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ZenPacks.zenoss.OpenStackSwift-4.2.5_0.7.0-1.lbn13.noarch: All monitoring is performed through the optional swift-recon API endpoint that can be enabled on all of your Swift object servers. Before using this ZenPack you must install and configure swift-recon on your Swift object servers. Usage Installing the ZenPack will add the following objects to your Zenoss system. Configuration Properties zSwiftObjectServerPort: Listening port of swift-object-server. Defaults to 6000. Monitoring Templates SwiftObjectServer in /Devices Process Classes OpenStack/Swift swift-account-auditor swift-account-reaper swift-account-replicator swift-account-server swift-container-auditor swift-container-replicator swift-container-server swift-container-sync swift-container-updater swift-object-auditor swift-object-replicator swift-object-server swift-object-updater swift-proxy-server Event Classes /Status/Swift /Perf/Swift The zSwiftObjectServerPort property is used by the SwiftObjectServer monitoring template to control what port it will attempt to find the recon API on. Normally the default of 6000/tcp will work unless you've chosen a different port for your swift-object-server process. By default the SwiftObjectServer monitoring template will not be bound to any devices. To make use of it you will need to either bind it directly to your Swift object server devices, or put your object servers into their own device class and bind the template to that device class. Typically this will be under either /Server/Linux or /Server/SSH/Linux so you get normal operating system monitoring in addition to the Swift-specific monitoring. Swift Metrics Assuming you have swift-recon and Zenoss setup properly you can expect to see the following extra graphs on your Swift object servers. Swift Object Server - Async Pending Trend of asynchronous pending tasks. When a Swift proxy server updates an object it attempts to synchronously update the object's container with the new object information. There is a three second timeout on this task and if it can't be completed in that time, it will be put into an asynchronous pending bucket to be executed later. By trending and thresholding on how many tasks are pending you can get an early read on cluster performance problems. By default a maximum threshold of 10 is set on this metric and will raise a warning severity event in the /Perf/Swift event class when it is breached. Swift Object Server - Disks Trend of total and unmounted disks on the storage node. Swift's mechanism for detecting failing or failed drives and taking them offline is to unmount them. By proactively monitoring for unmounted disks and replacing them you can keep your cluster healthy. By default a maximum threshold of 0 is set on unmounted disks and will raise a warning severity event in the /Status/Swift event class. Swift Object Server - Quarantine Trend of accounts, containers and objects that have been quarantined. Swift has an auditor process that will find corrupt items and move them into a quarantine area so good objects will be replicated back into their place. Sudden increases in quarantined items can indicate hardware problems on storage nodes. Additionally quarantine is not automatically pruned and can result in some storage nodes filling up their disk at a faster rate than others and running out of space. By default a maximum threshold of 100 is set individually on quarantined accounts, containers and objects. A warning event will be raised in the /Status/Swift event class if it is breached. Swift Object Server - Replication Time Trend of replication time. Swift has a replicator process that cycles continually. If a single replication cycle takes more than 30 minutes it can reduce the resiliency of the cluster. By default a maximum threshold of 30 minutes is set on replication time and will raise a warning severity event in the /Perf/Swift event class when breached. Swift Object Server - Load Averages Trend of 1, 5 and 15 minute operating system load average. Additionally the 15 minute load average divided by total disks is calculated. A perfectly efficient storage node will run at a load average of 1.0 per disk. By default a maximum treshold of 2.0 is set on 15 minute load average divided by total disks and will raise a warning severity event in the /Perf/Swift event class when breached. Swift Object Server - Process Churn Trend of processes created per second. High process churn can indicate a broken process being unnecessarily restarted. By default a maximum treshold of 100 processes per second is set and will raise a warning severity event in the /Perf/Swift event class when breached. Swift Object Server - Disk Usages Trend of maximum, average and minimum disk usage for all disks in the storage node. These are the primary storage capacity metrics within a cluster. Depending on the size of each individual disk, weights and the skew of store object sizes, an entire cluster can exceed capacity if a single disk runs out of capacity. By default a maximum threshold is set on the maximum usage metric. It will raise a warning severity in the /Status/Swift event class when breached. Swift Object Server - Disk Sizes Trend of maximum, average and minimum disk sizes for all disks in the storage node. Ideally all disks in a storage node will be the same size unless weights are closely managed. No default thresholds are set on these metrics. Swift Object Server - Processes Trend of total and running processes. No default thresholds are set on these metrics. Process Monitoring All Swift processes will be discovered and monitored based on the process classes listed above. If one of the processes is found to not be running on a node where it should be, an error severity event will be raised in the /Status/OSProcess event class. Each of the individual Swift process will also be monitored for its CPU and memory utilization.

ZenPacks.zenoss.OpenStack-4.2.5_1.2.3dev-1.lbn13.noarch: This project is a Zenoss extension (ZenPack) that allows for monitoring of OpenStack. This means that you can monitor the flavors, images and servers a user or consumer perspective. OpenStack Compute v1.1 (Cactus) is known to be supported. Specifically this means that Rackspace's CloudServers can be monitored. In the future it is likely that support for monitoring OpenStack Storage (Swift) will be added. OpenStack is a global collaboration of developers and cloud computing technologists producing the ubiquitous open source cloud computing platform for public and private clouds. The project aims to deliver solutions for all types of clouds by being simple to implement, massively scalable, and feature rich. The technology consists of a series of interrelated projects delivering various components for a cloud infrastructure solution. Once the OpenStack ZenPack is installed you can begin monitoring by going to the infrastructure screen and clicking the normal button for adding devices. You'll find a new option labeled, "Add OpenStack." Choose that option and you'll be presented with a dialog asking for the following inputs. 1. Username - Same username used to login to OpenStack web interface 2. API Key - Can be found by going to "Your Account/API Access" 3. Project ID - This can be left blank if you don't know what it is 4. Auth URL - For Rackspace this would be https://auth.api.rackspacecloud.com/v1.0 5. Region Name - This can be left blank if you don't know what it is Once you click Add, Zenoss will contact the OpenStack API and discover servers, images and flavors. Once it is complete you'll find a new device in the OpenStack device class with the same name as the hostname or IP you entered into the dialog. Click into this new device to see everything that was discovered. The following types of elements are discovered. * Servers * Images * Flavors The following metrics are collected. * Total Servers and Servers by State o States: Active, Build, Rebuild, Suspended, Queue Resize, Prep Resize, Resize, Verify Resize, Password, Rescue, Reboot, Hard Reboot, Delete IP, Unknown, Other * Total Images and Images by State o States: Active, Saving, Preparing, Queued, Failed, Unknown, Other * Total Flavors Status monitoring is performed on servers and images with the following mapping of state to Zenoss event severity. Servers State to Severity Mapping: * Reboot, Hard Reboot, Build, Rebuild, Rescue, Unknown == Critical * Resize == Error * Prep Resize, Delete IP == Warning * Suspended, Queue Resize, Verify Resize, Password == Info * Active == Clear Images State to Severity Mapping: * Failed, Unknown == Critical * Queued, Saving, Preparing == Info * Active == Clear If you are also using Zenoss to monitor the guest operating system running within the server Zenoss will present the graphs for that operating system when the graphs option is chosen for the OpenStack server.

Plone: Marketplace email template

Templates: Marketplace automated CRM email notification templates

Zenoss 4: BastionLinux/Zenoss 4 manual page

Chef Server: BastionLinux/Chef manual page

Setting up WinRM for Chef: Chef/Knife needs WinRM to interact with Windows servers

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WinRM Troubleshooting

How-tos: Step-by-step instructions.

BastionLinux 19: Commercialisation of our BastionLedger web-based accountancy suite.

BastionLinux 19: Our Program Management Office collaboration portal. A complete program management suite for governmental and tier one corporate enterprises with all of the sophistication such organisations expect and demand.

Up2date: We group our software offerings into channels, each priced separately. Please do contact us in regard to our POA offerings.

plone.app.widgets-1.3.3-1.lbn13.noarch: The goal of plone.app.widgets is to provide an implementation for a new set of javascript widgets being developed in the Plone Mockup project. It overrides existing widgets used in dexterity and archetypes to provide tested and modularized widgets based on the concept of patterns. The widgets that are provided currently are: Adjust Text Size -- Easily change text size on a page. Cookie Directive -- A pattern that checks cookies enabled and asks permission for the user to allow cookies or not. Expose -- Exposes the focused element by darkening everything else on the page. Useful to focus the user attention on a particular area. Form Unload Alert -- A pattern to warn user when changes are unsaved and they try to navigate away from page. Live Search -- Dynamically query the server and display results. Modal -- Creates a modal dialog (also called overlay). Pick A Date -- Allows the user to select a date (with or without time) through a calendar. Picture -- A responsive image widget. Prevent Double Submit -- A pattern to prevent submitting a form twice. Query String for Collections -- A widget for creating query's for collections Related Items -- An advanced widget for selecting related items. Select2 -- Autocompletes, multiple or single selections from any kind of data source (with search!). Table Sorter -- A pattern you can apply to a table so it can have its items rearranged when clicking the header. TinyMCE (v4!!!) -- Rich text editor. Table of Contents -- Automatically generate a table of contents. Tooltip -- A pattern to show a tooltip on hover. DropZone -- Drag 'n drop file upload Widgets that are overridden in Edit forms are: subject language effectiveDate expirationDate contributrors creators relatedItems query All client side code (javascript/css/images) is done and tested as part of Plone Mockup project.

BastionLinux 19: Enterprise LDAP solutions, Single Sign On, and other identity services

BastionLinux 19: Create Standard Operating Environment (SOE) Linux image(s) for any platform, provision and manage cloud computing infrastructure with our cloud computing tools. Create and control your private cloud and interact seamlessly with publicly available resources - it's all here.

BastionLinux 19: Channel for the latest Zenoss 4 application suite. Zenoss 3 is available separately on our monitor channel - this facilitates our Zenoss migration programme.

BastionLinux 19: Enterprise Zope and Plone products

BastionLinux 19: The base packages needed to deploy a Linux server

rtf-converter-1.1-3.lbn13.armv6hl: rtf-converter is a command line RTF to HTML converter application written in C++. It removes specific font and font-size references leaving only the basic paragraph styles and bold, italic etc.

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