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VMware Virtual SAN 6.6 what’s new

VMware Virtual SAN 6.6 what’s new

1vsan

vSAN 6.6 it’s 6th generation of the product and there are more than 20+ new features and enhancements in this release, such as:

  • Native encryption for data-at-rest
  • Compliance certifications
  • Resilient management independent of vCenter
  • Degraded Disk Handling v2.0 (DDHv2)
  • Smart repairs and enhanced rebalancing
  • Intelligent rebuilds using partial repairs
  • Certified file service & data protection solutions
  • Stretched clusters with local failure protection
  • Site affinity for stretched clusters
  • 1-click witness change for Stretched Cluster
  • vSAN Management Pack for vRealize
  • Enhanced vSAN SDK and PowerCLI
  • Simple networking with Unicast
  • vSAN Cloud Analytics with real-time support notification and recommendations
  • vSAN Config Assist with 1-click hardware lifecycle management
  • Extended vSAN Health Services
  • vSAN Easy Install with 1-click fixes
  • Up to 50% greater IOPS for all-flash with optimized checksum and dedupe
  • Support for new next-gen workloads
  • vSAN for Photon in Photon Platform 1.1
  • Day 0 support for latest flash technologies
  • Expanded caching tier choice
  • Docker Volume Driver 1.1

 

… ok now lets review main enhancements:

vSAN 6.6 introduces the industry’s first native HCI security solution. vSAN will now offer data-at-rest encryption that is completely hardware-agnostic. No more concern about someone walking off with a drive or breaking in to a less-secure, edge IT location and stealing hardware. Encryption is applied at the cluster level, and any data written to a vSAN storage device, both at the cache layer and persistent layer can now be fully encrypted.  And vSAN 6.6 supports 2-factor authentication, including SecurID and CAC.

2vsan

Certified file services and data protection solutions are available from 3rd party partners in the VMware Ready for vSAN Program to enable customers to extend and complement their vSAN environment with proven, industry-leading solutions. These solutions provide customers with detailed guidance on how to complement vSAN. (EMC NetWorker is avaialble today with new solutions coming on soon)

3vsan

vSAN stretched cluster was released in Q3’15 to provide an Active-Active solution. vSAN 6.6 adds a major new capability that will deliver a highly-available stretched cluster that addresses the highest resiliency requirements of data centers. vSAN 6.6 adds support for local failure protection that can provide resiliency against both site failures and local component failures.

4vsan

PowerCLI Updates: Full featured vSAN PowerCLI cmdlets enable full automation that includes all the latest features. SDK/API updates also enable enterprise-class automation that brings cloud management flexibility to storage by supporting REST APIs.

VMware vRealize Operations Management Pack for vSAN released recently, provides customers with native integration for simplified management and monitoring. The vSAN management pack is specifically designed to accelerate time to production with vSAN, optimize application performance for workloads running on vSAN and provide unified management for the Software Defined Datacenter (SDDC). It provides additional options for monitoring, managing and troubleshooting vSAN along with the end-to-end infrastructure solutions.

5vsan

Finally, vSAN 6.6 is well suited for next-generation applications. Performance improvements, especially when combined with new flash technologies for write-intensive applications, enable vSAN to address more emerging applications like Big Data. The vSAN team has also tested and released numerous reference architectures for these types of solutions, including Big Data, Splunk and InterSystems Cache.

RESOURCES:

  • Splunk Reference Architecture: http://www.emc.com/collateral/service-overviews/h15699-splunk-vxrail-sg.pdf
  • Citrix XenDestkop/XenApp Blog: https://blogs.vmware.com/virtualblocks/2017/02/27/citrix-xenapp-xendesktop-7-12-vmware-vsan-6-5-flash/
  • vSAN, VxRail and Pivotal Cloud Foundry RA: https://www.vmware.com/content/dam/digitalmarketing/vmware/en/pdf/products/vsan/vmware-pcf-vxrail-reference-architeture.pdf
  • vSAN and InterSystems Blog: https://community.intersystems.com/post/intersystems-data-platforms-and-performance-%E2%80%93-part-8-hyper-converged-infrastructure-capacity
  • Intel, vSAN and Big Data Hadoop: https://builders.intel.com/docs/storagebuilders/Hyper-Converged_big_data_using_Hadoop_with_All-Flash_VMware_vSAN.pdf

 

 

vCenter 6.5 DSN permissions

vCenter 6.5 DSN permissions

Recently we had some strange problems with our 6.5 lab vCenter (Windows version with MSSQL Server db), which frequently crashed. After some digging in vpxd logs it seem to be related to vc db permissions:

17-05-28T19:36:53.443+02:00 error vpxd[05420] [Originator@6876 sub=Default] [VdbStatement] SQLError was thrown: “ODBC error: (42000) – [Micrsoft][SQL Server Native Client 11.0][SQL Server]VIEW SERVER STATE permission was denied on object ‘server’, database ‘master’.” is returned when executing SQL statement “SELECT  DB_NAME(mf.DATABASE_ID) Db_Name,            CASE mf.FILE_ID WHEN 1 THEN ‘DATA’                            WHEN 2 THEN ‘LOG’            END File_Type,            vol.VOLUME_MOUNT_POINT AS Drive,            CONVERT(INT,vol.AVAILABLE_BYTES/1048576.0) FreeSpaceInMB,            (mf.SIZE*8)/1024 VCDB_Space_Mb,             mf.PHYSICAL_NAME Physical_Name,             SERVERPROPERTY(‘edition’) Sql_Server_Edition,             SERVERPROPERTY(‘productversion’) Sql_Server_Version            FROM            SYS.M” action.

The SQL execution is failing as the vCenter Server database user has no permisss on ‘master’ database, to resolve this issue, grant additional privileges to the vCenter Server database user:

use master
go
grant VIEW SERVER STATE to [vCenter_database_user]
go
GRANT VIEW ANY DEFINITION TO [vCenter_database_user]
go

 

vCenter Appliance 6.0 U3 email notifications are not sent when multiple email addresses are defined in an alarm action

vCenter Appliance 6.0 U3 email notifications are not sent when multiple email addresses are defined in an alarm action

Recently I tried to configure email notifications on my lab vCenter Server Appliance (6.0u3), but  experience issue:

 “Diagnostic-Code: SMTP;550 5.7.60 SMTP; Client does not have permissions to send as this sender”

I tried to use solution from kb: https://kb.vmware.com/kb/2075153 but apparently, the solution does not work with latest 6.0.x appliance!

After some research and digging deeper (header analysis ), it seems that root cause was invalid return path in the email header. To resolve this you need to edit two system files:

1. SSH to VCSA and enable shell:

#Command>shell.set –enabled True

# Command>shell

2. Open catalog : /etc/sysconfig

mail1

3. Edit “mail” using vi and made a change as in below prtsc:

#vi email

mail2

  • simply check using cat:

mail3

4. In the same catalog edit “sendmail” file adding a domain name “SENDMAIL_GENERICS_DOMAIN=”:

mail4

5. Subsequently, go to /etc/mail catalog and add a user to mask root in “genericstable”:

mail56. Regenerate table:

# makemap -r hash /etc/mail/genericstable.db < /etc/mail/genericstable

7. create file sendmail.mc:

#/sbin/conf.d/SuSEconfig.sendmail -m4 > /sendmail.mc

Note. Do not edit file “sendmail” like in abowe procedure

8. Double check if “sendmail.cf” file in catalog /etc exist if yes then change it a name:

   #mv /etc/sendmail.cf /etc/sendmail.cf.orig

9. Create a new config file:

#m4 /sendmail.mc > /etc/sendmail.cf

10. Open config file “sendmail.cf” (vi) and add IP SMTP/Exchange (DS[xxx.xxx.xxx.xxx] ) server in environment :

mail611. Restart sendmail service:

# /etc/init.d/sendmail restart

 

Now it should work fine !

Esxi Net.ReversePathFwdCheckPromisc Advanced setting

Esxi Net.ReversePathFwdCheckPromisc Advanced setting

During deployment of Cisco proxy appliance, we discovered a problem. According to cisco to resolve this problem qa“Net.ReversePathFwdCheckPromisc” should be set to “1” on ESX’s.

The question is – do you know any negative effects which such change could cause. We believe that there must be a reason why by default this option is set to 0 ? That’s why I decided to figure our what it is used for.

After some research I was able to find answer:

Setting – > Net.ReversePathFwdCheckPromisc = 1 — > this is when you are expecting the reverse filters to filter the mirrored packets, to prevent multicast packets getting duplicated.

Note: If the value of the Net.ReversePathFwdCheckPromisc configuration option is changed when the ESXi instance is running, you need to enable or re-enable the promiscuous mode for the change in the configuration to take effect.

The reason you would use promiscuous mode depends on the requirement and configuration. Please check the below KB Article:

http://kb.vmware.com/kb/1004099

  • This option is not enabled by default because we are not aware of the vSwitch configuration and can’t predict what it could be as it has configurable options.

VMware does not advise to enable this option if we do not have a use case scenario with teamed uplinks and have monitoring software running on the VMs ideally. As When promiscuous mode is enabled at the port group level, objects defined within that port group have the option of receiving all incoming traffic on the vSwitch. Interfaces and virtual machines within the port group will be able to see all traffic passing on the vSwitch causing VM performance impact.

Should the ESX server be rebooted for this change to take effect:  answer is – > Yes, and Yes you can enable this option with the VMs running on the existing portgroup.

Do you have any interesting virtualization related question?

 

SAP application on vSphere platform

SAP application on vSphere platform

This is a mini article to start our Q&A set, a set of not easy to find answer real life questions 😉 qa
Recently I received a question-related to advanced settings SAP app on vSphere platform:
“One of our customer ask us to set the following option to their virtual system: Misc.GuestLibAllowHostInfo This is according to SAP note: 1606643 where SAP requires reconfigure virtual system default configuration. I can’t find details information, which host data would be exposed to virtual system. Could you please point me to documentation or describe which information is being transferred from HOST to virtual systems?“

  • After some research I was able to find answer :

“Misc.GuestLibAllowHostInfo” and “tools.guestlib.enableHostInfo” these configurations if enabled allow the guest OS to access some of the ESXi host configurations, mainly performance metrics e.g. how many CPU cores the host has, their utilization and contention etc. There is no confidential information from other customers which would be visible, however, it may give the user of those SAP VMs access to performance/resource information which you may not want to share.

The following document outlines the effect of the changes as I have described above.

I believe the “might use the information to perform further attacks on the host” could only apply to other vulnerabilities which may exist for the particular hardware information that the guestOS can gather from the ESXi host.
Other than that I am not sure there is any other concern to worry about.

Do you have any interesting virtualization related question?

ESXi and Likewise – troubleshooting guide – part 2

ESXi and Likewise – troubleshooting guide – part 2

In last part of this small series, we discussed theoretical background about components and technology related for adding ESX host to windows AD environment. Now it is time to describe troubleshooting options and some real life problems with solutions.

Let’s start from dividing all ESXi/Likewise issues into categories:

  1. Domain Join Failures

Here are most often reasons that an attempt to join a domain fails:

  • The user name or password of the account used to join the domain is incorrect.
  • The name of the domain is mistyped.
  • The name of the OU is mistyped.
  • The local hostname is invalid.
  • The domain controller is unreachable from the client because of a firewall or because the NTP service is not running on the domain controller.
  • Verify that the Name Server Can Find the Domain

# nslookup <AD Domain>

  • Make Sure the Client Can Reach the Domain Controller

verify that ESX host can reach the domain controller by pinging it.

  • Verify that Outbound Ports Are Open
  • Port 88 – Kerberos authentication
  • Port 123 – NTP
  • Port 135 – RPC
  • Port 137 – NetBIOS Name Service
  • Port 139 – NetBIOS Session Service (SMB)
  • Port 389 – LDAP
  • Port 445 – Microsoft-DS Active Directory, Windows shares (SMB over TCP)
  • Port 464 – Kerberos – change/password changes
  • Port 3268- Global Catalog search
  • Check DNS Connectivity

make sure the nameserver entry in /etc/resolv.conf contains the IP address of a DNS server that can resolve the name of the domain you are trying to join.

  • Make Sure nsswitch.conf Is Configured to Check DNS for Host Names

The /etc/nsswitch.conf file must contains the following line:

hosts: files dns

  • Ensure that DNS Queries Are Not Using the Wrong Network Interface Card

If the ESX host is multi-homed, the DNS queries might be going out the wrong network interface card. Temporarily disable all the NICs except for the card on the same subnet as your domain controller or DNS server and then test DNS lookups to the AD domain. If this works, re-enable all the NICs and edit the local or network routing tables so that the AD domain controllers are accessible from the host.

  • Determine Whether the DNS Server Is Configured to Return SRV Records

Your DNS server must be set to return SRV records so the domain controller can be located. It is common for non-Windows (bind) DNS servers to not be configured to return SRV records.

Diagnose by executing the following command:

nslookup -q=srv _ldap._tcp. ADdomainToJoin.com

  • Make Sure that the Global Catalog Is Accessible

The global catalog for Active Directory must be accessible. Diagnose by executing the following command:

nslookup -q=srv _ldap._tcp.gc._msdcs. ADrootDomain.com

From the list of IP addresses in the results, choose one or more addresses and test whether they are accessible on Port 3268 by using telnet.

  • Verify that the Client Can Connect to the Domain on Port 123

Windows time service must be running on the domain controller.

On a Linux computer, run the following command as root:

ntpdate -d -u DC_hostname

  1. Log-in/Authentication issues
  • Make Sure You Are Joined to the Domain

Check ‘lw-lsa get-status’

  • Clear the Cache

Clear the cache to ensure that the client computer recognizes the user’s ID.

# ad-cache –delete-all

Clear the Likewise Kerberos cache to make sure there is not an issue. Execute the following command at the shell prompt with the user account that you are troubleshooting:

~#kdestroy

  • Check the Status of the Likewise Authentication Daemon

#/etc/init.d/lsassd status

  • Check Communication between the Likewise Daemon and AD

verify that the you can ping DC from ESX host.

  • Make Sure the AD Authentication Provider Is Running

# lw-lsa get-status

If the result will not include the AD authentication provider or will indicate that it is offline restart the authentication daemon

  • Check whether you can log on with SSH by executing the following command:

ssh DOMAIN\\username@localhost

  1. Lsassd crash due to various reasons such as during trust enumeration etc.
  • analyze the lsassd,netlogond,lwiod logs, see where exactly where likewise daemon is crashing.
  • look into the hostd logs and tcpdump to get more info
  1. Kerberos related issues
  • start to look into the packet capture (both sites esxi and ad) to see if we’re getting proper TGT and TGS.

//can be related to Kerberos cache so in this case empty the Kerberos cache using mentioned  ‘kdestory’ command.

  1. Hostd crash in Likewise code
  • Gather full log bundle and engage VMware GSS
  1. Windows AD server related issues
  • Gather guest OS logs and engage MS Support.

Ok., so now we have in one place all troubleshooting options and methodology, now it is time for real life story experience based on one of my last service requests: Customer is unable to log in using Active Directory credentials. It shows invalid credentials even though “Authentication Services” shows that host is joined into domain correct domain. The issue is seen on most of the hosts within the environment. Only 2 hosts do not suffer from the problem – cannot find any difference in configuration. Customer running latest 6.0 build: 4600944

Some other symptoms observed during troubleshooting issue step by step:

  1. Tried to disjoin server outside the domain using vSphere Client GUI on the host connected to vCenter – host stops responding unless we restart hostd. Restarting all management agents hangs on likewise agent for an infinite time.
  2. Unable to stop Active Directory Service – server not responding. After restarting hostd, or entire host – server back to normal operational state
  3. Change Active Directory Service to not start with the host -> restart ESXi – works
  4. Check auth type – now ESXi states that it is Local Authentication (so after all the restarts, finallly ESXi left the domain)
  5. Add host once again to the domain – host stops responding. Restart hostd – works fine
  6. Check auth type – ESXi states that he is joined to domain.
  7. Try to add permissions to the domain users – unable to select domain to assign permissions
  8. From AD perspective – ESXi account is refreshed

Troubleshooting Action Taken

===============

  1. Verify if likewise agents is up and running (It is)
  2. Restart likewise agent on the hosts (no impact on issue)
  3. Add advanced setting UserVars.ActiveDirectoryPreferredDomainControllers as per KB https://kb.vmware.com/kb/2107385 – Didn’t help
  4. To exclude any firewall issues blocking Domain controller traffic: ~# esxcli network firewall unload and retry login with domain account- Didnt help
  5. Increased likewise agent logging to debug and:
  6. a) Re-try domain authentication to see log entries
  7. b) Tried to leave -> rejoin domain using CLI (leave succesful, rejoin causes host to hang again unless we reboot host)
  8. Verify known issues in 6.0 related to authentication with AD – issues resolved in 6.0U1, while customer using latest patch

 

Log Analysis

  1. Trying to stop LWSMD using SSH

[~] /etc/init.d/lwsmd stop

watchdog-lwsmd: Terminating watchdog process with PID 36150 Stopping Likewise Service Manager [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] …failed

 

  1. Retry domain authentication with debug likewise logging (authentication does not succeed):

20161208115138:DEBUG:LwKrb5SetThreadDefaultCachePath():lwkrb5.c:410: Switched gss krb5 credentials path from <null> to FILE:/etc/likewise/lib/krb5cc_lsass.XXX.COM

20161208115138:DEBUG:lsass:MemCacheFindGroupByName():memcache.c:1081: Error code: 40017 (symbol: LW_ERROR_NOT_HANDLED)

20161208115138:DEBUG:lsass:LsaSrvFindProviderByName():state.c:128: Error code: 40040 (symbol: LW_ERROR_INVALID_AUTH_PROVIDER)

20161208115138:DEBUG:lsass:LsaSrvProviderServicesDomain():provider.c:151: Error code: 40040 (symbol: LW_ERROR_INVALID_AUTH_PROVIDER)

20161208115138:VERBOSE:lsass:LsaAdBatchMarshal():batch_marshal.c:525: Did not find object by NT4 name ‘ESX Admins’

20161208115138:DEBUG:lsass:LsaAdBatchFindSingleObject():batch.c:1388: Error code: 40071 (symbol: LW_ERROR_NO_SUCH_OBJECT)

20161208115138:DEBUG:lsass:AD_FindObjectByNameTypeNoCache():online.c:3519: Error code: 40071 (symbol: LW_ERROR_NO_SUCH_OBJECT)

20161208115138:DEBUG:lsass:AD_OnlineFindObjectByName():online.c:4129: Error code: 40012 (symbol: LW_ERROR_NO_SUCH_GROUP)

20161208115138:DEBUG:lsass:LsaSrvFindGroupAndExpandedMembers():api2.c:1626: Error code: 40012 (symbol: LW_ERROR_NO_SUCH_GROUP)

20161208115338:VERBOSE:lsass:LsaSrvIpcCheckPermissions():ipc_state.c:79: Permission granted for (uid = 0, gid = 0, pid = 169257) to open LsaIpcServer

20161208115338:VERBOSE:lsass-ipc:lwmsg_peer_log_accept():peer-task.c:271: (session:f09bcf7743520e1d-b414124c53159168) Accepted association 0x1f0e5be8

20161208115338:DEBUG:LwKrb5SetThreadDefaultCachePath():lwkrb5.c:410: Switched gss krb5 credentials path from <null> to FILE:/etc/likewise/lib/krb5cc_lsass. 1. Trying to stop LWSMD using SSH

[root@plpa2ex19irvm:~] /etc/init.d/lwsmd stop

watchdog-lwsmd: Terminating watchdog process with PID 36150 Stopping Likewise Service Manager [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] [failed to release memory reservation ] …failed

 

  1. Retry domain authentication with debug likewise logging (authentication does not succeed):

20161208115138:DEBUG:LwKrb5SetThreadDefaultCachePath():lwkrb5.c:410: Switched gss krb5 credentials path from <null> to FILE:/etc/likewise/lib/krb5cc_lsass.XXX.COM

20161208115138:DEBUG:lsass:MemCacheFindGroupByName():memcache.c:1081: Error code: 40017 (symbol: LW_ERROR_NOT_HANDLED)

20161208115138:DEBUG:lsass:LsaSrvFindProviderByName():state.c:128: Error code: 40040 (symbol: LW_ERROR_INVALID_AUTH_PROVIDER)

20161208115138:DEBUG:lsass:LsaSrvProviderServicesDomain():provider.c:151: Error code: 40040 (symbol: LW_ERROR_INVALID_AUTH_PROVIDER)

20161208115138:VERBOSE:lsass:LsaAdBatchMarshal():batch_marshal.c:525: Did not find object by NT4 name ‘ESX Admins’

20161208115138:DEBUG:lsass:LsaAdBatchFindSingleObject():batch.c:1388: Error code: 40071 (symbol: LW_ERROR_NO_SUCH_OBJECT)

20161208115138:DEBUG:lsass:AD_FindObjectByNameTypeNoCache():online.c:3519: Error code: 40071 (symbol: LW_ERROR_NO_SUCH_OBJECT)

20161208115138:DEBUG:lsass:AD_OnlineFindObjectByName():online.c:4129: Error code: 40012 (symbol: LW_ERROR_NO_SUCH_GROUP)

20161208115138:DEBUG:lsass:LsaSrvFindGroupAndExpandedMembers():api2.c:1626: Error code: 40012 (symbol: LW_ERROR_NO_SUCH_GROUP)

20161208115338:VERBOSE:lsass:LsaSrvIpcCheckPermissions():ipc_state.c:79: Permission granted for (uid = 0, gid = 0, pid = 169257) to open LsaIpcServer

20161208115338:VERBOSE:lsass-ipc:lwmsg_peer_log_accept():peer-task.c:271: (session:f09bcf7743520e1d-b414124c53159168) Accepted association 0x1f0e5be8

20161208115338:DEBUG:LwKrb5SetThreadDefaultCachePath():lwkrb5.c:410: Switched gss krb5 credentials path from <null> to FILE:/etc/likewise/lib/krb5cc_lsass.XXX.COM

20161208115338:INFO:netlogon:LWNetSrvGetDCName():dcinfo.c:97: Looking for a DC in domain ‘XXX’, site ‘<null>’ with flags 100

20161208115338:INFO:netlogon:LWNetSrvGetDCName():dcinfo.c:97: Looking for a DC in domain ‘XXX.com’, site ‘<null>’ with flags 100

20161208115338:INFO:netlogon:LWNetSrvGetDCName():dcinfo.c:97: Looking for a DC in domain ‘XXX.com’, site ‘<null>’ with flags 140

20161208115338:DEBUG:netlogon:LWNetCacheDbQuery():lwnet-cachedb.c:1079: Cached entry not found: XXX.com, , 1

20161208115338:DEBUG:netlogon:LWNetSrvGetDCName():dcinfo.c:128: Error at ../netlogon/server/api/dcinfo.c:128 [code: 1355]

20161208115338:DEBUG:netlogon:LWNetTransactGetDCName():ipc_client.c:249: Error at ../netlogon/client/ipc_client.c:249 [code: 1355]

20161208115338:DEBUG:netlogon:LWNetGetDCNameExt():dcinfo.c:133: Error at ../netlogon/client/dcinfo.c:133 [code: 1355]

 

  1. Try to rejoin domain (which causes host to hang in the end):

20161214123838:VERBOSE:lsass:LsaSrvIpcCheckPermissions():ipc_state.c:79: Permission granted for (uid = 0, gid = 0, pid = 39070) to open LsaIpcServer

20161214123838:VERBOSE:lsass-ipc:lwmsg_peer_log_accept():peer-task.c:271: (session:6b1bb0e33d95252a-e893c9a774c67d8e) Accepted association 0x1f07fe00

20161214123838:VERBOSE:lwreg:RegDbOpenKey():sqldb.c:1032: Registry::sqldb.c RegDbOpenKey() finished

20161214123838:DEBUG:lwreg:RegDbGetKeyValue_inlock():sqldb_p.c:1227: Error at ../lwreg/server/providers/sqlite/sqldb_p.c:1227 [status: LW_STATUS_OBJECT_NAME_NOT_FOUND = 0xC0000034 (-1073741772)]

20161214123838:DEBUG:lwreg:RegDbGetValueAttributes_inlock():sqldb_schema.c:846: Error at ../lwreg/server/providers/sqlite/sqldb_schema.c:846 [status: LW_STATUS_OBJECT_NAME_NOT_FOUND = 0xC0000034 (-1073741772)]

20161214123838:VERBOSE:lwreg:SqliteGetValueAttributes_Internal():regschema.c:360: Registry::sqldb.c SqliteGetValueAttributes_Internal() finished

20161214123838:DEBUG:lwreg:SqliteGetValue():sqliteapi.c:887: Error at ../lwreg/server/providers/sqlite/sqliteapi.c:887 [status: LW_STATUS_OBJECT_NAME_NOT_FOUND = 0xC0000034 (-1073741772)]

20161214123838:DEBUG:lwreg:RegTransactGetValueW():clientipc.c:810: Error at ../lwreg/client/clientipc.c:810 [status: LW_STATUS_OBJECT_NAME_NOT_FOUND = 0xC0000034 (-1073741772)]

20161214123838:DEBUG:lwreg:LwNtRegGetValueA():regntclient.c:801: Error at ../lwreg/client/regntclient.c:801 [status: LW_STATUS_OBJECT_NAME_NOT_FOUND = 0xC0000034 (-1073741772)]

20161214123838:DEBUG:lwreg:RegShellUtilGetValue():rsutils.c:1463: Error at ../lwreg/shellutil/rsutils.c:1463 [code: 40700]

20161214123838:DEBUG:LwpsLegacyGetDefaultJoinedDomain():lsapstore-backend-legacy-internal.c:711: -> 0 (ERROR_SUCCESS) (EE = 685)

20161214123838:DEBUG:LsaPstoreGetPasswordInfoW():lsapstore-main.c:109: -> 2692 (NERR_SetupNotJoined) (EE = 80)

20161214123838:DEBUG:LsaPstoreGetPasswordInfoA():lsapstore-main-a.c:89: -> 2692 (NERR_SetupNotJoined) (EE = 71)

20161214123838:DEBUG:lsass:AD_GetMachineAccountInfoA():machinepwdinfo.c:91: Error code: 2692 (symbol: NERR_SetupNotJoined)

20161214123838:DEBUG:lsass:AD_IoctlGetMachineAccount():ioctl.c:102: Error code: 2692 (symbol: NERR_SetupNotJoined)

20161214123838:DEBUG:lsass:AD_ProviderIoControl():provider-main.c:4377: Error code: 2692 (symbol: NERR_SetupNotJoined)

20161214123838:DEBUG:lsass:LsaSrvProviderIoControl():provider.c:99: Error code: 2692 (symbol: NERR_SetupNotJoined)

20161208115338:INFO:netlogon:LWNetSrvGetDCName():dcinfo.c:97: Looking for a DC in domain ‘XXX.com’, site ‘<null>’ with flags 140

20161208115338:DEBUG:netlogon:LWNetCacheDbQuery():lwnet-cachedb.c:1079: Cached entry not found: XXX.com, , 1

20161208115338:DEBUG:netlogon:LWNetSrvGetDCName():dcinfo.c:128: Error at ../netlogon/server/api/dcinfo.c:128 [code: 1355]

20161208115338:DEBUG:netlogon:LWNetTransactGetDCName():ipc_client.c:249: Error at ../netlogon/client/ipc_client.c:249 [code: 1355]

At this stage we decide to gather network packets and analyze communication between esxi nad DC, time show that this was a good direction:

//packet capture methodology

  • eneble likewise loging:

/etc/init.d/lwsmd start

/usr/lib/vmware/likewise/bin/lwsm set-log-level trace /usr/lib/vmware/likewise/bin/lwsm set-log file /var/log/likewise.log tail -f /var/log/likewise.log

  • start tcp dump

tcpdump-uw -i 1 -n -s0 not tcp port 22 -C 50M -W 5 -w /var/log/capture10.pcap -vvv

 

  • add ESXi to domain from cli to capture comunication flow:

/usr/lib/vmware/likewise/bin/domainjoin-cli –loglevel verbose –logfile

join xxx.com plp24308
esxi and likewise2

We foud that on problematic ESXi hosts IPv6 communication was disabled but DC still using IPv6 in communication after couple test we confirm that after enabling IPv6 on ESXi or totally disabling it at   DC site:

https://support.microsoft.com/en-us/help/929852/how-to-disable-ipv6-or-its-components-in-windows

finally, there is no error with adding a host to the domain and DC authentication.

To clear more this whole situation we decided to perform additional investigation with VMware Support. GSS confirmed that they located the issue:

“…with the newer versions (vSphere 6) of ESXi in case it receives kdc in IPv6 format. In that situation the host will try to connect with IPv6. In case host has IPv6 disabled it will fail to join the domain “

//Bug is planned to be fixed on vSphere6.5U1

ESXi and Likewise – troubleshooting guide – part 1

ESXi and Likewise – troubleshooting guide – part 1

Last week I had to troubleshoot strange issue related to Active Directory integration with ESXI (6.0 version), this was motivation to prepare small (two articles) series about ESXi / Likewise integration and troubleshooting based on my latest experience.

VMware use Powerbroker Identity Services (Formerly known as Likewise) for adding ESX host to windows AD environment. To begin as usual is good to have some theoretical background about related components and technology and we describe it all in this part.

Below some of the basics of PAM and Kerberos:

PAM (Pluggable authentication module) – It’s a mechanism to integrate multiple low-level application schemes into a high-level APIs. All the application programs like hostd, dcui etc use PAM for creating users and authenticating them. They are referred to system-auth file which in turn refers to /etc/security/login.map. login.map maps ‘vpxa’ user to system-auth-local and all other users are mapped to system-auth-generic. PAM on its own can’t implement Kerberos ; It’s not possible for a PAM module to request a Kerberos service ticket (TGS) from a Kerberos key distribution center (KDC).
Kerberos – Kerberos protocol is designed to provide reliable authentication over open and insecure networks where communications between the hosts belonging to it may be intercepted. So we can say Kerberos is an authentication protocol for trusted hosts on untrusted networks.

esxi and likewise1

If you interested in more deep knowledge on this topic, take a look at this Kerberos tutorial: http://www.kerberos.org/software/tutorial.html

Before we describe communication with ESXi lets gathers together all Likewise components:
• Lsassd – The Likewise authentication daemon handles authentication, authorization, caching, and idmap lookups,
• Netlogond – Detects the optimal domain controller and global catalog and caches the data,
• Lwiod – The Likewise input-output service. It communicates over SMB with SMB servers,
• Caches – To maintain the current state and to improve performance, the Likewise agent caches information in several files, all of which are in /etc/likewise/db/
• lsass-adcache.filedb – Cache managed by the AD authentication provider,
• netlogon-cache.filedb – Domain controller affinity cache, managed by netlogond,
• pstore.filedb – Repository storing the join state and machine password.

OK, now it’s time to consider how Likewise extends Kerberos authentication to ESXi:

1. User logs in to ESX (c# or web client),
2. Username and password are sent to PAM,
3. pam_lsass.so library communicates with the Lsassd,
4. from username and password Lsassd generates a secret key,
5. using the secret key Lsassd request a TGT, from AD’s KDC,
6. The KDC verifies the secret key and then grants the ESXi Host a TGT,
7. ESXi host and the KDC exchange messages to authenticate the client,
8. Lsassd can use the TGT request service tickets for other services such as ssh.

To clarify more lets discuss important algoritms (netlogon) related to this process to address common questions:

1. How Netlogond finds the best DC (prioritization) ?

Likewise Netlogon obtains a list of candidate Domain Controllers using DNS. The algorithm for doing this is based on the algorithm used in Windows Netlogon. Each candidate Domain Controller which matches the site criteria is queried with a CLDAP request for the Netlogon attribute. The time to respond for each Domain Controller is stored as PingTime in the DomainControllerInfo output parameter. The Domain Controller with the lowest PingTime is returned to the caller.

2. Prefered DC

Netlogon attempts to find the domain controller which responds the quickest to CLDAP pings with a preference for domain controllers in the same site. The algorithm is rather complex 😉
If the request includes a site, then the query order is:

a) Preferred domain controller plugin with the requested site
b) DNS with the requested site

3. Domain Join Process
Domain join involves various steps and communication among various domain:
a) creating computer account in DC
b) creating machine account and setting password
c) saving machine account/password to pstore db and updating kerberos keytab

Last part of this article will discuss important packets in tcpdump – very important in case of troubleshooting problems with joining ESXi to domain :
1. CLDAP – Usage of CLDAP packets depends upon the attribute:

If attribute = netlogon -> These CLDAP pings are used by netlogond to verify the aliveness of the domain controller and also check whether the domain controller matches a specific set of requirements. netlogon version(NtVer) etc.
If attribute = time -> These’re used for selecting the nearest DC by netlogon during domain controller discovery phase.
2. ARP – Address resolution protocol is used for resolution of network layer address into link layer address i.e. IP address to MAC address. These’re common packets not specific to AD.

3. DNS – DNS queries related to srv records. Microsoft decided to use SRV records as a key part of the procedure whereby a client finds a domain controller. So where do these records come from? They are registered with DNS by the NetLogon service of a domain controller when it starts. There are actually quite a few of these records, but for right now let’s just look at two of them, the ones that have to do with domain controllers. They are in the following formats:
_ldap._tcp.dc._msdcs.dnsdomainname _ldap._tcp.sitename._sites.dc._msdcs.dnsdomainname
4. KRB5 : For Krb5 you would see four packets viz. AS-REQ, AS-REP, TGS-REQ, TGS-REP:
• AS_REQ is the initial user authentication request (i.e. made with kinit) This message is directed to the KDC component known as Authentication Server (AS);
• AS_REP is the reply of the Authentication Server to the previous request. Basically it contains the TGT (encrypted using the TGS secret key) and the session key (encrypted using the secret key of the requesting user);
• TGS_REQ is the request from the client to the Ticket Granting Server (TGS) for a service ticket. This packet includes the TGT obtained from the previous message and an authenticator generated by the client and encrypted with the session key;
• TGS_REP is the reply of the Ticket Granting Server to the previous request. Located inside is the requested service ticket (encrypted with the secret key of the service) and a service session key generated by TGS and encrypted using the previous session key generated by the AS;

5. LDAP : A standards-based protocol that is used for communication between directory clients and a directory service. LDAP is the primary directory access protocol for Active Directory. LDAP searches are the most common LDAP operations that are performed against an Active Directory domain controller. An LDAP search retrieves information about all objects within a specific scope that have certain characteristics, for example, the telephone number of every person in a department.
6. NBNS – NBNS serves much the same purpose as DNS does: translate human-readable names to IP addresses

7. RARP – Reverse Address Resolution Protocol i.e. converts MAC address to IP

8. SSH – Secure shell packets

9. TCP- Network traffic who uses TCP as transmission protocol viz. Kerberos,ssh,https,ldap etc.
Processes transmit data by calling on the TCP and passing buffers of data as arguments. The TCP packages the data from these buffers into segments and calls on the internet module [e.g. IP] to transmit each segment to the destination TCP.

10. SMB – Server Message Block,also known as Common Internet File Systems(CIFS) operates as application layer network protocol mainly used for providing shared access to files,printers,serial port, and miscellaneous communications between nodes on a network. It also provides an authenticated inter-process communication mechanism.
Now we are prepared for troubleshooting ! Stay tuned for next part 🙂

VMware vSphere tags limit – is it known ?

VMware vSphere tags limit – is it known ?

Recently I received quite interesting question – what is the supported maximum quantity  for tags in vCenter 6.0U2 ?

Malignant author of the question is a good friend of mine and VMware administrator in one person. He ssked about tags limit because he want to use them to provide more information about each of its production VM’s – roughly speaking need to create about 20000 tags.

I thought ok., give me couple seconds to verify this,  and looked fast in vmware configuration maxims …. couple minuntes later it was clear that this is not a easy question 😉

Furthermore after some additional research (no clear statement in official documentation)  we decide to perform tests in lab environment !

We used simple powercli script to create 20000 tags in test vcenter appliance (6.0U2) , below our script:

for($i=1
$i -le 20000
$i++){
New-Tag -Name $i -Description $i -Category test
}

Script worked like a charm without any issue – so far so good :), but when we tried to assign one tag to first vm we encounter web client error 1009  – very strange!

We decided to perform additional test and find out that limit is below 10000.  At this stage we decide to clear this issue with Vmware support and after some time received wery interesting feedback:

  1. NGC has upper bound of retrieve 10000 objects max.
  2. If the tags are less than 10000 then data service timeouts after 120 seconds(default dataservice timeout is 120 seconds).
  3. Decreasing the count to 9994 tags and increasing dataservice timeout, shows up all the tags(Assign) now.

As a temporary workaround for now.
————————————-
1. Have total created tags less than 10000.
2. Increase data service timeout to 600 seconds(10 min).

VMware GSS stands that engineering working now to remove tag limit boundary in next releases vSphere 6.x.

VMware Postgres 9.3.9.0 Installer failed with error code ‘3010’

VMware Postgres 9.3.9.0 Installer failed with error code ‘3010’

Couple days ago I hit strange issue with vcenter 6.x appliance update process. Attempting to upgrade vCenter server 6.0 U1 to 6U2, encounter following error: Installation of component VMware Postgres 9.3.9.0 Installer failed with error code ‘3010’. The installation rolled back after clicking at OK button. I was able to find following KB 2144389 with a similar issue but the workaround didn’t work. After rolling back to a snapshot before the update, we also tried to update vCenter to 6U 1b with the same result.

Additional test has been conducted :

  1. Update attempt:
    I Stop the Syslog collector service.
    II Disable the Syslog collector service.
    III Attempt the upgrade.

2.Update attempt:

I Stop all services service.
II Attempt the upgrade.

3.update attempt:
I Snapshot the vCenter VM.
II Stop and disable the Syslog Collector service.
III Restart the VM.
IV Open task manager and kill the nxlog.exe process.
V  Attempt the upgrade.

4. Update attempt:

Try to determine if this an issue with installing the Postgres service only or if this is an issue with another component holding a java process.
I Stop ALL Vmware services and set them to manual.
II Restart the vCenter and ensure no services are restarted.
III  Open the installation and navigate to the postgres installtion msi and attempt to just install this component.

Each update attempt failed with error:
PitCA_MessageBox: Displaying message: “Installation of component VMware Postgres 9.3.9.0 Installer failed with error code ‘3010’

After this series of failures I digged deeper in update process logs and in msi.log:

MSI (s) (A8:34) [14:49:29:836]: Executing op: FileCopy(SourceName=pgevent.dll,SourceCabKey=fil0D75DEE8C36C2980055560AE16671228,DestName=pgevent.dll,Attributes=512,FileSize=34520,PerTick=65536,,VerifyMedia=1,,,,,CheckCRC=0,Version=9.3.9.15202,Language=0,InstallMode=126091264,,,,,,,)
MSI (s) (A8:34) [14:49:29:836]: File: C:\Program Files\VMware\vCenter Server\vPostgres\lib\pgevent.dll; Overwrite; Won’t patch; Existing file is a lower version
MSI (s) (A8:34) [14:49:29:836]: Source for file ‘fil0D75DEE8C36C2980055560AE16671228’ is compressed
MSI (s) (A8:34) [14:49:29:836]: Re-applying security from existing file.
MSI (s) (A8:34) [14:49:29:836]: Note: 1: 2205 2: 3: Error
MSI (s) (A8:34) [14:49:29:836]: Note: 1: 2228 2: 3: Error 4: SELECT `Message` FROM `Error` WHERE `Error` = 1603
MSI (s) (A8:34) [14:49:30:195]: Verifying accessibility of file: pgevent.dll
MSI (s) (A8:34) [14:49:30:195]: Note: 1: 2318 2:
MSI (s) (A8:34) [14:49:30:195]: Note: 1: 2318 2:
Info 1603.The file C:\Program Files\VMware\vCenter Server\vPostgres\lib\pgevent.dll is being held in use. Close that application and retry.

Finally find root cause – looks like some application is using this DLL, that is why we see this 3010 error.

How find which process is holding this ?

1) Open Process Explorer.
2) Select Find -> Find Handle or DLL
3) Type C:\Program Files\VMware\vCenter Server\vPostgres\lib\pgevent.dll in the search box.
4) Hit search
5) Wait…
6) You should see the Process ID that is holding the lock on that file.

(“Please make sure the customer has a snapshot of VM before trying these steps”)

1. Please take a backup of pgevent.dll
2. Delete the file pgevent.dll
3. Now start the update to 6.0 U2.

Mystery of the broken VM

Mystery of the broken VM

Today my colleague (vmware administrator) asked me a small favour – help to perform RCA (root cause analyze) – related to one of production VM that had recently a problem. VM for some reason was migrated (collegue stands that it happened without administrative intervention) to other ESXi host that do not have proper network config for this vm – this caused outage for whole system. I asked about issue time and we went deeper into logs in order to find out what exacly happened.
We started from VM logs called vmware.log.

vmx| I120: VigorTransportProcessClientPayload: opID=52A52E10-000000CE-7b-15-97b0 seq=26853: Receiving PowerState.InitiatePowerOff request.
vmx| I120: Vix: [36833 vmxCommands.c:556]: VMAutomation_InitiatePowerOff. Trying hard powerOff
| vmx| I120: VigorTransport_ServerSendResponse opID=52A52E10-000000CE-7b-15-97b0 seq=26853: Completed PowerState request.
vmx| I120: Stopping VCPU threads…
vmx| I120: VMX exit (0).
| vmx| I120: AIOMGR-S : stat o=29 r=50 w=25 i=63 br=795381 bw=237700 
vmx| I120: OBJLIB-LIB: ObjLib cleanup done.
 -> vmx| W110: VMX has left the building: 0. 

According to VMware KB: 2097159 „VMX has left the building: 0” – is an informational message and is caused by powering off a Virtual Machine or performing a vMotion of the Virtual Machine to a new host. It can be safely ignored so we had a first clue related to vm migration.
Next we moved to fdm.log (using time stamps form vmware.log) and surprise surprise – VM for some reason was powered off 1h before issue occur:

vmx local-host: local power state=powered off; assuming user power off; global power state=powered off
verbose fdm[FF9DE790] [Originator@6876 sub=Invt opID=SWI-95f1a3f] [VmStateChange::SaveToInventory] vm /vmfs/volumes/vmx from __localhost__ changed inventory cleanPwrOff=1

Now we need to find out why VM was powered off – so we went through hostd logs using  grep with VM name:
info hostd[3DE40B70] [Originator@6876 sub=Vmsvc.vm:/vmfs/volumes.vmx] State Transition (VM_STATE_POWERING_OFF -> VM_STATE_OFF)
info hostd[3DE40B70] [Originator@6876 sub=Vmsvc.vm:/vmfs/volumes/.vmx] State Transition (VM_STATE_POWERING_OFF -> VM_STATE_OFF)
info hostd[3E9C1B70] [Originator@6876 sub=Vmsvc.vm:/vmfs/volumes/.vmx opID=6197d370-76-97ee user=vpxuser:VSPHERE.LOCAL\Administrator] State Transition (VM_STATE_OFF -> VM_STATE_CREATE_SNAPSHOT)
info hostd[3E9C1B70] [Originator@6876 sub=Libs opID=6197d370-76-97ee user=vpxuser:VSPHERE.LOCAL\Administrator] SNAPSHOT: SnapshotConfigInfoReadEx: Creating new snapshot dictionary, ‘/vmfs/volumes/.vmsd.usd’.
info hostd[3E9C1B70] [Originator@6876 sub=Libs opID=6197d370-76-97ee
user=vpxuser:VSPHERE.LOCAL\Administrator] SNAPSHOT: SnapshotCombineDisks: Consolidating from ‘/vmfs/volumes/ -000001.vmdk’ to ‘/ user=vpxuser:VSPHERE.LOCAL\Administrator] SNAPSHOT: SnapshotCombineDisks: Consolidating from ‘/vmfs/volumes/000001.vmdk’ to ‘/vmfs/volumes/.vmdk’. 

-> info hostd[3F180B70] [Originator@6876 sub=Vimsvc.ha-eventmgr] Event 485016 : Virtual machine disks consolidated successfully on in cluster in ha-datacenter. 

So we confirmed that shortly before issue occured VM was powered off for snapshot consolidation – at this point we assumed that this might be related to general issue but we decided to verify vobd log (less verbose than vmkernel and give good view about esxi healt in case of storage and networking) :

uplink.transition.down] Uplink: vmnic0 is down. Affected portgroup: VM Network VLAN130. 2 uplinks up. Failed criteria: 128 Uplink: vmnic0 is down. Affected portgroup: VM Network VLAN8 ESOK2. 2 uplinks up. Failed criteria:128
Lost uplink redundancy on virtual switch “vSwitch0”. Physical NIC vmnic0 is down. Affected port groups: “ISCSI”, “Management Network”

This is it, direct hit to the reason of  main issue – network adapter problem, with new time stamps just for confirmation we went back to fdm.log :

fdm[FFC67B70] [Originator@6876 sub=Notifications opID=SWI-69d87e37] [Notification::AddListener] Adding listener of type Csi::Notifications::VmStateChange: Csi::Policies::GlobalPolicy (listeners = 4)
–> Protected vms (0):
–> Unprotect request vms (0):
–> Locked datastores (0):
–> Events (4):
–> EventEx=
com.vmware.vc.HA.ConnectedToMaster vm= host=host-24 tag=host-24:1225982388:0
–> EventEx=com.vmware.vc.HA.AllHostAddrsPingable vm= host=host-24 tag=host-24:1225982388:1
–> EventEx=com.vmware.vc.HA.AllIsoAddrsPingable vm= host=host-24 tag=host-24:1225982388:2
–> EventEx=com.vmware.vc.ha.VmRestartedByHAEvent

With VMware KB: Determining which virtual machines are restarted during a vSphere HA failover (2036555) – confirm that ha react to network outage and power-on vm on diffrenet not afected esxi.
Conclusion – always correlate problematic vm log with esxi (host,vobd,vmkernel) logs to have full issue picture.