LinuxConfigurator Operator
The LinuxConfigurator operator allows configuring systems tuned by Akamas by applying parameters related to the Linux kernel using different strategies.
The operator can configure provided Components or can configure every Component which has parameters related to the Linux kernel.
The parameters are applied via SSH protocol.
Using
In the most basic use of the Operator, it is sufficient to add a task of type LinuxConfigurator in the workflow.
The operator makes use of properties specified in the component to identify which instance should be configured, how to access it, and any other information required to apply the configuration.
Operator arguments
Name
Type
Value restrictions
Required
Default
Description
component
String
It should match the name of an existing Component of the System under test
No
The name of the Component for which available Linux kernel parameters will be configured
If no component
is provided, this operator will try to configure every parameter defined for the Components of the System under test
Supported Component Properties
The following table highlights the properties that can be specified on components and are used by this operator.
Name
Type
Value restrictions
Required
Default
Description
hostname
String
It should be a valid SSH host address
Yes
SSH host address
sshPort
Integer
1≤sshPort
≤65532
Yes
22
SSH port
username
String
Yes
SSH login username
key
Multiline string
Either key or password is required
SSH login key, provided directly its value or the path of the file to import from. The operator supports RSA and DSA Keys
password
String
Either key or password is required
blockDevices
List of objects
No
Allows the user to restrict and specify to which block-device apply block-device-related parameters
networkDevices
List of objects
No
Allows the user to restrict and specify to which network-device apply network-device-related parameters
Filter parameters and block/network devices
The properties blockDevices
and networkDevices
allow specifying which parameters to apply to each block/network-device associated with the Component, as well as which block/network-device should be left untouched by the LinuxConfigurator.
If the properties are omitted, then all block/network-devices associated with the Component will be configured will all the available related parameters.
All block-devices called loopN (where N is an integer number greater or equal to 0) are automatically excluded from the Component’s block-devices
The properties blockDevices
and networkDevices
are lists of objects with the following structure:
Name
Type
Value restrictions
Required
Default
Description
name
String
It should be a valid regular expression to match block/network-devices
Yes
A regular expression that matches block/network-devices to configure with related parameters of the Component
parameters
List of strings
It should contain the names of matching parameters of the Component
No
The list of parameters to be configured for the specified block/network-devices. If the list is empty, then no parameter will be applied for the block/network-devices matched by name
Examples
In this example, only the parameters os_StorageReadAhead and os_StorageQeueuScheduler are applied to all the devices that match the regex "xvd[a-z]" (i.e. xvda, xvdb, …, xvdc).
In these examples, only the parameter os_StorageMaxSectorKb is applied to block device xvdb and loop0.
Note that the parameter is applied also to the block device loop0, since it is specified in the name filter, this overrides the default behavior since loopN devices are excluded by the Linux Optimization Pack
In this example, no parameters are applied to the wlp4s0 network device, which is therefore excluded from the optimization.
How are parameters applied to the system?
To support the scenario in which some configuration parameters related to the Linux kernel may be applied using the strategies supported by this operator, while others with other strategies (e.g, using a file to be written on a remote machine), it is necessary to specify which parameters should be applied with the LinuxConfigurator, and this is done at the ComponentType level; moreover, still at the ComponentType level, it is necessary to specify which strategy should be used to configure each parameter. This information is already embedded in the Linux Optimization pack and, usually, no customization is required.
Sysctl strategy
With this strategy, a parameter is configured by leveraging the sysctl utility. The sysctl variable to map to the parameter that needs to be configured is specified using the key
argument.
Echo strategy
With this strategy, a parameter is configured by echoing and piping its value into a provided file. The path of the file is specified using the file
argument.
Map strategy
With this strategy, each possible value of a parameter is mapped to a command to be executed on the machine the LinuxConfigurator operates on(this is especially useful for categorical parameters).
Command strategy
With this strategy, a parameter is configured by executing a command into which the parameter value is interpolated.
Last updated