What is the decoding performance of BVMS? How many cameras can I open on the screen before the systems is overloaded (and frames are being dropped)?
The BVMS client performance overview is attached to this article and shows, based on several workstation configurations and a specific BVMS version, how many cameras can be opened before the workstation is overloaded.
How can I migrate the full configuration (including server configuration and user settings) of a BVMS system from one server to another?
(please note that, currently, the export mechanisms provided in the BVMS Configuration Client do not export the userdata. This is a known problem and being worked on. Until then this work-around should be applied).
Stop the BVMS Central Server service on the existing server from the Windows task manager or Services overview.
Stop the BVMS Central Server service on the new server from the Windows task manager or Services overview.
Copy the contents of the directory C:\programdata\Bosch\VMS\UserData on the existing server to the same directory on the new server (via the network or other media).
Copy the "elements.bvms" file located in the directory C:\programdata\Bosch\VMS\ on the existing server to the same location on the new server (via the network or other media).
Start the BVMS Central Server service on the new server from the Windows task manager or Services overview.
The entire BVMS installation package, available on the downloadstore, contains the client as well as the server components. When a BVMS client needs to be deployed, all of this data (over 2.5GB) needs to be copied to the target workstation, which can be quite a challenge in some environments.
Once the BVMS Management Server is set-up, it creates a client installation package (mainly used for the auto-upgrade functionality). This client installation package is a lot smaller compared to the full installation package and is located on the BVMS Management Server (assuming the default installation directory is used):
In order to use the client installation package: copy all the files in this directory from the management server to the new workstation and start BVMS.msi (please note Setup.exe will trigger the auto update mechanism, which will not work as there are no existing components to be updated). The MSI will start the installation process and will allow you to select Operator Client, Configuration client and/or SDK. Please note:
The correct version of the .NET framework will need to be installed manually before this procedure is used. This can be found in the zip file available in the product catalogue: “zip file extraction location”\ISSetupPrerequisites\Microsoft .NET Framework x.x.
BVMS Installer - Windows Pending Restart Message
The pop-up dialog window message: "Setup has detected a pending restart. Please reboot the system and rerun the installation" appears when attempting to run the valid BVMS windows installer package.
BVMS Installer Pending Restart Message
This is a known Windows specific problem when another (non-BVMS) installer does not properly manage its creation and deletion of the “PendingFileRenameOperations” registry key. The most common user created way for this key value to be left resident in the system is when an installation prompts for a restart, yet the system is not expeditiously restarted.
A. Restart the affected workstation
B. If the issue still persists, delete the orphaned "PendingFileRenameOperations" registry key value
Open a registry editor, such as Regedit.exe or Regedt32.exe.
Navigate to "HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\"
In the right navigation pane, right-click the "PendingFileRenameOperations" key value and select delete
Close Registry Editor.
Run the software Installer again as Administrator
Note: This message is not a Bosch product failure message. This is a problem within windows and it's registry clean-up handling. This is a Windows work around.
Microsoft Event Logging, when an error occurs, the system administrator or Integrator must determine what caused the error. The operator can then use the event log to help determine what conditions caused the error and identify the context in which it occurred.
Starting Event Viewer
The procedure for starting Event Viewer depends on your starting point, e.g. windows key + R type in ”eventvwr.msc” hit enter.
With the decent administrative access, you can select any computer in your network to view that Microsoft system event logs.
To select computers in Event Viewer:
In the top of the console tree, right-click Event Viewer (local), and then click Connect to another computer.
Enter FQDN/NetBIOS name or browser to the regarding machine
Adjusting Event Viewer Settings
In the console tree, right-click the appropriate log file, and then click Properties. Click the General tab.
Saving Event Logs
In the console tree, right-click the appropriate log file, and then click Save Log File As. Navigate to the subfolder in which you want to save the file, type a name for the file, click the file type, and then click Save.
Clearing Event Logs
In the console tree, right-click the appropriate log file, and then click clear all Events. You are prompted for whether you want to save the log to a file before clearing it. Click “Yes” to save a log and clear all events. If you click No, the log is not saved, but all events are cleared from the selected Event log. If you click Cancel, the request to clear the log is canceled.
Viewing Event Details
In the console tree, right-click the appropriate log file. A list of events in the log file is displayed in the details pane of Event Viewer. Click a specific event in the details pane to display the Event Properties dialog box and details about the event.
In the console tree, right-click the appropriate log file, and then click Properties. Click the Filter tab. Type the appropriate information that you would like to filter.
In the console tree, right-click the appropriate log file. On the View menu, click Find. Type the appropriate information that you would like to find in the dialog box, and then click Find Next.
An event that indicates a significant problem such as loss of data or loss of functionality. For example, if a service fails to load during startup, an Error event is logged.
An event that is not necessarily significant, but may indicate a possible future problem. For example, when disk space is low, a Warning event is logged. If an application can recover from an event without loss of functionality or data, it can generally classify the event as a Warning event.
An event that describes the successful operation of an application, driver, or service. For example, when a network driver loads successfully, it may be appropriate to log an Information event. Note that it is generally inappropriate for a desktop application to log an event each time it starts.
An event that records an audited security access attempt that is successful. For example, a user's successful attempt to log on to the system is logged as a Success Audit event.
An event that records an audited security access attempt that fails. For example, if a user tries to access a network drive and fails, the attempt is logged as a Failure Audit event.
The events themselves are what we’re trying to see, of course, and their usefulness can range from really specific and obvious things that you can fix easily to the totally undefined messages that don’t make any sense and you can’t find any information on your preferred search engine. example:
The regular fields on the display contain:
Log Name – while in older versions of Windows everything got dumped into the Application or System log, in the more modern editions there are dozens or hundreds of different logs to choose from. Each Windows component will most likely have its own log.
Source – this is the name of the software that generates the log event. The name usually doesn’t directly match with a filename, of course, but it is a representation of which component did it.
Event ID – the all-important Event ID can actually be a little confusing. If you were to Google for “event ID 122” that you see in the next screenshot, you wouldn’t end up with very useful information unless you also include the Source, or application name. This is because every application can define their own unique Event IDs.
Level – This tells you how severe the event is – Information just tells you that something has changed or a component has started, or something has completed. Warning tells you that something might be going wrong, but it isn’t all that important yet. Error tells you that something happened that shouldn’t have happened, but isn’t always the end of the world. Critical, on the other hand, means something is broken somewhere, and the component that triggered this event has probably crashed.
User – this field tells you whether it was a system component or your user account that was running the process that caused the error. This can be helpful when looking through things.
OpCode – this field theoretically tells you what activity the application or component was doing when the event was triggered. In practice, however, it will almost always say “Info” and is pretty useless.
Computer – on your home desktop, this will usually just be your PC’s name, but in the IT world, you can actually forward events from one computer or server to another computer. You can also connect Event Viewer to another PC or server.
Task Category – this field is not always used, but it ends up basically being an informational field that tells you a bit more information about the event.
Keywords – this field is not usually used, and generally contains useless information.
As a rule of thumb (common way of doing), you should try searching by the general description, or the Event ID and the source, or a combination of those values. Just remember that the Event ID is unique for each application. So there is a lot of overlap and you can’t just search for “Event ID 122” only. This is because users might find the list is too large and too general, your specific search aspect might not fit your issue.
In all VRM installation packages the required .NET framework package is included in the VRM installation routine.
As Microsoft Operating Systems are expected to get and have the latest security updates applied before installing any new software component like VRM (Video Recording Manger) or VSG (Video Streaming Gateway), the installer will successfully finish the installation routine. The same is valid for BOSCH DIVAR IP product range: The DIVAR IP Appliance installer contains Microsoft update packages available from Microsoft at the time BOSCH creates the Appliance installer. But all Microsoft Updates release after the Appliance installer release date are not included in the BOSCH package. It is therefore recommended to check for Microsoft updates whenever a Bosch DIVAR IP Appliance installer is installed.
For VRM (Video Recording Manager) stand-alone Systems and Servers with VSG (Video Streaming Gateway) installed, it is also strongly recommended to check for Microsoft OS updates before the VRM Master Installer is installed/updated.
Note: In case an error code 5100 is shown during the VRM Software installation, please ensure that all Microsoft updates for the used Operating Systems are installed and run the BOSCH Software installer after that once again. For more details Microsoft provides more informaiton here: https://blogs.msdn.microsoft.com/astebner/2008/10/13/net-framework-setup-verification-tool-users-guide/
For older BVMS and VRM installations please also refer to the following previous article:
How can I find the source (details of the workstation) and credentials that are used to attempt to login into BVMS (when the attempt has failed)?
The username that is used to login is saved into the BVMS logbook and can be found by searching the logbook from the Operator Client (username of login is "blabla").
The details of the workstation (mainly the IP address) is logged into the BVMS client log files. These can be found on the workstations in the directory: C:\ProgramData\Bosch\VMS\Log
(Hint: for log file analysis a lot of free / open source tools are available. Snaketail is one of these tools, and can be found here.)
Open the BVMSClientLog.txt (there could be multiple files which are all related to a different timeframe) and search for the phrase "InvalidCredentialException". If an user has tried to login to the system the following log lines should be present in the log file:
2019-03-17 18:31:53,668 75516 [GUI Thread] INFO Bosch.Vms.Frontend.OpClient.Wcf.DataAccessServiceClient ConnectAndAuthenticate - Call failed with InvalidCredentialException
2019-03-17 18:31:53,670 75518 [GUI Thread] INFO Bosch.Vms.Frontend.OpClient.ServerManagement.CentralServerManager AuthenticateAtMainServer - Main-Server 192.168.20.190: WCF online authentication result is WrongUserOrPassword
This needs to be checked for every workstation which runs the BVMS Operator Client.
Bosch ST has sold the HP Workstations and the HP Enterprise Servers and is responsible to provide the required Service & Support for these products regardless of the SLA in place with HP. Therefore, the customer always will contact the Bosch After Sales organization in case of any problems encountered with one of these products. The customer must never been told to contact HP or HPE directly if he seeks support from Bosch. In this solution article a questionnaire for a first basic analysis of a reported issue is described. This checklist is intended to help to identify and resolve known issues immediately and to collect relevant data in case of an unknown issue.
This article describes how to create a Certification Authority (CA) signed certificates for multiple cameras and distribute the CA certificate to multiple workstations. The attached step-by-step description was created for setting up BVMS recording authenticity feature in large systems.
Firmware The table below lists the firmware versions which are used in the BVMS 8.0 system test. Bosch Video Stitcher 126.96.36.199 VideoSDK 6.12.0078 Firmware MPEG-4 4.15.0002 Firmware CPP3 5.74.0004 Firmware CPP4 6.41.0037 Firmware CPP5 6.30.0047 Firmware CPP6 6.41.0037 Firmware CPP7 6.41.0037 Firmware CPP7.3 6.41.0037 Firmware CPP-ENC 5.53.0004 (for VIP X1600 XFM4) Firmware CPP-ENC 5.97.0005 (for VJT XF E family, VIDEOJETdecoder 3000) Firmware X1/X2 2.53.0005 VIP XD HD 1.8 VJD 7000 54.8.2 VJD 8000 9.00.0134 VRM 3.70.0056 VSG 6.42.0010 iOS 9.0.2 / 9.3.5 / 10.3.1 Web Client 11.0.96 Software The table below lists the software versions which are used in the BVMS 8.0 system test. BIS 4.3, 4.4, 4.5 DiBos 8.7 BRS 8.10/8.11 Allegiant MCS 2.94 / 2.95 Intuikey Keyboard 1.96 DVR FW Version 2.3.2 (DVR400 / 600) 3.61 (DIVAR 700) 2.5.0 (Divar AN 3000/5000) 1.2.1 (Divar Network/Hybrid) SQL Server 2014 Operating systems Operator Client Windows 8.1 64-bit; Windows 10 64-bit creators update (1703) Config Client Windows 8.1 64-bit; Windows 10 64-bit; Windows Server2012 R2 64-bit; Windows Server 2016 64-bit. Management Server, Mobile Video Service Windows Server 2008 R2 SP1 64-bit; Windows Server2012 R2 64-bit; Windows Server 2016 64-bit. Cameo SDK 188.8.131.52 BVMS SDK 184.108.40.206 RCPP 220.127.116.11 Hardware drivers NVIDIA Quadro Quadro Pro Driver for Microsoft Windows 7/8.1 (64-Bit) 385.08 (28.June 2017) Quadro Pro Driver for Microsoft Windows 10 (64-Bit) 385.69 (21.September 2017) AMD FirePro Unified Graphics Driver for Windows 8.1/10 (64- bit) 17.Q3 (27.July 2017) Bosch strongly urges customers to use the driver and software versions mentioned above. This ensures that the software can perform its task reliably.