diff --git a/nar-bundles/framework-bundle/framework/web/nifi-web-docs/src/main/webapp/WEB-INF/jsp/documentation.jsp b/nar-bundles/framework-bundle/framework/web/nifi-web-docs/src/main/webapp/WEB-INF/jsp/documentation.jsp index 299cf4e85f..a899603e8b 100644 --- a/nar-bundles/framework-bundle/framework/web/nifi-web-docs/src/main/webapp/WEB-INF/jsp/documentation.jsp +++ b/nar-bundles/framework-bundle/framework/web/nifi-web-docs/src/main/webapp/WEB-INF/jsp/documentation.jsp @@ -41,6 +41,7 @@
Documents
diff --git a/nar-bundles/framework-bundle/framework/web/nifi-web-docs/src/main/webapp/js/application.js b/nar-bundles/framework-bundle/framework/web/nifi-web-docs/src/main/webapp/js/application.js index 1a60de655f..e9b0499e5b 100644 --- a/nar-bundles/framework-bundle/framework/web/nifi-web-docs/src/main/webapp/js/application.js +++ b/nar-bundles/framework-bundle/framework/web/nifi-web-docs/src/main/webapp/js/application.js @@ -256,6 +256,11 @@ $(document).ready(function () { } }); + // listen for on the rest api and user guide + $('a.rest-api a.user-guide').on('click', function() { + selectComponent($(this).text()); + }); + // get the initial selection var initialComponentLink = $('a.component-link:first'); var initialSelection = $('#initial-selection').text(); diff --git a/nifi-docs/pom.xml b/nifi-docs/pom.xml new file mode 100644 index 0000000000..79ae0ac729 --- /dev/null +++ b/nifi-docs/pom.xml @@ -0,0 +1,85 @@ + + + 4.0.0 + + org.apache.nifi + nifi-parent + 0.0.1-SNAPSHOT + + + nifi-docs + + nifi-docs + + + + + org.asciidoctor + asciidoctor-maven-plugin + 1.5.0 + + + output-html + generate-resources + + process-asciidoc + + + + + html + + true + + + + + + + com.google.code.maven-replacer-plugin + replacer + 1.5.3 + + + prepare-package + + replace + + + + + target/generated-docs/nifi-user-guide.html + true + + DOTALL + MULTILINE + + ^(.*)$ + +<!-- +Licensed to the Apache Software Foundation (ASF) under one or more +contributor license agreements. See the NOTICE file distributed with +this work for additional information regarding copyright ownership. +The ASF licenses this file to You under the Apache License, Version 2.0 +(the "License"); you may not use this file except in compliance with +the License. You may obtain a copy of the License at + +http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +--> +$1 + + + + + + + + + diff --git a/nifi-docs/src/main/asciidoc/images/add-processor-with-tag-cloud.png b/nifi-docs/src/main/asciidoc/images/add-processor-with-tag-cloud.png new file mode 100644 index 0000000000..a0bbadb6e4 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/add-processor-with-tag-cloud.png differ diff --git a/nifi-docs/src/main/asciidoc/images/add-processor.png b/nifi-docs/src/main/asciidoc/images/add-processor.png new file mode 100644 index 0000000000..a043f38730 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/add-processor.png differ diff --git a/nifi-docs/src/main/asciidoc/images/addConnect.png b/nifi-docs/src/main/asciidoc/images/addConnect.png new file mode 100644 index 0000000000..b33a305df8 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/addConnect.png differ diff --git a/nifi-docs/src/main/asciidoc/images/comments-tab.png b/nifi-docs/src/main/asciidoc/images/comments-tab.png new file mode 100644 index 0000000000..b6ed34b889 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/comments-tab.png differ diff --git a/nifi-docs/src/main/asciidoc/images/components.png b/nifi-docs/src/main/asciidoc/images/components.png new file mode 100644 index 0000000000..b3a9769e16 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/components.png differ diff --git a/nifi-docs/src/main/asciidoc/images/connection-settings.png b/nifi-docs/src/main/asciidoc/images/connection-settings.png new file mode 100644 index 0000000000..9aae93a05e Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/connection-settings.png differ diff --git a/nifi-docs/src/main/asciidoc/images/create-connection.png b/nifi-docs/src/main/asciidoc/images/create-connection.png new file mode 100644 index 0000000000..7ca40ae3ec Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/create-connection.png differ diff --git a/nifi-docs/src/main/asciidoc/images/edit-property-dropdown.png b/nifi-docs/src/main/asciidoc/images/edit-property-dropdown.png new file mode 100644 index 0000000000..017805b61a Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/edit-property-dropdown.png differ diff --git a/nifi-docs/src/main/asciidoc/images/edit-property-textarea.png b/nifi-docs/src/main/asciidoc/images/edit-property-textarea.png new file mode 100644 index 0000000000..cc8668a25a Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/edit-property-textarea.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconAlert.png b/nifi-docs/src/main/asciidoc/images/iconAlert.png new file mode 100644 index 0000000000..5020c31a5e Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconAlert.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconConnection.png b/nifi-docs/src/main/asciidoc/images/iconConnection.png new file mode 100644 index 0000000000..4b6180b3a3 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconConnection.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconDelete.png b/nifi-docs/src/main/asciidoc/images/iconDelete.png new file mode 100644 index 0000000000..dc13227369 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconDelete.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconDisable.png b/nifi-docs/src/main/asciidoc/images/iconDisable.png new file mode 100644 index 0000000000..17a4ee4338 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconDisable.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconEdit.png b/nifi-docs/src/main/asciidoc/images/iconEdit.png new file mode 100644 index 0000000000..e191e725c2 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconEdit.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconEnable.png b/nifi-docs/src/main/asciidoc/images/iconEnable.png new file mode 100644 index 0000000000..58e3436787 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconEnable.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconFunnel.png b/nifi-docs/src/main/asciidoc/images/iconFunnel.png new file mode 100644 index 0000000000..98f9b9d85c Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconFunnel.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconInfo.png b/nifi-docs/src/main/asciidoc/images/iconInfo.png new file mode 100644 index 0000000000..f192ff5724 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconInfo.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconInputPort.png b/nifi-docs/src/main/asciidoc/images/iconInputPort.png new file mode 100644 index 0000000000..d4efd97786 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconInputPort.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconLabel.png b/nifi-docs/src/main/asciidoc/images/iconLabel.png new file mode 100644 index 0000000000..6ba3c13278 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconLabel.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconNotSecure.png b/nifi-docs/src/main/asciidoc/images/iconNotSecure.png new file mode 100644 index 0000000000..ae4c01390e Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconNotSecure.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconOutputPort.png b/nifi-docs/src/main/asciidoc/images/iconOutputPort.png new file mode 100644 index 0000000000..f3d8a6675b Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconOutputPort.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconProcessGroup.png b/nifi-docs/src/main/asciidoc/images/iconProcessGroup.png new file mode 100644 index 0000000000..c5873418dd Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconProcessGroup.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconProcessor.png b/nifi-docs/src/main/asciidoc/images/iconProcessor.png new file mode 100644 index 0000000000..2ca062c85d Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconProcessor.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconRemoteProcessGroup.png b/nifi-docs/src/main/asciidoc/images/iconRemoteProcessGroup.png new file mode 100644 index 0000000000..5205470984 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconRemoteProcessGroup.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconRun.png b/nifi-docs/src/main/asciidoc/images/iconRun.png new file mode 100644 index 0000000000..02715e010e Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconRun.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconSecure.png b/nifi-docs/src/main/asciidoc/images/iconSecure.png new file mode 100644 index 0000000000..a47388fb79 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconSecure.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconStop.png b/nifi-docs/src/main/asciidoc/images/iconStop.png new file mode 100644 index 0000000000..4f8f9c7d83 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconStop.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconTemplate.png b/nifi-docs/src/main/asciidoc/images/iconTemplate.png new file mode 100644 index 0000000000..66d2caa67c Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconTemplate.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconTransmissionActive.png b/nifi-docs/src/main/asciidoc/images/iconTransmissionActive.png new file mode 100644 index 0000000000..269cff82a5 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconTransmissionActive.png differ diff --git a/nifi-docs/src/main/asciidoc/images/iconTransmissionInactive.png b/nifi-docs/src/main/asciidoc/images/iconTransmissionInactive.png new file mode 100644 index 0000000000..0e1fd7be69 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/iconTransmissionInactive.png differ diff --git a/nifi-docs/src/main/asciidoc/images/instantiate-template-description.png b/nifi-docs/src/main/asciidoc/images/instantiate-template-description.png new file mode 100644 index 0000000000..a238148f38 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/instantiate-template-description.png differ diff --git a/nifi-docs/src/main/asciidoc/images/instantiate-template.png b/nifi-docs/src/main/asciidoc/images/instantiate-template.png new file mode 100644 index 0000000000..435d562ead Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/instantiate-template.png differ diff --git a/nifi-docs/src/main/asciidoc/images/invalid-processor.png b/nifi-docs/src/main/asciidoc/images/invalid-processor.png new file mode 100644 index 0000000000..37117b4a34 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/invalid-processor.png differ diff --git a/nifi-docs/src/main/asciidoc/images/new-flow.png b/nifi-docs/src/main/asciidoc/images/new-flow.png new file mode 100644 index 0000000000..59f64d8997 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/new-flow.png differ diff --git a/nifi-docs/src/main/asciidoc/images/nifi-navigation.png b/nifi-docs/src/main/asciidoc/images/nifi-navigation.png new file mode 100644 index 0000000000..1841cbaa62 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/nifi-navigation.png differ diff --git a/nifi-docs/src/main/asciidoc/images/nifi-toolbar-components.png b/nifi-docs/src/main/asciidoc/images/nifi-toolbar-components.png new file mode 100644 index 0000000000..3fd71703f0 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/nifi-toolbar-components.png differ diff --git a/nifi-docs/src/main/asciidoc/images/processor-anatomy.png b/nifi-docs/src/main/asciidoc/images/processor-anatomy.png new file mode 100644 index 0000000000..db44d6a532 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/processor-anatomy.png differ diff --git a/nifi-docs/src/main/asciidoc/images/processor-connection-bubble.png b/nifi-docs/src/main/asciidoc/images/processor-connection-bubble.png new file mode 100644 index 0000000000..82a161b1b6 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/processor-connection-bubble.png differ diff --git a/nifi-docs/src/main/asciidoc/images/properties-tab.png b/nifi-docs/src/main/asciidoc/images/properties-tab.png new file mode 100644 index 0000000000..0e60fb9fe4 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/properties-tab.png differ diff --git a/nifi-docs/src/main/asciidoc/images/remote-group-ports-dialog.png b/nifi-docs/src/main/asciidoc/images/remote-group-ports-dialog.png new file mode 100644 index 0000000000..7b13b000f1 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/remote-group-ports-dialog.png differ diff --git a/nifi-docs/src/main/asciidoc/images/remote-port-connection-status.png b/nifi-docs/src/main/asciidoc/images/remote-port-connection-status.png new file mode 100644 index 0000000000..2e7cecf1b3 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/remote-port-connection-status.png differ diff --git a/nifi-docs/src/main/asciidoc/images/scheduling-tab.png b/nifi-docs/src/main/asciidoc/images/scheduling-tab.png new file mode 100644 index 0000000000..20ca0f5718 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/scheduling-tab.png differ diff --git a/nifi-docs/src/main/asciidoc/images/settings-tab.png b/nifi-docs/src/main/asciidoc/images/settings-tab.png new file mode 100644 index 0000000000..77d6bd71b6 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/settings-tab.png differ diff --git a/nifi-docs/src/main/asciidoc/images/status-bar.png b/nifi-docs/src/main/asciidoc/images/status-bar.png new file mode 100644 index 0000000000..7030eca296 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/status-bar.png differ diff --git a/nifi-docs/src/main/asciidoc/images/valid-processor.png b/nifi-docs/src/main/asciidoc/images/valid-processor.png new file mode 100644 index 0000000000..d6102b7c82 Binary files /dev/null and b/nifi-docs/src/main/asciidoc/images/valid-processor.png differ diff --git a/nifi-docs/src/main/asciidoc/nifi-user-guide.adoc b/nifi-docs/src/main/asciidoc/nifi-user-guide.adoc new file mode 100644 index 0000000000..65878df5c6 --- /dev/null +++ b/nifi-docs/src/main/asciidoc/nifi-user-guide.adoc @@ -0,0 +1,782 @@ +// +// Licensed to the Apache Software Foundation (ASF) under one or more +// contributor license agreements. See the NOTICE file distributed with +// this work for additional information regarding copyright ownership. +// The ASF licenses this file to You under the Apache License, Version 2.0 +// (the "License"); you may not use this file except in compliance with +// the License. You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. +// +NiFi User Guide (Draft - Preview Version) +========================================= +Apache_NiFi_Team +:toc: +:icons: + + +[template="glossary", id="terminology"] +Terminology +----------- +*DataFlow Manager*: A DataFlow Manager (DFM) is a NiFi user who has permissions to add, remove, and modify components of a NiFi dataflow. + +*FlowFile*: The FlowFile represents a single piece of data in NiFi. A FlowFile is made up of two components: + FlowFile Attributes and FlowFile Content. + Content is the data that is represented by the FlowFile. Attributes are key-value pairs that provide information or + context about the data. + All FlowFiles have the following Standard Attributes: + +- *uuid*: A unique identifier for the FlowFile +- *filename*: A human-readable filename that may be used when storing the data to disk or in an external service +- *path*: A hierarchically structured value that can be used when storing data to disk or an external service so that the data is not stored in a single directory + +*Processor*: The Processor is the NiFi component that is used to listen for incoming data; pull data from external sources; + publish data to external sources; and route, transform, or extract information from FlowFiles. + +*Relationship*: Each Processor has zero or more Relationships defined for it. These Relationships are named to indicate the result of processing a FlowFile. + After a Processor has finished processing a FlowFile, it will route (or “transfer”) the FlowFile to one of the Relationships. + A DataFlow Manager is then able to connect each of these Relationships to other components in order to specify where the FlowFile should + go next under each potential processing result. + +*Connection*: A DataFlow Manager creates an automated dataflow by dragging components from the Components part of the NiFi toolbar to the canvas + and then connecting the components together via Connections. Each connection consists of one or more Relationships. + For each Connection that is drawn, a DataFlow Manager can determine which Relationships should be used for the Connection. + This allows data to be routed in different ways based on its processing outcome. Each connection houses a FlowFile Queue. + When a FlowFile is transferred to a particular Relationship, it is added to the queue belonging to the associated Connection. + +*Funnel*: A funnel is a NiFi component that is used to combine the data from several Connections into a single Connection. + +*Process Group*: When a dataflow becomes complex, it often is beneficial to reason about the dataflow at a higher, more abstract level. + NiFi allows multiple components, such as Processors, to be grouped together into a Process Group. + The NiFi User Interface then makes it easy for a DataFlow Manager to connect together multiple Process Groups into a logical dataflow, + as well as allowing the DataFlow Manager to enter a Process Group in order to see and manipulate the components within the Process Group. + +*Port*: Dataflows that are constructed using one or more Process Groups need a way to connect a Process Group to other dataflow components. + This is achieved by using Ports. A DataFlow Manager can add any number of Input Ports and Output Ports to a Process Group and name these ports appropriately. + +*Remote Process Group*: Just as data is transferred into and out of a Process Group, it is sometimes necessary to transfer data from one instance of NiFi to another. + While NiFi provides many different mechanisms for transferring data from one system to another, Remote Process Groups are often the easiest way to accomplish + this if transferring data to another instance of NiFi. + +*Bulletin*: The NiFi User Interface provides a significant amount of monitoring and feedback about the current status of the application. + In addition to rolling statistics and the current status that are provided for each component, components are able to report Bulletins. + Whenever a component reports a Bulletin, an icon is displayed on that component (or on the Status bar near the top of the page, for System-Level Bulletins). + Using the mouse to hover over that icon will provide a tool-tip that shows the time and severity (Debug, Info, Warning, Error) of the bulletin, + as well as the message of the Bulletin. + Bulletins from all components can also be viewed and filtered in the Bulletins Page, available in the Management Toolbar. + +*Template*: Often times, a dataflow is comprised of many sub-flows that could be reused. NiFi allows DataFlow Managers to select a part of the dataflow + (or the entire dataflow) and create a Template. This Template is given a name can then be dragged onto the canvas just like the other components. + As a result, several components be combined together to make a larger building block from which to create a dataflow. + These templates can also be exported as XML and imported into another NiFi instance, allowing these building blocks to be shared. + + + +NiFi User Interface +------------------- + +The NiFi User Interface (UI) provides mechanisms for creating automated dataflows, as well as visualizing, +editing, monitoring, and administering those dataflows. The UI can be broken down into several different segments, +each responsible for different functionality of the application. We will begin by looking at screenshots of the +application and labeling the different segments of the UI. We will provide a brief explanation of the purpose of each segment. +Then, in the following sections of this document, we will discuss each of those segments in greater detail. + +When the application is started, by default, the user is able to navigate to the User Interface by going to +`http://:8080/nifi` in a web browser. There are no permissions configured, by default, so anyone is +able to view and modify the dataflow. For information on securing the system, see Systems Administrator guide. + +When a DataFlow Manager navigates to the UI for the first time, a blank canvas is provided on which a dataflow can be built: + +image::new-flow.png["Empty Flow"] + +Along the top of the of the screen is a toolbar that contains several of these segments. +To the left is the Components Toolbar. This toolbar consists of the different components that can be dragged onto the canvas. + +Next to the Components Toolbar is the Actions Toolbar. This toolbar consists of buttons to manipulate the existing +components on the graph. Following the Actions Toolbar is the Search Toolbar. This toolbar consists of a single +Search field that allows users to easily find components on the graph. Users are able to search by component name, +type, identifier, and configuration properties. + +Finally, the Management Toolbar sits to the right-hand side of the screen. This toolbar consists of buttons that are +of use to DataFlow Managers to manage the flow as well as administrators who may use this section to manage user access +and configure system properties, such as how many system resources should be provided to the application. + +image::nifi-toolbar-components.png["NiFi Components Toolbar"] + +Next, we have segments that provide capabilities to easily navigate around the graph. On the left-hand side is a toolbar that +provides the ability to pan around the graph and zoom in and out. On the right-hand side is a “Birds-Eye View” of the dataflow. +This provides a high-level view of the dataflow and allows the user to quickly and easily pan across large portions of the dataflow. +Along the top of the screen is a trail of breadcrumbs. As users navigate into and out of Process Groups, the breadcrumbs show +the depth in the flow and each Process Group that was entered to reach this depth. Each of the Process Groups listed in the breadcrumbs +is a link that will take you back up to that level in the flow. + +image::nifi-navigation.png["NiFi Navigation"] + +[[status_bar]] +Below the breadcrumbs lives the Status bar. The Status bar provides information about how many Processors exist in the graph in +each state (Stopped, Running, Invalid, Disabled), how many Remote Process Groups exist on the graph in each state +(Transmitting, Not Transmitting), the number of threads that are currently active in the flow, the amount of data that currently +exists in the flow, and the timestamp at which all of this information was last refreshed. If there are any System-Level bulletins, +these are shown in the Status bar as well. Additionally, if the instance of NiFi is clustered, the Status bar shows many nodes +are in the cluster and how many are currently connected. + +image::status-bar.png["NiFi Status Bar"] + + + + + +Building a DataFlow +------------------- + +A DataFlow Manager (DFM) is able to build an automated dataflow using the NiFi User Interface (UI). This is accomplished +by dragging components from the toolbar to the canvas, configuring the components to meet specific needs, and connecting +the components together. + + +=== Adding Components to the Canvas + +In the User Interface section above, we outlined the different segments of the UI and pointed out a Components Toolbar. +Here, we will look at each of the Components in that toolbar: + +image::components.png["Components"] + +image:iconProcessor.png["Processor", width=32] +*Processor*: The Processor is the most commonly used component, as it is responsible for data ingress, egress, routing, and + manipulating. There are many different types of Processors. In fact, this is a very common Extension Point in NiFi, + meaning that many vendors may implement their own Processors to perform whatever functions are necessary for their use case. + When a Processor is dragged onto the graph, the user is presented with a dialog to choose which type of Processor to use: + +image::add-processor.png["Add Processor Dialog"] + +In the top-right corner, the user is able to filter the list based on the Processor Type or the Tags associated with a Processor. +Processor developers have the ability to add Tags to their Processors. These tags are used in this dialog for filtering and are +displayed on the left-hand side in a Tag Cloud. The more Processors that exist with a particular Tag, the larger the Tag appears +in the Tag Cloud. Clicking a Tag in the Cloud will filter the available Processors to only those that contain that Tag. If multiple +Tags are selected, only those Processors that contain all of those Tags are shown. For example, if we want to show only those +Processors that allow us to ingest data via HTTP, we can select both the `http` Tag and the `ingest` Tag: + +image::add-processor-with-tag-cloud.png["Add Processor with Tag Cloud"] + +Clicking the `Add` button or double-clicking on a Processor Type will add the selected Processor to the canvas at the +location that it was dropped. + + + +image:iconInputPort.png["Input Port", width=32] +*Input Port*: Input Ports provide a mechanism for transferring data into a Process Group. When an Input Port is dragged +onto the canvas, the DFM is prompted to name the Port. All Ports within a Process Group must have unique names. + +All components exist only within a Process Group. When a user navigates to the NiFi page, the user is placed in the +Root Progress Group. If the Input Port is dragged onto the Root Progress Group, the Input Port provides a mechanism +to receive data from remote instances of NiFi. In this case, the Input Port can be configured to restrict access to +appropriate users. + + + + +image:iconOutputPort.png["Output Port", width=32] +*Output Port*: Output Ports provide a mechanism for transferring data from a Process Group back to destination outside +of the Process Group. When an Output Port is dragged onto the canvas, the DFM is prompted to name the Port. All Ports +within a Process Group must have unique names. + +If the Output Port is dragged onto the Root Process Group, the Output Port provides a mechanism for sending data to +remote instances of NiFi. In this case, the Port acts as a queue. As remote instances of NiFi pull data from the port, +that data is removed from the queues of the incoming Connections. + + + +image:iconProcessGroup.png["Process Group", width=32] +*Process Group*: Process Groups can be used logically group a set of components so that the dataflow is easier to understand +and maintain. When a Process Group is dragged onto the canvas, the DFM is prompted to name the Process Group. All Process +Groups within the same parent group must have unique names. + + + +image:iconRemoteProcessGroup.png["Remote Process Group", width=32] +*Remote Process Group*: Remote Process Groups appear and behave similar to Process Groups. However, the Remote Process Group (RPG) +references a remote instance of NiFi. When an RPG is dragged onto the canvas, rather than being prompted for a name, the DFM +is prompted for the URL of the remote NiFi instance. If the remote NiFi is a clustered instance, the URL that should be used +is the URL of the remote instance's NiFi Cluster Manager (NCM). When data is transferred to a clustered instance of NiFi +via an RPG, the RPG it will first connect to the remote instance's NCM to determine which nodes are in the cluster and +how busy each node is. This information is then used to load balance the data that is pushed to each node. The remote NCM is +then interrogated periodically to ensure that any nodes that are dropped from the cluster and no longer sent to, any new nodes +will be added to the list of nodes, and to recalculate the load balancing based on each node's load. + + + +image:iconFunnel.png["Funnel", width=32] +*Funnel*: Funnels are used to combine the data from many Connections into a single Connection. This has two advantages. +First, if many Connections are created with the same destination, the canvas can become cluttered if those Connections +have to span a large space. By funneling these Connections into a single Connection, that single Connection can then be +drawn to span that large space instead. Secondly, Connections can be configured with FlowFile Prioritizers. Data from +several Connections can be funneled into a single Connection, providing the ability to Prioritize all of the data on that +one Connection, rather than prioritizing the data on each Connection independently. + + + +image:iconTemplate.png["Template", width=32] +*Template*: Templates can be created by DataFlow Managers from sections of the flow, or they can be imported from other +dataflows. These Templates provide larger building blocks for creating a complex flow quickly. When the Template is +dragged onto the canvas, the DFM is provided a dialog to choose which Template to add to the canvas: + +image::instantiate-template.png["Instantiate Template Dialog"] + +Clicking the drop-down box shows all available Templates. Any Template that was created with a description will show an +icon indicating that there is more information. Hovering over the icon with the mouse will show this description: + +image::instantiate-template-description.png["Instantiate Template Dialog"] + + + + +image:iconLabel.png["Label"] +*Label*: Labels are used to provide documentation to parts of a dataflow. When a Label is dropped onto the canvas, +it is created with a default size. The Label can then be resized by dragging the handle in the bottom-right corner. +The Label has no text when initially created. The text of the Label can be added by right-clicking on the Label and +choosing `Configure...` + + + + +=== Configuring a Processor + +Once a Processor has been dragged onto the Canvas, it is ready to configure. This is done by right-clicking on the +Processor and clicking the `Configure...` option from the context menu. The configuration dialog is opened with four +different tabs, each of which is discussed below. Once you have finished configuring the Processor, you can apply +the changes by clicking the `Apply` button or cancel all changes by clicking the `Cancel` button. + +Note that after a Processor has been started, the context menu shown for the Processor no longer has a `Configure...` +option but rather has a `View Configuration` option. Processor configuration cannot be changed while the Processor is +running. You must first stop the Processor and wait for all of its active tasks to complete before configuring +the Processor again. + + +==== Settings Tab + +The first tab in the Processor Configuration dialog is the Settings tab: + +image::settings-tab.png["Settings Tab"] + +This tab contains several different configuration items. First, it allows the DFM to change the name of the Processor. +The name of a Processor by default is the same as the Processor type. Next to the Processor Name is a control for +determining whether or not the Processor is Enabled. When a Processor is added to the graph, it is enabled. If the +Processor is disabled, it cannot be started. This is used to indicate that even when a group of Processors are started, +such as when a DFM starts an entire Process Group, this Processor should be excluded. + +Below the Name configuration, the Processor's unique identifier is displayed along with the Processor's type. These +values cannot be modified. + +Next are two dialogues for configuring `Penalty duration' and `Yield duration'. During the normal course of processing a +piece of data (a FlowFile), an event may occur that indicates that the data cannot be processed at this time but the +data may be processable at a later time. When this occurs, the Processor may choose to Penalize the FlowFile. This will +prevent the FlowFile from being Processed for some period of time. For example, if the Processor is to push the data +to a remote service, but the remote service already has a file with the same name as the filename that the Processor +is specifying, the Processor may penalize the FlowFile. The `Penalty duration' allows the DFM to specify what +how long the FlowFile should be penalized. The default value is 30 seconds. + +Similarly, the Processor may determine that some situation exists such that the Processor can no longer make any progress, +regardless of the data that it is processing. For example, if a Processor is to push data to a remote service and that +service is not responding, the Processor cannot make any progress. As a result, the Processor should `yield,' which will +prevent the Processor from being scheduled to run for some period of time. That period of time is specified by setting +the `Yield duration.' The default value is 1 second. + +The last configurable option on the left-hand side of the Settings tab is the Bulletin level. Whenever the Processor writes +to its log, the Processor also will generate a Bulletin. This setting indicates the lowest level of Bulletin that should be +shown in the User Interface. By default, the Bulletin level is set to WARN. + +The right-hand side of the dialogue provides an `Auto-terminate relationships' section. Each of the Relationships that is +defined by the Processor is listed here, along with its description. In order for a Processor to be considered valid and +able to run, each Relationship defined by the Processor must be either connected to a downstream component or auto-terminated. +If a Relationship is auto-terminated, any FlowFile that is routed to that Relationship will be removed from the flow and +its processing considered complete. Any Relationship that is already connected to a downstream component cannot be auto-terminated. +The Relationship must first be removed from any Connection that uses it. Additionally, for any Relationship that is selected to be +auto-terminated, the auto-termination status will be cleared if the Relationship is added to a Connection. + + + + +==== Scheduling Tab + +The second tab in the Processor Configuration dialog is the Scheduling Tab: + +image::scheduling-tab.png["Scheduling Tab"] + +The first configuration option is the Scheduling Strategy. There are three options for scheduling components: + +- *Timer driven*: This is the default mode. The Processor will be scheduled to run on a regular interval. The interval + at which the Processor is run is defined by the `Run schedule' option (see below). +- *Event driven*: When this mode is selected, the Processor will be triggered to run by FlowFiles entering the Connections + that have this Processor as their destination. This mode is not supported by all Processors. When this mode is + selected, the `Run schedule' option is not configurable, as the Processor is not triggered to run periodically but + rather is triggered to run as the result of an event. Additionally, this is the only mode for which the `Concurrent tasks' + option can be set to 0. In this case, the number of threads is limited only by the size of the Event-Driven Thread Pool that + the administrator has configured. +- *CRON driven*: When using the CRON driven scheduling mode, the Processor is scheduled to run periodically, similarly to the + Timer driven scheduling mode. However, the CRON driven mode provides significantly more flexibility at the expensive of + increasing the complexity of the configuration. This value is made up of 6 fields, each separated by a space. These + fields represent the following fields: ++ + . Seconds + . Minutes + . Hours + . Day of Month + . Month + . Day of Week + . Year ++ +The value for each of these fields should be a number, range, or increment. +Range here refers to a syntax of -. +For example,the Seconds field could be set to 0-30, meaning that the Processor should only be scheduled if the time is 0 to 30 seconds +after the minute. Additionally, a value of `*` indicates that all values are valid for this field. Multiple values can also +be entered using a `,` as a separator: `0,5,10,15,30`. +An increment is written as /. For example, settings a value of `0/10` for the seconds fields means that valid +values are 0, 10, 20, 30, 40, and 50. However, if we change this to `5/10`, valid values become 5, 15, 25, 35, 45, and 55. ++ +For the Month field, valid values are 1 (January) through 12 (December). ++ +For the Day of Week field, valid values are 1 (Sunday) through 7 (Saturday). Additionally, a value of `L` may be appended to one of these +values to indicate the last occurrence of this day in the month. For example, `1L` can be used to indicate the last Monday of the month. + + +Next, the Scheduling Tab provides a configuration option named `Concurrent tasks.' This controls how many threads the Processor +will use. Said a different way, this controls how many FlowFiles should be processed by this Processor at the same time. Increasing +this value will typically allow the Processor to handle more data in the same amount of time. However, it does this by using system +resources that then are not usable by other Processors. This essentially provides a relative weighting of Processors -- it controls +how much of the system's resources should be allocated to this Processor instead of other Processors. This field is available for +most Processors. There are, however, some types of Processors that can only be scheduled with a single Concurrent task. + +The ``Run schedule'' dictates how often this Processor should be scheduled to run. The valid values for this field depend on the selected +Scheduling Strategy (see above). If using the Event driven Scheduling Strategy, this field is not available. When using the Timer driven +Scheduling Strategy, this value is a time duration specified by a number followed by a time unit. For example, `1 second` or `5 mins`. +The default value of `0 sec` means that the Processor should run as often as possible as long as it has data to process. This is true +for any time duration of 0, regardless of the time unit (i.e., `0 sec`, `0 mins`, `0 days`). For an explanation of values that are +applicable for the CRON driven Scheduling Strategy, see the description of the CRON driven Scheduling Strategy itself. + +The right-hand side of the tab contains a slider for choosing the `Run duration.' This controls how long the Processor should be scheduled +to run each time that it is triggered. On the left-hand side of the slider, it is marked `Lower latency' while the right-hand side +is marked `Higher throughput.' When a Processor finishes running, it must update the repository in order to transfer the FlowFiles to +the next Connection. Updating this repository is expensive, so the more work that can be done at once before updating the repository +the more work the Processor can handle (Higher throughput). However, this means that the next Processor cannot start processing +those FlowFiles until the previous Process updates this repository. As a result, the latency will be longer (the time required to process +the FlowFile from beginning to end will be longer). As a result, the slider provides a spectrum from which the DFM can choose to favor +Lower Latency or Higher Throughput. + + +==== Properties Tab + +The Properties Tab provides a mechanism to configure Processor-specific behavior. There are no default properties. Each type of Processor +must define which Properties make sense for its use case. Below, we see the Properties Tab for a RouteOnAttribute Processor: + +image::properties-tab.png["Properties Tab"] + +This Processor, by default, has only a single property: `Routing Strategy.' The default value is `Route on Property name.' Next to +the name of this property is a small question-mark symbol ( +image:iconInfo.png["Question Mark"] +). This help symbol is seen in other places throughout the application, as well, and indicates that more information is available. +Hovering over this symbol with the mouse will provide additional details about the property and the default value, as well as +historical values that have been set for the Property. + +Clicking on the value for the property will allow a DFM to change the value. Depending on the values that are allowed for the property, +the user is either provided a drop-down from which to choose a value or is given a text area to type a value: + +image::edit-property-dropdown.png["Edit Property with Dropdown"] + +In the top-right corner of the tab is a button for adding a New Property. Clicking this button will provide the DFM with a dialog to +enter the name and value of a new property. Not all Processors allow User-Defined properties. In this case, the Processor would become +invalid when the properties are applied. RouteOnAttribute, for example, does allow User-Defined properties. In fact, this Processor +will not be valid until the user has added a property. + +image:edit-property-textarea.png["Edit Property with Text Area"] + +Not that after a User-Defined property has been added, an icon will appear on the right-hand side of that row ( +image:iconDelete.png["Delete Icon"] +). Clicking this button will remove the User-Defined property from the Processor. + + + +==== Comments Tab + +The last tab in the Processor configuration dialog is the Comments tab. This tab simply provides an area for users to provide +whatever comments are appropriate for this component: + +image::comments-tab.png["Comments Tab"] + + +=== Additional Help + +Each Processor has the ability to provide additional documentation about its usage. This documentation can be found by right-clicking +on the Processor and then selecting the `Usage' item from the context menu. Alternatively, clicking the `Help' link in the top-right +corner of the application will provide a Help page with all of the Processors that are available. Clicking on the Processor in the list +will then show its usage. + + +=== Connecting Components + +After the appropriate Processors have been added to the graph and configured to meet your needs, they will have to be connected +to one another so that NiFi knows what to do with each FlowFile after it has been processed. This is accomplished by creating a +Connection between two components. When the mouse hovers over a component, a new Connection icon ( +image:addConnect.png["Connection Bubble"] +) will appear in the middle of the component: + +image:processor-connection-bubble.png["Processor with Connection Bubble"] + +This Connection bubble can then be dragged from this component to another component, which will provide to the user a +`Create Connection' dialog. This dialog consists of two tabs: `Details' and `Settings'. + +==== Details Tab + +The Details Tab provides information about the source and destination components, including the component name, the +component type, and the Process Group in which the component lives: + +image::create-connection.png["Create Connection"] + +Additionally, this tab provides the ability to choose which Relationships should be included in this Connection. At least one +Relationship must be selected. If only one Relationship is available, it is automatically selected. + +*Note*: If multiple Connections are added with the same Relationship, any FlowFile that is routed to that Relationship will +automatically be `cloned', and a copy will be sent to each of those Connections. + +==== Settings + +The Settings Tab provides the ability to configure the Connection's name, FlowFile expiration, back pressure thresholds, and +Prioritization: + +image:connection-settings.png["Connection Settings"] + +The Connection name is optional. If not specified, the name shown for the Connection will be names of the Relationships +that are active for the Connection. + +File expiration is a concept by which data that cannot be processed in a timely fashion can be automatically destroyed. +This is useful, for example, when the volume of data is expected to exceed the volume that can be sent to a remote site. +In this case, the expiration can be used in conjunction with Prioritizers to ensure that the highest priority data is +processed first and then anything that cannot be processed within one hour, for example, can be dropped. The default +value of `0 sec` indicates that the data will never expire. + + +NiFi provides two different configuration elements for back pressure. These thresholds indicate how much data should be +allowed to exist in the queue before the component that is the source of the Connection is no longer scheduled to run. +This allows the system to avoid being overrun with data. The first option provided is the ``Back pressure object threshold.'' +This is the number of FlowFiles that can be in the queue before back pressure is applied. The second configuration option +is the ``Back pressure data size threshold.'' +This specifies the maximum amount of data that should be queued up before +applying back pressure. This value is configured by entering a number followed by a data size (`B` for bytes, `KB` for +kilobytes, `MB` for megabytes, `GB` for gigabytes, or `TB` for terabytes). + +The right-hand side of the tab provides the ability to prioritize the data in queue so that higher priority data is +processed first. Prioritizers can be dragged from the top (`Available prioritizers') to the bottom (`Selected prioritizers'). +Multiple prioritizers can be selected. The prioritizer that is at the top of the `Selected prioritizers' list is the highest +priority. If two FlowFiles have the same value according to this prioritizer, the second prioritizer will determine which +FlowFile to process first, and so on. If a prioritizer is no longer desired, it can then be dragged from the `Selected +prioritizers' list to the `Available prioritizers' list. + + + +=== Processor Validation + +Before trying to start a Processor, it's important to make sure that the Processor's configuration is valid. +A status indicator is shown in the top-left of the Processor. If the Processor is invalid, the indicator +will show a yellow Warning indicator with an exclamation mark indicating that there is a problem: + +image::invalid-processor.png["Invalid Processor"] + +In this case, hovering over the indicator icon with the mouse will provide a tooltip showing all of the validation +failures for the Processor. Once all of the validation errors have been addressed, the status indicator will change +to a Stop icon, indicating that the Processor is valid and ready to be start but currently is not running: + +image::valid-processor.png["Valid Processor"] + + + + +== Command and Control of DataFlow + +When a component is added to the NiFi canvas, it is in the Stopped state. In order to cause the component to +be triggered, the component must be started. Once started, the component can be stopped at any time. From a +Stopped state, the component can then be configured, started, or disabled. + +=== Starting a Component + +In order to start a component, the following conditions must be met: + +- The component's configuration must be valid. + +- All defined Relationships for component must be connected to another component or auto-terminated. + +- The component must be stopped. + +- The component must be enabled. + +- The component must have no active tasks. For more information about active tasks, see the ``Anatomy of ...'' +sections under <> (<>, <>, <>). + +Components can be started by selecting all of the components to start and then clicking the Start icon ( +image:iconRun.png["Start"] +) in the +Actions Toolbar or by right-clicking a single component and choosing Start from the context menu. + +If starting a Process Group, all components within that Process Group (including child Process Groups) will +be started, with the exception of those components that are invalid or disabled. + +Once started, the status indicator of a Processor will change to a Play symbol ( +image:iconRun.png["Run"] +). + + +=== Stopping a Component + +A component can be stopped any time that it is running. A component is stopped by right-clicking on the component +and clicking Stop from the context menu, or by clicking the Stop icon ( +image:iconStop.png["Stop"] +) in the Actions Toolbar. + +If a Process Group is stopped, all of the components within the Process Group (including child Process Groups) +will be stopped. + +Once stopped, the status indicator of a Processor will change to the Stop symbol ( +image:iconStop.png["Stop"] +). + +Stopping a component does not interrupt its currently running tasks. Rather, it stops scheduling new tasks to +be performed. The number of active tasks is shown in the top-right corner of the Processor (see <> +for more information). + +=== Enabling/Disabling a Component + +When a component is enabled, it is able to be started. Components may be disabled when part of a +dataflow is still being assembled, for example, and as a result should not be started. Typically, +if a component is not intended to be run, the component is disabled, rather than being left in the +Stopped state. This helps to distinguish between components that are intentionally not running and +those components that may have been stopped temporarily (for instance, to change the component's +configuration) and inadvertently were never restarted. + +When it is desirable to re-enable a component, it can be enabled by selecting the component and +clicking the Enable icon ( +image:iconEnable.png["Enable"] +) in the Actions Toolbar. This is available only when the selected component or components are disabled. +Alternatively, a component can be enabled by checking the checkbox next to the ``Enabled'' option in +the Settings tab of the Processor configuration dialog or the configuration dialog for a Port. + +Once enabled, the component's status indicator will change to either Invalid ( +image:iconAlert.png["Invalid"] +) or Stopped ( +image:iconStop.png["Stopped"] +), depending on whether or not the component is valid. + +A component is then disabled by selecting the component and clicking the Disable icon ( +image:iconDisable.png["Disable"] +) in the Actions Toolbar, or by clearing the checkbox next to the ``Enabled'' option in the Settings tab +of the Processor configuration dialog or the configuration dialog for a Port. + +Only Ports and Processors can be enabled and disabled. + + + +=== Remote Process Group Transmission + +Remote Process Groups provide a mechanism for sending data to or retrieving data from a remote instance +of NiFi. When a Remote Process Group (RPG) is added to the canvas, it is added with the Transmision Disabled, +as indicated by the icon ( +image:iconTransmissionInactive.png["Transmission Disabled"] +) in the top-left corner. When Transmission is Disabled, it can be enabled by right-clicking on the +RPG and clicking the ``Enable Transmission'' menu item. This will cause all ports for which there is a Connection +to begin transmitting data. This will cause the status indicator to then change to the Transmission Enabled icon ( +image:iconTransmissionActive.png["Transmission Enabled"] +). + +If there are problems communicating with the Remote Process Group, a Warning indicator ( +image:iconAlert.png["Warning"] +) may instead be present in the top-left corner. Hovering over this Warning indicator with the mouse will provide +more information about the problem. + + +==== Individual Port Transmission + +There are times when the DFM may want to either enable or disable transmission for only a specific +Port within the Remote Process Group. This can be accomplished by right-clicking on the Remote Process Group +and choosing the ``Remote ports'' menu item. This provides a configuration dialog from which each Port can be +configured: + +image::remote-group-ports-dialog.png["Remote Process Groups"] + +The left-hand side lists all of the Input Ports that the remote instance of NiFi allows data to be sent to. +The right-hand side lists all of the Output Ports from which this instance is able to pull data. +If the remote instance is using secure communications (the URL of the NiFi instance begins with `https://`, +rather than `http://`), any Ports that the remote instance has not made available to this instance will not +be shown. + +*Note*: If a Port that is expected to be shown is not shown in this dialog, ensure that the instance has proper +permissions and that the Remote Process Group's flow is current. This can be checked by closing the Port +Configuration Dialog and looking at the bottom-right corner of the Remote Process Group. The data at which +the flow was last refresh is shown. If the flow appears to be outdated, it can be updated by right-clicking +on the Remote Process Group and selecting ``Refresh flow.'' (See <> for more information). + +Each Port is shown with the Port name, followed by its description, currently configured number of Concurrent +tasks, and whether or not data sent to this port will be compressed. To the left of this information is a switch +to turn the Port on or off. Those Ports that have no Connections attached to them are grayed out: + +image::remote-port-connection-status.png["Remote Port Statuses"] + +The on/off switch provides a mechanism to enable and disable transmission for each Port in the Remote +Process Group independently. Those Ports that are connected but are not currently transmitting can be +configured by clicking the pencil icon ( +image:iconEdit.png["Edit"] +) below the on/off switch. Clicking this icon will allow the DFM to change the number of Concurrent tasks and whether +or not compression should be used when transmitting data to or from this Port. + + + + + + + +[[monitoring]] +== Monitoring of DataFlow + +NiFi provides a great deal of information about the status of the DataFlow in order to monitor the +health and status. The Status bar provides information about the overall system health +(See <> above for more information). Processors, Process Groups, and Remote Process Groups +provide fine-grained details about their operations. Connections and Process Groups provide information +about the amount of data in their queues. The Summary Page provides information about all of the components +on the graph in a tabular format and also provides System Diagnostics information that includes disk usage, +CPU utilization, and Java Heap and Garbage Collection information. In a clustered environment, this +information is available per-node or as aggregates across the entire cluster. We will explore each of these +monitoring artifacts below. + + +[[processor_anatomy]] +=== Anatomy of a Processor + +NiFi provides a significant amount of information about each Processor on the canvas. The following diagram +is the anatomy of a Processor: + +image:processor-anatomy.png["Anatomy of a Processor"] + +The image outlines the following elements: + +- *Processor Type*: NiFi provides several different types of Processors in order to allow for a wide range + of tasks to be performed. Each type of Processor is designed to perform one specific task. The Processor + type (PutFile, in this example) describes the task that this Processor performs. In this case, the + Processor writes a FlowFile to disk - or ``Puts'' a FlowFile to a File. + +- *Bulletin Indicator*: When a Processor logs that some event has occurred, it generates a Bulletin to notify + those who are monitoring NiFi via the User Interface. The DataFlow Manager is able to configure which + bulletins should be displayed in the User Interface by updating the ``Bulletin level'' field in the + ``Settings'' tab of the Processor configuration dialog. The default value is `WARN`, which means that only + warnings and errors will be displayed in the UI. This icon is not present unless a Bulletin exists for this + Processor. When it is present, hovering over the icon with the mouse will provide a tooltip explaining the + message provided by the Processor as well as the Bulletin level. If the instance of NiFi is clustered, + it will also show the Node that emitted the Bulletin. Bulletins automatically expire after five minutes. + +- *Status Indicator*: Shows the current Status of the Processor. The following indicators are possible: + ** image:iconRun.png["Running"] + *Running*: The Processor is currently running. + ** image:iconStop.png["Stopped"] + *Stopped*: The Processor is valid and enabled but is not running. + ** image:iconAlert.png["Invalid"] + *Invalid*: The Processor is enabled but is not currently valid and cannot be started. + Hovering over this icon will provide a tooltip indicating why the Processor is not valid. + ** image:iconDisable.png["Disabled"] + *Disabled*: The Processor is not running and cannot be started until it has been enabled. + This status does not indicate whether or not the Processor is valid. + +- *Processor Name*: This is the user-defined name of the Processor. By default, the name of the Processor is + the same as the Processor Type. In the example, this value is "Copy to /review". + +- *Active Tasks*: The number of tasks that this Processor is currently executing. This number is constrained + by the ``Concurrent tasks'' setting in the ``Scheduling'' tab of the Processor configuration dialog. + Here, we can see that the Processor is currently performing two tasks. If the NiFi instance is clustered, + this value represents the number of tasks that are currently executing across all nodes in the cluster. + +- *5-Minute Statistics*: The Processor shows several different statistics in tabular form. Each of these + statistics represent the amount of work that has been performed in the past five minutes. If the NiFi + instance is clustered, these values indicate how much work has been done by all of the Nodes combined + in the past five minutes. These metrics are: + + ** *In*: The amount of data that the Processor has pulled from the queues of its incoming Connections. + This value is represented as / where is the number of FlowFiles that have been + pulled from the queues and is the total size of those FlowFiles' content. In this example, + the Processor has pulled 884 FlowFiles from the input queues, for a total of 8.85 megabytes (MB). + ** *Read/Write*: The total size of the FlowFile content that the Processor has read from disk and written + to disk. This provides valuable information about the I/O performance that this Processor requires. + Some Processors may only read the data without writing anything while some will not read the data but + will only write data. Others will neither read nor write data, and some Processors will both read + and write data. In this example, we see that in the past five minutes, this Processor has read 4.7 + MB of the FlowFile content and has written 4.7 MB as well. This is what we would expect, + since this Processor simply copies the contents of a FlowFile to disk. Note, however, that this is + not the same as the amount of data that it pulled from its input queues. This is because some of + the files that it pulled from the input queues already exists in the output directory, and the + Processor is configured to route FlowFiles to failure when this occurs. Therefore, for those files + which already existed in the output directory, no data was read nor written to disk. + ** *Out*: The amount of data that the Processor has transferred to its outbound Connections. This does + not include FlowFiles that the Processor removes itself, or FlowFiles that are routed to connections + that are auto-terminated. Like the ``In'' metric above, this value is represented as / + where is the number of FlowFiles that have been transferred to outbound Connections and + is the total size of those FlowFiles' content. In this example, all of the Relationships are configured to be + auto-terminated, so no FlowFiles are reported as having been transferred Out. + ** *Tasks/Time*: The number of times that this Processor has been triggered to run in the past 5 minutes, and + the amount of time taken to perform those tasks. The format of the time is ::. Note + that the amount of time taken can exceed five minutes, because many tasks can be executed in parallel. For + instance, if the Processor is scheduled to run with 60 Concurrent tasks, and each of those tasks takes one + second to complete, it is possible that all 60 tasks will be completed in a single second. However, in this + case we will see the Time metric showing that it took 60 seconds, instead of 1 second. This time can be + thought of as ``System Time,'' or said another way, this value is 60 seconds because that's the amount of + time it would have taken to perform the action if only a single concurrent task were used. + + + +[[process_group_anatomy]] +=== Anatomy of a Process Group + + +[[remote_group_anatomy]] +=== Anatomy of a Remote Process Group + + +=== Summary Page + + +=== Historical Statics of a Component + + + + + + + + + +== Templates + +=== Creating a Template + +=== Instantiating a Template + +=== Managing Templates +==== Importing a Template +==== Exporting a Template +==== Removing a Template + + + + + +== Data Provenance + +=== Searching for Events + +=== Details of an Event + +=== Viewing FlowFile Content + +=== Replaying a FlowFile + +=== Viewing FlowFile Lineage +==== Find Parents +==== Expanding an Event diff --git a/pom.xml b/pom.xml index 3dc1bddc17..9cccbf4b1a 100644 --- a/pom.xml +++ b/pom.xml @@ -12,8 +12,7 @@ WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ---> - +--> 4.0.0 org.apache @@ -69,7 +68,8 @@ nifi-mock nar-bundles assembly - + nifi-docs + scm:git:git://git.apache.org/incubator-nifi.git scm:git:https://git-wip-us.apache.org/repos/asf/incubator-nifi.git @@ -958,4 +958,4 @@ - + \ No newline at end of file