aodh/doc/source/measurements.rst
Haomeng, Wang 472312a162 Fixes two typos in this measurements.rst
Adds "s" for two meters "disk.read.request" and "disk.write.request"
modified:   doc/source/measurements.rst

Fixes bug #1220176

Change-Id: I45295e76ac49e4bad1253c5dca9d8ed65e5764e3
2013-09-03 19:03:48 +08:00

12 KiB
Raw Blame History

Measurements

Three type of meters are defined in ceilometer:

double: meter; cumulative double: meter; gauge double: meter; delta

Type Definition
Cumulative Increasing over time (instance hours)
Gauge Discrete items (floating IPs, image uploads) and fluctuating values (disk I/O)
Delta Changing over time (bandwidth)

Units

  1. Whenever a volume is to be measured, SI approved units and their approved symbols or abbreviations should be used. Information units should be expressed in bits ('b') or bytes ('B').
  2. For a given meter, the units should NEVER, EVER be changed.
  3. When the measurement does not represent a volume, the unit description should always described WHAT is measured (ie: apples, disk, routers, floating IPs, etc.).
  4. When creating a new meter, if another meter exists measuring something similar, the same units and precision should be used.
  5. Meters and samples should always document their units in Ceilometer (API and Documentation) and new sampling code should not be merged without the appropriate documentation.
Dimension Unit Abbreviations Note

None Volume Time

N/A byte seconds

B s

Dimension-less variable

Here are the meter types by components that are currently implemented:

Compute (Nova)

All meters are related to the guest machine, not the host.

Name Type Unit Resource Origin Note
instance Gauge instance inst ID both Duration of instance
instance:<type> Gauge instance inst ID both Duration of instance <type> (openstack types)
memory Gauge

MB

inst ID notification Volume of RAM in MB
cpu Cumulative

ns

inst ID pollster CPU time used
cpu_util Gauge

%

inst ID pollster Average CPU utilisation
vcpus Gauge

vcpu

inst ID notification Number of VCPUs
disk.read.requests Cumulative

request

inst ID pollster Number of read requests
disk.write.requests Cumulative

request

inst ID pollster Number of write requests
disk.read.bytes Cumulative

B

inst ID pollster Volume of read in B
disk.write.bytes Cumulative

B

inst ID pollster Volume of write in B
disk.root.size Gauge

GB

inst ID notification Size of root disk in GB
disk.ephemeral.size Gauge

GB

inst ID notification Size of ephemeral disk in GB
network.incoming.bytes Cumulative

B

iface ID pollster number of incoming bytes on the network for a VM interface
network.outgoing.bytes Cumulative

B

iface ID pollster number of outgoing bytes on the network for a VM interface
network.incoming.packets Cumulative

packets

iface ID pollster number of incoming packets for a VM interface
network.outgoing.packets Cumulative

packets

iface ID pollster number of outgoing packets for a VM interface

At present, most of the Nova meters will only work with libvirt front-end hypervisors while test coverage was mostly done based on KVM. Contributors are welcome to implement other virtualization backends meters or complete the existing ones.

Network (Neutron)

Name Type Unit Resource Origin Note
network Gauge network netw ID notification Duration of network
network.create Delta network netw ID notification Creation requests for this network
network.update Delta network netw ID notification Update requests for this network
subnet Gauge subnet subnt ID notification Duration of subnet
subnet.create Delta subnet subnt ID notification Creation requests for this subnet
subnet.update Delta subnet subnt ID notification Update requests for this subnet
port Gauge port port ID notification Duration of port
port.create Delta port port ID notification Creation requests for this port
port.update Delta port port ID notification Update requests for this port
router Gauge router rtr ID notification Duration of router
router.create Delta router rtr ID notification Creation requests for this router
router.update Delta router rtr ID notification Update requests for this router
ip.floating Gauge ip ip ID both Duration of floating ip
ip.floating.create Delta ip ip ID notification Creation requests for this floating ip
ip.floating.update Delta ip ip ID notification Update requests for this floating ip

Image (Glance)

Name Type Unit Resource Origin Note
image Gauge

image

image ID both Image polling -> it (still) exists
image.size Gauge

B

image ID both Uploaded image size
image.update Delta

image

image ID notification Number of update on the image
image.upload Delta

image

image ID notification Number of upload of the image
image.delete Delta

image

image ID notification Number of delete on the image
image.download Delta

B

image ID notification Image is downloaded
image.serve Delta

B

image ID notification Image is served out

Volume (Cinder)

Name Type Unit Resource Origin Note
volume Gauge

volume

vol ID notification Duration of volune
volume.size Gauge

GB

vol ID notification Size of volume

Make sure Cinder is properly configured first: see installing_manually.

Object Storage (Swift)

Name Type Volume Resource Origin Note
storage.objects Gauge

objects

store ID pollster Number of objects
storage.objects.size Gauge

B

store ID pollster Total size of stored objects
storage.objects.containers Gauge containers store ID pollster Number of containers
storage.objects.incoming.bytes Delta

B

store ID notification Number of incoming bytes
storage.objects.outgoing.bytes Delta

B

store ID notification Number of outgoing bytes
storage.api.request Delta

request

store ID notification Number of API requests against swift

In order to use storage.objects.incoming.bytes and storage.outgoing.bytes, one must configure Swift as described in installing_manually. Note that they may not be updated right after an upload/download, since Swift takes some time to update the container properties.

Energy (Kwapi)

Name Type Volume Resource Origin Note
energy Cumulative

kWh

probe ID pollster Amount of energy
power Gauge

W

probe ID pollster Power consumption

Dynamically retrieving the Meters via ceilometer client

To retrieve the available meters that can be queried given the actual resource instances available, use the meter-list command:

$ ceilometer meter-list -s openstack
+------------+-------+--------------------------------------+---------+----------------------------------+
| Name       | Type  | Resource ID                          | User ID | Project ID                       |
+------------+-------+--------------------------------------+---------+----------------------------------+
| image      | gauge | 09e84d97-8712-4dd2-bcce-45970b2430f7 |         | 57cf6d93688e4d39bf2fe3d3c03eb326 |

Naming convention

If you plan on adding meters, please follow the convention bellow:

  1. Always use '.' as separator and go from least to most discriminent word. For example, do not use ephemeral_disk_size but disk.ephemeral.size
  2. When a part of the name is a variable, it should always be at the end and start with a ':'. For example do not use <type>.image but image:<type>, where type is your variable name.
  3. If you have any hesitation, come and ask in #openstack-metering

User-defined sample metadata (nova only)

Users are allowed to add additional metadata to samples of nova meter. These additional metadata are stored in 'resource_metadata.user_metadata.*' of the sample To do so, users should add nova user metadata prefixed with 'metering.':

::

$ nova boot --meta metering.custom_metadata=a_value my_vm

Note: The name of the metadata shouldn't exceed 256 characters otherwise it will be cut off. Also, if it has '.', this will be replaced by a '_' in ceilometer.