Commit 83023e4e authored by Rohit Gupta's avatar Rohit Gupta

fixed bugs in autotest framework

parent c120a63d
...@@ -5,25 +5,206 @@ Obj.# Case# Test# Description ...@@ -5,25 +5,206 @@ Obj.# Case# Test# Description
01 pre-commit test case 01 pre-commit test case
01 01 Build OAI 01 01 Build OAI
01 01 00 Check Makefiles and 01 01 01 Build oaisim.Rel8
01 01 01 Build oaisim Rel8 01 01 02 Build oaisim.Rel8 + network device driver(nasmesh_fix)
01 01 02 Build oaisim Rel8 + network device driver(nasmesh_fix) 01 01 03 Build (lte-softmodem.Rel8.EXMIMO + lte-softmodem.Rel10.EXMIMO + lte-softmodem.Rel10.USRP)
01 01 03 Build lte-softmode Rel8 01 01 04 Build (dlsim.Rel10 + ulsim.Rel10 + pucchsim.Rel10 + prachsim.Rel10 + pdcchsim.Rel10 + pbchsim.Rel10 + mbmssim.Rel10
01 01 04 Build dlsim Rel8 secu_knas_encrypt_eia1.Rel10 secu_kenb.Rel10 aes128_ctr_encrypt.Rel10 aes128_ctr_decrypt.Rel10 secu_knas_encrypt_eea2.Rel10
01 01 05 Build ulsim Rel8 secu_knas.Rel10 secu_knas_encrypt_eea1.Rel10 kdf.Rel10 aes128_cmac_encrypt.Rel10 secu_knas_encrypt_eia2.Rel10)
01 01 06 Build oaisim Rel10 01 01 06 Build oaisim.Rel8 + ITTI
01 01 07 Build oaisim Rel8 with cellular RRC for eNB 01 01 07 Build oaisim.Rel10
01 01 08 Build oaisim Rel8 with cellular RRC for UE 01 01 08 Build oaisim.Rel10 + ITTI
01 01 09 "commented test in targets/TEST/OAI/case01.py" 01 01 20 Build Nasmesh
01 01 10 "commented test in targets/TEST/OAI/case01.py" 01 01 30 Build RRH Gateway
01 01 11 "commented test in targets/TEST/OAI/case01.py"
01 01 12 "commented test in targets/TEST/OAI/case01.py"
01 01 13 Build network device driver(oai_nw_drv type ethernet) 01 02 Run OAISIM Rel10 (TDD + 5MHz + Transmission mode 1), and check the operation
01 01 14 Build oaisim Rel8 with RRC lite (new cellular+ITTI) + RAL (802.21) 01 02 00 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (5 MHz) and search for errors, segmentation fault or exit
01 01 15 Build oaisim Rel10 with RRC lite (new cellular+ITTI) + RAL (802.21) 01 02 01 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 02 02 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (5 MHz) and search for errors, segmentation fault or exit
01 02 Run OAI Rel8, and check the operation 01 02 03 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 02 00 Run OAI Rel8, and search for segmentation fault or exit 01 02 04 Run OAI Rel10 TDD, 1 eNB + 1 UE (5 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 02 05 Run OAI Rel10 TDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 03 Run OAISIM Rel10 (FDD + 5MHz + Tranmission mode 1), and check the operation
01 03 00 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (5 MHz) and search for errors, segmentation fault or exit
01 03 01 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 03 02 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (5 MHz) and search for errors, segmentation fault or exit
01 03 03 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 03 04 Run OAI Rel10 FDD, 1 eNB + 1 UE (5 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 03 05 Run OAI Rel10 FDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 04 Run OAISIM Rel10 (TDD + 10MHz + Tranmission mode 1), and check the operation
01 04 00 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (10 MHz) and search for errors, segmentation fault or exit
01 04 01 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (10 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 04 02 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (10 MHz) and search for errors, segmentation fault or exit
01 04 03 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (10 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 04 04 Run OAI Rel10 TDD, 1 eNB + 1 UE (10 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 04 05 Run OAI Rel10 TDD, 1 eNB + 1 UE (10 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 05 Run OAISIM Rel10 (FDD + 10MHz + Tranmission mode 1), and check the operation
01 05 00 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (10 MHz) and search for errors, segmentation fault or exit
01 05 01 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (10 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 05 02 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (10 MHz) and search for errors, segmentation fault or exit
01 05 03 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (10 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 05 04 Run OAI Rel10 FDD, 1 eNB + 1 UE (10 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 05 05 Run OAI Rel10 FDD, 1 eNB + 1 UE (10 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 06 Run OAISIM Rel10 (TDD + 20MHz + Tranmission mode 1), and check the operation
01 06 00 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (20MHz) and search for errors, segmentation fault or exit
01 06 01 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (20MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 06 02 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (20MHz) and search for errors, segmentation fault or exit
01 06 03 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (20MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 06 04 Run OAI Rel10 TDD, 1 eNB + 1 UE (20 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 06 05 Run OAI Rel10 TDD, 1 eNB + 1 UE (20 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 07 Run OAISIM Rel10 (FDD + 20MHz + Tranmission mode 1), and check the operation
01 07 00 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (20MHz) and search for errors, segmentation fault or exit
01 07 01 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (20MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 07 02 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (20MHz) and search for errors, segmentation fault or exit
01 07 03 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (20MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 07 04 Run OAI Rel10 FDD, 1 eNB + 1 UE (20 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 07 05 Run OAI Rel10 FDD, 1 eNB + 1 UE (20 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 08 Run OAISIM Rel10 (TDD + 5 MHz + Tranmission mode 1), and check the operation
01 08 00 Run OAISIM Rel10 TDD, 2 eNB + 1 UE per eNB (5 MHz) and search for errors, segmentation fault or exit
01 08 01 Run OAISIM Rel10 TDD, 2 eNB + 1 UE per eNB (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 08 02 Run OAISIM Rel10 TDD, 2 eNB + 3 UEs per eNB (5 MHz) and search for errors, segmentation fault or exit
01 08 03 Run OAISIM Rel10 TDD, 2 eNB + 3 UEs per eNB (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 08 04 Run OAI Rel10 TDD, 2 eNB + 1 UE per eNB (5 MHz) without abstraction mode, send ping from from eNB to UE, and check there is no packet losses
01 08 05 Run OAI Rel10 TDD, 2 eNB + 1 UE per eNB (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check there is no packet losses
01 09 Run OAISIM Rel10 (FDD + 5 MHz + Tranmission mode 1), and check the operation
01 09 00 Run OAISIM Rel10 FDD, 2 eNB + 1 UE per eNB (5 MHz) and search for errors, segmentation fault or exit
01 09 01 Run OAISIM Rel10 FDD, 2 eNB + 1 UE per eNB (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 09 02 Run OAISIM Rel10 FDD, 2 eNB + 3 UEs per eNB (5 MHz) and search for errors, segmentation fault or exit
01 09 03 Run OAISIM Rel10 FDD, 2 eNB + 3 UEs per eNB (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 09 04 Run OAI Rel10 FDD, 2 eNB + 1 UE per eNB (5 MHz) without abstraction mode, send ping from from eNB to UE, and check there is no packet losses
01 09 05 Run OAI Rel10 FDD, 2 eNB + 1 UE per eNB (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check there is no packet losses
01 10 Run OAISIM Rel10 (TDD + 5MHz + Transmission mode 2), and check the operation
01 10 00 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (5 MHz) and search for errors, segmentation fault or exit
01 10 01 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 10 02 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (5 MHz) and search for errors, segmentation fault or exit
01 10 03 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 10 04 Run OAI Rel10 TDD, 1 eNB + 1 UE (5 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 10 05 Run OAI Rel10 TDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 11 Run OAISIM Rel10 (FDD + 5MHz + Tranmission mode 2), and check the operation
01 11 00 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (5 MHz) and search for errors, segmentation fault or exit
01 11 01 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 11 02 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (5 MHz) and search for errors, segmentation fault or exit
01 11 03 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 11 04 Run OAI Rel10 FDD, 1 eNB + 1 UE (5 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 11 05 Run OAI Rel10 FDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 12 Run OAISIM Rel10 (TDD + 10MHz + Tranmission mode 2), and check the operation
01 12 00 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (10 MHz) and search for errors, segmentation fault or exit
01 12 01 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (10 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 12 02 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (10 MHz) and search for errors, segmentation fault or exit
01 12 03 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (10 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 12 04 Run OAI Rel10 TDD, 1 eNB + 1 UE (10 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 12 05 Run OAI Rel10 TDD, 1 eNB + 1 UE (10 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 13 Run OAISIM Rel10 (FDD + 10MHz + Tranmission mode 2), and check the operation
01 13 00 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (10 MHz) and search for errors, segmentation fault or exit
01 13 01 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (10 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 13 02 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (10 MHz) and search for errors, segmentation fault or exit
01 13 03 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (10 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 13 04 Run OAI Rel10 FDD, 1 eNB + 1 UE (10 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 13 05 Run OAI Rel10 FDD, 1 eNB + 1 UE (10 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 14 Run OAISIM Rel10 (TDD + 20MHz + Tranmission mode 2), and check the operation
01 14 00 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (20MHz) and search for errors, segmentation fault or exit
01 14 01 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (20MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 14 02 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (20MHz) and search for errors, segmentation fault or exit
01 14 03 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (20MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 14 04 Run OAI Rel10 TDD, 1 eNB + 1 UE (20 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 14 05 Run OAI Rel10 TDD, 1 eNB + 1 UE (20 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 15 Run OAISIM Rel10 (FDD + 20MHz + Tranmission mode 2), and check the operation
01 15 00 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (20MHz) and search for errors, segmentation fault or exit
01 15 01 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (20MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 15 02 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (20MHz) and search for errors, segmentation fault or exit
01 15 03 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (20MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 15 04 Run OAI Rel10 FDD, 1 eNB + 1 UE (20 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 15 05 Run OAI Rel10 FDD, 1 eNB + 1 UE (20 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 16 Run OAISIM Rel10 (TDD + 5 MHz + Tranmission mode 2), and check the operation
01 16 00 Run OAISIM Rel10 TDD, 2 eNB + 1 UE per eNB (5 MHz) and search for errors, segmentation fault or exit
01 16 01 Run OAISIM Rel10 TDD, 2 eNB + 1 UE per eNB (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 16 02 Run OAISIM Rel10 TDD, 2 eNB + 3 UEs per eNB (5 MHz) and search for errors, segmentation fault or exit
01 16 03 Run OAISIM Rel10 TDD, 2 eNB + 3 UEs per eNB (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 16 04 Run OAI Rel10 TDD, 2 eNB + 1 UE per eNB (5 MHz) without abstraction mode, send ping from from eNB to UE, and check there is no packet losses
01 16 05 Run OAI Rel10 TDD, 2 eNB + 1 UE per eNB (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check there is no packet losses
01 17 Run OAISIM Rel10 (FDD + 5 MHz + Tranmission mode 2), and check the operation
01 17 00 Run OAISIM Rel10 FDD, 2 eNB + 1 UE per eNB (5 MHz) and search for errors, segmentation fault or exit
01 17 01 Run OAISIM Rel10 FDD, 2 eNB + 1 UE per eNB (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 17 02 Run OAISIM Rel10 FDD, 2 eNB + 3 UEs per eNB (5 MHz) and search for errors, segmentation fault or exit
01 17 03 Run OAISIM Rel10 FDD, 2 eNB + 3 UEs per eNB (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 17 04 Run OAI Rel10 FDD, 2 eNB + 1 UE per eNB (5 MHz) without abstraction mode, send ping from from eNB to UE, and check there is no packet losses
01 17 05 Run OAI Rel10 FDD, 2 eNB + 1 UE per eNB (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check there is no packet losses
01 18 Run OAISIM Rel10 (TDD + 5MHz + Transmission mode 5), and check the operation
01 18 00 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (5 MHz) and search for errors, segmentation fault or exit
01 18 01 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 18 02 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (5 MHz) and search for errors, segmentation fault or exit
01 18 03 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 18 04 Run OAI Rel10 TDD, 1 eNB + 1 UE (5 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 18 05 Run OAI Rel10 TDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 19 Run OAISIM Rel10 (FDD + 5MHz + Tranmission mode 5), and check the operation
01 19 00 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (5 MHz) and search for errors, segmentation fault or exit
01 19 01 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 19 02 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (5 MHz) and search for errors, segmentation fault or exit
01 19 03 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 19 04 Run OAI Rel10 FDD, 1 eNB + 1 UE (5 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 19 05 Run OAI Rel10 FDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 26 Run OAISIM Rel10 (TDD + 5MHz + Transmission mode 6), and check the operation
01 26 00 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (5 MHz) and search for errors, segmentation fault or exit
01 26 01 Run OAISIM Rel10 TDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 26 02 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (5 MHz) and search for errors, segmentation fault or exit
01 26 03 Run OAISIM Rel10 TDD, 1 eNB + 3 UEs (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 26 04 Run OAI Rel10 TDD, 1 eNB + 1 UE (5 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 26 05 Run OAI Rel10 TDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 27 Run OAISIM Rel10 (FDD + 5MHz + Tranmission mode 6), and check the operation
01 27 00 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (5 MHz) and search for errors, segmentation fault or exit
01 27 01 Run OAISIM Rel10 FDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 27 02 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (5 MHz) and search for errors, segmentation fault or exit
01 27 03 Run OAISIM Rel10 FDD, 1 eNB + 3 UEs (5 MHz) in PHY_ABSTRACTION mode and search for errors, segmentation fault or exit
01 27 04 Run OAI Rel10 FDD, 1 eNB + 1 UE (5 MHz) without abstraction mode, send ping from from eNB to UE, and check that there is no packet losses
01 27 05 Run OAI Rel10 FDD, 1 eNB + 1 UE (5 MHz) in PHY_ABSTRACTION mode, send ping from from eNB to UE, and check that there is no packet losses
01 50 Run PHY unitary secuirity tests
01 50 00 aes128_cmac_encrypt
01 50 01 aes128_ctr_decrypt
01 50 02 aes128_ctr_encrypt
01 50 03 secu_kenb
01 50 04 secu_knas
01 50 05 secu_knas_encrypt_eea1
01 50 06 secu_knas_encrypt_eea2
01 50 07 secu_knas_encrypt_eia1
01 50 08 secu_knas_encrypt_eia2
01 50 09 kdf
01 51 Run PHY simulator tests
01 51 00 dlsim
01 51 00 ulsim
01 51 00 pucchsim
01 51 00 prachsim
01 51 00 pdcchsim
01 51 00 pbchsim
01 51 00 mbmssim
01 02 01 Run OAI Rel8, and search for execution errors 01 02 01 Run OAI Rel8, and search for execution errors
01 02 02 Run OAI Rel8 in abstraction mode and check that RRC proc is finished completely for the configured number of eNB and UE 01 02 02 Run OAI Rel8 in abstraction mode and check that RRC proc is finished completely for the configured number of eNB and UE
01 02 03 Run OAI Rel8 in abstraction mode, send ping from from one eNB to each UE, and check that there is no packet losses 01 02 03 Run OAI Rel8 in abstraction mode, send ping from from one eNB to each UE, and check that there is no packet losses
...@@ -48,3 +229,10 @@ Obj.# Case# Test# Description ...@@ -48,3 +229,10 @@ Obj.# Case# Test# Description
05 Performance test case 05 Performance test case
#TODO: Add test cases for 10,20 MHz
#TODO: Add test cases for TDD/FDD
#TODO: Test and compile seperately for Rel8/Rel10
#TODO: Case03.py eMBMS test case
...@@ -11,8 +11,9 @@ source $OPENAIR_DIR/cmake_targets/tools/test_helper ...@@ -11,8 +11,9 @@ source $OPENAIR_DIR/cmake_targets/tools/test_helper
#SUDO="sudo -E " #SUDO="sudo -E "
tdir=$OPENAIR_DIR/cmake_targets/autotests tdir=$OPENAIR_DIR/cmake_targets/autotests
rm -fr $tdir/bin $tdir/log
mkdir -p $tdir/bin $tdir/log mkdir -p $tdir/bin $tdir/log
results_file="$tdir/log/execution_autotests.xml" results_file="$tdir/log/results_autotests.xml"
updated=$(svn st -q $OPENAIR_DIR) updated=$(svn st -q $OPENAIR_DIR)
if [ "$updated" != "" ] ; then if [ "$updated" != "" ] ; then
...@@ -21,7 +22,6 @@ fi ...@@ -21,7 +22,6 @@ fi
cd $tdir cd $tdir
#\param $1 -> name of test case #\param $1 -> name of test case
#\param $2 -> name of compilation program #\param $2 -> name of compilation program
#\param $3 -> arguments for compilation program #\param $3 -> arguments for compilation program
...@@ -32,10 +32,13 @@ cd $tdir ...@@ -32,10 +32,13 @@ cd $tdir
#\param $8 -> search expression #\param $8 -> search expression
#\param $9 -> search expression which should NOT be found (for ex. segmentation fault) #\param $9 -> search expression which should NOT be found (for ex. segmentation fault)
#\param $10 -> number of runs #\param $10 -> number of runs
#\param $11 -> pre_compile program execution
#\param $12 -> class of the test case (compilation, execution)
test_compile() {
test_compile_and_run() {
xUnit_start xUnit_start
test_case_name=$1.$2 test_case_name=$1
log_dir=$tdir/log log_dir=$tdir/log
log_file=$tdir/log/test.$1.txt log_file=$tdir/log/test.$1.txt
compile_prog=$2 compile_prog=$2
...@@ -46,37 +49,150 @@ test_compile_and_run() { ...@@ -46,37 +49,150 @@ test_compile_and_run() {
search_expr_array=("${!8}") search_expr_array=("${!8}")
search_expr_negative=$9 search_expr_negative=$9
nruns=${10} nruns=${10}
pre_compile_prog=${11}
class=${12}
build_dir=$tdir/$1/build build_dir=$tdir/$1/build
exec_file=$build_dir/$6 exec_file=$build_dir/$6
#Temporary log file where execution log is stored. #Temporary log file where execution log is stored.
temp_exec_log=$log_dir/temp_log.txt temp_exec_log=$log_dir/temp_log.txt
echo "Compiling test case $test_case_name. Log file = $log_file"
#echo "log_dir = $log_dir"
#echo "log_file = $log_file"
#echo "exec_file = $exec_file"
#echo "exec_args = $exec_args"
#echo "search_expr = $search_expr"
#echo "pre_exec_file = $pre_exec_file"
#echo "nruns = $nruns"
echo "class = $class"
compile_prog_array=()
read -a compile_prog_array <<<"$compile_prog"
pre_compile_prog_array=()
readarray -t pre_compile_prog_array <<< "$pre_compile_prog"
for (( run_index=1; run_index <= $nruns; run_index++ ))
do
for pre_compile_prog_array_index in "${pre_compile_prog_array[@]}"
do
for compile_prog_array_index in "${compile_prog_array[@]}"
do
echo "Compiling test case $test_case_name.$compile_prog_array_index Log file = $log_file"
echo "<COMPILATION LOG file=$compile_prog_array_index , Run = $run_index>" >> $log_file
rm -fr $build_dir rm -fr $build_dir
mkdir -p $build_dir mkdir -p $build_dir
cd $build_dir
{
eval $pre_compile_prog_array_index
cmake ..
#rm -fv $exec_file
make -j`nproc` $compile_prog_array_index $compile_args
}>> $log_file 2>&1
echo "</COMPILATION LOG>" >> $log_file 2>&1
if [ "$class" == "compilation" ]; then
if [ -s "$compile_prog_array_index" ] ; then
echo_success "$test_case_name $compile_prog_array_index compiled"
xUnit_success "compilation" "$test_case_name.$compile_prog_array_index" "PASS" "$run_index"
else
echo_error "$test_case_name $exec_prog compilation failed"
xUnit_fail "compilation" "$test_case_name.$compile_prog_array_index" "FAIL" "$run_index"
fi
fi
done # End of for loop compile_prog_array
done # End of for loop (pre_compile_prog_array_index)
done #End of for loop (run_index)
}
#\param $1 -> name of test case
#\param $2 -> name of compilation program
#\param $3 -> arguments for compilation program
#\param $4 -> name of pre-executable to install kernel modules, etc
#\param $5 -> arguments of pre-executable
#\param $6 -> name of executable
#\param $7 -> arguments for running the program
#\param $8 -> search expression
#\param $9 -> search expression which should NOT be found (for ex. segmentation fault)
#\param $10 -> number of runs
#\param $11 -> pre_compile program execution
#\param $12 -> class of the test case (compilation, execution)
test_compile_and_run() {
xUnit_start
test_case_name=$1
log_dir=$tdir/log
log_file=$tdir/log/test.$1.txt
compile_prog=$2
compile_args=$3
pre_exec_file=$4
pre_exec_args=$5
exec_args=$7
search_expr_array=("${!8}")
search_expr_negative=$9
nruns=${10}
pre_compile_prog=${11}
class=${12}
build_dir=$tdir/$1/build
exec_file=$build_dir/$6
#Temporary log file where execution log is stored.
temp_exec_log=$log_dir/temp_log.txt
#echo "log_dir = $log_dir" #echo "log_dir = $log_dir"
#echo "log_file = $log_file" #echo "log_file = $log_file"
#echo "exec_file = $exec_file" #echo "exec_file = $exec_file"
#echo "args = $args" #echo "exec_args = $exec_args"
#echo "search_expr = $search_expr" #echo "search_expr = $search_expr"
#echo "pre_exec_file = $pre_exec_file" #echo "pre_exec_file = $pre_exec_file"
#echo "nruns = $nruns" #echo "nruns = $nruns"
echo "class = $class"
compile_prog_array=()
read -a compile_prog_array <<<"$compile_prog"
for search_expr in "${compile_prog_array[@]}"
do
echo "Compiling test case $test_case_name.$search_expr Log file = $log_file"
echo "<COMPILATION LOG file=$search_expr>" >> $log_file
rm -fr $build_dir
mkdir -p $build_dir
echo "<COMPILATION LOG>" > $log_file
cd $build_dir cd $build_dir
{ {
eval $pre_compile_prog
cmake .. cmake ..
#rm -fv $exec_file #rm -fv $exec_file
make -j`nproc` $compile_prog make -j`nproc` $search_expr $compile_args
}>> $log_file 2>&1 }>> $log_file 2>&1
echo "</COMPILATION LOG>" >> $log_file 2>&1 echo "</COMPILATION LOG>" >> $log_file 2>&1
if [ "$class" == "compilation" ]; then
echo "compilation 1"
#TODO: The number of runs for compilation test cases is always 1
if [ -s "$search_expr" ] ; then
echo "compilation 1 pass"
echo_success "$test_case_name $search_expr compiled"
xUnit_success "compilation" "$test_name.$search_expr" "PASS" 1
else
echo "compilation 1 fail"
echo_error "$test_case_name $exec_prog compilation failed"
xUnit_fail "compilation" "$test_name.$search_expr" "FAIL" 1
fi
fi
done
#process the test case if it is that of execution
if [ "$class" == "execution" ]; then
for (( run_index=1; run_index <= $nruns; run_index++ )) for (( run_index=1; run_index <= $nruns; run_index++ ))
do do
...@@ -86,10 +202,10 @@ test_compile_and_run() { ...@@ -86,10 +202,10 @@ test_compile_and_run() {
echo "<EXECUTION LOG Run = $run_index >" >> $log_file 2>&1 echo "<EXECUTION LOG Run = $run_index >" >> $log_file 2>&1
if [ -n "$pre_exec_file" ]; then if [ -n "$pre_exec_file" ]; then
{ source $pre_exec_file $pre_exec_args; } >> $log_file 2>&1 { eval "source $pre_exec_file $pre_exec_args"; } >> $log_file 2>&1
fi fi
{ $exec_file $exec_args ;} > $temp_exec_log 2>&1 { eval "$exec_file $exec_args" ;} > $temp_exec_log 2>&1
cat $temp_exec_log >> $log_file 2>&1 cat $temp_exec_log >> $log_file 2>&1
echo "</EXECUTION LOG Run = $run_index >" >> $log_file 2>&1 echo "</EXECUTION LOG Run = $run_index >" >> $log_file 2>&1
...@@ -129,18 +245,18 @@ test_compile_and_run() { ...@@ -129,18 +245,18 @@ test_compile_and_run() {
fi fi
if [ "$test_case_result" == "FAIL" ]; then if [ "$test_case_result" == "FAIL" ]; then
echo_error "execution $test_case_name FAIL $run_index" echo_error "execution $test_case_name.$compile_prog FAIL $run_index"
xUnit_fail "execution" "$test_case_name" "FAIL" "$run_index" xUnit_fail "execution" "$test_case_name.$compile_prog" "FAIL" "$run_index"
fi fi
if [ "$test_case_result" == "PASS" ]; then if [ "$test_case_result" == "PASS" ]; then
echo_success "execution $test_case_name PASS $run_index" echo_success "execution $test_case_name.$compile_prog PASS $run_index"
xUnit_success "execution" "$test_case_name" "PASS" "$run_index" xUnit_success "execution" "$test_case_name.$compile_prog" "PASS" "$run_index"
fi fi
# End of for loop # End of for loop
done done
fi
} }
dbin=$OPENAIR_DIR/cmake_targets/autotests/bin dbin=$OPENAIR_DIR/cmake_targets/autotests/bin
...@@ -169,6 +285,88 @@ else ...@@ -169,6 +285,88 @@ else
fi fi
} }
main () {
xml_conf="$OPENAIR_DIR/cmake_targets/autotests/test_case_list.xml"
test_case_list=`xmlstarlet sel -T -t -m /xml/testCaseList/testCase -s D:N:- "@id" -v "@id" -n $xml_conf`
echo "test_case_list = $test_case_list"
readarray -t test_case_array <<<"$test_case_list"
for search_expr in "${test_case_array[@]}"
do
name=$search_expr
class=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/class" $xml_conf`
desc=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/desc" $xml_conf`
pre_compile_prog=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/pre_compile_prog" $xml_conf`
compile_prog=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/compile_prog" $xml_conf`
compile_prog_args=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/compile_prog_args" $xml_conf`
pre_exec=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/pre_exec" $xml_conf`
pre_exec_args=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/pre_exec_args" $xml_conf`
main_exec=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/main_exec" $xml_conf`
main_exec_args=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/main_exec_args" $xml_conf`
search_expr_true=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/search_expr_true" $xml_conf`
search_expr_false=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/search_expr_false" $xml_conf`
nruns=`xmlstarlet sel -t -v "/xml/testCaseList/testCase[@id='$search_expr']/nruns" $xml_conf`
echo "class = $class"
echo "name = $name"
echo "Description = $desc"
echo "pre_compile_prog = $pre_compile_prog"
echo "compile_prog = $compile_prog"
echo "pre_exec = $pre_exec"
echo "pre_exec_args = $pre_exec_args"
echo "main_exec = $main_exec"
echo "main_exec_args = $main_exec_args"
echo "search_expr_true = $search_expr_true"
echo "search_expr_false = $search_expr_false"
echo "nruns = $nruns"
#eval $pre_exec
search_array_true=()
IFS=\" #set the shell's field separator
set -f #don't try to glob
#set -- $search_expr_true #split on $IFS
for i in $search_expr_true
do echo "i = $i"
if [ -n "$i" ] && [ "$i" != " " ]; then
search_array_true+=("$i")
#echo "inside i = \"$i\" "
fi
done
unset IFS
#echo "arg1 = ${search_array_true[0]}"
#echo " arg2 = ${search_array_true[1]}"
if [ "$class" == "compilation" ]; then
test_compile "$name" "$compile_prog" "$compile_prog_args" "$pre_exec" "$pre_exec_args" "$main_exec" "$main_exec_args" "search_array_true[@]" "$search_expr_false" "$nruns" "$pre_compile_prog" "$class"
elif "$class" == "execution" ]; then
test_compile_and_run "$name" "$compile_prog" "$compile_prog_args" "$pre_exec" "$pre_exec_args" "$main_exec" "$main_exec_args" "search_array_true[@]" "$search_expr_false" "$nruns" "$pre_compile_prog" "$class"
else
echo "Unexpected class of test case...Exiting...."
fi
done
}
main
xUnit_write "$results_file"
echo "Test Results are written to $results_file"
exit
#$1 -> name of test case #$1 -> name of test case
#$2 -> name of compilation program #$2 -> name of compilation program
#$3 -> arguments for compilation program #$3 -> arguments for compilation program
...@@ -179,19 +377,22 @@ fi ...@@ -179,19 +377,22 @@ fi
#$8 -> search expression ARRAY which needs to be found #$8 -> search expression ARRAY which needs to be found
#$9 -> search expression which should NOT be found (for ex. segmentation fault) #$9 -> search expression which should NOT be found (for ex. segmentation fault)
#$10 -> number of runs #$10 -> number of runs
#$11 -> pre compile program
#oaisim tests #oaisim tests
search_array=("Received RRCConnectionReconfigurationComplete from UE 0") search_array=("Received RRCConnectionReconfigurationComplete from UE 0")
test_compile_and_run 010200 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O $OPENAIR_TARGETS/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -b1 -u1 -n100" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3 test_compile_and_run 010200 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O $OPENAIR_TARGETS/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -A AWGN -b1 -u1 -n100" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3
search_array=("Received RRCConnectionReconfigurationComplete from UE 0") search_array=("Received RRCConnectionReconfigurationComplete from UE 0")
test_compile_and_run 010201 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O $OPENAIR_TARGETS/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -b1 -u1 -a -n100" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3 test_compile_and_run 010201 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O $OPENAIR_TARGETS/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -A AWGN -b1 -u1 -a -n100" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3
search_array=("Received RRCConnectionReconfigurationComplete from UE 0" "Received RRCConnectionReconfigurationComplete from UE 1" "Received RRCConnectionReconfigurationComplete from UE 2") search_array=("Received RRCConnectionReconfigurationComplete from UE 0" "Received RRCConnectionReconfigurationComplete from UE 1" "Received RRCConnectionReconfigurationComplete from UE 2")
test_compile_and_run 010202 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O $OPENAIR_TARGETS/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -b1 -u3 -n100" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3 test_compile_and_run 010202 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O $OPENAIR_TARGETS/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -A AWGN -b1 -u3 -n100" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3
search_array=("Received RRCConnectionReconfigurationComplete from UE 0" "Received RRCConnectionReconfigurationComplete from UE 1" "Received RRCConnectionReconfigurationComplete from UE 2") search_array=("Received RRCConnectionReconfigurationComplete from UE 0" "Received RRCConnectionReconfigurationComplete from UE 1" "Received RRCConnectionReconfigurationComplete from UE 2")
test_compile_and_run 010203 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O $OPENAIR_TARGETS/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -b1 -u3 -a -n100" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3 test_compile_and_run 010203 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O $OPENAIR_TARGETS/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -A AWGN -b1 -u3 -a -n100" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3
#PHY unitary simulations for secuirity tests #PHY unitary simulations for secuirity tests
search_array=("finished with 0 errors") search_array=("finished with 0 errors")
...@@ -224,8 +425,7 @@ test_compile_and_run 010308 "test_secu_knas_encrypt_eia2" "" "" "" "test_secu_kn ...@@ -224,8 +425,7 @@ test_compile_and_run 010308 "test_secu_knas_encrypt_eia2" "" "" "" "test_secu_kn
search_array=("finished with 0 errors") search_array=("finished with 0 errors")
test_compile_and_run 010309 "test_kdf" "" "" "" "test_kdf" " --verbose" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3 test_compile_and_run 010309 "test_kdf" "" "" "" "test_kdf" " --verbose" "search_array[@]" "segmentation fault|assertion|exiting|fatal" 3
#TODO: Add test cases for 10,20 MHz
#TODO: Test and compile seperately for Rel8/Rel10
#test_compile_and_run 0200 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O /home/calisson/rohit/oai_snav/taets/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -b1 -u1 -a " "RRC_CONN" 3 #test_compile_and_run 0200 "oaisim_nos1" "" "$OPENAIR_DIR/cmake_targets/tools/init_nas_nos1" "" "oaisim_nos1" " -O /home/calisson/rohit/oai_snav/taets/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.generic.oaisim.local_no_mme.conf -b1 -u1 -a " "RRC_CONN" 3
...@@ -240,3 +440,5 @@ xUnit_write "$results_file" ...@@ -240,3 +440,5 @@ xUnit_write "$results_file"
echo "Test Results are written to $results_file" echo "Test Results are written to $results_file"
...@@ -254,7 +254,8 @@ check_install_oai_software() { ...@@ -254,7 +254,8 @@ check_install_oai_software() {
openssh-server \ openssh-server \
openssl \ openssl \
python \ python \
subversion subversion \
xmlstarlet
$SUDO update-alternatives --set liblapack.so /usr/lib/atlas-base/atlas/liblapack.so $SUDO update-alternatives --set liblapack.so /usr/lib/atlas-base/atlas/liblapack.so
if [ `lsb_release -rs` = '12.04' ] ; then if [ `lsb_release -rs` = '12.04' ] ; then
install_nettle_from_source install_nettle_from_source
......
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