platform_build_soong/bp2build/build_conversion.go
Spandan Das 5af0bd3e48 Create a new mode in soong_ui to generate API only BUILD files
The generated Bazel workspace will only contain api specific targets.
This is feasible since these targets do not have any cross dependencies
with the targets in the bp2build workspace

The advantages of a new mode are
1. Does not pollute bp2build workspace with api targets
2. Does not block api targets with the current allowlist conversion
   mechansims in bp2build
(In the future we might want to combine these two workspaces)

A Soong module type will generate a Bazel target if it implements
ApiProvider interface

Test: m apigen
Test: m nothing

Change-Id: I69c57ca6539f932e0ad554ce84a87fb7936fdba0
2022-10-04 17:32:56 +00:00

718 lines
23 KiB
Go

// Copyright 2020 Google Inc. 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.
package bp2build
/*
For shareable/common functionality for conversion from soong-module to build files
for queryview/bp2build
*/
import (
"fmt"
"reflect"
"sort"
"strings"
"android/soong/android"
"android/soong/bazel"
"android/soong/starlark_fmt"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
)
type BazelAttributes struct {
Attrs map[string]string
}
type BazelTarget struct {
name string
packageName string
content string
ruleClass string
bzlLoadLocation string
}
// IsLoadedFromStarlark determines if the BazelTarget's rule class is loaded from a .bzl file,
// as opposed to a native rule built into Bazel.
func (t BazelTarget) IsLoadedFromStarlark() bool {
return t.bzlLoadLocation != ""
}
// Label is the fully qualified Bazel label constructed from the BazelTarget's
// package name and target name.
func (t BazelTarget) Label() string {
if t.packageName == "." {
return "//:" + t.name
} else {
return "//" + t.packageName + ":" + t.name
}
}
// BazelTargets is a typedef for a slice of BazelTarget objects.
type BazelTargets []BazelTarget
func (targets BazelTargets) packageRule() *BazelTarget {
for _, target := range targets {
if target.ruleClass == "package" {
return &target
}
}
return nil
}
// sort a list of BazelTargets in-place, by name, and by generated/handcrafted types.
func (targets BazelTargets) sort() {
sort.Slice(targets, func(i, j int) bool {
return targets[i].name < targets[j].name
})
}
// String returns the string representation of BazelTargets, without load
// statements (use LoadStatements for that), since the targets are usually not
// adjacent to the load statements at the top of the BUILD file.
func (targets BazelTargets) String() string {
var res string
for i, target := range targets {
if target.ruleClass != "package" {
res += target.content
}
if i != len(targets)-1 {
res += "\n\n"
}
}
return res
}
// LoadStatements return the string representation of the sorted and deduplicated
// Starlark rule load statements needed by a group of BazelTargets.
func (targets BazelTargets) LoadStatements() string {
bzlToLoadedSymbols := map[string][]string{}
for _, target := range targets {
if target.IsLoadedFromStarlark() {
bzlToLoadedSymbols[target.bzlLoadLocation] =
append(bzlToLoadedSymbols[target.bzlLoadLocation], target.ruleClass)
}
}
var loadStatements []string
for bzl, ruleClasses := range bzlToLoadedSymbols {
loadStatement := "load(\""
loadStatement += bzl
loadStatement += "\", "
ruleClasses = android.SortedUniqueStrings(ruleClasses)
for i, ruleClass := range ruleClasses {
loadStatement += "\"" + ruleClass + "\""
if i != len(ruleClasses)-1 {
loadStatement += ", "
}
}
loadStatement += ")"
loadStatements = append(loadStatements, loadStatement)
}
return strings.Join(android.SortedUniqueStrings(loadStatements), "\n")
}
type bpToBuildContext interface {
ModuleName(module blueprint.Module) string
ModuleDir(module blueprint.Module) string
ModuleSubDir(module blueprint.Module) string
ModuleType(module blueprint.Module) string
VisitAllModules(visit func(blueprint.Module))
VisitDirectDeps(module blueprint.Module, visit func(blueprint.Module))
}
type CodegenContext struct {
config android.Config
context android.Context
mode CodegenMode
additionalDeps []string
unconvertedDepMode unconvertedDepsMode
}
func (ctx *CodegenContext) Mode() CodegenMode {
return ctx.mode
}
// CodegenMode is an enum to differentiate code-generation modes.
type CodegenMode int
const (
// Bp2Build - generate BUILD files with targets buildable by Bazel directly.
//
// This mode is used for the Soong->Bazel build definition conversion.
Bp2Build CodegenMode = iota
// QueryView - generate BUILD files with targets representing fully mutated
// Soong modules, representing the fully configured Soong module graph with
// variants and dependency edges.
//
// This mode is used for discovering and introspecting the existing Soong
// module graph.
QueryView
// ApiBp2build - generate BUILD files for API contribution targets
ApiBp2build
)
type unconvertedDepsMode int
const (
// Include a warning in conversion metrics about converted modules with unconverted direct deps
warnUnconvertedDeps unconvertedDepsMode = iota
// Error and fail conversion if encountering a module with unconverted direct deps
// Enabled by setting environment variable `BP2BUILD_ERROR_UNCONVERTED`
errorModulesUnconvertedDeps
)
func (mode CodegenMode) String() string {
switch mode {
case Bp2Build:
return "Bp2Build"
case QueryView:
return "QueryView"
case ApiBp2build:
return "ApiBp2build"
default:
return fmt.Sprintf("%d", mode)
}
}
// AddNinjaFileDeps adds dependencies on the specified files to be added to the ninja manifest. The
// primary builder will be rerun whenever the specified files are modified. Allows us to fulfill the
// PathContext interface in order to add dependencies on hand-crafted BUILD files. Note: must also
// call AdditionalNinjaDeps and add them manually to the ninja file.
func (ctx *CodegenContext) AddNinjaFileDeps(deps ...string) {
ctx.additionalDeps = append(ctx.additionalDeps, deps...)
}
// AdditionalNinjaDeps returns additional ninja deps added by CodegenContext
func (ctx *CodegenContext) AdditionalNinjaDeps() []string {
return ctx.additionalDeps
}
func (ctx *CodegenContext) Config() android.Config { return ctx.config }
func (ctx *CodegenContext) Context() android.Context { return ctx.context }
// NewCodegenContext creates a wrapper context that conforms to PathContext for
// writing BUILD files in the output directory.
func NewCodegenContext(config android.Config, context android.Context, mode CodegenMode) *CodegenContext {
var unconvertedDeps unconvertedDepsMode
if config.IsEnvTrue("BP2BUILD_ERROR_UNCONVERTED") {
unconvertedDeps = errorModulesUnconvertedDeps
}
return &CodegenContext{
context: context,
config: config,
mode: mode,
unconvertedDepMode: unconvertedDeps,
}
}
// props is an unsorted map. This function ensures that
// the generated attributes are sorted to ensure determinism.
func propsToAttributes(props map[string]string) string {
var attributes string
for _, propName := range android.SortedStringKeys(props) {
attributes += fmt.Sprintf(" %s = %s,\n", propName, props[propName])
}
return attributes
}
type conversionResults struct {
buildFileToTargets map[string]BazelTargets
metrics CodegenMetrics
}
func (r conversionResults) BuildDirToTargets() map[string]BazelTargets {
return r.buildFileToTargets
}
func GenerateBazelTargets(ctx *CodegenContext, generateFilegroups bool) (conversionResults, []error) {
buildFileToTargets := make(map[string]BazelTargets)
// Simple metrics tracking for bp2build
metrics := CodegenMetrics{
ruleClassCount: make(map[string]uint64),
convertedModulePathMap: make(map[string]string),
convertedModuleTypeCount: make(map[string]uint64),
totalModuleTypeCount: make(map[string]uint64),
}
dirs := make(map[string]bool)
var errs []error
bpCtx := ctx.Context()
bpCtx.VisitAllModules(func(m blueprint.Module) {
dir := bpCtx.ModuleDir(m)
moduleType := bpCtx.ModuleType(m)
dirs[dir] = true
var targets []BazelTarget
switch ctx.Mode() {
case Bp2Build:
// There are two main ways of converting a Soong module to Bazel:
// 1) Manually handcrafting a Bazel target and associating the module with its label
// 2) Automatically generating with bp2build converters
//
// bp2build converters are used for the majority of modules.
if b, ok := m.(android.Bazelable); ok && b.HasHandcraftedLabel() {
// Handle modules converted to handcrafted targets.
//
// Since these modules are associated with some handcrafted
// target in a BUILD file, we don't autoconvert them.
// Log the module.
metrics.AddConvertedModule(m, moduleType, dir, Handcrafted)
} else if aModule, ok := m.(android.Module); ok && aModule.IsConvertedByBp2build() {
// Handle modules converted to generated targets.
// Log the module.
metrics.AddConvertedModule(aModule, moduleType, dir, Generated)
// Handle modules with unconverted deps. By default, emit a warning.
if unconvertedDeps := aModule.GetUnconvertedBp2buildDeps(); len(unconvertedDeps) > 0 {
msg := fmt.Sprintf("%s %s:%s depends on unconverted modules: %s",
moduleType, bpCtx.ModuleDir(m), m.Name(), strings.Join(unconvertedDeps, ", "))
switch ctx.unconvertedDepMode {
case warnUnconvertedDeps:
metrics.moduleWithUnconvertedDepsMsgs = append(metrics.moduleWithUnconvertedDepsMsgs, msg)
case errorModulesUnconvertedDeps:
errs = append(errs, fmt.Errorf(msg))
return
}
}
if unconvertedDeps := aModule.GetMissingBp2buildDeps(); len(unconvertedDeps) > 0 {
msg := fmt.Sprintf("%s %s:%s depends on missing modules: %s",
moduleType, bpCtx.ModuleDir(m), m.Name(), strings.Join(unconvertedDeps, ", "))
switch ctx.unconvertedDepMode {
case warnUnconvertedDeps:
metrics.moduleWithMissingDepsMsgs = append(metrics.moduleWithMissingDepsMsgs, msg)
case errorModulesUnconvertedDeps:
errs = append(errs, fmt.Errorf(msg))
return
}
}
var targetErrs []error
targets, targetErrs = generateBazelTargets(bpCtx, aModule)
errs = append(errs, targetErrs...)
for _, t := range targets {
// A module can potentially generate more than 1 Bazel
// target, each of a different rule class.
metrics.IncrementRuleClassCount(t.ruleClass)
}
} else {
metrics.AddUnconvertedModule(moduleType)
return
}
case QueryView:
// Blocklist certain module types from being generated.
if canonicalizeModuleType(bpCtx.ModuleType(m)) == "package" {
// package module name contain slashes, and thus cannot
// be mapped cleanly to a bazel label.
return
}
t, err := generateSoongModuleTarget(bpCtx, m)
if err != nil {
errs = append(errs, err)
}
targets = append(targets, t)
case ApiBp2build:
if aModule, ok := m.(android.Module); ok && aModule.IsConvertedByBp2build() {
targets, errs = generateBazelTargets(bpCtx, aModule)
}
default:
errs = append(errs, fmt.Errorf("Unknown code-generation mode: %s", ctx.Mode()))
return
}
buildFileToTargets[dir] = append(buildFileToTargets[dir], targets...)
})
if len(errs) > 0 {
return conversionResults{}, errs
}
if generateFilegroups {
// Add a filegroup target that exposes all sources in the subtree of this package
// NOTE: This also means we generate a BUILD file for every Android.bp file (as long as it has at least one module)
//
// This works because: https://bazel.build/reference/be/functions#exports_files
// "As a legacy behaviour, also files mentioned as input to a rule are exported with the
// default visibility until the flag --incompatible_no_implicit_file_export is flipped. However, this behavior
// should not be relied upon and actively migrated away from."
//
// TODO(b/198619163): We should change this to export_files(glob(["**/*"])) instead, but doing that causes these errors:
// "Error in exports_files: generated label '//external/avb:avbtool' conflicts with existing py_binary rule"
// So we need to solve all the "target ... is both a rule and a file" warnings first.
for dir := range dirs {
buildFileToTargets[dir] = append(buildFileToTargets[dir], BazelTarget{
name: "bp2build_all_srcs",
content: `filegroup(name = "bp2build_all_srcs", srcs = glob(["**/*"]))`,
ruleClass: "filegroup",
})
}
}
return conversionResults{
buildFileToTargets: buildFileToTargets,
metrics: metrics,
}, errs
}
func generateBazelTargets(ctx bpToBuildContext, m android.Module) ([]BazelTarget, []error) {
var targets []BazelTarget
var errs []error
for _, m := range m.Bp2buildTargets() {
target, err := generateBazelTarget(ctx, m)
if err != nil {
errs = append(errs, err)
return targets, errs
}
targets = append(targets, target)
}
return targets, errs
}
type bp2buildModule interface {
TargetName() string
TargetPackage() string
BazelRuleClass() string
BazelRuleLoadLocation() string
BazelAttributes() []interface{}
}
func generateBazelTarget(ctx bpToBuildContext, m bp2buildModule) (BazelTarget, error) {
ruleClass := m.BazelRuleClass()
bzlLoadLocation := m.BazelRuleLoadLocation()
// extract the bazel attributes from the module.
attrs := m.BazelAttributes()
props, err := extractModuleProperties(attrs, true)
if err != nil {
return BazelTarget{}, err
}
// name is handled in a special manner
delete(props.Attrs, "name")
// Return the Bazel target with rule class and attributes, ready to be
// code-generated.
attributes := propsToAttributes(props.Attrs)
var content string
targetName := m.TargetName()
if targetName != "" {
content = fmt.Sprintf(ruleTargetTemplate, ruleClass, targetName, attributes)
} else {
content = fmt.Sprintf(unnamedRuleTargetTemplate, ruleClass, attributes)
}
return BazelTarget{
name: targetName,
packageName: m.TargetPackage(),
ruleClass: ruleClass,
bzlLoadLocation: bzlLoadLocation,
content: content,
}, nil
}
// Convert a module and its deps and props into a Bazel macro/rule
// representation in the BUILD file.
func generateSoongModuleTarget(ctx bpToBuildContext, m blueprint.Module) (BazelTarget, error) {
props, err := getBuildProperties(ctx, m)
// TODO(b/163018919): DirectDeps can have duplicate (module, variant)
// items, if the modules are added using different DependencyTag. Figure
// out the implications of that.
depLabels := map[string]bool{}
if aModule, ok := m.(android.Module); ok {
ctx.VisitDirectDeps(aModule, func(depModule blueprint.Module) {
depLabels[qualifiedTargetLabel(ctx, depModule)] = true
})
}
for p := range ignoredPropNames {
delete(props.Attrs, p)
}
attributes := propsToAttributes(props.Attrs)
depLabelList := "[\n"
for depLabel := range depLabels {
depLabelList += fmt.Sprintf(" %q,\n", depLabel)
}
depLabelList += " ]"
targetName := targetNameWithVariant(ctx, m)
return BazelTarget{
name: targetName,
content: fmt.Sprintf(
soongModuleTargetTemplate,
targetName,
ctx.ModuleName(m),
canonicalizeModuleType(ctx.ModuleType(m)),
ctx.ModuleSubDir(m),
depLabelList,
attributes),
}, err
}
func getBuildProperties(ctx bpToBuildContext, m blueprint.Module) (BazelAttributes, error) {
// TODO: this omits properties for blueprint modules (blueprint_go_binary,
// bootstrap_go_binary, bootstrap_go_package), which will have to be handled separately.
if aModule, ok := m.(android.Module); ok {
return extractModuleProperties(aModule.GetProperties(), false)
}
return BazelAttributes{}, nil
}
// Generically extract module properties and types into a map, keyed by the module property name.
func extractModuleProperties(props []interface{}, checkForDuplicateProperties bool) (BazelAttributes, error) {
ret := map[string]string{}
// Iterate over this android.Module's property structs.
for _, properties := range props {
propertiesValue := reflect.ValueOf(properties)
// Check that propertiesValue is a pointer to the Properties struct, like
// *cc.BaseLinkerProperties or *java.CompilerProperties.
//
// propertiesValue can also be type-asserted to the structs to
// manipulate internal props, if needed.
if isStructPtr(propertiesValue.Type()) {
structValue := propertiesValue.Elem()
ok, err := extractStructProperties(structValue, 0)
if err != nil {
return BazelAttributes{}, err
}
for k, v := range ok {
if existing, exists := ret[k]; checkForDuplicateProperties && exists {
return BazelAttributes{}, fmt.Errorf(
"%s (%v) is present in properties whereas it should be consolidated into a commonAttributes",
k, existing)
}
ret[k] = v
}
} else {
return BazelAttributes{},
fmt.Errorf(
"properties must be a pointer to a struct, got %T",
propertiesValue.Interface())
}
}
return BazelAttributes{
Attrs: ret,
}, nil
}
func isStructPtr(t reflect.Type) bool {
return t.Kind() == reflect.Ptr && t.Elem().Kind() == reflect.Struct
}
// prettyPrint a property value into the equivalent Starlark representation
// recursively.
func prettyPrint(propertyValue reflect.Value, indent int, emitZeroValues bool) (string, error) {
if !emitZeroValues && isZero(propertyValue) {
// A property value being set or unset actually matters -- Soong does set default
// values for unset properties, like system_shared_libs = ["libc", "libm", "libdl"] at
// https://cs.android.com/android/platform/superproject/+/master:build/soong/cc/linker.go;l=281-287;drc=f70926eef0b9b57faf04c17a1062ce50d209e480
//
// In Bazel-parlance, we would use "attr.<type>(default = <default
// value>)" to set the default value of unset attributes. In the cases
// where the bp2build converter didn't set the default value within the
// mutator when creating the BazelTargetModule, this would be a zero
// value. For those cases, we return an empty string so we don't
// unnecessarily generate empty values.
return "", nil
}
switch propertyValue.Kind() {
case reflect.String:
return fmt.Sprintf("\"%v\"", escapeString(propertyValue.String())), nil
case reflect.Bool:
return starlark_fmt.PrintBool(propertyValue.Bool()), nil
case reflect.Int, reflect.Uint, reflect.Int64:
return fmt.Sprintf("%v", propertyValue.Interface()), nil
case reflect.Ptr:
return prettyPrint(propertyValue.Elem(), indent, emitZeroValues)
case reflect.Slice:
elements := make([]string, 0, propertyValue.Len())
for i := 0; i < propertyValue.Len(); i++ {
val, err := prettyPrint(propertyValue.Index(i), indent, emitZeroValues)
if err != nil {
return "", err
}
if val != "" {
elements = append(elements, val)
}
}
return starlark_fmt.PrintList(elements, indent, func(s string) string {
return "%s"
}), nil
case reflect.Struct:
// Special cases where the bp2build sends additional information to the codegenerator
// by wrapping the attributes in a custom struct type.
if attr, ok := propertyValue.Interface().(bazel.Attribute); ok {
return prettyPrintAttribute(attr, indent)
} else if label, ok := propertyValue.Interface().(bazel.Label); ok {
return fmt.Sprintf("%q", label.Label), nil
}
// Sort and print the struct props by the key.
structProps, err := extractStructProperties(propertyValue, indent)
if err != nil {
return "", err
}
if len(structProps) == 0 {
return "", nil
}
return starlark_fmt.PrintDict(structProps, indent), nil
case reflect.Interface:
// TODO(b/164227191): implement pretty print for interfaces.
// Interfaces are used for for arch, multilib and target properties.
return "", nil
default:
return "", fmt.Errorf(
"unexpected kind for property struct field: %s", propertyValue.Kind())
}
}
// Converts a reflected property struct value into a map of property names and property values,
// which each property value correctly pretty-printed and indented at the right nest level,
// since property structs can be nested. In Starlark, nested structs are represented as nested
// dicts: https://docs.bazel.build/skylark/lib/dict.html
func extractStructProperties(structValue reflect.Value, indent int) (map[string]string, error) {
if structValue.Kind() != reflect.Struct {
return map[string]string{}, fmt.Errorf("Expected a reflect.Struct type, but got %s", structValue.Kind())
}
var err error
ret := map[string]string{}
structType := structValue.Type()
for i := 0; i < structValue.NumField(); i++ {
field := structType.Field(i)
if shouldSkipStructField(field) {
continue
}
fieldValue := structValue.Field(i)
if isZero(fieldValue) {
// Ignore zero-valued fields
continue
}
// if the struct is embedded (anonymous), flatten the properties into the containing struct
if field.Anonymous {
if field.Type.Kind() == reflect.Ptr {
fieldValue = fieldValue.Elem()
}
if fieldValue.Type().Kind() == reflect.Struct {
propsToMerge, err := extractStructProperties(fieldValue, indent)
if err != nil {
return map[string]string{}, err
}
for prop, value := range propsToMerge {
ret[prop] = value
}
continue
}
}
propertyName := proptools.PropertyNameForField(field.Name)
var prettyPrintedValue string
prettyPrintedValue, err = prettyPrint(fieldValue, indent+1, false)
if err != nil {
return map[string]string{}, fmt.Errorf(
"Error while parsing property: %q. %s",
propertyName,
err)
}
if prettyPrintedValue != "" {
ret[propertyName] = prettyPrintedValue
}
}
return ret, nil
}
func isZero(value reflect.Value) bool {
switch value.Kind() {
case reflect.Func, reflect.Map, reflect.Slice:
return value.IsNil()
case reflect.Array:
valueIsZero := true
for i := 0; i < value.Len(); i++ {
valueIsZero = valueIsZero && isZero(value.Index(i))
}
return valueIsZero
case reflect.Struct:
valueIsZero := true
for i := 0; i < value.NumField(); i++ {
valueIsZero = valueIsZero && isZero(value.Field(i))
}
return valueIsZero
case reflect.Ptr:
if !value.IsNil() {
return isZero(reflect.Indirect(value))
} else {
return true
}
// Always print bool/strings, if you want a bool/string attribute to be able to take the default value, use a
// pointer instead
case reflect.Bool, reflect.String:
return false
default:
if !value.IsValid() {
return true
}
zeroValue := reflect.Zero(value.Type())
result := value.Interface() == zeroValue.Interface()
return result
}
}
func escapeString(s string) string {
s = strings.ReplaceAll(s, "\\", "\\\\")
// b/184026959: Reverse the application of some common control sequences.
// These must be generated literally in the BUILD file.
s = strings.ReplaceAll(s, "\t", "\\t")
s = strings.ReplaceAll(s, "\n", "\\n")
s = strings.ReplaceAll(s, "\r", "\\r")
return strings.ReplaceAll(s, "\"", "\\\"")
}
func targetNameWithVariant(c bpToBuildContext, logicModule blueprint.Module) string {
name := ""
if c.ModuleSubDir(logicModule) != "" {
// TODO(b/162720883): Figure out a way to drop the "--" variant suffixes.
name = c.ModuleName(logicModule) + "--" + c.ModuleSubDir(logicModule)
} else {
name = c.ModuleName(logicModule)
}
return strings.Replace(name, "//", "", 1)
}
func qualifiedTargetLabel(c bpToBuildContext, logicModule blueprint.Module) string {
return fmt.Sprintf("//%s:%s", c.ModuleDir(logicModule), targetNameWithVariant(c, logicModule))
}