/* RLCMACTest.cpp * * Copyright (C) 2011 Ivan Klyuchnikov * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ //#include #include #include #include #include #include "gsm_rlcmac.h" #include "gprs_rlcmac.h" #include "decoding.h" extern "C" { extern const struct log_info gprs_log_info; #include "pcu_vty.h" #include #include #include #include #include #include "csn1.h" } using namespace std; void *tall_pcu_ctx; void printSizeofRLCMAC() { printf("*** %s ***\n", __func__); cout << "sizeof RlcMacUplink_t " << sizeof(RlcMacUplink_t) << endl; cout << "sizeof Packet_Cell_Change_Failure_t " << sizeof(Packet_Cell_Change_Failure_t) << endl; cout << "sizeof Packet_Control_Acknowledgement_t " << sizeof(Packet_Control_Acknowledgement_t) << endl; cout << "sizeof Packet_Downlink_Ack_Nack_t " << sizeof(Packet_Downlink_Ack_Nack_t) << endl; cout << "sizeof EGPRS_PD_AckNack_t " << sizeof(EGPRS_PD_AckNack_t) << endl; cout << "sizeof Packet_Uplink_Dummy_Control_Block_t " << sizeof(Packet_Uplink_Dummy_Control_Block_t) << endl; cout << "sizeof Packet_Measurement_Report_t " << sizeof(Packet_Measurement_Report_t) << endl; cout << "sizeof Packet_Resource_Request_t " << sizeof(Packet_Resource_Request_t) << endl; cout << "sizeof Packet_Mobile_TBF_Status_t " << sizeof(Packet_Mobile_TBF_Status_t) << endl; cout << "sizeof Packet_PSI_Status_t " << sizeof(Packet_PSI_Status_t) << endl; cout << "sizeof Packet_Enh_Measurement_Report_t " << sizeof(Packet_Enh_Measurement_Report_t) << endl; cout << "sizeof Packet_Cell_Change_Notification_t " << sizeof(Packet_Cell_Change_Notification_t) << endl; cout << "sizeof Packet_SI_Status_t " << sizeof(Packet_SI_Status_t) << endl; cout << "sizeof Additional_MS_Rad_Access_Cap_t " << sizeof(Additional_MS_Rad_Access_Cap_t) << endl; cout << "sizeof Packet_Pause_t " << sizeof(Packet_Pause_t) << endl; cout << "sizeof RlcMacDownlink_t " << sizeof(RlcMacDownlink_t) << endl; cout << "sizeof Packet_Access_Reject_t " << sizeof(Packet_Access_Reject_t) << endl; cout << "sizeof Packet_Cell_Change_Order_t " << sizeof(Packet_Cell_Change_Order_t) << endl; cout << "sizeof Packet_Downlink_Assignment_t " << sizeof(Packet_Downlink_Assignment_t) << endl; cout << "sizeof Packet_Neighbour_Cell_Data_t " << sizeof(Packet_Neighbour_Cell_Data_t) << endl; cout << "sizeof Packet_Serving_Cell_Data_t " << sizeof(Packet_Serving_Cell_Data_t) << endl; cout << "sizeof Packet_Paging_Request_t " << sizeof(Packet_Paging_Request_t) << endl; cout << "sizeof Packet_PDCH_Release_t " << sizeof(Packet_PDCH_Release_t) << endl; cout << "sizeof Packet_Polling_Request_t " << sizeof(Packet_Polling_Request_t) << endl; cout << "sizeof Packet_Power_Control_Timing_Advance_t " << sizeof(Packet_Power_Control_Timing_Advance_t) << endl; cout << "sizeof Packet_PRACH_Parameters_t " << sizeof(Packet_PRACH_Parameters_t) << endl; cout << "sizeof Packet_Queueing_Notification_t " << sizeof(Packet_Queueing_Notification_t) << endl; cout << "sizeof Packet_Timeslot_Reconfigure_t " << sizeof(Packet_Timeslot_Reconfigure_t) << endl; cout << "sizeof Packet_TBF_Release_t " << sizeof(Packet_TBF_Release_t) << endl; cout << "sizeof Packet_Uplink_Ack_Nack_t " << sizeof(Packet_Uplink_Ack_Nack_t) << endl; cout << "sizeof Packet_Uplink_Assignment_t " << sizeof(Packet_Uplink_Assignment_t) << endl; cout << "sizeof Packet_Cell_Change_Continue_t " << sizeof(Packet_Cell_Change_Continue_t) << endl; cout << "sizeof Packet_Handover_Command_t " << sizeof(Packet_Handover_Command_t) << endl; cout << "sizeof Packet_PhysicalInformation_t " << sizeof(Packet_PhysicalInformation_t) << endl; cout << "sizeof Packet_Downlink_Dummy_Control_Block_t " << sizeof(Packet_Downlink_Dummy_Control_Block_t) << endl; cout << "sizeof PSI1_t " << sizeof(PSI1_t) << endl; cout << "sizeof PSI2_t " << sizeof(PSI2_t) << endl; cout << "sizeof PSI3_t " << sizeof(PSI3_t) << endl; cout << "sizeof PSI3_BIS_t " << sizeof(PSI3_BIS_t) << endl; cout << "sizeof PSI4_t " << sizeof(PSI4_t) << endl; cout << "sizeof PSI13_t " << sizeof(PSI13_t) << endl; cout << "sizeof PSI5_t " << sizeof(PSI5_t) << endl; } void testRlcMacDownlink(void *test_ctx) { printf("*** %s ***\n", __func__); int rc; struct bitvec *resultVector = bitvec_alloc(23, test_ctx); bitvec_unhex(resultVector, DUMMY_VEC); std::string testData[] = { "4e082500e3f1a81d080820800b2b2b2b2b2b2b2b2b2b2b", // Packet Downlink Assignment "48282407a6a07422720100032b2b2b2b2b2b2b2b2b2b2b", // Packet Uplink Assignment "47240c00400000000000000079eb2ac9402b2b2b2b2b2b", // Packet Uplink Ack Nack "47283c367513ba333004242b2b2b2b2b2b2b2b2b2b2b2b", // Packet Uplink Assignment "400820001a3904df0680efb3300b2b2b2b2b2b2b2b2b2b", // Packet Downlink Assignment (EGPRS) "40284f0000001009810c826f4406809dcecb2b2b2b2b2b", // Packet Uplink Assignment (EGPRS) "4024030f2f0000000087b0042b2b2b2b2b2b2b2b2b2b2b", // Packet Uplink Ack Nack (EGPRS) "4913e00850884013a8048b2b2b2b2b2b2b2b2b2b2b2b2b", // Polling Request (malformed) "412430007fffffffffffffffefd19c7ba12b2b2b2b2b2b", // Packet Uplink Ack Nack? "41942b2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b", // System Info 13? }; int testDataSize = sizeof(testData)/sizeof(testData[0]); cout << " DOWNLINK " << endl; for (int i = 0; i < testDataSize; i++) { cout << "vector1 = " << testData[i] << endl; bitvec *vector = bitvec_alloc(23, test_ctx); bitvec_unhex(vector, testData[i].c_str()); RlcMacDownlink_t data; memset(&data, 0, sizeof(data)); cout << "=========Start DECODE===========" << endl; rc = decode_gsm_rlcmac_downlink(vector, &data); cout << "+++++++++Finish DECODE ("<< rc <<")++++++++++" << endl; cout << "=========Start ENCODE=============" << endl; rc = encode_gsm_rlcmac_downlink(resultVector, &data); cout << "+++++++++Finish ENCODE ("<< rc <<")+++++++++++" << endl; cout << "vector1 = " << osmo_hexdump(vector->data, 23) << endl; cout << "vector2 = " << osmo_hexdump(resultVector->data, 23) << endl; if (memcmp(vector->data, resultVector->data, 23) == 0) cout << "vector1 == vector2 : TRUE" << endl; else cout << "vector1 == vector2 : FALSE" << endl; bitvec_unhex(resultVector, DUMMY_VEC); bitvec_free(vector); } bitvec_free(resultVector); } void testRlcMacUplink(void *test_ctx) { printf("*** %s ***\n", __func__); int rc; struct bitvec *resultVector = bitvec_alloc(23, test_ctx); bitvec_unhex(resultVector, DUMMY_VEC); std::string testData[] = { "400e1e61d11d2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b2b", // Packet Uplink Dummy Control Block "400b8020000000000000002480e0032b2b2b2b2b2b2b2b", // Packet Downlink Ack/Nack "4016713dc094270ca2ae57ef909006aa0fc0001f80222b", // Packet Resource Request "401673c87f24af2632b25964200600000091000b780080", // Packet Resource Request (from keith) "40200ffc0021ec010b2b2b2b2b2b2b2b2b2b2b2b2b2b2b", // EPDAN "400a9020000000000000003010012a0800132b2b2b2b2b", // Packet Downlink Ack/Nack ? }; int testDataSize = sizeof(testData)/sizeof(testData[0]); cout << " UPLINK " << endl; for (int i = 0; i < testDataSize; i++) { cout << "vector1 = " << testData[i] << endl; bitvec *vector = bitvec_alloc(23, test_ctx); bitvec_unhex(vector, testData[i].c_str()); RlcMacUplink_t data; memset(&data, 0, sizeof(data)); cout << "=========Start DECODE===========" << endl; rc = decode_gsm_rlcmac_uplink(vector, &data); cout << "+++++++++Finish DECODE ("<< rc << ")++++++++++" << endl; cout << "=========Start ENCODE=============" << endl; rc = encode_gsm_rlcmac_uplink(resultVector, &data); cout << "+++++++++Finish ENCODE ("<< rc <<")+++++++++++" << endl; cout << "vector1 = " << osmo_hexdump(vector->data, 23) << endl; cout << "vector2 = " << osmo_hexdump(resultVector->data, 23) << endl; if (memcmp(vector->data, resultVector->data, 23) == 0) cout << "vector1 == vector2 : TRUE" << endl; else cout << "vector1 == vector2 : FALSE" << endl; bitvec_unhex(resultVector, DUMMY_VEC); bitvec_free(vector); } bitvec_free(resultVector); } void testCsnLeftAlignedVarBmpBounds(void *test_ctx) { printf("*** %s ***\n", __func__); struct msgb *m = msgb_alloc(80, "test"); static uint8_t exp[] = { 0x7f, 0xff, 0xff, 0xee, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; bitvec *vector = bitvec_alloc(23, test_ctx); int rc; bitvec_unhex(vector, "40200bffd161003e0e519ffffffb800000000000000000"); RlcMacUplink_t data; memset(&data, 0, sizeof(data)); EGPRS_AckNack_Desc_t *urbb = &data.u.Egprs_Packet_Downlink_Ack_Nack.EGPRS_AckNack.Desc; rc = decode_gsm_rlcmac_uplink(vector, &data); OSMO_ASSERT(rc == 0); memcpy(msgb_put(m, 13), urbb->URBB, 13); if (!msgb_eq_data_print(m, exp, 13)) printf("%s failed!\n", __func__); msgb_free(m); } int encode_gsm_ra_cap(bitvec * vector, MS_Radio_Access_capability_t * data); void testRAcap(void *test_ctx) { printf("*** %s ***\n", __func__); MS_Radio_Access_capability_t data; memset(&data, 0, sizeof(data)); bitvec *bv_dec = bitvec_alloc(23, test_ctx); bitvec *bv_enc = bitvec_alloc(23, test_ctx); unsigned int len_dec, len_enc; int rc; /* MS RA capability 1 0001 .... = Access Technology Type: GSM E --note that GSM E covers GSM P (1) .... 0011 011. .... = Length in bits: 0x1b (27) ...0 01.. RF Power Capability, GMSK Power Class: Not specified (1) A5 Bits: Same values apply for parameters as in the immediately preceding Access capabilities field within this IE (0) .... ...1 = Controlled early Classmark Sending: Implemented 0... .... = Pseudo Synchronisation: Not Present .0.. .... = Voice Group Call Service: no VGCS capability or no notifications wanted ..0. .... = Voice Broadcast Service: no VBS capability or no notifications wanted ...1 .... = Multislot capability struct: Present HSCSD multislot class: Bits are not available (0) SMS_VALUE (Switch-Measure-Switch): Bits are not available (0) ECSD multislot class: Bits are not available (0) DTM GPRS Multi Slot Class: Bits are not available (0) .... ..00 011. .... = GPRS multislot class: Max Rx-Slot/TDMA:2 Max Tx-Slot/TDMA:2 Max-Sum-Slot/TDMA:3 Tta:3 Ttb:2 Tra:3 Trb:1 Type:1 (3) ...0 .... = GPRS Extended Dynamic Allocation Capability: Not Implemented .... ...0 0011 .... = EGPRS multislot class: Max Rx-Slot/TDMA:2 Max Tx-Slot/TDMA:2 Max-Sum-Slot/TDMA:3 Tta:3 Ttb:2 Tra:3 Trb:1 Type:1 (3) .... 0... = EGPRS Extended Dynamic Allocation Capability: Not Implemented */ bitvec_unhex(bv_dec, "1365146230"); printf("=== Test decoding of MS RA Capability ===\n"); rc = decode_gsm_ra_cap(bv_dec, &data); OSMO_ASSERT(rc == 0); /* Make sure there's 1 value (currently fails due to failed decoding) */ OSMO_ASSERT(data.Count_MS_RA_capability_value == 1); /* Make sure GPRS / EGPRS multislot class is parsed correctly */ printf("GPRS multislot class = %u\n", Decoding::get_ms_class_by_capability(&data)); printf("EGPRS multislot class = %u\n", Decoding::get_egprs_ms_class_by_capability(&data)); /* Test encoding of decoded MS RA Capability */ printf("=== Test encoding of MS RA Capability ===\n"); rc = encode_gsm_ra_cap(bv_enc, &data); printf("encode_gsm_ra_cap() returns %d\n", rc); bv_dec->cur_bit = 4; len_dec = bitvec_get_uint(bv_dec, 7); bv_enc->cur_bit = 4; len_enc = bitvec_get_uint(bv_enc, 7); /* NOTE: vector2 is expected to be different because there is actually no * way to distinguish between NULL and 0 in MS_Radio_Access_capability_t. * The difference is in length indicator: 27 bits vs 65 bits. */ printf("vector1 (len_ind=%u) = %s\n", len_dec, osmo_hexdump(bv_dec->data, bv_dec->data_len)); printf("vector2 (len_ind=%u) = %s\n", len_enc, osmo_hexdump(bv_enc->data, bv_enc->data_len)); /* Mangle the length indicator (set it to 21) */ unsigned int writeIndex = 4; rc = bitvec_write_field(bv_dec, &writeIndex, 21, 7); OSMO_ASSERT(rc == 0); /* Make sure decoding attempt fails */ printf("=== Test decoding of a malformed vector (short length indicator) ===\n"); rc = decode_gsm_ra_cap(bv_dec, &data); printf("decode_gsm_ra_cap() returns %d\n", rc); } void testMalformedRAcap(void *test_ctx) { printf("*** %s ***\n", __func__); MS_Radio_Access_capability_t data; memset(&data, 0, sizeof(data)); bitvec *bv_dec = bitvec_alloc(23, test_ctx); int rc; /* MS RA capability 1 0001 .... = Access Technology Type: GSM E --note that GSM E covers GSM P (1) .... 0011 101. .... = Length in bits: 0x1d (29) ...0 01.. RF Power Capability, GMSK Power Class: Not specified (1) A5 Bits: Same values apply for parameters as in the immediately preceding Access capabilities field within this IE (0) .... ...1 = Controlled early Classmark Sending: Implemented 0... .... = Pseudo Synchronisation: Not Present .0.. .... = Voice Group Call Service: no VGCS capability or no notifications wanted ..0. .... = Voice Broadcast Service: no VBS capability or no notifications wanted ...1 .... = Multislot capability struct: Present .... ..00 011. .... = GPRS multislot class: Max Rx-Slot/TDMA:2 Max Tx-Slot/TDMA:2 Max-Sum-Slot/TDMA:3 Tta:3 Ttb:2 Tra:3 Trb:1 Type:1 (3) ...0 .... = GPRS Extended Dynamic Allocation Capability: Not Implemented It doesn't show up in wireshark's tree above because specific parser is used, but this RA Cap bitstream has Exist_EGPRS_multislot_class = 1 but it provides no struct with the expected data (malformed, generated erroneusly through TTCN3). The CSN.1 dceoder should ideally return an error here, but it doesn't (it returns a >0 value which we convert to 0 in decode_gsm_ra_cap()). */ bitvec_unhex(bv_dec, "13a5146200"); printf("=== Test decoding of MS RA Capability ===\n"); rc = decode_gsm_ra_cap(bv_dec, &data); printf("decode_gsm_ra_cap() returns %d\n", rc); OSMO_ASSERT(rc == 0); /* For sake of completeness, check if the decoder could find 1 value before failing to decode it */ OSMO_ASSERT(data.Count_MS_RA_capability_value == 1); bitvec_free(bv_dec); } /* Reproduce crash from ticket OS#4463 */ void testRAcap2(void *test_ctx) { printf("*** %s ***\n", __func__); MS_Radio_Access_capability_t data; memset(&data, 0, sizeof(data)); bitvec *bv_dec = bitvec_alloc(23, test_ctx); int rc; /* MS Radio Access Capability Element ID: 0x13 1... .... = ext: 1 Length: 23 ------------------------------------------- Hex bitstream starts here: MS RA capability 1 0001 .... = Access Technology Type: GSM E --note that GSM E covers GSM P (1) .... 1001 001. .... = Length in bits: 0x49 (73) ...1 00.. RF Power Capability, GMSK Power Class: 2 W (33 dBm) (4) A5 Bits: A5 bits follow (1) A5/1: encryption algorithm available (1) A5/2: encryption algorithm not available (0) A5/3: encryption algorithm available (1) A5/4: encryption algorithm not available (0) A5/5: encryption algorithm not available (0) A5/6: encryption algorithm not available (0) A5/7: encryption algorithm not available (0) .... ..1. = Controlled early Classmark Sending: Implemented .... ...1 = Pseudo Synchronisation: Present 0... .... = Voice Group Call Service: no VGCS capability or no notifications wanted .0.. .... = Voice Broadcast Service: no VBS capability or no notifications wanted ..1. .... = Multislot capability struct: Present HSCSD multislot class: Bits are not available (0) .... 0111 = SMS_VALUE (Switch-Measure-Switch): 8/4 timeslot (~1154 microseconds) (7) 0001 .... = (SM_VALUE) Switch-Measure: 2/4 timeslot (~288 microseconds) (1) ECSD multislot class: Bits are not available (0) .... ...0 = Single Slot DTM: Not supported 1... .... = DTM EGPRS Multi Slot Class: Present .... .011 00.. .... = GPRS multislot class: Max Rx-Slot/TDMA:4 Max Tx-Slot/TDMA:4 Max-Sum-Slot/TDMA:5 Tta:2 Ttb:1 Tra:2 Trb:1 Type:1 (12) ..1. .... = GPRS Extended Dynamic Allocation Capability: Implemented .... ..01 100. .... = EGPRS multislot class: Max Rx-Slot/TDMA:4 Max Tx-Slot/TDMA:4 Max-Sum-Slot/TDMA:5 Tta:2 Ttb:1 Tra:2 Trb:1 Type:1 (12) ...1 .... = EGPRS Extended Dynamic Allocation Capability: Implemented .... .11. = DTM GPRS Multi Slot Class: Multislot class 11 supported (3) .11. .... = DTM EGPRS Multi Slot Class: Multislot class 11 supported (3) ...1 .... = 8PSK Power Capability Bits: Present 8PSK Power Capability: Power class E2 (2) .... ..0. = COMPACT Interference Measurement Capability: Not Implemented .... ...1 = Revision Level Indicator: The ME is Release '99 onwards 0... .... = UMTS FDD Radio Access Technology Capability: Not supported .0.. .... = UMTS 3.84 Mcps TDD Radio Access Technology Capability: Not supported ..0. .... = CDMA 2000 Radio Access Technology Capability: Not supported ...0 .... = UMTS 1.28 Mcps TDD Radio Access Technology Capability: Not supported .... 1... = GERAN Feature Package 1: Supported Extended DTM EGPRS Multi Slot Class: Bits are not available (0) .... ..0. = Modulation based multislot class support: Not supported High Multislot Capability: Bits are not available (0) 0... .... = GERAN Iu mode: Not supported GMSK Multislot Power Profile: GMSK_MULTISLOT_POWER_PROFILE 3 (3) 8-PSK Multislot Power Profile: 8-PSK_MULTISLOT_POWER_PROFILE 3 (3) .... .0.. = Multiple TBF Capability: Not supported .... ..01 = Downlink Advanced Receiver Performance: Downlink Advanced Receiver Performance - phase I supported (1) 1... .... = Extended RLC/MAC Control Message Segmentation Capability: Supported .1.. .... = DTM Enhancements Capability: The mobile station supports enhanced DTM CS establishment and enhanced DTM CS release procedures ...0 .... = PS Handover Capability: Not supported MS RA capability 2 .... .011 1... .... = Access Technology Type: GSM 850 (7) .010 0010 = Length in bits: 0x22 (34) 100. .... RF Power Capability, GMSK Power Class: 2 W (33 dBm) (4) A5 Bits: Same values apply for parameters as in the immediately preceding Access capabilities field within this IE (0) .... 1... = Controlled early Classmark Sending: Implemented .... .1.. = Pseudo Synchronisation: Present .... ..0. = Voice Group Call Service: no VGCS capability or no notifications wanted .... ...0 = Voice Broadcast Service: no VBS capability or no notifications wanted 0... .... = Multislot capability struct: Not Present .1.. .... = 8PSK Power Capability Bits: Present 8PSK Power Capability: Power class E2 (2) .... 0... = COMPACT Interference Measurement Capability: Not Implemented .... .1.. = Revision Level Indicator: The ME is Release '99 onwards .... ..0. = UMTS FDD Radio Access Technology Capability: Not supported .... ...0 = UMTS 3.84 Mcps TDD Radio Access Technology Capability: Not supported 0... .... = CDMA 2000 Radio Access Technology Capability: Not supported .0.. .... = UMTS 1.28 Mcps TDD Radio Access Technology Capability: Not supported ..1. .... = GERAN Feature Package 1: Supported Extended DTM EGPRS Multi Slot Class: Bits are not available (0) .... 0... = Modulation based multislot class support: Not supported High Multislot Capability: Bits are not available (0) .... ..0. = GERAN Iu mode: Not supported GMSK Multislot Power Profile: GMSK_MULTISLOT_POWER_PROFILE 3 (3) 8-PSK Multislot Power Profile: 8-PSK_MULTISLOT_POWER_PROFILE 3 (3) ...0 .... = Multiple TBF Capability: Not supported .... 01.. = Downlink Advanced Receiver Performance: Downlink Advanced Receiver Performance - phase I supported (1) .... ..1. = Extended RLC/MAC Control Message Segmentation Capability: Supported .... ...1 = DTM Enhancements Capability: The mobile station supports enhanced DTM CS establishment and enhanced DTM CS release procedures .0.. .... = PS Handover Capability: Not supported MS RA capability 3 ...0 011. = Access Technology Type: GSM 1800 (3) .... ...0 1000 10.. = Length in bits: 0x22 (34) .... ..00 1... .... RF Power Capability, GMSK Power Class: 1 W (30 dBm) (1) A5 Bits: Same values apply for parameters as in the immediately preceding Access capabilities field within this IE (0) ..1. .... = Controlled early Classmark Sending: Implemented ...1 .... = Pseudo Synchronisation: Present .... 0... = Voice Group Call Service: no VGCS capability or no notifications wanted .... .0.. = Voice Broadcast Service: no VBS capability or no notifications wanted .... ..0. = Multislot capability struct: Not Present .... ...1 = 8PSK Power Capability Bits: Present 8PSK Power Capability: Power class E2 (2) ..0. .... = COMPACT Interference Measurement Capability: Not Implemented ...1 .... = Revision Level Indicator: The ME is Release '99 onwards .... 0... = UMTS FDD Radio Access Technology Capability: Not supported .... .0.. = UMTS 3.84 Mcps TDD Radio Access Technology Capability: Not supported .... ..0. = CDMA 2000 Radio Access Technology Capability: Not supported .... ...0 = UMTS 1.28 Mcps TDD Radio Access Technology Capability: Not supported 1... .... = GERAN Feature Package 1: Supported Extended DTM EGPRS Multi Slot Class: Bits are not available (0) ..0. .... = Modulation based multislot class support: Not supported High Multislot Capability: Bits are not available (0) .... 0... = GERAN Iu mode: Not supported GMSK Multislot Power Profile: GMSK_MULTISLOT_POWER_PROFILE 3 (3) 8-PSK Multislot Power Profile: 8-PSK_MULTISLOT_POWER_PROFILE 3 (3) .0.. .... = Multiple TBF Capability: Not supported ..01 .... = Downlink Advanced Receiver Performance: Downlink Advanced Receiver Performance - phase I supported (1) .... 1... = Extended RLC/MAC Control Message Segmentation Capability: Supported .... .1.. = DTM Enhancements Capability: The mobile station supports enhanced DTM CS establishment and enhanced DTM CS release procedures .... ...0 = PS Handover Capability: Not supported */ bitvec_unhex(bv_dec, "1933432b37159ef90879cba28c6421e72688b190879c00"); printf("=== Test decoding of multi-band MS RA Capability ===\n"); rc = decode_gsm_ra_cap(bv_dec, &data); OSMO_ASSERT(rc == CSN_ERROR_STREAM_NOT_SUPPORTED); #if 0 /* Make sure there's 1 value (currently fails due to failed decoding) */ OSMO_ASSERT(data.Count_MS_RA_capability_value == 3); /* Make sure GPRS / EGPRS multislot class is parsed correctly */ printf("GPRS multislot class = %u\n", Decoding::get_ms_class_by_capability(&data)); printf("EGPRS multislot class = %u\n", Decoding::get_egprs_ms_class_by_capability(&data)); #endif bitvec_free(bv_dec); } int main(int argc, char *argv[]) { void *ctx = talloc_named_const(NULL, 1, "RLCMACTest"); osmo_init_logging2(ctx, &gprs_log_info); log_parse_category_mask(osmo_stderr_target, "DPCU,3:DLGLOBAL,1:DRLCMACDATA,2:DCSN1,1:"); log_set_print_filename2(osmo_stderr_target, LOG_FILENAME_NONE); log_set_print_category_hex(osmo_stderr_target, 0); log_set_print_category(osmo_stderr_target, 1); log_set_print_level(osmo_stderr_target, 1); log_set_use_color(osmo_stderr_target, 0); //printSizeofRLCMAC(); testRlcMacDownlink(ctx); testRlcMacUplink(ctx); testCsnLeftAlignedVarBmpBounds(ctx); testRAcap(ctx); testMalformedRAcap(ctx); testRAcap2(ctx); talloc_free(ctx); }