* Migrate volume improvements, to bypass secondary storage when copy volume between pools is allowed directly
* Bypass secondary storage for copy volume between zone-wide pools and
- local storage on host in the same zone
- cluser-wide pools in the same zone
* Bypass secondary storage for volumes on ceph/rdb pool when the scope permits
* Fix dest disk format while migrating volume from ceph/rbd to nfs, and some code improvements
* unit tests
* Update suitable disk offering(s) for volume(s) after migrate VM with volumes when change in pool type (shared or local)
Currently, Migrate VM with volume(s) bypasses the service and disk offerings of the volumes, as the target pools for migration are specified,
which ignores the offerings. Offering change is required when pool type (shared or local) is changed, mainly
- when volume on shared pool is migrated to local pool
- when volume on local pool is migrated to shared pool
* Update with proper message while migrate volume when target pool and offering type mismatches (both are not shared/local)
* Consider host scope first during endpoint selection while copying between primary storages
* Update disk offering count (for listDiskOfferings api) while removing offerings with tags mismatch with storage tags
* Introducing Storage Access Groups to define the host and storage pool connections
In CloudStack, when a primary storage is added at the Zone or Cluster scope, it is by default connected to all hosts within that scope. This default behavior can be refined using storage access groups, which allow operators to control and limit which hosts can access specific storage pools.
Storage access groups can be assigned to hosts, clusters, pods, zones, and primary storage pools. When a storage access group is set on a cluster/pod/zone, all hosts within that scope inherit the group. Connectivity between a host and a storage pool is then governed by whether they share the same storage access group.
A storage pool with a storage access group will connect only to hosts that have the same storage access group. A storage pool without a storage access group will connect to all hosts, including those with or without a storage access group.
* 4.20:
merge errors fixed
Restrict the migration of volumes attached to VMs in Starting state (#9725)
server, plugin: enhance storage stats for IOPS (#10034)
Introducing granular command timeouts global setting (#9659)
Improve logging to include more identifiable information (#9873)
* Improve logging to include more identifiable information for kvm plugin
* Update logging for scaleio plugin
* Improve logging to include more identifiable information for default volume storage plugin
* Improve logging to include more identifiable information for agent managers
* Improve logging to include more identifiable information for Listeners
* Replace ids with objects or uuids
* Improve logging to include more identifiable information for engine
* Improve logging to include more identifiable information for server
* Fixups in engine
* Improve logging to include more identifiable information for plugins
* Improve logging to include more identifiable information for Cmd classes
* Fix toString method for StorageFilterTO.java
* 4.20:
UI: Tooltip on the host information card to display the CPU speed in MHz and the memory value in MB (to 3 decimal places) (#9971)
UI: Allow accounts of the `User` type to add other accounts or users to projects through UI (#9927)
enable to create VPC portfowarding rules with source cidr (#7081)
Add new column `last_id` to the table volumes (#9759)
Allow VMWare import via another host (#9787)
Linstor: add support for ISO block devices and direct download (#9792)
get expunged VM data for job result (#9949)
fix section divider display on auth page (#9966)
* engine-storage-datamotion: Set SecretConsumerDetail for VM live migration with storage on shared NFS
* VM live migration - powerflex encrypted volume
* rename isPowerFlex
This PR fixes the issue with sonar check
```
Error: Failed to execute goal org.sonarsource.scanner.maven:sonar-maven-plugin:3.9.1.2184:sonar (default-cli) on project cloudstack:
Error:
Error: The version of Java (11.0.22) used to run this analysis is deprecated, and SonarCloud no longer supports it. Please upgrade to Java 17 or later.
Error: You can find more information here: https://docs.sonarsource.com/sonarcloud/appendices/scanner-environment/
```
main changes
- Support build/packaging using JDK17
- Still supports JDK11 for building
- Support JRE17 for use in production installation
- Drop EL7 support
The community packages will be still packaged using JDK11.
If uses want, they can build by JDK17 as well.
Signed-off-by: Wei Zhou <wei.zhou@shapeblue.com>
Signed-off-by: Rohit Yadav <rohit.yadav@shapeblue.com>
Co-authored-by: Rohit Yadav <rohit.yadav@shapeblue.com>
* Updates to change PUre and Primera to host-centric vlun assignments; various small bug fixes
* update to add timestamp when deleting pure volumes to avoid future conflicts
* update to migrate to properly check disk offering is valid for the target storage pool
* Updates to change PUre and Primera to host-centric vlun assignments; various small bug fixes
* update to add timestamp when deleting pure volumes to avoid future conflicts
* update to migrate to properly check disk offering is valid for the target storage pool
* improve error handling when copying volumes to add precision to which step failed
* rename pure volume before delete to avoid conflicts if the same name is used before its expunged on the array
* remove dead code in AdaptiveDataStoreLifeCycleImpl.java
* Fix issues found in PR checks
* fix session refresh TTL logic
* updates from PR comments
* logic to delete by path ONLY on supported OUI
* fix to StorageSystemDataMotionStrategy compile error
* change noisy debug message to trace message
* fix double callback call in handleVolumeMigrationFromNonManagedStorageToManagedStorage
* fix for flash array delete error
* fix typo in StorageSystemDataMotionStrategy
* change copyVolume to use writeback to speed up copy ops
* remove returning PrimaryStorageDownloadAnswer when connectPhysicalDisk returns false during KVMStorageProcessor template copy
* remove change to only set UUID on snapshot if it is a vmSnapshot
* reverting change to UserVmManagerImpl.configureCustomRootDiskSize
* add error checking/simplification per comments from @slavkap
* Update engine/storage/datamotion/src/main/java/org/apache/cloudstack/storage/motion/StorageSystemDataMotionStrategy.java
Co-authored-by: Suresh Kumar Anaparti <sureshkumar.anaparti@gmail.com>
* address PR comments from @sureshanaparti
---------
Co-authored-by: GLOVER RENE <rg9975@cs419-mgmtserver.rg9975nprd.app.ecp.att.com>
Co-authored-by: Suresh Kumar Anaparti <sureshkumar.anaparti@gmail.com>
* Normalize logs
All classes that could have their loggers inherited from their fathers had their own loggers deleted;
Most loggers didn't have to be static, so most of them were normalized so that they wouldn't be;
All loggers are protected now;
Static logger's name are now 'LOGGER';
Non-static logger's name are now 'logger';
New class DbUpgradeAbstractImpl created so that all Upgraders extend it and inherit its logger
* Upgrade log4j
* fix errors caused by the merge
* Refactor cglibThrowableRenderer functionality to log4j2 and upgrade the last configuration files
* fix sonarcloud bug
* Fix errors caused by merge, remove some unused loggers, and rename a variable that was mistakenly renamed on the normalization commit
* Readd snmpTrapAppender, remove TestAppender
* Regenerate changes
* regenerate changes
* refactor last custom appender
* fix systemvm configuration xml
* Regenerate changes
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* Fix utils pom
* fix some tests
* regenerate changes
* Fix jar being printed on exception
* fix logging in system VMs, fix commands not having log4j2 classpath.
* regenerate changes
* Fix some unwanted renomeations
* fix end of file
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* fix merge error
* regenerate changes
* fix tests
* regenerate changes
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* readd reload4j to tungsten as juniper depends on it
* Regenerate changes
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* re-add reload4j dependency to network-contrail, as juniper depends on it
* regenerate changes
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* fix typo
* regenerate changes
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* Fix end of files
* regenerate changes
* add logj42 to cloud-utils-SHADED.jar
* regenerate changes
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* fix some tests
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* fix test
* Regenerate changes
* Regenerate changes
1. Problem description
In Apache CloudStack (ACS), when a VM is deployed in a host with the KVM hypervisor, an XML file is created in the assigned host, which has a property shares that defines the weight of the VM to access the host CPU. The value of this property has no unit, and it is a relative measure to calculate how much CPU a given VM will have in the host. However, this value has a limit, which depends on the version of cgroup utilized by the host's kernel. The problem lies at the range value of shares that varies between both versions: [2, 264144] for cgroups version 1; and [1, 10000] for cgroups version 2. Currently, ACS calculates the value of shares using Equation 1, presented below, where CPU is the number of cores and speed is the CPU frequency; both specified in the VM's compute offering. Therefore, if a compute offering has, for example, 6 cores at 2 GHz, the shares value will be 12000 and an exception will be thrown by libvirt if the host utilizes cgroup v2. The second version is becoming the default one in current Linux distributions; thus, it is necessary to address this limitation.
Equation 1
shares = CPU * speed
Fixes: #6744
2. Proposed changes
To address the problem described, we propose to apply a scale conversion considering the max shares of the host. Using the same formula currently utilized by ACS, it is possible to calculate the maximum shares of a VM for a given host. In other words, using the number of cores and the nominal speed of the host's CPU as the upper limit of shares allowed to a VM. Then, this value will be scaled to the allowed interval of [1, 10000] of cgroup v2 by using a linear scale conversion.
The VM shares would be calculated as Equation 2, presented below, where VM requested shares is the requested shares value calculated using Equation 1, cgroup upper limit is fixed with a value of 10000 (cgroups v2 upper limit), and host max shares is the maximum shares value of the host, calculated using Equation 1. Using Equation 2, the only case where a VM passes the cgroup v2 limit is when the user requests more resources than the host has, which is not possible with the current implementation of ACS.
Equation 2
shares = (VM requested shares * cgroup upper limit)/host max shares
To implement the proposal, the following APIs will be updated: deployVirtualMachine, migrateVirtualMachine and scaleVirtualMachine. When a VM is being deployed, a new verification will be added to find a suitable host. The max shares of each host will be calculated, and the VM calculated shares will be verified if it does not surpass the host's value. Likewise, the migration of VMs will have a similar new verification. Lastly, the scale of VMs will also have the same verification for the VM's host.
To determine the max shares of a given host, we will use the same equation currently used in ACS for calculating the shares of VMs, presented in Section 1. When Equation 1 is used to determine the maximum shares of a host, CPU is the number of cores of the host, and speed is the nominal CPU speed, i.e., considering the CPU's base frequency.
It is important to note that these changes are only for hosts with the KVM hypervisor using cgroup v2 for now.
This PR provides a new primary storage volume type called "FiberChannel" that allows access to volumes connected to hosts over fiber channel connections. It requires Multipath to provide path discovery and failover. Second, the PR adds an AdaptivePrimaryDatastoreProvider that abstracts how volumes are managed/orchestrated from the connector to communicate with the primary storage provider, using a ProviderAdapter interface, allowing the code interacting with the primary storage provider API's to be simpler and have no direct dependencies on Cloudstack code. Lastly, the PR provides an implementation of the ProviderAdapter classes for the HP Enterprise Primera line of storage solutions and the Pure Flash Array line of storage solutions.