aquery command allows you to query for actions in your build graph.
It operates on the post-analysis Configured Target Graph and exposes
information about Actions, Artifacts and their relationships.
aquery is useful when you are interested in the properties of the Actions/Artifacts
generated from the Configured Target Graph. For example, the actual commands run
and their inputs/outputs/mnemonics.
The tool accepts several command-line options.
Notably, the aquery command runs on top of a regular Bazel build and inherits
the set of options available during a build.
It supports the same set of functions that is also available to traditional
query but siblings, buildfiles and
tests.
An example aquery output (without specific details):
Basic syntax
A simple example of the syntax foraquery is as follows:
bazel aquery "aquery_function(function(//target))"
The query expression (in quotes) consists of the following:
aquery_function(...): functions specific toaquery. More details below.function(...): the standard functions as traditionalquery.//targetis the label to the interested target.
Using aquery functions
There are threeaquery functions:
inputs: filter actions by inputs.outputs: filter actions by outputsmnemonic: filter actions by mnemonic
expr ::= inputs(word, expr)
The inputs operator returns the actions generated from building expr,
whose input filenames match the regex provided by word.
$ bazel aquery 'inputs(".*cpp", deps(//src/target_a))'
outputs and mnemonic functions share a similar syntax.
You can also combine functions to achieve the AND operation. For example:
//src/target_a,
whose mnemonics match "Cpp.*" and inputs match the patterns
".*cpp" and "foo.*".
Important: aquery functions can’t be nested inside non-aquery functions.
Conceptually, this makes sense since the output of aquery functions is Actions,
not Configured Targets.
An example of the syntax error produced:
Options
Build options
aquery runs on top of a regular Bazel build and thus inherits the set of
options
available during a build.
Aquery options
--output=(text|summary|commands|proto|jsonproto|textproto), default=text
The default output format (text) is human-readable,
use proto, textproto, or jsonproto for machine-readable format.
The proto message is analysis.ActionGraphContainer.
The commands output format prints a list of build commands with
one command per line.
In general, do not depend on the order of output. For more information,
see the core query ordering contract.
--include_commandline, default=true
Includes the content of the action command lines in the output (potentially large).
--include_artifacts, default=true
Includes names of the action inputs and outputs in the output (potentially large).
--include_aspects, default=true
Whether to include Aspect-generated actions in the output.
--include_param_files, default=false
Include the content of the param files used in the command (potentially large).
Warning: Enabling this flag will automatically enable the --include_commandline flag.
--include_file_write_contents, default=false
Include file contents for the actions.write() action and the contents of the
manifest file for the SourceSymlinkManifest action The file contents is
returned in the file_contents field with --output=xxxproto.
With --output=text, the output has
--skyframe_state, default=false
Without performing extra analysis, dump the Action Graph from Skyframe.
Note: Specifying a target with --skyframe_state is currently not supported.
This flag is only available with --output=proto or --output=textproto.
Other tools and features
Querying against the state of Skyframe
Skyframe is the evaluation and incrementality model of Bazel. On each instance of Bazel server, Skyframe stores the dependency graph constructed from the previous runs of the Analysis phase. In some cases, it is useful to query the Action Graph on Skyframe. An example use case would be:- Run
bazel build //target_a - Run
bazel build //target_b - File
foo.outwas generated.
foo.out was generated from building
//target_a or //target_b.
One could run bazel aquery 'outputs("foo.out", //target_a)' and
bazel aquery 'outputs("foo.out", //target_b)' to figure out the action responsible
for creating foo.out, and in turn the target. However, the number of different
targets previously built can be larger than 2, which makes running multiple aquery
commands a hassle.
As an alternative, the --skyframe_state flag can be used:
--skyframe_state mode, aquery takes the content of the Action Graph
that Skyframe keeps on the instance of Bazel, (optionally) performs filtering on it and
outputs the content, without re-running the analysis phase.
Special considerations
Output format
--skyframe_state is currently only available for --output=proto
and --output=textproto
Non-inclusion of target labels in the query expression
Currently,--skyframe_state queries the whole action graph that exists on Skyframe,
regardless of the targets. Having the target label specified in the query together with
--skyframe_state is considered a syntax error:
Comparing aquery outputs
You can compare the outputs of two different aquery invocations using theaquery_differ tool.
For instance: when you make some changes to your rule definition and want to verify that the
command lines being run did not change. aquery_differ is the tool for that.
The tool is available in the bazelbuild/bazel repository.
To use it, clone the repository to your local machine. An example usage:
before and after aquery outputs:
which actions were present in one but not the other, which actions have different
command line/inputs in each aquery output, …). The result of running the above command would be:
Command options
--before, --after: The aquery output files to be compared
--input_type=(proto|text_proto), default=proto: the format of the input
files. Support is provided for proto and textproto aquery output.
--attrs=(cmdline|inputs), default=cmdline: the attributes of actions
to be compared.
Aspect-on-aspect
It is possible for Aspects to be applied on top of each other. The aquery output of the action generated by these Aspects would then include the Aspect path, which is the sequence of Aspects applied to the target which generated the action. An example of Aspect-on-Aspect:bazel aquery --include_aspects 'deps(//t2)' for action X would be:
X was generated by Aspect a2 applied onto
a1(t0), where a1(t0) is the result of Aspect a1 applied
onto target t0.
Each AspectDescriptor has the following format:
AspectClass could be the name of the Aspect class (for native Aspects) or
bzl_file%aspect_name (for Starlark Aspects). AspectDescriptor are
sorted in topological order of the
dependency graph.
Linking with the JSON profile
While aquery provides information about the actions being run in a build (why they’re being run, their inputs/outputs), the JSON profile tells us the timing and duration of their execution. It is possible to combine these 2 sets of information via a common denominator: an action’s primary output. To include actions’ outputs in the JSON profile, generate the profile with--experimental_include_primary_output --noslim_profile.
Slim profiles are incompatible with the inclusion of primary outputs. An action’s primary output
is included by default by aquery.
We don’t currently provide a canonical tool to combine these 2 data sources, but you should be
able to build your own script with the above information.
Known issues
Handling shared actions
Sometimes actions are shared between configured targets. In the execution phase, those shared actions are simply considered as one and only executed once. However, aquery operates on the pre-execution, post-analysis action graph, and hence treats these like separate actions whose output Artifacts have the exact sameexecPath. As a result,
equivalent Artifacts appear duplicated.
The list of aquery issues/planned features can be found on
GitHub.
FAQs
The ActionKey remains the same even though the content of an input file changed.
In the context of aquery, theActionKey refers to the String gotten from
ActionAnalysisMetadata#getKey: