Blast Session - OS Test
The BLAST Session protocol allows files on a remote computer to be manipulated - i.e., to be deleted, renamed, or printed on the remote. Owing to the improved remote file management capabilities that Blast offers, VMware now supports the Blast protocol too for user communication with virtual desktops. Because of this, there is a need to know which users have connected to virtual desktops via Blast and how the experience of each user is. This is why, the Blast Session - VM test auto-discovers the users who are connected to virtual desktops via the Blast protocol, and measures the bandwidth usage, frames processing ability, throughput, and time taken to establish each user's session. In the process, bandwidth-hungry, latent sessions can be accurately isolated.
Target of the test : An ESX server host
Agent deploying the test : An internal/remote agent
Outputs of the test : One set of results for every user who is accessing a virtual desktop via the Blast protocol
| Parameter | Description |
|---|---|
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Testperiod |
How often should the test be executed. |
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Host |
The host for which the test is to be configured |
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Port |
The port at which the HOSTlistens. By default, this is NULL. |
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ESX user and ESX password |
In order to enable the test to extract the desired metrics from a target ESX server, you need to configure the test with an ESX USER and ESX PASSWORD. The user credentials to be passed here depend upon the mechanism used by the eG agent for discovering the VMs on the target ESX server and collecting performance statistics from it. These monitoring/discovery methodologies and their corresponding configuration requirements have been discussed hereunder:
VM discovery using the vCenter in the target environment: By default, the eG agent connects to each ESX server and discovers the VMs executing on it. While this approach scales well, it requires additional configuration for each server being monitored. For example, separate user accounts may need to be created on each server for read-only access to VM details. While monitoring large virtualized installations however, the agents can be optionally configured to perform guest discovery using the VM information already available in vCenter. In this case therefore, the ESX USER and ESX PASSWORD that you specify should be that of an Administrator or Virtual Machine Administrator in vCenter. However, if, owing to security constraints, you prefer not to use the credentials of such users, then, you can create a special role on vCenter with ‘Read-only’ privileges. Refer to Assigning the ‘Read-Only’ Role to a Local/Domain User to vCenter to know how to create a user on vCenter. If the ESX server for which this test is being configured had been discovered via vCenter, then the eG manager automatically populates the ESX USER and ESX PASSWORD text boxes with the vCenter user credentials using which the ESX discovery was performed. Like ESX servers, vCenter servers too terminate user sessions based on timeout periods. The default timeout period is 30 mins. When you stop an agent, sessions currently in use by the agent will remain open for this timeout period until vCenter times out the session. If the agent is restarted within the timeout period, it will open a new set of sessions. If you want the eG agent to close already existing sessions before it opens new sessions, then you would have to configure all the tests with the credentials of a vCenter user with permissions to View and Terminate Sessions (from vCenter 4.1, this is called the View and stop sessions permission). To know how to grant this permission to a user to vCenter, refer to Creating a Special Role on vCenter and Assigning the Role to a New User. When the eG agent is started/restarted, it first attempts to connect to the vCenter server and terminate all existing sessions for the user whose credentials have been provided for the tests. This is done to ensure that unnecessary sessions do not remain established in the vCenter server for the session timeout period. Ideally, you should create a separate user account with the required credentials and use this for the test configurations. If you provide the credentials for an existing user for the test configuration, when the eG agent starts/restarts, it will close all existing sessions for this user (including sessions you may have opened using the Virtual Infrastructure client). Hence, in this case, you may notice that your VI client sessions are terminated when the eG agent starts/restarts. |
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Confirm password |
Confirm the password by retyping it here. |
|
SSL |
By default, the ESX server is SSL-enabled. Accordingly, the SSL flag is set to Yes by default. This indicates that the eG agent will communicate with the ESX server via HTTPS by default. On the other hand, if the eG agent has been configured to use the VMPerl API or CLI for monitoring (i.e., if the ESX USER parameter is set to none), then the status of the SSL flag is irrelevant. Like the ESX sever, the vCenter is also SSL-enabled by default. If you have chosen to use the vCenter for monitoring all the ESX servers in your environment, then you have to set the SSL flag to Yes. |
|
Webport |
By default, in most virtualized environments, the ESX server and vCenter listen on port 80 (if not SSL-enabled) or on port 443 (if SSL-enabled). This implies that while monitoring an SSL-enabled ESX server directly, the eG agent, by default, connects to port 443 of the ESX server to pull out metrics, and while monitoring a non-SSL-enabled ESX server, the eG agent connects to port 80. Similarly, while monitoring an ESX server via an SSL-enabled vCenter, the eG agent connects to port 443 of vCenter to pull out the metrics, and while monitoring via a non-SSL-enabled vCenter, the eG agent connects to port 80 of vCenter. Accordingly, the WEBPORT parameter is set to 80 or 443 depending upon the status of the ssl flag. In some environments however, the default ports 80 or 443 might not apply. In such a case, against the WEBPORT parameter, you can specify the exact port at which the ESX server or vCenter in your environment listens so that the eG agent communicates with that port. |
|
Virtual Center |
If the eG manager had discovered the target ESX server by connecting to vCenter, then the IP address of the vCenter server used for discovering this ESX server would be automatically displayed against the VIRTUAL CENTER parameter; similarly, the ESX USER and ESX PASSWORD text boxes will be automatically populated with the vCenter user credentials, using which ESX discovery was performed. If this ESX server has not been discovered using vCenter, but you still want to discover the guests on the ESX server via vCenter, then select the IP address of the vCenter host that you wish to use for guest discovery from the VIRTUAL CENTER list. By default, this list is populated with the IP address of all vCenter hosts that were added to the eG Enterprise system at the time of discovery. Upon selection, the ESX USERand ESX PASSWORD that were pre-configured for that vCenter server will be automatically displayed against the respective text boxes. On the other hand, if the IP address of the vCenter server of interest to you is not available in the list, then, you can add the details of the vCenter server on-the-fly, by selecting the Other option from the VIRTUAL CENTER list. This will invoke the ADD VCENTER SERVER DETAILS page. Refer to Adding the Details of a vCenter Server for VM Discovery On the other hand, if you want the eG agent to behave in the default manner -i.e., communicate with each ESX server for monitoring and VM information - then set the VIRTUAL CENTER parameter to ‘none’. |
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Exclude VMs |
Administrators of some virtualized environments may not want to monitor some of their less-critical VMs - for instance, VM templates - both from ‘outside’ and from ‘inside’. The eG agent in this case can be configured to completely exclude such VMs from its monitoring purview. To achieve this, provide a comma-separated list of VMs to be excluded from monitoring in the Exclude VMs text box. Instead of VMs, VM name patterns can also be provided here in a comma-separated list. For example, your exclude vms specification can be: *xp,*lin*,win*,vista. Here, the * (asterisk) is used to denote leading and trailing spaces (as the case may be). By default, this parameter is set to none indicating that the eG agent obtains the inside and outside views of all VMs on a virtual host by default. By providing a comma-separated list of VMs/VM name patterns in the Exclude VMs text box, you can make sure the eG agent stops collecting ‘inside’ and ‘outside’ view metrics for a configured set of VMs. |
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Ignore VMs inside view |
Administrators of some high security VMware environments might not have permissions to internally monitor one/more VMs. The eG agent can be configured to not obtain the ‘inside view’ of such ‘inaccessible’ VMs using the Ignore VMs inside view parameter. Against this parameter, you can provide a comma-separated list of VM names, or VM name patterns, for which the inside view need not be obtained. For instance, your ignore vms inside view specification can be: *xp,*lin*,win*,vista. Here, the * (asterisk) is used to denote leading and trailing spaces (as the case may be). By default, this parameter is set to none indicating that the eG agent obtains the inside view of all VMs on an ESX host by default. Note: While performing VM discovery, the eG agent will not discover the operating system of the VMs configured in the Ignore VMs inside view text box. |
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Ignore winnt |
By default, the eG agent does not support the inside view for VMs executing on Windows NT operating systems. Accordingly, the ignore winnt flag is set to Yes by default. |
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Inside view using |
By default, this test obtains the “inside view” of VMs using the eG VM Agent. Accordingly, the Inside view using flag is set to eG VM Agent by default. The eG VM Agent is a piece of software, which should be installed on every VM on a hypervisor. Every time the eG agent runs this test, it uses the eG VM Agent to pull relevant 'inside view' metrics from each VM. Once the metrics are collected, the eG agent then communicates with each VM agent and pulls these metrics, without requiring administrator privileges. Refer to Configuring the Remote Agent to Obtain the Inside View of VMs for more details on the eG VM Agent. |
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Domain, Admin User, and Admin Password, and Confirm Password |
By default, these parameters are set to none. This is because, by default, the eG agent collects 'inside view' metrics using the eG VM agent on each VM. Domain administrator privileges need not be granted to the eG agent if it uses this default approach to obtain the 'inside view' of Windows VMs. |
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Report by User |
This flag is set to Yes by default. The value of this flag cannot be changed. This implies that the virtual machines in VDI environments will always be identified using the login name of the user. In other words, in VDI environments, this test will, by default, report measures for every username_on_virtualmachinename |
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Report Powered OS |
This flag becomes relevant only if the Report By User flag is set to ‘Yes’. If the Report Powered OS flag is set to Yes (which is the default setting), then this test will report measures for even those VMs that do not have any users logged in currently. Such guests will be identified by their virtualmachine name and not by the username_on_virtualmachinename. On the other hand, if the report powered os flag is set to No, then this test will not report measures for those VMs to which no users are logged in currently. |
| Measurement | Description | Measurement Unit | Interpretation |
|---|---|---|---|
|
Round trip time |
Indicates the round trip latency between the virtual desktop and this user terminal. |
Seconds |
This measure appears only if the version of the VMware Horizon is below 7. Comparing the value of this measure across users will enable administrators to quickly and accurately identify users who are experiencing higher latency when connecting to a virtual desktop. via Blast. |
|
Bandwidth |
Indicates the bandwidth usage of all sessions of this user. |
Kbps |
This measure appears only if the version of the VMware Horizon is below 7. Compare the value of this measure across users to know which user is consuming the maximum bandwidth. |
|
Frame rate |
Indicates the rate at which frames are processed during this user's sessions. |
Frames/Sec |
This measure appears only if the version of the VMware Horizon is below 7. FPS is how fast your graphics card can output individual frames each second. It is the most time-tested and ideal measure of performance of a GPU. Higher the value of this measure, healthier is the GPU. |
|
Throughput |
Indicates the network throughput of this user's sessions. |
Kbps |
This measure appears only if the version of the VMware Horizon is below 7. A poor network throughput could cause latencies in network communication. |
|
Audio data received |
Indicates the bandwidth used while transmitting sound/audio to this user. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. Comparing these values across users will reveal which user is sending/receiving bandwidth-intensive sound/audio files over Blast. |
|
Audio data transmitted |
Indicates the bandwidth used while transmitting sound/audio from this user. |
Kbps |
|
|
Client drive redirection data received |
Indicates the bandwidth used while receiving client drive redirection (CDR) data to this user. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. When the Horizon Client and Horizon Agent are deployed with client drive redirection and the Blast is enabled, folders and files are sent across a virtual channel with encryption. This ensures that the connections between clients and the View Secure Gateway, and the connections from the View Secure Gateway to desktop machines are secure. These measures help administrators to figure out the traffic statistics during the reception/transmission of CDR data. Comparing these values across users will reveal which user is sending/receiving bandwidth-intensive client drive redirection data over Blast. |
|
Client drive redirection data transmitted |
Indicates the bandwidth used while transmitting client drive redirection data from this user. |
Kbps |
|
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Clipboard data received |
Indicates the bandwidth used while receiving clipboard data by this user. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. Configuring the clipboard redirection on the client machine enables administrators to control users from redirecting clipboard data to and/or from the virtual desktop and the client machine during the session. Comparing these values across users will reveal which user is sending/receiving bandwidth-intensive clipboard redirection content during the session. |
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Clipboard data transmitted |
Indicates the bandwidth used while transmitting clipboard data from this user. |
Kbps |
|
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Data received in HTML5 multimedia redirection |
Indicates the bandwidth used while receiving HTML5 multimedia content to this user. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. To redirect HTML5 multimedia content from a remote desktop to the local client system, administrators need to enable the HTML5 Multimedia Redirection feature and install the Chrome browser on the remote desktop. Enabling the HTML5 Multimedia Redirection feature also allows administrators to specify the websites that can use this feature. These measures help administrators to easily find out the bandwidth utilized during each user's session for transmitting and receiving the HTML5 multimedia content to different websites. Comparing these values across users will reveal which user is sending/receiving bandwidth-intensive multimedia files over Blast. |
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Data transmitted in HTML5 multimedia redirection |
Indicates the bandwidth used while transmitting HTML5 multimedia content from this user. |
Kbps |
|
|
Dirty frames rate |
Indicates the rate at which the dirty frames are processed during this user's sessions. |
Frames/Sec |
This measure appears only if the version of the VMware Horizon is 7 and above. In the context of a Virtual Desktop Infrastructure (VDI) session, a "dirty frame" refers to a part of the screen that has changed or been updated since the last frame was transmitted to the client. In VDI environments, the efficient transfer of screen updates from the virtual desktop hosted on a server to the end-user client device is crucial for performance and user experience. Here’s a detailed explanation of the concept:
In summary, a "dirty frame" in a VDI session is any part of the screen that has been modified since the last screen update sent to the client. Efficiently detecting and transmitting these dirty frames is key to optimizing the performance and responsiveness of VDI systems. The value of this measure should be very low. A high value indicates that the image quality is potentially poor. |
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FBC rate |
Indicates the number of image frames processed during this user's session. |
Number |
This measure appears only if the version of the VMware Horizon is 7 and above. |
|
Frames rate |
Indicates the rate at which the image frames are processed during this user's session. |
Kbps |
This measure appears only if the version of the VMware Horizon is 7 and above. This measure indicates how quickly the image frames are processed during the session. A lower value of this measure indicates that the frames are processed slowly and the administrator neeed to This measure will be reported only if the VMware Horizon View version is 7 and above. |
|
Imaging data received |
Indicates the bandwidth used by this user when receiving imaging data. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. Comparing these values across users will reveal which user is sending/receiving bandwidth-intensive images over Blast. |
|
Imaging data transmitted |
Indicates the bandwidth used this user when transmitting imaging data. |
Kbps |
|
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Real-time audio/video data received |
Indicates the rate at which the real-time audio/video data was received by this user. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. With the Real-Time Audio-Video feature, webcam and audio devices that are connected locally to the client system are redirected to the remote sessions. This allows the users to run Skype, Webex, Google Hangouts, and other online conferencing applications in their remote sessions. This feature also helps administrators to redirect video and audio data with a significantly lower bandwidth than can be achieved by using USB redirection. Comparing these values across users will reveal which user is sending/receiving bandwidth-intensive real-time audio/video data during the session. |
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Real-time audio/video data transmitted |
Indicates the rate at which the real-time audio/video data was transmitted during this user's sessions. |
Kbps |
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Serial port and scanner data received |
Indicates the rate at which the serial port and scanner data was received during this user's sessions. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. With the serial port and scanner redirection feature, administrators can easily connect the scanner and phisical COM port devices with the virtual desktops. |
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Serial port and scanner data transmitted |
Indicates the rate at which the serial port and scanner data was transmitted during this user's sessions. |
Kbps |
|
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Session data received |
Indicates the rate at which the data was received during this user's sessions. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. Using the values of these measures help administrators to determine the data traffic during the session. |
|
Session data transmitted |
Indicates the rate at which the data was transmitted during this user's sessions. |
Kbps |
|
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Jitter |
Indicates the time delay encountered during this user's session. |
Seconds |
This measure appears only if the version of the VMware Horizon is 7 and above. A value of this measure should be low. A higher value indicates unintended deviation or inconsistency that degrades the quality of audio and video communications. |
|
Round trip time |
Indicates the round trip latency between the virtual desktop and this user terminal. |
Seconds |
This measure appears only if the version of the VMware Horizon is 7 and above. Comparing the value of this measure across users will enable administrators to quickly and accurately identify users who are experiencing higher latency when connecting to a virtual desktop. |
|
Packet loss |
Indicates the percentage of packets lost during this user' session. |
Percent |
This measure appears only if the version of the VMware Horizon is 7 and above. A value of this measure should be very low. A high value for this measure is indicative of a bad network connection between the user terminal and the virtual desktop. |
|
Estimated bandwidth |
Indicates the maximum bandwidth that this user can consume during the Blast sessions. |
Kbps |
This measure appears only if the version of the VMware Horizon is 7 and above. |
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Data received in Skype for business control |
Indicates the bandwidth used when this user received Skype data over the Blast channel. |
Kbps |
These measures appears only if the version of the VMware Horizon is 7 and above. Comparing the values of these measures across users will reveal which user is sending/receiving bandwidth-intensive Skype data over the Blast channel. |
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Data transmitted in Skype for business control |
Indicates the bandwidth used when this user transmitted Skype data over the Blast channel. |
Kbps |
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Thin-Print data received |
Indicates the bandwidth used when this user received Thin-Print data over the Blast channel. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. Comparing the values of these measures across users will reveal which user is sending/receiving bandwidth-intensive Thin-Print data over the Blast channel. |
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Thin-Print data transmitted |
Indicates the bandwidth used when this user transmitted Thin-Print data over the Blast channel. |
Kbps |
|
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USB data received |
Indicates the bandwidth used when this user received USB data over the Blast channel. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. Comparing the values of these measures across users will reveal which user is sending/receiving bandwidth-intensive USB data over the Blast channel. |
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USB data transmitted |
Indicates the bandwidth used when this user sent USB data over the Blast channel. |
Kbps |
|
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Windows media MMR data recieved |
Indicates the bandwidth used when this user received Windows media MMR data over the Blast channel. |
Kbps |
These measures appear only if the version of the VMware Horizon is 7 and above. Comparing the values of these measures across users will reveal which user is sending/receiving bandwidth-intensive Windows media MMR data over the Blast channel. |
|
Windows media MMR data transmitted |
Indicates the bandwidth used when this user transmitted Windows media MMR data over the Blast channel. |
Kbps |
