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digits='01234567' (8)
digits='0123456' (7)
sccp_addr_parse test case 0
expected: RI=1,SSN=6,GTI=4,GT=(TT=0,NPL=1,NAI=4,DIG=919969679389)
parsed: RI=1,SSN=6,GTI=4,GT=(TT=0,NPL=1,NAI=4,DIG=919969679389)
sccp_addr_parse test case 1
expected: RI=1,SSN=8,GTI=4,GT=(TT=0,NPL=1,NAI=4,DIG=919869299992)
parsed: RI=1,SSN=8,GTI=4,GT=(TT=0,NPL=1,NAI=4,DIG=919869299992)
sccp_addr_parse test case 2
expected: RI=2,SSN=254
parsed: RI=2,SSN=254
Testing Decoded GT -> SUA encoding
IN: TT=0,NPL=1,NAI=4,DIG=919969679389
0400000000000001000000043931393936393637393338390000000000000000000000000000000000000000
OUT:TT=0,NPL=1,NAI=4,DIG=919969679389
0400000000000001000000043931393936393637393338390000000000000000000000000000000000000000
=> BSSMAP-RESET
SCCP Input: [L2]> 09 00 03 05 07 02 42 fe 02 42 fe 06 00 04 30 04 01 20
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CL:CLDT,V=0,LEN=0),
PART(T=Protocol Class,L=4,D=00000000),
PART(T=Destination Address,L=12,D=0002000180030008000000fe),
PART(T=Source Address,L=12,D=0002000180030008000000fe),
PART(T=Data,L=6,D=000430040120)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 09 00 03 05 07 02 42 fe 02 42 fe 06 00 04 30 04 01 20
=> BSSMAP-RESET-ACK
SCCP Input: [L2]> 09 00 03 07 0b 04 43 01 00 fe 04 43 5c 00 fe 03 00 01 31
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CL:CLDT,V=0,LEN=0),
PART(T=Protocol Class,L=4,D=00000000),
PART(T=Destination Address,L=20,D=00020003800200080000000180030008000000fe),
PART(T=Source Address,L=20,D=00020003800200080000005c80030008000000fe),
PART(T=Data,L=3,D=000131)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 09 00 03 07 0b 04 43 01 00 fe 04 43 5c 00 fe 03 00 01 31
=> BSSMAP-PAGING
SCCP Input: [L2]> 09 00 03 07 0b 04 43 01 00 fe 04 43 5c 00 fe 10 00 0e 52 08 08 29 47 10 02 01 31 97 61 1a 01 06
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CL:CLDT,V=0,LEN=0),
PART(T=Protocol Class,L=4,D=00000000),
PART(T=Destination Address,L=20,D=00020003800200080000000180030008000000fe),
PART(T=Source Address,L=20,D=00020003800200080000005c80030008000000fe),
PART(T=Data,L=16,D=000e52080829471002013197611a0106)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 09 00 03 07 0b 04 43 01 00 fe 04 43 5c 00 fe 10 00 0e 52 08 08 29 47 10 02 01 31 97 61 1a 01 06
=> BSSMAP-UDT
SCCP Input: [L2]> 09 00 03 05 07 02 42 fe 02 42 fe 10 00 0e 52 08 08 29 47 10 02 01 31 97 61 1a 01 06
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CL:CLDT,V=0,LEN=0),
PART(T=Protocol Class,L=4,D=00000000),
PART(T=Destination Address,L=12,D=0002000180030008000000fe),
PART(T=Source Address,L=12,D=0002000180030008000000fe),
PART(T=Data,L=16,D=000e52080829471002013197611a0106)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 09 00 03 05 07 02 42 fe 02 42 fe 10 00 0e 52 08 08 29 47 10 02 01 31 97 61 1a 01 06
=> BSSMAP-CR
SCCP Input: [L2]> 01 01 02 03 02 02 04 02 42 fe 0f 1f 00 1d 57 05 08 00 72 f4 80 20 12 c3 50 17 10 05 24 11 03 33 19 a2 08 29 47 10 02 01 31 97 61 00
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CO:CORE,V=0,LEN=0),
PART(T=Protocol Class,L=4,D=00000002),
PART(T=Source Reference,L=4,D=00010203),
PART(T=Destination Address,L=12,D=0002000180030008000000fe),
PART(T=Data,L=31,D=001d5705080072f4802012c3501710052411033319a2082947100201319761)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 01 01 02 03 02 02 04 02 42 fe 0f 1f 00 1d 57 05 08 00 72 f4 80 20 12 c3 50 17 10 05 24 11 03 33 19 a2 08 29 47 10 02 01 31 97 61 00
=> BSSMAP-CC
SCCP Input: [L2]> 02 01 02 03 00 00 03 02 01 00
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CO:COAK,V=0,LEN=0),
PART(T=Protocol Class,L=4,D=00000002),
PART(T=Destination Reference,L=4,D=00010203),
PART(T=Source Reference,L=4,D=00000003)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 02 01 02 03 00 00 03 02 01 00
=> BSSMAP-DTAP
SCCP Input: [L2]> 06 00 00 03 00 01 0f 01 00 0c 03 05 5c 08 11 81 33 66 02 13 45 f4
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CO:CODT,V=0,LEN=0),
PART(T=Destination Reference,L=4,D=00000003),
PART(T=Segmentation,L=4,D=00000000),
PART(T=Data,L=15,D=01000c03055c0811813366021345f4)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 06 00 00 03 00 01 0f 01 00 0c 03 05 5c 08 11 81 33 66 02 13 45 f4
=> BSSMAP-CLEAR
SCCP Input: [L2]> 06 00 00 03 00 01 06 00 04 20 04 01 09
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CO:CODT,V=0,LEN=0),
PART(T=Destination Reference,L=4,D=00000003),
PART(T=Segmentation,L=4,D=00000000),
PART(T=Data,L=6,D=000420040109)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 06 00 00 03 00 01 06 00 04 20 04 01 09
=> BSSMAP-RELEASED
SCCP Input: [L2]> 04 00 00 03 01 02 03 00 01 0f 02 23 42 00
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CO:RELRE,V=0,LEN=0),
PART(T=Destination Reference,L=4,D=00000003),
PART(T=Source Reference,L=4,D=00010203),
PART(T=Cause,L=4,D=00000300),
PART(T=Data,L=2,D=2342)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 04 00 00 03 01 02 03 00 01 0f 02 23 42 00
=> BSSMAP-RELEASE_COMPLETE
SCCP Input: [L2]> 05 01 02 03 00 00 03
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CO:RELCO,V=0,LEN=0),
PART(T=Destination Reference,L=4,D=00010203),
PART(T=Source Reference,L=4,D=00000003)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 05 01 02 03 00 00 03
=> TCAP
SCCP Input: [L2]> 09 81 03 0d 18 0a 12 07 00 12 04 53 84 09 00 17 0b 12 06 00 12 04 44 87 20 00 20 65 9a 65 81 97 48 04 26 00 01 98 49 04 51 01 03 df 6c 81 88 a1 81 85 02 01 44 02 01 07 30 80 a7 80 a0 80 04 01 2b 30 80 30 12 83 01 10 84 01 07 85 07 91 44 57 76 67 16 97 86 01 20 30 06 82 01 18 84 01 04 00 00 00 00 a3 06 04 01 42 84 01 05 a3 06 04 01 51 84 01 05 a3 06 04 01 31 84 01 05 a3 09 04 01 12 84 01 05 82 01 02 a3 09 04 01 11 84 01 05 81 01 01 a3 06 04 01 14 84 01 00 a3 0b 04 01 41 84 01 04 30 03 83 01 10 a3 0b 04 01 41 84 01 04 30 03 82 01 18 00 00 00 00
Transcoding message SCCP -> XUA
Decoded SUA: HDR=(CL:CLDT,V=0,LEN=0),
PART(T=Protocol Class,L=4,D=00000081),
PART(T=Destination Address,L=32,D=0001000580010014000000040a00010453840900170000008003000800000007),
PART(T=Source Address,L=32,D=0001000580010014000000040c00010444872000206500008003000800000006),
PART(T=Data,L=154,D=6581974804260001984904510103df6c8188a181850201440201073080a780a08004012b30803012830110840107850791445776671697860120300682011884010400000000a306040142840105a306040151840105a306040131840105a309040112840105820102a309040111840105810101a306040114840100a30b0401418401043003830110a30b040141840104300382011800000000)
Re-Encoding decoded SUA to SCCP
SCCP Output: [L2]> 09 81 03 0d 18 0a 12 07 00 12 04 53 84 09 00 17 0b 12 06 00 12 04 44 87 20 00 20 65 9a 65 81 97 48 04 26 00 01 98 49 04 51 01 03 df 6c 81 88 a1 81 85 02 01 44 02 01 07 30 80 a7 80 a0 80 04 01 2b 30 80 30 12 83 01 10 84 01 07 85 07 91 44 57 76 67 16 97 86 01 20 30 06 82 01 18 84 01 04 00 00 00 00 a3 06 04 01 42 84 01 05 a3 06 04 01 51 84 01 05 a3 06 04 01 31 84 01 05 a3 09 04 01 12 84 01 05 82 01 02 a3 09 04 01 11 84 01 05 81 01 01 a3 06 04 01 14 84 01 00 a3 0b 04 01 41 84 01 04 30 03 83 01 10 a3 0b 04 01 41 84 01 04 30 03 82 01 18 00 00 00 00
Parsing M3UA Message
Parsing Nested M3UA Routing Key IE
Testing SCCP Address Encode/Decode
=> NOGT-PC1024
input addr: RI=2,PC=1024
rc=3, expected rc=3
encoded addr: 410004
expected addr: 410004
decod addr: RI=2,PC=1024
=> NOGT-PC16383
input addr: RI=2,PC=16383
rc=3, expected rc=3
encoded addr: 41ff3f
expected addr: 41ff3f
decod addr: RI=2,PC=16383
=> NOGT-PC16383-SSN90
input addr: RI=2,PC=16383,SSN=90
rc=4, expected rc=4
encoded addr: 43ff3f5a
expected addr: 43ff3f5a
decod addr: RI=2,PC=16383,SSN=90
=> GT-PC16383-NAIONLY
input addr: RI=2,PC=16383,GTI=1,GT=()
rc=4, expected rc=4
encoded addr: 45ff3f7f
expected addr: 45ff3f7f
decod addr: RI=2,PC=16383,GTI=1,GT=()
=> GT-NOPC-NAIONLY
input addr: RI=1,GTI=1,GT=()
rc=2, expected rc=2
encoded addr: 0403
expected addr: 0403
decod addr: RI=1,GTI=1,GT=()
=> GT-NOPC-TTONLY
input addr: RI=1,GTI=2,GT=(TT=3,DIG=)
rc=-22, expected rc=-22
=> GT-NOPC-TT_NPL_ENC-ODD
input addr: RI=1,GTI=3,GT=(TT=3,NPL=1,DIG=123)
rc=5, expected rc=5
encoded addr: 0c03112103
expected addr: 0c03112103
decod addr: RI=1,GTI=3,GT=(TT=3,NPL=1,DIG=123)
=> GT-NOPC-TT_NPL_ENC-EVEN
input addr: RI=1,GTI=3,GT=(TT=3,NPL=1,DIG=1234)
rc=5, expected rc=5
encoded addr: 0c03122143
expected addr: 0c03122143
decod addr: RI=1,GTI=3,GT=(TT=3,NPL=1,DIG=1234)
=> GT-NOPC-TT_NPL_ENC_NAI-EVEN
input addr: RI=1,GTI=4,GT=(TT=3,NPL=1,NAI=4,DIG=1234)
rc=6, expected rc=6
encoded addr: 100312042143
expected addr: 100312042143
decod addr: RI=1,GTI=4,GT=(TT=3,NPL=1,NAI=4,DIG=1234)
=> GT-NOPC-GTI_INVALID
input addr: RI=1,GTI=23,GT=(DIG=1234)
rc=-22, expected rc=-22
=> GT-NOPC-TT_NPL_ENC_NAI-EVEN-NONNUM
input addr: RI=1,GTI=4,GT=(TT=3,NPL=1,NAI=4,DIG=1ABF)
rc=6, expected rc=6
encoded addr: 10031204a1fb
expected addr: 10031204a1fb
decod addr: RI=1,GTI=4,GT=(TT=3,NPL=1,NAI=4,DIG=1ABF)
All tests passed.
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