[Nut-upsuser] BCMXCP UPS driver 0.24 (2.6.1) Hangs

Thomas Laus lausts at acm.org
Mon Aug 29 17:04:58 UTC 2011


List:

I have an Eaton (Powerware) Model 5115 and am using the bcmxcp_usb driver 
on a OpenBSD 4.9 system.  The upsdrvctl start appears to work and I get a 
message in my daemon log stating that it successfully started.  I can 
successfully start the upsd daemon.  I get a successful start messaage from 
the upsmon program, but it soon complains of 'stale' data.  It looks like 
the driver seems to run for a couple of minutes and then dies.  I pressed 
^C at after waiting for more messages.  The last part of this log shows the 
data until the driver finally stopped.  I have waited in the past for over 
30 minutes before pressing ^C and there isn't any further activity.


# /usr/local/bin/bcmxcp_usb -DDDDD -a eaton
Network UPS Tools - BCMXCP UPS driver 0.24 (2.6.1)
USB communication subdriver 0.18
   0.000000     send_to_all: SETINFO driver.parameter.port "auto"
   0.000302     debug level is '5'
   0.011901     device /dev/ugen0 opened successfully
   0.014824     send_to_all: SETINFO device.type "ups"
   0.014868     send_to_all: SETINFO driver.version "2.6.1"
   0.014911     send_to_all: SETINFO driver.version.internal "0.24"
   0.014972     send_to_all: SETINFO driver.name "bcmxcp_usb"
   1.026913     entering get_answer(31)
   6.026797     get_answer: exiting (len=0)
   7.046961     entering get_answer(31)
   7.047086     get_answer: (156 bytes) => ab 01 73 01 02 20 01 02 01 00 0f 
00 01 00 09 50
   7.047225      57 35 31 31 35 20 52 4d 51 00 00 00 00 00 00 00 00 00 00 
00 00 00 00 00 00
   7.047332      00 00 00 00 00 f0 00 f0 00 00 00 52 52 00 00 00 00 52 f0 
e2 00 00 00 00 00
   7.047431      00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f0 00 00 f0 
00 00 f0 00 00 41
   7.047542      00 00 41 00 00 f0 00 00 00 00 00 00 f0 00 00 1b c0 01 00 
82 04 00 80 0b 00
   7.047649      00 00 00 57 ab 01 1f 82 00 00 00 40 00 00 00 00 00 05 00 
80 02 08 00 50 00
   7.047733      00 00 00 00 00 03 00 1b 1a 00 0e 00 10 00 3e
   7.047789     get_answer: block_number = 1
   7.047819     get_answer: data length = 115
   7.047873     get_answer: sequence number (1) is ok
   7.047911     get_answer: checksum is ok
   7.048005     get_answer: block_number = 1
   7.048048     get_answer: data length = 31
   7.048088     get_answer: sequence number (2) is ok
   7.048127     get_answer: checksum is ok
   7.048164     get_answer: all data received
   7.048204     get_answer: exiting (len=146)
   7.048271     send_to_all: SETINFO ups.firmware "Cont:01.20 Inve:01.02"
   7.048329     send_to_all: SETINFO ups.power.nominal "750"
   7.048387     send_to_all: SETINFO output.phases "1"
   7.048465     send_to_all: SETINFO ups.mfr "Eaton"
   7.048594     send_to_all: SETINFO ups.model "PW5115 RM 750i"
   7.048652     Length of meter map: 81

   7.048682     Index   Offset  Format  NUT

   7.048739     0021    0000    f0      None
   7.048807     0023    0004    f0      ups.power
   7.048851     0027    0008    52      output.frequency
   7.048904     0028    0012    52      input.frequency
   7.048970     0033    0016    52      battery.voltage
   7.049029     0034    0020    f0      battery.charge
   7.049108     0035    0024    e2      battery.runtime
   7.049172     0056    0028    f0      input.voltage
   7.049209     0059    0032    f0      None
   7.049242     0062    0036    f0      ambient.temperature
   7.049275     0065    0040    41      output.current
   7.049313     0068    0044    41      output.current.nominal
   7.049347     0071    0048    f0      None
   7.049380     0078    0052    f0      output.voltage
   7.049414     

   7.049447     Length of alarm map: 27

   7.049476     Index   Alarm   Supported

   7.049509     -001    INVERTER_AC_OVER_VOLTAGE        No
   7.049540     -001    INVERTER_AC_UNDER_VOLTAGE       No
   7.049572     -001    INVERTER_OVER_OR_UNDER_FREQ     No
   7.049607     -001    BYPASS_AC_OVER_VOLTAGE  No
   7.049639     -001    BYPASS_AC_UNDER_VOLTAGE No
   7.049674     -001    BYPASS_OVER_OR_UNDER_FREQ       No
   7.049704     0000    INPUT_AC_OVER_VOLTAGE   Yes
   7.049736     0001    INPUT_AC_UNDER_VOLTAGE  Yes
   7.049765     0002    INPUT_UNDER_OR_OVER_FREQ        Yes
   7.049797     -001    OUTPUT_OVER_VOLTAGE     No
   7.049833     -001    OUTPUT_UNDER_VOLTAGE    No
   7.049866     -001    OUTPUT_UNDER_OR_OVER_FREQ       No
   7.049897     -001    REMOTE_EMERGENCY_PWR_OFF        No
   7.049930     -001    REMOTE_GO_TO_BYPASS     No
   7.049961     -001    BUILDING_ALARM_6        No
   7.049991     -001    BUILDING_ALARM_5        No
   7.050023     -001    BUILDING_ALARM_4        No
   7.050053     -001    BUILDING_ALARM_3        No
   7.050084     -001    BUILDING_ALARM_2        No
   7.050114     -001    BUILDING_ALARM_1        No
   7.050145     -001    STATIC_SWITCH_OVER_TEMP No
   7.050181     -001    CHARGER_OVER_TEMP       No
   7.050212     -001    CHARGER_LOGIC_PWR_FAIL  No
   7.050244     -001    CHARGER_OVER_VOLTAGE_OR_CURRENT No
   7.050276     -001    INVERTER_OVER_TEMP      No
   7.050308     0003    OUTPUT_OVERLOAD Yes
   7.050337     -001    RECTIFIER_INPUT_OVER_CURRENT    No
   7.050369     -001    INVERTER_OUTPUT_OVER_CURRENT    No
   7.050399     -001    DC_LINK_OVER_VOLTAGE    No
   7.050432     -001    DC_LINK_UNDER_VOLTAGE   No
   7.050462     -001    RECTIFIER_FAILED        No
   7.050493     0004    INVERTER_FAULT  Yes
   7.050523     -001    BATTERY_CONNECTOR_FAIL  No
   7.050554     -001    BYPASS_BREAKER_FAIL     No
   7.050584     0005    CHARGER_FAIL    Yes
   7.050615     -001    RAMP_UP_FAILED  No
   7.050651     -001    STATIC_SWITCH_FAILED    No
   7.050682     -001    ANALOG_AD_REF_FAIL      No
   7.050718     -001    BYPASS_UNCALIBRATED     No
   7.050748     -001    RECTIFIER_UNCALIBRATED  No
   7.050779     -001    OUTPUT_UNCALIBRATED     No
   7.050809     -001    INVERTER_UNCALIBRATED   No
   7.050840     -001    DC_VOLT_UNCALIBRATED    No
   7.050876     -001    OUTPUT_CURRENT_UNCALIBRATED     No
   7.050908     -001    RECTIFIER_CURRENT_UNCALIBRATED  No
   7.050939     -001    BATTERY_CURRENT_UNCALIBRATED    No
   7.050970     -001    INVERTER_ON_OFF_STAT_FAIL       No
   7.051000     -001    BATTERY_CURRENT_LIMIT   No
   7.051030     -001    INVERTER_STARTUP_FAIL   No
   7.051061     -001    ANALOG_BOARD_AD_STAT_FAIL       No
   7.051092     -001    OUTPUT_CURRENT_OVER_100 No
   7.051124     -001    BATTERY_GROUND_FAULT    No
   7.051153     -001    WAITING_FOR_CHARGER_SYNC        No
   7.051185     -001    NV_RAM_FAIL     No
   7.051215     -001    ANALOG_BOARD_AD_TIMEOUT No
   7.051248     0006    SHUTDOWN_IMMINENT       Yes
   7.051277     0007    BATTERY_LOW     Yes
   7.051313     0008    UTILITY_FAIL    Yes
   7.051343     -001    OUTPUT_SHORT_CIRCUIT    No
   7.051374     0009    UTILITY_NOT_PRESENT     Yes
   7.051407     -001    FULL_TIME_CHARGING      No
   7.051439     -001    FAST_BYPASS_COMMAND     No
   7.051470     -001    AD_ERROR        No
   7.051502     -001    INTERNAL_COM_FAIL       No
   7.051534     -001    RECTIFIER_SELFTEST_FAIL No
   7.051570     -001    RECTIFIER_EEPROM_FAIL   No
   7.051601     -001    RECTIFIER_EPROM_FAIL    No
   7.051632     -001    INPUT_LINE_VOLTAGE_LOSS No
   7.051665     -001    BATTERY_DC_OVER_VOLTAGE No
   7.051696     -001    POWER_SUPPLY_OVER_TEMP  No
   7.051732     -001    POWER_SUPPLY_FAIL       No
   7.051764     -001    POWER_SUPPLY_5V_FAIL    No
   7.051794     -001    POWER_SUPPLY_12V_FAIL   No
   7.051828     -001    HEATSINK_OVER_TEMP      No
   7.051859     -001    HEATSINK_TEMP_SENSOR_FAIL       No
   7.051888     -001    RECTIFIER_CURRENT_OVER_125      No
   7.051920     -001    RECTIFIER_FAULT_INTERRUPT_FAIL  No
   7.051949     -001    RECTIFIER_POWER_CAPASITOR_FAIL  No
   7.051982     -001    INVERTER_PROGRAM_STACK_ERROR    No
   7.052011     -001    INVERTER_BOARD_SELFTEST_FAIL    No
   7.052043     -001    INVERTER_AD_SELFTEST_FAIL       No
   7.052073     -001    INVERTER_RAM_SELFTEST_FAIL      No
   7.052105     -001    NV_MEMORY_CHECKSUM_FAIL No
   7.052135     -001    PROGRAM_CHECKSUM_FAIL   No
   7.052167     -001    INVERTER_CPU_SELFTEST_FAIL      No
   7.052196     -001    NETWORK_NOT_RESPONDING  No
   7.052228     -001    FRONT_PANEL_SELFTEST_FAIL       No
   7.052265     -001    NODE_EEPROM_VERIFICATION_ERROR  No
   7.052288     -001    OUTPUT_AC_OVER_VOLT_TEST_FAIL   No
   7.052307     -001    OUTPUT_DC_OVER_VOLTAGE  No
   7.052327     -001    INPUT_PHASE_ROTATION_ERROR      No
   7.052346     -001    INVERTER_RAMP_UP_TEST_FAILED    No
   7.052366     -001    INVERTER_OFF_COMMAND    No
   7.052385     -001    INVERTER_ON_COMMAND     No
   7.052404     -001    TO_BYPASS_COMMAND       No
   7.052424     -001    FROM_BYPASS_COMMAND     No
   7.052443     -001    AUTO_MODE_COMMAND       No
   7.052462     -001    EMERGENCY_SHUTDOWN_COMMAND      No
   7.052481     -001    SETUP_SWITCH_OPEN       No
   7.052500     -001    INVERTER_OVER_VOLT_INT  No
   7.052519     -001    INVERTER_UNDER_VOLT_INT No
   7.052539     -001    ABSOLUTE_DCOV_ACOV      No
   7.052558     -001    PHASE_A_CURRENT_LIMIT   No
   7.052577     -001    PHASE_B_CURRENT_LIMIT   No
   7.281008     -001    PHASE_C_CURRENT_LIMIT   No
   7.281054     -001    BYPASS_NOT_AVAILABLE    No
   7.281104     -001    RECTIFIER_BREAKER_OPEN  No
   7.281147     -001    BATTERY_CONTACTOR_OPEN  No
   7.281213     -001    INVERTER_CONTACTOR_OPEN No
   7.281248     -001    BYPASS_BREAKER_OPEN     No
   7.281296     -001    INV_BOARD_ACOV_INT_TEST_FAIL    No
   7.281337     -001    INVERTER_OVER_TEMP_TRIP No
   7.281381     -001    INV_BOARD_ACUV_INT_TEST_FAIL    No
   7.281423     -001    INVERTER_VOLTAGE_FEEDBACK_ERROR No
   7.281476     -001    DC_UNDER_VOLTAGE_TIMEOUT        No
   7.281508     -001    AC_UNDER_VOLTAGE_TIMEOUT        No
   7.281565     -001    DC_UNDER_VOLTAGE_WHILE_CHARGE   No
   7.281596     -001    INVERTER_VOLTAGE_BIAS_ERROR     No
   7.281644     -001    RECTIFIER_PHASE_ROTATION        No
   7.281686     -001    BYPASS_PHASER_ROTATION  No
   7.281742     -001    SYSTEM_INTERFACE_BOARD_FAIL     No
   7.281774     -001    PARALLEL_BOARD_FAIL     No
   7.281822     -001    LOST_LOAD_SHARING_PHASE_A       No
   7.281915     -001    LOST_LOAD_SHARING_PHASE_B       No
   7.281973     -001    LOST_LOAD_SHARING_PHASE_C       No
   7.282015     -001    DC_OVER_VOLTAGE_TIMEOUT No
   7.282073     0010    BATTERY_TOTALLY_DISCHARGED      Yes
   7.282128     -001    INVERTER_PHASE_BIAS_ERROR       No
   7.282168     -001    INVERTER_VOLTAGE_BIAS_ERROR_2   No
   7.282220     -001    DC_LINK_BLEED_COMPLETE  No
   7.282259     -001    LARGE_CHARGER_INPUT_CURRENT     No
   7.282314     -001    INV_VOLT_TOO_LOW_FOR_RAMP_LEVEL No
   7.282371     -001    LOSS_OF_REDUNDANCY      No
   7.282411     -001    LOSS_OF_SYNC_BUS        No
   7.282464     -001    RECTIFIER_BREAKER_SHUNT_TRIP    No
   7.282503     -001    LOSS_OF_CHARGER_SYNC    No
   7.282559     -001    INVERTER_LOW_LEVEL_TEST_TIMEOUT No
   7.282613     -001    OUTPUT_BREAKER_OPEN     No
   7.282658     -001    CONTROL_POWER_ON        No
   7.282718     -001    INVERTER_ON     No
   7.282750     -001    CHARGER_ON      No
   7.282795     -001    BYPASS_ON       No
   7.282843     -001    BYPASS_POWER_LOSS       No
   7.282886     -001    ON_MANUAL_BYPASS        No
   7.282926     -001    BYPASS_MANUAL_TURN_OFF  No
   7.282977     -001    INVERTER_BLEEDING_DC_LINK_VOLT  No
   7.283009     -001    CPU_ISR_ERROR   No
   7.283059     -001    SYSTEM_ISR_RESTART      No
   7.283116     -001    PARALLEL_DC     No
   7.283161     -001    BATTERY_NEEDS_SERVICE   No
   7.283204     -001    BATTERY_CHARGING        No
   7.283270     -001    BATTERY_NOT_CHARGED     No
   7.283312     -001    DISABLED_BATTERY_TIME   No
   7.283363     -001    SERIES_7000_ENABLE      No
   7.283401     -001    OTHER_UPS_ON    No
   7.283461     -001    PARALLEL_INVERTER       No
   7.283518     -001    UPS_IN_PARALLEL No
   7.283557     -001    OUTPUT_BREAKER_REALY_FAIL       No
   7.283615     -001    CONTROL_POWER_OFF       No
   7.283647     -001    LEVEL_2_OVERLOAD_PHASE_A        No
   7.283698     -001    LEVEL_2_OVERLOAD_PHASE_B        No
   7.283752     -001    LEVEL_2_OVERLOAD_PHASE_C        No
   7.283793     -001    LEVEL_3_OVERLOAD_PHASE_A        No
   7.283845     -001    LEVEL_3_OVERLOAD_PHASE_B        No
   7.283885     -001    LEVEL_3_OVERLOAD_PHASE_C        No
   7.283940     -001    LEVEL_4_OVERLOAD_PHASE_A        No
   7.283998     -001    LEVEL_4_OVERLOAD_PHASE_B        No
   7.284037     -001    LEVEL_4_OVERLOAD_PHASE_C        No
   7.284097     0011    UPS_ON_BATTERY  Yes
   7.284129     -001    UPS_ON_BYPASS   No
   7.284184     0012    LOAD_DUMPED     Yes
   7.284239     -001    LOAD_ON_INVERTER        No
   7.284279     -001    UPS_ON_COMMAND  No
   7.284342     -001    UPS_OFF_COMMAND No
   7.284398     -001    LOW_BATTERY_SHUTDOWN    No
   7.284437     -001    AUTO_ON_ENABLED No
   7.284495     -001    SOFTWARE_INCOMPABILITY_DETECTED No
   7.284527     -001    INVERTER_TEMP_SENSOR_FAILED     No
   7.284578     -001    DC_START_OCCURED        No
   7.284633     -001    IN_PARALLEL_OPERATION   No
   7.284696     -001    SYNCING_TO_BYPASS       No
   7.284728     -001    RAMPING_UPS_UP  No
   7.284747     -001    INVERTER_ON_DELAY       No
   7.284766     -001    CHARGER_ON_DELAY        No
   7.284786     -001    WAITING_FOR_UTIL_INPUT  No
   7.284805     -001    CLOSE_BYPASS_BREAKER    No
   7.284824     -001    TEMPORARY_BYPASS_OPERATION      No
   7.284844     -001    SYNCING_TO_OUTPUT       No
   7.284863     -001    BYPASS_FAILURE  No
   7.284883     -001    AUTO_OFF_COMMAND_EXECUTED       No
   7.284902     -001    AUTO_ON_COMMAND_EXECUTED        No
   7.284921     0013    BATTERY_TEST_FAILED     Yes
   7.284941     -001    FUSE_FAIL       No
   7.284959     0014    FAN_FAIL        Yes
   7.284978     -001    SITE_WIRING_FAULT       No
   7.284997     -001    BACKFEED_CONTACTOR_FAIL No
   7.285016     -001    ON_BUCK No
   7.285035     -001    ON_BOOST        No
   7.285054     -001    ON_DOUBLE_BOOST No
   7.350243     -001    BATTERIES_DISCONNECTED  No
   7.350282     -001    UPS_CABINET_OVER_TEMP   No
   7.350329     -001    TRANSFORMER_OVER_TEMP   No
   7.350372     -001    AMBIENT_UNDER_TEMP      No
   7.350429     0015    AMBIENT_OVER_TEMP       Yes
   7.350467     -001    CABINET_DOOR_OPEN       No
   7.350532     -001    CABINET_DOOR_OPEN_VOLT_PRESENT  No
   7.350588     -001    AUTO_SHUTDOWN_PENDING   No
   7.350633     -001    TAP_SWITCHING_REALY_PENDING     No
   7.350677     -001    UNABLE_TO_CHARGE_BATTERIES      No
   7.350744     -001    STARTUP_FAILURE_CHECK_EPO       No
   7.350789     -001    AUTOMATIC_STARTUP_PENDING       No
   7.350839     -001    MODEM_FAILED    No
   7.350879     -001    INCOMING_MODEM_CALL_STARTED     No
   7.350936     -001    OUTGOING_MODEM_CALL_STARTED     No
   7.350992     -001    MODEM_CONNECTION_ESTABLISHED    No
   7.351035     -001    MODEM_CALL_COMPLETED_SUCCESS    No
   7.351096     

   7.351126     Length of Config_block: 80

   7.351180     Length of statistics map: 0

   7.351234     Length of command list: 26

   7.351274     Length of outlet_block: 14

   7.351329     Length of alarm_block: 16

   8.366993     entering get_answer(41)
   8.367115     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
   8.367188      01 00 ab
   8.367219     get_answer: block_number = 11
   8.367251     get_answer: data length = 14
   8.367294     get_answer: sequence number (1) is ok
   8.367325     get_answer: checksum is ok
   8.367373     get_answer: all data received
   8.367402     get_answer: exiting (len=14)
   8.367457     init_outlet(14), res=14
   8.367489     Number of outlets: 2

   8.367540     Number of bytes: 6

   8.367575     Outlet number: 1

   8.367643     send_to_all: SETINFO outlet.1.id "1"
   8.367676     Outlet state: 1

   8.367731     send_to_all: SETINFO outlet.1.status "On"
   8.367762     Auto delay off: -1

   8.367818     send_to_all: SETINFO outlet.1.delay.shutdown "-1"
   8.367848     Auto delay on: 0

   8.367904     send_to_all: SETINFO outlet.1.delay.start "0"
   8.367939     Outlet number: 2

   8.367993     send_to_all: SETINFO outlet.2.id "2"
   8.368026     Outlet state: 1

   8.368080     send_to_all: SETINFO outlet.2.status "On"
   8.368113     Auto delay off: -1

   8.368169     send_to_all: SETINFO outlet.2.delay.shutdown "-1"
   8.368199     Auto delay on: 1

   8.368254     send_to_all: SETINFO outlet.2.delay.start "1"
   8.368298     send_to_all: ADDCMD outlet.1.shutdown.return
   8.368339     send_to_all: ADDCMD outlet.2.shutdown.return
   9.387018     entering get_answer(36)
  14.386974     get_answer: exiting (len=0)
  15.407145     entering get_answer(36)
  15.407271     get_answer: (85 bytes) => ab 06 50 81 23 01 ce c7 00 17 f4 
01 78 00 3c 00
  15.407393      00 00 00 33 ba 00 00 00 00 00 17 0d a3 00 01 00 00 00 04 
08 00 00 00 00 20
  15.407494      01 02 01 00 00 00 00 00 00 00 1f 31 30 33 30 30 33 32 36 
39 2d 36 35 39 31
  15.407577      20 20 47 45 31 36 31 41 31 30 37 36 00 00 20 20 20 20 44
  15.407629     get_answer: block_number = 6
  15.407660     get_answer: data length = 80
  15.407694     get_answer: sequence number (1) is ok
  15.407734     get_answer: checksum is ok
  15.407763     get_answer: all data received
  15.407814     get_answer: exiting (len=80)
  15.407862     send_to_all: SETINFO output.voltage.nominal "120"
  15.407919     send_to_all: SETINFO ups.serial "GE161A1076"
  16.427176     entering get_answer(3c)
  16.427274     get_answer: (36 bytes) => ab 0c 1f 81 78 00 3c 00 0a 00 43 
30 f4 01 6c 00
  16.427366      7f 00 00 00 02 01 65 00 8b 00 00 00 00 00 4b 01 01 00 00 
58
  16.427405     get_answer: block_number = c
  16.427428     get_answer: data length = 31
  16.427450     get_answer: sequence number (1) is ok
  16.427486     get_answer: checksum is ok
  16.427508     get_answer: all data received
  16.427546     get_answer: exiting (len=31)
  16.427580     send_to_all: SETINFO input.voltage.nominal "120"
  16.427625     send_to_all: SETINFO input.frequency.nominal "60"
  16.427679     send_to_all: SETINFO input.frequency.low "55"
  16.427711     send_to_all: SETINFO input.frequency.high "65"
  16.427755     send_to_all: SETINFO input.transfer.boost.high "108"
  16.427786     send_to_all: SETINFO input.transfer.trim.low "127"
  16.427826     send_to_all: SETINFO ups.beeper.status "enabled"
  16.427868     send_to_all: SETINFO input.transfer.low "101"
  16.427951     send_to_all: SETINFO input.transfer.high "139"
  16.427978     send_to_all: SETINFO ambient.temperature.high "75"
  16.428020     entering init_command_map()
  17.447142     entering get_answer(40)
  17.447219     get_answer: (31 bytes) => ab 10 1a 81 18 01 31 33 34 35 36 
3b 3c 3f 40 41
  17.447305      42 43 89 8a 8b 91 93 95 97 98 a0 b1 b2 cf 7a
  17.447329     get_answer: block_number = 10
  17.447367     get_answer: data length = 26
  17.447388     get_answer: sequence number (1) is ok
  17.447428     get_answer: checksum is ok
  17.447446     get_answer: all data received
  17.447472     get_answer: exiting (len=26)
  17.447501     Command list block supported.
  17.447531     send_to_all: ADDCMD shutdown.return
  17.447575     send_to_all: ADDCMD shutdown.stayoff
  17.447619     send_to_all: ADDCMD test.battery.start
  18.467215     entering get_answer(34)
  18.467331     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
  18.467464      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
  18.467555      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
  18.467607     get_answer: block_number = 4
  18.467637     get_answer: data length = 56
  18.467671     get_answer: sequence number (1) is ok
  18.467712     get_answer: checksum is ok
  18.467741     get_answer: all data received
  18.467791     get_answer: exiting (len=56)
  18.467842     send_to_all: SETINFO ups.power "3"
  18.467950     send_to_all: SETINFO output.frequency "60.00"
  18.468009     send_to_all: SETINFO input.frequency "60.00"
  18.468072     send_to_all: SETINFO battery.voltage "25.90"
  18.468141     send_to_all: SETINFO battery.charge "94"
  18.468191     send_to_all: SETINFO battery.runtime "7082"
  18.468237     send_to_all: SETINFO input.voltage "119"
  18.468308     send_to_all: SETINFO ambient.temperature "39"
  18.468360     send_to_all: SETINFO output.current " 0.0"
  18.468412     send_to_all: SETINFO output.current.nominal " 6.8"
  18.468477     send_to_all: SETINFO output.voltage "119"
  18.468614     send_to_all: SETINFO ups.load "  0.4"
  19.487221     entering get_answer(41)
  19.487326     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
  19.487405      01 00 ab
  19.487435     get_answer: block_number = 11
  19.487466     get_answer: data length = 14
  19.487510     get_answer: sequence number (1) is ok
  19.487552     get_answer: checksum is ok
  19.487592     get_answer: all data received
  19.487623     get_answer: exiting (len=14)
  19.487673     init_outlet(14), res=14
  19.487702     Number of outlets: 2

  19.487755     Number of bytes: 6

  19.487788     Outlet number: 1

  19.487849     Outlet state: 1

  19.487890     Auto delay off: -1

  19.487940     Auto delay on: 0

  19.487983     Outlet number: 2

  19.488023     Outlet state: 1

  19.488067     Auto delay off: -1

  19.488107     Auto delay on: 1

  20.507226     entering get_answer(35)
  25.507211     get_answer: exiting (len=0)
  26.527375     entering get_answer(35)
  26.527478     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
  26.527562      00 00 00 00 bf
  26.527593     get_answer: block_number = 5
  26.527624     get_answer: data length = 16
  26.527666     get_answer: sequence number (1) is ok
  26.527699     get_answer: checksum is ok
  26.527750     get_answer: all data received
  26.527788     get_answer: exiting (len=16)
  27.547392     entering get_answer(33)
  27.547492     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
  27.547575     get_answer: block_number = 3
  27.547618     get_answer: data length = 4
  27.547674     get_answer: sequence number (1) is ok
  27.547712     get_answer: checksum is ok
  27.547760     get_answer: all data received
  27.547811     get_answer: exiting (len=4)
  27.547880     send_to_all: SETINFO ups.status "OL"
  27.547925     send_to_all: DATAOK
  27.548478     dstate_init: sock /var/db/nut/bcmxcp_usb-eaton open on fd 6
  27.548529     send_to_all: SETINFO driver.parameter.pollinterval "2"
  27.548574     send_to_all: SETINFO device.mfr "Eaton"
  27.548661     send_to_all: SETINFO device.model "PW5115 RM 750i"
  27.548736     send_to_all: SETINFO device.serial "GE161A1076"
  28.567418     entering get_answer(34)
  33.567384     get_answer: exiting (len=0)
  34.587548     entering get_answer(34)
  34.587667     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
  34.587800      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 76 00 00 
00 00 00 00 00 27
  34.587890      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 76 00 00 00 
82
  34.587931     get_answer: block_number = 4
  34.587973     get_answer: data length = 56
  34.588032     get_answer: sequence number (1) is ok
  34.588086     get_answer: checksum is ok
  34.588154     get_answer: all data received
  34.588188     get_answer: exiting (len=56)
  34.588321     send_to_all: SETINFO input.voltage "118"
  34.588414     send_to_all: SETINFO output.voltage "118"
  35.607550     entering get_answer(41)
  35.607668     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
  35.607733      01 00 ab
  35.607763     get_answer: block_number = 11
  35.607794     get_answer: data length = 14
  35.607837     get_answer: sequence number (1) is ok
  35.607866     get_answer: checksum is ok
  35.607915     get_answer: all data received
  35.607944     get_answer: exiting (len=14)
  35.607998     init_outlet(14), res=14
  35.608038     Number of outlets: 2

  35.608088     Number of bytes: 6

  35.608130     Outlet number: 1

  35.608180     Outlet state: 1

  35.608221     Auto delay off: -1

  35.608261     Auto delay on: 0

  35.608302     Outlet number: 2

  35.608343     Outlet state: 1

  35.608380     Auto delay off: -1

  35.608431     Auto delay on: 1

  36.627586     entering get_answer(35)
  36.627703     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
  36.627787      00 00 00 00 bf
  36.627821     get_answer: block_number = 5
  36.627871     get_answer: data length = 16
  36.627912     get_answer: sequence number (1) is ok
  36.627951     get_answer: checksum is ok
  36.628011     get_answer: all data received
  36.628049     get_answer: exiting (len=16)
  37.647608     entering get_answer(33)
  37.647700     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
  37.647736     get_answer: block_number = 3
  37.647805     get_answer: data length = 4
  37.647839     get_answer: sequence number (1) is ok
  37.647889     get_answer: checksum is ok
  37.647921     get_answer: all data received
  37.647971     get_answer: exiting (len=4)
  38.667646     entering get_answer(34)
  43.667606     get_answer: exiting (len=0)
  44.687771     entering get_answer(34)
  44.687891     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
  44.688011      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
  44.688094      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
  44.688145     get_answer: block_number = 4
  44.688178     get_answer: data length = 56
  44.688208     get_answer: sequence number (1) is ok
  44.688249     get_answer: checksum is ok
  44.688280     get_answer: all data received
  44.688331     get_answer: exiting (len=56)
  44.688439     send_to_all: SETINFO input.voltage "119"
  44.688540     send_to_all: SETINFO output.voltage "119"
  45.707952     entering get_answer(41)
  45.708058     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
  45.708139      01 00 ab
  45.708170     get_answer: block_number = 11
  45.708199     get_answer: data length = 14
  45.708250     get_answer: sequence number (1) is ok
  45.708283     get_answer: checksum is ok
  45.708334     get_answer: all data received
  45.708371     get_answer: exiting (len=14)
  45.708421     init_outlet(14), res=14
  45.708453     Number of outlets: 2

  45.708504     Number of bytes: 6

  45.708535     Outlet number: 1

  45.708594     Outlet state: 1

  45.708634     Auto delay off: -1

  45.708675     Auto delay on: 0

  45.708717     Outlet number: 2

  45.708757     Outlet state: 1

  45.708794     Auto delay off: -1

  45.708845     Auto delay on: 1

  46.727821     entering get_answer(35)
  46.727930     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
  46.728015      00 00 00 00 bf
  46.728047     get_answer: block_number = 5
  46.728079     get_answer: data length = 16
  46.728122     get_answer: sequence number (1) is ok
  46.728163     get_answer: checksum is ok
  46.728203     get_answer: all data received
  46.728236     get_answer: exiting (len=16)
  47.747829     entering get_answer(33)
  52.747797     get_answer: exiting (len=0)
  53.767949     entering get_answer(33)
  53.768051     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
  53.768129     get_answer: block_number = 3
  53.768167     get_answer: data length = 4
  53.768202     get_answer: sequence number (1) is ok
  53.768243     get_answer: checksum is ok
  53.768282     get_answer: all data received
  53.768323     get_answer: exiting (len=4)
  54.787980     entering get_answer(34)
  54.788097     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
  54.788226      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
  54.788310      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
  54.788361     get_answer: block_number = 4
  54.788392     get_answer: data length = 56
  54.788424     get_answer: sequence number (1) is ok
  54.788464     get_answer: checksum is ok
  54.788493     get_answer: all data received
  54.788544     get_answer: exiting (len=56)
  55.807998     entering get_answer(41)
  55.808106     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
  55.808185      01 00 ab
  55.808216     get_answer: block_number = 11
  55.808249     get_answer: data length = 14
  55.808293     get_answer: sequence number (1) is ok
  55.808323     get_answer: checksum is ok
  55.808372     get_answer: all data received
  55.808404     get_answer: exiting (len=14)
  55.808459     init_outlet(14), res=14
  55.808488     Number of outlets: 2

  55.808541     Number of bytes: 6

  55.808574     Outlet number: 1

  55.808635     Outlet state: 1

  55.808683     Auto delay off: -1

  55.808726     Auto delay on: 0

  55.808771     Outlet number: 2

  55.808810     Outlet state: 1

  55.808853     Auto delay off: -1

  55.808894     Auto delay on: 1

  56.828022     entering get_answer(35)
  56.828130     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
  56.828212      00 00 00 00 bf
  56.828243     get_answer: block_number = 5
  56.828273     get_answer: data length = 16
  56.828317     get_answer: sequence number (1) is ok
  56.828349     get_answer: checksum is ok
  56.828397     get_answer: all data received
  56.828427     get_answer: exiting (len=16)
  57.848051     entering get_answer(33)
  62.848015     get_answer: exiting (len=0)
  63.868182     entering get_answer(33)
  63.868284     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
  63.868363     get_answer: block_number = 3
  63.868405     get_answer: data length = 4
  63.868462     get_answer: sequence number (1) is ok
  63.868499     get_answer: checksum is ok
  63.868539     get_answer: all data received
  63.868578     get_answer: exiting (len=4)
  64.888188     entering get_answer(34)
  64.888305     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
  64.888423      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
  64.888504      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
  64.888554     get_answer: block_number = 4
  64.888587     get_answer: data length = 56
  64.888622     get_answer: sequence number (1) is ok
  64.888662     get_answer: checksum is ok
  64.888700     get_answer: all data received
  64.888741     get_answer: exiting (len=56)
  65.908228     entering get_answer(41)
  65.908345     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
  65.908416      01 00 ab
  65.908447     get_answer: block_number = 11
  65.908476     get_answer: data length = 14
  65.908520     get_answer: sequence number (1) is ok
  65.908560     get_answer: checksum is ok
  65.908599     get_answer: all data received
  65.908632     get_answer: exiting (len=14)
  65.908682     init_outlet(14), res=14
  65.908710     Number of outlets: 2

  65.908763     Number of bytes: 6

  65.908795     Outlet number: 1

  65.908856     Outlet state: 1

  65.908898     Auto delay off: -1

  65.908949     Auto delay on: 0

  65.908986     Outlet number: 2

  65.909036     Outlet state: 1

  65.909079     Auto delay off: -1

  65.909120     Auto delay on: 1

  66.928268     entering get_answer(35)
  71.928209     get_answer: exiting (len=0)
  72.948351     entering get_answer(35)
  72.948437     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
  72.948471      00 00 00 00 bf
  72.948512     get_answer: block_number = 5
  72.948540     get_answer: data length = 16
  72.948579     get_answer: sequence number (1) is ok
  72.948600     get_answer: checksum is ok
  72.948644     get_answer: all data received
  72.948675     get_answer: exiting (len=16)
  73.968410     entering get_answer(33)
  73.968510     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
  73.968545     get_answer: block_number = 3
  73.968616     get_answer: data length = 4
  73.968652     get_answer: sequence number (1) is ok
  73.968701     get_answer: checksum is ok
  73.968743     get_answer: all data received
  73.968785     get_answer: exiting (len=4)
  74.988416     entering get_answer(34)
  74.988520     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
  74.988656      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
  74.988737      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
  74.988787     get_answer: block_number = 4
  74.988822     get_answer: data length = 56
  74.988851     get_answer: sequence number (1) is ok
  74.988892     get_answer: checksum is ok
  74.988923     get_answer: all data received
  74.988974     get_answer: exiting (len=56)
  76.008441     entering get_answer(41)
  76.008552     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
  76.008635      01 00 ab
  76.008677     get_answer: block_number = 11
  76.008736     get_answer: data length = 14
  76.008791     get_answer: sequence number (1) is ok
  76.008828     get_answer: checksum is ok
  76.008868     get_answer: all data received
  76.008906     get_answer: exiting (len=14)
  76.008955     init_outlet(14), res=14
  76.008985     Number of outlets: 2

  76.009026     Number of bytes: 6

  76.009065     Outlet number: 1

  76.009123     Outlet state: 1

  76.009185     Auto delay off: -1

  76.009264     Auto delay on: 0

  76.009319     Outlet number: 2

  76.009391     Outlet state: 1

  76.009450     Auto delay off: -1

  76.009495     Auto delay on: 1

  77.028468     entering get_answer(35)
  82.028428     get_answer: exiting (len=0)
  83.048593     entering get_answer(35)
  83.048704     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
  83.048803      00 00 00 00 bf
  83.048833     get_answer: block_number = 5
  83.048884     get_answer: data length = 16
  83.048923     get_answer: sequence number (1) is ok
  83.048961     get_answer: checksum is ok
  83.049021     get_answer: all data received
  83.049068     get_answer: exiting (len=16)
  84.068596     entering get_answer(33)
  84.068698     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
  84.068769     get_answer: block_number = 3
  84.068802     get_answer: data length = 4
  84.068832     get_answer: sequence number (1) is ok
  84.068883     get_answer: checksum is ok
  84.068914     get_answer: all data received
  84.068965     get_answer: exiting (len=4)
  85.088622     entering get_answer(34)
  85.088727     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
  85.088859      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
  85.088948      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
  85.088998     get_answer: block_number = 4
  85.089032     get_answer: data length = 56
  85.089066     get_answer: sequence number (1) is ok
  85.089106     get_answer: checksum is ok
  85.089148     get_answer: all data received
  85.089190     get_answer: exiting (len=56)
  86.108652     entering get_answer(41)
  86.108768     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
  86.108847      01 00 ab
  86.108877     get_answer: block_number = 11
  86.108929     get_answer: data length = 14
  86.108968     get_answer: sequence number (1) is ok
  86.109014     get_answer: checksum is ok
  86.109042     get_answer: all data received
  86.109091     get_answer: exiting (len=14)
  86.109123     init_outlet(14), res=14
  86.109152     Number of outlets: 2

  86.109193     Number of bytes: 6

  86.109222     Outlet number: 1

  86.109280     Outlet state: 1

  86.109322     Auto delay off: -1

  86.109372     Auto delay on: 0

  86.109414     Outlet number: 2

  86.109455     Outlet state: 1

  86.109498     Auto delay off: -1

  86.109538     Auto delay on: 1

  87.128658     entering get_answer(35)
  92.128644     get_answer: exiting (len=0)
  93.148812     entering get_answer(35)
  93.148919     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
  93.149006      00 00 00 00 bf
  93.149042     get_answer: block_number = 5
  93.149095     get_answer: data length = 16
  93.149134     get_answer: sequence number (1) is ok
  93.149182     get_answer: checksum is ok
  93.149227     get_answer: all data received
  93.149269     get_answer: exiting (len=16)
  94.168819     entering get_answer(33)
  94.168919     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
  94.168991     get_answer: block_number = 3
  94.169033     get_answer: data length = 4
  94.169088     get_answer: sequence number (1) is ok
  94.169149     get_answer: checksum is ok
  94.169188     get_answer: all data received
  94.169229     get_answer: exiting (len=4)
  95.188841     entering get_answer(34)
  95.188948     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
  95.189090      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
  95.189168      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
  95.189220     get_answer: block_number = 4
  95.189250     get_answer: data length = 56
  95.189285     get_answer: sequence number (1) is ok
  95.189325     get_answer: checksum is ok
  95.189357     get_answer: all data received
  95.189407     get_answer: exiting (len=56)
  96.208868     entering get_answer(41)
  96.208973     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
  96.209056      01 00 ab
  96.209087     get_answer: block_number = 11
  96.209118     get_answer: data length = 14
  96.209162     get_answer: sequence number (1) is ok
  96.209193     get_answer: checksum is ok
  96.209242     get_answer: all data received
  96.209273     get_answer: exiting (len=14)
  96.209332     init_outlet(14), res=14
  96.209366     Number of outlets: 2

  96.209416     Number of bytes: 6

  96.209448     Outlet number: 1

  96.209507     Outlet state: 1

  96.209547     Auto delay off: -1

  96.209588     Auto delay on: 0

  96.209631     Outlet number: 2

  96.209670     Outlet state: 1

  96.209707     Auto delay off: -1

  96.209757     Auto delay on: 1

  97.228894     entering get_answer(35)
  97.229002     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
  97.229084      00 00 00 00 bf
  97.229115     get_answer: block_number = 5
  97.229147     get_answer: data length = 16
  97.229192     get_answer: sequence number (1) is ok
  97.229231     get_answer: checksum is ok
  97.229271     get_answer: all data received
  97.229306     get_answer: exiting (len=16)
  98.248902     entering get_answer(33)
  98.249005     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
  98.249097     get_answer: block_number = 3
  98.249128     get_answer: data length = 4
  98.249180     get_answer: sequence number (1) is ok
  98.249221     get_answer: checksum is ok
  98.249262     get_answer: all data received
  98.249323     get_answer: exiting (len=4)
  99.268948     entering get_answer(34)
 104.268907     get_answer: exiting (len=0)
 105.289072     entering get_answer(34)
 105.289178     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
 105.289320      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 79 00 00 
00 00 00 00 00 27
 105.289411      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 79 00 00 00 
7c
 105.289461     get_answer: block_number = 4
 105.289491     get_answer: data length = 56
 105.289543     get_answer: sequence number (1) is ok
 105.289584     get_answer: checksum is ok
 105.289622     get_answer: all data received
 105.289660     get_answer: exiting (len=56)
 105.289799     send_to_all: SETINFO input.voltage "121"
 105.289902     send_to_all: SETINFO output.voltage "121"
 106.309096     entering get_answer(41)
 111.309060     get_answer: exiting (len=0)
 112.329225     entering get_answer(41)
 112.329333     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
 112.329412      01 00 ab
 112.329456     get_answer: block_number = 11
 112.329507     get_answer: data length = 14
 112.329579     get_answer: sequence number (1) is ok
 112.329631     get_answer: checksum is ok
 112.329673     get_answer: all data received
 112.329714     get_answer: exiting (len=14)
 112.329753     init_outlet(14), res=14
 112.329793     Number of outlets: 2

 112.329835     Number of bytes: 6

 112.329876     Outlet number: 1

 112.329926     Outlet state: 1

 112.329966     Auto delay off: -1

 112.330049     Auto delay on: 0

 112.330116     Outlet number: 2

 112.330181     Outlet state: 1

 112.330245     Auto delay off: -1

 112.330302     Auto delay on: 1

 113.349241     entering get_answer(35)
 113.349351     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
 113.349437      00 00 00 00 bf
 113.349467     get_answer: block_number = 5
 113.349497     get_answer: data length = 16
 113.349541     get_answer: sequence number (1) is ok
 113.349582     get_answer: checksum is ok
 113.349622     get_answer: all data received
 113.349657     get_answer: exiting (len=16)
 114.369257     entering get_answer(33)
 119.369227     get_answer: exiting (len=0)
 120.389398     entering get_answer(33)
 120.389504     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
 120.389581     get_answer: block_number = 3
 120.389615     get_answer: data length = 4
 120.389644     get_answer: sequence number (1) is ok
 120.389694     get_answer: checksum is ok
 120.389736     get_answer: all data received
 120.389778     get_answer: exiting (len=4)
 121.409404     entering get_answer(34)
 121.409508     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
 121.409641      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
 121.409725      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
 121.409775     get_answer: block_number = 4
 121.409808     get_answer: data length = 56
 121.409840     get_answer: sequence number (1) is ok
 121.409880     get_answer: checksum is ok
 121.409920     get_answer: all data received
 121.409960     get_answer: exiting (len=56)
 121.410070     send_to_all: SETINFO input.voltage "119"
 121.410167     send_to_all: SETINFO output.voltage "119"
 122.429439     entering get_answer(41)
 122.429546     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
 122.429631      01 00 ab
 122.429662     get_answer: block_number = 11
 122.429697     get_answer: data length = 14
 122.429740     get_answer: sequence number (1) is ok
 122.429770     get_answer: checksum is ok
 122.429818     get_answer: all data received
 122.429848     get_answer: exiting (len=14)
 122.429904     init_outlet(14), res=14
 122.429938     Number of outlets: 2

 122.429990     Number of bytes: 6

 122.430023     Outlet number: 1

 122.430082     Outlet state: 1

 122.430122     Auto delay off: -1

 122.430173     Auto delay on: 0

 122.430219     Outlet number: 2

 122.430259     Outlet state: 1

 122.430296     Auto delay off: -1

 122.430345     Auto delay on: 1

 123.449465     entering get_answer(35)
 123.449570     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
 123.449655      00 00 00 00 bf
 123.449685     get_answer: block_number = 5
 123.449740     get_answer: data length = 16
 123.449773     get_answer: sequence number (1) is ok
 123.449825     get_answer: checksum is ok
 123.449858     get_answer: all data received
 123.449909     get_answer: exiting (len=16)
 124.469479     entering get_answer(33)
 129.469448     get_answer: exiting (len=0)
 130.489612     entering get_answer(33)
 130.489715     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
 130.489789     get_answer: block_number = 3
 130.489823     get_answer: data length = 4
 130.489855     get_answer: sequence number (1) is ok
 130.489905     get_answer: checksum is ok
 130.489937     get_answer: all data received
 130.489988     get_answer: exiting (len=4)
 131.509622     entering get_answer(34)
 131.509740     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
 131.509871      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
 131.509964      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
 131.509997     get_answer: block_number = 4
 131.510041     get_answer: data length = 56
 131.510098     get_answer: sequence number (1) is ok
 131.510151     get_answer: checksum is ok
 131.510188     get_answer: all data received
 131.510229     get_answer: exiting (len=56)
 132.529653     entering get_answer(41)
 132.529762     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
 132.529842      01 00 ab
 132.529880     get_answer: block_number = 11
 132.529909     get_answer: data length = 14
 132.529952     get_answer: sequence number (1) is ok
 132.529980     get_answer: checksum is ok
 132.530029     get_answer: all data received
 132.530058     get_answer: exiting (len=14)
 132.530116     init_outlet(14), res=14
 132.530147     Number of outlets: 2

 132.530198     Number of bytes: 6

 132.530230     Outlet number: 1

 132.530287     Outlet state: 1

 132.530327     Auto delay off: -1

 132.530369     Auto delay on: 0

 132.530410     Outlet number: 2

 132.530449     Outlet state: 1

 132.530492     Auto delay off: -1

 132.530534     Auto delay on: 1

 133.549667     entering get_answer(35)
 133.549774     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
 133.549872      00 00 00 00 bf
 133.549933     get_answer: block_number = 5
 133.549973     get_answer: data length = 16
 133.550035     get_answer: sequence number (1) is ok
 133.550086     get_answer: checksum is ok
 133.550128     get_answer: all data received
 133.550177     get_answer: exiting (len=16)
 134.569692     entering get_answer(33)
 134.569794     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
 134.569870     get_answer: block_number = 3
 134.569907     get_answer: data length = 4
 134.569940     get_answer: sequence number (1) is ok
 134.569980     get_answer: checksum is ok
 134.570009     get_answer: all data received
 134.570059     get_answer: exiting (len=4)
 135.589697     entering get_answer(34)
 135.589799     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
 135.589927      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
 135.590018      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
 135.590070     get_answer: block_number = 4
 135.590102     get_answer: data length = 56
 135.590133     get_answer: sequence number (1) is ok
 135.590174     get_answer: checksum is ok
 135.590203     get_answer: all data received
 135.590255     get_answer: exiting (len=56)
 136.609738     entering get_answer(41)
 141.609709     get_answer: exiting (len=0)
 142.629873     entering get_answer(41)
 142.629993     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
 142.630071      01 00 ab
 142.630101     get_answer: block_number = 11
 142.630159     get_answer: data length = 14
 142.630220     get_answer: sequence number (1) is ok
 142.630262     get_answer: checksum is ok
 142.630311     get_answer: all data received
 142.630365     get_answer: exiting (len=14)
 142.630408     init_outlet(14), res=14
 142.630449     Number of outlets: 2

 142.630491     Number of bytes: 6

 142.630532     Outlet number: 1

 142.630581     Outlet state: 1

 142.630630     Auto delay off: -1

 142.630691     Auto delay on: 0

 142.630739     Outlet number: 2

 142.630786     Outlet state: 1

 142.630844     Auto delay off: -1

 142.630919     Auto delay on: 1

 143.649893     entering get_answer(35)
 143.650016     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
 143.650091      00 00 00 00 bf
 143.650122     get_answer: block_number = 5
 143.650175     get_answer: data length = 16
 143.650206     get_answer: sequence number (1) is ok
 143.650261     get_answer: checksum is ok
 143.650301     get_answer: all data received
 143.650344     get_answer: exiting (len=16)
 144.669916     entering get_answer(33)
 149.669881     get_answer: exiting (len=0)
 150.690032     entering get_answer(33)
 150.690134     get_answer: (9 bytes) => ab 03 04 81 50 82 00 00 fb
 150.690203     get_answer: block_number = 3
 150.690235     get_answer: data length = 4
 150.690267     get_answer: sequence number (1) is ok
 150.690317     get_answer: checksum is ok
 150.690349     get_answer: all data received
 150.690399     get_answer: exiting (len=4)
 151.710103     entering get_answer(34)
 151.710208     get_answer: (61 bytes) => ab 04 38 81 00 00 00 00 03 00 00 
00 00 00 70 42
 151.710337      00 00 70 42 00 30 cf 41 5e 00 00 00 aa 1b 00 00 77 00 00 
00 00 00 00 00 27
 151.710427      00 00 00 00 00 00 00 45 eb d9 40 ee 02 00 00 77 00 00 00 
80
 151.710477     get_answer: block_number = 4
 151.710507     get_answer: data length = 56
 151.710541     get_answer: sequence number (1) is ok
 151.710582     get_answer: checksum is ok
 151.710612     get_answer: all data received
 151.710669     get_answer: exiting (len=56)
 152.730089     entering get_answer(41)
 157.730055     get_answer: exiting (len=0)
 158.750225     entering get_answer(41)
 158.750348     get_answer: (19 bytes) => ab 11 0e 81 02 06 01 01 ff ff 00 
00 02 01 ff ff
 158.750448      01 00 ab
 158.750479     get_answer: block_number = 11
 158.750539     get_answer: data length = 14
 158.750591     get_answer: sequence number (1) is ok
 158.750628     get_answer: checksum is ok
 158.750677     get_answer: all data received
 158.750717     get_answer: exiting (len=14)
 158.750759     init_outlet(14), res=14
 158.750822     Number of outlets: 2

 158.750864     Number of bytes: 6

 158.750906     Outlet number: 1

 158.750956     Outlet state: 1

 158.751007     Auto delay off: -1

 158.751068     Auto delay on: 0

 158.751142     Outlet number: 2

 158.751200     Outlet state: 1

 158.751246     Auto delay off: -1

 158.751294     Auto delay on: 1

 159.770238     entering get_answer(35)
 164.770207     get_answer: exiting (len=0)
 165.790371     entering get_answer(35)
 165.790477     get_answer: (21 bytes) => ab 05 10 81 00 00 00 00 00 00 00 
00 00 00 00 00
 165.790577      00 00 00 00 bf
 165.790611     get_answer: block_number = 5
 165.790661     get_answer: data length = 16
 165.790702     get_answer: sequence number (1) is ok
 165.790740     get_answer: checksum is ok
 165.790779     get_answer: all data received
 165.790820     get_answer: exiting (len=16)
 165.796290     entering get_answer(33)
^C 238.217710   get_answer: exiting (len=0)
 239.231937     entering get_answer(33)
 244.231916     get_answer: exiting (len=0)
 244.236929     entering get_answer(33)
 250.950973     get_answer: exiting (len=0)
 251.962220     entering get_answer(33)
 251.962302     get_answer: (1 bytes) => fb
 251.962334     get_answer: wrong header
 252.982281     entering get_answer(33)
 253.833035     get_answer: exiting (len=0)
 253.833070     send_to_all: DATASTALE
 253.833091     Short read from UPS
 253.833141     Signal 2: exiting
 253.833266     CLOSING

# 



-- 
Public Keys:
PGP KeyID = 0x5F22FDC1
GnuPG KeyID = 0x620836CF




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