ONYX - 9.0 - Utilisation - Les principaux menus d'administration/en

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Version du 8 août 2019 à 09:20

Autres langues :
English • ‎français

Introduction

OX S admin connect.png

This menu which you can get to from the home page gives you access to:

• all the settings of the solution,

• input points creation and configuration in Onyx Server (Scanfolder robots, listening servers, processing queues),

• execution and routing rules (Workflows) of the output and transfer points of the documents.

This documentation page will touch on the main menus, the other menus will be further discussed in another documentation page.


OX S Menu AdminCnct.png

Configuration management

OX S gestConf.png


This interface gives you access to all the environment settings to manage the solution from its installation to its general configuration. Most values are given for information purposes and should only be edited with care, by either an advanced user or an admin of the solution. Information is organised in sections, each section identifying the contexts influencing the parameters.

OX S edt Conf.png


These sections are displayed in condensed mode by default, to open a section and see the corresponding parameters, click on the "plus" icon. An input field allows you to edit the value of each parameter, click on the "save" button to save the changes made. Several changes can also be made at once, every parameter which was edited is then displayed in red until the changes are validated.

All the parameters in these sections are Onyx Server environment parameters which can be used as is in the execution engine (Workflows), as well as in the user scripts launched from the engine.

Example: use the PATH_TEMP parameter to build a temporary file path.

The Custom section which you can access at the bottom of the screen, allows you to create new parameters if needed which you will in turn be able to use in the engine.


To create a new parameter:

- Give a name to the parameter: with alphanumerical characters without spaces, case sensitive (square brackets are not required, they are only added for display purposes),

- Specify a value,

- Save.

Most sections will be seen in detail in this documentation, in their corresponding application contexts.

Managing Robots

OX S GestionRBT.png


This interface manages all the robots configured in the solution, whether they are Scanfolder robots or listening servers.

Upon first installation, the list is blank but it gives access to the Onyx server input points creation/edition menus:


OX S gestRBT1.png


From the perspective of ONYX Server, a robot is an input point in the solution, in other words it is a way for a third-party application to send an execution query. Robots are programs executed as background tasks (Service mode under Windows) to monitor data input, in a folder in the case of Scanfolder robots, or on a network port in the case of listening Servers. Each input file is successively put through the Workflow execution engine to be processed appropriately.


Scanfolder Robots

Introduction

  • Scanfolder robots monitor folders in the folder system, to control input files (sent as copies or transferred FTP/SFTP). Files detected in the folder are successively sent (one by one) to the execution engine to be processed according to the rules defined in the Workflows.
  • A robot which is configured in ONYX Server can only monitor one folder, in the same way, a folder of the folder system can only be monitored by one Scanfolder robot. You must therefore create and configure as much Scanfolder robots as there are folders to monitor. Each robot is independent from the others, which means that several files can be processed at the same time, but by different robots.


Creating/Editing/Deleting

Clicking the Ox s icone edtRBT.png icon, let's you create or edit robots which were already configured (if they are not being executed).

To configure a robot the following parameters must be specified:

Name = gives a name to the robot.

  • This parameter is optional but highly recommended. The name of a robot constitutes an environment variable which is accessible and can thus be used in the Workflows.
  • ONYX Server ensures that the names used for the different robots are unique.


Folder to scan = path of the folder monitored by the robot.

  • This parameter is required.
  • It can point to a network drive or a UNC path (under Windows). Be careful of access rights.
  • ONYX Server ensures that the folders scanned by the different robots are unique.
  • ONYX Server can create the specified folder if it does not exist.


CMD = action executed on every file detected after it was properly processed by the execution engine.

  • This parameter is required.
  • Delete: the files detected and processed are deleted from the monitored folder.
  • Move: the files detected and processed are moved to another folder, to be archived for example.


Destination folder = destination path of the files processed.

  • This parameter is required if the command move was chosen previously.
  • ONYX Server ensures that the destination folder is different from the monitored folder.
  • ONYX Server can create the specified folder if it does not exist.


Delay = waiting time interval in between which the folder is monitored. Given in seconds.

  • This parameter is required.


On Error = defines the behaviour of the robot when a processing error is reported on a detected file.

  • This parameter is required.
  • Stop: the robot stops and the error file stays in the monitored folder.
  • Continue: the robot continues to process the next files while the error file stays in the monitored folder and is renamed with the added suffix _FAILED (keyword configured by Mapping to prevent the robot from processing this file again next time the folder is monitored).
  • Retry: the robot continues to process the next files while the error file stays in the monitored folder. Next time the folder is monitored, the robot will try to process this file again.


Workflow = name of the Workflow to execute.

  • This parameter is optional. If nothing is specified, the root Workflow is executed by default.


Filter = excludes files from the robot monitoring.

  • This parameter is optional.
  • Example: *.tmp → the .tmp files in the monitored folder are not processed by the robot.


Accept = restrain the type of files to process.

  • This parameter is optional.
  • Example: *.xml → .xml files in the monitored folder are the only ones processed by the robot


Notes:

To create a new robot, specify all the needed parameters, click on the "Save" button to add the robot to the server configuration.

To edit an existing robot, edit it or the needed parameters, then click on the "Save" button to edit the robot in the server configuration.

To edit or delete a robot, the latter must absolutely be stopped.


Environment parameters:section MAP_SCANFOLDER CONFIG

This part displays the details of the environment parameters of the Scanfolder robot section.


OX S Config scanfolder.png


SCANFOLDER_ID = default naming suffix for temporary files linked to robots (see part Use here-after).

MAP_SCANFOLDER_TIMER = default waiting time interval (in seconds) suggested upon creating a new robot.

CONFIG_PATH_ROBOT = path of the configuration file of the robots.

Example under Linux: /apps/mapping/conf/robot.conf

FTP_TIMEOUT_SEC = maximum waiting time (in seconds) to access an input file in the monitored folder in FTP as the CHECK_FTP_FILE_ACCESS parameter is activated ("oui", "yes", "true" or "1" are accepted).

SCANFOLDER_PATH_DUP_FILES = moving path of the files after processing when the latter have been detected as having already been processed by Onyx Server, in other words path of the files with identical names.

SCANFOLDER_FILTER = exclusion filter for files to process. It can be applied to all the configured robots and can be overloaded by the local parameters of each robot. Several files can be specified, separated by a semi-colon " ; ".

SCANFOLDER_ACCEPT = restriction filter for files to process. It can be applied to all the configured robots and can be overloaded by the local parameters of each robot. Several files can be specified, separated by a semi-colon " ; ".


Use

Once the robots created and configured, they are shown in the managing window.


OX S gestion RBT.png


This screen allows you to:

- Start a robot: OX S strt rbt.png

- Stop a robot: OX S stp rbt.png

- See the log of a robot: OX S infos rbt.png


Once started, a robot is a process executed continuously as a background task. The associated ONYX Server binary is map_scanfolder. The list of active system processes (Task manager under Windows / command ps –ef under Linux) displays as much processes map_scanfolder[.exe] as there are robots started.


Note:

Under Windows, robots are installed as Services in the Windows Service Manager. They are registered as such when first starting the robot. The corresponding Service is named based on the name of the robot if it is specified (which is why names need to be unique) or based on the name of the monitored folder (which is why names need to be unique). Example: Mapping_ScanFolder_SCAN_TXT. Every Windows Service created by the robot is configured in manual start by default, however, this can be changed to an automatic system start afterwards.


  • Temporary files associated to the robots:


Once started, each robot creates two files in the Onyx Server temporary folder. The first one is named based on the name of the monitored folder with special characters replaced by ‘_’ and the value of the SCANFOLDER_ID ("map_scanfolder.ID" by default) parameter as an added suffix.

Example: E__InputData_TXT_map_scanfolder.ID

The second file is named based on the system number of the associated map_scanfloder[.exe] process.

Example: 75668.pid.

These files are for internal use of the process and are automatically deleted after the robot is stopped. Nonetheless, the Web interface relies on these files to indicate the state of the robots.


  • Useful command lines:


To start a robot:

- Linux (after the environment was loaded) /apps/mapping/bin/map_scanfolder -name:SCAN_TXT

- Windows C:\Program Files(x86)\M_Processing Server\Applications\map_scanfolder.exe -name:SCAN_TXT


To stop a robot:

- Linux (after the environment was loaded) /apps/mapping/bin/map_scanfolder -name:SCAN_TXT –stop

- Windows C:\Program Files(x86)\M_Processing Server\Applications\map_scanfolder.exe -name:SCAN_TXT –stop


If the robot is not named, set each parameter that describes the robot as an argument of the previous commands (hence the prior advice on robots unique names)

Listening servers

Introduction

  • A listening server type of robot monitors a listening port to control input data (data sent by a remote system by direct transfer in RAW protocol). The robot retrieves the data and rebuilds the files locally, it then sends them successively (one after the other) to the execution engine so that they can be processed according to the rules set in the Workflows.
  • A robot which is configured in ONYX Server can only monitor one network port, in the same way, a network port can only be monitored by one listening server. You must therefore create and configure as much listening servers as there are ports to monitor. Each robot is independent from the others, which means that several files can be processed at the same time, but by different robots.


Creating/Editing/Deleting

Clicking the Ox s icone edtRBT.png icon, let's you create or edit robots which were already configured (if they are not being executed).



To configure a listening server the following parameters must be specified:

Name = gives a name to the robot.

  • This parameter is optional but highly recommended. The name of a robot constitutes an environment variable which is accessible and can thus be used in the Workflows.
  • ONYX Server ensures that the names used for the different robots are unique.


Port = number of the network port the robot listens to.

  • This parameter is required.
  • ONYX Server ensures that the ports the different robots listen to are unique.


Job separator = character or string of character which divide a wide network stream into several files.

  • This parameter is optional.


Key (Length Start) = allows you to add information to the name of the temporary file built by the robot.

  • These 3 parameters are optional.
  • This information is looked for in the network stream, according to the keyword, while ignoring X characters after the keyword (start parameter) and retrieving N characters (length parameter).
  • This information can notably be used in the Workflows as a condition.


Timeout = network waiting time (in seconds).

  • This parameter is optional.
  • It allows you not to block the network port in the event of a problem coming from the stream transmitter. The robot shuts down the connection after this period of inactivity as it considers that the established connection is not active anymore.


Notes:

To create a new listening server, specify all the needed parameters, click on the "Save" button to add it to the server configuration.

To edit an existing server, edit it or the needed parameters, then click on the "Save" button to edit the server configuration.

To edit a server, the latter must absolutely be stopped.

To delete a robot, the latter must absolutely be stopped.


Environment parameters:section MAP_RAWD CONFIG

In the Mapping Operations Menu which manages configuration, a section is dedicated to listening servers. The details of the environment parameters are given below.


OX S MAP RAWD.png



MAPRAWD_ID = default naming suffix for temporary files linked to servers (see part Use here-after).

MAPRAWD_CONFIGFILE = path of the configuration file of the listening servers.

Example under Unix: /apps/mapping/conf/maprawd.conf

MAPRAWD_SERVERSTDIN = path of the file towards which the standard input is redirected (stdin).

MAPRAWD_SERVERSTDOUT = path of the file towards which the standard output is redirected (stdout).

MAPRAWD_SERVERSTDERR = path of the file towards which the standard error output is redirected (stderr).


Use

Once the robots created and configured, they are shown in the managing window.


OX S srv d'ecoute.png


This screen allows you to:

- Start a listening server: OX S strt rbt.png

- Stop a listening server: OX S stp rbt.png

- See the log of a listening server: OX S infos rbt.png


Once started, a listening server is a process executed continuously as a background task. The associated ONYX Server binary is map_rawd. The list of active system processes (Task manager under Windows / command ps –ef under Linux) displays as much processes map_rawd[.exe] as there are robots started.


Note:

Under Windows, listening servers are installed as Services in the Windows Service Manager. They are registered as such when first starting the robot. The corresponding Service is named based on the name of the network port (which is why names need to be unique) and the name of the job separator. Example: Mapping_Rawd_13000, Mapping_Rawd_25006_SEP.

Every Windows Service created by the robot is configured in manual start by default, however, this can be changed to an automatic system start afterwards.


  • Temporary files associated to the listening servers:


Once started, each listening server creates a folder in the Onyx Server temporary folder. It is named based on the name of the network port and the job separator with a map_rawd.ID file which contains the number of the associated process. Example: …\Temp\map_rawd_25006_SEP\map_rawd.ID


  • Useful command lines:


To start a robot:

- Linux (after the environment was loaded) /apps/mapping/bin/map_rawd -start -name:RAW_25006

- Windows C:\Program Files(x86)\M_Processing Server\Applications\map_rawd.exe -start -name:RAW_25006


To stop a robot:

- Linux (after the environment was loaded) /apps/mapping/bin/map_rawd -stop -name:RAW_25006

- Windows c:\Program Files(x86)\M_Processing Server\Applications\map_rawd.exe -stop -name:RAW_25006


If the robot is not named, set each parameter that describes the robot (network port and job separator) as an argument of the previous commands (hence the prior advice on robots unique names).

Managing prints

OX S Gestion IMPRT1.png


Managing the spooler

As mentioned earlier, the ONYX Server Spooler is the core of the solution. It manages streams, processings and printers. From the Administration Menu, then Managing prints and finally Managing the Spooler, the following interface allows you to:

OX S Gestion Spooler.png


- Start the Spooler = Start the Spooler.

- Stop the Spooler = stop the Spooler.

- See statistics = See output statistics.

- Usage reports = See the usage reports of the solution.


Once started, the Spooler is a process executed continuously as a background task. The associated ONYX Server binary is map_daemon[.exe].


Note:

Under Windows, the Spooler is installed as a Service in the Windows Service Manager. It is registered as such when first starting the Spooler. The corresponding Service is named Mapping_Spooler. It is is configured in manual start by default, however, this can be changed to an automatic system start afterwards.


  • Temporary file associated with the Spooler:


Once started, the Spooler creates a map_daemon.ID file in its ONYX Server installation folder:

- by default under Windows C:\ProgramData\M-Processing Server\Spooler

- by default under Linux /apps/mapping/spool


  • Useful command lines:


To start the Spooler:

- Linux (after the environment was loaded) /apps/mapping/bin/map_daemon start

- Windows C:\Program Files (x86) \M-Processing Server\Applications\map_daemon.exe" start


To stop the Spooler:

- Linux (after the environment was loaded) /apps/mapping/bin/map_daemon stop

- Windows C:\Program Files (x86)\M-Processing Server\Applications\map_daemon.exe" stop


Managing sites and queues

From the Administration Menu, then Managing Prints and finally Managing Sites / Printers / Input points, the interface shown displays the list of all the queues configured in the Spooler, organised per sites.


OX S S I E.png


For example, a SAMPLE site was declared, in which three queues (an input and an output one) are configured. Three other queues are declared outside the site and displayed in a default site called Principal.

From this interface, inside every site, you are able to:

OX S iconeS.png

Create a site: Sites are a coherent way to organise queues.

OX S iconeF.png

Create an output queue: It will be linked to a physical printer.

OX S FP.png

Create a costumed processing queue: It runs a client script (shell).

OX S FM.png

Create a Mapping processing queue: It executes a Workflow.


Important notes:

  • All the objets created and configured must have a unique name whatever their type (an output printer cannot have the same name as a site).
  • Once created and configured, the name of an object cannot be changed anymore. If necessary, the object must be deleted and recreated.


Definitions

Site:

A site can be defined as a Mapping object, its aim is to organise the different queues. The sites can represent different countries, regions, agencies or stores.


Queue:

A queue can be defined as a Mapping object which receives the list of files to process and organises processings according to priorities. The queue does not establish any other connection with a physical printer. It is an object which only manages a list of files. It is at least linked to a device which does establish connections with physical hardware. If it is in Ready or Suspended state, then the files will not be processed by the device.


Device:

A device is defined as a Mapping object which communicates with the printer depending on specific parameters such as the IP address, protocol, … It must be linked to one queue only. It can be in Ready, Suspended or Error state. In both the last cases, the files will not be processed by the device. Several devices can be connected to one queue (load balancing).


Creating a site

Sites allow you to classify queues in the Spooler to organise the prints managing display into a hierarchy. A site can also be used as a display filter or search filter in the operating view.

To create a site, click on the OX S iconeS.png button.


Note:

Sites can be created inside other sites, which means you can build a complex display tree system. To do so, use the creation button on the line of the site which is concerned.

In the input screen, specify each of the following information, validate it by clicking on "save":

- Name = Name of the site (required, it must absolutely be unique).

- Description = optional.

Once the site is configured, saved, click on "OK" (3).


OX S Crt Site.png


Creating an input point

An ONYX Server input point is a queue which runs Mapping processings that are also called Workflows. It is made up of two objects:

- A queue to receive queries (jobs).

- A device, or engine, to handle queries and perform processings.

To add an input point in a site, click on the button on the line of the site which is concerned.

After having specified the needed information, validate it by clicking on "Save".


OX S crtpt.png


  • Queue

- Name = name of the queue (required).

- Description = description of the queue.

After validating the name, the creation form of the associated device is displayed.


  • Printer

- Device Name = name of the associated device (required).

- Description = description of the device.


  • Printer driver

- Connection = The default type of driver is RULES and cannot be changed (calls the execution engine).

- Rules set = Choose the executed Workflow in the drop down menu. The root Workflow is executed by default (‘Default’ or ‘Undefined’).


  • Print controls

- Upon error = Device behaviour in case of error:

o Default or Stop: in case of error, the current processing stops, the device also stops in error state.

o Continue: the current processing stops in error state while the device continues to process the next queries.

o Ignore: the current processing is considered as done, the device continues to process the next queries. This value is not recommended, except for special cases.

- Error recovery = Error recovery: if activated, an error inducing processing is relaunched.

- Maximum time = maximum time during which a processing in error state is relaunched before really being considered as being in error state. The device behaviour upon error is then taken into account.


Creating a printer

An ONYX Server printer is a queue which communicates with physical printing hardware. It is made up of two objects:

- A queue to receive printing queries (jobs)

- A device or printer, to handle the queries and send data to the physical hardware.

To add a printer in a site, click on the OX S iconeF.png button on the line of the site which is concerned.

Fill in the needed information and validate it by clicking on the "save" button.


OX S CRT IMPRT.png


  • Queue

- Name (1) = name of the queue (required).

- Description (2) = description of the queue.

After validating the name, the creation form of the associated device is displayed.

  • Printer

- Device Name (3) = name of the associated device (required).

- Description (4) = description of the device.

- Backup (5) = if this is activated, it allows you to set a backup printer which will automatically take over the main printer in the event of an error.


  • Printer driver

- Connection (6) = type of connection. ONYX Server implements several types of communication protocols, the LPR protocol being the most widespread and use here.

- Type of print (7) = type of print. The default type means that the associated hardware is a physical printer. The MAPPING type indicates communication with another ONYX Server Spooler (remote), and allows you to activate the compression of the exchanged streams.

- XPS Compatibility (8) = XPS compatibility. This allows you to communicate directly with the associated physical printer, in its direct printing language. XPS streams are converted on the fly according to the selected profile, then sent to the printer, without depending on any driver.

- IP (9) = IP address of the physical printer.

- Remote queue (10) = internal name of the physical printer: generally PASS if it is directly connected to the network, or the name of the port on the box (HP JetDirect for instance) if it was used to connect the printer to the network.

- Time (11) = maximum waiting time of a network communication.


  • State

Allows you to question the physical printer to see its status displayed in the operating view.


  • Print controls

Allows you to question the physical printer to check the status of the print job. This additional communication is described in detail in the User Guide. The default settings can be used at first.

- Upon error (12) = device behaviour upon error:

o default or stop = the current processing and the device stop in error state.

o continue = the current processing stops in error while the device continues processing the next queries.

o ignore = the current processing is considered as done, the device continues to process the next queries. This value is not recommended, except for special cases.

- Error Recovery (13) = Error recovery: if activated, an error inducing processing is relaunched.

o Maximum Time = maximum time during which a print job in error state is relaunched before really being considered as being in error state. The device behaviour upon error is then taken into account.

o Recovery mode: in its entirety or per page.

Once the (basic) configuration of the printer done, save the new object (14).


Printer advanced configuration

Printer driver

The printer driver is configured with all the parameters regarding, solely, the connection to the physical printer for data delivery. The configuration of the printer driver depends on print controls: error report, printer status...


Connection

  • LPR (default value, recommended)

Line Printer Remote is the standard connection used for network printers. The Spooler connects to the lpr port of the printer (515) and sends the data. This protocol implements connection and communication controls throughout the delivery process. It is supported by almost all printers and can also communicate with print servers.

  • RAW

This is another network protocol, in other words a connection to a port (which has to be specified) followed by data delivery and a log out. This protocol does not implement any control.

  • SHELL

Used for queues with the same name, the SHELL type device is not directly connected to a physical printer, it is to a program such as a bat or a shell script depending on the operating system.

  • RULES

Used for input queues, the RULES type device is not directly connected to a physical printer, it is to the ONYX Server Workflow execution engine.

  • USB

The printer must be connected to a USB port. The name of the port must also be specified.

  • SERIAL

The printer must be connected to a serial port. The name of the port must also be specified.

  • LOCAL OS SPOOLER (only under Windows)

The device sends the file to a pinter which was declared on the Windows print server. The name of the Windows printer must then be selected in the Remote_queue drop down menu.

  • DUMMY

Test connection. Files are processed but are not really sent.

  • IPDS

The printing protocol used is IPDS. This protocol allows you to print AFPDS streams with two-way communication between the server and the printers.

  • EMAIL

The Email type device is not connected to a physical printer, it is responsible for sending documents received by e-mail.


Print type

  • DEFAULT

Default protocol.

  • MAPPING

Used to send data to a remote Mapping Spooler, this protocole notably allows you to compress files before they are sent to the remote server.

  • AXHIOM (only available for RAW and USB protocols).

This protocol is specific to AXHIOM printers.

  • ESCPOS (only available for RAW and SERIAL protocols).

This protocol is specific to EPSON receipt printers.

  • SAMSUNG (only available for the RAW protocol).

This protocol is specific to SAMSUNG receipt printers.

  • ZEBRA (only available for the RAW protocol).

This protocol is specific to ZEBRA receipt printers (using the LPR protocol by default is recommended for ZEBRA thermal printers).


Fonts resolution

This parameter sets files resolution to create and send AFPDS fonts. The value is given in dpi (240 or 300). This parameter concerns IPDS connections.


Activate log

This parameter activates IPDS traces. The latter are created in the \afpds\ipds sub-folder of the original ONYX Server folder. This parameter concerns IPDS connections.


XPS compatibility

This is the conversion profile to use when sending XPS files. The displayed profile is included in the <label> parameter of the XPSConfig.conf file. If the file to print is in XPS format, then the selected conversion profile is used (to convert PCL, ZPL…). If the file is not in XPS format, then the parameter is ignored and no conversion is done. If there is not any specified conversion profile, the file is sent unconverted (Caution: The result of sending an XPS file to a printer which does not support it is usually unreadable characters printed continuously until the printer bins are completely empty…) This parameter concerns LPR, RAW, IPDS and EMAIL connections (e.g. to convert to PDF and add attachments).


IP address

This is the destination address of the printer (or print server). The IP address of the peripheral or its DNS name can be used. This parameter concerns LPR, RAW and IPDS connections. In the case of an EMAIL printer, the IP address of the SMTP server is used.


Remote Queue

This is the name of the internal queue of the printer (or print server). The name of the queue depends on the printer manufacturer, the most common name being PASS, it can also be RAW, PR1, PR0, PR3, TEXT, mp or else. Caution: this parameter is usually case sensitive. In the case of a print server, it is the destination queue on this server, in other words in the case of a Mapping server = name of the queue; for a Windows print server = name of the printer ; for iSeries = name of the OUTQ… For a LOCAL OS SPOOLER connection, the selection list is composed of the names of the printers which are declared in the Windows spooler. This parameter concerns LPR and LOCAL OS SPOOLER connections.


Port

This is the connection port to the printer (or print server). In LPR connection, the default port is 515 (this cannot be changed). In RAW connection, the most common value is 9100. In IPDS connection, the most common values are 9100 or 2501. This parameter concerns LPR (this cannot be changed), RAW, USB, SERIAL and IPDS connections.


Time

This paramètre is a network communication timeout which is taken into account in every step of the communication process with the physical printer: connection, network packet delivery, acknowledgement receipt. The * value means that the network timeout is not controlled so that the printer does not report an error. This parameter concerns LPR, USB, SERIAL, LOCAL OS SPOOLER connections.


Shell

This is the complete path of the script executed by the device (a .bat on Windows, a .sh on Unix or Linux). This parameter concerns SHELL connections.


Rules Set

This is the name of the Workflow executed by the device. This parameter concerns RULES connections.


Customised

This parameter allows you to add customised parameters (metadata) when sending via LPR. The parameters available are those of the map_lpr command (beware not to use an already existing parameter: see the log of the queue for more details on the map_lpr command executed).

Example: -sleep:10 = to add a 10 seconds break in between each file.


State

This parameter allows you to activate or not to activate the control of the printer state, with display in the Spooler interface. Retrieval of the printer state does not depend on the print control which is done in addition to the data delivery to control errors. Using the state control implies that the destination printer (or peripheral) is able to send this type of information.


Caution: if the printer is connected to the network with an additional appliance (such as AXIS or HP JetDirect), the information is retrieved via the appliance, not the printer. The state retrieve is then that of the appliance, not that of the printer. With state control activated, the web interface of the Spooler can display the state of the printer (ready, off-line, paper jam…).

If automatic upgrade is requested, M-Processing Server retrieves the state of the printer only at the time a file is sent. The displayed information then corresponds to the state of the printer during the last Mapping print job.


Protocol

  • NONE

No printer state query is sent.

  • SNMP (recommended mode)

This SNMP protocol is used to control states. It is the most reliable and comprehensive protocol. It is supported by most recent printers and allows you to display the content of the printer control panel. To control the SNMP capacities of the peripheral manually, use the mapsnmp[.exe] command.

  • LPQ

The LPQ protocol allows you to set a basic information retrieval of the pinter state. Only the status (active or inactive) is displayed.

  • PJL (this mode is not recommended, it is kept only for backward compatibility purposes)

The state of the printer is retrieved using the PJL protocol. This protocol is quite thorough but is not very reliable because it lacks standardisation (the PJL implementation is different according to the manufacturer, or even the printer itself). Error messages are not standardised (hence the parameters to call a PJL message file and a language)


Time

This corresponds to the time given to retrieve the printer state. When the automatic upgrade is activated, be careful not to put time too small intervals so that the system is not saturated.


Automatic upgrade

This refreshes the printer state automatically even when no print job is done. It can be useful to an operator which manages an entire stock of computing equipment and wants to control the overall state of the printers.


Print control

Print control is used:

- to check if a file was completely printed

- for automatic recoveries if necessary

Protocol

  • SNMP (recommended mode)

This SNMP protocol is used to control states. It is the most reliable and comprehensive protocol. It is supported by most recent printers. SNMP manages the page count which allows you to check if all the pages of a file were printed.

  • LPQ

The LPQ protocol allows you to set a basic information retrieval of the pinter state. It does not manage page count which means that automatic recovery can only be used for the whole document.


Upon error

This defines the device behaviour in case of processing or printing error.

  • Default

Default behaviour according to the DAEMON_NO_HOLD_ON_ERROR and DAEMON_DONT_HOLD_ENTRY_ON_ERROR configuration settings. The default behaviour of devices for the value NO, is the Stop state.

  • Stop

In case of error, the current spooled file is in error state. The Mapping device is also in error state. In this case, any print job assigned to this printer is stopped until the Mapping device is restarted (via the Web interface or with a command). If a backup printer is defined, the following files are printed by the backup printer.

  • Ignore (this is not recommended)

Errors are ignored and the current spooled file is considered as processed. The next spooled file is sent to the printer.

  • Continue

the device stays in ready state and the current spooled file is in error state. The next spooled file is sent to the printer.


Automatic recovery

If the box is ticked, the spooler sends the file back to the printer in case of error. In this case, a maximum recovery time and recovery mode (complete or partial) need to be set. During the recovery time, the device is in error state but the spooled file is being printed. If the automatic recovery fails, then the spooled file is also in error state. If it succeeds, the device is then in ready state.


  • Time

This is the maximum time during which the spooler relaunches the print job.


Caution: some printers can print the file several times.


  • Mode

This allows you to define the type of file recovery:

- Complete: the entire file is sent back, starting from page 1

- Page min: the file is sent back starting from the last printed page minus n pages (n being defined as the length of the paper path)

- Page max: the file is sent back starting from the last printed page plus n pages (n being defined as the length of the paper path)


The number of pages retrieved from the printer is not always completely reliable. Some printers count the pages starting from the moment the pages are at the buffer, and not physically printed. If the print job is interrupted during processing and the printer counter indicates 50 pages, it is possible that only 47 pages were physically printed (the other 3 being somewhere between the input and output bin = still following the paper path). On other printers (this is a rare case), the counter is late compared to the number of pages which were actually printed, it is then necessary to count a few pages.


Examples:

If the last page sent back to the printer is page 50 and the automatic recovery is set to Page min with a paper path length of 3 pages, the paper job is relaunched at page 47. If the last page sent back to the printer is page 50 and the automatic recovery is set to Page max with a paper path length of 3 pages, the paper job is relaunched at page 53.


Wait

The wait parameter configures the spooler to wait for the final print receipt of the current spooled file before sending the next one. This is the default mode. If the parameter is not activated, pages are not being counted anymore.


Page unit (PerPage)

The page unit depends on the type of printer and counter. It is used to check that all the pages of a spooled file were printed. If the printer prints documents sheet per sheet (cutsheet), which corresponds to most laser workgroup printers, then the printer counts per physical page. This does not raise any compatibility issues because Mapping also counts per page. the page unit is 1 (by default). However, in continuous paper printers which use paper rolls (continuous paper laser, impact or thermal printers), the counter is defined in printed distance (usually in inches). The size of the paper must then be calibrated by specifying the page unit. for instance, on a thermal printer which prints 4 inches long labels, a page unit of 4 must be defined.


Activate the banners

Banners are pages which act as separators and are added before and after the print file. Refer to the specific part of this Guide on creating and using print banners for more information.

Advanced configuration of queues

Any Mapping queue, whatever type they are, features two advanced configuration tabs: a Safety tab to manage access rights to the queue and an event manager to initiate specific actions.


Note:

The printer tab displays all the devices configured and linked to the queue in the same way the Information tab does.


Safety

This tab allows you to manage access rights to the queue. This goes along with creating users and user groups as well as the management of access rights to the Web interface menus. To assign access rights to a queue:



(1) Select the type of access:

- Admin: admin users have all action rights on the queue and its devices, as well as on all the jobs in the queue (even those that they do not own).

- Simple: simple users only have action rights on the jobs they own. Simple users do not see the jobs of other users, even if they are put in the same queue.

(2) Use filters to search for a group or a specific user

Note:

A filter is applied to the ‘[‘ character by default so that only user groups are displayed (it is usually recommended that you manage access rights using user groups).

(3) The list on the left displays all the available users and groups which were not assigned rights on the queue yet. Select one or several elements (to select multiple elements at once hold the Ctrl key down), then, click on OX S Iconeplus.png to assign the users or groups to the list on the right.

(4) The list on the right displays all the users and groups which were already assigned rights (Admin or Simple) on the queue. Select one or several elements (to select multiple elements at once hold the Ctrl key down), then, click on OX S IconeMUL.png to withdraw rights from the users or groups.

(5) Validate this action once the configuration is finished.


Event Trigger

This tab allows you to monitor four levels of events on the queue to trigger specific actions.

Type of events

The four types of events are:

- Shell_queue: a queue changes status (form Suspended to Ready and vice versa).

- Shell_device: a device changes status (from Suspended to Ready and vice versa)

- Shell_spool: a job in the queue changes status (new job, switch to Ready, Error, Kept, etc.)

- Shell_user : an event is automatically triggered by a user action (click on a button).


The three first events are automatically triggered by the ONYX Server Spooler so that the user can monitor them using action scripts. When an event is triggered, the Spooler runs the configured script. Below is an example of configuration with the three monitored events, each one using a specific script:

OX S Evnt.png


Note:

The email parameter in the drop down menu of events is used to define an email address which can be used in the script(s). The settings of the SAP section are used in case of a connection with the ERP SAP.


Environment variables

As mentioned previously, the ONYX Server Spooler launches the execution of configured scripts. this implies that all the Mapping environment variables in the scripts are accessible and usable, particularly: PATH_BIN for the binaries path, PATH_TEMP for the temporary folder, PMAP_JOBNUM for the job ID, etc…

Depending on the type of event triggered, additional parameters are also accessible:

  • Shell_queue: all the attributes of the queue
MAP_QUEUE_NAME Name of the queue E.g. INPUT_DATA
MAP_QUEUE_SITE Name of the site in which the queue is declared

E.g. WASQUEHAL

MAP_QUEUE_STATUS Status of the queue after the event was triggered

Values: hold | ready

TMAP_QUEUE_LISTEN Listening modes of the queue

E.g. lpd

MAP_QUEUE_PATH_FILE Job storage path

E.g. E:\MappingWindows\Spooler\global

MAP_QUEUE_PATH_QUEUE Outdated parameter, not used anymore
MAP_QUEUE_BACKUP Name of the backup printer(s), separated by a comma
MAP_QUEUE_DESCRIPTION Description of the queue in the Spooler

E.g. Entry point for input text files

MAP_QUEUE_DEVICES List of the printers linked to the queue (separated by a comma)

E.g. devINPUT_DATA

MAP_QUEUE_USERDATA_ User data defined for the queue

E.g. values of shell_queue, shell_spool, …

MAP_RESULT ready
MAP_USER_REQUEST User which triggered the action Values: internal_user in this case
  • Shell_device: attributes of the queue (above) added to all the attributes of the printer concerned:
MAP_DEVICE_NAME Name of the printer

E.g. devINPUT_DATA

MAP_DEVICE_STATUS Status of the printer after the event was triggered

Values: hold | ready | error

MAP_DEVICE_CONNECT Outdated parameter, not used anymore
MAP_DEVICE_MODE Type of connection

E.g. LPR, RULES, IPDS, …

MAP_DEVICE_SUBMODE Type of print job

E.g. default, mapping, axhiom, …

TMAP_DEVICE_IP IP address of the physical printer
MAP_DEVICE_SHELL Script or program run

E.g. $PATH_BIN/map_809 (Workflows engine)

MAP_DEVICE_LOGIPDS Activation of the IPDS logs
MAP_DEVICE_PORTIPDS Activation of the IPDS logs
MAP_DEVICE_FONTRESOLUTION Font resolution (IPDS)
MAP_DEVICE_PORT Print port

E.g. 515, 9100, …

MAP_DEVICE_REMOTEQ Internal name of the physical printer

E.g. PASS

MAP_DEVICE_XPSMODE Name of the XPS on the fly conversion profile
MAP_DEVICE_TYPESTATUS Status recovery protocol

E.g. NONE, SNMP, PJL, …

MAP_DEVICE_IMPTYPE Type of PJL codes for status messages

E.g. PJL_REF

MAP_DEVICE_LANG Language of the status messages (PJL protocol)
MAP_DEVICE_PATH_QUEUE Outdated parameter, not used anymore
MAP_DEVICE_QUEUE Name of the queue the printer is linked to

E.g. INPUT_DATA

MAP_DEVICE_TIMEOUT Network connection timeout (in seconds)

E.g. 600 (for 10 minutes)

MAP_DEVICE_TIMEOUT_STATUS Délai alloué pour recevoir l’état de l’imprimante (en secondes)

Ex : 10

MAP_DEVICE_REALSTATUS Etat réel de l’imprimante physique

Ex : Prêt - running-idle

MAP_DEVICE_MSGW Message d’erreur

Ex : Impression échouée

MAP_DEVICE_BACKUP La device est-elle une device de backup ?
MAP_DEVICE_MONITOR Protocole de contrôle de l’impression

Ex : SNMP, LPQ

MAP_DEVICE_CUSTOM Paramètres personnalisés
MAP_DEVICE_PERPAGE Unité de page
MAP_DEVICE_RULES Nom du Workflow exécuté

Ex : Factures.rules.xml

MAP_DEVICE_ONERROR Comportement de la device sur erreur

Ex : continue

MAP_RESULT Le résultat de l’action ayant déclenché l’événement

Valeurs : hold | ready | error

TMAP_USER_REQUEST Utilisateur ayant déclenché l’action

Ex : internal_user dans ce cas


Envoyer un fichier dans une file d’attente

Depuis une application tierce, le Spooler ONYX Server est vu comme une imprimante "virtuelle". Pour envoyer des fichiers dans une file d’attente du Spooler, les commandes d’impression sont donc utilisées. ONYX Server dispose de ses propres commandes d’impression : map_lp en local, map_lpr en distant.


MAP_LP en local :

Il s’agit d’une requête directe envoyée au Spooler ONYX Server (c’est le programme map_daemon qui y répond). Deux paramètres sont requis pour cette commande :

- queue:XXX = nom de la file d’attente dans laquelle le fichier sera envoyé.

- data:XXX = chemin complet du fichier à envoyer.

D’autres paramètres sont disponibles sur cette commande (argument --help pour les lister) dont voici les plus courants :

- title:XXX = permet de donner un titre au document dans la file d’attente affiché dans la vue d’exploitation.

- user:XXX = permet de définir le nom d’utilisateur propriétaire du document dans la file d’attente.

- map_hold = le fichier est envoyé avec l’état en attente (ne sera traité qu’après libération).

- map_save = permet de conserver le fichier après son traitement.

- map_retention:NN = permet d’ajouter un délai de rétention (en jours) dans les attributs du spool.


Exemple : les commandes suivantes ajoutent un spool en attente dans la file d’attente INPUT_DATA appartenant à l’utilisateur mapadmin qui possède un délai de rétention de 15 jours et qui passera en état conservé lorsqu’il sera traité.


Sous Windows:

"C:\M-Processing Server\Applications\map_lp" "-queue:INPUT_DATA" "-map_hold" "-map_save" "-map_retention:15"
"-user:mapadmin" "-data:D:\Data\extract\FR_DEMO.txt"

Sous Linux:

"/apps/mapping/bin/map_lp" "-queue:INPUT_DATA" "-map_hold" "-map_save" "-map_retention:15"
"-user:mapadmin" "-data:/opt/data/extract/FR_DEMO.txt"


MAP_LPR en disant :

Il s’agit d’une communication réseau d’impression standard. Les données envoyées à ONYX Server par ce protocole LPR sont réceptionnées en local par le programme map_lpd puis ce dernier ordonne au Spooler d’insérer le document dans la bonne file d’attente.

Trois paramètres sont requis pour cette commande :

- server :NNN.NNN.NNN.NNN = adresse IP (ou nom DNS) du serveur ONYX.

- queue:XXX = nom de la file d’attente dans laquelle le fichier sera envoyé.

- data:XXX = chemin complet du fichier à envoyer.

De plus, suivant la configuration, le server d’écoute LPD d'ONYX Server n’utilise pas forcément le port 515 (port d’impression standard donc peut-être déjà utilisé par une autre application). Dans ce cas, il faudra préciser le port réseau Mapping par l’argument : -port:NNN .

D’autres paramètres sont disponibles sur cette commande (argument --help pour les lister), les plus courants étant identiques à la commande map_lp .


Exemple : les commandes suivantes ajoutent un spool en attente dans la file d’attente INPUT_DATA appartenant à l’utilisateur mapadmin qui possède un délai de rétention de 15 jours et qui passera en état conservé lorsqu’il sera traité.


Sous Windows:

"C:\App\Mapping_client\map_lpr" "-server:192.168.217.57" "-queue:INPUT_DATA" "-map_hold" "-map_save" "-map_retention:15"   
"-user:mapadmin" "-data:D:\Data\extract\FR_DEMO.txt"

Sous Linux:

"/apps/mapping_client/map_lpr" "-server:192.168.217.57" "-queue:INPUT_DATA" "-map_hold" "-map_save" "-map_retention:15"    
"-user:mapadmin" "-data:/opt/data/extract/FR_DEMO.txt"