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// Copyright 2018 The Bazel Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
syntax = "proto3";
package analysis;
import "src/main/protobuf/build.proto";
option java_package = "com.google.devtools.build.lib.analysis";
option java_outer_classname = "AnalysisProtosV2";
// Container for the action graph properties.
message ActionGraphContainer {
repeated Artifact artifacts = 1;
repeated Action actions = 2;
repeated Target targets = 3;
repeated DepSetOfFiles dep_set_of_files = 4;
repeated Configuration configuration = 5;
repeated AspectDescriptor aspect_descriptors = 6;
repeated RuleClass rule_classes = 7;
repeated PathFragment path_fragments = 8;
}
// Represents a single artifact, whether it's a source file or a derived output
// file.
message Artifact {
// Identifier for this artifact; this is a uint32, only valid for this
// particular dump of the analysis.
uint32 id = 1;
// The id of the PathFragment that represents the relative path of the file
// within the execution root.
uint32 path_fragment_id = 2;
// True iff the artifact is a tree artifact, i.e. the above exec_path refers
// a directory.
bool is_tree_artifact = 3;
}
// Represents a single action, which is a function from Artifact(s) to
// Artifact(s).
message Action {
// The target that was responsible for the creation of the action.
uint32 target_id = 1;
// The aspects that were responsible for the creation of the action (if any).
// In the case of aspect-on-aspect, AspectDescriptors are listed in
// topological order of the dependency graph.
// e.g. [A, B] would imply that aspect A is applied on top of aspect B.
repeated uint32 aspect_descriptor_ids = 2;
// Encodes all significant behavior that might affect the output. The key
// must change if the work performed by the execution of this action changes.
// Note that the key doesn't include checksums of the input files.
string action_key = 3;
// The mnemonic for this kind of action.
string mnemonic = 4;
// The configuration under which this action is executed.
uint32 configuration_id = 5;
// The command line arguments of the action. This will be only set if
// explicitly requested.
repeated string arguments = 6;
// The list of environment variables to be set before executing the command.
repeated KeyValuePair environment_variables = 7;
// The set of input dep sets that the action depends upon. If the action does
// input discovery, the contents of this set might change during execution.
repeated uint32 input_dep_set_ids = 8;
// The set of scheduling dependency dep sets the action depends on.
// Only set of both --include_artifacts and --include_scheduling_dependencies
// is set to true.
repeated uint32 scheduling_dep_dep_set_ids = 20;
// The list of Artifact IDs that represent the output files that this action
// will generate.
repeated uint32 output_ids = 9;
// True iff the action does input discovery during execution.
bool discovers_inputs = 10;
// Execution info for the action. Remote execution services may use this
// information to modify the execution environment, but actions will
// generally not be aware of it.
repeated KeyValuePair execution_info = 11;
// The list of param files. This will be only set if explicitly requested.
repeated ParamFile param_files = 12;
// The id to an Artifact that is the primary output of this action.
uint32 primary_output_id = 13;
// The execution platform for this action. Empty if the action has no
// execution platform.
string execution_platform = 14;
// The template content of the action, if it is TemplateExpand action.
string template_content = 15;
// The list of substitution should be performed on the template. The key is
// the string to be substituted and the value is the string to be substituted
// to.
repeated KeyValuePair substitutions = 16;
// The contents of the file for the ctx.actions.write() action
// (guarded by the --include_file_write_contents flag).
string file_contents = 17;
// The target of the symlink created by UnresolvedSymlink actions.
// For regular Symlink actions, the target is represented as an input.
string unresolved_symlink_target = 18;
// If FileWrite actions should make their output executable.
// (ctx.actions.write(is_executable=True))
bool is_executable = 19;
}
// Represents a single target (without configuration information) that is
// associated with an action.
message Target {
// Identifier for this target; this is a uint32, only valid for this
// particular dump of the analysis.
uint32 id = 1;
// Label of the target, e.g. //foo:bar.
string label = 2;
// Class of the rule.
uint32 rule_class_id = 3;
}
message RuleClass {
// Identifier for this rule class; this is a uint32, only valid for
// this particular dump of the analysis.
uint32 id = 1;
// Name of the rule class, e.g. cc_library.
string name = 2;
}
// Represents an invocation specific descriptor of an aspect.
message AspectDescriptor {
// Identifier for this aspect descriptor; this is a uint32, only valid
// for the particular dump of the analysis.
uint32 id = 1;
// The name of the corresponding aspect. For native aspects, it's the Java
// class name, for Starlark aspects it's the bzl file followed by a % sign
// followed by the name of the aspect.
string name = 2;
// The list of parameters bound to a particular invocation of that aspect on
// a target. Note that aspects can be executed multiple times on the same
// target in different order.
repeated KeyValuePair parameters = 3;
}
message DepSetOfFiles {
// Identifier for this named set of files; this is a uint32, only
// valid for the particular dump of the analysis.
uint32 id = 1;
// Other transitively included named set of files.
repeated uint32 transitive_dep_set_ids = 2;
// The list of input artifact IDs that are immediately contained in this set.
repeated uint32 direct_artifact_ids = 3;
}
message Configuration {
// Identifier for this configuration; this is a uint32, only valid for
// the particular dump of the analysis.
uint32 id = 1;
// The mnemonic representing the build configuration.
string mnemonic = 2;
// The platform string.
string platform_name = 3;
// The checksum representation of the configuration options;
string checksum = 4;
// Whether this configuration is used for building tools.
bool is_tool = 5;
// The configuration fragments that are a part of this configuration.
repeated Fragment fragments = 6;
// The union of all the FragmentOptions associated with the Fragments that are
// a part of this configuration. These are returned separately from the
// fragments field because a set of FragmentOptions can be referenced by more
// than one Fragment, and we wish to avoid returning the same FragmentOptions
// repeatedly. These are sorted by the FragmentOptions name field.
repeated FragmentOptions fragment_options = 7;
}
// A configuration fragment
// (http://bazel.build/rules/lib/fragments).
message Fragment {
// The name of the Fragment.
string name = 1;
// The names of the FragmentOptions associated with this fragment in sorted
// order.
repeated string fragment_option_names = 2;
}
// A set of fragment options.
message FragmentOptions {
// The name of this set of fragment options.
string name = 1;
// The options themselves, in sorted order by name.
repeated Option options = 2;
}
// A fragment option.
message Option {
// The name of the option.
optional string name = 1;
// The value of the option.
optional string value = 2;
}
message KeyValuePair {
// The variable name.
string key = 1;
// The variable value.
string value = 2;
}
message ConfiguredTarget {
// The target. We use blaze_query.Target defined in build.proto instead of
// the Target defined in this file because blaze_query.Target is much heavier
// and will output proto results similar to what users are familiar with from
// regular blaze query.
blaze_query.Target target = 1;
// DEPRECATED. Use configuration_id instead.
Configuration configuration = 2 [deprecated = true];
// The id of the configuration this target is configured for. The actual
// Configuration message can be found in CqueryResults. If the target doesn't
// have a configuration, the value will be 0.
uint32 configuration_id = 3;
}
// Container for cquery results
message CqueryResult {
// All the configuredtargets returns by cquery
repeated ConfiguredTarget results = 1;
// All the Configurations referenced by results.
repeated Configuration configurations = 2;
}
// Content of a param file.
message ParamFile {
// The exec path of the param file artifact.
string exec_path = 1;
// The arguments in the param file.
// Each argument corresponds to a line in the param file.
repeated string arguments = 2;
}
// The path fragment that makes up a full path.
message PathFragment {
// Identifier for this path fragment.
uint32 id = 1;
// The label of the section in the path.
string label = 2;
// The id of the parent path fragment.
uint32 parent_id = 3;
}