Modules/VCAEngine

The module provides OpenSCADA for visual control area engine (VCA). The module itself does not implement visualization of VCA, but contains data in accordance with the concept "Model/Data — Interface". The visualization of this module's data is performed by the visualization modules of VCA, such as Vision and WebVision.

Visual control area (VCA) is an integral part of the SCADA system. It applies to the client stations with a view to providing accessible information about the control object and to for the the issuance of the control actions to the object. In various practical situations and conditions the VCA, based on different principles of visualization, may by applied. For example, this may be the library of widgets Qt, GTK+, WxWidgets or hypertext mechanisms based on the technologies HTML, XHTML, XML, CSS and JavaScript, or third-party applications of visualization, realized in various programming languages Java, Python, etc. Any of these principles has its advantages and disadvantages, the combination of which could become an insurmountable obstacle to the use of VCA in a practical case. For example, technologies like the Qt library can create highly-productive VCA, which will undoubtedly important for the operator station for control the technological processes (TP). However, the need for installation of that client software in some cases may make using of it impossible. On the other hand, Web-technology does not require installation on client systems and is extremely multi-platform (it is enough to create a link to the Web-server at any Web-browser) that is most important for various engineering and administrative stations, but the productivity and reliability of such interfaces is lower, that actually eliminates the using of them at the operator stations of TP.

OpenSCADA has extremely flexible architecture that allows you to create external interfaces, including user, in any manner and taste. For example, the OpenSCADA configuration environment available now as by means of the Qt-library, and also the Web-based.

At the same time, independent creation of the VCA implementations in different basis may cause the inability to use the configuration of one VCA in another one. That is inconvenient and limited from the user side, as well as costly in terms of implementation and follow-up support.

In order to avoid these problems, as well as to create as soon as possible the full spectrum of different types of VCA, the project for the construction of the concept of VCA is founded. The result of this project was this engine module (data model) of VCA, as well as direct visualization modules Vision and WebVision.

1 Purpose

This engine module (data model) of the VCA is aimed to create the logical structure of the VCA and the execution of sessions of individual instances of the VCA projects. Also, the module provides all the necessary data to the final visualizers of the VCA, both through local mechanisms of interaction of OpenSCADA, and through the control interface of OpenSCADA for remote access.

Final version of the VCA module will provide:

• three levels of difficulty in the formation of the visualization interface, which allow organically to develop and apply the tools by the principle — from simple to complex:

1. formation from the template frames, by assigning the dynamics and without the graphical configuration;
2. graphical formation of new frames, using ready-made visualization elements from the library - mnemosmes;
3. forming, in the library, new ones: frames, template frames and display elements.

• construction of interfaces for visualization of practically any complexity (limited by the "discreteness" of the primitive functions), ranging from simple monitoring interfaces, and to complete hierarchical interfaces used in SCADA systems;
• providing the different ways of forming and configuration of the user interface, based on different interfaces of graphical representation (Qt, Web, ...), or-through the standard interface of OpenSCADA control;
• construction and correction of the interface, appointment and change of the dynamics in the process of the execution;
• construction, at the user level, of new template frames and the formation of specialized ones, under the scope, libraries of frames (e.g. the inclusion of parameters frames, diagrams and other elements linking them to each other), according to the idea of secondary use, accumulation and improvement;
• construction of new custom visualization elements and the formation of specialized, at the field of application, libraries of frames, according to the idea of secondary use, accumulation and improvement;
• description of the logic of new template frames and user visualization elements as by the simple links as well by the compact and full-featured user programming language;
• possibility of inclusion, to the user's visualization elements, the functions (or frames of functions' calculation) of the object model of OpenSCADA, practically linking the presentation with the algorithm of computation, for example, visualizing the library of the apparatus of TP models for subsequent visual building of the TP models;
• separation the data of the user interfaces and presentation interfaces of these data, allowing to build the user interface in the one environment, and execute in many others (Qt, Web, ...);
• ability to connect to the executable interface for monitoring and correction of actions; for example, training operators and monitoring their actions in real time;
• visual construction of various schemes with overlapping logical connections and subsequent centralized execution in the background - visual construction and execution of mathematical models, logic circuits, relay circuits and other;
• providing, to OpenSCADA, object API functions; can be used to control the properties of the visualization interface from user procedures;
• server construction for: frames, visualization elements and visualization interface projects; with the ability to service multiple client connections;
• simple organization of client stations on different bases (Qt, Web, ...) with the connection to the central server;
• full-featured mechanism for distributing authorities between users that allows you to create and execute projects with different rights to access their components;
• flexible formation of rules of alarms and notifications, with the support of various methods of the notification;
• support of custom formation of the palette and font preferences for the visualization interface, in styles;
• support of the user forming of the events maps under various control equipment and user's preferences;
• support for user profiles, allowing the identification of various properties of the visualization interface (colors, font features, the preferred card of events);
• flexible storage and distribution of libraries of widgets, frames and projects of the visualization interfaces in the databases, supported by OpenSCADA; practically, the user only has to register the received database with the data.

2 Configuration and formation of the VCA interfaces

Module itself does not contain mechanisms for visual creating interfaces of VCA, such tools can be given by the final visualization modules of the VCA, for example such a tool provides by the module Vision.

Although the mechanisms for the visual formation of the VCA the module doesn't provide, the interface to manage the logical structure is provided, implemented on the basis of the control interface of OpenSCADA, and thus it is available for use in any OpenSCADA configurator. Dialogues of this interface are considered further in the context of the architecture of the module and its data.

3 Architecture

VCA, in whole, can operate in two modes — the development and running. In the mode of development, the interface of the VCA and its components is formed, the mechanisms of interaction are determined. In the execution mode, performes the formation of the UI interface and the interaction with the end user, based on the developed VCA.

VCA interface is formed of the frames, each of which, in its turn, formed from elements of the primitives, or user interface elements. Herewith, the user interface elements are also formed from the primitives or other user elements. That gives us a hierarchy and reuse of already developed components.

Frames and user elements are placed in the libraries of widgets. The projects of the interfaces of the final visualization of the VCA are formed from these libraries' elements. Based on these projects the visualization sessions are formed.

The described VCA structure is shown in the Figure.

That architecture of the VCA allows the support of three levels of complexity of the developing process of the control interface:

• Forming of the visualization and control (VC) interface using the library of template frames by placing the templates of the frames in the project and by the assignment of the dynamics.
• In addition to the first level, performing of the formation of own frames based on the library of derivatives and basic widgets. Perhaps as a direct appointment of the dynamics in the widget, and the subsequent appointment of it in the project.
• In addition to the second level, performing of the independently forming of derivatives widgets, new template frames and also the frames with the use of mechanism of describing the logic of interaction and handling of events in the user programming language of OpenSCADA.

3.1 Frames and elements of the visualization (widgets)

Frame is the window, which directly provides information to the user in graphical or text form. The group of interconnected frames creates whole user interface of VC.

Content of the frame forms from the visualization elements (widgets). Widgets may be the basic primitives (different elementary figures, text, trend, etc.) and derivative, formed from the basic or other derivative widgets. All widgets are grouped by libraries. In the process of the work, the user can create his own libraries of derivative widgets.

Actually the frame itself is also a widget that is used as a final element of visualization. This means that the widget libraries can store the blanks of frames and the templates of the resulting pages of the user interface.

Frames and widgets are passive elements that do not normally contain links to the dynamics and other frames, but only provide information about the properties and the nature of the dynamics (configuration), connected to the properties. Activated frames, i.e. containing links to the dynamics and active connections, form the user interface and are stored in the projects. In some cases, it is possible the direct appointment of the dynamics in the blanks of frames.

Derivative frames/widgets can contain included widgets, which can be glued-linked of one another with the logic by the user programming language of OpenSCADA.

The widget is an element through which the following is provided:

• visualization of operational and archive information about TP;
• alarming about violations of conduction the TP;
• switching between the frames of TP;
• control of the technological equipment and the parameters of conduction the TP.

Setting and linkage of the widgets is done through their properties. Parent widget and the widgets it contains, can be complemented by user properties. Then, the user and static attributes, are associated with the properties of included widgets by internal logic. To show the dynamics (current and archived data), properties of the widgets are dynamized, that is linked with the attributes of the parameters of OpenSCADA or properties of other widgets. Using, for linking nested widgets by internal logic, the user programming language of OpenSCADA relieves the issue of implementing a complex visualization logic, thus providing high flexibility. Practically, you can create fully dynamized frames with complex interactions at the user level.

3.2 Project

The direct configuration, and the properties of the final visualization interface, are contained in the visualization interface project of VCA, which can be created a lot.

Each project includes pages from the libraries of the frames/widgets. For a number of modes, the page itself may include nested pages as parent-independent and using parent as a template. The template pages-widgets allow to extremely simplify the process of creating the same type of the frames for easy monitoring by the ACS-TP engineer or the user OpenSCADA. An example of such one-type frames may be: groups of contours, groups of graphs, reports and various summary tables. Mnemonic schemes of the technological processes rarely fall under such scheme and are formed on a separate page-widget.

The page, like the widget on which it is based, provides the ability to bind the dynamics to the properties described in it — links that can be set by dynamics or constants. In addition, linking directly at the project page level are more preferable than performing it at the library widget level.

Example of hierarchical representations of components of the project of the classical interface of VC of the technological process with the description of standard call expressions is given in Figure.

The following special page properties are provided:

• Container — page is the container for the underlying pages.
• Template — page is the template for the underlying pages.
• Empty — empty and inactive page. This property is used in conjunction with the property Container for organization the logical containers.
• Link — link to other page as a container of sub-pages which will be used on the project execution side (sessions) without their different creation.

Based on combinations of these properties the following types of pages are realized:

• Standard — the standard page (no property), it is the full-featured final page.
• Container — the full-featured page with the property of the container (Container).
• Logical container — the logical container is actually not a page (Container|Empty), acts as an intermediate and group element in the page tree.
• Template — the template page (Template). Pure template page that is used to describe common properties and to identify them in nested pages, privately.
• Container and template — the template and container page (Template|Container), combines the functions of the template and the container.
• Link — link to other page. The links can be used for fully dynamic and high replicated pages, to optimize the memory consumption. To different the linked pages opening you must use the attribute "path". The user API function uiCmd() must be used to that pages type managing before the direct writing to the page attributes "pgOpen" and "pgOpenSrc".

On the visualization side (RunTime) a logic is constructed that governs how to open pages based on the following attributes of the basic element "Box":

• pgOpen — sign "The page is opened";
• pgNoOpenProc — sign "Execute the page, even if it is not opened";
• pgOpenSrc — contains the widget address or the page that opened the current page; in the case of an included container widget, here is the address of the included page; to open a page from an internal procedure it is enough to specify the address of the widget-source of opening, but for the pages type "Link" you must prefer of the user API function uiCmd() using to the pages managing;
• pgGrp — group of pages used to link container pages to pages, according to a common group. EMPTY and the "main" group is meant of using this page as the Root-main page, so such ones will replace other Root-main pages; the "fl" group is meant of using in the "fly" windows which are suitable for multiple open and must not be traced for doubles; all other are meant for including to the containers-boxes or single opening, so they forced in checking for doubles when the last one will be opened and the previous ones be closed.

The logic of determining how to open pages works like this:

• if the page has the group "main" or coincides with the page group in the main window or there is no page on the main window, then open the page in the main window;
• if the page has a group which coincides with the group one of the containers of the current page, then open it in the container;
• if the source of the opening page coincides with the current page, then open it as an additional window over the current page;
• send the call to the opening request for additional windows, processing each of the first three items;
• if any one of the relative windows doesn't open the new page, then open it as a related window of the main window.

3.3 Session of the project execution

The project session is expanded tree of the project for direct it execution, which includes an individual task of hierarchical the widget's procedures execution. For each project can be opened many sessions. The end-user visual interface forming performs by the visualizers from data of the project's session, after the session creation by the request.

Between the widgets, at different levels of the hierarchy, finally formed fairly complex hereditary links, which are determined by the possibility of using some widgets by others, ranging from the library widget to the session widget. To explain these features of interaction, the figure shows an exhaustive map of "using" inheritance.

At the session level widget contains a object of values of calculation procedure. This object is initiated and used in the case of presence of the calculation procedure itself. At the time of the initialization, the list of parameters of the procedure is created and a compilation of the procedure is performed with these parameters, in the module that implements the selected programming language and with the name of the resulting procedure in the form of a coded full name of the widget. The compiled function is connected to the object of values of the calculation procedure, and further the calculation is performed with the session period.

Calculation and processing of the widget runs in the following sequence:

• the events available at the time of calculation are selected from the attribute "event" of the widget;
• the events are loaded into the parameter "event" of the object of computation;
• values of the input links are loaded into the object of calculation;
• values of special variables (f_frq, f_start and f_stop) are loaded into the computation object;
• values of selected parameters of the widget are loaded into the object of computation;
• computation;
• uploading the computation object's values to the selected parameters of the widget;
• uploading the events from the parameter "event" of the computation object;
• processing the events and transfer the unprocessed ones at the level above.

The session objects of the project inherit from an abstract object "Widget" and use the appropriate objects of the project. Thus, the session "Session" uses the project "Project" and forms expanded tree on its basis. Project page "Page" is directly used by the session page "SessPage". The remaining objects "SessWdg" are deployed in accordance with the hierarchy of page elements.

In addition to the standard properties of the abstract widget "Widget", elements of the pages and the session pages themselves get the following properties: storage of the object of values of the computational procedure, calculation of the procedures and mechanism for processing of the events. Pages of the session, in addition, contain a container of the following by the hierarchy pages. The session, in general, is calculated with the specified periodicity and in sequence:

• "Page of the top level" -> "Page of the lower level"
• "Widget of the lower level" -> "Widget of the top level"

This policy allows to bypass the pages according to their hierarchy, and events in the widgets "climb up" during one iteration.

The sessions support multi-language at the level of the control interface of OpenSCADA, which depended from values of the generic attributes "lang" and "user" and which visualizer can set in proper way of own language. This function is enabled by dynamic messages translation of OpenSCADA.

3.4 Styles

It knows that people can have individual features in the perception of graphical information. If these features are not taken in the account, it is possible to obtain the rejection and abruption of the user to the interface of VC. This rejection and abruption can lead to fatal errors in the management of TP, as well as traumatize the human by the continuous work with the interface. In SCADA systems, arrangements have been made that regulate the requirements for creating the unified UI interface, which is normally perceived by most people. This is practically eliminates the features of people with some deviations.

In order to take this in the account and allow centralized and easy to change the visual properties of the interface module is implementing a theme manager of the visualization interface.

User can create many themes, each of which will keep the color, font and other properties of the frame elements. Simple changing of the theme will allow you to change the interface of VC, and the possibility of appointing an individual theme in the user's profile allows to take in the account his individual features.

To realize this opportunity, when creating a frame, it is necessary for the properties of color, font and others set the "Configuration" (of the table in the "Process" tab) in the value of "From style". And in the parameter "Configuration template" to specify the identifier of the style field. Next, this field will automatically appear in the style manager and can be modified there. The style manager is available on the project configuration page in the tab "Styles". In this tab, you can the styles create, delete and edit, delete their fields.

Figure. Tab "Styles" of the configuration page of the project.

In general, the styles are available from the project level. At the level of the widget libraries you can only define the style fields for the widgets. At the project level, at the choice of style, it is started the work with styles, which includes access to the fields of styles instead of direct attribute values. In fact, this means that when reading or writing a widget attribute these operations will be carried out with the corresponding field of the chosen style.

When starting a project, the project-style will be used. In the future, the user can choose a style from the list of available. The user-selected style will be saved and used the next time the project is launched.

3.5 Events, their processing and the events' maps

Given the range of tasks for which OpenSCADA may be used, it is necessary to provide a tool for control of interactive user events. This is due to the fact, that in dealing with individual tasks of embedded systems, input and control devices can greatly vary. But it is enough to look at the regular office keyboard and notebook one, that would remove any doubt about the necessity for the manager of events.

The events manager must work using the maps of events. Events map is a list of named events with indicating its origin. The origin of the events can be a keyboard, mouse, joystick, etc. At an event emerge the events manager is looking for it in the active map and compares with the name of the event. A comparison name of the event is placed in the queue for processing. Widgets in this case must process the given queue of events.

The active map of the events is specified in the profile of each user or it is set by default, in planes.

In general, four types of events are provided:

• events of the VCA shapes-primitives (prefix: ws_), for example, the event of pressing of the screen button — "ws_BtPress";
• keyboard events (prefix: key_) — all events from mouse and keyboard in the form of — "key_presAlt1";
• user events (prefix: usr_) are generated by the user in the procedures of the widgets calculation;
• mapping events (prefix: map_) — events from the events map, in planes.

The event itself does not provide enough information, especially if it is processed at the levels above. To uniquely identify the event and its source, the event in the whole is written as follows: "ws_BtPress:/curtime". Where:

ws_BtPress — event;

/curtime — path to the child element that has generated the event.

Table 3.5 provides a list of standard events, the support of which should be provided in visualizers of VCA.

Table 3.5. Standard events

Events are the main notification mechanism and are actively used to interact with the user. There are two mechanisms for processing events:

• Primary — the script of management of pages opening.
• Secondary — the computational procedure of the widget.

The mechanism "Script for the control the opening of pages" based on the basic attribute of the widget "evProc", which can be used for opening the pages. Scenario of this attribute is stored as a list of commands with the syntax: "{event}:{evSrc}:{com}:{prm}". Where:

• event — expected event;
• evSrc — path of the nested widget-source of the event;
• com — session command;
• prm — parameter of the command.

The following commands are implemented:

• open — opening page; page to open is specified in the parameter prm both in direct way and as a template, example: /pg_so/1/*/*;
• next — opening of the next page; page to open is specified in the parameter prm as a template, example: /pg_so/*/*/$;
• prev — opening of the previous page; page to open is specified in the parameter prm as a template, example: /pg_so/*/*/$.

Special characters of the template are deciphered as follows:

• pg_so — direct name of the desired-static page (with the prefix), requires the compulsory accordance and is used to identify the last open page;
• 1 — name of a new page in a general way (without a prefix);
• * — the page is taken from the name of a previous opened page or the first available page is substituted, if the previous opened page is missing;
• $ — points the place of the opened page relative to which you are to go to the next or to the previous one.

For a correct understanding of working the template mechanism, when choosing a page, we give a few real examples:

• Changing the signal object:

Initially: /pg_so/pg_1/pg_mn/pg_1

Command: open:/pg_so/2/*/*

Result: /pg_so/pg_2/pg_mn/pg_1

• Switching of the view type:

Initially: /pg_so/pg_1/pg_mn/pg_1

Command: open:/pg_so/*/gkadr/*

Result: /pg_so/pg_1/pg_gkadr/pg_1

• Next/previous page of the view type:

Initially: /pg_so/pg_1/pg_mn/pg_1

Command: next:/pg_so/*/*/$

Result: /pg_so/pg_1/pg_mn/pg_2

As an example, let's give a script to provide the work of the main page of the user interface: </translate>

ws_BtPress:/prev:prev:/pg_so/*/*/$
ws_BtPress:/next:next:/pg_so/*/*/$
ws_BtPress:/go_mn:open:/pg_so/*/mn/*
ws_BtPress:/go_graph:open:/pg_so/*/ggraph/*
ws_BtPress:/go_cadr:open:/pg_so/*/gcadr/*
ws_BtPress:/go_view:open:/pg_so/*/gview/*
ws_BtPress:/go_doc:open:/pg_so/*/doc/*
ws_BtPress:/go_resg:open:/pg_so/rg/rg/*
ws_BtPress:/so1:open:/pg_so/1/*/*
ws_BtPress:/so2:open:/pg_so/2/*/*
ws_BtPress:/so3:open:/pg_so/3/*/*
ws_BtPress:/so4:open:/pg_so/4/*/*
ws_BtPress:/so5:open:/pg_so/5/*/*
ws_BtPress:/so6:open:/pg_so/6/*/*
ws_BtPress:/so7:open:/pg_so/7/*/*
ws_BtPress:/so8:open:/pg_so/8/*/*
ws_BtPress:/so9:open:/pg_so/9/*/*
ws_BtPress:*:open:/pg_control/pg_terminator

<translate> The mechanism "Processing the events with the help of computational procedure of the widget" is based on the attribute "event" and the user procedure of calculating written with the help of the programming language of OpenSCADA. The events, in process of receipt, are accumulated in the attribute "event" till the moment of call of the computational procedure. The computational procedure is called with the specified frequency of calculating the widget and receives the attribute "event" value as the list of events. In the calculation procedure the user can: analyze, process and delete the processed events from the list, and add to the list new events. The remaining, after the procedure execution, and new events are analyzed for compliance with the conditions of the call by means of script of the primary mechanism, after which the remaining events are transmitted to the upper by the hierarchy widget to be processed by it, with the appending of the events path in accordance with the hierarchy of the penetration.

The content of the attribute "event" is a list of events in the format "{event}:{evSrc}", with the event on the separate line. Here is an example of processing events in the Java-like programming language of the OpenSCADA: </translate>

for(ev_rez = "", off = 0; (sval=event.parse(0,"\n",off)).length; ) {
  if(sval == "ws_BtPress:/cvt_light") alarmSt = 0x1000001;
  else if(sval == "ws_BtPress:/cvt_alarm") alarmSt = 0x1000002;
  else if(sval == "ws_BtPress:/cvt_sound") alarmSt = 0x1000004;
  else ev_rez += sval+"\n";
}
event = ev_rez;

3.6 Signaling (Alarms)

An important element of any visualisation interface is the user notification about the violation — signalling. To simplify the perception, but also in mind the close connectivity of visualisation and notification (as a rule, the notification complements the visualisation) it is decided to integrate the interface of the notification in the visualisation interface. To do this, all the widget provides two additional attributes of the session level: "alarm" and "alarmSt". The attribute "alarm" is used to form the signal by the widget, according to his logic, and the attribute "alarmSt" is used to control the signalling fact of the branch of the session tree.

The "alarm" attribute is a string that has the following format: "{lev}|{categ}|{message}|{type}|{tp_arg}"
Where:

• lev — signalling (alarm) level; number from 0 to 255;
• categ — alarm category; parameter of the acquisition subsystem, object, path, or their combination;
• message — signalling (alarm) message;
• type — type of the notification, is formed as an integer number (0...7), which contains the flags of notification methods; typical notification methods:
  • 1 — visual;
  • 2 — beep tone, is frequently made through the PC-speaker;
  • 4 — sound signal from the sound file or the speech synthesis, and if in the tp_arg the name of the resource of the sound file is specified, then play it, or in other case the speech synthesis from the text specified in message is made.
• tp_arg — argument of the type; often used to directly indicate the resource of a sound signal — a file of sound format, when the sound signal is made.

Attribute "alarmSt" is an integer number that represents the maximum alarm level and the fact of the quietance of the branch of the tree of the session. Format of the number is as follows:

• first byte (0...255) characterises the level of the alarm of the branch;
• the second byte indicates the type of notification, as well as in the attribute "alarm";
• the third byte indicates the type of notification without quietance, as well as in the attribute "alarm";
• the fourth byte has a special appointment, which is defined by separate bits:
  • bit 0 — indicates, by sets, to the quietance fact of the notification in the first byte;
  • bit 1 — indicates, by sets it and the bit 0, to the quietance return — enable back the quietance.

Alarm forming and receiving of it by the visualiser.
The alarm forming is performed by the widget itself, by setting its own attribute "alarm" in appropriate way and, in accordance with it, the attribute "alarmSt" of the current and the parent widget. Visualisers receive signal notifications using the standard mechanism of notification about changes of the widget attributes.

Taking in account that the processing of the signalling conditions is made in the widgets, the pages containing the objects of signalling should be executed in the background, regardless of their openness to the moment. This is done by setting a flag of the background execution of the page.

Although the mechanism of signalling is built in the visualisation area, the possibility of forming non-visual elements of signalling remains, for example, by creating a page that will never open.

Quietance
Quietance — approving process is a fact of the operative personal take its attention to the violation in the TP work. The process mostly means of take actions for the violation eliminating and pressing to the button of the alarm quieting.

Quietance performs by specifying the root of the branch of the widgets and the types of notification, which allows to make quietance on the side of the visualiser, as in groups, for example, on the signalling object, and individually by the object of the source. It is possible to independently quietance different types of alarms. Setting of the quietance is made by the simple modification of the attribute "alarmSt".

Example of the script to work with the signals gives below:

//Separating the fact of the presence of alarms of different methods-types of notification
cvt_light_en = alarmSt&0x100; cvt_alarm_en = alarmSt&0x200; cvt_sound_en = alarmSt&0x400;
//Separating the fact of the presence of alarms without quietance of various ways of notification
cvt_light_active = alarmSt&0x10000; cvt_alarm_active = alarmSt&0x20000; cvt_sound_active = alarmSt&0x40000;
//Processing of the button's events of quietance and the quietance for different ways of notification
for(ev_rez = "", off = 0; (sval=event.parse(0,"\n",off)).length; ) {
  if(sval == "ws_BtPress:/cvt_light") alarmSt = 0x1000001;
  else if(sval == "ws_BtPress:/cvt_alarm") alarmSt = 0x1000002;
  else if(sval == "ws_BtPress:/cvt_sound") alarmSt = 0x1000004;
  else ev_rez += sval + "\n";
}
event = ev_rez;

External notification methods
The first and the typical method of notifications is screen's light notification by alarm colors and its dynamic about proper visual elements, which always presents and does not require of specific configuration. But often we need for an external type notification, for example: external lamp, PC buzzer or "howler", arbitrary sound, synthesised speech and etc.

In order to realize this possibility, the external methods of the notification and the corresponding notification types, are freely described for the visualisation server and the visualiser itself. On the side of the visualisation server, the formation/receipt of the notification resource and the notification itself is described. On the side of the visualiser, the notification is described according to the resources of the visualisation server.

Description of the rules and scenarios of the notifications performs with user attributes of the text type for pages of the visualisation project, which applies at the page open. That is, potentially, for each open page, you can describe your own rules of the notification, though, it's usually enough and describes the general rules of the notification on the project's main page — a page that opens one-off and does not close at work:

• For the visualisation server/engine, by the attribute "notify{N}" in the format:

//flags=notifyServ[{DL}][|resource[|queue[|qMergeMess]]]
//resStatic={ResourceFile}
if(doRes) { The command text to form the resource. }
if(doNtf) { The command text to notify. }

• For a visualiser by the attribute "notifyVis[Vision|WebVision]{N}" in the format:

//flags=notify[{DL}][|resource[|queue[|quietanceRet]]]
//name={The notifier name}
//ico={The icon name}
{ The notification command text to any or concrete visualiser. }

Flags:

• notify[{DL}], notifyServ[{DL}] — enables the notification with the repeating by the time DL, if the set; for DL = 0 the repeat carried out immediately; notifyServ[{DL}] is used to force the server side notification instead visualiser with notify[{DL}].
• resource — request-form (force) the notification resource from the visualisation server, can be an audio file, a text or other data for the notification produce; but currently the notifiers mostly expect audio.
• queue — the notification resources are determined not only by the global sign of alarming and quietance, but also according to the priority sources queue of the notification-resources. The queue is formed on the side of the visualisation server, and for the visualisers it is indicated the need to work with it when requesting resources.
• qMergeMess — merging the notifications in the queue by equality their messages.
• quietanceRet — possibility of the visualiser for the quietance recall-return i.e. in fact — the notification enable back.

Presence of the field "resStatic" enables the resource obtaining directly from the resource table or a file, pointed in the way like to the "Media" primitive.

The exchanging variables:

• en[0,1] — the notification enable (1) or disable (0);
• doNtf[0,1] — call the script of the notification;
• doRes[0,1] — call the script of the resource forming;
• res — content or content's file name of the resource, for the external scripts;
• resTp — resource type, like to "audio/ogg"; is return and placed to stdout (for Shell) for doRes;
• mess — message-parameters of the forming the resource and the notification;
• lang — language of the current user or system;
• prcID — the procedure unique ID (like to "ses_AGLKS_ntf2"), mostly for temporary files safe creation.

The examples and comments to work of the typical notification methods:

• Beep (buzzer) on the visualiser (flags=notify0) or the visualisation server (flags=notifyServ0) side with repeating and control the playing:

</translate>

• alarm = "10|Prm||0x02"
• notifyVisVision1 | notify1 =

//flags=notify0|notifyServ0
if(en && (ntfPrg=SYS.system("which beep")).length &&
    (SYS.system("test -s "+prcID+".pid",true) ||		//No PID file
     SYS.system("ps -A -o \"pid cmd\" | grep \"^ *$(cat "+prcID+".pid).*"+ntfPrg.parseLine(0)+"\" > /dev/null",true)) )	//No notify already
{
    ntfPrg = ntfPrg.parseLine(0);
    SYS.system(ntfPrg+" -f 1000 -l 100000 &\necho $! > "+prcID+".pid", true);
}
else if(!en && !SYS.system("test -s "+prcID+".pid",true))
    SYS.system("kill $(cat "+prcID+".pid); rm "+prcID+".pid "+prcID+".res;", true);

• notifyVisVision1 | notify1 =

#!/bin/sh
#flags=notify0|notifyServ0
if test $en = 1; then
    ntfPrg=$(which beep)
    #No PID file || No notify already
    if test ! -s $prcID.pid || ! ps -A -o "pid cmd" | grep "^ *$(cat $prcID.pid).*$ntfPrg" > /dev/null; then
      $ntfPrg -f 1000 -l 100000 &
      echo $! > $prcID.pid
    fi
elif test -s $prcID.pid; then
    kill $(cat $prcID.pid)
    rm $prcID.pid $prcID.res
fi

<translate>

• Repeating play for a ready audio file, one common, on the visualiser (flags=notify2) or the visualisation server (flags=notifyServ2) side, duration of the audio file for the internal language must be not more 10 seconds:

</translate>

• alarm = "10|Prm||0x04"
• notify2 | notifyVisVision2 =

//flags=notify2|notifyServ2
if(en) SYS.system("play -q alarm.ogg");

• notify2 | notifyVisVision2 =

#!/bin/sh
#flags=notify2|notifyServ2
if test $en = 1; then play -q alarm.ogg; fi

<translate>

• Play an individual audio file for the source, on the visualisation server side, duration of the audio file for the internal language must be not more 10 seconds:

</translate>

• alarm = "10|Prm||0x04|res:al_prm1"
• notify2 =

//flags=queue

• notifyVisVision2 =

//flags=notify2|queue
if(doNtf && en && res.length) {
  SYS.fileWrite("tmpPlay", res);
  SYS.system("play -q tmpPlay");
  SYS.fileRemove("tmpPlay");
}

• notifyVisVision2 =

#!/bin/sh
#flags=notify2|queue
if test $doNtf = 1 -a $en = 1 -a -s $res; then play -q $res; fi

<translate>

• Speech synth for an individual message for the source, on the visualiser side, duration of the message for the internal language must be not more 10 seconds:

• alarm = "10|Prm|Text message of the speech synth|0x04"

</translate>

• notify2 =

//flags=queue

• notifyVisVision2 =

//flags=notify2|queue
if(doNtf && en && mess.length) {
  SYS.fileWrite("tmpForSpeech", mess);
  SYS.system("festival --tts tmpForSpeech");
  SYS.fileRemove("tmpForSpeech");
}

• notifyVisVision2 =

#!/bin/sh
#flags=notify2|queue
if test $doNtf = 1 -a $en = 1 -a "x" != "x$mess"; then
  echo $mess > tmpForSpeech
  festival --tts tmpForSpeech
  rm tmpForSpeech
fi

<translate>

• Preparing a sound file, one common, and playing it on the side of the visualiser (flags=notifyServ2) or the visualisation server (flags=notifyServ2), duration of the audio file for the internal language must be not more 10 seconds:

</translate>

• alarm = "10|Prm||0x04"
• notify2 =

//flags=notify2|notifyServ2|resource
if(doRes) res = SYS.fileRead("alarm.ogg");  //Insert here a different method of the generation
if(doNtf && en && res.length) {
  SYS.fileWrite("tmpPlay", res);
  SYS.system("play -q tmpPlay");
  SYS.fileRemove("tmpPlay");
}

• notify2 =

#!/bin/sh
#flags=notify2|notifyServ2|resource
if test $doRes = 1; then cp -f alarm.ogg $res; fi  #Insert here a different method of the generation
if test $doNtf = 1 -a $en = 1 -a -s $res; then play -q $res; fi

• notifyVisVision2 =

//flags=notify2|resource
if(en && res.length) {
  SYS.fileWrite("tmpPlay", res);
  SYS.system("play -q tmpPlay");
  SYS.fileRemove("tmpPlay");
}

• notifyVisVision2 =

#!/bin/sh
#flags=notify2|resource
if test $en = 1 -a -s $res; then play -q $res; fi

<translate>

• Prepare an individual audio file for the source of notification through the speech synth, on side of the visualiser (flags=notify2) or the visualisation server (flags=notifyServ2), duration of the message for the internal language must be not more 10 seconds:

• alarm = "10|Prm|Text message of the speech synth|0x04"

</translate>

• notify2 =

//flags=notify2|notifyServ2|queue
if(doRes && mess.length) {
 SYS.fileWrite("tmpText", mess);
 SYS.system("text2wave tmpText -o tmpWAV");
 res = SYS.fileRead("tmpWAV");
 SYS.fileRemove("tmpText"); SYS.fileRemove("tmpWAV");
}
if(doNtf && en && res.length) {
 SYS.fileWrite("tmpPlay", res);
 SYS.system("play -q tmpPlay");
 SYS.fileRemove("tmpPlay");
}

• notify2 =

#!/bin/sh
#flags=notify2|notifyServ2|queue
if test $doRes = 1 -a "x" != "x$mess"; then
 echo $mess > tmpText
 text2wave tmpText -o $res
 rm tmpText
fi
if test $doNtf = 1 -a $en = 1 -a -s $res; then play -q $res; fi

• notifyVisVision2 =

//flags=notify2|queue
if(en && res.length) {
 SYS.fileWrite("tmpPlay", res);
 SYS.system("play -q tmpPlay");
 SYS.fileRemove("tmpPlay");
}

• notifyVisVision2 =

#!/bin/sh
#flags=notify2|queue
if test $en = 1 -a -s $res; then play -q $res; fi

3.7 Rights management

For the separation of access to the interface of VC and its components, every widget contains information about the owner, its groups and access rights. Access rights are recorded, as adopted in OpenSCADA, as a triad: "{user}{group[,group1,groupN]}{other}", where each element consists of two attributes of the access, for which the following interpretation is adopted:

• r — the right to review the widget;
• w — the right to control over the widget.

In the development mode a simple scheme of accessing "root:UI|RWRWR_" is used, which means — all users can open and view the libraries, their components and projects, and all users of the group "UI" (user interfaces) can edit.

In the runtime mode the rights work, described in the interface components, which include the ability to inherit the owner and rights from the top to the bottom. Wherein, by default, the inheritance enabled for each widget, then they get the owner and the rights of the project. At the same time, the direct setting of the rights of the complex widget will propagate them to all components of this widget.

3.8 Linkage with the dynamics

To provide the visualization interface of relevant data, data from the subsystem "Data acquisition (DAQ)" should be used. The nature of these data is as follows:

1. parameters that contain some number of attributes;
2. attributes of the parameter can provide information of five base types: "Boolean", "Integer", "Real", "String" and "Object";
    where appended the VCA modifiers: "Selectable"; String variants: "Text", "Translation", "Color", "Image", "Font", "Address"; Integer variants: "DateTime".
3. attributes of the parameter can have their archive (history);
4. attributes of the parameter can be set to read, write and with full access.

Given the first point, it is necessary to provide the possibility of group-based reference. To do this, we use the logical level concept.

According to point 2, the links provide a transparent type conversion and do not require a special configuration.

To satisfy the opportunities for accessing to archives, in accordance with the item 3, links make check of the attribute type, and in the case of connection to the "Address", the address of the link is put into the value.

In the VCA terms, the dynamic links and configuration of the dynamics are the one process, to describe a configuration of which the tab "Processing" of the widgets is provided. The tab contains a table of configuration of the attributes properties and the calculation procedure text of the widget.

Figure. Tab "Processing" of the configuration page of the widget.

In addition to configuration fields of the attributes the column "Processing" in the table provides, for selective using of the attributes in the computational procedure of the widget, and the columns "Configuration", "Configuration template", to describe the links configuration.

If the "Processing" column is true, then the variable {widget ID}_{attribute ID} becomes available in the computational procedure, for example cw_value.

The column "Configuration" allows to specify the link type of the widget attribute:

• Constant — in the tab of widget links the field for indication of a constant appears, for example, of the special color or header of the template frames.
• Input link — linkage with the dynamics for read-only.
• Output link — linkage with the dynamics just for writing.
• Full link — complete linkage with dynamic, read/write.
• From style — take the value from the project's style.

The column "Configuration template" makes it possible to describe the groups of dynamic attributes. For example, it may be different types of parameters of the subsystem "DAQ" and other interface widgets. With the correct formation of this field, the mechanism of automatic assignment of attributes is worked, with only the parameter of the subsystem "DAQ" or the widget of the interface, which simplifies and accelerates the configuration process. Value of this column has the following format:

• For constant: direct the attribute value.
• For link: "{parameter}|{identifier}", where:
  • parameter — group of the attribute;
  • identifier — identifier of the attribute; same the value is compared with the attributes of the DAQ parameters with automatic linkage, after the group link indication.
• For style: identifier-name of the style field.

There may be several types of links, that are defined by the prefix:

• val: — Direct download value through the link mechanism. For example, the "val:100" link loads value 100 to the widget attribute. Often used in the absence of a terminal point of linking, for the purpose of directly setting the value.
• prm: — Link to the parameter attribute or parameter, in general, for the attributes group of the "Data acquisition" subsystem. For example, the link "prm:/LogicLev/experiment/Pi/var" performs the access of the widget attribute to the parameter attribute of the subsystem "Data acquisition". Sign "(+)" at the end of the address indicate about successful linking and presence of the target. For object-type attributes, permissible hierarchical access to a specific property of the object, by specifying its path through the symbol '#', for example: "prm:/LogicLev/experiment/Pi/var#pr1/pr2".
• wdg: — Link to the attribute of another widget or widget, in general, for the attributes group. For example, the link "wdg:/ses_AGLKS/pg_so/pg_1/pg_ggraph/pg_1/a_bordColor" performs the access of the attribute of one widget to the attribute of another one. Supported both absolute and relative paths of the links. The reference point of the address of the absolute link is the root object of the module "VCAEngine", which means — the first element of the absolute address is ID of the session or project. The first element, on the side of the session, drops, so the links, installed in the project, work there. Relative links take a countdown from the widget where the link is specified. A special element of relative link is an element of a higher node "..".
• arh: — A special type of the link, available only for a separate attribute of the type "Address", which allows you to connect directly to the value archive ("arh:CPU_load"). It may be useful to specify the archive as a data source for the primitive "Diagram".

Processing of the links occurs at a period of the widget calculating in the following order:

• receiving the data from the input links;
• performing the calculation of the widget procedure;
• transmission the values by the output links.

The figure shows a tab of links for group attributes, by specifying only the parameter. The following figure shows the individual attribute assignment.

Figure. Tab "Links" of the configuration page of the widget with the group assignment of the attributes by the specifying only the parameter.

Figure. Tab "Links" of the configuration page of the widget with the individual assignment of the attributes.

When placing a widget in the widget container, all links of the original widget are added to the list of resulting links of the widget container, however, only to a depth at one level of nesting.

Figure. Tab "Links" of the configuration page of the widgets container, including widgets with links.

From the foregoing it is clear that the links are set by the user during the configuration of the interface. However, in order to allow the creation of general-purpose frames with the function of providing detailed data of different sources of the same type, a dynamic linking mechanism is required. Such a mechanism is foreseen:

• reserving the key identifier "<page>" for the group of attributes of links in general purpose frames;
• dynamically assigning links to the identifier "<page>" in the process of opening a general-purpose frame by the signal from another widget.

Let's examine the example when we have the frame of general-purpose "Control panel of graph" and a lot of "Graphs" in different frames. "Control panel of graph" has links with the templates:

• tSek -> "<page>|tSek"
• tSize -> "<page>|tSize"
• trcPer -> "<page>|trcPer"
• valArch -> "<page>|valArch"

In this case, each widget "Graph" has attributes "tSek", "tSize", "trcPer" and "valArch". Calling the "Control panel of graph" by opening signal from any widget "Graph", the attributes of the "Control panel of graph" are linked together with the attributes of the "Graph" widget, according to the template. As a result, all changes in the "Control panel of graph" will be displayed on the graph, through these links.

If the "Graph" widget has external links to the parameters of the "Data acquisition" subsystem, the "Control panel of graph" links will be installed on the external source. Additionally, if the "Control panel of graph" will be declared the links to the missing attributes directly in the widget "Graph", then the search will be made for the presence of such attributes in the external source — the first one on which a direct link is established, performing, thereby, the addition of the missing links.

To visualize this mechanism the table is provided.

Table. The mechanism of the dynamic linkage.

3.9 Primitives of the widgets

Any newly created widget is based on one of several primitives — end element of the visualization, by installing of the kinship as directly to the primitive, as well as through the several intermediate user widgets. Each of the primitives contains a mechanism of the data model. An instance of the widget stores the properties values of the primitive own configuration.

The tasks of the visualization interface include support and work with the data model of the widgets primitives. The widgets primitives should be thoroughly worked out and unified, in order to capture as many opportunities as possible in a smaller number of poorly linked, with the purpose, primitives.

Table. Library of the primitives of the widgets — basic elements of the visualization.

Table. The common set of properties/attributes in the widget

* — Special function of the widget attribute which executing in the project session at any user's modification.

The engine of the visualization environment provides activation of the visualizer specific attributes. The activation process performs at opening a session of the project and means for the project: creation of the specific attribute with the specified properties, at case it lack, and activation for tracing its modification by the engine of the visualization environment, like to the attributes of forming primitive's shapes. To direct specifying such attribute you can also use the prefix "vs_" to the attribute identifiers, what is mach faster and excludes of the activation stage. For the specific attributes list of the visualizer you can see the documentation of the proper visualizer.

3.9.1 Elementary graphical figure (ElFigure)

The primitive is the basis for drawing basic graphical shapes with their possible combinations in a single object. Taking in the account the wide range of various shapes, which must be maintained by the primitive, and at the same time the primitive must be simple enough for using and, if possible, for implementation, it was decided to limit the list of the basic figures used for the construction of the resulting graphics to these figures: line, arc, Bézier curve and fill of the enclosed spaces. Based at these basic figures, it is possible to construct derived figures by combining the basic. In the context of the primitive, there is a possibility to set the transparency of the color in the range [0...255], where '0' — complete transparency.

Table. List of additional properties/attributes of the primitive "Elementary figure (ElFigure)"

3.9.2 Element of the form (FormEl)

A primitive, designed to provide the user with standard elements of the form. The general attribute list depends on the element type.

Table. List of additional properties/attributes of the primitive "Element of the form (FormEl)"

<tbl>
<h><s>{Header1}</s><s>{Header2}</s></h>
<r><s>{Row1Column1String}</s><i>{Row1Column1Integer}</i></r>
<r><b>{Row2Column1Logical}</b><r>{Row2Column2Real}</r></r>
</tbl>

3.9.3 Text element (Text)

This primitive is intended for outputting plain and HTML text used as labels and different signatures. In order to create decorations, primitive supports the surrounding of the text by frame.

Table. List of additional properties/attributes of the primitive "Text element (Text)"

3.9.4 Element of visualization of media-materials (Media)

This primitive is intended for playing various media materials, ranging from simple images to high-quality audio and video streams.

Table. List of additional properties/attributes of the primitive "Element of visualization of media-materials (Media)"

3.9.5 Element of constructing diagrams (Diagram)

This primitive targeted to construct various diagrams in the time, including graphs-trends showing ongoing process and the archive data. Following types of the diagrams are implemented:

• "Graph-trend" — builds a graph of the parameter values in the time.
• "Spectrum" — builds the frequency spectrum of the parameter values. Window of the data of the frequency spectrum is formed on the basis of the horizontally size of the widget, in pixels, and the available data of the parameters imposed on the grid of the horizontal size. Due to this, the minimum allocated frequency is determined by the value of the attribute "tSize" — "1/tSize", and the maximum one is determined by half-width of the graph in pixels multiplied by the minimum frequency "width/(2*tSize)".
• "XY" — builds the two-dimensional graph of the parameters values, by pairs to one graphic, where paired by axis Y (0,2,4...) and unpaired by axis X (1,3,5...). Specified data time range is used in the received values of the parameters of the X and Y axis, with the subsequent imaging.

For all the diagram types possible to set, as the data source:

• parameter of the subsystem "DAQ";
• value archive;
• direct data block from the user.

The tracking mode is supported for current values and values from the archive, and it is possible to construct graphs of parameters that do not have a value archive by accumulating the current values in the buffer of the diagram and only at the moment of active display of this diagram.

Process of access to archival data is optimized by introducing an intermediate buffer of displaying, as well as the packaging of data traffic upon request, by bringing the data to a quality sufficient to display.

Table. List of additional properties/attributes of the primitive "Element of constructing diagrams (Diagram)"

3.9.6 Element of building the protocols based on the message archives (Protocol)

This primitive is designed to visualize the data of the message archive through the formation of protocols with different ways of visualization, starting from a static scanning view and finishing with dynamic tracing.

Table. List of additional properties/attributes of the primitive "Element of building the protocols based on the message archives (Protocol)"

3.9.7 Element of formation of the documentation (Document)

The primitive is intended for the formation of reporting, operational and other documentation based on document templates.

Table. List of additional properties/attributes of the primitive "Element of formation of the documentation (Document)"

<body docProcLang="JavaLikeCalc.JavaScript">
  <h1>Value<?dp return wCod+1.314;?></h1>
</body>

Features of the primitive "Document":

• Flexible formation of document structure based on HyperText Markup Language, which provides support for a wide range of features in the documents formatting.
• Formation of the documents at a command or a schedule, which necessary for creation of reports to the archive and then reviewing the archive.
• Formation of the documents in real time, to provide them completely dynamically and on the basis of archives at the specified time.
• Using the widget attributes for transmission to the document of values and addresses to the archives, which allows you to use the document widget as a template when generating reports with other input data.

The basis of any document is the XHTML template. The XHTML-template is the tag "body" of the WEB-page which contains the document's static in the standard XHTML 1.0 and elements of the executable instructions in the user programming language of OpenSCADA in the view <?dp {procedure} ?>. The resulting document is formed by the procedures execution and insertion of their result into the document.

The source for values of the executable instructions are the widget attributes of the primitive, as well as all the mechanisms of the user programming language OpenSCADA. Attributes may be added by the user and they can be linked to the actual attributes or parameters or they can be autonomous, values of which will be formed in the widget procedure. In the case of linked attributes the values can be extracted from the archive-history.

The figure shows the structure of the widget of the primitive "Document". According to this structure, "Document" contains: XHTML template, results documents and data processing procedure. Data source of the procedure and output documents is attributes of the widget.

Figure. Block diagram of the primitive "Document".

Working in two modes is provided: "Dynamic" and "Archive". Difference between archive mode is the availability of the archive of the specified depth and attributes which allow you to control the process of archiving and viewing of the document in the archive.

Generation of the document is always performed at the time of setting of the attribute time relative to the earlier set begin time of the document in the attribute bTime. With the archive turned off the resulting document is placed directly in the attribute doc. When the archive is turned on the resulting document is placed in the cell under the cursor, the attribute aCur, as well as in doc if value of the archive cursor aCur and the visualized document cursor vCur match. Attributes of the archival cursors provide several command values:

• "aCur < 0" — moves the archiver cursor to the following position, thereby leaving the previous document in the archive and clearing the document under the cursor, at short the circle archive.
• "vCur == -1" — selecting the next document to be displayed, the selected document is copied to the attribute doc.
• "vCur == -2" — selecting the previous document to be displayed, the selected document is copied to the attribute doc.

As mentioned above, the dynamics of the document template is determined by inserts of executable instructions of the view "<?dp {procedure} ?>". The procedures may use the same attributes of the widget and functions of the user programming interface of OpenSCADA. In addition to widget attributes, special attributes are reserved, see the table.

Table 3.8.7.a. Special and reserved elements of the template.

3.9.8 Container (Box)

The container primitive is used to build composite widgets and/or the pages of the user interface.

Table. List of additional properties/attributes of the primitive "Container (Box)"

3.10 Database using to store libraries of widgets and projects

Storing data widgets, widget libraries and projects is implemented in DB, accessible by OpenSCADA. The database is organized according to the data belonging to the library-project. That is, a separate library-project is stored in a separate group of database tables. The list of widget libraries is stored in the index table of libraries called "VCALibs" and the "Libs" structure, and the list of projects in the index table "VCAPrjs" and the structure "Projs". An instance of these tables is created in each database where the data of this module is stored. The tables belonging to the widget library and the project include the following:

• "{DB_TBL}" — table of widgets belonging to the library (structure "LibWigets"), or pages belonging to the project (structure "ProjPages");
• "{DB_TBL}_io" — table of working properties of widgets and nested widgets of the library (structure "LibWidgetIO") or properties of project pages (structure "ProjPageIO");
• "{DB_TBL}_uio" — table of user properties of widgets and nested widgets of the library (structure "LibWidgetUserIO") or user properties of project pages (structure "ProjPageUserIO");
• "{DB_TBL}_incl" — table of widgets, included in widgets-containers, of the library (structure "LibWidgetIncl") or the project (structure "ProjPageWIncl");
• "{DB_TBL}_mime" — table of library resources and its widgets (structure "LibWidgetMime"), or the project and its pages (structure "ProjMime");
• "{DB_TBL}_stls" — table of values of styled parameters of the project (structure "PrjStlsIO");
• "{DB_TBL}_stl" — old-deprecated table of values of styled parameters of the project (structure "PrjStlIO");
• "{DB_TBL}_ses" — table of data for the project execution mode, that is, sessions (the structure of "PrjSesIO").

{DB_TBL} is currently formed in the way "wlb_{ID}" for libraries and "prj_{ID}" for the projects, and the separate field DB_TBL of the tables "Libs", "Projs" is deprecated and will be removed in the OpenSCADA 1.0 release!

Projections (structures) of basic tables are as follows:

• Libs(ID, NAME, DSCR, DB_TBL, ICO) — libraries of the widgets ID.

ID — identifier;

NAME — name;

DSCR — description;

DB_TBL (DEPRECATED) — root of the tables of DB with the widgets;

ICO — encoded (Base64) image of the icon of the library.

• LibWigets(ID, ICO, PARENT, PROC, PROC_PER, ATTRS, TIMESTAMP) — widgets ID of the library.

ID — identifier;

ICO — encoded (Base64) image of the icon of the widget.

PARENT — address of the basic widget, in the view /wlb_originals/wdg_Box;

PROC — internal procedure and procedure language of the widget;

PROC_PER — period of the computation of the widget procedure;

ATTRS — list of attributes of the widget, modified by the user.

TIMESTAMP — time-stamp of the last modification.

• LibWidgetIO(IDW, ID, IDC, IO_VAL, SELF_FLG, CFG_TMPL, CFG_VAL) — work attributes ID of the widget IDW of the child widget IDC.

IDW — identifier of the widget;

ID — identifier of the attribute;

IDC — child widget identifier;

IO_VAL — value of the attribute;

SELF_FLG — internal flags of the attribute;

CFG_TMPL — template of the configuration element based on this attribute;

CFG_VAL — value of the configuration element (link, constant ...).

• LibWidgetUserIO(IDW, ID, IDC, NAME, IO_TP, IO_VAL, SELF_FLG, CFG_TMPL, CFG_VAL) — user attributes ID of the widget IDW of the child widget IDC.

IDW — identifier of the widget;

ID — identifier of the attribute;

IDC — child widget identifier;

NAME — name of the attribute;

IO_TP — type and main flags of the attribute;

IO_VAL — value of the attribute;

SELF_FLG — internal flags of the attribute;

CFG_TMPL — template of the configuration element based on this attribute;

CFG_VAL — value of the configuration element (link, constant ...).

• LibWidgetIncl(IDW, ID, PARENT, ATTRS) — included into the container IDW widgets ID.

IDW — identifier of the widget;

ID — identifier of the included widget instance;

PARENT — address of the basic widget, in the view /wlb_originals/wdg_Box;

ATTRS — list of attributes of the widget, modified by the user.

• LibWidgetMime(ID, MIME, DATA) — audio, video, media and other resources of the widgets ID of the library.

ID — identifier of the resource.

MIME — MIME of the resource, in the format — "{MIME};{Size}".

DATA — resource data, encoded with Base64.

• Projs(ID, NAME, DSCR, DB_TBL, ICO, USER, GRP, PERMIT, PER, FLGS, STYLE) — projects ID of the visualization interface.

ID — identifier of the project;

NAME — name of the project;

DSCR — description of the project;

DB_TBL (DEPRECATED) — root of the tables of DB with the pages;

ICO — encoded (Base64) image of the icon of the project;

USER — owner of the project;

GRP — users group of the project;

PERMIT — rights of access to the project;

PER — period of the project computation;

FLGS — flags of the project;

STYLE — typical style of the project.

• ProjPages(OWNER, ID, ICO, PARENT, PROC, PROC_PER, FLGS, ATTRS, TIMESTAMP) — pages ID which are hold in the project-page OWNER.

OWNER — project-page — owner of the page, in the format — "/AGLKS/so/1/gcadr";

ID — identifier of the page;

ICO — encoded (Base64) image of the icon of the page;

PARENT — address of the basic widget of the page, in the format /wlb_originals/wdg_Box;

PROC — internal procedure and procedure language of the page;

PROC_PER — period of the computation of the widget procedure;

FLGS — flags of the page;

ATTRS — list of attributes of the widget, modified by the user;

TIMESTAMP — time-stamp of the last modification.

• ProjPageIO(IDW, ID, IDC, IO_VAL, SELF_FLG, CFG_TMPL, CFG_VAL) — working attributes of the pages. The structure actually corresponds to the table "LibWidgetIO".
• ProjPageUserIO(IDW, ID, IDC, NAME, IO_TP, IO_VAL, SELF_FLG, CFG_TMPL, CFG_VAL) — user attributes of the pages. The structure actually corresponds to the table "LibWidgetUserIO".
• ProjPageWIncl(IDW, ID, PARENT, ATTRS) — widgets, included on the page. The structure actually corresponds to the table "LibWidgetIncl".
• ProjMime(ID, MIME, DATA) — audio, video, media and other resources of the project pages. The structure actually corresponds to the table "LibWidgetMime".
• PrjStls(SID, ID, VAL) — the value VAL of the field ID of the style IDS of the project.

IDS — identifier of the style;

ID — identifier of the style's field;

VAL — value of the style field.

• PrjStl(ID, V_0, V_1, V_2, V_3, V_4, V_5, V_6, V_7, V_8, V_9) — value of the style's field ID of the project.

ID — identifier of the style's field;

V_{N} — value of the style's field for the style N.

• ProjSess(IDW, ID, IO_VAL) — project table IDW for data storage of the sessions, performing the project.

IDW — full path of the project element;

ID — attribute of the element;

IO_VAL — value of the element.

3.11 API of the user programming

API of the user programming of the visualization engine are represented directly by the OpenSCADA objects, which form the user interface, that is by the "Session" and "Widgets-pages". For the user, these objects provide a set of control functions:

Object "Session" ( this.ownerSess() )

• string user( ) — current session user.
• int alrmQuietance( int quit_tmpl, string wpath = "", bool ret = false ) — quiets of the violations wpath with the template quit_tmpl. If wpath is empty string then the global quietance makes. In the string wpath, by symbol ';', can be enumerated addresses of several widgets. When set the ret, the quietance return is performed.
• int reqTm( ) — last request time in seconds from the epoch of 1/1/1970.
• string reqUser( ) — last request user.
• string reqLang( ) — last request language.
• int userActTm( ) — last user action time in seconds from the epoch of 1/1/1970.
• bool uiCmd( string cmd, string prm, string src ) — sends a UI command of the pages managing, that is: "open", "next", "prev"; for more details see in the events section. This function must be in the priority of using to the pages managing before the direct writing to the page attributes "pgOpen" and "pgOpenSrc" due it is single method of the correct work with the linked pages.
• int period( bool isReal = false ) — getting the session processing period, isReal for the real one.

Object "Widget" (this)

• TCntrNodeObj ownerSess( ) — session object for the current widget.
• TCntrNodeObj ownerPage( ) — parent page object for the current widget.
• TCntrNodeObj ownerWdg( bool base = false ) — parent widget object for the current widget. If set base then returns the parent page objects also.
• TCntrNodeObj wdgAdd( string wid, string wname, string parent ) — adds the new widget wid with the name wname and based on the library widget parent.

//Adds the new widget, based at the text primitive
nw = this.wdgAdd("nw", "New widget", "/wlb_originals/wdg_Text");
nw.attrSet("geomX", 50).attrSet("geomY", 50);

• bool wdgDel( string wid ) — deletes the widget wid.
• TCntrNodeObj wdgAt( string wid, bool byPath = false ) — attaches to child or global widget, by the path byPath. In the case of global connection, you can use absolute or relative path to the widget. For starting point of the absolute address acts the root object of the module "VCAEngine", which means the first element of the absolute address is session identifier, which is ignored. The relative address takes the countdown from the current widget. Special element of the relative address is an element of parent node "..".
• Array attrList() — list of the widget attributes.
• bool attrPresent( string attr ) — checks to presence fact of the attribute attr of the widget.
• ElTp attr( string attr, bool fromSess = false ) — value of the attribute attr of the widget or from the session fromSess. For missing attributes will be return empty string.
• TCntrNodeObj attrSet( string attr, ElTp vl, bool toSess = false ) — sets the value vl to the attribute attr of the widget or to the session, by toSess. The object is returned for the function concatenation.
• string link( string attr, bool prm = false ) — link for the widget attribute attr. At set prm requests the link for the attributes block (parameter), represented by the attribute.
• string linkSet( string attr, string vl, bool prm = false ) — sets the link for the widget attribute attr. At set prm, sets the link for the attributes block (parameter), represented by the attribute.

//Sets the link to the parameter for the eight trend
this.linkSet("el8.name", "prm:/LogicLev/experiment/Pi", true);

• string {resource,mime}( string addr, string MIME = "" ) — resource object by the address addr (the direct link to the resource or the widget attribute contained the link) with the MIME, from the session table or the source. It is designed for the resource objects edition and that substitution to this session's context, for example, images SVG.
• int {resourceSet,mimeSet}( string addr, string data, string MIME = "" ) — sets the resource object to data with MIME by the address addr.
• int messDebug( string mess ); int messInfo( string mess ); int messNote( string mess ); int messWarning( string mess ); int messErr( string mess ); int messCrit( string mess ); int messAlert( string mess ); int messEmerg( string mess ); — formats of the program message mess with the category — the widget path.
• int calcPer( int set = EVAL ) — the actual calculation-processing period getting and setting at set not EVAL. There reserved the special values:
  • 0 — if you want the session period processing;
  • -1 — if you want to use the parent widget/page/project processing period in the cascade;
  • -2 — for disable the periodic processing in whole;
  • -3 — no session time period, getting the projecting one.

Object "Widget" of the primitive "Document" (this)

• string getArhDoc( int nDoc) — text of the archive document to "nDoc" depth (0-{aSize-1}).

Deprecated, but supported, the API is represented by a group of functions directly in the module of the VCA engine. Calling these functions from the widget procedure can be done directly by the identifier, since their namespace is defined in the context of the widget procedures.

Widgets list (WdgList)
Description: Returns a list of the widgets, in the widgets container, or the child list. If set pg then returns the pages list for projects and sessions.
Parameters:

Node presence (NodePresent)
Description: Checking for the node presence, including widgets, attributes and other.
Parameters:

Attributes list (AttrList)
Description: Returns an attributes list of the widget. If set noUser then returns only not user attributes.
Parameters:

Get the attribute (AttrGet)
Description: Getting value of the widget attribute. The request can be done as by indicating the full address of the attribute in addr, and by: indicating separately the address of the widget in addr and the the attribute identifier in the attr.
Parameters:

Set the attribute (AttrSet)
Description: Setting value of the widget attribute. Setting can be done as by indicating the full address of the attribute in addr, and by: indicating separately the address of the widget in addr and the the attribute identifier in the attr.
Parameters:

Session user (SesUser)
Description: Returns the session user by the session widget path.
Parameters:

3.12 Service commands-functions of the Control Interface

Service functions are an interface for accessing OpenSCADA from external systems through the Control Interface. This mechanism is the basis of all exchange within OpenSCADA, implemented through weak links and OpenSCADA's own exchange protocol.

The common widgets

Getting for values of specified or all visual attributes of the widget

REQ: <get path="/UI/VCAEngine/{wAddr}/%2fserv%2fattr">{attributes}</get>

• wAddr — the widget local address, like to "/wlb_AGLKS/wdg_CM101/wdg_ElFigure1";
• attributes — the only requested attributes in the tags "el" with only one attribute of the identifier "id"; there can be no the attribute tags for requesting all available ones.

RESP: <get path="/UI/VCAEngine/{wAddr}/%2fserv%2fattr" rez="0">{attributes}</get>

• attributes — processed attributes in the tags "el": <el id="{ID}" p="{pos}" act="{active}">{value}</el>
  • ID — identifier of the attribute;
  • pos — position-index of the attribute for the standard ones;
  • active — activity state of the attribute, only at the direct requesting;
  • value — value of the attribute.

<get path="/UI/VCAEngine/wlb_AGLKS/wdg_CM101/wdg_ElFigure1/%2fserv%2fattr" rez="0" user="roman">
  <el id="id">ElFigure1</el>
  <el id="path">/wlb_AGLKS/wdg_CM101/wdg_ElFigure1</el>
  <el id="parent">/wlb_originals/wdg_ElFigure</el>
  <el id="owner">root:UI</el>
  <el id="perm">948</el>
  <el id="root" p="1">ElFigure</el>
  <el id="name" />
  <el id="dscr" />
</get>

Setting for group values of the specified widget attributes

REQ[root-UI]: <set path="/UI/VCAEngine/{wAddr}/%2fserv%2fattr">{attributes}</set>

• wAddr — the widget local address in the module, like to "/wlb_AGLKS/wdg_CM101/wdg_ElFigure1";
• attributes — attributes with values in the tags "el": <el id="{ID}">{value}</el>
  • ID — identifier of the attribute;
  • value — setting value of the attribute.

<set path="/UI/VCAEngine/wlb_AGLKS/wdg_CM101/wdg_ElFigure1/%2fserv%2fattr">
  <el id="name">New name</el>
  <el id="dscr">New description</el>
</set>

Getting for values of the visual attributes of the widget branch, optimised for the networks

REQ: <get path="/UI/VCAEngine/{wAddr}/%2fserv%2fattrBr" />

• wAddr — the widget local address in the module, like to "/wlb_AGLKS/wdg_CM101/wdg_ElFigure1".

RESP: <get path="/UI/VCAEngine/{wAddr}/%2fserv%2fattrBr" rez="0">{attributes} {widgets}</get>

• attributes — processed attributes in the tags "el": <el id="{ID}" p="{pos}">{value}</el>
  • ID — identifier of the attribute;
  • pos — position-index of the attribute for the standard ones;
  • value — value of the attribute.
• widgets — child widgets in the tags "w": <w id="{ID}" lnkPath="{lnkPath}">{attributes} {widgets}</w>
  • ID — identifier of the widget;
  • lnkPath — path to the linked widget for child widgets of the widget libraries.

<get path="/UI/VCAEngine/wlb_AGLKS/wdg_CM101/%2fserv%2fattrBr" rez="0" user="roman">
  <el id="id">CM101</el>
  <el id="path">/wlb_AGLKS/wdg_CM101</el>
  <el id="parent">/wlb_originals/wdg_Box</el>
  <el id="owner">root:UI</el>
  <el id="perm">948</el>
  <el id="root" p="1">Box</el>
  <el id="name">CM101</el>
  <w id="AT101_1" lnkPath="/wlb_mnEls/wdg_cooler">
    <el id="id">AT101_1</el>
    <el id="path">/wlb_AGLKS/wdg_CM101/wdg_AT101_1</el>
    <el id="parent">/wlb_mnEls/wdg_cooler</el>
    <el id="owner">root:UI</el>
    <el id="perm">948</el>
    <el id="root" p="1">ElFigure</el>
    <el id="name">АТ101 1</el>
  </w>
</get>

The widget libraries

Obtaining the widget libraries' tree, optimised for the networks

REQ: <get path="/UI/VCAEngine/%2fserv%2fwlbBr" item="{item}" disIconsW="{disIconsW}" disIconsCW="{disIconsCW}" />

• item — the library item for obtaining, as the path "wlb_{WLib}[/wdg_{Wdg}[/wdg_{ChildWdg}]]", for empty there will be obtained all the tree;
• disIconsW — disable for obtaining the icon data of the widgets [0|1];
• disIconsCW — disable for obtaining the icon data of the child widgets [0|1].

RESP: <get path="/UI/VCAEngine/%2fserv%2fwlbBr" item="{item}" disIconsW="{disIconsW}" disIconsCW="{disIconsCW}" rez="0">{wlibs}</get>

• wlibs — the widget libraries in the "wlb" tags: <wlb id="{ID}" doc="{doc}">{name} {icon} {widgets}</wlb>
  • icon — the "icon" tag with the Base64 encoded data of the icon;
  • widgets — the "w" tags with the library widgets description: <w id="{ID}" doc="{doc}" parent="{parent}">{name} {icon} {widgets}</w>
    • parent — address of the widget parent;
    • widgets — the "сw" tags with the child widgets description: <cw id="{ID}" doc="{doc}">{name} {icon}</cw>

<get disIconsCW="1" disIconsW="1" item="/wlb_AGLKS" path="/UI/VCAEngine/%2fserv%2fwlbBr" rez="0" user="roman">
  <wlb id="AGLKS">AGLKS
    <ico>iVBORw0KGgoAA...U5ErkJggg==</ico>
    <w id="CM101" parent="/wlb_originals/wdg_Box">CM101
      <cw id="AT101_1">АТ101 1</cw>
      <cw id="AT101_2">АТ101 1</cw>
      <cw id="C101_1">C101/1</cw>
      <cw id="C101_2">C101/1</cw>
      <cw id="C101_3">C101/1</cw>
      <cw id="CM101">CM101</cw>
      <cw id="CM101_1">CM101_1</cw>
      <cw id="CM101_2">CM101_2</cw>
      <cw id="ElFigure1">ElFigure1</cw>
      <cw id="ElFigure2">ElFigure2</cw>
      <cw id="ElFigure3">ElFigure3</cw>
      <cw id="ElFigure4">ElFigure4</cw>
      <cw id="ElFigure5">ElFigure5</cw>
      <cw id="ElFigure6">ElFigure6</cw>
      <cw id="ElFigure7">ElFigure7</cw>
    </w>
    <w id="KCH_MN1" parent="/wlb_originals/wdg_Box">KCH_MN1
      <cw id="BC1">Ball crane</cw>
      <cw id="BC2">Ball crane</cw>
      <cw id="BC21">Ball crane</cw>
      <cw id="BC22">Ball crane</cw>
    </w>
    <w id="comprEn" parent="/wlb_originals/wdg_ElFigure">Compressor run</w>
  </wlb>
</get>

The VCA projects

Obtaining the project list expanded by some options

REQ: <get path="/UI/VCAEngine/[%2fbr%2fprj_|%2fprm%2fcfg%2fprj]" chkUserPerm="{chkUserPerm}" getChPgN="{getChPgN}" noName="{noName}" />

• chkUserPerm — checking for the user permition before listing [0|1];
• getChPgN — requesting for quantity of the child pages in the projects [0|1];
• noName — do not return for names of the pages [0|1].

RESP: <get path="/UI/VCAEngine/[%2fbr%2fprj_|%2fprm%2fcfg%2fprj]" chkUserPerm="{chkUserPerm}" getChPgN="{getChPgN}" noName="{noName}" rez="0">{projects}</get>

• projects — projects list in the tags "el", where the name is in the tag text and the identifier in the attribute "id". Expanded by the extra attributes:
  • "chPgN" — quantity of the child pages in the project at setting "getChPgN".

<get getChPgN="1" path="/UI/VCAEngine/%2fbr%2fprj_" rez="0" user="roman">
  <el chPgN="2" id="AGLKS">AGLKS</el>
  <el chPgN="2" id="archBrowser">Archives browser</el>
  <el chPgN="2" id="tmplSO">Signal groups (template)</el>
</get>

Checking for read access to the project from the user of the request

REQ: <read path="/UI/VCAEngine/prj_{proj}/%2fserv%2faccess" />

• proj — identifier of the project.

RESP: <read path="/UI/VCAEngine/prj_{proj}/%2fserv%2faccess" rez="0">{access}</get>

• access — the access presence status [0|1].

</translate>

<read path="/UI/VCAEngine/prj_AGLKS/%2fserv%2faccess" rez="0" user="roman">1</read>

<translate> The project sessions

Obtaining the session list expanded by some options

REQ: <get path="/UI/VCAEngine/[%2fbr%2fses_|%2fses%2fses]" chkUserPerm="{chkUserPerm}" onlyMy="{onlyMy}" />

• chkUserPerm — checking for the user permition before listing [0|1];
• onlyMy — listening only my own sessions [0|1].

RESP: <get path="/UI/VCAEngine/[%2fbr%2fses_|%2fses%2fses]" chkUserPerm="{chkUserPerm}" onlyMy="{onlyMy}" rez="0">{sessions}</get>

• sessions — sessions list in the tags "el", where the identifier is in the tag text. Expanded by the extra attributes:
  • "user" — user of the session;
  • "proj" — project of the session.

</translate>

<get path="/UI/VCAEngine/%2fses%2fses" rez="0" onlyMy="1" user="roman">
  <el user="roman" proj="AGLKS">AGLKS</el>
  <el user="roman" proj="AGLKS">AGLKS0</el>
</get>

<translate>

Obtaining the sessions list of the specified VCA project

REQ: <list path="/UI/VCAEngine/%2fserv%2fsess" prj="{project}" />

• project — identifier of the requested project.

RESP: <list path="/UI/VCAEngine/%2fserv%2fsess" prj="{project}" rez="0">{sessions}</list>

• sessions — sessions in the "el" tags.

<list path="/UI/VCAEngine/%2fserv%2fsess" prj="AGLKS" rez="0" user="roman">
  <el>AGLKS</el>
</list>

Connection to the specified VCA project or the project session

REQ: <connect path="/UI/VCAEngine/%2fserv%2fsess" prj="{project}" sess="{session}" userChange="{userChange}" onlyMy="{onlyMy}" />

• project — identifier of the requested project, empty for connection to the available session;
• session — identifier of the already present session, empty at a new session creation;
• onlyMy — sign of connection-reconnection to the session only when it is my;
• userChange — sign of the user changing [0|1] of the session, that is updation the user information.

RESP: <connect path="/UI/VCAEngine/%2fserv%2fsess" prj="{project}" sess="{session}" userChange="{userChange}" onlyMy="{onlyMy}" rez="0" conId="{conId}" userIsRoot="{userIsRoot}" />

• conId — the session connection identifier, used in next requests;
• project — the project identifier of the successfully connected session;
• session — identifier of the new created session of the successfully connected project;
• userIsRoot — the user has the root permition [0|1].

</translate>

<connect conId="50860885" path="/UI/VCAEngine/%2fserv%2fsess" prj="AGLKS" rez="0" sess="AGLKS" user="roman" userIsRoot="1" />

<translate>

Disconnection the specified VCA project session

Sessions with zero connections are closed here also.

REQ: <disconnect path="/UI/VCAEngine/%2fserv%2fsess" sess="{session}" conId="{conId}" />

• session — identifier of the present session;
• conId — the session connection identifier.

<disconnect path="/UI/VCAEngine/%2fserv%2fsess" sess="AGLKS" conId="50860885" />

Getting for the opened pages list of the project session

REQ[{owner}-{grp}]: <openlist path="/UI/VCAEngine/ses_{session}/%2fserv%2fpg" conId="{conId}" tm="{clock}" />

• owner, grp — reading access for the project owner or a user in group and regarding to the project permissions;
• session — identifier of the session;
• conId — the session connection identifier;
• clock — the internal clock (the live cycle) value from the previous processed request, for checking of the changed ones.

RESP: <openlist path="/UI/VCAEngine/ses_{session}/%2fserv%2fpg" conId="{conId}" tm="{clock}" rez="0">{pages}</openlist>

• clock — the internal clock (the live cycle) value - 1 at the request time;
• pages — pages in the tags "pg": <pg pgGrp="{pgGrp}" updWdg="{nUpdWdgs}">{ID}</pg>
  • ID — identifier of the page;
  • pgGrp — the pages group for early calculation the page including;
  • nUpdWdgs — quantity of the updated widgets after the last request and for not empty "clock".

</translate>

<openlist conId="52760577" path="/UI/VCAEngine/ses_AGLKS/%2fserv%2fpg" rez="0" tm="1403" user="roman">
  <pg>/ses_AGLKS/pg_so</pg>
  <pg pgGrp="so">/ses_AGLKS/pg_so/pg_1/pg_mn/pg_1</pg>
  <pg pgGrp="cntr">/ses_AGLKS/pg_control/pg_ElCadr</pg>
</openlist>

<translate>

Opening or closing for the specified page of the project session

REQ[{owner}-{grp}]: <[open|close] path="/UI/VCAEngine/ses_{session}/%2fserv%2fpg" pg="{page}" />

• owner, grp — writing access for the project owner or a user in group and regarding to the project permissions;
• session — identifier of the session;
• page — address of the page in the session context, like to "/ses_AGLKS/pg_so/pg_1/pg_mn/pg_1".

Getting for the alarm status and the notification resource of the project session

REQ[{owner}-{grp}]: <get path="/UI/VCAEngine/ses_{session}/%2fserv%2falarm" mode="{mode}" tp="{typeNtf}" wdg="{widget}" />

• owner, grp — reading access for the project owner or a user in group and regarding to the project permissions;
• session — identifier of the session;
• mode — the requesting mode, only "resource" for obtaining the notification resources and empty for the status only;
• typeNtf — the notification type of obtaining the notification resource, see the alarming section;
• widget — address of the widget for forming the notification resource, empty for global.

RESP: <get path="/UI/VCAEngine/ses_{session}/%2fserv%2falarm" mode="{mode}" tp="{typeNtf}" rez="0" alarmSt="{alarmSt}" tm="{clock}" wdg="{widget}" resTp="{resTp}" mess="{message}" lang="{language}">{resource}</get>

• alarmSt — the alarm status as that described in the alarming section;
• clock — the internal clock (the live cycle) value at the notification resource form;
• widget — address of the source widget at the notification resource form;
• message — message of notification from the text;
• language — language of the notification, for the "message" mostly;
• resTp — type of the notification resource;
• resource — resource of the notification encoded by Base64 for the binary data.

<get path="/UI/VCAEngine/ses_AGLKS/%2fserv%2falarm" mode="resource" tp="1" rez="0" user="roman"
     alarmSt="460554" tm="0" resTp="audio/ogg;73.3428" lang="en_US.UTF-8">
T2dnUwACA...Dg6gwAjo+PAQ==
</get>

Quietance of the alarm notification of the project session

REQ[{owner}-{grp}]: <quietance path="/UI/VCAEngine/ses_{session}/%2fserv%2falarm" wdg="{widget}" tmpl="{template}" ret="{return}" />

• owner, grp — reading access for the project owner or a user in group and regarding to the project permissions;
• session — identifier of the session;
• widget — address of the widget for quietance the notification, empty for global;
• template — template of the quietance, that is bitset corresponding to the quieting notification types;
• return — sign of the notification return, that is the quietance disabling.

<quietance path="/UI/VCAEngine/ses_AGLKS/%2fserv%2falarm" tmpl="7" />

Getting for values of the modified visual attributes of the session widget

Redefines the common service request of the widgets "<get path='/UI/VCAEngine/{wAddr}/%2fserv%2fattr' />" for the session specific.

REQ: <get path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattr" tm="{clock}" />

• wAddr — the session widget local address, like to "/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/wdg_ElFigure1";
• clock — the internal clock (the live cycle) value from the previous processed request, for checking of the changed ones; at zero value there force appended the service-virtual attributes: "perm", "name".

RESP: <get path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattr" tm="{clock}" rez="0">{attributes}</get>

• attributes — modified from "clock" attributes in the tags "el": <el id="{ID}" p="{pos}">{value}</el>
  • ID — identifier of the attribute;
  • pos — position-index of the attribute for the standard ones;
  • value — value of the attribute.

<get path="/UI/VCAEngine/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/wdg_ElFigure1/%2fserv%2fattr" rez="0" tm="0" user="roman">
  <el id="perm" p="-3">6</el>
  <el id="root" p="1">ElFigure</el>
  <el id="en" p="5">1</el>
  <el id="active" p="6">0</el>
  <el id="geomX" p="7">488</el>
  <el id="geomY" p="8">250</el>
  <el id="geomW" p="9">16</el>
  <el id="geomH" p="10">100</el>
  <el id="geomXsc" p="13">1</el>
  <el id="geomYsc" p="14">0.75</el>
  <el id="geomZ" p="11">-9</el>
</get>

Setting for group values of the specified attributes of the session widget

Redefines the common service request of the widgets "<set path='/UI/VCAEngine/{wAddr}/%2fserv%2fattr' />" for the session specific like to the "event" attribute processing and detection the user activity-inactivity.

REQ[{owner}-{grp}]: <set path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattr" noUser="{noUser}">{attributes}</set>

• owner, grp — writing access for the project owner or a user in group and regarding to the project permissions;
• wAddr — the session widget local address, like to "/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/wdg_ElFigure1";
• noUser — don't mark that as a user activity;
• attributes — attributes with values in the tags "el": <el id="{ID}">{value}</el>
  • ID — identifier of the attribute;
  • value — setting value of the attribute.

<set path="/UI/VCAEngine/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/wdg_ElFigure1/%2fserv%2fattr">
  <el id="name">New name</el>
  <el id="dscr">New description</el>
</set>

Activating the attribute for using as the visual one and creating that at missing

REQ: <activate path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattr%2f{aID}" aNm="{aName}" aTp="{aType}" aFlg="{aFlags}" aVls="{aValues}" aNms="{aNames}">{aDef}</activate>

• wAddr — the session widget local address, like to "/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/wdg_ElFigure1";
• aID — identifier of the attribute;
• aName — name of the attribute at it creation;
• aType — type of the attribute at it creation, see to the object TFld;
• aFlags — flags of the attribute at it creation, see to the object TFld;
• aDef — default value of the attribute at it creation;
• aValues — the attribute values for the selective types at it creation;
• aNames — names to values of the attribute for the selective types at it creation.

<activate path="/UI/VCAEngine/ses_AGLKS/pg_so/%2fserv%2fattr%2frunWin" aNm="Run window" aTp="1" aFlg="1" aVls="0;1;2" aNms="Original size;Maximize;Full screen">0</activate>

Getting for values of the visual attributes of the widget branch of the session, optimised for the networks

Redefines the common service request of the widgets "<get path='/UI/VCAEngine/{wAddr}/%2fserv%2fattrBr' />" for the session specific.

REQ: <get path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattrBr" tm="{clock}" FullTree="{FullTree}" />

• wAddr — the session widget local address, like to "/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/wdg_ElFigure1";
• clock — the internal clock (the live cycle) value from the previous processed request, for checking of the changed ones; at zero value there force appended the service-virtual attributes: "perm", "name";
• fullTree — obtaining the full widgets tree independent from presence the changes, without the attributes.

RESP: <get path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattrBr" tm="{clock}" FullTree="{FullTree}" rez="0">{attributes} {widgets}</get>

• attributes — processed attributes in the tags "el": <el id="{ID}" p="{pos}">{value}</el>
  • ID — identifier of the attribute;
  • pos — position-index of the attribute for the standard ones;
  • value — value of the attribute.
• widgets — child widgets in the tags "w": <w id="{ID}">{attributes} {widgets}</w>
  • ID — identifier of the widget.

<get path="/UI/VCAEngine/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/%2fserv%2fattrBr" rez="0" tm="0" user="roman">
  <el id="name" p="-4">CM101</el>
  <el id="perm" p="-3">6</el>
  <el id="root" p="1">Box</el>
  <el id="en" p="5">1</el>
  <el id="active" p="6">0</el>
  <el id="geomX" p="7">0</el>
  <el id="geomY" p="8">0</el>
  <el id="geomW" p="9">900</el>
  <el id="geomH" p="10">580</el>
  <w id="AT101_1">
    <el id="perm" p="-3">6</el>
    <el id="root" p="1">ElFigure</el>
    <el id="en" p="5">1</el>
    <el id="active" p="6">0</el>
    <el id="geomX" p="7">338</el>
    <el id="geomY" p="8">320</el>
    <el id="geomW" p="9">80</el>
    <el id="geomH" p="10">100</el>
  </w>
</get>

Getting for value of the session specific attribute of the session widget

REQ: <get path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattrSess%2f{aID}" />

• wAddr — the session widget local address, like to "/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/wdg_ElFigure1";
• aID — identifier of the session specific attribute.

RESP: <get path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattrSess%2f{aID}" rez="0">{value}</get>

• value — value of the attribute.

<get path="/UI/VCAEngine/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/%2fserv%2fattrSess%2ftestA" rez="0" user="roman">test val</get>

Setting for value of the session specific attribute of the session widget

REQ[{owner}-{grp}]: <set path="/UI/VCAEngine/ses_{wAddr}/%2fserv%2fattrSess%2f{aID}">{value}</get>

• owner, grp — writing access for the project owner or a user in group and regarding to the project permissions;
• wAddr — the session widget local address, like to "/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/wdg_ElFigure1";
• aID — identifier of the session specific attribute;
• value — value of the attribute.

<set path="/UI/VCAEngine/ses_AGLKS/pg_so/pg_2/pg_mn/pg_CM101/%2fserv%2fattrSess%2ftestA">test val</set>

4 Configuring the module via the control interface of OpenSCADA

Through the control interface of OpenSCADA, components that use it, can be configured from any configurator OpenSCADA. This module provides an interface to access all the data object of the VCA. Main tab of the configuration page of the module provides access to widgets libraries and projects (Fig.4.1). The tab "Sessions" provides access to opened sessions of the projects (Fig.4.2).

Fig.4.1. Main configuration page of the module.

Fig.4.2. Tab "Sessions" of the configuration page of the module.

In addition to the list of opened sessions, the tab in Figure 4.2 contains a table with a list of sessions that must be created and started up at the boot time of OpenSCADA. Creation of sessions through this tool can be useful for Web-based interface. In this case, when connecting, Web-user data is ready and ensures the continuity of the formation of archival documents.

Configuration of the container widgets in the face of libraries and widget projects is done through pages in Figure 4.3 (for project) and Figure 4.5 (for widgets library). The widgets library contains the widgets, and project — the pages. Both types contain a tab of configuration resources used by widgets (Fig.4.6). The project page also contains the tab "Diagnostics" (Fig.4.4) for debugging and monitoring the execution of pages in sessions.

Fig.4.3. Configuration page of the projects.

From this page you can set:

• State of the container, same: "Enabled", name of the storage (containing the configuration and with tracking the availability of the data in different storages and providing the sequentially removing duplicates), date and time of last modification, counter of the use.

The object still supports of specifying the spare storage addresses with tables before you rename the table in the standard form "prj_{ObjID}".

• Identifier, name, description and icon of the container.
• Owner, group and access rights to the container.
• Period for computing of the sessions based on the given project.
• Signal of enabling as needed.

Fig.4.4. Tab "Diagnostics" of the projects.

From this tab you can select time (or refresh to current) and size to obtain the diagnostic messages of the sessions of running this project.

Fig.4.5. Configuration page of the widgets libraries.

From this page you can set:

• State of the container, same: "Enabled", name of the storage (containing the configuration and with tracking the availability of the data in different storages and providing the sequentially removing duplicates), date and time of last modification, counter of the use.

The object still supports of specifying the spare storage addresses with tables before you rename the table in the standard form "wlb_{ObjID}".

• Identifier, name, description and icon of the container.

Fig.4.6. Configuration tab of resources of the container.

Configuration of the project's session differs significantly from configuration of the project (Fig.4.7), but also contains pages of the project.

Fig.4.7. Configuration page of the projects sessions.

From this page you can set:

• State of the session, the same: "Enabled"; "Running"; user; owner; users group; access; source project; mode of execution in the background; execution time of the session; counter of client connections; last request time, user and language; last user action and remained time to it force closing.
• Period of the session calculation.
• Current style of the session.
• List of the opened pages.

Configuration pages of the visual elements, placed in different containers, may be very different, but this difference is the presence or absence of individual tabs. Main tab of the visual elements in fact is the same everywhere, differing in one configuration field and three into the session (Fig.4.8). The pages contains the tabs of the child pages and included widgets. The container widgets contains the tab of the included widgets. All visual elements contain attributes tab (Fig.4.9), except the logical containers of the projects. Elements, at the level of which it is possible to build the user procedure and to determine the links, contain the tab "Processing" (Fig.4.10) and "Links" (Fig.4.11). The attribute name's rows in the "Processing" tab after the first one treat as help.

Fig.4.8. Main tab of configuration of the visual elements.

From this page you can obtain:

• State of the element; for information: "Enabled", counter of the use, date of the last modification, state of the calculation procedure; for control: "Enabled", the page type (for pages), parent element and jump to it.
• State of the element in the runtime session's mode; for information: modification, the periodic processing period, "Processing", spent time on execution of the subtree and item, into the debug mode, "Opened"; for control: "Opened", "Processing".
• Identifier, type, root, path, name, description and icon of the element.
• Periodic processing in milliseconds — for common control of the periodic processing of any element including ones who have not any calculation procedure, but that value can be used in the cascade for child elements. There reserved the special values:
  • 0 — if you want the session period processing;
  • -1 — if you want to use the parent widget/page/project processing period in the cascade;
  • -2 — for disable the periodic processing in whole.
• Command — clear the widget changes.
• Command — lower down the widget changes to its parent.

Fig.4.9. Tab of the attributes of the visual elements.

Fig.4.10. Tab of processing of the visual elements.

Fig.4.11. Tab of links of the visual elements.