 N/A Egress Number of Audio Bytes Sent 20 Decimal N/A 145 N/A N/A Egress Number of Audio Packets Sent 20 Decimal N/A 146 N/A N/A Egress Number of Audio Bytes Received 20 Decimal N/A 147 N/A N/A Egress Number of Audio Packets Received 20 Decimal N/A 148 N/A N/A Egress Number of Packets Recorded as Lost 10 Decimal N/A 149 N/A N/A Egress Interarrival Packet Jitter 5 Decimal N/A 150 N/A N/A Egress Last Measurement for Latency 5 Decimal N/A 151 N/A N/A Ingress Maximum Packet Outage 10 Decimal N/A 152 N/A N/A Egress Maximum Packet Outage 10 Decimal N/A 153 N/A N/A Ingress Packet Playout Buffer Quality 16 Hexadecimal N/A 154 N/A N/A Egress Packet Playout Buffer Quality 16 Hexadecimal N/A 155 N/A N/A Answer Supervision Type 1 Decimal 121 156 135 124 Ingress SIP REFER and Replaces Feature Specific Data 70 Characters 122 157 136 125 Egress SIP REFER and Replaces Feature Specific Data 70 Characters 123 158 137 126 Network Transfer Feature Specific Data 54 Characters 124 159 138 127 Call Condition 2 Decimal 125 160 139 128 Toll Indicator 2 Decimal 126 161 140 129 Generic Number (Number) 30 Characters 127 162 141 130 Generic Number (Presentation Restriction Indicator) 1 Decimal 128 163 142 131 Generic Number (Numbering Plan) 2 Decimal 129 164 143 132 Generic Number (Nature of Address) 3 Decimal 130 165 144 133 Generic Number (Type) 2 Decimal 131 166 145 134 Final ATTEMPT Indicator 1 Decimal 146 Originating Trunk Type 2 Hexadecimal 132 167 147 135 Terminating Trunk Type 2 Hexadecimal 133 168 148 136 Remote SBC Billing Indicator 1 Decimal 150 169 149 153 Extra Disconnect Reason 4 Decimal N/A N/A 150 N/A VPN Calling Private Presence Number 30 Characters 134 170 151 137 VPN Calling Public Presence Number 30 Characters 135 171 152 138 External Furnish Charging Info 800 Hexadecimal 136 172 153 139 Ingress Policing Discards 20 Decimal N/A 173 N/A N/A Egress Policing Discards 20 Decimal N/A 174 N/A N/A Announcement ID 5 Decimal 137 175 154 140 Source Information 2 Decimal 138 176 155 141 Partition ID 4 Decimal 139 177 156 142 Network ID 5 Decimal 140 178 157 143 NCOS 5 Decimal 141 179 158 144 Ingress SRTP 7 String N/A 180 N/A N/A Egress SRTP 7 String N/A 181 N/A N/A ISDN Access Indicator from the Forward Call Indicator 1 Decimal 142 182 159 145 Call Disconnect Location 2 Decimal N/A 183 160 N/A Call Disconnect Location Transmitted to Ingress 2 Decimal N/A 184 161 N/A Call Disconnect Location Transmitted to Egress 2 Decimal N/A 185 162 N/A Network Call Reference - Call Identity 8 Decimal 143 186 163 146 Network Call Reference - Signaling Point Code 5 Decimal 144 187 164 147 Ingress ISUP MIME Protocol Variant Specific Data 4783 Characters 145 188 165 148 Egress ISUP MIME Protocol Variant Specific Data 4783 Characters 146 189 166 149 Modem Tone Type 1 Decimal N/A 190 N/A N/A Modem Tone Signal Level 2 Decimal N/A 191 N/A N/A Video Codec Data 512 Characters 147 192 167 150 Video Codec Statistics 512 Characters 193 SVS Customer 4 Decimal 148 194 168 151 SVS Vendor (deprecated) 0 Decimal 149 195 169 152 Call to Test PSX 1 BOOLEAN 151 196 170 154 PSX Overlap Route Requests 2 Decimal 152 197 171 155 Call Setup Delay 21 Characters 153 198 172 N/A Overload Status 3 Decimal 154 199 173 N/A RESERVED (Ingress Bicc Info) 36 Character 155 200 174 156 RESERVED (Egress Bicc Info) 36 Character 156 201 175 157 Ingress DSP Data 4 Hexadecimal N/A 202 N/A N/A Egress DSP Data 4 Hexadecimal N/A 203 N/A N/A Call Recorded Indicator 3 String N/A 204 N/A N/A Call Recorded RTP Tx IP Address 39 Character N/A 205 N/A N/A Call Recorded RTP Tx Port Number 5 Decimal N/A 206 N/A N/A Call Recorded RTP Rv IP Address 39 Character N/A 207 N/A N/A Call Recorded RTP Rv Port Number 5 Decimal N/A 208 N/A N/A MLPP Precedence Level 1 Decimal 157 209 176 158 RESERVED (MSRP Service Type) 1 Decimal 158 210 177 N/A RESERVED (NPUKK Special Routing Information) 4 8 bit Hex 159 211 178 159 RESERVED (NPUKK Customer Or Carrier Identification) 5 Decimal 160 212 179 160 RESERVED (NPUKK ServiceType Identifier) 3 Decimal 161 213 180 161 RESERVED (NPSSP Special Handling Information) 4 8 bit Hex 162 214 181 162 RESERVED (NPSSP Service Type Identifier) 3 Decimal 163 215 182 163 RESERVED (Total  ITX Charge Units) 5 Decimal N/A 216 N/A 164 RESERVED (ONI Str) 16 Characters 164 N/A 183 N/A RESERVED (Suppress ONI) 1 Decimal 165 N/A 184 N/A Global Charge Reference (GCR) 40 Characters 166 217 185 165 RESERVED (3xx Contact Information) 1301 Characters N/A N/A 186 N/A RESERVED (IP Call Limit at ingress SIP Peer) 1 Decimal 167 218 N/A N/A RESERVED (IP Call Limit at ingress IPTG) 1 Decimal 168 219 N/A N/A RESERVED (IP BW Limit at ingress IPTG) 1 Decimal 169 220 N/A N/A RESERVED (IP Call Limit at egress SIP Peer) 1 Decimal 170 221 N/A N/A RESERVED (IP Call Limit at egress IPTG) 1 Decimal 171 222 N/A N/A RESERVED (IP BW Limit at egress IPTG) 1 Decimal 172 223 N/A N/A RESERVED (PSX Name) 24 Characters 173 224 187 166 RESERVED (No. of PSX tried) 4 Decimal 174 225 188 167 Ingress Inbound R-Factor 2 Decimal N/A 226 N/A N/A Ingress Outbound R-Factor 2 Decimal N/A 227 N/A N/A Egress Inbound R-Factor 2 Decimal N/A 228 N/A N/A Egress Outbound R-Factor 2 Decimal N/A 229 N/A N/A Media Stream Data 2944 (includes double quotes at begin/end) Characters N/A 230 N/A N/A Media Stream Stats 1414 Characters N/A 231 N/A N/A Transcode Indicator 1 Boolean N/A 232 N/A N/A HD Codec Rate 2 Decimal N/A 233 N/A N/A Remote Ingress Audio RTCP Learned Metrics 1024 String N/A 234 N/A N/A Remote Egress Audio RTCP Learned Metrics 1024 String N/A 235 N/A N/A RESERVED (Final Route Label) 23 Characters 175 236 189 168 MTA Information 49 Characters 176 237 190 169 VBR Common Billing Data 256 Characters N/A 238 191 N/A VBR Route Billing Data 256 Characters N/A 239 192 N/A Access Network Charging Information 130 Characters 177 245 196 170 Access Transfer Specific Data 96 (includes double quotes at begin/end) Characters 178 240 193 171 Emergency Indicator 1 Boolean 179 241 194 172 Ingress Dtls-Srtp: Dtls-Srtp status info 1 Digit N/A 242 N/A N/A Egress Dtls-Srtp: Dtls-Srtp status info 1 Digit N/A 243 N/A N/A UE Roaming Status 1 Decimal 180 244 195 173 Ingress Signaled Session Bandwidth in kbps 6 Decimal N/A 246 N/A N/A Ingress Rx Computed Session Bandwidth in kbps 6 Decimal N/A 247 N/A N/A Ingress Tx Computed Session Bandwidth in kbps  6 Decimal N/A 248 N/A N/A Ingress Configured Bandwidth Reduction Factor 2 Decimal N/A 249 N/A N/A Ingress Estimated Bandwidth Reduction Factor 2 Decimal N/A 250 N/A N/A Egress Signaled Session Bandwidth in kbps 6 Decimal N/A 251 N/A N/A Egress Rx Computed Session Bandwidth in kbps 6 Decimal N/A 252 N/A N/A Egress Tx Computed Session Bandwidth in kbps 6 Decimal N/A 253 N/A N/A Egress Configured Bandwidth Reduction Factor 2 Decimal N/A 254 N/A N/A Egress Estimated Bandwidth Reduction Factor 2 Decimal N/A 255 N/A N/A Additional Media Stream Statistics 222 (includes double quotes at begin/end) String N/A 256 202 N/A Ingress Zone Name 23 String 181 257 197 174 Egress Zone Name 23 String 182 258 198 175 Ingress Zone Id 6 Decimal 183 259 199 176 Egress Zone Id 6 Decimal 184 260 200 177 Video Cac 15 String N/A 261 N/A N/A Ingress IP Prefix Found TG Name 24 String 185 262 201 178 Transcode Resource Type 4 String N/A 263 N/A N/A MRF Information 47 (includes double quotes at begin/end) String N/A 264 N/A N/A Forking Call Parent GCID 10 32 bit Hex 186 265 203 N/A Call Recorder 1 RTP Tx Ip address 39 Characters N/A 266 N/A N/A Call Recorder 1 RTP Tx Port Number 5 Decimal N/A 267 N/A N/A Call Recorder 1 RTP Rx IP address 39 Characters N/A 268 N/A N/A Call Recorder 1 RTP Rx Port Number 5 Decimal N/A 269 N/A N/A Call Recorder 2 RTP Tx Ip address 39 Characters N/A 270 N/A N/A Call Recorder 2 RTP Tx Port Number 5 Decimal N/A 271 N/A N/A Call Recorder 2 RTP Rx IP address 39 Characters N/A 272 N/A N/A Call Recorder 2 RTP Rx Port Number 5 Decimal N/A 273 N/A N/A Call Recorder 3 RTP Tx Ip address 39 Characters N/A 274 N/A N/A Call Recorder 3 RTP Tx Port Number 5 Decimal N/A 275 N/A N/A Call Recorder 3 RTP Rx IP address 39 Characters N/A 276 N/A N/A Call Recorder 3 RTP Rx Port Number 5 Decimal N/A 277 N/A N/A SO-SBC 4 String 187 278 204 179 Audio Stream Statistics 15 Characters N/A 279 N/A N/A Audio Stream RTCP-XR Voice Metric Statistics 151 Characters N/A 280 N/A N/A Media Stream SRTP Statistics 151 Characters N/A 281 N/A N/A DSP insertion/rejection reason 88 Characters N/A 282 205 N/A Call Established Time 21 Characters 188 283 206 180 Over Flow Packets Count 253 Characters N/A 284 N/A N/A Ingress Trunk Group for PSX Routing 24 String 189 285 207 181 T140 Information 19 String N/A 286 N/A N/A Remote T140 RTCP Learned Metrics 321 String N/A 287 N/A N/A VTP Information   Available_since Type Available Since Release 9.2.1 43 String N/A 288 N/A N/A Beep Tone Inserted 1 Decimal NA 289 NA NA Direction of Beep Tone 1 Decimal NA 290 NA NA Start Time (Local) 21 Characters 190 291 208 182 Disconnect Time (Local) 21 Characters NA 292 209 NA Intermediate Time (Local) 21 Characters NA NA NA 183 Call Established Time (Local) 21 Characters 191 293 210 184

Include Page
Non-ASCII Note Non-ASCII Note

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start start

START

This record indicates that the call has been successfully established/connected and session has successfully started.

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stop stop

STOP

This record indicates that a previously established successful session has now terminated.

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attempt attempt

ATTEMPT

This record indicates that a call/session failure scenario where a call/session could not be successfully established.

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The ATTEMPT record is generated for every INVITE attempt, if the flag attemptRecordGeneration flag is enabled.

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intermediate intermediate

INTERMEDIATE

This record captures any changes to signaling/call details during the session. For scenarios where the call duration is long, this record is also generated periodically to indicate session progress.

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reboot reboot

REBOOT

This record indicates a node reboot occurred.

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switchover switchover

SWITCHOVER

This record indicates that the node experienced a switchover that is, standby mode went to active due to a switchover initiated from the CLI or as a result of a problem on the active node.

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sw_change sw_change

SW_CHANGE

This record indicates an LSWU change:

• An LSWU is successfully completed.
• An LSWU is reverted.

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gatewayName gatewayName

Gateway Name

Gateway Name field (up to 23 characters).

If parameter loading is turned on, then the previously configured node name will appear in the REBOOT and SWITCHOVER records.

If parameter loading is turned off or Node Name object is never configured, this value is "None" in the REBOOT and SWITCHOVER records.

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accountingId accountingId

Accounting ID

Accounting ID (64 bits in HEX format).

This identifier occurs in each record, and combined with the Gateway Name field uniquely identifies the call accounting information on a network basis for an extended period of time. In a REBOOT record, this is the accounting ID of the first call attempted on the GSX.

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The Boot Count increments for each self-reboot or switch-over.

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startTimeInSystemTicks startTimeInSystemTicks

Start Time in System Ticks

Start time in System Ticks (system tick = 10 ms) - the timestamp of when Setup Request was received (Decimal number 0 - 4294967295).

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nodeTimeZone nodeTimeZone

Node Time Zone

This field can include any of the strings shown in the Time Zone section.

This page lists some GMT-based time zones, but it is possible to have any of the time zones shown in the Time Zone list.

•     "gmt"
•     "gmt-London"
•     "gmtMinus01-Azores"
•     "gmtMinus02-MidAtlantic"
•     "gmtMinus03-BuenosAires"
•     "gmtMinus0430-Caracas"
•     "gmtMinus04-Atlantic-Canada"
•     "gmtMinus05-Bogota"
•     "gmtMinus05-Eastern-US"
•     "gmtMinus05-Indiana"
•     "gmtMinus06-Central-US"
•     "gmtMinus06-Mexico"
•     "gmtMinus06-Saskatchewan"
•     "gmtMinus07-Arizona"
•     "gmtMinus07-Mountain"
•     "gmtMinus08-Pacific-US"
•     "gmtMinus09-Alaska"
•     "gmtMinus10-Hawaii"
•     "gmtMinus11-MidwayIsland"
•     "gmtPlus01-Berlin"
•     "gmtPlus02-Athens"
•     "gmtPlus0330-Tehran"
•     "gmtPlus03-Moscow"
•     "gmtPlus0430-Kabul"
•     "gmtPlus04-AbuDhabi"
•     "gmtPlus0530-Calcutta"
•     "gmtPlus05-Islamabad"
•     "gmtPlus06-Dhaka"
•     "gmtPlus07-Bangkok"
•     "gmtPlus08-HongKong"
•     "gmtPlus0930-Adelaide"
•     "gmtPlus09-Tokyo"
•     "gmtPlus10-Guam"
•     "gmtPlus11-Magadan"
•     "gmtPlus12-Fiji"
•     "gmtPlus12-Kwajalein"

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startTime_date startTime_date

Start Time (Date)

Start Date (mm/dd/yyyy) - date stamp when Setup Request was received. This value is provided by NTP.

In the REBOOT record, this is the date the 

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 was last booted.

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This field is combined with the Start Time (Time) Field for stream-based CDR logging.

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startTime_time startTime_time

Start Time (Time)

Start Time (hh:mm:ss.d) (d=deci-seconds) - timestamp when Setup Request was received, for example 16:20:38.6. This value is provided by NTP.

In the REBOOT record, this is the time that the 

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 was last booted.

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This field is combined with the Start Time Field (Date) for stream-based CDR logging.

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oldSoftwareVersion oldSoftwareVersion

Old Software Version

The Old Software Version field represents the 

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 software running before the Live Software Upgrade occurred. This is a 14-character string using the following format:

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0 Table 1 Old Software Version
Character Positions Name Value/Range 1 Version "V" 2-3 Major Number 00 - 99 4 Dot "." 5-6 Minor Number 00 - 99 7 Dot "." 8-9 Release Number 00 - 99 10 Space " " 11 Build Type "A" - Alpha"B" - Beta"R" - Release"S" - Special 12-14 Build Number 000 - 999

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newSoftwareVersion newSoftwareVersion

New Software Version

The New Software Version field represents the GSX/

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 software running after a Live Software Upgrade, and is a 14-character string in the following format:

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0 Table 1 New Software Version Field
Character Positions Name Value/Range 1 Version "V" 2-3 Major Number 00 - 99 4 Dot "." 5-6 Minor Number 00 - 99 7 Dot "." 8-9 Release Number 00 - 99 10 Space " " 11 Build Type "A" - Alpha "B" - Beta "R" - Release "S" - Special 12-14 Build Number 000 - 999

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timeElapsed1 timeElapsed1

Time Elapsed from Receipt of Setup Message to Policy Server/SoftSwitch Response

 [START (8) | STOP (8) | ATTEMPT (8) | INTERMEDIATE (8)]

Time Elapsed from Receipt of Setup Message to the first Policy Server/ 

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 SoftSwitch Response in 10 millisecond ticks (Decimal number 0 - 4294967295).

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timeElapsed2 timeElapsed2

Time Elapsed from Receipt of Setup Message to Receipt of Alerting/ProcProg

Time Elapsed from Receipt of Setup Message to Receipt of Alerting/Proc/Prog in 10 millisecond ticks (Decimal number 0 - 4294967295).

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timeElapsed3 timeElapsed3

Time Elapsed from Receipt of Setup Message to Service Established

Time Elapsed from Receipt of Setup Message to Service Established (Receipt of Answer and Completion of Cut-through) in 10 millisecond ticks (Decimal number 0 - 4294967295).

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intermediateTime_date intermediateTime_date

Intermediate Time (Date)

Intermediate Date (mm/dd/yyyy) - datestamp when Intermediate Accounting Timer expired, for example 02/06/1999.

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This field is combined with the Intermediate Time Field (Time)  for stream-based CDR logging.

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intermediateTime_time intermediateTime_time

Intermediate Time (Time)

Intermediate Time (hh:mm:ss.d) (d=deci-seconds) - timestamp when Intermediate Accounting Timer expired, for example 16:20:38.6.

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This field is combined with the Intermediate Time (Date) Field for stream-based CDR logging.

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disconnectTime_date disconnectTime_date

Disconnect Time (Date)

Disconnect Date (mm/dd/yyyy) - date stamp when Disconnect Request was received.

The Disconnect Date field is not set by reading NTP time. Instead, the disconnect date stamp is calculated by adding the elapsed time between the Setup and Disconnect Messages to the Start date stamp. This indirect method ensures the difference between the Start and Disconnect Dates reflects the true duration of the call, even if the NTP server adjusted time of day during the call. See "Disconnect Time (Time)" below for an explanation and example of this method.

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This field is combined with the Disconnect Time (Time) Field  for stream-based CDR logging.

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disconnectTime_time disconnectTime_time

Disconnect Time (Time)

Disconnect Time (hh:mm:ss.d) (d=deci-seconds) - time stamp when Disconnect Request was received, for example 16:20:38.6.

The Disconnect Time field is not set by reading NTP time. Instead, the disconnect time stamp is calculated by adding the elapsed time between the Setup and Disconnect Messages to the Start time stamp. This indirect method ensures the difference between the Start and Disconnect Times reflects the true duration of the call, even if the NTP server adjusted time of day during the call.

For example: assume a Setup Message is received at 01:00:00.0 GMT (NTP Time). Then over the next hour the NTP server rolls back NTP time by one minute. Also after exactly one hour (360000 ten-millisecond ticks) a Disconnect message is received, terminating the call. The new NTP time when this disconnect is received is 01:59:00.0 GMT (but would have been 02:00:00.0 GMT if NTP adjustment did not occur). In reality the caller spent 60 minutes on the phone, not 59. Because of the indirect disconnect time calculation described above, the GSX/

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 logs disconnect time as 02:00:00.0 GMT. In summary, the disconnect time is based on the NTP start time plus elapsed time to disconnect, not the NTP disconnect time.

The elapsed time between the Setup and Disconnect Messages can be calculated by adding the "Time Elapsed from Receipt of Setup Message to Service5 Established" and "Call Service Duration" fields. The latter field measures time elapsed from service established to receipt of disconnect message.

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This field is combined with the Disconnect Time ( Date)  Field for stream-based CDR logging.

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timeElapsed4 timeElapsed4

Time Elapsed from Receipt of Disconnect to Completion of Call

Time Elapsed from Disconnect receipt to Call Termination completion in 10 millisecond ticks (Decimal number 0 - 4294967295).

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callServiceDuration callServiceDuration

Call Service Duration

Call Service Duration in 10 millisecond ticks. This count is initiated when the answer message is received and continues to increment until one leg of the call is released (Decimal number 0 - 4294967295).

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callDisconnectReason callDisconnectReason

Call Disconnect Reason

Call Disconnect Reason (0 - 255).

The Call Termination Reason Codes are taken from the Q.931 Standard for all codes less than 128.

Codes equal to or greater than 128 are 

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 Reason Codes. The Ribbon Reason Codes are never contained in messages sent to the PSTN, but are instead mapped to an appropriate Q.931 Standard code.

The Ribbon Reason Codes appear in the system event logs to give specific information about the call failure. These codes may expand in the future.

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The CAS SSP configuration allows the administrator to specify which disconnect reason codes to return when the errors are encountered during the CAS call establishment. For more information, see Disconnect Code Mapping

If the 

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 receives a call release or call disconnect with a cause value that is not listed in the "Call Termination Reason Code" table , then that value is mapped to one of the eight Mapped To cause values listed in the  "Mapping by Cause Code Class" table below. In all cases, the Mapped To value is determined by the Class of the returned cause value as shown in the table. The Class is determined by the three high order bits of the 7-bit representation of the cause value.

For example, cause value 14 (PORTED NUMBER) may be represented as 000 1110, which is Class 000. Cause value 52 (OUTGOING CALLS BARRED) is represented as 011 0100, which is class 011. Hence, from  "Mapping by Cause Code Class" table, cause value 14 is mapped to cause value 31 (NORMAL_UNSPECIFIED) and cause value 52 is mapped to cause value 63 (SERVICE_OR_OPTION_NOT_AVAILABLE_UNSPECIFIED).

When a mapped Disconnect Code is sent to the preceding switch by the GSX/

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, that Disconnect Code is also placed in either the "Call Disconnect Reason Transmitted to Egress" or the "Call Disconnect Reason Transmitted to Ingress".

ISUP Call Disconnect Code Mapping

The Call Disconnect Reason Code Mapping table provides a "single source" reference that, for each ISUP Disconnect Code received, shows the mapped Disconnect Code that is stored in the CDR that is generated by the ISUP, ISDN, H.323, and SIP services respectively. This table also shows the standard(s) that define a particular ISUP Disconnect Code.

SIP to ISUP Disconnect Code Mapping

When SIP rejection responses must be signaled to the PSTN, the mappings shown in the SIP to ISUP Disconnect Code Mapping table are recommended by RFC 3398 and implemented by Ribbon. If the SIP rejection message contains an encapsulated REL message, then the Cause Indicator (CAI) parameter in the generated REL gets set to the value of the CAI parameter received in the encapsulated REL.

Whenever a Reason Header is encountered in any SIP message (such as BYE, CANCEL, 4xx, or 5xx), the GSX/

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 will use the Reason Header cause value for the Disconnect Code.

If the Reason Header is absent from the message, the ISUP Multipurpose Internet Mail Extension (Mime) cause value, if available, is used for the Disconnect Code. Otherwise stated, the GSX/

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 precedence for deriving the Disconnect Code in SIP/ISUP interworking is:

• Reason Header
• ISUP Mime (if cause value is available)

This conforms to RFC 3398 recommendations. You may configure the PSX IP PROFILE object to reverse this mapping behavior, thus conforming to the Q.1912.5 recommendation.

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serviceDelivered serviceDelivered

Service Delivered

This field identifies the service delivered for VoIP/Circuit Switched Voice (up to 22 characters).

• For PSTN-to-PSTN calls, such as ISUP-to-ISUP, ISUP-to-ISDN, ISUP-to-CAS calls, this field is "Circuit Switched Voice."
• For calls involving packetized voice, such as GSX/

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   gateway-to-gateway signaling, H.323, and SIP, this field is "VoIP."
• When an ATTEMPT record is generated by a blocking script, this field is set to "UNKNOWN" (since the call was not established, the Service Delivered is undefined or UNKNOWN).
• When an ATTEMPT record is generated after the GSX/

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   routes the call, and then a subsequent switch disconnects the call before the call is established, this field is populated with a valid value.
• When a START, STOP, or INTERMEDIATE record is generated by a successfully established call, this field is populated with a valid value.

Info
title Note
The format of this field is an enumeration when using stream-based CDR logging.

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callDirection callDirection

Call Direction

This field (up to 12 characters) defines the call direction, such as:

• PSTN-TO-IP
• PSTN-TO-PSTN
• IP-TO-PSTN
• PSTN-TO-TERM
• IP-TO-TERM
• TERM-TO-PSTN
• TERM-TO-IP
• IP-TO-IP

The first stage of a two stage call is either PSTN-TO-TERM or IP-TO-TERM. The second stage of a two stage call is either TERM-TO-PSTN or TERM-TO-IP.

This field conveys the signaling scenario for the call, including whether ingress is a PSTN signaling/IP signaling, and whether egress is PSTN signaling/IP signaling. For example, a call that has ingress signaling as ISUP and egress signaling as ISUP, Call Direction = "PSTN-TO-PSTN". For a call that has ingress signaling as H.323, and egress signaling as ISDN, Call Direction = "IP-TO-PSTN". For a call that has ingress signaling as CAS, and egress signaling as GSX/

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 gateway-to-gateway protocol, Call Direction = "PSTN-TO-IP". A call that has ingress signaling as H.323, and egress signaling as GSX/

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 gateway-to-gateway protocol shows Call Direction = "IP-TO-IP".

When an ATTEMPT record is generated by a blocking script, this field is set to UNKNOWN (since the call is not established, Call Direction is undefined or UNKNOWN).

When an ATTEMPT record is generated after the GSX/

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 routes the call, but a subsequent switch disconnected the call before the call is established, this field is populated with a valid value.

When a START, STOP, or INTERMEDIATE record is generated by a successfully established call, this field is populated with a valid value.

Info
title Note
The format of this field is an enumeration when using stream-based CDR logging.

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serviceProvider serviceProvider

Service Provider

This field (up to 23 characters) is populated with the route partition ID the PSX used for routing a call.

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transitNetwork transitNetwork

Transit Network Selection Code

This ISUP signaling parameter field (string up to four characters, for example 0288) is populated using either the information received in the IAM (if ingress signaling is ISUP) or information returned by the PSX in a policy response. The PSX obtains information from configuration tables. If the ingress signaling group and the PSX do not provide a value for this field, this field is empty.

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callingNumber callingNumber

Calling Number

The Calling Number Address Digits are sent out on the egress signaling side, and is the end result of any digit manipulations and address translation performed by the PSX during the policy request processing on the calling number received from ingress signaling.

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calledNumber calledNumber

Called Number

The Called Number Address Digits are sent out on the egress signaling side, and is the end result of any digit manipulations and address translation performed by the PSX during the policy request processing on the called number received from ingress signaling.

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extraCalledAddressDigits extraCalledAddressDigits

Extra Called Address Digits

This field is a string not used in routing the call, and is received via Overlap Address Messages such as SAM. This field is significant when the ingress signaling protocol supports overlap addressing (for example, SAM messages in ISUP, INFO messages in ISDN), and contains any digits obtained by the GSX/

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 after successfully routing the call based on digits collected before receiving overlap address signaling message.

For example, if GSX/

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 receives "978-321" in the IAM, we route the call using these digits, and subsequently receive a SAM message with 1234, the accounting records contains:

• Called Number = 978-321
• Extra Called Address Digits = 1234

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numberCalledNumTranslations numberCalledNumTranslations

Number of Called Num Translations Done by This Node

This field defines the number of called number translations performed on the node (length: decimal 0-2).

This and the following fields carry information about TollFree/LNP translation performed by the PSX.

• Called Number Before Translation #1
• Translation Type 1
• Called Number Before Translation #2
• Translation Type 2

For example the called number received by the GSX/

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 in the incoming IAM is 1-800-123-1234. The PSX performs toll-free translation, and the result is 617-123-1234. Subsequently, it performs LNP translation, and the result is 781-123-1000.

In this case, the following applies:

Called Number = 781-123-1000
Number of Called Num Translations Done by This Node = 2
Called Number Before Translation #1 = 1-800-123-1234
Translation Type 1 = 2
Called Number Before Translation #2 = 617-123-1234
Translation Type 2 = 1

In another example, if the called number in the incoming IAM was 617-123-1234, and the PSX performs an LNP translation, the result is 781-123-1000. Consequently, the accounting records contains:

Called Number = 781-123-1000
Number of Called Num Translations Done by This Node = 1
Called Number Before Translation #1 = 617-123-1234
Translation Type 1 = 1
Called Number Before Translation #2 – Empty
Translation Type 2 - 0

Info
title Note
The "Called Number Before Translation #1" field represents the called number before PSX  performs any address translations as well as the called number after any digit manipulations are performed. To view the called number received from ingress signaling (before any digit manipulation), see "Dialed Number". This field is populated in an ATTEMPT record in the absence of the PSX query response, if the preceding switch performs the translation and the call is torn down before the PSX response is received. The presence of the M bit in the received ISUP Initial Address Message (IAM) External Furnish Charging Info (FCI) message indicates that the preceding switch performed the translation.

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calledNumberBeforeTranslation1 calledNumberBeforeTranslation1

Called Number Before Translation #1

This field contains the called number before the first translation is performed, and carries information about TollFree/LNP translation performed by the PSX.

This field is empty ("") if no translations are performed, and occurs when the Translation Type 1 field is "0" (CPC_ADDR_TRANS_NONE) See "Translation Type 1" for details.

This field is also empty ("") when all of the following conditions are true:

• The dialed number is ported (an LNP query is performed).
• The SCP response to LNP query did not return an LRN (i.e. translated number).
• The Translation Type 1 field is "1" (CPC_ADDR_TRANS_LNP); that is, the LNP was the first translation attempted by the PSX.
• Translation is turned OFF via configuration.

This field is populated in an ATTEMPT record in the absence of a PSX query response if the preceding switch performs the translation and call is torn down before PSX response is received. The presence of the M bit in the received ISUP Initial Address Message (IAM) External Furnish Charging Info (FCI) message indicates that the preceding switch has performed the translation.

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translationType1 translationType1

Translation Type 1

This field carries information about the first translation performed by the PSX:

• 0 - CPC_ADDR_TRANS_NONE (no translation performed)
• 1 - CPC_ADDR_TRANS_LNP (Local Number Portability)
• 2 - CPC_ADDR_TRANS_TOLLFREE (8xx Numbers)
• 3 - CPC_ADDR_TRANS_PRIVATE

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calledNumberBeforeTranslation2 calledNumberBeforeTranslation2

Called Number Before Translation #2

This field contains the called number before the second translation is performed, and carries information about TollFree/LNP translation performed by the PSX.

This field is empty ("") if less than two translations are performed, and occurs when Translation Type 2 field (see "Translation Type 2") is "0" (CPC_ADDR_TRANS_NONE).

This field is also empty ("") when all of the following conditions are true:

• The dialed number is ported (an LNP query is performed).
• The SCP response to the LNP query did not return an LRN; that is, a translated number.
• The Translation Type 2 field is "1" (CPC_ADDR_TRANS_LNP); that is, the LNP is the second translation attempted by the PSX.
• Translation is turned OFF via configuration.

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translationType2 translationType2

Translation Type 2

This field carries information about the second translation performed by the PSX:

• 0 - CPC_ADDR_TRANS_NONE (no translation performed)
• 1 - CPC_ADDR_TRANS_LNP (Local Number Portability)
• 2 - CPC_ADDR_TRANS_TOLLFREE (8xx Numbers)
• 3 - CPC_ADDR_TRANS_PRIVATE

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billingNumber billingNumber

Billing Number

This field is a string of up to 30 characters. The record is populated using the following precedence:

• If SCP returns a billing number, it takes precedence over the others.
• If billing number is present in the incoming signaling message, then it is used.
  • Example: P-charge-info header contents get mapped into the billing number, certain SIP-I variants support a charge number parameter that is mapped into the billing number.
• If there is no billing number returned by SCP or in the incoming signaling message, the billing number configured against the ingress trunk on the PSX is used.

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routeLabel routeLabel

Route Label

This record is a string of up to 23 characters. The content of this record depends upon the type of call route that is returned from the PSX:

• If a normal route is returned, this field contains the ROUTING_LABEL pointed to by the route record. The Overflow and Fallback labels are not present.
• If an SCP produced route made up of Gateway Name and Trunkgroup ID (as provisioned on the PSX) is returned, this field is empty ("").
• If an SCP produced route made up of Switch ID and Trunkgroup ID (as provisioned on the PSX) is returned, this field will contain the Route Label (RL) corresponding to the first Switch ID/Trunkgroup.

The PSX supports to send RL for each route of a call in the policy response message to the SBC. The flag Enable Per Route Routing Label is added to the Feature Control Profile (FCP) entity screen. When the flag Enable Per Route Routing Label is enabled on the PSX, the PSX returns the RL for each route. The SBC stores these RLs in the CDR records for each call.

• When the flag Enable Per Route Routing Label is enabled, the CDR RL field is populated from the per-route data returned from the PSX.
• When the flag Enable Per Route Routing Label is disabled, the SBC stores the per-call routing label returned from the PSX in the CDR Routing Label field.

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routeAttemptNumber routeAttemptNumber

Route Attempt Number

The Route Attempt Number (Decimal number 0 - 65535).

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routeSelected routeSelected

Route Selected

The route selected:

• Gateway Name (up to 27 characters) Example: SBX140
• TG Name (up to 23 characters) Example: IPTG-NAV2

If Gateway Name is unknown, Gateway IP Address displays according to address type:

• IPv4 address—dotted decimal format (for example 128.1.22.233 (up to 15 characters))
• IPv6 address—eight 16-bit hexadecimal values separated by colons (for example 1280:1276:3350:2224:2222:3333:8888:1245).

Info
title Note
The Route Selected field is not populated on the egress GW when making GW-GW calls.

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egressLocalGwIp egressLocalGwIp

Egress Local Gateway Signaling IP Address

For packet based egress trunk groups, the IPv4 or the IPv6 address can be used for egress signaling on the local 

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.

• For IPv4 address type, use the dotted decimal format (for example, 128.1.22.233)
• For IPv6 address type, use the hexadecimal format (for example, 3ffe:1900:4545:3:200:f8ff:fe21:67cf (up to 39 characters)).

The local 

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 generates this accounting record; the device at the far end of the packet network is the remote address.

If the egress trunk group is circuit-based, this field is empty ("").

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egressRemoteGwIp egressRemoteGwIp

Egress Remote Gateway Signaling IP Address

 For packet-based egress trunk groups, the IPv4 or the IPv6 address can be used for egress signaling on the far end of the packet network.

• For IPv4 address type, use the dotted decimal format (for example, 128.1.22.233)
• For IPv6 address type, use the hexadecimal format (for example, 3ffe:1900:4545:3:200:f8ff:fe21:67cf (up to 39 characters)).

The local GSX/

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 generates this accounting record; the device at the far end of the packet network is the remote address. The device at this address may be another GSX/

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 gateway, and H.323 device, or a SIP device.

If the egress trunk group is circuit based, this field is empty ("").

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ingressTgName ingressTgName

Ingress Trunk Group Name

The origination gateway logs the name of the external trunk group which exists between the ingress network and the origination gateway in this field. The destination gateway logs the name of the internal IP trunk group which exists between the origination gateway and destination gateway in this field.

Caption
0 Figure 1 Example Trunk Groups

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ingressPstnEndPoint ingressPstnEndPoint

Ingress PSTN Circuit End Point

Info
title Note
Applicable only for PSTN-IP and PSTN-PSTN calls.

Ingress PSTN Circuit End Point field – Shelf (1-6):Slot (1-16):Port (1-84):DS0 (1-32):CIC (1-65535):Local Point Code (32 bit HEX format): Remote Point Code (32 bit HEX format). 

The Port range of 1-84 applies to calls that are assigned to a CNS60 or CNS71 module. 1-28 are the T1 circuits on the first T3, 29-56 are the T1 circuits on the second T3, and 57-84 are the T1 circuits on the third T3.

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ingressIpEndPoint ingressIpEndPoint

Ingress IP Circuit End Point

Ingress IP Circuit End Point field applies to both local and remote IP addresses.

• Local IP Address: Port (0-65535)
• Remote IP Address: Port (0-65535)

The IP address can be in IPv4 or IPv6 format. For IPv4 address type, use dotted decimal format. For example, 128.1.22.233 (up to 15 characters).

For IPv6 address type, use hexadecimal format. For example, 3ffe:1900:4545:3:200:f8ff:fe21:67cf (up to 39 characters).

Info
title Note
If NAPT or ICE are enabled on the call, the Ingress IP information is set to 127.0.0.0:5004 in the START/ATTEMPT/INTERMEDIATE CDRs because the STUN messages occur after the INVITE processing.

The default IP address 127.0.0.0 is taken as remote IP address and the default port 5004 is taken as remote port when a NAT call is made without sending media from the endpoints.

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egressPstnEndPoint egressPstnEndPoint

Egress PSTN Circuit End Point

Info
title Note
Applicable only for IP-PSTN and PSTN-PSTN calls.

Egress PSTN Circuit End Point field – Shelf (1-6):Slot (1-16):Port (1-84):DS0 (1-32):CIC (1-65535):Local Point Code (32 bit HEX format): Remote Point Code (32 bit HEX format).

The Port range of 1-84 applies to calls that are assigned to a CNS60 or CNS71 module. 1-28 are the T1 circuits on the first T3, 29-56 are the T1 circuits on the second T3, and 57-84 are the T1 circuits on the third T3.

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egressIpEndPoint egressIpEndPoint

Egress IP Circuit End Point

Egress IP Circuit End Point field applies to both local and remote IP addresses.

• Local IP Address: Port (0-65535)
• Remote IP Address: Port (0-65535)

The IP address can be in IPv4 or IPv6 format. For IPv4 address type, use dotted decimal format. For example, 128.1.22.233 (up to 15 characters).

For IPv6 address type, use hexadecimal format. For example, 3ffe:1900:4545:3:200:f8ff:fe21:67cf (up to 39 characters).

Info
title Note
The Remote IP Address and Port number is not available in certain call attempt situations captured in ATTEMPT records. Examples include when the remote gateway has no available routes, or when the address information is not contained in a backwards release message. In these situations, the IP Address and Port display as "0.0.0.0:0". The remote data is always available in START, INTERMEDIATE and STOP records for completed calls.

The default IP address 127.0.0.0 is taken as remote IP address and the default port 5004 is taken as remote port when a NAT call is made without sending media from the endpoints.

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ingressAudioBytesSent ingressAudioBytesSent

Ingress Number of Audio Bytes Sent

Number of Audio Bytes Sent as recorded by the ingress DSP/NP (decimal representation of a 64 bit number: 1 - 1.844674407*10¹⁹).

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ingressAudioPacketsSent ingressAudioPacketsSent

Ingress Number of Audio Packets Sent

Number of Audio Packets Sent as recorded by the ingress DSP/NP (decimal representation of a 64 bit number: 1 - 1.844674407*10¹⁹).

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ingressAudioBytesReceived ingressAudioBytesReceived

Ingress Number of Audio Bytes Received

Number of Audio Bytes Received as recorded by the ingress DSP/NP (decimal representation of a 64 bit number: 1 - 1.844674407*10¹⁹).

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ingressAudioPacketsReceived ingressAudioPacketsReceived

Ingress Number of Audio Packets Received

Number of Audio Packets Received as recorded by the ingress DSP/NP (decimal representation of a 64 bit number: 1 - 1.844674407*10¹⁹).

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olip olip

Originating Line Information (OLIP)

Originating Line Information (OLIP), also known as info digits which are expressed as decimal values.

The values in the following table match ANSI T1.113 (ANSI ISUP).

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0 Table 1 OLIP Parameters
Names Value OLI_POTS 0 OLI_ONI 1 OLI_ANI_FAILURE 2 OLI_HOTEL 6 OLI_SPECIAL_OPERATOR 7 OLI_RSTRCTD 8 OLI_TEST1 10 OLI_AIOD 20 OLI_IDENTIFIED 23 OLI_TOLLFREE (Non Pay phone originated 800 call) If the "Reset OLIP" switch is set in the PSX Signaling Profile and a tollfree translation occurs, then this code may be placed into this field. 24 OLI_PAYPHONE_TOLLFREE (Pay phone originated 800 call). If the "Reset OLIP" switch is set in the PSX Signaling Profile and a tollfree translation occurs, then this code may be placed into this field. 25 OLI_COIN 27 OLI_INMATE 29 OLI_TELCO_OPERATOR 34 OLI_OUTWATS 52 OLI_TRS 60 OLI_CELLULAR_TYPE1 61 OLI_CELLULAR_TYPE2 62 OLI_CELLULAR_ROAMING 63 OLI_PRIVATE_PAYSTATION 70 OLI_RSTRCTD_COINLESS 78 OLI_PRIVATE_VIRTUAL_NW 93 OLI_PINK_PUBLIC_PHONE (Japan only) 94 OLI_PINK_OTHER_PHONE (Japan only) 95 Reserved 96-255

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jip jip

Jurisdiction Information Parameter

In Local Number Portability (LNP) applications, Jurisdiction Information Parameter (JIP) provides the Local Routing Number (LRN) assigned to the originating number, which is then used to determine proper billing for the call (string up to 15 characters).

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carrierCode carrierCode

Carrier Code

The carrier identification code (up to five characters) of the carrier used for carrying the call on the egress trunk (for example 0288). This code is provided by the ingress signaling group from the appropriate parameters in its signaling protocol. For example, ISUP obtains it from the Carrier Identification Code parameter in an IAM message, or from the PSX in a policy response. If the ingress signaling group and the PSX do not provide a value, this field is empty.

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callGroupId callGroupId

Call Group ID

An internal identifier (up to 32 bits of hexadecimal data) bound to each call used by the GSX/

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 to group calls associated to each other. Multiple calls (with different Global Call IDs) involved in transfer and redirection scenarios have the same Call Group ID.

Example: "0x0000002F" 

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scriptLogData scriptLogData

Script Log Data

A string that contains data logged by a 

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 CPL script that was executed for the call.

Multiple variables are  logged within this field, with each variable data separated from the next variable by a configurable separator. The default value for the separator is slash . The data for each script variable includes the variable ID and the variable value, with a ":" as the separator. For example, the data string: 

12:9786928999/108:12345
indicates data for two variables, variable ID - 12, and variable ID - 108. The value of variable 12 is 9786928999, and the value of variable 108 is 12345.

This field is applicable only if a Ribbon CPL script is executed for the call. The sub-fields within this field are all variables associated with the CPL script, and are a concatenation of the variables requested by the script to be logged. This field is populated only if a CPL script was executed for the call, and the script requested logging of script variables via the LOG SIBB in the script.

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timeElapsedReceiptSetupToReceiptExit timeElapsedReceiptSetupToReceiptExit

Time Elapsed from Receipt of Setup Message to Receipt of Exit Message

The time elapsed from receipt of setup message to receipt of exit message in 10 ms ticks (decimal number 0 - 4294967295).

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timeElapsedReceiptSetupToGenerationExit timeElapsedReceiptSetupToGenerationExit

Time Elapsed from Receipt of Setup Message to Generation of Exit Message

Time Elapsed from Receipt of Setup Message to Generation of Exit Message (EXM) in 10 ms Ticks (Decimal number 0 - 4294967295).

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callingNoa callingNoa

Calling Party Nature of Address

The type of Calling Party number (decimal value).

For more information on the nature of the address enumeration values, refer to Nature of Address Enumeration Values.

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calledNoa calledNoa

Called Party Nature of Address

The type of Called Party number (decimal value).

For more information on the nature of the address enumeration values, refer to Nature of Address Enumeration Values.

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ingressProtocolVariant ingressProtocolVariant

Ingress Protocol Variant Specific Data

A string of up to 1849 characters or empty with delimiters "". Whenever any ingress service group has Protocol Variant Specific Data to log, this data is logged to this field. See the following pages for specific variants:

• H.323 Signaling Sub-field Descriptions
• SIP-I Signaling Sub-field Descriptions
• SIP Variant Sub-field Descriptions
• Gateway-to-Gateway Signaling Sub-field Descriptions

Info
title Note
During a Live Software Update (LSWU), Ingress and Egress Protocol Variant Specific Data are logged interchangeably to either this field or to the Egress Protocol Variant Specific Data field. This indeterminate behavior persists until after the LSWU is complete as indicated by the SW_CHANGE record.

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ingressSignalingType ingressSignalingType

Ingress Signaling Type

The ingress signaling type (decimal value).

For signaling type enumeration values, refer to Signaling Type Enumeration Values.

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egressSignalingType egressSignalingType

Egress Signaling Type

The egress signaling type (decimal value).

For signaling type enumeration values, refer to Signaling Type Enumeration Values.

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ingressFarEndSwitch ingressFarEndSwitch

Ingress Far End Switch Type

The ingress far end switch type (decimal value).

For mor information on far end  switch type, refer to Far End Switch Type Enumeration Values.

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egressFarEndSwitch egressFarEndSwitch

Egress Far End Switch Type

The egress far end switch type (decimal value).

For mor information on far end  switch type, refer to Far End Switch Type Enumeration Values.

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farEndIngressTGCarrierCode farEndIngressTGCarrierCode

Far End Ingress TG Carrier Code

The Field content depends upon whether the PSX is supporting a JAPAN variant.

If the JAPAN variant is being supported, then this field is the "Own Carrier ID" that is provisioned against the ingress trunk group, and is a string of up to five characters, for example "0288".

If a Non-JAPAN variant is being supported, then this field is the Carrier Code of the carrier that owns the Far End of the ingress trunk group. This is a string of up to 5 characters.

The "Trunk Ownership Fields in START/STOP Records" figure illustrates a typical PSTN-to-PSTN network in which the local GSX/

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 is writing accounting records to its NFS (DSI Level 0) file system. This figure depicts the Carrier Identification Codes that are contained in the Carrier Code of the Carrier that Owns the Far End of the Ingress/Egress Trunk Group fields.

Info
title Note
This scenarios applies to all PSTN-to-PSTN networks except Japan.

 

Caption
0 Figure 1 Trunk Ownership Fields in START/STOP Records

Field content depends upon whether the PSX is supporting a JAPAN variant.

This field is a string of up to five characters, and is populated using the following precedence:

• If a Non-JAPAN PSX variant is being supported, and the SCP returns digits within the AMADigitsDialedWC, and if the Context Identifier Digits within the AMADigitsDialedWC are "003", then these (SCP returned) digits are placed in the record.
• If a Non-JAPAN PSX variant is being supported and the above conditions are not true, then the Carrier Code of the Carrier that owns the Far End of the egress trunk group is placed in the record. See Figure A – 2, "Trunk Ownership Fields in START/STOP Records" for more explanation about this Carrier Code.
• If a JAPAN PSX variant is being supported, then the "Own Carrier ID" that is provisioned against the egress trunk group is placed in this record.

In all cases, a string of up to five characters is placed in this record (for example "0288").

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callingPartyCategory callingPartyCategory

Calling Party Category

The Calling Party Category (CPC) field is a hexadecimal value between 0x00 and 0xff. All letters are lower case and leading zeros are always displayed. The length is always four characters, two for the "0x" and two more for the CPC value.

The Calling Party Category Enumeration Values table lists the valid CPC hex values.

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dialedNumber dialedNumber

Dialed Number

On the ingress GSX/

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, this is the actual dialed number contained in the incoming setup message (IAM) received by the GSX/

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 from the ingress signaling group before any digit manipulation or address translations are performed by the ERE.

On the egress GSX/

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, this is the called number from the Gateway-to-Gateway signaling message, and contains digit manipulations performed by the ERE.

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carrierSelectionInformation carrierSelectionInformation

Carrier Selection Information

The ISUP Carrier Selection Information parameter (decimal value) populated either by the ingress ISUP SG or by the PSX in a policy response. If neither the ingress ISUP SG or PSX supplies this field, it takes a value of "0".

The following table lists the valid decimal values.

Table8: Carrier Selection Information Enumeration Values 

Caption
0 Table 1 Carrier Selection Inff
Carrier Selection Value Carrier Selection is not present or unknown. This may indicate internal routing was used. 0 CPC_OP_CARRIER_SELECTION_NO_INDICATION 1 CPC_OP_CARRIER_SELECTION_PRESUB_NOT_INPUT 2 CPC_OP_CARRIER_SELECTION_PRESUB_INPUT 3 CPC_OP_CARRIER_SELECTION_PRESUB_NO_INDICATION 4 CPC_OP_CARRIER_SELECTION_NOT_PRESUB_INPUT 5

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calledNumberNumberingPlan calledNumberNumberingPlan

Called Number Numbering Plan

A decimal value indicating the numbering plan type used for the called number representation. It could be one of ISDN/DATA/TELEX/PRIVATE. The numbering plan for the called number is provided by the ingress signaling group (based on parameters obtained in its signaling messages, or using defaults appropriate to the protocol type), or provided by the PSX in the PSX in the policy response (if it provides a called number in the policy response).

The Numbering Plan Indicator (NPI) range includes ISUP Reserve/Spare values. The block of ISUP NPI enumerations (0 to 7) is appended to the existing 

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 enumerations of 0-7. The combined NPI valid decimal value range is shown in the below table.

NPI values less than "8" are interpreted as Ribbon NPIs. Values greater than "7" are ISUP (Spare/Reserve) NPIs, to be derived by subtracting "8" from the record value. For example, a record value of "10" is an ISUP 2 NPI (10-8).

ISUP NPIs which map to a 

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 NPI are generated without any offset.

Caption
0 Table 1 Address Numbering plan Enumerations
Address Numbering Plan Value CPC_ADDR_NUMBERING_PLAN_INVALID 0 CPC_ADDR_NUMBERING_PLAN_ISDN 1 CPC_ADDR_NUMBERING_PLAN_DATA 2 CPC_ADDR_NUMBERING_PLAN_TELEX 3 CPC_ADDR_NUMBERING_PLAN_PRIVATE 4 Reserved for Spacevars 0 company Use 5 Reserved for Spacevars 0 company Use 6 Reserved for Spacevars 0 company Use 7 ISUP NPI 2 10 ISUP NPI 6 14 ISUP NPI 7 15

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genericAddressParameter genericAddressParameter

Generic Address Parameter

This field is the original called number if LNP is performed by a switch preceding the GSX/

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. This field is applicable only if the ingress signaling group is ISUP, and if the IAM indicates that LNP translation was performed by a switch preceding the GSX/ 

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0 product

. In this case, the field contains the contents of the ISUP Generic Address Parameter (GAP) digits which contain the called number before the LNP translation is done by the prior switch, as per ISUP protocol.

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disconnectInitiator disconnectInitiator

Disconnect Initiator

This field (decimal in range 0-4) identifies how the initiator session is closed:

• 0 - INTERNAL

Released internally by the call control entity in the GSX

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, due either to some error in the processing of the call or to a release initiated by a party on the peer call in a multiparty feature such as ISDN Two B-Channel Transfer or SS7 Release Link Trunking.

• 1 - CALLING PARTY

Released by the ingress signaling group.

• 2 - CALLED PARTY

Released by the egress signaling group.

• 3 - INTERNAL EARLY

Released internally by GSX/

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 at early call attempt stage. Applies only to the ATTEMPT record.

• 4 - CALLING PARTY EARLY

Released by the calling party at an early call attempt stage. Applies only to the ATTEMPT record.

EARLY disconnects may occur before a PSX Policy Request is sent or a PSX Policy Response is received due to an incomplete setup message or a setup message immediately followed by a disconnect from the calling party.

Call Release and/or SIP Response Codes

ATTEMPT records

The following table describes the mapping of CDR field numbers and their call disconnect reasons for ATTEMPT records.

Caption
0 Table 1 CALL RELEASE and/or SIP RESPONSE Codes recorded in the CDR for ATTEMPT records
Field Number Present in Raw CDR Disconnect Initiator Call Disconnect Reason 12 Yes Calling Call Disconnect Reason is derived from (from high to low priority) any one of the following: Q.850 code in the received Reason Header on ingress Trunk Group (provided Discard Received Reason Header is unchecked in the ingress IPSP) Cause value in ISUP MIME of SIP-T is received on ingress Trunk Group SIP - to - CPC mapping configured on the ingress Trunk Group (for SIP response received on ingress Trunk Group) 16 for CANCEL without Reason header is received on the ingress SIP/SIP-T Trunk Group 31 for CANCEL without Reason header is received on the ingress SIP-I Trunk Group Called Call Disconnect Reason is derived from (from high to low priority) any one of the following: Q.850 code in received Reason Header on the egress Trunk Group (provided Discard Received Reason Header is unchecked in egress IPSP) Cause value in ISUP MIME of SIP-T is received on the egress Trunk Group SIP - to - CPC mapping configured on the egress Trunk Group (for SIP response is received on egress Trunk Group) Internal Contains internal CPC value that is used to release the call (typically cause value >127). GSX/ Spacevars 0 product does not include CPC > 127 in the message out (for example, in ISUP MIME or Q.850 in the reason header). Instead, it maps it to an appropriate Q.931 standard release code provided the code is not overwritten by CPC to SIP cause map profile. For more information, refer to Call Disconnect Reason Code Mapping. 45 (Ingress Protocol Variant Specific Data > Status Message for Call Release) 59 (Egress Protocol Variant Specific Data > Status Message for Call Release) Yes   Calling Ingress PVSD status message indicates that SIP Status Response or CAN (for CANCEL) received on the ingress SIP/SIP-T/SIP-I Trunk Group Egress PVSD status message indicates that SIP Status Response is transmitted to the egress SIP/SIP-T/SIP-I Trunk Group Called Egress PVSD status message indicates that SIP Status Response is received on the egress SIP/SIP-T/SIP-I Trunk Group Ingress PVSD status message indicates that SIP Status Response is transmitted to the ingress SIP/SIP-T/SIP-I Trunk Group Internal Egress PVSD status message indicates that SIP Status Response is transmitted to the egress SIP/SIP-T/SIP-I Trunk Group Ingress PVSD status message indicates that SIP Status Response is transmitted to the ingress SIP/SIP-T/SIP-I Trunk Group

STOP records

The following table describes the mapping of CDR field numbers and their call disconnect reasons for STOP records.

Caption
0 Table 1 CALL RELEASE and/or SIP RESPONSE Codes recorded in the CDRs For STOP records
Field Number Present in Raw CDR Disconnect Initiator Call Disconnect Reason 15  Yes Calling Call Disconnect Reason is derived from (from high to low priority) any one of the following: Q.850 code in Reason Header of received BYE on the ingress Trunk Group (provided Discard Received Reason Header is unchecked in ingress IPSP) Cause value in ISUP MIME of SIP-T is received on the ingress Trunk Group 16 for BYE without Reason header is received on the ingress Trunk Group Called Call Disconnect Reason is derived from (from high to low priority) any one of the following: Q.850 code in Reason Header of received BYE message on the egress Trunk Group (provided Discard Received Reason Header is unchecked in egress IPSP) Cause value in ISUP MIME of SIP-T is received on the egress Trunk Group 16 for BYE without Reason header is received on the egress Trunk Group Internal Contains internal CPC value that is used to release the call (typically cause value >127). GSX/ Spacevars 0 product does not include CPC > 127 in the message out (for example, in ISUP MIME or Q.850 in the reason header). Instead, it maps it to an appropriate Q.931 standard release code provided the code is not overwritten by CPC to SIP cause map profile. For more information, refer to Call Disconnect Reason Code Mapping. Note: For SIP-I (Q.1912.5), cause value in ISUP-MIME takes higher precedence over Q.850 code in reason header in this scenario. 52 (Ingress Protocol Variant Specific Data > Status Message for Call Release) 69 (Egress Protocol Variant Specific Data > Status Message for Call Release) Yes Calling Ingress PVSD status message indicates that BYE is received on the ingress SIP/SIP-T/SIP-I Trunk Group Egress PVSD status message indicates that BYE is transmitted to the egress SIP/SIP-T/SIP-I Trunk Group Called Egress PVSD status message indicates that BYE is received on the egress SIP/SIP-T/SIP-I Trunk Group Ingress PVSD status message indicates that BYE is transmitted to the ingress SIP/SIP-T/SIP-I Trunk Group Internal Egress PVSD status message indicates that BYE is transmitted to the egress SIP/SIP-T/SIP-I Trunk Group Ingress PVSD status message indicates that BYE is transmitted to the ingress SIP/SIP-T/SIP-I Trunk Group

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ingressPacketsLost ingressPacketsLost

Ingress Number of Packets Recorded as Lost

The number of packets recorded as a lost packet by the ingress DSP/NP. This field is a decimal representation of a 32-bit number (applicable to RTCP statistics for VoIP calls only).

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egressPacketsLost egressPacketsLost

Egress Packets Lost

The number of packets recorded as a lost packet by the egress DSP/NP. This field is a decimal representation of a 32-bit number (applicable to RTCP statistics for VoIP calls only).

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ingressPacketJitter ingressPacketJitter

Ingress Interarrival Packet Jitter

The maximum interarrival packet jitter time (in millisecond) recorded by the ingress DSP/NP. This field is a decimal representation of a 16-bit number, hence must be in the range 0-65535 (This is applicable to RTCP statistics for VoIP calls only).

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ingressLatency ingressLatency

Ingress Last Measurement for Latency

The last measurement for latency (in milliseconds) as recorded by the ingress DSP. This field is a decimal representation of a 16-bit number, hence must be in the range 0-65535 (applicable to RTCP statistics for VoIP calls only).

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egressTgName egressTgName

Egress Trunk Group Name

This field is applicable for IP-PSTN, PSTN-PSTN, PSTN-IP, and IP-IP calls. (String up to 23 characters.)

The origination gateway logs the name of the internal IP trunk group which exists between the destination gateway and the origination gateway in this field. The destination gateway logs the name of the external trunk group which exists between the destination gateway and the egress network in this field.

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egressProtocolVariant egressProtocolVariant

Egress Protocol Variant Specific Data

The egress service group protocol variant-specific data. This field is a string of up to 1849 characters, or empty with delimiters "". Whenever any egress service group has protocol variant-specific data to log, the data is logged to this field. See the following pages for specific variants:

• H.323 Signaling Sub-field Descriptions
• Release Link Trunking Sub-Fields
• SIP-I Signaling Sub-field Descriptions
• SIP Variant Sub-field Descriptions
• Gateway-to-Gateway Signaling Sub-field Descriptions

Info
title Note
During a Live Software Update (LSWU), Ingress and Egress Protocol Variant Specific Data are logged interchangeably to either this field or to the Ingress Protocol Variant Specific Data field. This indeterminate behavior will persist until the LSWU completes as indicated by the SW_CHANGE record.

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incomingCallingNumber incomingCallingNumber

Incoming Calling Number

This field represents the calling number presented to the 

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 prior to any digit manipulation or translation by the PSX/ERE. In other words, it is the Calling Number in the Incoming Signaling Message (IAM/SETUP etc.) to the 

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 translation.

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intermediateRecordReason intermediateRecordReason

Intermediate Record Reason

This field indicates the reason the Intermediate Record is generated:

• 0 - (PERIODIC) The intermediate accounting interval expired for this call, a normal event.
• 1 - (MTP_PAUSE_EVENT) An SS7 Server link failure occurred.
• 2 - (SS7_CONNECTION_FAILURE) The connection to the SGX was lost.
• 3 - (MALICIOUS CALL TRACE) A Malicious Call Trace was initiated (BT-IUP only).
• 4 - (Telcordia Long Duration) The call was active, and had been active for a time which is more than the configured threshold value, at the specified Telcordia Long Duration Generation Time.

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amaCallType amaCallType

AMA Call Type

The Automatic Message Accounting (AMA) Call Type field (also known as AMA Call Code) is provided by the 

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 PSX and determines how the call is billed, such as Flat Rate, Local Measured, EAS, etc. If AMA Call Type is not available, this field is empty (""). (3-digit decimal number in the range 000-999, with leading zeroes always present.)

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mbi mbi

Message Billing Index (MBI)

This field is determined from the class of service of the calling subscriber together with the office to which his call is directed, and constitutes the basis for determining the charging rate on bulk billed calls where the called number is not recorded in AMA field.

This field is provided by the 

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 PSX. If MBI is not available, this field is empty (""). (3-digit decimal number in the range 000-999, with leading zeroes always present.)

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originatingLata originatingLata

Originating LATA

The Originating Local Access and Transport Area (LATA) field. A LATA is a geographical area defined by the FCC within which a local telephone company may offer telecommunications services. The Originating LATA is provided by the 

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 PSX in the Policy Response. (3-character string.)

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routeIndex routeIndex

Route Index Used

This field signifies which route in the policy response was used for this call. If no routes were successful, then this field is empty (""). The policy response can only hold from 1 to 10 routes. See also Cumulative Route Index.

The Route Index can be combined with the Routing Label (see Route Label) to determine the chosen route.

Info
title Note
You must use this when indexing route specific fields within the PSX Billing Info Field. See "PSX Billing Information".

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callingPartyNumberRestriction callingPartyNumberRestriction

Calling Party Number Presentation Restriction

This field (decimal number, 0-4) indicates the calling party number Presentation Restriction using one of the values below:

• 0 - INVALID
• 1 - ALLOWED
• 2 - RESTRICTED
• 3 - NUMBER_UNAVAILABLE
• 4 - SPARE

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incomingIsupCharge incomingIsupCharge

Incoming ISUP Charge Number

This field is extracted from the ISDN User Part (ISUP) Initial Address Message (IAM) received on an SS7 trunk. If the number is not available this field is empty (""). (String up to 30 characters.)

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Incoming ISUP Charge Number NOA Incoming ISUP Charge Number NOA

Incoming ISUP Charge Number NOA

The Incoming ISUP Charge Number Nature of Address (NOA) field (decimal number in the range 0-255).

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dialedNoa dialedNoa

Dialed Number NOA

The Dialed Number Nature of Address (NOA) field. (Decimal number from 0-255.)

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ingressCodecType ingressCodecType

Ingress Codec Type

This field defines the Ingress Codec type, and consists of a string with a maximum of six characters (the two colons in the field are included in this count) in the following format. If audio encoding is not applicable, this field is set to "0".

<networkType>:<codecType>:<audioEncoding>

 Examples:

• A G.711 packet call with aLaw encoding will be displayed as: “P:1:2”

• A T.38, version 0 call will be displayed as: “P:6:0”

• A T.38, version 3 call will be displayed as: “P:6:3”

See the table for a listing of Ingress Codec Type sub-field variables.

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egressCodecType egressCodecType

Egress Codec Type

This field defines the Egress Codec Type, and consists of a string with a maximum of six characters (the two colons in the field are included in this count) in the following format.

<networkType>:<codecType>:<audioEncoding>

Examples:

• A G.711 packet call with aLaw encoding will be displayed as: “P:1:2”

• A T.38, version 0 call will be displayed as: “P:6:0”

• A T.38, version 3 call will be displayed as: “P:6:3”

See the table for a listing of Egress Codec Type sub-field variables.

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Ingress and Egress Codec Type Sub-Field Variables Ingress and Egress Codec Type Sub-Field Variables

Excerpt

Caption 0 Table 1 Ingress and Egress Codec Type Sub-Field Variables 3 Ingress and Egress Codec Type Sub-Field Variables Sub-Field Description Network Type (sub-field 1) C - Circuit Network P - Packet Network Codec Type (sub-field 2) 0 - PKT_ENCODING_NULL 1 - PKT_ENCODING_G711 2 - PKT_ENCODING_G711_SILENCE_SUPPRESS 3 - PKT_ENCODING_G723 4 - PKT_ENCODING_G729A 5 - PKT_ENCODING_G729AB 6 - PKT_ENCODING_FAX_RELAY 7 - PKT_ENCODING_G723A 8 - PKT_ENCODING_G726 9 - PKT_ENCODING_ILBC 10 - PKT_ENCODING_ILBCSS 11 - PKT_ENCODING_G722 12 - PKT_ENCODING_G722_SILENCE_SUPPRESS 13 - PKT_ENCODING_G7221 14 - PKT_ENCODING_G7221SS 15 - PKT_ENCODING_G728 16 - PKT_ENCODING_G728SS 17 - PKT_ENCODING_AMR_BW_EFFICIENT 18 - PKT_ENCODING_AMR_OCTET_ALIGNED 19 - PKT_ENCODING_AMR_CRC 20 - PKT_ENCODING_AMR_CRC_INTERLEAVING 21 - PKT_ENCODING_AMR_CRC_ROBUST_SORTING 22 - PKT_ENCODING_AMR_CRC_INTERLEAVING_ROBUST_SORTING 23 - PKT_ENCODING_AMR_INTERLEAVING 24 - PKT_ENCODING_AMR_INTERLEAVING_ROBUST_SORTING 25 - PKT_ENCODING_AMR_ROBUST_SORTING 26 - PKT_ENCODING_AMRWB_BW_EFFICIENT 27 - PKT_ENCODING_AMRWB_OCTET_ALIGNED 28 - PKT_ENCODING_AMRWB_CRC 29 - PKT_ENCODING_AMRWB_CRC_INTERLEAVING 30 - PKT_ENCODING_AMRWB_CRC_ROBUST_SORTING 31 - PKT_ENCODING_AMRWB_CRC_INTERLEAVING_ROBUST_SORTING 32 - PKT_ENCODING_AMRWB_INTERLEAVING 33 - PKT_ENCODING_AMRWB_INTERLEAVING_ROBUST_SORTING 34 - PKT_ENCODING_AMRWB_ROBUST_SORTING 35 - PKT_ENCODING_EVRC (Interleaved/Bundled format) 36 - PKT_ENCODING_EVRC0 (Header-free format) 37 - PKT_ENCODING_EVRC1 (Compact-bundled format, Half-rate in single rate mode) 38 - PKT_ENCODING_EVRC1_FR (Compact-bundled format, Full-rate in single rate mode) 39 - PKT_ENCODING_EVRCB (Interleaved/Bundled format) 40 - PKT_ENCODING_EVRCB0 (Header-free format) 41 - PKT_ENCODING_EVRCB1 (Compact-bundled format, Half-rate in single rate operation) 42 - PKT_ENCODING_EVRCB1_FR (Compact-bundled format, Full-Rate in single rate operation) 43 - PKT_ENCODING_EFR 46 - PKT_ENCODING_G726SS 49 - PKT_ENCODING_SILK_8 50 - PKT_ENCODING_SILK_12 51 - PKT_ENCODING_SILK_16 52 - PKT_ENCODING_SILK_24 55 - PKT_ENCODING_G7291 56 - PKT_ENCODING_BV16 57 - PKT_ENCODING_BV32 58 - PKT_ENCODING_BV32_FEC 59 - PKT_ENCODING_SPEEX_8 60 - PKT_ENCODING_SPEEX_16 61 - PKT_ENCODING_SPEEX_32 62 - PKT_ENCODING_SPEEX_FEC_8 63 - PKT_ENCODING_SPEEX_FEC_16 64 - PKT_ENCODING_L16_16 65 - PKT_ENCODING_ISAC 69 - PKT_ENCODING_Opus 70 - PKT_ENCODING_EVS Audio Encoding (sub-field 3) G711 Audio Encoding Types (when Codec Type is PKT_ENCODING_G711 or PKT_ENCODING_G711_SILENCE_SUPPRESS): 0 - CKT_ENCODING_NULL 1 - CKT_ENCODING_G711_ULAW 2 - CKT_ENCODING_G711_ALAW G722 Audio Encoding Types (when the Codec Type is G722): 0 - CPC_G722_CODING_RATE_48_KBPS 1 - CPC_G722_CODING_RATE_56_KBPS 2 - CPC_G722_CODING_RATE_64_KBPS G.722.1 Audio Encoding Types (when the Codec Type is G7221): 0 - CPC_G7221_CODING_RATE_24_KBPS 1 - CPC_G7221_CODING_RATE_32_KBPS 2 - CPC_G7221_CODING_RATE_16_KBPS G723 Audio Encoding Types (when the Codec Type is PKT_ENCODING_G723 or PKT_ENCODING_G723A): 0 - G723_CODING_RATE_5P3_KBPS (5.3K bits per second) 1 - G723_CODING_RATE_6P3_KBPS (6.3K bits per second) G726 Audio Encoding Types (when the Codec Type is PKT_ENCODING_G726): 0 - G726_CODING_RATE_16KBPS 1 - G726_CODING_RATE_24KBPS 2 - G726_CODING_RATE_32KBPS 3 - G726_CODING_RATE_48KBPS ILBC Audio Encoding Types (when the Codec Type is PKT_ENCODING_ILBC and PKT_ENCODING_ILBCSS): 0 - ILBC_CODING_RATE_13P3_KBPS 1 - ILBC_CODING_RATE_15P2_KBPS  T38 Audio Encoding Types (when the Codec Type is PKT_ENCODING_FAX_RELAY) 0 - T38_VERSION_0 3 - T38_VERSION_3 AMR Audio Encoding Types (when the Codec Type is AMR) 0 - CPC_AMR_CODING_RATE_4P75_KBPS 1 - CPC_AMR_CODING_RATE_5P15_KBPS 2 - CPC_AMR_CODING_RATE_5P9_KBPS 3 - CPC_AMR_CODING_RATE_6P7_KBPS 4 - CPC_AMR_CODING_RATE_7P4_KBPS 5 - CPC_AMR_CODING_RATE_7P95_KBPS 6 - CPC_AMR_CODING_RATE_10P2_KBPS 7 - CPC_AMR_CODING_RATE_12P2_KBPS AMRWB Audio Encoding Types (when the Codec Type is AMRWB) 0 - CPC_AMRWB_CODING_RATE_6P6_KBPS 1 - CPC_AMRWB_CODING_RATE_8P85_KBPS 2 - CPC_AMRWB_CODING_RATE_12P65_KBPS 3 - CPC_AMRWB_CODING_RATE_14P25_KBPS 4 - CPC_AMRWB_CODING_RATE_15P85_KBPS 5 - CPC_AMRWB_CODING_RATE_18P25_KBPS 6 - CPC_AMRWB_CODING_RATE_19P85_KBPS 7 - CPC_AMRWB_CODING_RATE_23P05_KBPS 8 - CPC_AMRWB_CODING_RATE_23P85_KBPS EVRC Audio Encoding Types (when the Codec Type is EVRC or EVRCB0) 0 - CPC_EVRCB_OP_POINT_0        (9.3 kbps) 1 - CPC_EVRCB_OP_POINT_1        (8.5 kbps) 2 - CPC_EVRCB_OP_POINT_2        (7.5 kbps) 3 - CPC_EVRCB_OP_POINT_3        (7.0 kbps) 4 - CPC_EVRCB_OP_POINT_4        (6.6 kbps) 5 - CPC_EVRCB_OP_POINT_5        (6.2 kbps) 6 - CPC_EVRCB_OP_POINT_6        (5.8 kbps) 7 - CPC_EVRCB_OP_POINT_7        (4.8 kbps) NOTE (1): Audio Encoding Types are not applicable to Codec Types NULL, G729A, G729AB, and EVS. NOTE (2): 32 kbps is the only rate available for G726 at R4.0. NOTE (3): For Opus and T38 audio encodings, the modeset value negotiated in offer/answer is logged in the CDR as a decimal value NOTE (4): Value for SILK and Opus indicates the max average bitrate

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ingressRtpPacketizationTime ingressRtpPacketizationTime

Ingress RTP Packetization Time

Decimal value indicating the duration of RTP packets in milliseconds, as recorded by the DSP in the resource chain on the ingress leg of the call. If no DSP resources are allocated on the ingress leg of the call, then this field is empty ("").

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callId callId

SBC Call ID

This field, assigned by the GSX/

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, uniquely identifies a call within a single 

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 and hence is equivalent to the 

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0 product

's internally assigned Global Call ID (GCID). This value is unique for this call within a 

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0 product

, but will vary from 

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0 product

 to 

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. Use the Gateway-to-Gateway Handle to uniquely identify a call across multiple 

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s. (32-bit hexadecimal value, prefixed by "0x", such as 0x89ABCDEF.)

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terminatedWithScript terminatedWithScript

Terminated with Script Execution

This field (decimal, 0-1) identifies whether or not a script was executed before terminating the call. Possible values:

• 0 – the call was terminated without executing a script.
• 1 – the PSX returned a script executed by the GSX/

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   before terminating the call; the call was not routed.

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originatorEchoCancel originatorEchoCancel

Originator Echo Cancellation

This field (decimal, 0-1) identifies whether or not the GSX/

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 performed echo cancellation on the ingress leg of this call. Possible values:

• 0 – GSX/

  Spacevars
  0 product

   did not perform echo cancellation on ingress leg of call.
• 1 – GSX/

  Spacevars
  0 product

   performed echo cancellation on ingress leg of call.

This applies only to PSTN to IP and PSTN to PSTN calls. If the call is IP to PSTN, this field is empty ("").

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terminatorEchoCancel terminatorEchoCancel

Terminator Echo Cancellation

This field indicates if GSX/

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 performed echo cancellation on the egress leg of this call as follows:

• 0 – GSX/

  Spacevars
  0 product

   did not perform echo cancellation on egress leg of call.
• 1 – GSX/

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  0 product

   performed echo cancellation on egress leg of call.

This field applies only to IP to PSTN and PSTN to PSTN calls. If the call is PSTN to IP, this field is empty ("").

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chargeFlag chargeFlag

Charge Flag

The Charge Indicator values provisioned on the PSX. These values apply to the Ingress Trunk Group and are shown in the table below.

Caption
0 Table 1 Charge Flag Enumeration Values
Charge Flag Value NONE 0 NO CHARGE 1 CHARGE 2 SPARE 3 NO INDICATION 4

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amaServiceLogicId amaServiceLogicId

AMA Service Logic Identification

This field (AMAslpID) is used in an Advanced Intelligent Network (AIN) environment to record the identification of the service logic in the Service Control Point (SCP). (fixed 9-digit decimal number, with any leading zeroes present).

The table below describes the AMAslpID values. The PSX provides this data in Binary Coded Decimal (BCD) format, and the GSX/

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 software converts these strings to the fixed 9-character fields described below. If the BCD string contains more than 9 digits, the converted string is truncated. The terminating sign nibble in the BCD string (typically 0xC) is not present in the AMAslpID field.

If this data is unavailable, this field is empty ("").

See GR-1100-CORE, Section 2 for more detail about this native data.

Caption
0 Table 1 AMAslpID Values
Value Description 000000000 - 899999999 Local Exchange Carrier (LEC)-assignable 900000000 Advanced Intelligent Network (AIN) default routing invoked 900000141 Toll-free service: Carrier Identification Code (CIC) not equal to 0110 900000142 Toll-free service: CIC equal to 0110 900000050 Switch generated AMAslipID: Default AIN Structure (220) with Resource Timing (Module 290) 900000866 Service Control Point (SCP) Default Service Logic value for Toll-Free 999999999 Unknown

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amaBafModule amaBafModule

AMA BAF Module

The Billing Automatic Message Accounting Format (BAF) module is used to record a variety of billing information. The first three characters represent the Module Code Identification that, in turn, specifies how to interpret the remaining characters. See the below table for these codes.

The remaining characters are defined in Section 1.4 "Data Fields" of the Telcordia Technologies Generic Requirements (GR-1100-CORE) Issue 4. Refer to that document for all definitions.

A string of 4-256 hexadecimal characters. If the BAF Module is unavailable, this field is empty ("").

The BAF Module Names table lists each valid BAF Module code and name as published in Telcordia Technologies Generic Requirements (GR-1100-CORE) Issue 4. The Telcordia document defines BAF Module names.

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amaSetHexAB amaSetHexAB

AMA Set Hex AB Indication

AMA Set Hex AB Indicator:

• "1" - AMA BAF Module contains a known or suspected error.
• "0" - AMA BAF Module contains no known errors.
• "" - (empty) AMA BAF Module is not present.

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servicefeatureId servicefeatureId

Service Feature ID

This field is a BAF parameter indicating a customer's originating or terminating line characteristics. This indication may be used by an accounting application to assess applicable tariffs to determine the price for services rendered.

This ID, if available, is provided by PSX/ERE as a fixed 3-digit decimal number. If no data is available, this field is left empty ("").

The GSX/

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 passes this data to the accounting record unchanged. The terminating sign nibble (typically hexadecimal C) is not propagated to the accounting record.

The Service Feature IDs table lists valid Service Feature IDs.

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feParameter feParameter

FE Parameter

An optional parameter in backwards call control messages (ACM, CPG, ANM, and Gateway-to-Gateway signaling).

If the egress GSX/

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 is the terminating switch, then the GSX/

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 generates this parameter. Otherwise, the downstream legacy switch generates this parameter, and then the GSX/

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 logs and forwards it to the accounting record.

If the FE Parameter is not present, this field is left empty ("").

The record is generated in one of two formats:

• Short Form—16 hexadecimal characters representing 8 bytes of binary data.
• Long Form—20 hexadecimal characters representing 10 bytes of binary data.

The Parameter Length field of the record designates whether the record is the Short Form or the Long Form.

The following tables depict each of these forms.

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0 Table 1 Parameter Format (Short form)
Bits --> 8 7 6 5 4 3 2 1 Byte 1 Parameter Code (always 0xFE) Byte 2 Parameter Length (always 0x06) Byte 3 Completion Code Answer Type Byte 4 Final Trunk Group ID (Least Significant Bits) Byte 5 Spare Final Trunk Group ID (Most Significant Bits) Byte 6 Spare (always 0) Final Switch ID Byte 7 Final Trunk Member (Least Significant Bits) Byte 8 Final Trunk Member (Most Significant Bits)

Caption
0 Table 1 FE Parameter Format (Long Form)
Bits --> 8 7 6 5 4 3 2 1 Byte 1 Parameter Code (always 0xFE) Byte 2 Parameter Length (always 0x08) Byte 3 Completion Code Answer Type Byte 4 Final Trunk Group ID (Least Significant Bits) Byte 5 Spare Final Trunk Group ID (Most Significant Bits) Byte 6 Spare (always 0) Spare (always 0000000) Byte 7 Final Trunk Member (Least Significant Bits) Byte 8 Final Trunk Member (Most Significant Bits) Byte 9 Final Switch ID (Least Significant Bits) Byte 10 Spare (always 000000) Final Switch ID (Most Significant Bits)

The Answer Type and Completion Code (manner by which the call was terminated) are 4-bit values, depicted in the following table.

Caption
0 Table 1 Answer Type & Completion Code Values
Value Answer Type Completion Code 0000 Nil Value (Caller abandon during origination) Normal Completed Call 0001 Software Answer, no voice detected Treated Call 0010 Software Answer, voice detected Abandoned Call 0011 Software Answer, audio ringback detected Abnormal Call 0100 Hardware Answer Signaling System Error 0101 Software Answer, silence detected Forced Disconnect Invoked (brought down via manual intervention) 0110 Software Answer, persistent ringing Offnet Route Advance Invoked 0111 Audio Tone Detector (ATD) hardware error or forced disconnect and continuous tone at remote switch Test Call 1000 Software Answer, busy tone detected Reserved 1001 Software Answer, reorder tone detected TCAP SCP Response Time Out 1010 IMT software answer Not Used 1011 IMT hardware answer Not Used 1100 Early Billing Active with no Answer Abnormal Release Call 1101 Early Billing Active with Answer Completed Answer 1110 Not Used Not Used 1111 Not Used Class of Service Screening Failure

Example:

The FE Parameter record below:
"0xFE0812BC0A006745DF03"
...is generated by the following FE Parameter subfield values:

Format = Long Form
Completion Code = Treated Call (1)
Answer Type = Software Answer, voice detected (2)
Final Trunk Group ID = 0xABC
Final Switch ID = 0x3DF
Final Trunk Member = 0x4567 

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satelliteIndicator satelliteIndicator

Satellite Indicator

Satellite Indicator (SAT):

• "1" - A satellite trunk was used.
• "0" - No satellite trunk was used, or a non-ISUP signaling variant such as ISDN or CAS was used.

This value is extracted from the Nature of Connection Indicator.

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psxBilling psxBilling

PSX Billing Information

The following figure displays a high level view of the PSX Billing Information field within an accounting record. This field contains billing data generated by the PSX that is encoded in bytes represented as hexadecimal characters (00 to FF). This variable length field may contain up to 128 bytes of binary data (represented by 256 hexadecimal characters).
Every subfield in the PSX Billing Info field is provisioned on the PSX and placed into the 

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 accounting record. Therefore, the results reflect particular PSX provisioning of the PSX Billing Info entity. Take this into consideration when viewing the example representations at the end of this section. Do not expect similar results in your records unless you provision each PSX Billing Info subfield in the same manner.

The PSX Billing Info field is divided into four portions:

• Header
• Common
• Route Specific Tag
• Route Specific Data

Caption
0 Figure 1 PSX Billing Info Field Diagram

Each portion is a series of one or more subfields.

The Billing File Info Header contains a unique 16 bit value.

The Common and Route Specific Tag portions are comprised of subfields that consist of a unique Tag, a Tag Data Length Indicator, and Data for that Tag (or value). In any of these subfields, the one byte Tag Data Length Indicator could be zero, resulting in a zero length value.

The Route Specific Data portion is comprised of subfields of Tag Data Length Indicator and Data for that Tag (or value), for each Tag, for each route. In this portion, the Tags themselves were defined in the Route Specific Tag portion and hence are not present in the subfields.

This subfield detail is depicted below:

Caption
0 Table 1 Billing File Header Portion
Byte 1 Byte 2 Billing Info Variant

Caption
0 Table 1 Common Portion - Subfield 1
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Tag Length Tag Data

Caption
0 Table 1 Common Portion - Subfield 2
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Tag Length Tag Data

Caption
0 Table 1 Common Portion - Subfield n
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Tag Length Tag Data

Caption
0 Table 1 Route Specific Tag Portion
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Tag Length Tag Data

Caption
0 Figure 1 Route Speific Data Portion- Route1 Length1
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length 1 Data 1

Caption
0 Table 1 Route Speific Data Portion - Route1 Length2
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length 2 Data 2

Caption
0 Table 1 Route Speific Data Portion - Route1 Length1
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length n Data n

Caption
0 Table 1 Route Speific Data Portion - Route1 Length1
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length 1 Data 1

Caption
0 Figure 1 Route Speific Data Portion - Route1 Length2
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length 2 Data 2

Caption
0 Table 1 Route Speific Data Portion - Route1 Length n
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length n Data n

Caption
0 Table 1 Route Speific Data Portion - Route n Length1
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length 1 Data 1

Caption
0 Table 1 Route Speific Data Portion - Route n Length 2
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length 2 Data 2

Caption
0 Table 1 Route Speific Data Portion - Route n Length n
Byte 1 Byte 2 Byte 3 Byte 4 ..... Byte n Length n Data n

Billing Info Variant

This field contains a two byte Billing Information Variant. This subfield is provisioned on the PSX. This field is always occupied by four hexadecimal characters representing two bytes of binary data. A user provisioned Billing Information Variant of 0000 is depicted below.

Caption
0 Table 1 Billing Info Variant
Billing Info Variant Byte 1 Byte 2 00 00

Tag, Length, and Tag Data

The Billing information Variant Data table lists the Tags, Tag Data lengths, and Tag Data descriptions that apply to the Billing Information Variants. In this table, the Max Length is the value provisioned in the PSX Billing Info entity. The Max Length value is always less than or equal to the Max Length Limit value, which is hard coded into the entity.

As mentioned previously, every Tag/Length/Value subfield and Route Specific Length/Value must be provisioned in the Billing Info entity on the PSX in order to be present in any accounting record. Furthermore, the Billing Info Profile ID that is provisioned on PSX must be associated with the (ingress) trunk group entity, also on the PSX. See the "PSX Policy Server Provisioning Guide" for these procedures.

When the length of the data that contains integer or hex digits is an odd number, the most significant byte will have a leading "0".

When the length of the data that contains BCD digits is an odd number, the most significant byte will have a leading "F".

The SCP may return certain values more than once. If this is the case, the corresponding subfield is populated in the PSX Billing Info field once per SCP reply. Data from each reply is appended to the end of Common Portion field, so the first occurrence of a subfield corresponds with the first SCP reply, the next occurrence with the second reply, and so on. The following SCP subfields may be populated more than once in PSX Billing Info field:

• 0002 – SCP Pin Digits
• 0006 – SCP returned Supp Dig
• 0007 – SCP Call Info
• 0008 – SCP Bill

Example 1

The following PSX Billing Info field is defined in the following table.

00000005000001010603E903F60389000901F1000B03F978580004022345000A01F1000D03F97869000E0100000F010000100A4D696C696E6473204269000C03F60346001304F46089800FA0040FA10FA20100010F01000109010001090100010901000109

Caption
0 Table 1 PSX Billing Information Record Example 1
Tag Length Value Description HEADER PORTION 0000 Variant COMMON PORTION 0005 00 Ingress Switch ID (no value provisioned) 0001 01 06 Carrier ID Origin (6=950 Access) 03E9 03 F60389 Called LRN (60389) 0009 01 F1 Calling Country Code (1) 000B 03 F97858 Calling LRN (97858) 0004 02 2345 Ingress TG Number (2345) 000A 01 F1 Called Country Code (1) 000D 03 F97869 Normalized Calling Number (97869) 000E 01 00 SCP Dip Indicator (0=No Dip) 000F 01 00 Ported M bit Indicator (0=No M bit set) 0010 0A 4D696C696E6473204269 Scratch Pad 000C 03 F60346 Normalized Called Number (60346) 0013 04 F4608980 The 7-digit Translated Number returned by the SCP (4608980) ROUTE SPECIFIC TAG PORTION 0FA0 04 0FA1 0FA2 Meta Tag (Eg Charge Ind, Eg TG Number) ROUTE SPECIFIC DATA PORTION 01 00 Route 1 Egress Charge Indicator (0) 01 0F Route 1 Egress Trunk Group Number (15) 01 00 Route 2 Egress Charge Indicator (0) 01 09 Route 2 Egress Trunk Group Number (9) 01 00 Route 3 Egress Charge Indicator (0) 01 09 Route 3 Egress Trunk Group Number (9) 01 00 Route 4 Egress Charge Indicator (0) 01 09 Route 4 Egress Trunk Group Number (9) 01 00 Route 5 Egress Charge Indicator (0) 01 09 Route 5 Egress Trunk Group Number (9)

Example 2

The PSX Billing Information record below

000100010101000203F1234500030120000403022345000501990006029876000701000008045678EF9A03E905978555121200070122

Caption
0 Table 1 PSX Billing Information Record Example 2
Tag Length Value Description HEADER PORTION 0001 Variant COMMON PORTION 0001 01 01 Carrier ID Origin (01) 0002 03 F12345 SCP PIN Digits (12345) 0003 01 20 SCP Treatment Index (20) 0004 03 022345 Ingress TG Number (22345) 0005 01 99 Ingress Switch ID (99) 0006 02 9876 SCP Returned Supplementary Digits (9876) 0007 01 00 SCP Call Information (First SCP Reply - 00) 0008 04 5678EF9A SCP Billing Information (5678EF9A) 03E9 05 9785551212 Access LRN (9785551212) 0007 01 22 SCP Call Information (Second SCP Reply - 22)

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originatingTdm originatingTdm

Originating TDM Trunk Group Type

This field is supplied by the PSX, after customer specific provisioning. If this field is not provisioned on the PSX, it is left empty ("").

For more information on the TDM Trunk Group Type, refer to TDM Trunk Group Type Enumeration Values.

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terminatingTdm terminatingTdm

Terminating TDM Trunk Group Type

This field is supplied by the PSX, after customer specific provisioning. If this field is not provisioned on the PSX, it is left empty ("").

For more information on the TDM Trunk Group Type, refer to TDM Trunk Group Type Enumeration Values.

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ingressTrunkMember ingressTrunkMember

Ingress Trunk Member Number

Ingress Trunk Member Number. The ingress trunk member number that was provisioned on the GSX/ 

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  circuit endpoint.

This field takes the decimal values 0-65534. If this field was not provisioned, or was subsequently UNSET for this circuit, it is left empty ("").

If the ingress trunk group is an IP trunk group, this value is always set to 1.

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egressTrunkGroupId egressTrunkGroupId

Egress Trunk Group ID

Egress Trunk Group ID. The egress trunk group ID on the egress GSX/SBC. The content of this field will differ from the corresponding field in the FE Parameter record whenever the final switch is not the same as the egress GSX/

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.

This field is supplied by the PSX, taking the decimal values 0 - 4095. If this field is not provisioned on the PSX, it is left empty ("").

This field is supplied to the GSX/

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 by the PSX as a 13-character string terminated by a NULL character (""). Therefore, future PSX releases may supply Trunk Group IDs outside the above specified range.

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egressSwitchId egressSwitchId

Egress Switch ID

Egress Switch ID. The egress switch ID on the egress GSX/

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. The content of this field will differ from the corresponding field in the FE Parameter record whenever the final switch is not the same as the egress GSX/SBC.

This field is supplied by the PSX, taking the decimal values 0 - 1023. If this field is not provisioned on the PSX, it is left empty ("").

This field is supplied to the GSX/

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 by the PSX as a 9-character string terminated by a NULL character (""). Therefore, future PSX releases may supply Trunk Group IDs outside the above specified range.

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ingressLocalAtmAddress ingressLocalAtmAddress

Ingress Local ATM Address

ATM address of the local physical port attached to the ATM network on the ingress leg of the call.

Because this field is not currently supported, it is always empty ("").

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ingressRemoteAtmAddress ingressRemoteAtmAddress

Ingress Remote ATM Address

ATM address of the remote physical port attached to the ATM network on the ingress leg of the call.

Because this field is not currently supported, it is always empty ("").

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egressLocalAtmAddress egressLocalAtmAddress

Egress Local ATM Address

ATM address of the local physical port attached to the ATM network on the egress leg of the call.

Because this field is not currently supported, it is always empty ("").

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egressRemoteAtmAddress egressRemoteAtmAddress

Egress Remote ATM Address

ATM address of the remote physical port attached to the ATM network on the egress leg of the call.

Because this field is not currently supported, it is always empty ("").

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policyResponseCallType policyResponseCallType

Policy Response Call Type

The PSX call type, based on the results of the digit analyses performed by the PSX, which is then used as part of the route selection process.

The call type enumeration permits 31 predefined (Ribbon) values [0-30] and 31 user defined values [1001-1031] as shown in the following table.

Caption
0 Table 1 Policy Response Call Type Enumeration Values
Policy Response Call Type Value Unknown 0 No Digits 1 Lec Operator 2 Subscriber Operator 3 National Operator 4 Subscriber 5 National 6 Vertical Service Code 7 Emergency 8 Directory Assistance 9 Ein 10 Free 11 Premium 12 Ixc Operator 13 International 14 International Operator 15 Service Access Code 16 Carrier Code 17 Carrier Code 2 18 Private 19 Premium 20 Internet Offload Standard 21 Internet Offload Economy 22 Internet Offload Anonymous 23 IP VPN 24 Test 25 Internet Reception Service 26 Transit 27 Other Carrier Chosen 28 Reserved for Ribbon 29-30 Reserved 31 Start 1000 Reserved for Users 1001-1031

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outgoingRouteId outgoingRouteId

Outgoing Route Identification

The outgoing trunk group number for calls that overflow from one gateway to another via a Singapore Inter-Gateway Circuit (IGC) trunk. The GSX/

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 extracts this decimal value (0-65536) from the optional "Outgoing Route Identification (ORI)" parameter in the ISUP Address Complete Message (ACM).

If GSX/

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 is not deployed in a Singapore network, the field is left empty ("").

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outgoingMessageId outgoingMessageId

Outgoing Message Identification

The type of route that was selected from a GSX/

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 deployed in a Singapore network. The GSX/

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 will extract this value from the optional "Outgoing Route Identification (ORI)" parameter in the ISUP Address Complete Message (ACM).

The following table lists these routes types.

Caption
0 Table 1 Outgoing Message Identification Enumeration Values
Outgoing Message ID Value National Route 0 Transit Route 1 Terminating Route 2 Spare 3

If the ORI is not present, the GSX/ 

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 will generate and populate the Outgoing Message Identification according to the Network Indicator as follows:

• If the Network Indicator is set to "2" (National 1), then the Outgoing Message Identification is set to "0" (National Route).
• If the Network Indicator is set to "0" (International) and the GSX/

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   is a transit exchange, then the Outgoing Message Identification is set to "1" (Transit Route).
• If the Network Indicator is set to "0" (International) and the GSX/

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   is not a transit exchange, then the Outgoing Message Identification is set to "2" (Terminating Route).

If GSX/

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 is not deployed in a Singapore network, the field is left empty ("").

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incomingRouteId incomingRouteId

Incoming Route Identification

The incoming trunk group number on a GSX/

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 deployed in a Singapore network. The GSX/

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 will extract this value from the optional "Incoming Route Identification (IRI)" parameter in the ISUP Initial Address Message (IAM).

If the IRI is not present or if GSX/

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 is not deployed in a Singapore network, then this field contains the ingress trunk ID/Number that is configured on the PSX.

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callingName callingName

Calling Name

The calling party's name in text.

The ANSI SS7 specification defines this field as up to 15 characters of name information coded in IA5 format. The GSX/

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 passes this 15-character string to the PSX in Policy Request message. The PSX returns a Calling Name in the Policy Response that is either the same or a new Calling Name. New Calling Names provided by the PSX may be up to 24 characters. Hence the maximum length of this string is 26 characters (24-character string plus delimiting double quotes "").
The following transformations may be applied to this string:

• Non-printable IA5 characters (1..31 and 127) are displayed as white space (blanks).
• Commas are displayed as is (because the delimiters are the double quotes).
• Double quotes are displayed as single quotes.

Caption
0 Table 1 lists examples of these transformations
Calling Name in Policy Response Calling Name in CDR Doe, John<NULL> ,"Doe, John", Jake "the snake"<NULL> ,"Jake 'the snake'", Smith<CR>Mary<CR><NULL> ,"Smith Mary ", <NULL> ,,

If the Calling Name is unknown, or not provided, then the field is left blank without displaying the double quotes as depicted in the last example above.

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callingNameType callingNameType

Calling Name Type

The Calling Name Type delivered in the PSX Policy Response.

Caption
0 Table 1 lists the Calling Name Types
Calling Name Type Value Invalid 0 Spare 1 Calling Name 2 Original Calling Name 3 Redirect Name 4 Connected Name 5

If Calling Name data is not available, this field is left empty ("").

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incomingCpnp incomingCpnp

Incoming Calling Party Numbering Plan

This field represents the Calling Party Numbering Plan received in the incoming setup message. For ISUP calls this value is extracted from the optional Calling Party Number parameter in the Initial Address Message (IAM). For SIP calls, this value is extracted from the FROM header.

The value logged to the CDR does not comply to the standard ISUP enumeration. This decimal value (range 0-15) must be interpreted according to the below table.

Caption
0 Table 1 Numbering Plan Enumerations
CPC/CDR Value (decimal) ISUP Value (binary) Numbering Plan 0 N/A Indicates that this data is: unavailable unknown an invalid numbering plan (the received ISUP value is greater than 7). 1 001 ISDN numbering plan (Rec. E.164, E.163) 2 011 Reserved ITU-TS Data Numbering Plan 3 100 Reserved ITU-TS Telex Numbering Plan 4 101 Private numbering plan 8 000 Unknown numbering plan 10 010 Spare 2 14 110 Spare 6 15 111 Spare 7

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outgoingCpnp outgoingCpnp

Outgoing Calling Party Numbering Plan

The GSX/

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 sends the "Incoming Calling Party Numbering Plan" to the PSX in the Policy Request message. As part of the routing process the PSX may manipulate the Calling Party Numbering Plan. This possibly modified value is then sent back to the GSX/

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 where it is used in outgoing signaling messages. This value is logged as the "Outgoing Calling Party Numbering Plan".

The value logged to the CDR does not comply to the standard ISUP enumeration. This decimal value (range 0-15) must be interpreted according to Table 43.

Info
title Note
If the PSX does not manipulate this field, then the Incoming and Outgoing Calling Party Numbering Plans are identical.

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callingPartyBgi callingPartyBgi

Calling Party Business Group ID

START-91, STOP-110, ATTEMPT-101, INTERMEDIATE-91

This value represents the Business Group ID of the calling party. The GSX/

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 receives this value in the SIP INCOMING INVITE message.

This decimal value is in the range 0 to 4294967295. If this data is not present or unknown, then a one "1" (Public Business Group) is logged.

SIP is the only protocol which supports Business Group IDs. For all other protocols (ISUP, H323, etc.) this field is logged as "1".

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calledPartyBgi calledPartyBgi

Called Party Business Group ID

This value represents the Business Group ID of the called party. The GSX/

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 receives this value in the SIP INCOMING INVITE message. This value is then sent to the PSX in the Policy Request message. As part of the routing process the PSX may modify this value and return it in the Policy Response. The GSX/

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 logs the value supplied by the PSX, not the value received in the SIP INCOMING INVITE message.

This decimal value is in the range 0 to 4294967295. If this data is not present or unknown, then a one "1" (Public Business Group) is logged.

SIP is the only protocol which supports Business Group IDs. For all other protocols (ISUP, H323, etc.) this field is logged as "1".

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callingPartyPpdn callingPartyPpdn

Calling Party Public Presence Directory Number

The Calling Party Public Presence Directory Number (PPDN) is an optional SIP parameter which is propagated as the calling number when a call goes into the Public PSTN. If the SIP INCOMING INVITE message's Remote Party ID header contains id-context=ppdn, then the Remote Party ID is interpreted and logged as the Calling PPDN.

This string is up to 30 characters.

If the id-context is not PPDN or if the ingress protocol is not SIP, then this field is empty ("").

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elapsedTimeSetupMessageToLastCall elapsedTimeSetupMessageToLastCall

Elapsed Time from Receipt of Setup Message to Last Call Routing Attempt

Carriers bill each other based on Carrier Elapsed Time (as opposed to Customer Elapsed Time). Carrier Elapsed time is defined as the Carrier Connect Time to call disconnect time. Telcordia GR-508-CORE defines Carrier Connect Time as:

 "The time when first wink is received from a carrier for Feature Group D (FGD) calls. For Feature Group B (FGB) calls, carrier connect time is the time when carrier off-hook is detected."

The closest the GSX/

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 can get to recording the actual carrier connect time is to capture when the IAM for the selected route was sent. The selected route is always the final route attempted. The GSX/

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 will capture and log the "Time Elapsed from Receipt of Setup Message to Last Call Routing Attempt".

This field contains that elapsed time in 10 millisecond ticks. If no routing attempts were made, then this field is left empty ("").

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billingNoa billingNoa

Billing Number NOA

The incoming ISUP IAM message may contain an optional "Charge Number" parameter. This parameter contains a nature of address (NOA) indicator for the charge number. The GSX/

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 logs this value. See Incoming ISUP Charge Number NOA.

The GSX/

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 also sends this incoming value to the PSX in the Policy Request message. As part of the routing process the PSX may override this value with the Billing Number NOA provisioned for the ingress trunk group. The PSX returns this possibly modified NOA to the GSX/

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 in the Policy Response message. The GSX/

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 uses this returned value in outgoing signaling messages and logs it to this field, the "Billing Number NOA".

This field takes a decimal value in the range 1 to 255. If Billing Number NOA is unknown, then this field is left empty ("").

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incomingCallingNOA incomingCallingNOA

Incoming Calling Number NOA

START-96 STOP-115 ATTEMPT-107 INTERMEDIATE-98

The incoming ISUP IAM message may contain an optional "Calling Number" parameter. This parameter contains a nature of address (NOA) indicator for the calling number. The GSX/

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 logs this NOA in this field.

Info
title Note
The outgoing calling number NOA is determined by the PSX and is logged in the "Calling Party Nature of Address" field. See Calling Party Nature of Address.

This field takes a decimal value in the range 1 to 255. If an Incoming Calling Number NOA is not received, then this field is left empty ("").

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egressTrunkMember egressTrunkMember

Egress Trunk Member Number

The Trunk Member used by the egress trunk group for this call. This number uniquely identifies the channel used for this call. The Trunk Member object can be configured for ISDN, ISUP and CAS service groups.

This field takes a decimal value in the range 0 to 65535. If the Trunk Member for the ISDN, ISUP, or CAS egress trunk group is not configured, then this field is left empty ("").

If the egress trunk group is an IP trunk group, this value is always set to "1".

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selectedRouteType selectedRouteType

Selected Route Type

This field identifies the destination gateway's type, such as GSX/

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 Gateway, SIP Proxy Server, ASX Gateway, etc. See the table for a the definition of each valid type. See "Route Selected" for additional destination gateway information that is logged.

This field takes a decimal value in the range 0-8. For terminating records, this field is left empty ("").

Caption
0 Table 1 Selected Route Types
CDR Value Route Type NULL (Not Applicable - a terminating record) 0 CPC_ROUTE_TYPE_UNKNOWN 1 CPC_ROUTE_TYPE_GATEWAY 2 CPC_ROUTE_TYPE_GATEWAY_LOCAL 3 CPC_ROUTE_TYPE_SIPPROXY 4 CPC_ROUTE_TYPE_H323GATEKEEPER 5 CPC_ROUTE_TYPE_H323GATEWAY 6 CPC_ROUTE_TYPE_ASXGATEWAY 7 CPC_ROUTE_TYPE_SIPPROXY_LOCAL 8 CPC_ROUTE_TYPE_H323GATEWAY_LOCAL

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telcordiaLongRecordType telcordiaLongRecordType

Telcordia Long Duration Record Type

A decimal value indicating what type of Telcordia record is being represented:

Caption
0 Table 1 Telcordia Long Duration Record Type Field
CDR Value Telcordia Record Type 0 Not a Telcordia Long Duration call or Telcordia Long Duration accounting is not enabled. This value can occur in both INTERMEDIATE and STOP records. 1 Telcordia Long Duration First record. This value means that the call met the Telcordia Long Duration requirements (call has been active for a time which is more than the configured threshold value at the time of daily Telcordia audit). This value only occurs in the first INTERMEDIATE record for a given call, never in the STOP record or in subsequent INTERMEDIATE records. 2 Telcordia Long Duration Continuation record. This value means that at least one Telcordia Long Duration INTERMEDIATE record is generated for this call prior to this record. This value can occur in both INTERMEDIATE and STOP records.

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timeElapsedPreviousRecord timeElapsedPreviousRecord

Time Elapsed from Previous Record

Specifies the elapsed time, in 10 millisecond ticks, from the previous record for this call to this record. The previous record is either a START record, or an INTERMEDIATE record. This record is either an INTERMEDIATE record or a STOP record.

If intermediate record mode is interval, this value is approximately 100 times the configured intermediate interval. The interval range of 5 seconds to 24 hours results in a field range of 500 - 8,640,000 milliseconds.

If intermediate record mode is Telcordia, the first Telcordia record range is from 8,640,000 milliseconds (24 hours) to 17,279,999 milliseconds (48 hours minus 10 milliseconds). The continuation Telcordia record range for STOP records is 0 milliseconds (call disconnected immediately following a long duration record generation) to 4,294,967,295 milliseconds. INTERMEDIATE Telcordia continuation records will always show 4,294,967,295 milliseconds in this field.

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cumulativeRouteIndex cumulativeRouteIndex

Cumulative Route Index

This decimal value reflects the overall route index used to route this call, counting all prior policy responses. This index can be combined with the Routing Label (see Route Label) to determine the chosen route.

A related field, "Route Index Used", is an index into the most recent policy response.

For example, assume the RL contains 28 routes, and the 25th route succeeds. The first policy response contains 10 routes, none of which succeed. The second policy response also contain 10 routes, again none succeed. The final policy response contains 8 routes, of which the 5th one succeeds. In this case "Route Index Used" is 5 and "Cumulative Route Index Used" is 25.

The range of this value is 1-65535. This field is empty ("") if no routes are chosen to route this call.

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callDisconnectIngress callDisconnectIngress

Call Disconnect Reason Transmitted to Ingress

This value represents the disconnect reason (or cause code) sent by the local GSX/ 

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 to the ingress network (that is, toward the calling party). If the ingress network is another GSX/

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, then this field will contain the disconnect reason sent by this local GSX/

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 to that remote GSX/

Spacevars
0 product

. This disconnect reason is not necessarily the same value the remote GSX/

Spacevars
0 product

 sends to its ingress network. The transmitted reason is derived from the Release Message (REL) and not from other messages, such as ACM. If the release was initiated by the calling party, this field is empty ("").

If the actual disconnect reason (received from egress or internally generated) is not defined by the ingress signaling protocol, then the reason is mapped to a reason which is defined before being sent.

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callDisconnectEgress callDisconnectEgress

Call Disconnect Reason Transmitted to Egress

This value represents the disconnect reason (or cause code) sent by the local GSX/

Spacevars
0 product

 to the egress network (i.e., toward the called party). If the egress network is another GSX/

Spacevars
0 product

, then this field contains the disconnect reason sent by this local GSX/

Spacevars
0 product

 to the remote GSX/

Spacevars
0 product

. This disconnect reason is not necessarily the same value the remote GSX/

Spacevars
0 product

 sends to its egress network. The transmitted reason is derived from the Release Message (REL) and not from other messages, such as ACM. If the release was initiated by the called party, then this field is empty ("").

If the actual disconnect reason (received from ingress or internally generated) is not defined by the egress signaling protocol, then the reason is mapped to a reason which is defined before being sent.

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IsdnPriCallingPartySubaddress IsdnPriCallingPartySubaddress

ISDN PRI Calling Party Subaddress

This string identifies the calling party subaddress associated with a call's origin. Although ISDN document Q.931E specifies that Calling Party Subaddress may contain up to 40 characters, this field is limited to 30 characters on GSX/

Spacevars
0 product

.

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outgoingTGNumberEXM outgoingTGNumberEXM

Outgoing Trunk Group Number in EXM

The Outgoing Trunk Group Number (OTGN) is an optional parameter in the Exit Message (EXM), and is a string of up to six digits. If an EXM is received containing an OTGN, then this field is populated with that value. If an EXM is generated by the GSX/

Spacevars
0 product

, then the OTGN in the EXM is taken from the Service Group Profile and that value is also written to this field. Otherwise, this field is empty ("").

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ingressLocalGatewayIp ingressLocalGatewayIp

Ingress Local Gateway Signaling IP Address

For packet based ingress trunk groups, the IPv4 or IPv6 address used for ingress signaling on the local GSX/

Spacevars
0 product

. The IPv4 address is in dotted decimal format, for example 128.1.22.233 and IPv6 address in hexadecimal/colon format, for example fd00:21:445:128::7880. (the local GSX/

Spacevars
0 product

 generates this accounting record; the device at the far end of the packet network is the remote address).

If the ingress trunk group is circuit based, this field is empty ("").

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ingressRemoteGwIp ingressRemoteGwIp

Ingress Remote Gateway Signaling IP Address

For packet based ingress trunk groups, the IPv4 or IPv6 address is used for ingress signaling on the far end of the packet network. The IPv4 address is in dotted decimal format, for example 128.1.22.233 and IPv6 address in hexadecimal/colon format, for example fd00:21:445:128::7880. (the local GSX/

Spacevars
0 product

 generates this accounting record; the device at the far end of the packet network is the remote address.) The device at this address may be another GSX/

Spacevars
0 product

 gateway, an H.323 device, or a SIP device.

If the ingress trunk group is circuit based, this field is empty ("").

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recordSequenceNumber recordSequenceNumber

Record Sequence Number

 The sequence number of this record relative to other records in the file. Depending upon how the parameter is configured, this is either:

• a 16-bit sequence number from 0 to 65535 (5 characters maximum), or
• a 32-bit sequence number from 0 to 4294967295 (10 characters maximum).

This number starts at zero and increments by one each time a new record is written. The software maintains only one sequence regardless of the record type. When the sequence number reaches its maximum configured value, either 65535 or 4294967295, it wraps to zero and begins incrementing again (for example 65534, 65535, 0, 1, 2...). The incrementing continues through file roll-overs.

A sequence number of zero occurs only on a reboot (switchover), or a natural wraparound. (A natural wraparound sequence is 65534, 65535, 0, 1, 2 and so on.)

This field is intended to help reconcile billing records after events which may result in lost accounting records.

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tmr tmr

Transmission Medium Requirement (TMR)

This field is a fixed parameter in the ITU ISUP Initial Address Message (IAM).

For ISUP calls, this information is populated from the TMR parameter, if it is present. If the TMR parameter is absent, this information is populated from the USI parameter. The TMR parameter is mandatory in ITU and the USI parameter is mandatory in ANSI. Because the TMR parameter or the USI parameter is always present, this field is always populated.

 For CAS ingress calls, this field is populated from the capabilities set in the circuit service profile as follows:

• If value = circuitModeData, then T1 channels are set to CPC_TG_TRANSFER_CAP_RESTRICTED. E1 channels are set to CPC_TG_TRANSFER_CAP_RESTRICTED if type is restricted, or to CPC_TG_TRANSFER_CAP_UNRESTRICTED if type is unrestricted.
• If value = voiceOnly, then T1 and E1 channels are set to CPC_TG_TRANSFER_CAP_SPEECH.
• If value = voiceorCircuitModeData, then T1 and E1 channels are set to CPC_TG_TRANSFER_CAP_3_1KHZ_AUDIO.

For incoming SIP calls, if the incoming INVITE has PSTN parameters, then the value of this field is taken from those PSTN headers. If an incoming SIP call is received without PSTN parameters, the default value CPC_TG_TRANSFER_CAP_3_1KHZ_AUDIO is placed into this field. For outgoing SIP calls, if Include PSTN Parameters is enabled in the PSX IP Signaling Profile, then these parameters are included in the SIP headers. Otherwise they are not included in outgoing INVITE.

The decimal value in range 0-255 must be interpreted according to the following table:

Caption
0 Table 1 Transmission Medium Requirement
TMR CDR Value (decimal) ISUP Value (binary) TMR Description 0 00000 CPC_TG_TRANSFER_CAP_SPEECH 8 00010 CPC_TG_TRANSFER_CAP_UNRESTRICTED 9 01001 CPC_TG_TRANSFER_CAP_RESTRICTED 16 10000 CPC_TG_TRANSFER_CAP_3_1KHZ_AUDIO 17 10001 CPC_TG_TRANSFER_CAP_UNRESTRICTED_WITH_TONES 18 11000 CPC_TG_TRANSFER_CAP_VIDEO 1-7 10-15 19-255 Spare

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itr itr

Information Transfer Rate (ITR)

For ISUP calls, the User Service Information (USI) parameter is mandatory for ANSI, and optional for ITU. The five least significant bits of the second octet in this parameter contain the Information Transfer Rate. If the USI is present, this field is populated according to the ISUP values in the table below. If the USI is absent, then this field is always populated with the value CPC_TG_TRANSFER_RATE_64KBITS.

For CAS ingress calls, this field is always CPC_TG_TRANSFER_RATE_64KBITS.

For SIP ingress calls, if the incoming INVITE has PSTN parameters, then the value of this field is taken from those PSTN headers. If an incoming SIP call is received without PSTN parameters, the default value CPC_TG_TRANSFER_RATE_64KBITS is placed into this field. For outgoing SIP calls, if includePstnParameters is enabled in the PSX IP Signaling Profile, then these parameters are included in the SIP headers. Otherwise they are not included in outgoing INVITE.
This decimal value in the range 0-31 must be interpreted according to the table below . Note that these values do not correspond to the ISUP Q.931 definitions.

Caption
0 Table 1 Information Transfer Rate
ITR CDR Value (decimal) ISUP Value (binary) ITR Description 0 00000 CPC_TG_TRANSFER_RATE_PACKET 8 10000 CPC_TG_TRANSFER_RATE_64KBITS 11* 10001 CPC_TG_TRANSFER_RATE_2x64KBITS 13* 10011 CPC_TG_TRANSFER_RATE_384KBITS 14* 10100 CPC_TG_TRANSFER_RATE_1472KBITS 15* 10101 CPC_TG_TRANSFER_RATE_1536KBITS 17* 10111 CPC_TG_TRANSFER_RATE_1920KBITS 18* 11000 CPC_TG_TRANSFER_RATE_MULTIRATE 1-7, 9, 10, 16, 19-31 Spare

• This value does not comply with Q.931

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usiLayer1 usiLayer1

User Service Information (USI) User Information Layer 1

The User Service Information (USI) parameter is optional in the ISUP IAM. The five least significant bits of the third octet in this parameter contain the User Information Layer 1 (UIL1) Protocol. If the USI is not present in the IAM, or if the ingress service group is not ISUP, then this field is empty ("").

This decimal value (range 0-31) must be interpreted according to the below table.

Caption
0 Table 1 USI User Information Layer 1
USI-UIL1 CDR Value (decimal) ISUP Value (binary) USI-UIL1 Description 0 N/A CPC_TG_UINFO_LAYER1_NO_INDICATION 1 00001 CPC_TG_UINFO_LAYER1_CCITT_STD_V110X30 2 00010 CPC_TG_UINFO_LAYER1_G711_uLAW_SPEECH 3 00011 CPC_TG_UINFO_LAYER1_G711_ALAW_SPEECH 4 00100 CPC_TG_UINFO_LAYER1_32KBIT_ADPCM 5 00101 CPC_TG_UINFO_LAYER1_G772_G725_7KHZ CPC_TG_UINFO_LAYER1_H221_H242 6 00110 CPC_TG_UINFO_LAYER1_H223_H245 7 00111 CPC_TG_UINFO_LAYER1_NON_CCITT_RA 8 01000 CPC_TG_UINFO_LAYER1_CCITT_STD_V120 9 01001 CPC_TG_UINFO_LAYER1_CCITT_STD_X31_HDLC 10-31 Spare

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unrecognizedRawIsup unrecognizedRawIsup

Unrecognized Raw ISUP Calling Party Category

This field contains the actual (raw) value of the calling party category if this value is not recognized by this GSX/ 

Spacevars
0 product

, otherwise this field is empty ("").

If present, the decimal value of this field is in the range 0-255.

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egressRlt egressRlt

Egress RLT Feature Specific Data

The Egress Release Link Trunking (RLT) Feature Specific Data field is populated only when SS7 Release Link Trunking occurs on the egress leg of the call, otherwise this field is empty ("").

A Facility Request Message (FAR) is sent backward from the Redirecting Node to the call-originating node (Pivot Node) to request activation of an RLT service.

Any call that is bridged or redirected creates two accounting records: one for the initial call (AR) and one for the bridged or redirected call (BR). The table below presents the CDR logging scenarios for original, bridged, and redirected calls.

If more than one RLT (redirecting or bridging) occurs on the egress leg of the call, then only the data for the last RLT is present. When bridging occurs, the redirect Sub-Fields are empty (""). Similarly, when redirect occurs, the bridging Sub-Fields are empty (""). This field is a maximum of 598 characters, including all comma separators and the double quotation mark delimiters ("").

The Release Link Trunking Sub-Fields page provide additional explanation about certain Sub-Fields.

Example RLTs:

Redirecting:
"RLT,30,0:4000123456,0:3000123456,1:2000123456,0:1000123456,0:123456,1:0000123456,2:BADC,3:ABCD0102,3330,0:8005551212,1:8005551212,2:0850552121,3:0850552121,7864351112,7865550017,2146809413,19,0,8637,0,,,,,,,,,,"

Bridging:
"RLT,30,0:4000123456,0:3000123456,1:2000123456,0:1000123456,0:123456,1:0000123456,2:BADC,3:ABCD0102,7491,,,,,,,,,,,,2:48656C6C6F,0:2200123456,0:3300123456,0:4400123456,9785550000,9785551212,00070004:050505,0,15123,2033"

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2BChannelTransfer 2BChannelTransfer

Two B-Channel Transfer Feature Specific Data

This field is populated only when a Two B-Channel Transfer occurs, otherwise this field is empty ("").

If one transfer occurs, then the first three Sub-Fields are populated. If a second transfer occurs, an additional Sub-Field is populated that indicates the time of that transfer. Unpopulated Sub-Fields are empty (""). This field is a maximum of 72 characters, including all comma separators and the double quotation mark delimiters (""). The following table describes the field format.

Caption
0 Table 1 Two B-Channel transfer Feature Specific Data
Sub- Field Name Max Length Type Description 1 Feature Identifier 4 Characters Always "TBCT" 2 Number of Sub-Fields to Follow 1 Decimal The number of transfers that have occurred. Must be 1-2. 3 Time Elapsed from Receipt of Setup Message to First Transfer Initiation 10 Digits Time in 10 ms ticks 4 Time Elapsed from Receipt of Setup Message to Second Transfer Initiation (if this transfer occurred) 10 Digits Time in 10 ms ticks

Example:

"TBCT,2,523,1179"

This string indicates two transfers occurring at 5.23 and 11.79 seconds after the call was established.

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callingPartyBusinessUnit callingPartyBusinessUnit

Calling Party Business Unit

This field contains the Business Unit ID (or Sub-Group ID) of the Calling Party. This data is supplied by the PSX in the Policy Response. If Business Unit data is not available for the call, this field is empty ("").

If present, the decimal value of this field is in the range 0-4294967295.

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calledPartyBusinessUnit calledPartyBusinessUnit

Called Party Business Unit

This field contains the Business Unit ID (or Sub-Group ID) of the Called Party. This data is supplied by the PSX in the Policy Response. If Business Unit data is not available for the call, this field is empty ("").

If present, the decimal value of this field is in the range 0-4294967295.

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redirection redirection

Redirection Feature Specific Data

This field captures the redirection information that happens to a call before it is processed by the GSX/SBC. This information is supplied by the originating network in the call setup message (the ISUP IAM message or the SIP INVITE message). This field does not refer to redirects performed internally by the GSX/SBC or PSX.

This field format is similar to the "Egress RLT Feature Specific Data" and the "Two B-Channel Transfer Feature Specific Data".

Field format is described in the below table.

Caption
0 Table 1 Redirection Feature Specific Data
Sub- Field Name Max Length Type Description 1 Feature Identifier 4 Characters Always "REDI" 2 Number of Sub-Fields to Follow 2 Decimal The number of redirect sub-fields. Eleven redirect subfields are logged if present. For example, as optional parameters supplied by the originating network in the call setup message, ISUP IAM, or SIP INVITE. 3 Redirecting Number 30 Digits 4 Original Redirecting Called Number 30 Digits 5 Redirect Reason 2 Digits See Table  54 below for code definitions 6 Original Redirect Reason 2 Digits See Table  54 below for code definitions 7 Redirect Counter 2 Digits 8 Redirecting Number (Address Presentation Restriction) 1 Decimal The reason why the address was restricted from presentation presented as an optional parameter in incoming signaling such as ISUP IAM or SIP INVITE. See Table A – 55, "Redirecting Address Presentation Restriction Codes". 9 Redirecting Number (Numbering Plan) 2 Decimal The numbering plan of the parameter presented as an optional parameter in incoming signaling such as ISUP IAM or SIP INVITE. See Table 56, "Redirecting Numbering Plan Codes". 10 Redirecting Number (Nature of Address) 2 Decimal The nature of address of the parameter presented as an optional parameter in incoming signaling such as ISUP IAM or SIP INVITE. See Table  57, "Redirecting Nature of Address Codes". 11 Redirect Number (Number) 30 Digits The Redirect Number, presented as an optional parameter in incoming signaling such as ISUP REL. For example, "01793601618". 12 Redirect Number (Numbering Plan) 2 Decimal The numbering plan of the Redirect Number parameter presented as an optional parameter in incoming signaling such as ISUP REL. See Table 56, "Redirecting Numbering Plan Codes". 13 Redirect Number (Nature of Address) 2 Decimal The nature of address of the Redirect Number parameter presented as an optional parameter in incoming signaling such as ISUP REL.See Table 57, "Redirecting Nature of Address Codes". 14 Redirect Capability 1 Decimal The ability of the preceding office to redirect the call. Valid values: empty - Information Not Available 0 - CPC_RED_CAP_NOT_USED (capability not used) 1 - CPC_RED_CAP_BEFORE_ACM (redirect capability only before ACM is received) 2 - CPC_RED_CAP_BEFORE_ANM (redirect capability only before ANM is received) 3 - CPC_RED_CAP_ALWAYS (redirect capability for the life-time of the call)| 15 Redirect Forward Information Type Flag 1 Decimal The type of Redirect Forward information included. Valid values: empty - Information Not Available 0 - CPC_FORWARD_INFO_TYPE_ID_NOT_USED (redirect not used) 1 - CPC_FORWARD_INFO_TYPE_ID_REDIRECTION_IND (performing redirect indicator)| 16 Redirect Forward Information Possible 1 Decimal The type of redirect supported. Valid values: empty - Information Not Available 0 - CPC_REASON_OF_RED_NOT_USED (redirect not used) 1 - CPC_REASON_OF_RED_LNP_MNP (redirect due to LNP or MNP)| 17 Redirect Forward Information Possible 1 Decimal The ability of the preceding office to redirect the call. Valid values: empty - Information Not Available 0 - CPC_RED_POSSIBLE_NOT_USED (redirect not used) 1 - CPC_RED_POSSIBLE_BEFORE_ACM (redirect possible before ACM is received) 2 - CPC_RED_POSSIBLE_BEFORE_ANM (redirect possible before ANM is received) 3 - CPC_RED_POSSIBLE_ANYTIME (redirect always possible) 18 Redirect Backward Information Type Flag    1  Decimal  The type of Redirect Backward information included. Valid values: empty - Information Not Available 0 - CPC_BACKWARD_INFO_TYPE_ID_NOT_USED (redirect not used) 1 - CPC_BACKWARD_INFO_TYPE_IDREASON _OF_REDIRECTION (performing redirect indicator)| 19 Redirect Backward Information Reason 1 Decimal The reason for redirect by the preceding exchange. Valid values: 20 Number of Redirects 2 Decimal The number of redirects for an LNP/MNP call. The range of valid values for this field is 0-31 or empty (Information Not Available). 21 Redirect Executed 1 Decimal Indicates whether a redirect was executed by the GSX/ Spacevars 0 product . Valid values for this field are: 0 - Redirect not executed 1 - Redirect executed| 22  Redirecting Original Called Number (Nature of Address)  2  Decimal The nature of address of the Redirect Number parameter presented as an optional parameter in incoming signaling such as ISUP IAM or SIP INVITE. See Table 57, "Redirecting Nature of Address Codes". Initially in this release, this subfield is always empty.

Redirect Reason Codes

Caption
0 Table 1 Redirect Reason Codes
ID Definition 0 CPC_OP_RDN_REASON_UNKNOWN 1 CPC_OP_RDN_REASON_USER_BUSY 2 CPC_OP_RDN_REASON_NO_REPLY 3 CPC_OP_RDN_REASON_UNCONDITIONAL 4 CPC_OP_RDN_REASON_DEFLECTION 5 CPC_OP_RDN_REASON_OUT_OF_ORDER 6 CPC_OP_RDN_REASON_SING_CHANGED_NUM_INTERCEPT 7 CPC_OP_RDN_REASON_DEFLECTION_IMMD_RESP 8 CPC_OP_RDN_REASON_MOB_SUBSC_NOT_REACHABLE 9 CPC_OP_RDN_REASON_SPARE_04 10 CPC_OP_RDN_REASON_SPARE_05 11 CPC_OP_RDN_REASON_SPARE_06 12 CPC_OP_RDN_REASON_SPARE_07 13 CPC_OP_RDN_REASON_SPARE_08 14 CPC_OP_RDN_REASON_SPARE_09 15 CPC_OP_RDN_REASON_SPARE_0A 16 CPC_OP_RDN_REASON_SPARE_0B 17 CPC_OP_RDN_REASON_SPARE_0C 18 CPC_OP_RDN_REASON_SPARE_0D 19 CPC_OP_RDN_REASON_SPARE_0E 20 CPC_OP_RDN_REASON_SPARE_0F 21 CPC_OP_RDN_REASON_NETWORK_CONGESTION_VMS

Redirecting Address Presentation Restriction Codes

Caption
0 Table 1 Redirecting Address Presentation Restriction Codes
CDR Value Definition empty not present 0 CPC_ADDR_PRESENTATION_INVALID 1 CPC_ADDR_PRESENTATION_ALLOWED 2 CPC_ADDR_PRESENTATION_RESTRICTED 3 CPC_ADDR_PRESENTATION_NUMBER_UNAVAILABLE 4 CPC_ADDR_PRESENTATION_SPARE

Redirecting Numbering Plan Codes

Caption
0 Table 1 Redirecting Numbering Plan Codes
CDR Value Definition empty not present 0 CPC_ADDR_NUMBERING_PLAN_INVALID 1 CPC_ADDR_NUMBERING_PLAN_ISDN 2 CPC_ADDR_NUMBERING_PLAN_DATA 3 CPC_ADDR_NUMBERING_PLAN_TELEX 4 CPC_ADDR_NUMBERING_PLAN_PRIVATE 8 CPC_ADDR_NUMBERING_PLAN_SPARE0(a.k.a. ISUP Unknown Numbering Plan) 10 CPC_ADDR_NUMBERING_PLAN_SPARE2(a.k.a. ISUP Spare 2) 14 CPC_ADDR_NUMBERING_PLAN_SPARE6(a.k.a. ISUP Spare 6) 15 CPC_ADDR_NUMBERING_PLAN_SPARE7(a.k.a. ISUP Spare 7)

Redirecting NoA Codes

Caption
0 Table 1 Redirecting Nature of Address Codes
CDR Value Definition empty not present 0 CPC_ADDR_NATURE_INVALID 1 CPC_ADDR_NATURE_UNIQUE_SUBSCRIBER_NUMBER 2 CPC_ADDR_NATURE_UNIQUE_NATIONAL_NUMBER 3 CPC_ADDR_NATURE_UNIQUE_INTERNATIONAL_NUMBER 4 CPC_ADDR_NATURE_NON_UNIQUE_SUBSCRIBER_NUMBER 5 CPC_ADDR_NATURE_NON_UNIQUE_NATIONAL_NUMBER 6 CPC_ADDR_NATURE_NON_UNIQUE_INTERNATIONAL_NUMBER 7 CPC_ADDR_NATURE_TEST_LINE_CODE 8 CPC_ADDR_NATURE_NO_NUMBER_PRESENT_OPERATOR_REQUESTED 9 CPC_ADDR_NATURE_NO_NUMBER_PRESENT_CUTTHROUGH_CALL_TO_CARRIER 10 CPC_ADDR_NATURE_950 11 CPC_ADDR_NATURE_ANI_OF_CALLING_PARTY_SUBSCRIBER_NUMBER 12 CPC_ADDR_NATURE_ANI_NOT_AVAILABLE_OR_NOT_PROVIDED 13 CPC_ADDR_NATURE_ANI_OF_CALLING_PARTY_NATIONAL_NUMBER 14 CPC_ADDR_NATURE_ANI_OF_CALLED_PARTY_SUBSCRIBER_NUMBER 15 CPC_ADDR_NATURE_ANI_OF_CALLED_PARTY_NO_NUMBER_PRESENT 16 CPC_ADDR_NATURE_ANI_OF_CALLED_PARTY_NATIONAL_NUMBER 17 CPC_ADDR_NATURE_UNKNOWN 18 CPC_ADDR_NATURE_NO_CHANGE 19 CPC_ADDR_NATURE_NETWORK_SPECIFIC 20 CPC_ADDR_NATURE_SS7_RESERVED 21 CPC_ADDR_NATURE_HK_NATL_UNKNOWN 22 CPC_ADDR_NATURE_NETWORK_NUMBER

When the ingress protocol is SIP, all diversion headers present in the incoming SIP INVITE message are used to populate Redirection Feature Specific Data. The GSX/

Spacevars
0 product

 maps the SIP diversion headers into ISUP parameters. The name-addr of the top-most Diversion header is used to set the ISUP Redirecting Number. The diversion-reason of the top-most Diversion header is used to set the ISUP Redirecting Reason.

When multiple Diversion headers are present, the name-addr of the bottom-most Diversion header is used to set the ISUP Original Redirecting Number, and the diversion-reason of the bottom-most Diversion header is used to set the ISUP Original Redirecting Reason. The ISUP Redirect counter is set equal to the sum of the counters of all Diversion headers in the SIP message.

A diversion header that does not explicitly specify a diversion-counter tag counts as "1". If no redirect occurs, then the entire "Redirection Feature Specific Data" field is empty ("").

Example Redirection Feature Specific Data Field:

"REDI,11,3971912318,3971912315,1,2,10,0,10,6,01793601618,2,19"

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ingressRlt ingressRlt

Ingress RLT Feature Specific Data

The Ingress RLT (Release Link Trunking) Feature Specific Data field is populated only when SS7 Release Link Trunking occurs on the ingress leg of the call, otherwise this field is empty ("").

A Facility Request Message (FAR) is sent backward from the Redirecting Node to the call-originating node (Pivot Node) to request activation of an RLT service.

Any call bridged or redirected creates two accounting records: one for initial call (AR) and one for bridged or redirected call (BR). Table Encoding Data Detail presents the CDR logging scenarios for original, bridged, and redirected calls.

If more than one RLT (redirecting or bridging) occurs on ingress leg of the call, only the data for the last RLT is present. When bridging occurs, the redirect Sub-Fields are empty (""). Similarly, when redirect occurs, bridging Sub-Fields are empty ("").

This field is a maximum of 598 characters, including all comma separators and the double quotation mark delimiters (""). Table USI User Information Layer 1 describes the field format. Table Release Link Trunking Failure provides additional explanation about certain SubFields.

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psxIndex psxIndex

PSX Index

This field, which is configured on the GSX/

Spacevars
0 product

, contains the index of the PSX that routed the call. The decimal value of this field is 0-10, as shown below:

Caption
0 Table 1 PSX Index Field
CDR Value PSX Routing Provider 0 GSX/ Spacevars 0 product Internal Routing 1 Routing Provided by PSX 1 2 Routing Provided by PSX 2 . . . . 10 Routing Provided by PSX 10

Use the ADMIN command to see the names of PSX 1 (left column) and PSX 2 (right column).

The names and indexes of the configured PSXs are recorded in the system event log at PSX creation time. An example of such an entry is:

119 06112004 194858.00001:1.01.MAJOR .DS : PSX created, name: boston, index: 2

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psxCongestionLevel psxCongestionLevel

PSX Congestion Level

This field contains the enumerated congestion level value sent to the GSX/SBC by the PSX in the Policy Response. These enumeration are listed below. If no PSX was involved in routing the call or if congestion control was disabled, then this field is empty ("").

Caption
0 Table 1 PSX Congestion Level Field
CDR Value Congestion Level 0 Clear 1 Low 2 Medium 3 High

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psxProcessingTime psxProcessingTime

PSX Processing Time

This field contains the time in milliseconds that used by PSX to process a Policy Request. This value contributes to the policy response time. If no PSX is involved in routing the call or if no PSX transaction took place, then this field is empty ("").

If present, the decimal value of this field is in the range 0-65535.

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scriptName scriptName

Script Name

This field contains the file name (string of up to 23 characters) of a script executed on behalf of a call. If more than one script is executed, this field contains the name of the last script that executed.

If no script was executed on behalf of this call, this field is empty ("").

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ingressExtAccounting ingressExtAccounting

Ingress External Accounting Data

This field, consisting of an ASCII string with the delimiters "", contains external accounting data from the ingress leg of the call, similar to the "Ingress Protocol Variant Specific Data". This string takes the form:
"<protocol identifier>,<external accounting data>"

The maximum length of the field, including the delimiters, is 128.

Because accounting strings from external entities can contain characters to corrupt a CDR record, the GSX/

Spacevars
0 product

 software performs the following character substitutions:

• all control characters, such as <CR>, <DEL>, <ESC>, and so on, are converted to space (" ")
• double quote (") is converted to single quote (')

Info
title Note
Currently, SIP is the only protocol that logs external accounting data with the string generated when a SIP external signaling peer supplies <external accounting data>: "SIP-PCDR,<external accounting data>"

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egressExtAccounting egressExtAccounting

Egress External Accounting Data

This field, consisting of an ASCII string with the delimiters "", contains external accounting data from the egress leg of the call, similar to the "Egress Protocol Variant Specific Data". This string takes the form:
"<protocol identifier>,<external accounting data>"

The maximum length of the field, including the delimiters, is 128.

See "Ingress External Accounting Data"  for explanation field.

Info
title Note
Currently, SIP is the only protocol that logs external accounting data with the string generated when a SIP external signaling peer supplies <external accounting data>: "SIP-PCDR,<external accounting data>"

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egressRtpPacketizationTime egressRtpPacketizationTime

Egress RTP Packetization Time

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egressAudioBytesSent egressAudioBytesSent

Egress Number of Audio Bytes Sent

Number of Audio Bytes Sent as recorded by the egress DSP/NP (decimal representation of a 64 bit number: 1 - 1.844674407*10¹⁹).

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egressAudioPacketsSent egressAudioPacketsSent

Egress Number of Audio Packets Sent

Number of Audio Packets Sent as recorded by the egress DSP/NP (decimal representation of a 64 bit number: 1 - 1.844674407*10¹⁹).

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egressAudioBytesReceived egressAudioBytesReceived

Egress Number of Audio Bytes Received

Number of Audio Bytes Received as recorded by the egress DSP/NP (decimal representation of a 64 bit number: 1 - 1.844674407*10¹⁹).

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egressAudioPacketsReceived egressAudioPacketsReceived

Egress Number of Audio Packets Received

Number of Audio Packets Received as recorded by the egress DSP/NP (decimal representation of a 64 bit number: 1 - 1.844674407*10¹⁹).

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egressPacketJitter egressPacketJitter

Egress Interarrival Packet Jitter

The maximum interarrival packet jitter time (in millisecond) recorded by the egress DSP/NP. This field is a decimal representation of a 16-bit number, hence must be in the range 0-65535 (This is applicable to RTCP statistics for VoIP calls only).

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egressLatency egressLatency

Egress Last Measurement for Latency

The last measurement for latency (in milliseconds) as recorded by the egress DSP. This field is a decimal representation of a 16-bit number, hence must be in the range 0-65535 (applicable to RTCP statistics for VoIP calls only).

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ingressMaxPacketOutage ingressMaxPacketOutage

Ingress Maximum Packet Outage

This field contains a decimal value up to 10 digits, and logs the maximum duration between received packets, in milliseconds, on ingress side of the call.

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egressMaxPacketOutage egressMaxPacketOutage

Egress Maximum Packet Outage

This field contains a decimal value up to 10 digits, and logs the maximum duration between received packets, in milliseconds, on egress side of the call.

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ingressPacketPlayout ingressPacketPlayout

Ingress Packet Playout Buffer Quality

This field summarizes the DSP media quality for the most recent 31 time intervals of the ingress leg of the call. The default time interval is 20,000 milliseconds or 20 seconds. Customize this time interval via the CLI:

The playout buffer quality is averaged over this interval and then quantized into one of four discrete levels characterized by the bit patterns:

• 00 = GOOD
• 01 = ACCEPTABLE
• 10 = POOR
• 11 = UNACCEPTABLE

Data for the most recent 31 time intervals is recorded. These 62 bits of data (31 intervals x 2 bits/interval) are represented in CDR as a 16-character hexadecimal value. An end of data token (bit pattern 11) is used to indicate start of valid data. All data to the left of the token is invalid, while all data to the right is valid.

This field contains 16 hexadecimal characters without the "0x" prefix. Hex characters "A" through "F" are capitalized. If a DSP resource was not used for the ingress leg of the call, this field is empty ("").

The table below presents several example field values and the explanation of each.

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0 Table 1 Ingress Packet Playout Buffer Quality Field
CDR Value Interpretation 00000300000B0010 Binary: 0000 0000 0000 0000 0000 0011 0000 0000 0000 0000 0000 1011 0000 0000 0001 0000. The end of data bit pattern occurs in the 21st most recent position. This means the 20 intervals to the right are valid and the 11 intervals to the left are invalid. Of the valid intervals, all were bit pattern 00 (GOOD), except for the 3rd most recent bit pattern 01 (ACCEPTABLE), the 9th most recent bit pattern 11 (UNACCEPTABLE), and the 10th most recent bit pattern 10 (POOR) C000000000000000 Binary: 1100 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000. The end of data bit pattern in left most position means the call duration was at least 31 intervals and the most recent 31 intervals were bit pattern 00 (GOOD).

Info
title Note
The first measurement interval length is between 0 milliseconds and the configured interval length.

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egressPacketPlayout egressPacketPlayout

Egress Packet Playout Buffer Quality

This field summarizes the DSP media quality for the most recent 31 time intervals of the egress leg of the call.

This field contains 16 hexadecimal characters without the "0x" prefix. Hex characters "A" through "F" are capitalized. If a DSP resource was not used for the egress leg of the call, this field is empty ("").

See Ingress Packet Playout Buffer Quality   for a full explanation of this field.

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answerSupervisionType answerSupervisionType

Answer Supervision Type

This field specifies the answer type detected when ANSWER SUPERVISION is enabled for the call.

Info
title Note
The Answer Supervision mechanism ensures calls are correctly cut through and accounted for when answer signaling is absent from the call flow. When enabled, a timer starts when the egress call setup occurs, and then clears when the call is answered. If the timer expires an action is initiated to either clear the call or declare the call answered and cut through the forward voice path.

You can configure ANSWER SUPERVISION for all signaling prototypes except GSX/

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0 product

Gateway-to-Gateway signaling

When ANSWER SUPERVISION is enabled, one of the four scenarios below establishes the answer type:

• Called party answers the call (causing a return of the ANM message), before the answer supervision timer expires. An answer type of HARDWARE is presented in the START, INTERMEDIATE, and STOP records.
• Calling or called party disconnects the call (causing a return of the REL message), before the answer supervision timer expires. An answer type of HARDWARE is presented in the ATTEMPT record.
• The answer supervision timer expires and the call is disconnected before the called party answers the call (causing a return of the REL message). An answer type of SOFTWARE is presented in the ATTEMPT record.
• The answer supervision timer expires, after which the call is answered (causing a return of the ANM message). An answer type of SOFTWARE is presented in the START, INTERMEDIATE, and STOP records.

If ANSWER SUPERVISION is disabled, an answer type of empty (""), is presented in all records.

This field takes a decimal value in the range 1-2, or remains empty (""), as summarized in the following table:

Caption
0 Table 1 Answer Supervision Type Field
CDR Value Answer Type and Condition empty ("") ANSWER SUPERVISION disabled 1 HARDWARE answer 2 SOFTWARE answer

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ingressSipReferReplaces ingressSipReferReplaces

Ingress SIP REFER-Replaces Feature Specific Data

This field contains Feature Specific Data for a SIP REFER (Blind Transfer) or SIP Replaces (Attended Transfer) operation is performed on the ingress leg of a SIP to SIP call.

SIP REFER data is populated if a 'SIP REFER' request is received. SIP REPLACES data is populated if a 'SIP INVITE with Replaces' or 'SIP REFER with Replaces' header message is received. If the SIP REFER or SIP REPLACES operation is absent on this leg of the call, this field is empty ("").

The maximum length of this field is 81 characters, including all commas and double quotes ("").

The format of the SIP REFER Feature Specific Data field is:

 "SREF,<number of subfields>,<TimeFromInviteToRefer>,<transferor's number>,<new transfer target number>"
Inspect the CDR of the B>C call to determine whether the SIP REFER is successful:

• if successful, this field is present in a START/STOP record
• if not successful, this field is present in an ATTEMPT record

SIP REFER

The format of the SIP REFER Feature Specific Data field is:

 "SREF,<number of subfields>,<TimeFromInviteToRefer>,<transferer's number>,<new transfer target number>"

 The following table details each of these subfields.

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0 Table 1 SIP REFER Feature Specific Data Subfields
Sub Field Name Max Length Type Description 1 Feature Identifier 4 Characters Always "SREF" 2 Number of Sub-Fields to Follow 1 Decimal Always "3" 3 Transferer's Number 30 Characters Number of the party that initiated the SIP transfer. String of digits 0-9, up to 30 characters. 4 New Transfer Target Number 30 Characters String of digits 0-9, up to 30 characters. Number of the party that received the SIP transfer.

Inspect the CDR of the B>C call to determine whether the SIP Refer is successful:

• if successful, this field is present in a START/STOP record
• if not successful, this field is present in an ATTEMPT record

The example string:

"SREF,3,523,7817771111,9787771111"

indicates that a SIP Refer by party B (7817771111) to party C (9787771111) is received 5.23 seconds after receiving the setup message (INVITE).

SIP INVITE with Replaces

The format of the SIP Replaces Feature Specific Data field is:

 "SREPL,<number of subfields>,<Time>,<opLeg>,<legId>,<peerCallGcid>, <peerCallLegId>"

The following table details each of these subfields.

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0 Table 1 SIP INVITE with Replaces Feature Specific Data Subfields
Sub Field Name Max Length Type Description 1 Feature Identifier 3 Characters Always "SREPL" 2 Number of Sub-Fields to Follow 1 Decimal Always "5" 3 Time Elapsed from receipt of first INVITE message to receipt of subsequent INVITE w/ REPLACES 10 Decimal Decimal time in 10 millisecond ticks 4 Operation performed on this call's leg 1 Decimal Operation: 0= This leg was replaced 1= This leg replaces 5 This call's leg ID 1 Decimal Current Call Leg: 0= Ingress leg 1= Egress leg 6 Peer call's GCID 10 Characters 32 bits in Hex format, SBC's internally assigned Global Call ID (GCID) for peer call 7 Peer call's leg ID 1 Decimal Peer Call Leg 0= Ingress leg 1= Egress leg

The example string:

"SREPL,5,625,1,0,0x00060001,0"
indicates INVITE with REPLACES was received 6.25 seconds after the initial setup (INVITE) message. This call's ingress leg Replaces the peer (GCID x00060001) call's ingress leg.

SIP REFER with Replaces 
The format of the SIP REFER with Replaces Feature Specific Data field is:
"SREFREPL,<number of subfields>,<Time>,<opLeg>,<legId>,<peerCallGcid>, <peerCallLegId>"

The following table details each of these subfields.

Caption
0 Table 1 SIP REFER with Replaces Feature Specific Data Subfields
Sub Field Name Max Length Type Description 1 Feature Identifier 3 Characters Always "SREFREPL" 2 Number of Sub-Fields to Follow 1 Decimal Always "5" 3 Time Elapsed from receipt of first INVITE message to receipt of subsequent INVITE w/ REPLACES 10 Decimal Decimal time in 10 millisecond ticks 4 Operation performed on this call's leg 1 Decimal Operation: 0= This leg was replaced 1= This leg replaces 5 This call's leg ID 1 Decimal Current Call Leg: 0= Ingress leg 1= Egress leg 6 Peer call's GCID 10 Characters 32 bits in Hex format, Spacevars 0 product 's internally assigned Global Call ID (GCID) for peer call 7 Peer call's leg ID 1 Decimal Peer Call Leg 0= Ingress leg 1= Egress leg

The example string:

"SREFREPL,5,750,1,0,0x00080002,0"

indicates REFER with REPLACES was received 7.50 seconds after the initial setup (INVITE) message. This call's ingress leg Replaces the peer (GCID x00080002) call's ingress leg.

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egressSipReferReplaces egressSipReferReplaces

Egress SIP REFER-Replaces Feature Specific Data

This field contains Feature Specific Data for a SIP REFER (Blind Transfer) or SIP Replaces (Attended Transfer) operation is performed on the egress leg of a SIP to SIP call.

SIP REFER data is populated if a 'SIP REFER' request is received. SIP REPLACES data is populated if a 'SIP INVITE with Replaces' or 'SIP REFER with Replaces' header message is received. If the SIP REFER or SIP REPLACES operation is absent on this leg of the call, this field is empty ("").

The maximum length of this field is 81 characters, including all commas and double quotes ("").

See "Ingress SIP REFER-Replaces Feature Specific Data" above for details about each of subfield of SIP REFER, SIP INVITE with Replaces, and SIP REFER with Replaces feature-specific data fields.

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networkTransfer networkTransfer

Network Transfer Feature Specific Data

This field is populated when a Network Transfer occurs.

The format of the field is:
"NWXF,<number of subfields>,<Speed Dial Digits>,<RefTod>, <NTCallType>"

The following table details each of these subfields.

Caption
0 Table 1 Network Transfer Feature Specific Data Subfields
Sub Field Name Max Len Type Description 1 Feature Identifier 4 Characters Always "NWXF" 2 Number of Sub-Fields to Follow 1 Decimal Always "3" 3 Speed Dial Digits 10 Characters Speed Dial Digits identifying the new called party entered by Transferrer. 4 RefTod 30 Characters Referring Toll Free Number 5 NTCallType 2 Digits Specifies Network Transfer Types 24 - Network Transfer 25 - Network Transfer Courtesy 26 - Network Transfer Consult 27 - Network Transfer Conference 28 - Non-subscribed Network Transfer

The maximum length of this field is 54 characters, including all commas and double quotes ("").

The example string:

"NWXF,3,100,18007817788,25" indicates that Network Transfer of type "Network Transfer Courtesy" is initiated by "18007817788" by dialing speed dial digits "100".

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callCondition callCondition

Call Condition

This field provides the criteria for determining the AMA call type value for billing records. This value is generated by the PSX and based on the type of call along with other network information such as terminating call, inter-network call, intra-network call, etc. This two-digit decimal field takes a value from 0-39, that maps to the call conditions described in the Call Condition Criteria table.

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tollIndicator tollIndicator

Toll Indicator

This field provides the toll indication for the call. This value is generated by the PSX. This two- digit decimal field takes a value from 0-64, that maps to the toll indicators described in the table.

Caption
0 Table 1 Toll Indicator Field
CDR Value Toll Indicator empty Policy Response not Received 1 Inter-Lata Toll 2 Inter-Lata Local 4 Intra-Lata Local 8 Intra-Lata Toll 16 International 32 Private 64 Unknown

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gn_number gn_number

Generic Number (Number)

This field contains the digits from the Generic Number "number" subfield, and is located in ISUP signaling messages received at the gateway, such as IAM, SGM, etc. This string is up to 30 characters. If no "number" was included in ISUP messages associated with this call, then this field is empty ("").

 An example of this field is:
"01793601014"

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gn_pri gn_pri

Generic Number (Presentation Restriction Indicator)

This one-decimal digit field provides the Presentation Restriction Indication for the Generic Number "number" subfield described above. This field is presented in ISUP signaling messages received at the gateway, such as IAM, SGM, etc. and takes the values enumerated in the following table.

Caption
0 Table 1 Generic Number (Presentation Restriction Indicator)
CDR Value Definition empty ("") No Generic Number Presentation Restriction Indicator in the ISUP messages associated with this call 0 CPC_ADDR_PRESENTATION_INVALID 1 CPC_ADDR_PRESENTATION_ALLOWED 2 CPC_ADDR_PRESENTATION_RESTRICTED 3 CPC_ADDR_PRESENTATION_NUMBER_UNAVAILABLE 4 CPC_ADDR_PRESENTATION_SPARE 5 CPC_ADDR_PRESENTATION_MAX

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gn_numberPlan gn_numberPlan

Generic Number (Numbering Plan)

This two-digit field provides the numbering plan for the Generic Number "number" subfield (above) and is located in ISUP signaling messages received at gateway, such as IAM, SGM, etc. This field takes the values enumerated in  the following table:

Caption
0 Table 1 Generic Number (Numbering Plan)
CDR Value Definition empty ("") No Generic Number Numbering Plan in the ISUP messages associated with this call 0 CPC_ADDR_NUMBERING_PLAN_INVALID 1 CPC_ADDR_NUMBERING_PLAN_ISDN 2 CPC_ADDR_NUMBERING_PLAN_DATA 3 CPC_ADDR_NUMBERING_PLAN_TELEX 4 CPC_ADDR_NUMBERING_PLAN_PRIVATE 7 CPC_ADDR_NUMBERING_PLAN_OFFSET 8 CPC_ADDR_NUMBERING_PLAN_SPARE0 9 CPC_ADDR_NUMBERING_PLAN_SPARE1 10 CPC_ADDR_NUMBERING_PLAN_SPARE2 11 CPC_ADDR_NUMBERING_PLAN_SPARE3 12 CPC_ADDR_NUMBERING_PLAN_SPARE4 13 CPC_ADDR_NUMBERING_PLAN_SPARE5 14 CPC_ADDR_NUMBERING_PLAN_SPARE6 15 CPC_ADDR_NUMBERING_PLAN_SPARE7

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gn_noa gn_noa

Generic Number (Nature of Address)

This three-digit field provides the Nature of Address for the generic number "number" subfield described above. This field is presented in ISUP signaling messages received at the gateway, such as IAM, SGM, etc., and takes the values enumerated in the Generic Number NOA Values table.

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gn_type gn_type

Generic Number (Type)

This two-digit field indicates the type of the Generic Number "number" subfield, and is presented in ISUP signaling messages received at the gateway, such as IAM, SGM, etc. The generic number "type" depends on the ISUP variant that is in effect. The 'Generic Number Type Values table enumerates the valid types for particular variants.

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finalAttemptIndicator finalAttemptIndicator

Final ATTEMPT Indicator

This one-digit decimal field indicates whether this is the final record written for a call. This field applies only to the ATTEMPT record and takes the values enumerated in the following table:

Caption
0 Table 1 Final ATTEMPT indicator
CDR Value Definition empty ("") No Final Attempt Indicator field in the record 0 This is an intermediate ATTEMPT record due to crankback 1 This is the final ATTEMPT record for this call

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originatingTrunkType originatingTrunkType

Originating Trunk Type

This is a one-byte hexadecimal field without a leading "0x". This field is either empty ("") or contains the hex code representing the originating trunk type. This field is associated with the corresponding field of the trunk group screen on the PSX, and takes the values enumerated in the following table.

Caption
0 Figure 1 Trunk Type Field Values
CDR Value Definition 0 CPC_TRUNKGROUP_TYPE_NONE If the value is 0, the field is blank. 1 CPC_TRUNKGROUP_TYPE_NTT 2 CPC_TRUNKGROUP_TYPE_GC 3 CPC_TRUNKGROUP_TYPE_IMT2 4 CPC_TRUNKGROUP_TYPE_IMT3 5 CPC_TRUNKGROUP_TYPE_IMT 8 CPC_TRUNKGROUP_TYPE_LS 9 CPC_TRUNKGROUP_TYPE_LS3 10 CPC_TRUNKGROUP_TYPE_CT 13 CPC_TRUNKGROUP_TYPE_INT1 14 CPC_TRUNKGROUP_TYPE_INT2 15 CPC_TRUNKGROUP_TYPE_INT3 16 CPC_TRUNKGROUP_TYPE_INT4 17 CPC_TRUNKGROUP_TYPE_INT5 19 CPC_TRUNKGROUP_TYPE_INT7 23 CPC_TRUNKGROUP_TYPE_SSP 26 CPC_TRUNKGROUP_TYPE_INTS 28 CPC_TRUNKGROUP_TYPE_TST 29 CPC_TRUNKGROUP_TYPE_SIP

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terminatingTrunkType terminatingTrunkType

Terminating Trunk Type

A one-byte hex field without leading "0x" that takes values enumerated in the  Final ATTEMPT indicator table. Field is either empty ("") or contains hex code representing terminating trunk type, and is associated with corresponding field of PSX trunk group screen.

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remoteBillingIndicator remoteBillingIndicator

Remote GSX/SBC Billing Indicator

This one-digit decimal field indicates whether a CDR record contains billing information from the destination GSX/

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 for GSX/

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0 product

-GSX/

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0 product

 calls. This field is present when "Populate Remote GW Info" feature is enabled on ingress GSX/

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0 product

, and is empty when the feature is disabled. This field always takes one of the values enumerated in the following table.

Caption
0 Table 1 Remote GSX/SBC Billing Indicator
CDR Value Definition empty ("") Remote Gateway CDR Propagation feature is disabled. 0 The CDR record does not contain billing information from the destination GSX/ Spacevars 0 product . 1 The CDR record contains billing information of both originating GSX/SBC and destination GSX/ Spacevars 0 product . The following five fields in the STOP and ATTEMPT records contain billing information from the destination GSX/ Spacevars 0 product instead of the logging GSX/ Spacevars 0 product . "Egress PSTN Circuit End Point" "Egress IP Circuit End Point" "Egress Signaling Type" "Egress Protocol Variant Specific Data" "Call Disconnect Reason Transmitted to Egress"

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extraDisconnectReason extraDisconnectReason

Extra Disconnect Reason

This four-digit decimal field details the GSX/

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0 product

 internal disconnect reason associated with the existing fields, "Call Disconnect Reason Transmitted to Ingress"  and "Call Disconnect Reason Transmitted to Egress" , when a call attempt fails.

This field is populated when a call is released before invoking call control in the GSX/

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 software. The underlying ISUP cause value 41 (TEMPORARY FAILURE) typically causes this field to be populated, but other ISUP cause values could also cause this entry (see Call Termination Reason Codes).

This field occurs only in ATTEMPT records when both of the following conditions are met. Otherwise, this field is empty ("").

• ACCOUNTING EARLY ATTEMPT records are enabled.
• Additional call disconnect information is available

The Extra Disconnect Reason Codes table details the contents of this field.

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vpnCallingPrivate vpnCallingPrivate

VPN Calling Private Presence Number

 This field contains the VPN private presence number for VPN originated calls, and is populated from the PSX policy response. This field is only populated under following conditions:

• For VPN originated calls; empty ("") for all other calls.
• If private presence number is configured on the PSX; otherwise empty.

This field contains a string of up to 30 characters, or is empty. An example of this field is "8189".

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vpnCallingPublic vpnCallingPublic

VPN Calling Public Presence Number

This field contains the VPN public presence number for VPN originated calls in E-164 format. This field is populated from the PSX policy response. This field is only populated under following conditions:

• For VPN originated calls; empty ("") for all other calls.
• If private presence number is configured on the PSX; otherwise empty.

This field contains a string of up to 30 characters, or is empty. An example of this field is:
"19786543210, 441793123456"

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externalFurnishCharging externalFurnishCharging

External Furnish Charging Info

This field contains up to 400 bytes of binary data (represented by up to 800 hexadecimal characters) generated by the PSX. The External Furnish Charging Info (FCI) data comes from external source such as a Service Control Point (SCP), a Global System for Mobile Communication (GSM), or a Service Control Function (SCF). This FCI field is only present while some external service populates the data for a call involving Customized Application of Mobile Enhanced Logic (CAMEL) services.

The PSX passes the FCI field to GSX/

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0 product

SBC, and GSX/

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0 product

 passes it back for subsequent Policy Requests. Each byte of FCI data received by the GSX/

Spacevars
0 product

 is represented as two hexadecimal characters (00 to FF) in CDR. The table "External Furnish Charging Info Sub-Fields",  displays a high level view of FCI Field within an accounting record. The binary format of the "External Furnish Charging Info" data encoded for the Camel Application Part (CAP) variant is shown in the table "CAP Specific Data Format", below:

Caption
0 Figure 1 External Furnish Charging Info Sub-Fields
Sub- Field Name Max Len Type Description 1 FCI Variant ID 1 Decimal Specifies whether CAP specific FCI data exists: 0 - FCI_VARIANT_NONE 1 - FCI_VARIANT_CAP 2 FCI Leg Count 1 Decimal Specifies leg count or number of FCI Variant Specific Data Fields to follow. Must be "1" or "2". (Only "1" is available in this GSX/ {space var software release). 3 FCI Variant Specific Data - Leg 1 162 Hexadecimal CAP Specific Data (Table A – 77). 4 FCI Variant Specific Data - Leg 2 162 Hexadecimal CAP Specific Data (Table A – 77).

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0 Table 1 CAP Specific Data Format
Name Max Len Type Description Leg ID 1 Decimal Must be Specifies which CAP specific data follows: 1 - Leg 1 2 - Leg 2 FCI Data Length 1 Decimal Specifies the length of data, in bytes, that follows. Must be 1-160. FCI Data 160 Hexadecimal CAP Specific Data. Must be the length in bytes that specified in FCI Data Length. Each byte is represented by two hexadecimal characters (00 to FF).

 FCI data is divided into three portions:

• FCI Variant ID
• FCI Leg Count
• FCI Variant Specific Data

The FCI Variant ID contains a single byte FCI Variant ID value. This value is used to determine the format of the rest of the data. Value 1 is defined for CAP (this is the only value currently defined for this GSX/SBC software release). In the future this FCI Variant ID may be extended to include the Intelligent Networking Application Part (INAP) and others.

The Leg Count contains a single byte count indicating how many sets of data are present. For FCI data of CAP, there is one set of data per Leg ID. For example, if FCI data is only present for leg 1, then the Leg Count is set to 1. If FCI data is present for leg 1 and leg 2, then the Leg Count is set to "2".

For CAP variant specific data, each set of FCI data contains three sub-fields, Leg ID, Data Length, and Data. The Leg ID field determines the call leg. For CAP this is either 1 or 2. The Data Length field determines the variable length of the FCI data. The FCI data can be up to 160 bytes per leg. The actual FCI Data field contains the binary data as received by PSX from the external sources.

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ingressPolicingDiscards ingressPolicingDiscards

Ingress Policing Discards

This 20-digit decimal field contains the number of ingress packets discarded due to policing. If no ingress packets are discarded by policers, this field is empty ("").

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egressPolicingDiscards egressPolicingDiscards

Egress Policing Discards

This 20-digit decimal field contains the number of egress packets discarded due to policing. If no egress packets are discarded by policers, this field is empty ("").

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announcementId announcementId

Announcement ID

This five-digit decimal field contains the announcement ID of the last announcement played by the GSX/SBC for the call. If no announcement is played, this field is empty ("").

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sourceInformation sourceInformation

Source Information

This field describes the Source Information type for the call, based on the ISUP signaling received at the gateway, or from information received from the PSX. This two-digit decimal field takes a value of 0-15, enumerated in Table 79 . If no source information is received, this field is empty ("").

Caption
0 Table 1 Source Information
CDR Value Definition Empty No Source Information 0 No Indication 1 Calling Party Information 2 Called Party Information 3 Connected Party Information 4 Redirecting Information 5 Redirection Information 6 Override Information 7 - 15 Spare

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partitionId partitionId

Partition ID

This four-digit decimal field describes the Partition used based on the ISUP signaling received at the gateway, or from information received from the PSX.

This field takes a decimal value in the range 0 to 4095. If no partition ID information is received, this field is empty ("").

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networkId networkId

Network ID

This five-digit decimal field describes the Network used based on ISUP signaling received at the gateway, or from information received from the PSX.

This field takes a decimal value in the range 0 to 32767. If no network information is received, this field is empty ("").

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ncos ncos

NCOS

This five-digit decimal field describes the N Class of Service (NCOS) for this call, based on the ISUP signaling received at the gateway, or from information received from the PSX.

This field takes a decimal value in the range 0 to 65535. If no NCOS information is received, this field is empty ("").

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ingressSrtp ingressSrtp

Ingress SRTP

This seven-character field displays the Crypto information used for setting up RTP and RTCP for the ingress leg. If Secure RTP is configured and used on the call, each field will contain four (4) sub-fields indicating the RTP authentication and encryption values and the RTCP authentication and encryption values selected. Each subfield is separated by ":". If regular RTP is used, the field is left blank.

The possible values for RTP and RTCP Authentication sub-fields are listed in the following table. The possible values for RTP and RTCP Encryption sub-fields are listed in the "Values for RTP and RTCP Encryption Sub-Field" table.

Caption
0 Table 1 Values for RTP and RTCP Authentication Sub-Field
Value Authentication Type 0 NULL 1 HMAC_SHA1_32 2 HMAC_SHA1_80 3 AES_GMAC_128 4 MAX

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0 Table 1 Values for RTP and RTCP Encryption Sub-Field
Value Encryption Type 0 NULL 1 AES_128_CM 2 RTP_H235 3 AES_192_CM 4 AES_256_CM 5 AES_128_GCM 6 AES_256_GCM 7 MAX

The sub-field string:
"1:0:1:0"
indicates SHA1_80 authenticated SRTP, unencrypted SRTP, and SHA1_80 authenticated SRTCP, unencrypted SRTCP.

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egressSrtp egressSrtp

Egress SRTP

This seven-character field displays the Crypto information used for setting up RTP and RTCP for the egress leg. If Secure RTP is configured and used on the call, each field will contain four (4) sub-fields indicating the RTP authentication and encryption values and the RTCP authentication and encryption values selected. Each subfield is separated by ":". If regular RTP is used, the field is left blank. The possible values for RTP and RTCP Authentication sub-fields are listed in Table 76. The possible values for RTP and RTCP Encryption sub-fields are listed in the below table-.

 The sub-field string:
"1:0:1:0"
indicates SHA1_80 authenticated SRTP, unencrypted SRTP, and SHA1_80 authenticated SRTP, unencrypted SRTP.

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IsdnAccessIndicator IsdnAccessIndicator

ISDN Access Indicator from the Forward Call Indicator

This field contains an enumerator describing the ISDN Access Indicator value from the Forward Call Indicator parameter. The Forward Call Indicator parameter is an optional parameter in incoming signaling messages such as IAM (ISUP), SETUP (ISDN), and INVITE (SIP). This field is either one decimal digit or empty (""). The defined enumerations are:

Caption
0 Table 1 ISDN Access Indicator Enumeration
Enumeration Definition empty Forward Call Indicator parameter not present 0 ISUP not used throughout the call 1 ISUP used throughout the call

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callDisconnectLocation callDisconnectLocation

Call Disconnect Location

This field contains an enumeration that describes the Location value from the Cause Indicator parameter in the release message. The Cause Indicator parameter is an optional parameter in call disconnect signaling messages such as REL (ISUP) and DISCONNECT (ISDN). When the call is released by the network, this field will contain the Location value from the Cause Indicator parameter received by the 

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0 product

.

 When the 

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0 product

 initiates the release, this field will contain the Location value in the Cause Indicator parameter generated by the 

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0 product

. This field is 1-2 decimal digits or empty (""). The following table lists the defined enumerations.

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0 Table 1 Call Disconnect Location Values
CDR Value Q.850 Value ENUMERATION Q.850 Description Empty N/A Location information not present 1 0 CPC_OP_CAI_LOCATION_USER User 2 1 CPC_OP_CAI_LOCATION_LOCAL_PRIVATE_NETWORK Private Network Serving the Local User (LPN) 3 2 CPC_OP_CAI_LOCATION_LOCAL_LOCAL_NETWORK Public Network Serving the Local User (LN) 4 3 CPC_OP_CAI_LOCATION_TRANSIT_NETWORK Transit Network (TN) 5 4 CPC_OP_CAI_LOCATION_REMOTE_LOCAL_NETWORK Public Network Serving the Remote User (RLN) 6 5 CPC_OP_CAI_LOCATION_REMOTE_PRIVATE_NETWORK Private Network Serving the Remote User (RPN) 7 6 CPC_OP_CAI_LOCATION_LOCAL_INTERFACE_CONTROLLED_BY_THIS_SIGNALING_LINK Reserved 6 8 7 CPC_OP_CAI_LOCATION_INTERNATIONAL_NETWORK International Network (INTL) N/A 8 CPC_OP_CAI_LOCATION_NETWORK_BEYOND_POINT Reserved 8* N/A 9 CPC_OP_CAI_LOCATION_NETWORK_BEYOND_POINT Reserved 9* 9 10 CPC_OP_CAI_LOCATION_NETWORK_BEYOND_POINT Network Beyond Interworking Point (BI) N/A 11 CPC_OP_CAI_LOCATION_NETWORK_BEYOND_POINT Reserved 11* 10 12 CPC_OP_CAI_LOCATION_PRIVATE_BRANCH_EXCHANGE Reserved 12 N/A 13 CPC_OP_CAI_LOCATION_NETWORK_BEYOND_POINT Reserved 13* N/A 14 CPC_OP_CAI_LOCATION_NETWORK_BEYOND_POINT Reserved 14* N/A 15 CPC_OP_CAI_LOCATION_NETWORK_BEYOND_POINT Reserved 15*

 *Not currently supported by 

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. But if received, it is mapped to the ENUMERATION.

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callDisconnectLocationXmitIngress callDisconnectLocationXmitIngress

Call Disconnect Location Transmitted to Ingress

This field contains an enumeration describing the Location value from the Cause Indicator parameter in the release message sent to the ingress network. The Cause Indicator parameter is an optional parameter in call disconnect signaling messages such as REL (ISUP) and DISCONNECT (ISDN). This field is 1-2 decimal digits or empty ("").

The defined enumerations are shown in the table, "Location Value from Cause Indicator Parameter".

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callDisconnectLocationXmitEgress callDisconnectLocationXmitEgress

Call Disconnect Location Transmitted to Egress

This field contains an enumeration describing the Location value from the Cause Indicator parameter in the release message sent to the egress network. The Cause Indicator parameter is an optional parameter in call disconnect signaling messages such as REL (ISUP) and DISCONNECT (ISDN). This field is 1-2 decimal digits or empty ("").

The defined enumerations are shown in the table "Location Value from Cause Indicator Parameter".

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networkCallRefCallIdentity networkCallRefCallIdentity

Network Call Reference - Call Identity

This field contains an enumeration describing the Call Identity from ISUP Network Call Reference parameter. The Network Call Reference parameter is an optional signaling parameter. This field is up to eight decimal digits or empty ("").

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networkCallRefPointCode networkCallRefPointCode

Network Call Reference - Signaling Point Code

This field contains an enumeration describing the Signalling Point Code from the optional ISUP Network Call Reference parameter. This field is up to five decimal digits or empty ("").

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ingressIsupMime ingressIsupMime

Ingress ISUP MIME Protocol Variant Specific Data

The ingress ISUP MIME Protocol Variant Specific Data. A string with delimiters "" or empty. The string has multiple sub-fields separated by a comma (,). An empty sub-field is represented by either two consecutive commas (,,) or by comma-space-comma (, ,). Whenever any ingress service group has ISUP MIME Protocol Variant Specific Data to log, this data is logged to this field.

An example of this field is:
"JAPAN,0,0, ,,,,...,0x04"

See the following for the Ingress ISUP MIME Protocol Variant Specific Data:

• Japan ISUP Variant Sub-field Descriptions

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egressIsupMime egressIsupMime

Egress ISUP MIME Protocol Variant Specific Data

The egress ISUP MIME Protocol Variant Specific Data. A string with delimiters "" or empty. The string has multiple sub-fields separated by a comma (,). An empty sub-field is represented by either two consecutive commas (,,) or by comma-space-comma (, ,). Whenever any egress service group has ISUP MIME Protocol Variant Specific Data to log, this data is logged to this field.

An example of this field is:
"JAPAN,0,0, ,,,,...,0x04"

See the following for the Egress ISUP MIME Protocol Variant Specific Data:

• Japan ISUP Variant Sub-field Descriptions

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modemToneType modemToneType

Modem Tone Type

This field represents the types of detected Modem tones in a call. If no modem is detected, this field is empty. The following table lists the possible Modem tone types.

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0 Table 1 Modem Tone Types
CDR Value Definition 1 Full Duplex Type Modem Tone Detected 2 T30 FAX Type of Modem Tone Detected 3 Half Duplex V23 Type of Modem Tone Detected 4 Half Duplex Other Type of Modem Tone Detected

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modemToneSignalLevel modemToneSignalLevel

Modem Tone Signal Level

The field represents the power level of Modem Tone Signal. The value returned is in -dBm0 with a range from 0 to 36 where 0 represents the strongest signal and 36 the weakest signal. If no modem is detected, this field is empty.

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videoCodecData videoCodecData

Video Codec Data

This field displays the Video Codec Data and contains four subfields separated by commas. The maximum length of this field is 512 characters, including all commas and double quotes (""). If the video codec data is not present, then there is only a single comma separator for the data.

The Video Bandwidth subfields are empty in START/INTERMEDIATE records. The Video Call Duration subfields are empty in START/INTERMEDIATE/ATTEMPT records.

The format of the Video Codec Data field is:

 "Bandwidth,Duration,<localIpAddr>:<localIpPort>/<remoteIpAddr>:<remoteIpPort>,<localIpAddr>:<localIpPort>/<remoteIpAddr>:<remoteIpPort>"

An example of this field is:
"64,250,10.1.1.1:40/10.1.1.2:80,10.1.1.1:40/10.1.1.2:80"

The following table details each of the subfields. 

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0 Table 1 Video Codec Data Subfields
Sub Field Name Type Description 1 Bandwidth Decimal The IP bandwidth reserved for the video call in kbps. Decimal value between 0 - 4294967295 2 Duration Decimal The Total duration (in 10 ms increments) that the video was active for the call. Decimal value between 0 - 4294967295 3 Ingress IP Video Endpoint Characters The local IP address and port, and the remote IP address and port for the Ingress IP video endpoint in the following format: <LOCALIPADDR>:<LOCALIPPORT>/<REMOTEIPADDR>:<REMOTEIPPORT> LOCALIPADDR - dotted decimal format, up to 15 characters LOCALIPPORT - value between 0 - 65535 REMOTEIPADDR - dotted decimal format, up to 15 characters REMOTEIPPORT - value between 0 - 65535 4 Egress IP Video Endpoint Characters The local IP address and port, and the remote IP address and port for the Egress IP video endpoint in the following format: <LOCALIPADDR>:<LOCALIPPORT>/<REMOTEIPADDR>:<REMOTEIPPORT> LOCALIPADDR - dotted decimal format, up to 15 characters LOCALIPPORT - value between 0 - 65535 REMOTEIPADDR - dotted decimal format, up to 15 characters REMOTEIPPORT - value between 0 - 65535

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videoCodecStats videoCodecStats

Video Codec Statistics

Displays statistical data related to the Video Codec feature with up to 14 subfields () separated by a comma (,). The maximum length of this field is 512 characters, including all commas and double quotes ("").

Each subfield contains a decimal value between 0 - 4294967295.

An example of this field is:
"60,10,500,2100,2,0,100,5,500,10,0,0,0,"

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0 Table 1 Video Codec Statistics Subfields
SubField Description 1 Ingress number of video bytes sent 2 Ingress number of video packets sent 3 Ingress number of video bytes received 4 Ingress number of video packets received 5 Ingress number of video packets lost 6 Ingress maximum video packet Outage 7 Ingress video policer discards 8 Egress number of video bytes sent 9 Egress number of video packets sent 10 Egress number of video bytes received 11 Egress number of video packets received 12 Egress number of video packets lost 13 Egress maximum video packet outage 14 Egress video policer discards

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svsCustomer svsCustomer

SVS Customer

The Customer field indicates the Trunk Group Number received in the Route Information K-ISUP parameter used to identify the ingress carrier. Decimal value 1 to 4 digits or empty.

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testPsx testPsx

Call to Test PSX

The Call to Test PSX field indicates if a call is for a Test PSX, and is determined based on the Calling Party Number. Boolean field with the following usage:

• Empty – Normal call.
• 1 – Call is determined to be a Test Call and routed to the Test PSX.

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psxOverlapRoute psxOverlapRoute

PSX Overlap Route Requests

The PSX Overlap Route Requests field indicates the number of routing requests sent to the PSX by the GSX/

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 for each call when the Called Party Number (CdPN) was not complete. This field is only populated for Overlap calls and is applicable to all protocols (ISUP, BT-IUP, SIP, SIP-I, ISDN, H.323, and CAS). Decimal value, 1 to 2 decimal characters or empty.

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callSetupDelay callSetupDelay

Call Setup Delay

The Call Setup Delay field indicates the setup latencies of Key Performance Indicators (KPI) for the purpose of troubleshooting and monitoring and contains decimal-value sub-fields separated by commas (,). The maximum length of this field is 21 characters, including all commas and double quotes (""). 
Subfields:

• Request Latency – (1-3 digits, or empty) Latency in milliseconds between the last INVITE receipt from the upstream element and dispatch to the downstream element (not counting retransmissions) before the first non-100 and non-484 response is received from the downstream element.
• Downstream Latency – (1-5 digits, or empty) Latency in milliseconds between the last INVITE dispatch to the downstream element (not counting retransmissions) and the first non-100 and non-484 response receipt from the downstream element.
• Response Latency – (1-3 digits, or empty) Latency in milliseconds between the first non-100 and non-484 response receipt from the downstream element and dispatch to the upstream element.
• Total Latency – (1-5 digits, or emptyP Latency in milliseconds between the last INVITE receipt from the upstream element (not counting retransmissions) and the first non-100 and non-484 response dispatch to upstream element.

An example of a Call Setup Delay field is:
"88,931,19,983"

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overloadStatus overloadStatus

Overload Status

This field (decimal, 1-3 digits, or empty) indicates the congestion level for monitored resources on the node or server that processes this call.

• Single digit values (0 through 3) indicate the System/Node Congestion Level.
• Two or three digit values indicate the server slot number and the Server Congestion Level. For example:
• A value of "91" indicates Server Slot 9, Congestion level 1
• A value of "151" indicates Server Slot 15, Congestion level 1

The Congestion Levels are as follows:
0 - No Congestion
1 - System Machine Congestion (MC) Level one congestion 
2 - System Machine Congestion (MC) Level two congestion
3 - System Machine Congestion (MC) Level three congestion 

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ingressDSP ingressDSP

Ingress DSP Data

The Ingress DSP data field is used to report Ingress DSP Data to assist in troubleshooting and monitoring. Each bit indicates a setting where Bit 0 is LSB and bit 15 is MSB. An example of this field is: "12FF".

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0 Table 1 Ingress/Egress Bit Fields
Bit Definition Description 0 RFC2833 packet transmit enabled (yes/no) Channel configuration status for both VPAD and XPAD. 1: Enabled 0: Disabled 1 RFC2833 packet receive enabled (yes/no) Channel configuration status for both VPAD and XPAD. 1: Enabled 0: Disabled 2 RFC2833 packets transmitted (yes/no) Channel operational event for both VPAD and XPAD. 1: Transmitted packet count > 0 0: Transmitted packet count = 0 3 RFC2833 packets received (yes/no) Channel operational event for both VPAD and XPAD. 1: Transmitted packet count > 0 0: Transmitted packet count = 0 4 OOB messaging enabled (yes/no) Channel configuration status for both VPAD and XPAD. 1: Enabled 0: Disabled 5 OOB messaging transmitted (yes/no) Channel configuration status for both VPAD and XPAD. 1: Enabled 0: Disabled 6 OOB messaging received (yes/no) Channel operational event for both VPAD and XPAD. OOB DTMF packets are processed on TNPAD. VPAD or XPAD only receive the event message. 1: Received message count > 0 0: Received message count = 0 7 DTMF tone detect enabled? (yes/no) Channel configuration status for both VPAD and XPAD. 1: Enabled 0: Disabled 8 DTMF removed enabled? (yes/no) Channel configuration status for both VPAD and XPAD. 1: Enabled 0: Disabled 9 DTMF digits detected? (yes/no) Channel operational event for both VPAD and XPAD. 1: Detected packet count > 0 0: Detected packet count = 0 10 SIDs generated (yes/no) Channel operational event for both VPAD and XPAD. 1: Generated packet count > 0 0: Generated packet count = 0 11 SIDs received (yes/no) Channel operational event for both VPAD and XPAD. 1: Received packet count > 0 0: Received packet count = 0 12 ECM used (yes/no) Channel T38 fax operational state for XPAD. The current version T38 firmware (third party code) is not providing information on whether ECM mode is in use or not. A new version of T38 provides the ECM as an event message only on C55 DSP (GNS, CNS4x, CNS8x, SPS80). 1: ECM is in use 0: ECM is not in use 13-15 Spare

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0 Table 1 Bit Value Meaning
Bit Value Meaning 0 No 1 Yes

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egressDSP egressDSP

Egress DSP Data

The Egress DSP data field is used for reporting Egress DSP Data to assist in troubleshooting and monitoring, where each bit indicates a setting. An example of this field is: "12FF".
For details on Bit fields and Bit values, see the tables in "Ingress DSP Data" section above.

Call Recorded Indicator

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Call Recorded Indicator Call Recorded Indicator

This field is populated for populated for SIPrec and NICE-based call recording. NICE Systems using their forwarding based protocol (based on the SIP forwarding extension) provide a mechanism for recording calls. SBC 9000 acts as a forwarding capable device which routes the content of an active call to a recording system. When a call is tapped an indication is provided in the "STOP" CDR field for that call along with the transmit and receive RTP stream IP address and port.

This field specifies whether the NICE Systems recording feature is enabled or disabled. It can accept "Yes" or empty. The length of this field can be up to 3 characters.

Call Recorded RTP Tx IP Address

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Call Recorded RTP Tx IP Address Call Recorded RTP Tx IP Address

This field is populated for populated for SIPrec and NICE-based call recording. This field contains the RTP transmitting IP address if the NICE Systems recording feature is enabled. If the NICE systems recording feature is not enabled, then this field is empty. The length of this field can be up to 39 characters. IP address can be in IPv4 or IPv6 format. For IPv4 address type, use the dotted decimal format (for example, 128.1.22.233) and for IPv6 address type, use the hexadecimal format (for example, 3ffe:1900:4545:3:200:f8ff:fe21:67cf (up to 39 characters)).

Call Recorded RTP Tx Port Number

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Call Recorded RTP Tx Port Number Call Recorded RTP Tx Port Number

This field is populated for populated for SIPrec and NICE-based call recording.This field contains the RTP transmitting port number if the NICE Systems recording feature is enabled. If the NICE systems recording feature is not enabled, then this field is empty. The length of this field can be up to 5 characters.

Call Recorded RTP Rv IP Address

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Call Recorded RTP Rv IP Address Call Recorded RTP Rv IP Address

This field is populated for populated for SIPrec and NICE-based call recording. This field contains the RTP receiving IP address if the NICE Systems recording feature is enabled.  If the NICE systems recording feature is not enabled, then this field is empty. The length of this field can be up to 39 characters. IP address can be in IPv4 or IPv6 format. For IPv4 address type, use the dotted decimal format (for example, 128.1.22.233) and for IPv6 address type, use the hexadecimal format (for example, 3ffe:1900:4545:3:200:f8ff:fe21:67cf (up to 39 characters)).

Call Recorded RTP Rv Port Number

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Call Recorded RTP Rv Port Number Call Recorded RTP Rv Port Number

This field is populated for populated for SIPrec and NICE-based call recording. This field contains the RTP receiving port number if the NICE Systems recording feature is enabled. If the NICE systems recording feature is not enabled, then this field is empty. The length of this field can be up to 5 characters.

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mlpp mlpp

MLPP Precedence Level

This field indicates the precedence level of the call. The values are:

• 0 – FLASH OVERRIDE (highest)
• 1 – FLASH
• 2 – IMMEDIATE
• 3 – PRIORITY
• 4 – ROUTINE.

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If the field is empty, then MLPP feature is not enabled.

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gcr gcr

Global Charge Reference (GCR)

This field is a 20-byte array used for Call Data Record (CDR) correlation. Each byte contains two ASCII characters. ISUP Signaling profile flag GCR is supported on ingress or egress side.

Example: 456f1c000300000025180000

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ingressInboundRFactor ingressInboundRFactor

Ingress Inbound R-Factor

This decimal field displays the R-Factor of the inbound RTP stream for the ingress trunk group.

The length of this field is up to two places.

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ingressOutboundRFactor ingressOutboundRFactor

Ingress Outbound R-Factor

This decimal field displays the R-Factor of the outbound RTP stream for the ingress trunk group.

The length of this field is up to two places.

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egressInboundRFactor egressInboundRFactor

Egress Inbound R-Factor

This decimal field displays the R-Factor of the inbound RTP stream for the egress trunk group.

The length of this field is up to two places.

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egressOutboundRFactor egressOutboundRFactor

Egress Outbound R-Factor

This decimal field displays the R-Factor of the outbound RTP stream for the egress trunk group.

The length of this field is up to two places.

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mediaStreamdData mediaStreamdData

Media Stream Data

This field provides the data for all core audio, video, and text streams.

This compound field shows transport-related information, such as:

• Media type (Information about streams that were once part of the call but were removed by the time the call is completed may not be recorded.)
  
• Local and Remote IP and Port
• SRTP encryption and authentication algorithms
• Bandwidth reserved on the interface
  

Example:

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title Note
The Media Stream Data field (230 of STOP record) is updated to log TCP/LYNC/APPSHARE when the SBC accepts a media stream with a desktop sharing media type for protocol TCP/RTP/AVP or TCP/RTP/SAVP. The length of the Media Stream Data field depends on the "Number of Streams", which is the first sub-field. For a call with single stream, only sub-field #1 to sub-field #17 will be present. For calls with multiple streams, sub-field #2 to sub-field #17 will be repeated for each stream.

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mediaStreamStats mediaStreamStats

Media Stream Stats

This field provides the statistics for all core audio, video, and text streams.

Example:

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title Note
The Media Stream Stats field (231 of STOP record) is updated to log TCP/LYNC/APPSHARE when the SBC accepts a media stream with a desktop sharing media type for protocol TCP/RTP/AVP or TCP/RTP/SAVP.

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transcodeIndicator transcodeIndicator

Transcode Indicator

Transcode Indicator is a Boolean value to indicate whether transcoded is used. A value of “1” indicates transcoding between the two call legs and "0" means no transcoding.

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hdCodecRate hdCodecRate

HD Codec Rate

HD Codec Rate is a decimal value field to hold the HD codec rate per leg. 

Remote Audio RTCP Learned Metrics

 Remote RTCP statistics are populated in STOP CDR for both pass-through and transcoded calls based on the following conditions, as applicable:

• For Pass-through calls, RTCP termination is enabled on only one leg.
• For Transcoded calls, remote statistics is populated for the call leg which has RTCP enabled.

This feature is supported in the following call scenarios: 

• SIP
• H323
• SIP-I
• Gw-Gw (with above protocols)
• IPv4
• IPv6

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remoteIngressAudioMetrics remoteIngressAudioMetrics

Remote Ingress Audio RTCP Learned Metrics

The Remote Ingress Audio RTCP Learned Metrics field indicates statistics received from Ingress endpoint in SR/RR RTCP Packet. The maximum length of this field is 1024 characters, including all commas and double quotes (""). 
Subfields:

• Ingress Packets Sent - Received as part of RTCP Packet from Ingress. It is the total number of RTP data packets transmitted by the sender since starting transmission up until the time this SR packet was generated.
• Ingress Octets Sent - Received as part of RTCP Packet from Ingress. It is the total number of payload octets (i.e., not including header or padding) transmitted in RTP data packets by the sender since starting transmission up until the time this SR packet was generated.
• Ingress SSRC - Received as part of RTCP Packet from Ingress. It is the identifier of the source to which the information in this reception report block pertains.
• Ingress Fraction Lost - Received as part of RTCP Packet from Ingress. It is the fraction of RTP data packets from source SSRC_n lost since the previous SR or RR packet was sent and expressed as a fixed point number with the binary point at the left edge of the field.
• Ingress Interarrival Jitter - Received as part of RTCP Packet from Ingress. It is an estimate of the statistical variance of the RTP data packet inter-arrival time measured in timestamp units and expressed as an unsigned integer
• Ingress Cumulative Number of Packet Lost - Received as part of RTCP Packet from Ingress. It is the total number of RTP data packets from source SSRC_n that have been lost since the beginning of reception.
• Ingress Extended Highest Sequence Number - Received as part of RTCP Packet from Ingress. It is the highest sequence number received in an RTP data packet from source SSRC_n.
• Ingress Round Trip Time  - This field is not received as part of RTCP Packet from Ingress. It is calculated using available RTCP statistics.

An example of a Remote Ingress Audio RTCP Learned Metrics field is: "137,71200,0x452272d,0,0,0,28853,193".

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remoteEgressAudioMetrics remoteEgressAudioMetrics

Remote Egress Audio RTCP Learned Metrics

 The Remote Egress Audio RTCP Learned Metrics field indicates statistics received from Egress endpoint in SR/RR RTCP Packet. The maximum length of this field is 1024 characters, including all commas and double quotes (""). 
Subfields:

 Egress Packets Sent - Received as part of RTCP Packet from Egress. It is the total number of RTP data packets transmitted by the sender since starting transmission up until the time this SR packet was generated.

• Egress Octets Sent - Received as part of RTCP Packet from Egress. It is the total number of payload octets (i.e., not including header or padding) transmitted in RTP data packets by the sender since starting transmission up until the time this SR packet was generated.
• Egress SSRC - Received as part of RTCP Packet from Egress. It is the identifier of the source to which the information in this reception report block pertains.
• Egress Fraction Lost - Received as part of RTCP Packet from Egress. It is the fraction of RTP data packets from source SSRC_n lost since the previous SR or RR packet was sent and expressed as a fixed point number with the binary point at the left edge of the field.
• Egress Interarrival Jitter - Received as part of RTCP Packet from Egress. It is an estimate of the statistical variance of the RTP data packet inter-arrival time measured in timestamp units and expressed as an unsigned integer.
• Egress Cumulative Number of Packet Lost - Received as part of RTCP Packet from Egress. It is the total number of RTP data packets from source SSRC_n that have been lost since the beginning of reception.
• Egress Extended Highest Sequence Number - Received as part of RTCP Packet from Egress. It is the highest sequence number received in an RTP data packet from source SSRC_n.
• Egress Round Trip Time  - This field is not received as part of RTCP Packet from Egress. It is calculated using available RTCP statistics.

 An example of a Remote Egress Audio RTCP Learned Metrics field is: "137,71200,0x452272d,0,0,0,28853,193".

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MTA Information MTA Information

MTA Information

SBC Call Data Record (CDRs) support storing Major Trading Area (MTA) information in CDRs. MTA is a boundary that segments a country for telecommunication licensing and consists of several Basic Trading Areas (BTAs). PSX can route the call based on MTA of calling and called parties. This record is a string, which may contain up to 49 characters. The content of this record depends upon the feature control profile and NPA NXX configuration in PSX.

If PSX determines MTA for calling and called parties, then PSX returns this information to SBC. Otherwise, the CDR field MTA Information is empty (“”).

This field is formatted as a quoted string of four comma-separated values. The values include; Origination Primary MTA, Origination Secondary MTA, Destination Primary MTA, and Destination Secondary MTA. For example,  ...,"18,11,08,11"....

The following table provides the MTA stream accounting information:

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0 Table 1 MTA Stream Accounting Information
ID Type 241 String

VBR Billing Data

SBC Call Data Record (CDRs) support storing Value Based Routing (VBR) information in CDRs.

The following fields are used to populate VBR details in SBC CDRs:

• VBR Common Billing Data
• VBR Route Billing Data

The following table provides the VBR stream accounting information:

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0 Table 1 VBR Stream Accounting Information
Field Names ID Type VBR Common Billing Data 242 String VBR Route Billing Data 243 String

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VBR Common Billing Data VBR Common Billing Data

VBR Common Billing Data

This record is a string of 256 characters. SBC receives the VBR Billing Information in the policy response and writes it to CDR. 

This field is optional and is populated when the PSX returns the VBR Route. 

The PSX captures the following common or global VBR information and sends it in the policy response:

• Destination
• Country Code
• Customer Id
• Offer Id
• Sell/Offer Price

The Sell/Offer price is present, if an Offer rate sheet is configured on the selected offer. SBC includes this data in the VBR Common Billing Data.

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VBR Route Billing Data VBR Route Billing Data

VBR Route Billing Data

This record is a string of 256 characters. For every route that is part of VBR routing label, the billing information is captured as per route data in the policy/trigger response by PSX and is sent to SBC. SBC treats it as opaque data and writes it to CDR. This field is optional. This is populated when the PSX returns a VBR Route.

For every route (routing label route) within a policy response, the following information is captured:

• Vendor ID
• Cost
• Jurisdiction

The Vendor Id represents the vendor who owns the Trunk Group. The cost is derived from active vendor rate sheet. The jurisdiction represents the jurisdiction associated with the selected rate sheet entry of the vendor. This may vary from vendor to vendor. For non VBR routes, this AVP will be empty. A maximum of 10 routes is considered for VBR Billing data purposes.

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Access Network Charging Information Access Network Charging Information

Access Network Charging Information

SBC includes the access-network-charging-info parameter received through PCRF over the Rx or Gx interfaces in the P-charging-vector header field in the first request or response originated by UE. When the charging information is available in SBC after the local resource reservation is complete, UE traverses the SBC. If P-CSCF receives Access Network Charging Information from PCRF server, P-CSCF sends Access Network Charging Information in the CAM records.

The format for Access Network Charging Information is "Character string, Max length 130".

Example: ggsn=10.10.0.1; auth-token=0;pdp-info=pdp-item=uniqueNum;pdp-dig=no;gcid=gcIdValue;flow-id=({0,0})

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Access Transfer Specific Data Access Transfer Specific Data

Access Transfer Specific Data

The location records for Access Transfer Specific Data are START, STOP, ATTEMPT, and INTERMEDIATE.

The following table details each of the sub-fields of Access Transfer Specific Data:

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0 Table 1 Access Transfer Specefic Data sub-fields
Sub Field ID Field Description Type Max Length Example/Possible values 1 Feature ID STRING 4 ATCF, EATF 2 Transfer Type STRING 5 PS2CS/CS2PS 3 Source Access call GCID ULONG 10 GCID 4 Target Access call GCID ULONG 10 GCID 5 Original Calling Number STRING 30 12345678 6 Original Called Number STRING 30 32654879

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title Note
The Original Call and Target Call (Handover call) types are considered individual calls, thus separate CDRs are generated for each call type. In case of a PS-to-PS handover call, the field "Access Transfer Specific Data" of the Target call contains the following information: Transfer Type as "PS2PS" Source access GCID - Contains the GCID of the Orignal call which is handed over Target access GCID - Contains the GCID of the Target call All PS-to-PS Handover calls are identified by the "Transfer Type" field. The source call which gets handed over is identified from the Source access GCID. The CDR of the original call does not have any indication that it is handed over to a new Target call. Any correlation of CDR must come backward by identifying the Target call and then tracing back the Original Call.

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Emergency Indicator Emergency Indicator

Emergency Indicator

The "Emergency Indicator" indicates the IMS session as an IMS emergency session or IMS registration. This covers both INVITE and REGISTER messages.

The format for Emergency Indicator is "Boolean of max length 1".

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Ingress Dtls-Srtp Ingress Dtls-Srtp

Ingress Dtls-Srtp: Dtls-Srtp status info

The "Ingress Dtls-Srtp: Dtls-Srtp status info" indicates if the DTLS negotiation in the corresponding stream is successfully completed, the value is enabled or disabled for an ingress call.

The supported values are:

• Empty (dtls disabled)
• 1 (dtls termination)
• 2 (dtls relay)

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#Egress Dtls-Srtp #Egress Dtls-Srtp

Egress Dtls-Srtp: Dtls-Srtp status info

The "Egress Dtls-Srtp: Dtls-Srtp status info" indicates if the DTLS negotiation in the corresponding stream is successfully completed, the value is enabled or disabled for an egress call.

The supported values are:

• Empty (dtls disabled)
• 1 (dtls termination)
• 2 (dtls relay)

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UE Roaming Status UE Roaming Status

UE Roaming Status

The format for UE Roming Staus is as follows:

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Ingress Signaled Session Bandwidth in kbps Ingress Signaled Session Bandwidth in kbps

Ingress Signaled Session Bandwidth in kbps

Prints the session bandwidth value signaled by Ingress EP.

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Ingress Rx Computed Session Bandwidth in kbps Ingress Rx Computed Session Bandwidth in kbps

Ingress Rx Computed Session Bandwidth in kbps

Computed using the traffic received from Ingress Peer (session) for the call duration that is,

Computed Rx Session Bandwidth = Sum of all received bytes for call adjusted to Link value/Call Duration.

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Ingress Tx Computed Session Bandwidth in kbps Ingress Tx Computed Session Bandwidth in kbps

Ingress Tx Computed Session Bandwidth in kbps

Computed using the traffic sent to Ingress Peer (session) for the call duration that is,

Computed Tx Session Bandwidth = Sum of all transmitted bytes for call leg adjusted to Link value/Call Duration.

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Ingress Configured Bandwidth Reduction Factor Ingress Configured Bandwidth Reduction Factor

Ingress Configured Bandwidth Reduction Factor

Prints the reduction factor configured in the Ingress PSP, used for this call.

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Ingress Estimated Bandwidth Reduction Factor Ingress Estimated Bandwidth Reduction Factor

Ingress Estimated Bandwidth Reduction Factor

Represents the factor that is resulted in the measured bandwidth for the ingress relative to the allocated bandwidth. That is,

Estimated Reduction Factor = 1 - (Maximum of Send and Received Computed Bandwidth/Signaled Bandwidth).

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Egress Signaled Session Bandwidth in kbps Egress Signaled Session Bandwidth in kbps

Egress Signaled Session Bandwidth in kbps

Prints the session bandwidth value signaled by Egress EP.

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Egress Rx Computed Session Bandwidth in kbps Egress Rx Computed Session Bandwidth in kbps

Egress Rx Computed Session Bandwidth in kbps

Computed using traffic received from Egress Peer (session) for the call duration that is,

Computed Rx Session Bandwidth = Sum of all received bytes for call adjusted to Link value/Call Duration.

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Egress Tx Computed Session Bandwidth in kbps Egress Tx Computed Session Bandwidth in kbps

Egress Tx Computed Session Bandwidth in kbps

Computed using traffic sent to Egress Peer (session) for the call duration that is,

Computed Tx Session Bandwidth = Sum of all transmitted bytes for call leg adjusted to Link value/Call Duration.

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Egress Configured Bandwidth Reduction Factor Egress Configured Bandwidth Reduction Factor

Egress Configured Bandwidth Reduction Factor

Prints the reduction factor configured in the Egress PSP, used for this call.

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Egress Estimated Bandwidth Reduction Factor Egress Estimated Bandwidth Reduction Factor

Egress Estimated Bandwidth Reduction Factor

Represent the factor that would have resulted in the measured bandwidth for the egress relative to the allocated bandwidth. That is,

Estimated Reduction Factor = 1 - (Maximum of Send and Received Computed Bandwidth / Signaled Bandwidth)

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Additional Media Stream Statistics Additional Media Stream Statistics

Additional Media Stream Statistics

Additional Media Stream Statistics is a string field and contains additional sub-fields. The sub-fields are comma separated values, which are included in the string.

The following table decribes the sub-fields for Additional Media Stream Statistics:

Info
title Note
The transcode indicator BOOLEAN field is added to audio stream, where the value 1 indicates transcoding and 0 indicates passthru.

For more information, refer to Additional Media Stream Statistics Sub-fields for Audio Encoding for a description of the ingress codecParams1 and egress codec Params1 sub-fields.

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Ingress Zone Name Ingress Zone Name

Ingress Zone Name

This field provides the name of the Ingress zone.

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Egress Zone Name Egress Zone Name

Egress Zone Name

This field provides the name of the Egress zone.

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Ingress Zone Id Ingress Zone Id

Ingress Zone Id

This field provides the ID of the Ingress zone.

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Egress Zone Id Egress Zone Id

Egress Zone Id

This field provides the ID of the Egress zone.

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Video CAC Video CAC

Video Cac

The media type (Video) and CAC level (TG/zone/Shared...) of  a video stream that pruned because the configured video threshold limit is reached is included as a new CAM field called "Video Cac". This field includes the media type (video) and the CAC level  (TG, ZN, SH, EP....). This CAM field includes the following values, as applicable, when the video threshold level is reached:

• ZN-Video
• SH-Video
• TG-Video
• EP-Video

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Ingress IP Prefix Found TG Name Ingress IP Prefix Found TG Name

Ingress IP Prefix Found TG Name

The CDR includes "Ingress Trunk Group Name" field for both the ingress IPTG found with prefix match and the IPTG determined based on the SIP Message Manipulation (SMM). If SMM is not used to determine the ingress IPTG, the relevant CDR field is empty.

• If the ingress Trunk Group is configured using SMM and applied for a call:
  Ingress Trunk Group Name: TG Name configured using SMM
  Ingress IP Prefix Found TG Name: IPTG found with prefix match

• If the ingress Trunk Group is not configured using SMM or not applied for a call:
  Ingress Trunk Group Name: IPTG found with prefix match
  Ingress IP Prefix Found TG Name: empty

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Transcode Resource Type Transcode Resource Type

Transcode Resource Type

This field indicates the type of transcoder (Media Resource Function (MRF) or a TSBC) used for the call.

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MRF Information MRF Information

MRF Information

This field Stores MRF related information.

This field contains two sub-fields:

• Signaling IP
• Signaling PORT

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0 Figure 1 Accounting Record Summary
ASCII Accounting Sub-field Name Max Length in characters Type START STOP ATTEMPT INTERMEDIATE Signaling IP 39 IPV4/IPV6 IP address N/A 264.1 N/A N/A Signaling PORT 5 Port N/A 264.2 N/A N/A

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Forking Call Parent GCID Forking Call Parent GCID

Forking Call Parent GCID

This field binds all the forked calls initiated by one incoming call.

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Call Recorder 1 RTP Tx Ip address Call Recorder 1 RTP Tx Ip address

Call Recorder 1 RTP Tx Ip address

First Forking recorder Tx IP Address.

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Call Recorder 1 RTP Tx Port Number Call Recorder 1 RTP Tx Port Number

Call Recorder 1 RTP Tx Port Number

First Forking recorder Tx port number.

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Call Recorder 1 RTP Rx IP address Call Recorder 1 RTP Rx IP address

Call Recorder 1 RTP Rx IP address

First Forking recorder Rx IP Address.

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Call Recorder 1 RTP Rx Port Number Call Recorder 1 RTP Rx Port Number

Call Recorder 1 RTP Rx Port Number

First Forking recorder Rx Port Number.

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Call Recorder 2 RTP Tx Ip address Call Recorder 2 RTP Tx Ip address

Call Recorder 2 RTP Tx Ip address

Second Forking recorder Tx IP Address.

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Call Recorder 2 RTP Tx Port Number Call Recorder 2 RTP Tx Port Number

Call Recorder 2 RTP Tx Port Number

Second Forking recorder Tx port number.

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Call Recorder 2 RTP Rx IP address Call Recorder 2 RTP Rx IP address

Call Recorder 2 RTP Rx IP address

Second Forking recorder Rx IP Address.

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Call Recorder 2 RTP Rx IP address Call Recorder 2 RTP Rx IP address

Call Recorder 2 RTP Rx Port Number

Second Forking recorder Rx port number.

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Call Recorder 3 RTP Tx Ip address Call Recorder 3 RTP Tx Ip address

Call Recorder 3 RTP Tx Ip address

Third Forking recorder Tx IP Address.

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Call Recorder 3 RTP Tx Port Number Call Recorder 3 RTP Tx Port Number

Call Recorder 3 RTP Tx Port Number

Third Forking recorder Tx port number.

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Call Recorder 3 RTP Rx IP address Call Recorder 3 RTP Rx IP address

Call Recorder 3 RTP Rx IP address

Third Forking recorder Rx IP Address.

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Call Recorder 3 RTP Rx Port Number Call Recorder 3 RTP Rx Port Number

Call Recorder 3 RTP Rx Port Number

Third Forking recorder Rx port number.

Info
title Note
The fields corresponding to Call Recorder 2 and Call Recorder 3 are supported in future release.

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SO-SBC SO-SBC

SO-SBC

This field is added to the CAM records to indicate that the call was in a SO-SBC mode.

The SO-SBC field is a string field indicating the used signaling mode (global, onAnswer, onPolicyRsp....). The default is signaling only not set and this field will be empty.

Info
title Note
Currently, only the global mode is supported.

The following are the proposed string values:

• SO-g - indicates signaling only on global mode.
• SO-p  - indicates signaling only on policy response.
• SO-a - indicates signaling only on answer.

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Audio Stream Statistics Audio Stream Statistics

Audio Stream Statistics

The following table lists the attributes for audio stream statistics:

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0 Table 1 Audio Stream Statistics
Name [STO: 279] Length Entries per stream [sf: 1] 1 character, for example: 2 Number of streams [sf: 2] 2 characters, for example: 01 ingress mosCq1 [sf: 3] 3, for example 4.1 egress mosCq1 [sf: 4] 3, for example 4.1

 

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Audio Stream RTCP-XR Voice Metric Statistics Audio Stream RTCP-XR Voice Metric Statistics

Audio Stream RTCP-XR Voice Metric Statistics

The following table lists the attributes for audio stream RTCP-XR voice metric statistics.

Info
These fields are populated only if the following controls are enabled for the given call leg: set profiles media packetServiceProfile PSP_RTP rtcpOptions rtcp enable set profiles media packetServiceProfile PSP_RTP rtcpOptions rtcpXr [relayOrTerminate | relay-only]

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0 Table 1 Audio Stream RTCP-XR Voice Metric Statistics
Name [STO: 280] Length Entries per stream [sf: 1] 2 characters, for example: 32 Number of streams [sf: 2] 2 characters, for example: 01 ingress pktLossRate1 [sf: 3] 3 ingress pktDiscardRate1 [sf: 4] 3 ingress pktBurstDensity1 [sf: 5] 3 ingress pktGapDensity1 [sf: 6] 3 ingress pktBurstDuration1 [sf: 7] 5 ingress pktGapDuration1 [sf: 8] 5 ingress roundTripTime1 [sf: 9] 5 ingress endSystemDelay1 [sf: 10] 5 ingress gapMinThreshold1 [sf: 11] 3 ingress jitterBufferAdaptive1 [sf: 12] 1 ingress jitterBufferRate1 [sf: 13] 2 ingress jitterNominalDelay1 [sf: 14] 5 ingress jitterMaxDelay1 [sf: 15] 5 ingress jitterAbsMaxDelay1 [sf: 16] 5 ingress rFactor1 [sf: 17] 3 ingress mosCq1 [sf: 18] 3 egress pktLossRate1 [sf: 19] 3 egress pktDiscardRate1 [sf: 20] 3 egress pktBurstDensity1 [sf: 21] 3 egress pktGapDensity1 [sf: 22] 3 egress pktBurstDuration1 [sf: 23] 5 egress pktGapDuration1 [sf: 24] 5 egress roundTripTime1 [sf: 25] 5 egress endSystemDelay1 [sf: 26] 5 egress gapMinThreshold1 [sf: 27] 3 egress jitterBufferAdaptive1 [sf: 28] 1 egress jitterBufferRate1 [sf: 29] 2 egress jitterNominalDelay1 [sf: 30] 5 egress jitterMaxDelay1 [sf: 31] 5 egress jitterAbsMaxDelay1 [sf: 32] 5 egress rFactor1 [sf: 33] 3 egress mosCq1 [sf: 34] 3

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Media Stream STRP Statistics Media Stream STRP Statistics

Media Stream SRTP Statistics

The following table lists the attributes for media stream SRTP statistics:

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0 Table 1 Media Stream SRTP Statistics
Name [STO: 281] Length Entries per stream [sf: 1] 2 characters, for example: 4 Number of streams [sf: 2] 2 characters, for example: 06 ingress authFailureCount1 [sf: 3] 5 ingress outsideReplayCount1 [sf: 4] 5 egress authFailureCount1 [sf: 5] 5 egress outsideReplayCount1 [sf: 6] 5 ingress authFailureCount2 [sf: 7] 5 ingress outsideReplayCount2 [sf: 8] 5 egress authFailureCount2 [sf: 9] 5 egress outsideReplayCount2 [sf: 10] 5 ingress authFailureCount3 [sf: 11] 5 ingress outsideReplayCount3 [sf: 12] 5 egress authFailureCount3 [sf: 13] 5 egress outsideReplayCount3 [sf: 14] 5 ingress authFailureCount4 [sf: 15] 5 ingress outsideReplayCount4 [sf: 16] 5 egress authFailureCount4 [sf: 17] 5 egress outsideReplayCount4 [sf: 18] 5 ingress authFailureCount5 [sf: 19] 5 ingress outsideReplayCount5 [sf: 20] 5 egress authFailureCount5 [sf: 21] 5 egress outsideReplayCount5 [sf: 22] 5 ingress authFailureCount6 [sf: 23] 5 ingress outsideReplayCount6 [sf: 24] 5 egress authFailureCount6 [sf: 25] 5 egress outsideReplayCount6 [sf: 26] 5

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DSP insertion/rejection reason DSP insertion/rejection reason

DSP insertion/rejection reason

Reasons for a DSP resource’s inclusion in a media flow, or for its rejection upon request.

The reasons include the following:

• Transcoding
• Transrating
• DTMF
• SilenceSuppression
• Rejected codec not configured
• Rejected codec unlicensed. The DSP Rejection reason is set to "Rejected codec unlicensed" in the following cases:
  • The SBC doesn't have DSP.
  • The SBC has DSP but codec licenses are absent.
  • The SBC has DSP and codec licenses but transcoding is not enabled for the codecs.

In any of the above cases, if Passthru is possible and if the call is successful, then the DSP Rejection reason is updated after a successful offer answer.

• Rejected unrelated to DSP
• No DSP inserted

DSP insertion/rejection reason is in both the STOP record and ATTEMPT record.

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0 Table 1 DSP insertion/rejection reason STOP Record
Name [STO: 282] Length Entries per stream [sf: 1] 1 character, for example: 2 Number of streams [sf: 2] 2 characters, for example: 01 ingress dspReason1 [sf: 3] 40, for example string "Rejected codec not configured" egress dspReason1 [sf: 4] 40, for example string "Rejected codec not configured"

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0 Table 1 DSP insertion/rejection reason ATTEMPT Record
Name [ATT: 205] Length Entries per stream [sf: 1] 1 character, for example: 2 Number of streams [sf: 2] 2 characters, for example: 01 ingress dspReason1 [sf: 3] 40, for example string "Rejected codec not configured" egress dspReason1 [sf: 4] 40, for example string "Rejected codec not configured"

SIP PVSD Sub-fields

The following table lists the SIP PVSD sub-fields for call-specific records:

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class pdf8pttext
Caption 0 Table 1 SIP PVSD sub-fileds for Call-Specific records Field name ASCII Accounting Max ASCII Length Type Record Number START STOP ATTEMPT INTERMEDIATE Ingress PVSD Origination ID 36 Characters 42.70 52.70 45.70 38.70 Ingress PVSD STI Service Type 1 Characters 42.71 52.71 45.71 38.71 Ingress PVSD STI Service Status 1 Characters 42.72 52.72 42.72 38.72 Ingress PVSD STI Reason Code 3 Characters 42.73 52.73 42.73 38.73 Ingress PVSD Attestation-Indicator  1 Characters 42.83 52.83 45.83 38.83 Egress PVSD Origination ID 36 Characters 55.70 69.70 59.70 51.70 Egress PVSD STI Service Type 1 Characters 55.71 69.71 59.71 51.71 Egress PVSD STI Service Status 1 Characters 55.72 69.72 59.72 51.72 Egress PVSD STI Reason Code  3 Characters 55.73 69.73 59.73 51.73 Egress PVSD Attestation-Indicator  1 Characters 55.83 69.83 59.83 51.83

Ingress PVSD Origination ID

A globally unique string corresponding to a Universally Unique Identifier (UUID)(RFC 4122).The purpose of the unique origination identifier is to assign an opaque identifier corresponding to the service provider-initiated calls themselves, customers, classes of devices, or other groupings that a service provider might want to use for determining things such as reputation or trace back identification of customers or gateway

Ingress PVSD STI Service Type

The incoming secure telephone identity (STI) service type. In this service type, though the fields are added in the CDR, they are not populated. This is because the SBC has not received any data from the PSX and the STI service is not performed. Ingress value is 0.

Ingress PVSD STI Service Status

The incoming secure telephone identity (STI) service status. When the STI service is performed, the result is either a success or a failure and the same is written in this CDR field. In the Ingress side no STI service is performed, and hence the value  "none" is written in this field.

Ingress PVSD STI Reason Code

Secure Telephone Identity SIP Reason Code. SIP reason code corresponding to the STI Service. Reason code is used in case of verification failure or verification success. Because there is no STI service performed on the ingress side, this field is not populated.

Ingress PVSD Attestation-Indicator

This and the Egress PVSD Attestation-Indicator fields log the attestation level in START & STOP records for all STIR services. Possible values are A, B or C. 

• The Ingress Protocol Variant Specific Data is updated with data based on ingress signaling.
• The Egress Protocol Variant Specific Data is updated with data received from the PSX, if available.
• If PSX data is not available, received Ingress signaling data is populated in the Egress PVSD.

Egress PVSD Origination ID

A globally unique string corresponding to a Universally Unique Identifier (UUID)(RFC 4122).The purpose of the unique origination identifier is to assign an opaque identifier corresponding to the service provider-initiated calls themselves, customers, classes of devices, or other groupings that a service provider might want to use for determining things such as reputation or trace back identification of customers or gateway

Egress PVSD STI Service Type

The outgoing secure telephone identity (STI) service type. In this service type, the CDR fields are added and populated when it receives data from the PSX. This is because STI-AS/VS performs the service for which the PSX contacts.

The service type is signing, verification and tagging.

Egress PVSD STI Service Status

The outgoing secure telephone identity (STI) service status. When the STI service is performed, the result is either a success or a failure and the same is written in this CDR field. In the egress side, STI service is performed, and hence either the value  "success" or "failure" is written in this field. For more information, refer to SIP-I Signaling Sub-field Descriptions,

Egress PVSD STI Reason Code

Secure Telephone Identity SIP Reason Code. SIP reason code corresponding to the STI Service. Reason code is used in case of verification failure or verification success. This field is populated since the STI service is performed.

Egress PVSD Attestation-Indicator

This and the Ingress PVSD Attestation-Indicator fields log the attestation level in START & STOP records for all STIR services. Possible values are A, B or C. 

• The Ingress Protocol Variant Specific Data is updated with data based on ingress signaling.
• The Egress Protocol Variant Specific Data is updated with data received from the PSX, if available.
• If PSX data is not available, received Ingress signaling data is populated in the Egress PVSD.

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Call Established Time Call Established Time

Call Established Time

The SBC calculates the Call Established Time using the following fields stored in the CDR records:

• Start Time (Date) of the call from field number 6
• Start Time (Time) of the call from field number 7
• Ticks from Setup Msg to Service Est from field number 10 in START and STOP Records and INTERMEDIATE records from filed number 9
  
  

You must use this field when indexing route specific fields within the PSX Billing Info Field. See "PSX Billing Information".

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VTP Information VTP Information

VTP Information

Indicates that ingress and/or egress leg are VTP.

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Over Flow Packets Count Over Flow Packets Count

Over Flow Packets Count

The Over Flow Packet Count field includes the count of overflow packets that are beyond the limit allowed by the policy control.

The count is per stream for both ingress and egress leg separately that are displayed as sub-field.
The maximum length of each sub-field ingress or egress over Flow Packet Count is 20.
Depending upon number of streams, the size of “Over Flow Packets Count” may vary

The field is generated for STOP CDR (field number 284), as this information is available only after the call is terminated.

The format of the subfields is as follows:

 

ingress overFlowPacketsCount1

egress overFlowPacketsCount1

ingress overFlowPacketsCount2

egress overFlowPacketsCount2

ingress overFlowPacketsCount3

egress overFlowPacketsCount3

ingress overFlowPacketsCount4

egress overFlowPacketsCount4

ingress overFlowPacketsCount5

egress overFlowPacketsCount5

ingress overFlowPacketsCount6

egress overFlowPacketsCount6

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Ingress Trunk Group Sent to PSX Ingress Trunk Group Sent to PSX

Ingress Trunk Group for PSX Routing

By default, the SBC selects the ingress trunk group for an incoming SIP request based on its source IP address and port. Using SIP Message Manipulation (SMM) operations and SIP Param Based Action profiles, the SBC supports a feature to select a new ingress trunk group. Secondary trunk group selection enables applying trunk group policies and profiles on a more granular basis in subsequent processing of the session.

If a new ingress trunk group is chosen using this feature, the existing CDR field Ingress Trunk Group Name is populated with the new trunk group name and this field contains the original ingress trunk group that was selected based on the source IP/port and sent to the PSX for policy information prior to the change to the new ingress trunk group. If a new trunk group is not selected, both the "Ingress Trunk Group Name" field and this field contain the same value.

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T140 Information T140 Information

T140 Information

 This field is populated if generateRtcpForT140IfNotReceived is enabled. For call modify scenarios, this field is populated based on the monitoring outcome of the last mid-call update. the SBC is provisioned to monitor RTCP for T140 stream. If RTCP is not received within monitoring interval, then the SBC moves to generate mode. The possible values are Relay (if RTCP is relayed by the SBC) or Generate (if RTCP is generated by the SBC).

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Remote T140 RTCP Learned Metrics Remote T140 RTCP Learned Metrics

Remote T140 RTCP Learned Metrics

This field displays the remote RTCP Learned metrics, and shall be populated when RTCP is relayed by the SBC and when generateRtcpForT140IfNotReceived is enabled.

Beep Tone Inserted

This field indicates if a beep tone is played for the recorded call.

Possible values:

• 0 – No
• 1 – Yes

Direction of Beep Tone

This field specifies the direction of the beep tone.

Possible values:

• 1 – Ingress
• 2 – Egress
• 3 – Both

Start Time (Local)

Local timestamp when Setup Request was received.

Disconnect Time (Local)

Local timestamp when a Disconnect Request was received for the call.

Intermediate Time (Local)

Local timestamp when the Intermediate Accounting Timer expired.

Call Established Time (Local)

Local timestamp when the call was established.