e591b83aef
This update adds rendering support of the collect bundle itself. The user can navigate the collect bundle files from a browser. The collect bundle menu shows after the system info and result section. Opening the menu hosts collects that are part of the collect bundle. Clicking each bundle opens a new tab showing the corresponding bundle. The layout for collect bundle will be the same as the results section. Test Plan: PASS: Verify the menu and content panel can be adjusted horizontally PASS: Verify the collect bundle section is shown under results section PASS: Verify collect bundle menu can show/hide PASS: Verify all collect bundle items are shown PASS: Verify clicking an item leads to a new tab showing the bundle PASS: Verify menus are levelled with '+'/'-' function to show/hide PASS: Verify menus are colored dark green and items are light green PASS: Verify empty folders are showing grey with disabled click PASS: Verify empty files are showing grey with disabled click PASS: Verify files that does not have permission are showing grey PASS: Verify '.log', '.conf', '.info', '.json', '.alarm', '.pid', '.list', '.lock', '.txt' files can be directly viewed when opened PASS: Verify handling of files that are not in the above extension PASS: Verify a new tab is opened if the file is viewable PASS: Verify a download popup is opened if the file is not viewable PASS: Verify index.html is in a reasonable size PASS: Verify index.html loading does not get stuck PASS: Verify the generated html with css content has no error in console Story: 2010533 Task: 49191 Change-Id: I71c4c6b39ca68464baf09c7d1708348e30989fda Signed-off-by: Lance Xu <lance.xu@windriver.com> |
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ceph | ||
security | ||
tools | ||
utilities | ||
.gitignore | ||
.gitreview | ||
.zuul.yaml | ||
CONTRIBUTING.rst | ||
HACKING.rst | ||
README.rst | ||
bindep.txt | ||
centos_build_layer.cfg | ||
centos_dev_docker_images.inc | ||
centos_dev_wheels.inc | ||
centos_guest_image.inc | ||
centos_guest_image_rt.inc | ||
centos_iso_image.inc | ||
centos_pkg_dirs | ||
centos_stable_docker_images.inc | ||
centos_stable_wheels.inc | ||
centos_tarball-dl.lst | ||
debian_build_layer.cfg | ||
debian_iso_image.inc | ||
debian_pkg_dirs | ||
debian_stable_docker_images.inc | ||
debian_stable_wheels.inc | ||
pylint.rc | ||
requirements.txt | ||
test-requirements.txt | ||
tox.ini |
README.rst
utilities
This file serves as documentation for the components and features included on the utilities repository.
PCI IRQ Affinity Agent
While in OpenStack it is possible to enable instances to use PCI devices, the interrupts generated by these devices may be handled by host CPUs that are unrelated to the instance, and this can lead to a performance that is lower than it could be if the device interrupts were handled by the instance CPUs.
The agent only acts over instances with dedicated vCPUs. For instances using shared vCPUs no action will be taken by the agent.
The expected outcome from the agent operation is achieving a higher performance by assigning the instances core to handle the interrupts from PCI devices used by these instances and avoid interrupts consuming excessive cycles from the platform cores.
Agent operation
The agent operates by listening to RabbitMQ notifications from Nova. When an instance is created or moved to the host, the agent checks for an specific flavor spec (detailed below) and if it does then it queries libvirt to map the instance vCPUs into pCPUs from the host.
Once the agent has the CPU mapping, it determines the IRQ for each PCI device used by the instance, and then it loops over all PCI devices and determines which host NUMA node is associated with the device, the pCPUs that are associated with the NUMA node and finally set the CPU affinity for the IRQs of the PCI device based on the pCPU list.
There is also a periodic audit that runs every minute and loops over the existing IRQs, so that if there are new IRQs that weren't mapped before the agent maps them, and if there are PCI devices that aren't associated to an instance that they were before, their IRQ affinity is reset to the default value.
Flavor spec
The PCI IRQ Affinity Agent uses a specific flavor spec for PCI interrupt affining, that is used to determine which vCPUs assigned to the instance must handle the interrupts from the PCI devices:
hw:pci_irq_affinity_mask=<vcpus_cpulist>
Where vcpus_cpulist
can assume a comma-separated list of
values that can be expressed as:
int
: the vCPU expressed byint
will be assigned to handle the interruptions from the PCI devicesint1-int2
: the vCPUs betweenint1
andint2
(inclusive) will be used to handle the interruptions from the PCI devices^int
: the vCPU expressed byint
will not be assigned to handle the interruptions from the PCI devices and shall be used to exclude a vCPU that was included in a previous range
NOTE: int
must be a value between
0
and flavor.vcpus - 1
Example: hw_pci_irq_affinity_mask=1-4,^3,6
means that
vCPUs with indexes 1,2,4 and 6
from the vCPU list that Nova
allocates to the instance will be assigned to handle interruptions from
the PCI devices.
Limitations
- No CPU affining is performed for instances using shared CPUs (i.e.,
when using flavor spec
hw:cpu_policy=shared
) - No CPU affining will be performed when invalid ranges are specified on the flavor spec, the agent instead will log error messages indicating the problem
Agent packaging
The agent code resides on the starlingx/utilities
repo,
along with the spec and docker_image files that are used to build a
CentOS image with the agent wheel installed on it.
The agent is deployed by Armada along with the other OpenStack helm
charts; refer to PCI
IRQ Affinity Agent helm chart on
starlingx/openstack-armada-app
repository.