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under the License.
Using Common Test for Large Scale Testing
Peter Andersson
ct_master_chapter.xml
General
Large scale automated testing requires running multiple independent
test sessions in parallel. This is accomplished by running
a number of Common Test nodes on one or more hosts, testing
different target systems. Configuring, starting and controlling the
test nodes independently can be a cumbersome operation. To aid
this kind of automated large scale testing, CT offers a master test
node component, CT Master, that handles central configuration and control
in a system of distributed CT nodes.
The CT Master server runs on one dedicated Erlang node and uses distributed
Erlang to communicate with any number of CT test nodes, each hosting a regular
CT server. Test specifications are used as input to specify what to test on which
test nodes, using what configuration.
The CT Master server writes progress information to HTML log files similarly
to the regular CT server. The logs contain test statistics and links to the
log files written by each independent CT server.
The CT master API is exported by the ct_master module.
Usage
CT Master requires all test nodes to be on the same network and share a common
file system. As of this date, CT Master can not start test nodes
automatically. The nodes must have been started in advance for CT Master to be
able to start test sessions on them.
Tests are started by calling:
ct_master:run(TestSpecs) or
ct_master:run(TestSpecs, InclNodes, ExclNodes)
TestSpecs is either the name of a test specification file (string) or a list
of test specifications. In case of a list, the specifications will be handled (and
the corresponding tests executed) in sequence. An element in a TestSpecs list
can also be list of test specifications. The specifications in such a list will be
merged into one combined specification prior to test execution. For example:
ct_master:run(["ts1","ts2",["ts3","ts4"]])
means first the tests specified by "ts1" will run, then the tests specified by "ts2"
and finally the tests specified by both "ts3" and "ts4".
The InclNodes argument to run/3 is a list of node names. The run/3
function runs the tests in TestSpecs just like run/1 but will also
take any test in TestSpecs that's not explicitly tagged with a particular
node name and execute it on the nodes listed in InclNodes. By using run/3
this way it is possible to use any test specification, with or without node information,
in a large scale test environment! ExclNodes is a list of nodes that should be
excluded from the test. I.e. tests that have been specified in the test specification
to run on a particular node will not be performed if that node is at runtime
listed in ExclNodes.
If CT Master fails initially to connect to any of the test nodes specified in a
test specification or in the InclNodes list, the operator will be prompted with
the option to either start over again (after manually checking the status of the
node(s) in question), to run without the missing nodes, or to abort the operation.
When tests start, CT Master prints information to console about the nodes that are
involved. CT Master also reports when tests finish, successfully or unsuccessfully. If
connection is lost to a node, the test on that node is considered finished. CT Master
will not attempt to reestablish contact with the failing node. At any time to get the
current status of the test nodes, call the function:
ct_master:progress()
To stop one or more tests, use:
ct_master:abort() (stop all) or ct_master:abort(Nodes)
For detailed information about the ct_master API, please see the
manual page for this module.
Test Specifications
The test specifications used as input to CT Master are fully compatible with the
specifications used as input to the regular CT server. The syntax is described in the
Running Test Suites
chapter.
All test specification terms can have a NodeRefs element. This element
specifies which node or nodes a configuration operation or a test is to be executed
on. NodeRefs is defined as:
NodeRefs = all_nodes | [NodeRef] | NodeRef
where
NodeRef = NodeAlias | node() | master
A NodeAlias (atom()) is used in a test specification as a
reference to a node name (so the actual node name only needs to be declared once,
which can of course also be achieved using constants).
The alias is declared with a node term:
{node, NodeAlias, NodeName}
If NodeRefs has the value all_nodes, the operation or test will
be performed on all given test nodes. (Declaring a term without a NodeRefs
element actually has the same effect). If NodeRefs has the value
master, the operation is only performed on the CT Master node (namely set
the log directory or install an event handler).
Consider the example in the
Running Test Suites
chapter, now extended with node information and intended to be executed by the
CT Master:
{define, 'Top', "/home/test"}.
{define, 'T1', "'Top'/t1"}.
{define, 'T2', "'Top'/t2"}.
{define, 'T3', "'Top'/t3"}.
{define, 'CfgFile', "config.cfg"}.
{define, 'Node', ct_node}.
{node, node1, 'Node@host_x'}.
{node, node2, 'Node@host_y'}.
{logdir, master, "'Top'/master_logs"}.
{logdir, "'Top'/logs"}.
{config, node1, "'T1'/'CfgFile'"}.
{config, node2, "'T2'/'CfgFile'"}.
{config, "'T3'/'CfgFile'"}.
{suites, node1, 'T1', all}.
{skip_suites, node1, 'T1', [t1B_SUITE,t1D_SUITE], "Not implemented"}.
{skip_cases, node1, 'T1', t1A_SUITE, [test3,test4], "Irrelevant"}.
{skip_cases, node1, 'T1', t1C_SUITE, [test1], "Ignore"}.
{suites, node2, 'T2', [t2B_SUITE,t2C_SUITE]}.
{cases, node2, 'T2', t2A_SUITE, [test4,test1,test7]}.
{skip_suites, 'T3', all, "Not implemented"}.
This example specifies the same tests as the original example. But
now if started with a call to ct_master:run(TestSpecName), the
t1 test will be executed on node ct_node@host_x (node1), the
t2 test on ct_node@host_y (node2) and the t3 test on both
node1 and node2. The t1 config file will only be read on
node1 and the t2 config file only on node2, while the t3 config file
will be read on both node1 and node2. Both test nodes will write log
files to the same directory. (The CT Master node will however use a
different log directory than the test nodes).
If the test session is instead started with a call to
ct_master:run(TestSpecName, [ct_node@host_z], [ct_node@host_x]),
the result is that the t1 test does not run on
ct_node@host_x (or any other node) while the t3 test runs on
ct_node@host_y and ct_node@host_z.
A nice feature is that a test specification that includes node
information can still be used as input to the regular Common Test server
(as described in the
Running Test Suites
chapter). The result is that any test specified to run on a node with the same
name as the Common Test node in question (typically ct@somehost if started
with the ct_run program), will be performed. Tests without explicit
node association will always be performed too of course!
Automatic startup of test target nodes
It is possible to automatically start, and perform initial actions, on
test target nodes by using the test specification term init.
Currently, two sub-terms are supported, node_start and eval.
Example:
{node, node1, node1@host1}.
{node, node2, node1@host2}.
{node, node3, node2@host2}.
{node, node4, node1@host3}.
{init, node1, [{node_start, [{callback_module, my_slave_callback}]}]}.
{init, [node2, node3], {node_start, [{username, "ct_user"}, {password, "ct_password"}]}}.
{init, node4, {eval, {module, function, []}}}.
This test specification declares that node1@host1 is to be started using
the user callback function callback_module:my_slave_callback/0, and nodes
node1@host2 and node2@host2 will be started with the default callback
module ct_slave. The given user name and password is used to log into remote
host host2. Also, the function module:function/0 will be evaluated on
node1@host3, and the result of this call will be printed to the log.
The default ct_slave callback module,
which is part of the Common Test application, has the following features:
- Starting Erlang target nodes on local or remote hosts
(ssh is used for communication).
- Ability to start an Erlang emulator with additional flags
(any flags supported by erl are supported).
- Supervision of a node being started by means of internal callback
functions. Used to prevent hanging nodes. (Configurable).
- Monitoring of the master node by the slaves. A slave node may be
stopped in case the master node terminates. (Configurable).
- Execution of user functions after a slave node is started.
Functions can be given as a list of {Module, Function, Arguments} tuples.
Note that it is possible to specify an eval term for the node as well
as startup_functions in the node_start options list. In this
case first the node will be started, then the startup_functions are
executed, and finally functions specified with eval are called.