.. highlight:: rst .. _scwfparam: ######### scwfparam ######### **Waveform parametrization module.** Description =========== scwfparam is a SeisComP module that computes - peak ground acceleration (PGA) - peak ground velocity (PGV) - relative displacement elastic response spectrum (DRS) - pseudo absolute acceleration elastic response spectrum (PSA) in real-time or offline. It includes a process scheduler and handles reprocessing of data in a smart way. It supports ShakeMap XML output as documented in the `ShakeMap manual `_ each time a new set of data is available. Scheduling ========== When the module is not started in offline mode, the processing of events is scheduled following the configured rules. Parameters that influence the scheduling are: - :confval:`wfparam.cron.wakeupInterval` - :confval:`wfparam.cron.updateDelay` - :confval:`wfparam.cron.delayTimes` The wake-up interval specifies when the scheduler is called to check if a process is about to be started or stopped. The default is 10 seconds. The scheduler checks then all scheduled jobs, adds a job to the processing queue if the next run time is not in the future and removes all scheduled jobs with timestamps in the past. The process queue contains all jobs that are about to be executed. Because waveform acquisition is a time- and memory-costly operation only one process can run at a time. Once a process finished, the next process in the queue is executed (if any). When a process is started, it fetches the latest event parameters (origin time, magnitude, location). To add processes to the scheduler, the module distinguishes two cases: 1. Process creation (new event or updated event seen the first time) 2. Process update (event updates after an process has been created) Process creation ---------------- When a new event or an event update is received which does not have an associated process yet, a new process is created. The event time (Origin[Event.preferredOriginID].time) is used to build the default schedule according to :confval:`wfparam.cron.delayTimes`. .. code-block:: py for each time in wfparam.cron.delayTimes: add_cron_job(process, Origin[Event.preferredOriginID].time + time) Process update -------------- If a process for an event already exists, the next run time is the current time plus wfparam.cron.updateDelay. Before adding this job to the scheduler the application checks if the next scheduled runtime is at least :confval:`wfparam.cron.updateDelay` seconds after the new run time. If not, a new job is not addded to the scheduler. Pseudo code to illustrate the strategy is given below. .. code-block:: py event_updated(event): p = process_for_event(event) # The schedule for process p could be {T1,T2,T3,T4} now = get_current_time() next_run = now + wfparam.cron.updateDelay # Process currently suspended? if isEmpty(p.schedule): p.schedule.add(next_run) elif (p.schedule[0] - next_run) > wfparam.cron.updateDelay: p.schedule.prepend(next_run) else: # Do nothing, ignore the event update pass Processing ========== The processing can be divided into the following steps: - Collect all stations within the configured maximum distance (:confval:`wfparam.maximumEpicentralDistance` or :confval:`wfparam.magnitudeDistanceTable`) - Remove already processed channels - Find the velocity and acceleration stream with the highest sampling frequency - The sensor unit is used to distinguish between velocity and acceleration streams (M/S, M/S**2) - Use all allowed components (:confval:`wfparam.streams.whitelist`, :confval:`wfparam.streams.blacklist`) of each stream - Compute expected P arrival time if no pick is available - Start waveform acquisition - If the configured time window for one stream is complete, do (optional steps are written italic) - Check saturation depending on :confval:`wfparam.saturationThreshold` - Search maximum raw value (in counts) - Apply gain - Check STA/LTA threshold 5 seconds around P - *If velocity, differentiate data to acceleration* - *Compute pre-event cut-off if enabled* - Compute offset of pre-event time window - *Compute signal duration and check for aftershocks* - *Deconvolution using spectral division of FFT spectrum and transfer function* - *Apply optional sensitivity correction filter (lo-, hi- or bandpass)* - *Apply optional lo-pass, hi-pass or band-pass filter* - Compute PGA/PGV - Calculate response spectra - If acquisition finished - Collect all values (also recently processed values) - Results from velocity streams are always preferred over acceleration streams if both are available (eg. co-located stations) - Generate ShakeMap event and station XML - Unless :confval:`wfparam.output.shakeMap.maximumOfHorizontals` is set to true all processed streams are included in XML - Call ShakeMap script and pass eventID and event ID path The channel is considered to be processed if the last step succeeded. Waveform archival ================= If :confval:`wfparam.output.waveforms.enable` is set to true all processed waveforms are stored in the configured output directory :confval:`wfparam.output.waveforms.path`. The naming convention of a channel miniSEED file is: [EventDateTime]_[net]_[sta]_[loc][cha]_[filter][order]_[freqs].mseed If :confval:`wfparam.output.waveforms.withEventDirectory` is set to true, an event directory with the eventID is created additionally where the channel files are stored under. Either: .. code-block:: sh /path/to/waveforms/file1.mseed /path/to/waveforms/file2.mseed ... or .. code-block:: sh /path/to/waveforms/eventid/file1.mseed /path/to/waveforms/eventid/file2.mseed ... The miniSEED file contains uncompressed float 4096 byte records. Example: ================== ============================================== Event time 2011-11-21 08:30:00 Network: CH Station SNIB Location _ _ Channel HGZ Filter hi-pass Order 2 Corner frequencies 0.025 Filename **20111121083000_CH_SNIB_HGZ_HP2_0.025.mseed** ================== ============================================== Database ======== scwfparam can make use of the database schema extension for strong motion parameters. In order to prepare the database the extension schema must be applied. The database schema is installed in :file:`share/db/wfparam/*.sql`. Login into the database backend and source the .sql file corresponding to the used database backend. In order to enable :ref:`scmaster` to handle messages containing objects for strong motion parameters load the dmsm (data model strong motion) plugin as follows in scmaster.cfg: .. code-block:: sh plugins = ${plugins}, dmsm :ref:`scmaster` must be restarted to activate the plugin. To activate scwfparam to send messages with strong motion objects, set .. code-block:: sh wfparam.output.messaging = true in scwfparam.cfg. ShakeMaps ========= The ShakeMap XML is generated according the documentation of version 3.5 if :confval:`wfparam.output.shakeMap.enable` is set to true. Below an example is given of an event XML and a station XML. The data was generated from a playback and does **not** describe a **real event**. Event XML --------- .. code-block:: xml Station XML ----------- .. code-block:: xml Examples ======== #. Running scwfparam offline with a multiplexed miniseed volume, an event xml and an inventory xml file. A hi-pass filter of 0.1hz (10secs) is used. Processing starts immediately and the application finishes when processing is done. The scheduler is disabled in offline mode. .. code-block:: sh scwfparam --offline -I vallorcine.mseed \ --inventory-db vallorcine_inv.xml \ --ep vallorcine.xml -E "Vallorcine.2005.09.08" \ --lo-filter 0.1 --hi-filter 0 #. Running for a given event with scheduling enabled. Only the given event will be processed. .. code-block:: sh scwfparam -I arclink://localhost:18001 -E gfz2011oeej \ -d mysql://sysop:sysop@localhost/seiscomp #. For running in real-time it is enough to add the module to the client list of the trunk package in seiscomp config. #. Running with remote Arclink server To use a remote Arclink server it is enough to configure the record stream with -I: .. code-block:: sh scwfparam --offline -I vallorcine.mseed \ --inventory-db vallorcine_inv.xml \ --ep vallorcine.xml -E "Vallorcine.2005.09.08" \ -I "arclink://arclink.ethz.ch:18002" Note that the default acquisition timeout of 30 seconds might not be enough to get all the requested data. If necessary, increase the value with parameter :confval:`wfparam.acquisition.initialTimeout`. This can also be reached on command line: .. code-block:: sh scwfparam --offline -I vallorcine.mseed \ --inventory-db vallorcine_inv.xml \ --ep vallorcine.xml -E "Vallorcine.2005.09.08" \ -I "arclink://arclink.ethz.ch:18002" \ --wfparam.acquisition.initialTimeout=300 #. Running with remote Seedlink server To use a remote Seedlink server it is enough to configure the record stream with -I: .. code-block:: sh scwfparam --offline -I vallorcine.mseed \ --inventory-db vallorcine_inv.xml \ --ep vallorcine.xml -E "Vallorcine.2005.09.08" \ -I "slink://geofon.gfz-potsdam.de:18000" .. _scwfparam_configuration: Module Configuration ==================== | :file:`etc/defaults/global.cfg` | :file:`etc/defaults/scwfparam.cfg` | :file:`etc/global.cfg` | :file:`etc/scwfparam.cfg` | :file:`~/.seiscomp/global.cfg` | :file:`~/.seiscomp/scwfparam.cfg` scwfparam inherits :ref:`global options`. .. confval:: wfparam.logfile Default: ``@LOGDIR@/scwfparam-processing-info.log`` Type: *path* The path to the processing info logfile. .. confval:: wfparam.totalTimeWindowLength Default: ``360`` Type: *int* Unit: *s* Default value of total time window length in seconds if wfparam.magnitudeTimeWindowTable is not specified. This times window includes wfparam.preEventWindowLength. .. confval:: wfparam.magnitudeTimeWindowTable Type: *list:string* Magnitude dependent time window table. The format is \"mag1:secs1, mag2:secs2, mag3:secs3\". If a magnitude falls between two configured magnitudes the time window of the lower magnitude is used then. No interpolation is performed. Magnitude outside the configured range are clipped to the lowest\/highest value. Example: \"3:100, 4:200, 5:300\" .. confval:: wfparam.preEventWindowLength Default: ``60`` Type: *int* Unit: *s* The pre event time window length in seconds. .. confval:: wfparam.maximumEpicentralDistance Default: ``400`` Type: *int* Unit: *km* The maximum epicentral distance in km of a station being considered for processing. This value is used if wfparam.magnitudeDistanceTable is not specified. .. confval:: wfparam.magnitudeDistanceTable Type: *list:string* Analogue to wfparam.magnitudeTimeWindowTable but instead giving a time window, the distance in km is specified. Example: \"3:400, 4:450, 5:500\" .. confval:: wfparam.saturationThreshold Default: ``80`` Type: *double* Unit: *%* Relative saturation threshold in percent. If the absolute raw amplitude exceeds X% of 2\*\*23 counts the station will be excluded from processing. This assumes a 24bit datalogger. .. confval:: wfparam.STAlength Default: ``1`` Type: *double* Unit: *s* Specifies the STA length in seconds of the applied STA\/LTA check. .. confval:: wfparam.LTAlength Default: ``60`` Type: *double* Unit: *s* Specifies the LTA length in seconds of the applied STA\/LTA check. .. confval:: wfparam.STALTAratio Default: ``3`` Type: *double* Specifies the minimum STALTA ratio to be reached to further process a station. .. confval:: wfparam.STALTAmargin Default: ``5`` Type: *double* Unit: *s* Specifies the number of seconds around P to be used to check the STA\/LTA ratio. .. confval:: wfparam.durationScale Default: ``1.5`` Type: *double* Defines the factor applied to the signigicant duration to define the processing spetra time window. If that value is <\= 0 the totalTimeWindowLength is used. .. confval:: wfparam.dampings Default: ``5`` Type: *list:double* Unit: *%* Specifies a list of damping values \(in percent\) for computation of the relative displacement elastic response spectrum. Example: \"5,10,15\" .. confval:: wfparam.naturalPeriods Default: ``100`` Type: *int* Specifies the number of natural periods for computation of the relative displacement elastic response spectrum between Tmin and Tmax. If fixed is given then a fixed list of periods is used. .. confval:: wfparam.Tmin Default: ``0`` Type: *double* Unit: *s* Specifies the minimum period \(Tmin\) in seconds for computation of the relative displacement elastic response spectrum. .. confval:: wfparam.Tmax Default: ``5`` Type: *double* Unit: *s* Specifies the maximum period \(Tmax\) in seconds for computation of the relative displacement elastic response spectrum. .. confval:: wfparam.clipTmax Default: ``true`` Type: *boolean* Should the maximum period \(Tmax\) clipped against the configured filter lower corner frequency, the maximum of pd.loFreq or filter.loFreq. .. confval:: wfparam.afterShockRemoval Default: ``true`` Type: *boolean* Enables\/disables aftershock removal \(Figini, 2006; Paolucci et al., 2008\) .. confval:: wfparam.eventCutOff Default: ``true`` Type: *boolean* Enables\/disables pre\-event cut\-off. A hardcoded sta\/lta algorithm \(with sta\=0.1s, lta\=2s, sta\/lta threshold\=1.2\) is run on the time window defined by \(expected_P_arrival_time \- 15 s\). The pre\-event window is hence defined as [t\(sta\/lta \=1.2\) \- 15.5s, t\(sta\/lta \=1.2\) \- 0.5s]. .. confval:: wfparam.magnitudeFilterTable Default: ``0:0.2;0.8fNyquist,3:0.1;0.8fNyquist,5:0.05;0.8fNyquist,7:0.025;0.8fNyquist`` Type: *list:string* Magnitude dependent filter table. The format is \"mag1:fmin1;fmax1, mag2:fmin2;fmax2, mag3:fmin3;fmax3\". If a magnitude falls between two configured magnitudes the filter of the lower magnitude is then used. No interpolation takes place. Magnitude outside the configured range are clipped to the lowest\/highest value. Frequency values are given as simple positive doubles \(Hz is assumed\) or with suffix \"fNyquist\" which is then multiplied by the Nyquist frequency of the data to get the final corner frequency. .. confval:: wfparam.deconvolution Default: ``true`` Type: *boolean* Enables\/disables deconvolution. If a channel does not provide full response information it is not used for processing. .. confval:: wfparam.magnitudeTolerance Default: ``0.5`` Type: *double* Defines the magnitude tolerance to completely reprocess an event with respect to the last state. .. note:: **wfparam.streams.\*** *Defines the white- and blacklist of data streams to be used. The* *rules to decide if a stream is used or not are the following:* ** *1. if whitelist is not empty and the stream is not on the whitelist,* *don't use it, ok otherwise* ** *2. if blacklist is not empty and the stream is on the blacklist,* *don't use it, ok otherwise* ** *Both checks are made and combined with AND. Either whitelist or* *blacklist contains a list of patterns (wildcard allowed as * and ?),* *eg GE.*.*.*, *, GE.MORC.*.BH? Each stream id (NET.STA.LOC.CHA) will* *be checked against the defined patterns.* .. confval:: wfparam.streams.whitelist Type: *list:string* The stream whitelist .. confval:: wfparam.streams.blacklist Type: *list:string* The stream blacklist .. confval:: wfparam.naturalPeriods.log Default: ``false`` Type: *boolean* Defines if a linear spacing or logarithmic spacing between Tmin and Tmax is used. The default is a linear spacing. The logarithmic spacing will fail if either Tmin or Tmax is 0. .. note:: **wfparam.filter.\*** *Parameters of the 1st stage filter.* .. confval:: wfparam.filter.order Default: ``4`` Type: *int* Specifies the order of the 1st stage filter. .. confval:: wfparam.filter.loFreq Default: ``0.025`` Type: *double* Specifies the frequency of the 1st stage hi\-pass filter. If this parameter is equal to 0 the hi\-pass filter is not used. If suffix \"fNyquist\" is used then the value is multiplied by the Nyquist frequency of the data to get the final corner frequency of the filter. .. confval:: wfparam.filter.hiFreq Default: ``40`` Type: *double* Specifies the frequency of the 1st stage lo\-pass filter. If this parameter is equal to 0 the lo\-pass filter is not used. If suffix \"fNyquist\" is used then the value is multiplied by the Nyquist frequency of the data to get the final corner frequency of the filter. .. note:: **wfparam.pd.\*** *Parameters of the post-deconvolution filter applied in the* *frequency domain.* .. confval:: wfparam.pd.order Default: ``4`` Type: *int* Specifies the order of the 2nd stage filter. .. confval:: wfparam.pd.loFreq Default: ``0`` Type: *double* Specifies the frequency of the 2nd stage hi\-pass filter. If this parameter is equal to 0 the hi\-pass filter is not used. If suffix \"fNyquist\" is used then the value is multiplied by the Nyquist frequency of the data to get the final corner frequency of the filter. .. confval:: wfparam.pd.hiFreq Default: ``0`` Type: *double* Specifies the frequency of the 2nd stage lo\-pass filter. If this parameter is equal to 0 the lo\-pass filter is not used. If suffix \"fNyquist\" is used then the value is multiplied by the Nyquist frequency of the data to get the final corner frequency of the filter. .. confval:: wfparam.filtering.noncausal Default: ``false`` Type: *boolean* Enables non\-causal filtering in the frequency domain. .. confval:: wfparam.filtering.taperLength Default: ``-1`` Type: *double* Unit: *s* Defines the cosine taper length in seconds if non\-causal filters are activated applied on either side of the waveform. If a negative length is given 10 percent of the pre\-event window length is used on either side of the waveform. .. confval:: wfparam.filtering.padLength Default: ``-1`` Type: *double* Unit: *s* The length of the zero padding window in seconds applied on either side of the waveform if non\-causal filters are activated. If negative, it is computed following Boore \(2005\) as 1.5\*order\/corner_freq and applied half at the beginning and half at the end of the waveform. .. confval:: wfparam.cron.wakeupInterval Default: ``10`` Type: *int* Unit: *s* Specifies the interval in seconds to check\/start scheduled operations. .. confval:: wfparam.cron.eventMaxIdleTime Default: ``3600`` Type: *int* Unit: *s* Specifies the maximum allowed idle time of a process before removed. The idle time is calculated if no further processing is scheduled and computes as: [now]\-lastRun. .. confval:: wfparam.cron.logging Default: ``true`` Type: *boolean* Enables\/disables updating of a cron log file. This file will be created at \~\/.seiscomp\/log\/[appname].sched and contains information about the scheduled events and the processing queue. The file is updated each n seconds, where n \= wfparam.cron.wakeupInterval. .. confval:: wfparam.cron.updateDelay Default: ``60`` Type: *int* Specifies the delay in seconds to delay processing if a new authoritative origin arrives for an event. .. confval:: wfparam.cron.delayTimes Type: *list:int* Specifies a list of delay times in seconds relative to event time to trigger the processing. When the first origin of an event arrives this list is used to construct the crontab for this event. Example: \"60, 120, 300, 3600\" .. confval:: wfparam.acquisition.initialTimeout Default: ``30`` Type: *int* Unit: *s* Specifies the initial acquisition timeout. If the acquisition source \(e.g. Arclink\) does not respond within this threshold with waveforms, the request is discarded. .. confval:: wfparam.acquisition.runningTimeout Default: ``2`` Type: *int* Unit: *s* Specifies the acquisition timeout when waveforms are being transfered. If no new waveforms arrive within this threshold, the request is aborted. This is important if a Seedlink connection is configured which can block the application for a very long time if at least one requested channel has no data. Seedlink does not finished the request until all data has been sent. When data will arrive for a particular channel is not known. .. confval:: wfparam.output.messaging Default: ``false`` Type: *boolean* Enables messaging output which creates objects of the StrongMotionParameters data model extension \(defined by SED\) and sends them to scmaster. In order to save the objects to the database, scmaster needs to load the dmsm plugin and the corresponding database schema must be applied. The default message group is AMPLITUDE. To change this group redefine connection.primaryGroup. .. confval:: wfparam.output.shortEventID Default: ``false`` Type: *boolean* Uses short event ids when an event output directory needs to be created. The default pattern is [eventtime]_[mag]_[lat]_[lon]_[updatetime]. The short format just contains the first part, namely [eventtime] in the format YEARmmddHHMMSS. .. confval:: wfparam.output.waveforms.enable Default: ``false`` Type: *boolean* Enables\/disables the output of processed waveforms. .. confval:: wfparam.output.waveforms.path Default: ``@LOGDIR@/shakemaps/waveforms`` Type: *string* Specifies the waveform output path. This parameter is only used if wfparam.output.waveforms.enable is true. .. confval:: wfparam.output.waveforms.withEventDirectory Default: ``false`` Type: *boolean* Enables\/disables the creation of an event directory \(named with eventID\) when storing the processed waveforms. This parameter is only used if wfparam.output.waveforms.enable is true. .. confval:: wfparam.output.spectra.enable Default: ``false`` Type: *boolean* Enables\/disables the output of spectra \(psa, drs\). The output format is a simple ASCII file where the first column is the period and the second column the corresponding value. .. confval:: wfparam.output.spectra.path Default: ``@LOGDIR@/shakemaps/spectra`` Type: *string* Specifies the spectra output path. This parameter is only used if wfparam.output.spectra.enable is true. .. confval:: wfparam.output.spectra.withEventDirectory Default: ``false`` Type: *boolean* Enables\/disables the creation of an event directory \(named with eventID\) when storing the spectra. This parameter is only used if wfparam.output.spectra.enable is true. .. confval:: wfparam.output.shakeMap.enable Default: ``true`` Type: *boolean* Enables\/disables ShakeMap XML output. .. confval:: wfparam.output.shakeMap.pgm Default: ``pga, pgv, psa03, psa10, psa30`` Type: *list:string* Define a list of pg values to be forwarded to ShakeMap in version 4 or later. The period xx in psa must be in the list of naturalPeriods and must not exceed 9.9s. .. confval:: wfparam.output.shakeMap.path Default: ``@LOGDIR@/shakemaps`` Type: *string* Specifies the ShakeMap XML output path. This is only used if wfparam.output.shakeMap.enable is set to true. .. confval:: wfparam.output.shakeMap.script Type: *string* Specifies the path to a script that is called whenever a new ShakeMap XML is available. The script is called with 3 parameters: EventID, modified ShakeMap eventID, path to event directory \(where input\/event.xml and input\/event_dat.xml lives\). The event files are not deleted by the application. The ownership goes to the called script. .. confval:: wfparam.output.shakeMap.synchronous Default: ``true`` Type: *boolean* Enables\/disables synchronous or asynchronous script calls. If enabled, be careful to not spend too much time in the script. The application is blocked while the script is running. .. confval:: wfparam.output.shakeMap.maximumOfHorizontals Default: ``false`` Type: *boolean* If enabled the maximum PGV, PGA, PSA03, PSA10 and PSA30 of both horizontal components is used in the final output. Otherwise each component is saved. .. confval:: wfparam.output.shakeMap.SC3EventID Default: ``false`` Type: *boolean* Uses the SeisComP event publicID as id attribute of the earthquake tag, a generated ShakeMapID otherwise. .. confval:: wfparam.output.shakeMap.regionName Default: ``false`` Type: *boolean* Uses the event region name \(if available\) for the locstring attribute, the publicID, lat, lon otherwise. .. confval:: wfparam.output.shakeMap.encoding Default: ``UTF-8`` Type: *string* The XML encoding string written to the Shakemap XML file. .. confval:: wfparam.output.shakeMap.version Default: ``3`` Type: *int* The target version of the Shakemap input files. Bindings Parameters =================== .. confval:: commtype Default: ``DIG`` Type: *string* Defines the communication type of the station which is forwarded without modification to the Shakemap input file in version 4 or greater. Reference: https:\/\/usgs.github.io\/shakemap\/manual4_0\/sg_input_formats.html. .. confval:: amplitudes.PGAV.saturationThreshold Type: *string* Defines the saturation threshold for the optional saturation check. By default the saturation check is configured for all stations as module parameter. This parameters overrides the threshold per station. This value can either be an absolute value such as \"100000\" or a relative value \(optionally in percent\) with respect to the number of effective bits, e.g. \"0.8\@23\" or \"80%\@23\". The first version uses 1\*\*23 \* 0.8 whereas the latter uses 1\*\*23 \* 80\/100. The special value \"false\" explicitly disables the check. Command-Line Options ==================== .. program:: scwfparam Generic ------- .. option:: -h, --help Show help message. .. option:: -V, --version Show version information. .. option:: --config-file arg Use alternative configuration file. When this option is used the loading of all stages is disabled. Only the given configuration file is parsed and used. To use another name for the configuration create a symbolic link of the application or copy it. Example: scautopick \-> scautopick2. .. option:: --plugins arg Load given plugins. .. option:: -D, --daemon Run as daemon. This means the application will fork itself and doesn't need to be started with \&. .. option:: --auto-shutdown arg Enable\/disable self\-shutdown because a master module shutdown. This only works when messaging is enabled and the master module sends a shutdown message \(enabled with \-\-start\-stop\-msg for the master module\). .. option:: --shutdown-master-module arg Set the name of the master\-module used for auto\-shutdown. This is the application name of the module actually started. If symlinks are used, then it is the name of the symlinked application. .. option:: --shutdown-master-username arg Set the name of the master\-username of the messaging used for auto\-shutdown. If \"shutdown\-master\-module\" is given as well, this parameter is ignored. .. option:: -x, --expiry hours Time span in hours after which objects expire .. option:: -E, --event-id arg EventID to calculate amplitudes for .. option:: --ep arg EventParameters \(XML\) to load Verbosity --------- .. option:: --verbosity arg Verbosity level [0..4]. 0:quiet, 1:error, 2:warning, 3:info, 4:debug. .. option:: -v, --v Increase verbosity level \(may be repeated, eg. \-vv\). .. option:: -q, --quiet Quiet mode: no logging output. .. option:: --component arg Limit the logging to a certain component. This option can be given more than once. .. option:: -s, --syslog Use syslog logging backend. The output usually goes to \/var\/lib\/messages. .. option:: -l, --lockfile arg Path to lock file. .. option:: --console arg Send log output to stdout. .. option:: --debug Execute in debug mode. Equivalent to \-\-verbosity\=4 \-\-console\=1 . .. option:: --log-file arg Use alternative log file. Messaging --------- .. option:: -u, --user arg Overrides configuration parameter :confval:`connection.username`. .. option:: -H, --host arg Overrides configuration parameter :confval:`connection.server`. .. option:: -t, --timeout arg Overrides configuration parameter :confval:`connection.timeout`. .. option:: -g, --primary-group arg Overrides configuration parameter :confval:`connection.primaryGroup`. .. option:: -S, --subscribe-group arg A group to subscribe to. This option can be given more than once. .. option:: --content-type arg Overrides configuration parameter :confval:`connection.contentType`. .. option:: --start-stop-msg arg Set sending of a start and a stop message. .. option:: --test Test mode, no messages are sent Database -------- .. option:: --db-driver-list List all supported database drivers. .. option:: -d, --database arg The database connection string, format: service:\/\/user:pwd\@host\/database. \"service\" is the name of the database driver which can be queried with \"\-\-db\-driver\-list\". .. option:: --config-module arg The config module to use. .. option:: --inventory-db arg Load the inventory from the given database or file, format: [service:\/\/]location . .. option:: --db-disable Do not use the database at all Records ------- .. option:: --record-driver-list List all supported record stream drivers. .. option:: -I, --record-url arg The recordstream source URL, format: [service:\/\/]location[#type]. \"service\" is the name of the recordstream driver which can be queried with \"\-\-record\-driver\-list\". If \"service\" is not given, \"file:\/\/\" is used. .. option:: --record-file arg Specify a file as record source. .. option:: --record-type arg Specify a type for the records being read. Mode ---- .. option:: --order arg Filter order .. option:: --lo-filter freq High\-pass filter frequency .. option:: --hi-filter freq Low\-pass filter frequency .. option:: --sc-order arg Sensitivity correction filter order .. option:: --sc-lo-filter freq Sensitivity correction high\-pass filter frequency .. option:: --sc-hi-filter freq Sensitivity correction low\-pass filter frequency .. option:: --offline Do not connect to the messaging and and disable the database in combination with \-\-inventory\-db and \-\-ep .. option:: --force Force event processing even if a journal entry exists that processing has completed .. option:: --force-shakemap Force ShakeMap script to be run even if no station has contributed data .. option:: --dump-config Dump the configuration and exit .. option:: --dump-records Dumps all received records \(binary\) to [eventd].recs