Changes:
------------------------------------------ [...truncated 306.40 KB...] -#01 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#03 exec_power_step() <- Enable DTXd -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(00), RXQUAL-FULL(7), RXLEV-SUB(30), RXQUAL-SUB(0) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 00 1e 70 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(3), RXLEV-SUB(30), RXQUAL-SUB(0) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 30 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(63), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3f 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -Test case verdict: SUCCESS - -Starting test case 'TC_rxqual_ber' -#00 exec_power_step() <- State (re)set (current 16 dB, max 20 dB) -#01 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#01 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#01 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(1), RXLEV-SUB(30), RXQUAL-SUB(1) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 12 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(2), RXLEV-SUB(30), RXQUAL-SUB(2) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 24 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(3), RXLEV-SUB(30), RXQUAL-SUB(3) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 36 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(4), RXLEV-SUB(30), RXQUAL-SUB(4) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 48 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 12 (expected 12) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(34), RXQUAL-FULL(5), RXLEV-SUB(34), RXQUAL-SUB(5) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 22 22 5a 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 12 -> 8 (expected 8) -#08 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(38), RXQUAL-FULL(6), RXLEV-SUB(38), RXQUAL-SUB(6) -#08 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 26 26 6c 00 00 00 00 00 00 00 00 00 00 00 00 00 -#08 lchan_bs_pwr_ctrl() -> BS power reduction: 8 -> 4 (expected 4) -#09 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(42), RXQUAL-FULL(7), RXLEV-SUB(42), RXQUAL-SUB(7) -#09 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2a 2a 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#09 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 0 (expected 0) -#10 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(46), RXQUAL-FULL(7), RXLEV-SUB(46), RXQUAL-SUB(7) -#10 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2e 2e 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#10 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#11 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(46), RXQUAL-FULL(0), RXLEV-SUB(46), RXQUAL-SUB(0) -#11 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2e 2e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#11 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 2 (expected 2) -#12 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(44), RXQUAL-FULL(0), RXLEV-SUB(44), RXQUAL-SUB(0) -#12 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2c 2c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#12 lchan_bs_pwr_ctrl() -> BS power reduction: 2 -> 4 (expected 4) -#13 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(42), RXQUAL-FULL(0), RXLEV-SUB(42), RXQUAL-SUB(0) -#13 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2a 2a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#13 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 6 (expected 6) -#14 exec_power_step() <- State (re)set (current 0 dB, max 20 dB) -#15 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(7), RXLEV-SUB(30), RXQUAL-SUB(7) -#15 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#15 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#16 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(7), RXLEV-SUB(30), RXQUAL-SUB(7) -#16 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#16 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -Test case verdict: SUCCESS - -Starting test case 'TC_inval_dummy' -#00 exec_power_step() <- State (re)set (current 16 dB, max 20 dB) -#01 enc_meas_rep() -> Measurement Results (invalid): RXLEV-FULL(63), RXQUAL-FULL(7), RXLEV-SUB(63), RXQUAL-SUB(7) -#01 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3f 7f 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#01 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#02 enc_meas_rep() -> Measurement Results (invalid): RXLEV-FULL(00), RXQUAL-FULL(0), RXLEV-SUB(00), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 00 40 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#04 exec_power_step() <- Dummy block -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#06 exec_power_step() <- Dummy block -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -Test case verdict: SUCCESS - -Starting test case 'TC_ctrl_interval' -#00 exec_power_step() <- State (re)set (current 0 dB, max 20 dB) -#01 exec_power_step() <- (Re)set power control interval: 0 -> 0 -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 2 (expected 2) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 2 -> 4 (expected 4) -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 6 (expected 6) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 6 -> 8 (expected 8) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 8 -> 4 (expected 4) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 0 (expected 0) -#08 exec_power_step() <- (Re)set power control interval: 0 -> 1 -#09 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#09 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#09 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 2 (expected 2) -#10 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#10 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#10 lchan_bs_pwr_ctrl() -> BS power reduction: 2 -> 2 (expected 2) -#11 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#11 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#11 lchan_bs_pwr_ctrl() -> BS power reduction: 2 -> 4 (expected 4) -#12 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#12 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#12 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 4 (expected 4) -#13 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#13 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#13 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 6 (expected 6) -#14 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#14 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#14 lchan_bs_pwr_ctrl() -> BS power reduction: 6 -> 6 (expected 6) -#15 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#15 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#15 lchan_bs_pwr_ctrl() -> BS power reduction: 6 -> 8 (expected 8) -#16 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#16 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#16 lchan_bs_pwr_ctrl() -> BS power reduction: 8 -> 8 (expected 8) -#17 exec_power_step() <- (Re)set power control interval: 1 -> 2 -#18 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#18 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#18 lchan_bs_pwr_ctrl() -> BS power reduction: 8 -> 4 (expected 4) -#19 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#19 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#19 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 4 (expected 4) -#20 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#20 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#20 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 4 (expected 4) -#21 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#21 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#21 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 4 (expected 4) -#22 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#22 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#22 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 0 (expected 0) -Test case verdict: SUCCESS - -Starting test case 'TC_rxlev_hyst' -#00 exec_power_step() <- State (re)set (current 12 dB, max 16 dB) -#01 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(31), RXQUAL-FULL(0), RXLEV-SUB(31), RXQUAL-SUB(0) -#01 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1f 1f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#01 lchan_bs_pwr_ctrl() -> BS power reduction: 12 -> 13 (expected 13) -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(28), RXQUAL-FULL(0), RXLEV-SUB(28), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1c 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 13 -> 11 (expected 11) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(33), RXQUAL-FULL(0), RXLEV-SUB(33), RXQUAL-SUB(0) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 21 21 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 13 (expected 13) -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(28), RXQUAL-FULL(0), RXLEV-SUB(28), RXQUAL-SUB(0) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1c 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 13 -> 11 (expected 11) -#05 exec_power_step() <- (Re)set RxLev params (thresh 27 .. 33, averaging is disabled) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(31), RXQUAL-FULL(0), RXLEV-SUB(31), RXQUAL-SUB(0) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1f 1f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 11 (expected 11) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(28), RXQUAL-FULL(0), RXLEV-SUB(28), RXQUAL-SUB(0) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1c 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 11 (expected 11) -#08 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(33), RXQUAL-FULL(0), RXLEV-SUB(33), RXQUAL-SUB(0) -#08 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 21 21 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#08 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 11 (expected 11) -#09 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(28), RXQUAL-FULL(0), RXLEV-SUB(28), RXQUAL-SUB(0) -#09 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1c 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#09 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 11 (expected 11) -Test case verdict: SUCCESS - -Starting test case 'TC_rxlev_pf_ewma' -#00 exec_power_step() <- State (re)set (current 16 dB, max 30 dB) -#01 exec_power_step() <- (Re)set RxLev params (thresh 30 .. 30, averaging is enabled) -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(26), RXQUAL-FULL(0), RXLEV-SUB(26), RXQUAL-SUB(0) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1a 1a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 14 (expected 14) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(26), RXQUAL-FULL(0), RXLEV-SUB(26), RXQUAL-SUB(0) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1a 1a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 14 -> 11 (expected 11) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(35), RXQUAL-FULL(0), RXLEV-SUB(35), RXQUAL-SUB(0) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 23 23 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 12 (expected 12) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(35), RXQUAL-FULL(0), RXLEV-SUB(35), RXQUAL-SUB(0) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 23 23 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 12 -> 14 (expected 14) -Test case verdict: SUCCESS ./testsuite.at:45: exit code was 1, expected 0 7. testsuite.at:41: 7. bs_power_loop (testsuite.at:41): FAILED (testsuite.at:45)
======================== ./tests/testsuite.dir/01/testsuite.log
# -*- compilation -*- 1. testsuite.at:4: testing paging ... ./testsuite.at:7: $OSMO_QEMU $abs_top_builddir/tests/paging/paging_test stderr: ==3539==ASan runtime does not come first in initial library list; you should either link runtime to your application or manually preload it with LD_PRELOAD. --- expout 2021-03-08 23:23:08.126146253 +0000 +++ https://jenkins.osmocom.org/jenkins/job/master-osmo-bts/BTS_MODEL=trx,FIRMWARE_VERSION=master,WITH_MANUALS=0,a4=default,label=rpi4-raspbian10/ws/tests/testsuite.dir/at-groups/1/stdout 2021-03-08 23:23:08.126146253 +0000 @@ -1,24 +0,0 @@ -Testing that paging messages expire. -Testing that paging messages expire with sleep. -Fn: AGCH: (bs_ag_blks_res=[0:7] -002: . . . . . . . . (BCCH) -006: 0 1 1 1 1 1 1 1 -012: 0 0 1 1 1 1 1 1 -016: 0 0 0 1 1 1 1 1 -022: 0 0 0 0 1 1 1 1 -026: 0 0 0 0 0 1 1 1 -032: 0 0 0 0 0 0 1 1 -036: 0 0 0 0 0 0 0 1 -042: 0 0 0 0 0 0 0 0 -046: 0 0 0 0 0 0 0 0 -053: . . . . . . . . (BCCH) -057: 0 1 1 1 1 1 1 1 -063: 0 0 1 1 1 1 1 1 -067: 0 0 0 1 1 1 1 1 -073: 0 0 0 0 1 1 1 1 -077: 0 0 0 0 0 1 1 1 -083: 0 0 0 0 0 0 1 1 -087: 0 0 0 0 0 0 0 1 -093: 0 0 0 0 0 0 0 0 -097: 0 0 0 0 0 0 0 0 -Success ./testsuite.at:7: exit code was 1, expected 0 1. testsuite.at:4: 1. paging (testsuite.at:4): FAILED (testsuite.at:7) Build step 'Execute shell' marked build as failure [WARNINGS]Skipping publisher since build result is FAILURE
Changes:
------------------------------------------ [...truncated 316.58 KB...] - toa256 (before) = 6201 / 256 = 24 - lchan.rqd_ta (after) = 25 - toa256 (after) = 5945 / 256 = 23 -Step #25 - lchan.rqd_ta (before) = 25 - toa256 (before) = 5945 / 256 = 23 - lchan.rqd_ta (after) = 26 - toa256 (after) = 5689 / 256 = 22 -Step #26 - lchan.rqd_ta (before) = 26 - toa256 (before) = 5689 / 256 = 22 - lchan.rqd_ta (after) = 27 - toa256 (after) = 5433 / 256 = 21 -Step #27 - lchan.rqd_ta (before) = 27 - toa256 (before) = 5433 / 256 = 21 - lchan.rqd_ta (after) = 28 - toa256 (after) = 5177 / 256 = 20 -Step #28 - lchan.rqd_ta (before) = 28 - toa256 (before) = 5177 / 256 = 20 - lchan.rqd_ta (after) = 29 - toa256 (after) = 4921 / 256 = 19 -Step #29 - lchan.rqd_ta (before) = 29 - toa256 (before) = 4921 / 256 = 19 - lchan.rqd_ta (after) = 30 - toa256 (after) = 4665 / 256 = 18 -Step #30 - lchan.rqd_ta (before) = 30 - toa256 (before) = 4665 / 256 = 18 - lchan.rqd_ta (after) = 31 - toa256 (after) = 4409 / 256 = 17 -Step #31 - lchan.rqd_ta (before) = 31 - toa256 (before) = 4409 / 256 = 17 - lchan.rqd_ta (after) = 32 - toa256 (after) = 4153 / 256 = 16 -Step #32 - lchan.rqd_ta (before) = 32 - toa256 (before) = 4153 / 256 = 16 - lchan.rqd_ta (after) = 33 - toa256 (after) = 3897 / 256 = 15 -Step #33 - lchan.rqd_ta (before) = 33 - toa256 (before) = 3897 / 256 = 15 - lchan.rqd_ta (after) = 34 - toa256 (after) = 3641 / 256 = 14 -Step #34 - lchan.rqd_ta (before) = 34 - toa256 (before) = 3641 / 256 = 14 - lchan.rqd_ta (after) = 35 - toa256 (after) = 3385 / 256 = 13 -Step #35 - lchan.rqd_ta (before) = 35 - toa256 (before) = 3385 / 256 = 13 - lchan.rqd_ta (after) = 36 - toa256 (after) = 3129 / 256 = 12 -Step #36 - lchan.rqd_ta (before) = 36 - toa256 (before) = 3129 / 256 = 12 - lchan.rqd_ta (after) = 37 - toa256 (after) = 2873 / 256 = 11 -Step #37 - lchan.rqd_ta (before) = 37 - toa256 (before) = 2873 / 256 = 11 - lchan.rqd_ta (after) = 38 - toa256 (after) = 2617 / 256 = 10 -Step #38 - lchan.rqd_ta (before) = 38 - toa256 (before) = 2617 / 256 = 10 - lchan.rqd_ta (after) = 39 - toa256 (after) = 2361 / 256 = 9 -Step #39 - lchan.rqd_ta (before) = 39 - toa256 (before) = 2361 / 256 = 9 - lchan.rqd_ta (after) = 40 - toa256 (after) = 2105 / 256 = 8 -Step #40 - lchan.rqd_ta (before) = 40 - toa256 (before) = 2105 / 256 = 8 - lchan.rqd_ta (after) = 41 - toa256 (after) = 1849 / 256 = 7 -Step #41 - lchan.rqd_ta (before) = 41 - toa256 (before) = 1849 / 256 = 7 - lchan.rqd_ta (after) = 42 - toa256 (after) = 1593 / 256 = 6 -Step #42 - lchan.rqd_ta (before) = 42 - toa256 (before) = 1593 / 256 = 6 - lchan.rqd_ta (after) = 43 - toa256 (after) = 1337 / 256 = 5 -Step #43 - lchan.rqd_ta (before) = 43 - toa256 (before) = 1337 / 256 = 5 - lchan.rqd_ta (after) = 44 - toa256 (after) = 1081 / 256 = 4 -Step #44 - lchan.rqd_ta (before) = 44 - toa256 (before) = 1081 / 256 = 4 - lchan.rqd_ta (after) = 45 - toa256 (after) = 825 / 256 = 3 -Step #45 - lchan.rqd_ta (before) = 45 - toa256 (before) = 825 / 256 = 3 - lchan.rqd_ta (after) = 46 - toa256 (after) = 569 / 256 = 2 -Step #46 - lchan.rqd_ta (before) = 46 - toa256 (before) = 569 / 256 = 2 - lchan.rqd_ta (after) = 47 - toa256 (after) = 313 / 256 = 1 -Step #47 - lchan.rqd_ta (before) = 47 - toa256 (before) = 313 / 256 = 1 - lchan.rqd_ta (after) = 48 - toa256 (after) = 57 / 256 = 0 -Step #48 - lchan.rqd_ta (before) = 48 - toa256 (before) = 57 / 256 = 0 - lchan.rqd_ta (after) = 48 - toa256 (after) = 57 / 256 = 0 -Step #49 - lchan.rqd_ta (before) = 48 - toa256 (before) = 57 / 256 = 0 - lchan.rqd_ta (after) = 48 - toa256 (after) = 57 / 256 = 0 -Done. - ./testsuite.at:64: exit code was 1, expected 0 10. testsuite.at:61: 10. ta_control (testsuite.at:61): FAILED (testsuite.at:64)
======================== ./tests/testsuite.dir/08/testsuite.log
# -*- compilation -*- 8. testsuite.at:48: testing tx_power ... ./testsuite.at:52: $abs_top_builddir/tests/tx_power/tx_power_test --- experr 2021-03-09 00:05:31.627543203 +0000 +++ https://jenkins.osmocom.org/jenkins/job/master-osmo-bts/BTS_MODEL=trx,FIRMWARE_VERSION=master,WITH_MANUALS=0,a4=default,label=rpi4-raspbian10/ws/tests/testsuite.dir/at-groups/8/stderr 2021-03-09 00:05:31.647542421 +0000 @@ -1,50 +1 @@ -(bts=0,trx=1) power_ramp_start(cur=0, tgt=40000) -(bts=0,trx=1) Asked to ramp power up to 40000 mdBm, which exceeds P_max_out (33000) -(bts=0,trx=1) power_ramp_start(cur=0, tgt=33000) -(bts=0,trx=1) ramp_timer_cb(cur_pout=2000, tgt_pout=33000, ramp_att=31000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to -8000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=4000, tgt_pout=33000, ramp_att=29000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to -6000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=6000, tgt_pout=33000, ramp_att=27000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to -4000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=8000, tgt_pout=33000, ramp_att=25000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to -2000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=10000, tgt_pout=33000, ramp_att=23000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 0 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=12000, tgt_pout=33000, ramp_att=21000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 2000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=14000, tgt_pout=33000, ramp_att=19000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 4000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=16000, tgt_pout=33000, ramp_att=17000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 6000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=18000, tgt_pout=33000, ramp_att=15000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 8000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=20000, tgt_pout=33000, ramp_att=13000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 10000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=22000, tgt_pout=33000, ramp_att=11000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 12000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=24000, tgt_pout=33000, ramp_att=9000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 14000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=26000, tgt_pout=33000, ramp_att=7000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 16000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=28000, tgt_pout=33000, ramp_att=5000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 18000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=30000, tgt_pout=33000, ramp_att=3000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 20000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=32000, tgt_pout=33000, ramp_att=1000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 22000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=33000, tgt_pout=33000, ramp_att=0, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 23000 mdBm. -(bts=0,trx=1) power_ramp_start(cur=-10000, tgt=10000) -(bts=0,trx=1) ramp_timer_cb(cur_pout=0, tgt_pout=10000, ramp_att=10000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 0 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=2000, tgt_pout=10000, ramp_att=8000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 2000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=4000, tgt_pout=10000, ramp_att=6000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 4000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=6000, tgt_pout=10000, ramp_att=4000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 6000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=8000, tgt_pout=10000, ramp_att=2000, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 8000 mdBm. -(bts=0,trx=1) ramp_timer_cb(cur_pout=10000, tgt_pout=10000, ramp_att=0, therm_att=0, user_gain=0) -(bts=0,trx=1) ramping TRX board output power to 10000 mdBm. +==21211==ASan runtime does not come first in initial library list; you should either link runtime to your application or manually preload it with LD_PRELOAD. --- expout 2021-03-09 00:05:31.627543203 +0000 +++ https://jenkins.osmocom.org/jenkins/job/master-osmo-bts/BTS_MODEL=trx,FIRMWARE_VERSION=master,WITH_MANUALS=0,a4=default,label=rpi4-raspbian10/ws/tests/testsuite.dir/at-groups/8/stdout 2021-03-09 00:05:31.627543203 +0000 @@ -1,32 +0,0 @@ -Testing tx_power calculation for sysmoBTS 1002 -Testing tx_power calculation for sysmoBTS 1020 -Testing tx_power calculation for sysmoBTS 1100 -Testing tx_power calculation for sysmoBTS 2050 -Testing tx_power ramping for sysmoBTS 1020 -Testing tx_power ramping for sysmoBTS 1020 -CHANGE_POWER(-8000) -CHANGE_POWER(-6000) -CHANGE_POWER(-4000) -CHANGE_POWER(-2000) -CHANGE_POWER(0) -CHANGE_POWER(2000) -CHANGE_POWER(4000) -CHANGE_POWER(6000) -CHANGE_POWER(8000) -CHANGE_POWER(10000) -CHANGE_POWER(12000) -CHANGE_POWER(14000) -CHANGE_POWER(16000) -CHANGE_POWER(18000) -CHANGE_POWER(20000) -CHANGE_POWER(22000) -CHANGE_POWER(23000) -power_ramp finished -Testing tx_power ramping for osmo-bts-trx after lock -CHANGE_POWER(0) -CHANGE_POWER(2000) -CHANGE_POWER(4000) -CHANGE_POWER(6000) -CHANGE_POWER(8000) -CHANGE_POWER(10000) -power_ramp finished ./testsuite.at:52: exit code was 1, expected 0 8. testsuite.at:48: 8. tx_power (testsuite.at:48): FAILED (testsuite.at:52)
======================== ./tests/testsuite.dir/05/testsuite.log
# -*- compilation -*- 5. testsuite.at:28: testing handover ... ./testsuite.at:31: $abs_top_builddir/tests/handover/handover_test stderr: ==21172==ASan runtime does not come first in initial library list; you should either link runtime to your application or manually preload it with LD_PRELOAD. --- expout 2021-03-09 00:05:31.427551014 +0000 +++ https://jenkins.osmocom.org/jenkins/job/master-osmo-bts/BTS_MODEL=trx,FIRMWARE_VERSION=master,WITH_MANUALS=0,a4=default,label=rpi4-raspbian10/ws/tests/testsuite.dir/at-groups/5/stdout 2021-03-09 00:05:31.427551014 +0000 @@ -1 +0,0 @@ -Success ./testsuite.at:31: exit code was 1, expected 0 5. testsuite.at:28: 5. handover (testsuite.at:28): FAILED (testsuite.at:31) Build step 'Execute shell' marked build as failure [WARNINGS]Skipping publisher since build result is FAILURE
Changes:
------------------------------------------ [...truncated 337.82 KB...] -#01 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#03 exec_power_step() <- Enable DTXd -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(00), RXQUAL-FULL(7), RXLEV-SUB(30), RXQUAL-SUB(0) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 00 1e 70 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(3), RXLEV-SUB(30), RXQUAL-SUB(0) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 30 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(63), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3f 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -Test case verdict: SUCCESS - -Starting test case 'TC_rxqual_ber' -#00 exec_power_step() <- State (re)set (current 16 dB, max 20 dB) -#01 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#01 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#01 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(1), RXLEV-SUB(30), RXQUAL-SUB(1) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 12 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(2), RXLEV-SUB(30), RXQUAL-SUB(2) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 24 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(3), RXLEV-SUB(30), RXQUAL-SUB(3) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 36 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(4), RXLEV-SUB(30), RXQUAL-SUB(4) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 48 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 12 (expected 12) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(34), RXQUAL-FULL(5), RXLEV-SUB(34), RXQUAL-SUB(5) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 22 22 5a 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 12 -> 8 (expected 8) -#08 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(38), RXQUAL-FULL(6), RXLEV-SUB(38), RXQUAL-SUB(6) -#08 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 26 26 6c 00 00 00 00 00 00 00 00 00 00 00 00 00 -#08 lchan_bs_pwr_ctrl() -> BS power reduction: 8 -> 4 (expected 4) -#09 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(42), RXQUAL-FULL(7), RXLEV-SUB(42), RXQUAL-SUB(7) -#09 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2a 2a 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#09 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 0 (expected 0) -#10 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(46), RXQUAL-FULL(7), RXLEV-SUB(46), RXQUAL-SUB(7) -#10 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2e 2e 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#10 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#11 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(46), RXQUAL-FULL(0), RXLEV-SUB(46), RXQUAL-SUB(0) -#11 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2e 2e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#11 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 2 (expected 2) -#12 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(44), RXQUAL-FULL(0), RXLEV-SUB(44), RXQUAL-SUB(0) -#12 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2c 2c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#12 lchan_bs_pwr_ctrl() -> BS power reduction: 2 -> 4 (expected 4) -#13 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(42), RXQUAL-FULL(0), RXLEV-SUB(42), RXQUAL-SUB(0) -#13 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 2a 2a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#13 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 6 (expected 6) -#14 exec_power_step() <- State (re)set (current 0 dB, max 20 dB) -#15 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(7), RXLEV-SUB(30), RXQUAL-SUB(7) -#15 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#15 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -#16 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(7), RXLEV-SUB(30), RXQUAL-SUB(7) -#16 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#16 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 0 (expected 0) -Test case verdict: SUCCESS - -Starting test case 'TC_inval_dummy' -#00 exec_power_step() <- State (re)set (current 16 dB, max 20 dB) -#01 enc_meas_rep() -> Measurement Results (invalid): RXLEV-FULL(63), RXQUAL-FULL(7), RXLEV-SUB(63), RXQUAL-SUB(7) -#01 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3f 7f 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 -#01 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#02 enc_meas_rep() -> Measurement Results (invalid): RXLEV-FULL(00), RXQUAL-FULL(0), RXLEV-SUB(00), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 00 40 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#04 exec_power_step() <- Dummy block -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#06 exec_power_step() <- Dummy block -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b 2b -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -Test case verdict: SUCCESS - -Starting test case 'TC_ctrl_interval' -#00 exec_power_step() <- State (re)set (current 0 dB, max 20 dB) -#01 exec_power_step() <- (Re)set power control interval: 0 -> 0 -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 2 (expected 2) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 2 -> 4 (expected 4) -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 6 (expected 6) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 6 -> 8 (expected 8) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 8 -> 4 (expected 4) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 0 (expected 0) -#08 exec_power_step() <- (Re)set power control interval: 0 -> 1 -#09 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#09 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#09 lchan_bs_pwr_ctrl() -> BS power reduction: 0 -> 2 (expected 2) -#10 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#10 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#10 lchan_bs_pwr_ctrl() -> BS power reduction: 2 -> 2 (expected 2) -#11 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#11 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#11 lchan_bs_pwr_ctrl() -> BS power reduction: 2 -> 4 (expected 4) -#12 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#12 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#12 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 4 (expected 4) -#13 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#13 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#13 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 6 (expected 6) -#14 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#14 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#14 lchan_bs_pwr_ctrl() -> BS power reduction: 6 -> 6 (expected 6) -#15 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#15 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#15 lchan_bs_pwr_ctrl() -> BS power reduction: 6 -> 8 (expected 8) -#16 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(60), RXQUAL-FULL(0), RXLEV-SUB(60), RXQUAL-SUB(0) -#16 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 3c 3c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#16 lchan_bs_pwr_ctrl() -> BS power reduction: 8 -> 8 (expected 8) -#17 exec_power_step() <- (Re)set power control interval: 1 -> 2 -#18 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#18 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#18 lchan_bs_pwr_ctrl() -> BS power reduction: 8 -> 4 (expected 4) -#19 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#19 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#19 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 4 (expected 4) -#20 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#20 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#20 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 4 (expected 4) -#21 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#21 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#21 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 4 (expected 4) -#22 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(10), RXQUAL-FULL(0), RXLEV-SUB(10), RXQUAL-SUB(0) -#22 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 0a 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#22 lchan_bs_pwr_ctrl() -> BS power reduction: 4 -> 0 (expected 0) -Test case verdict: SUCCESS - -Starting test case 'TC_rxlev_hyst' -#00 exec_power_step() <- State (re)set (current 12 dB, max 16 dB) -#01 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(31), RXQUAL-FULL(0), RXLEV-SUB(31), RXQUAL-SUB(0) -#01 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1f 1f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#01 lchan_bs_pwr_ctrl() -> BS power reduction: 12 -> 13 (expected 13) -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(28), RXQUAL-FULL(0), RXLEV-SUB(28), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1c 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 13 -> 11 (expected 11) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(33), RXQUAL-FULL(0), RXLEV-SUB(33), RXQUAL-SUB(0) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 21 21 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 13 (expected 13) -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(28), RXQUAL-FULL(0), RXLEV-SUB(28), RXQUAL-SUB(0) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1c 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 13 -> 11 (expected 11) -#05 exec_power_step() <- (Re)set RxLev params (thresh 27 .. 33, averaging is disabled) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(31), RXQUAL-FULL(0), RXLEV-SUB(31), RXQUAL-SUB(0) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1f 1f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 11 (expected 11) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(28), RXQUAL-FULL(0), RXLEV-SUB(28), RXQUAL-SUB(0) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1c 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 11 (expected 11) -#08 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(33), RXQUAL-FULL(0), RXLEV-SUB(33), RXQUAL-SUB(0) -#08 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 21 21 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#08 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 11 (expected 11) -#09 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(28), RXQUAL-FULL(0), RXLEV-SUB(28), RXQUAL-SUB(0) -#09 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1c 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#09 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 11 (expected 11) -Test case verdict: SUCCESS - -Starting test case 'TC_rxlev_pf_ewma' -#00 exec_power_step() <- State (re)set (current 16 dB, max 30 dB) -#01 exec_power_step() <- (Re)set RxLev params (thresh 30 .. 30, averaging is enabled) -#02 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#02 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#02 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#03 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(30), RXQUAL-FULL(0), RXLEV-SUB(30), RXQUAL-SUB(0) -#03 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1e 1e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#03 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 16 (expected 16) -#04 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(26), RXQUAL-FULL(0), RXLEV-SUB(26), RXQUAL-SUB(0) -#04 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1a 1a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#04 lchan_bs_pwr_ctrl() -> BS power reduction: 16 -> 14 (expected 14) -#05 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(26), RXQUAL-FULL(0), RXLEV-SUB(26), RXQUAL-SUB(0) -#05 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 1a 1a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#05 lchan_bs_pwr_ctrl() -> BS power reduction: 14 -> 11 (expected 11) -#06 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(35), RXQUAL-FULL(0), RXLEV-SUB(35), RXQUAL-SUB(0) -#06 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 23 23 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#06 lchan_bs_pwr_ctrl() -> BS power reduction: 11 -> 12 (expected 12) -#07 enc_meas_rep() -> Measurement Results (valid): RXLEV-FULL(35), RXQUAL-FULL(0), RXLEV-SUB(35), RXQUAL-SUB(0) -#07 lchan_bs_pwr_ctrl() <- UL SACCH: 06 15 23 23 00 00 00 00 00 00 00 00 00 00 00 00 00 00 -#07 lchan_bs_pwr_ctrl() -> BS power reduction: 12 -> 14 (expected 14) -Test case verdict: SUCCESS ./testsuite.at:45: exit code was 1, expected 0 7. testsuite.at:41: 7. bs_power_loop (testsuite.at:41): FAILED (testsuite.at:45)
======================== ./tests/testsuite.dir/01/testsuite.log
# -*- compilation -*- 1. testsuite.at:4: testing paging ... ./testsuite.at:7: $OSMO_QEMU $abs_top_builddir/tests/paging/paging_test stderr: ==3557==ASan runtime does not come first in initial library list; you should either link runtime to your application or manually preload it with LD_PRELOAD. --- expout 2021-03-09 00:52:13.371381091 +0000 +++ https://jenkins.osmocom.org/jenkins/job/master-osmo-bts/BTS_MODEL=trx,FIRMWARE_VERSION=master,WITH_MANUALS=0,a4=default,label=rpi4-raspbian10/ws/tests/testsuite.dir/at-groups/1/stdout 2021-03-09 00:52:13.371381091 +0000 @@ -1,24 +0,0 @@ -Testing that paging messages expire. -Testing that paging messages expire with sleep. -Fn: AGCH: (bs_ag_blks_res=[0:7] -002: . . . . . . . . (BCCH) -006: 0 1 1 1 1 1 1 1 -012: 0 0 1 1 1 1 1 1 -016: 0 0 0 1 1 1 1 1 -022: 0 0 0 0 1 1 1 1 -026: 0 0 0 0 0 1 1 1 -032: 0 0 0 0 0 0 1 1 -036: 0 0 0 0 0 0 0 1 -042: 0 0 0 0 0 0 0 0 -046: 0 0 0 0 0 0 0 0 -053: . . . . . . . . (BCCH) -057: 0 1 1 1 1 1 1 1 -063: 0 0 1 1 1 1 1 1 -067: 0 0 0 1 1 1 1 1 -073: 0 0 0 0 1 1 1 1 -077: 0 0 0 0 0 1 1 1 -083: 0 0 0 0 0 0 1 1 -087: 0 0 0 0 0 0 0 1 -093: 0 0 0 0 0 0 0 0 -097: 0 0 0 0 0 0 0 0 -Success ./testsuite.at:7: exit code was 1, expected 0 1. testsuite.at:4: 1. paging (testsuite.at:4): FAILED (testsuite.at:7) Build step 'Execute shell' marked build as failure [WARNINGS]Skipping publisher since build result is FAILURE
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