platform_build_blueprint/transition.go

306 lines
12 KiB
Go
Raw Normal View History

// Copyright 2024 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 blueprint
import (
"fmt"
"slices"
"sort"
)
// TransitionMutator implements a top-down mechanism where a module tells its
// direct dependencies what variation they should be built in but the dependency
// has the final say.
//
// When implementing a transition mutator, one needs to implement four methods:
// - Split() that tells what variations a module has by itself
// - OutgoingTransition() where a module tells what it wants from its
// dependency
// - IncomingTransition() where a module has the final say about its own
// variation
// - Mutate() that changes the state of a module depending on its variation
//
// That the effective variation of module B when depended on by module A is the
// composition the outgoing transition of module A and the incoming transition
// of module B.
//
// The outgoing transition should not take the properties of the dependency into
// account, only those of the module that depends on it. For this reason, the
// dependency is not even passed into it as an argument. Likewise, the incoming
// transition should not take the properties of the depending module into
// account and is thus not informed about it. This makes for a nice
// decomposition of the decision logic.
//
// A given transition mutator only affects its own variation; other variations
// stay unchanged along the dependency edges.
//
// Soong makes sure that all modules are created in the desired variations and
// that dependency edges are set up correctly. This ensures that "missing
// variation" errors do not happen and allows for more flexible changes in the
// value of the variation among dependency edges (as opposed to bottom-up
// mutators where if module A in variation X depends on module B and module B
// has that variation X, A must depend on variation X of B)
//
// The limited power of the context objects passed to individual mutators
// methods also makes it more difficult to shoot oneself in the foot. Complete
// safety is not guaranteed because no one prevents individual transition
// mutators from mutating modules in illegal ways and for e.g. Split() or
// Mutate() to run their own visitations of the transitive dependency of the
// module and both of these are bad ideas, but it's better than no guardrails at
// all.
//
// This model is pretty close to Bazel's configuration transitions. The mapping
// between concepts in Soong and Bazel is as follows:
// - Module == configured target
// - Variant == configuration
// - Variation name == configuration flag
// - Variation == configuration flag value
// - Outgoing transition == attribute transition
// - Incoming transition == rule transition
//
// The Split() method does not have a Bazel equivalent and Bazel split
// transitions do not have a Soong equivalent.
//
// Mutate() does not make sense in Bazel due to the different models of the
// two systems: when creating new variations, Soong clones the old module and
// thus some way is needed to change it state whereas Bazel creates each
// configuration of a given configured target anew.
type TransitionMutator interface {
// Split returns the set of variations that should be created for a module no matter
// who depends on it. Used when Make depends on a particular variation or when
// the module knows its variations just based on information given to it in
// the Blueprint file. This method should not mutate the module it is called
// on.
Split(ctx BaseModuleContext) []string
// OutgoingTransition is called on a module to determine which variation it wants
// from its direct dependencies. The dependency itself can override this decision.
// This method should not mutate the module itself.
OutgoingTransition(ctx OutgoingTransitionContext, sourceVariation string) string
// IncomingTransition is called on a module to determine which variation it should
// be in based on the variation modules that depend on it want. This gives the module
// a final say about its own variations. This method should not mutate the module
// itself.
IncomingTransition(ctx IncomingTransitionContext, incomingVariation string) string
// Mutate is called after a module was split into multiple variations on each
// variation. It should not split the module any further but adding new dependencies
// is fine. Unlike all the other methods on TransitionMutator, this method is
// allowed to mutate the module.
Mutate(ctx BottomUpMutatorContext, variation string)
}
type IncomingTransitionContext interface {
// Module returns the target of the dependency edge for which the transition
// is being computed
Module() Module
// Config returns the config object that was passed to
// Context.PrepareBuildActions.
Config() interface{}
// Provider returns the value for a provider for the target of the dependency edge for which the
// transition is being computed. If the value is not set it returns nil and false. It panics if
// called before the appropriate mutator or GenerateBuildActions pass for the provider. The value
// returned may be a deep copy of the value originally passed to SetProvider.
//
// This method shouldn't be used directly, prefer the type-safe android.ModuleProvider instead.
Provider(provider AnyProviderKey) (any, bool)
}
type OutgoingTransitionContext interface {
// Module returns the source of the dependency edge for which the transition
// is being computed
Module() Module
// DepTag() Returns the dependency tag through which this dependency is
// reached
DepTag() DependencyTag
// Config returns the config object that was passed to
// Context.PrepareBuildActions.
Config() interface{}
// Provider returns the value for a provider for the source of the dependency edge for which the
// transition is being computed. If the value is not set it returns nil and false. It panics if
// called before the appropriate mutator or GenerateBuildActions pass for the provider. The value
// returned may be a deep copy of the value originally passed to SetProvider.
//
// This method shouldn't be used directly, prefer the type-safe android.ModuleProvider instead.
Provider(provider AnyProviderKey) (any, bool)
}
type transitionMutatorImpl struct {
name string
mutator TransitionMutator
inputVariants map[*moduleGroup][]*moduleInfo
}
// Adds each argument in items to l if it's not already there.
func addToStringListIfNotPresent(l []string, items ...string) []string {
for _, i := range items {
if !slices.Contains(l, i) {
l = append(l, i)
}
}
return l
}
func (t *transitionMutatorImpl) addRequiredVariation(m *moduleInfo, variation string) {
m.requiredVariationsLock.Lock()
defer m.requiredVariationsLock.Unlock()
// This is only a consistency check. Leaking the variations of a transition
// mutator to another one could well lead to issues that are difficult to
// track down.
if m.currentTransitionMutator != "" && m.currentTransitionMutator != t.name {
panic(fmt.Errorf("transition mutator is %s in mutator %s", m.currentTransitionMutator, t.name))
}
m.currentTransitionMutator = t.name
m.transitionVariations = addToStringListIfNotPresent(m.transitionVariations, variation)
}
func (t *transitionMutatorImpl) topDownMutator(mctx TopDownMutatorContext) {
module := mctx.(*mutatorContext).module
mutatorSplits := t.mutator.Split(mctx)
if mutatorSplits == nil || len(mutatorSplits) == 0 {
panic(fmt.Errorf("transition mutator %s returned no splits for module %s", t.name, mctx.ModuleName()))
}
// transitionVariations for given a module can be mutated by the module itself
// and modules that directly depend on it. Since this is a top-down mutator,
// all modules that directly depend on this module have already been processed
// so no locking is necessary.
module.transitionVariations = addToStringListIfNotPresent(module.transitionVariations, mutatorSplits...)
sort.Strings(module.transitionVariations)
outgoingTransitionCache := make([][]string, len(module.transitionVariations))
for srcVariationIndex, srcVariation := range module.transitionVariations {
srcVariationTransitionCache := make([]string, len(module.directDeps))
for depIndex, dep := range module.directDeps {
finalVariation := t.transition(mctx)(mctx.moduleInfo(), srcVariation, dep.module, dep.tag)
srcVariationTransitionCache[depIndex] = finalVariation
t.addRequiredVariation(dep.module, finalVariation)
}
outgoingTransitionCache[srcVariationIndex] = srcVariationTransitionCache
}
module.outgoingTransitionCache = outgoingTransitionCache
}
type transitionContextImpl struct {
context *Context
source *moduleInfo
dep *moduleInfo
depTag DependencyTag
config interface{}
}
func (c *transitionContextImpl) DepTag() DependencyTag {
return c.depTag
}
func (c *transitionContextImpl) Config() interface{} {
return c.config
}
type outgoingTransitionContextImpl struct {
transitionContextImpl
}
func (c *outgoingTransitionContextImpl) Module() Module {
return c.source.logicModule
}
func (c *outgoingTransitionContextImpl) Provider(provider AnyProviderKey) (any, bool) {
return c.context.provider(c.source, provider.provider())
}
type incomingTransitionContextImpl struct {
transitionContextImpl
}
func (c *incomingTransitionContextImpl) Module() Module {
return c.dep.logicModule
}
func (c *incomingTransitionContextImpl) Provider(provider AnyProviderKey) (any, bool) {
return c.context.provider(c.dep, provider.provider())
}
func (t *transitionMutatorImpl) transition(mctx BaseModuleContext) Transition {
return func(source *moduleInfo, sourceVariation string, dep *moduleInfo, depTag DependencyTag) string {
tc := transitionContextImpl{
context: mctx.base().context,
source: source,
dep: dep,
depTag: depTag,
config: mctx.Config(),
}
outgoingVariation := t.mutator.OutgoingTransition(&outgoingTransitionContextImpl{tc}, sourceVariation)
if mctx.Failed() {
return outgoingVariation
}
finalVariation := t.mutator.IncomingTransition(&incomingTransitionContextImpl{tc}, outgoingVariation)
return finalVariation
}
}
func (t *transitionMutatorImpl) bottomUpMutator(mctx BottomUpMutatorContext) {
mc := mctx.(*mutatorContext)
// Fetch and clean up transition mutator state. No locking needed since the
// only time interaction between multiple modules is required is during the
// computation of the variations required by a given module.
variations := mc.module.transitionVariations
outgoingTransitionCache := mc.module.outgoingTransitionCache
mc.module.transitionVariations = nil
mc.module.outgoingTransitionCache = nil
mc.module.currentTransitionMutator = ""
if len(variations) < 1 {
panic(fmt.Errorf("no variations found for module %s by mutator %s",
mctx.ModuleName(), t.name))
}
if len(variations) == 1 && variations[0] == "" {
// Module is not split, just apply the transition
mc.context.convertDepsToVariation(mc.module, 0,
chooseDepByIndexes(mc.mutator.name, outgoingTransitionCache))
} else {
mc.createVariationsWithTransition(variations, outgoingTransitionCache)
}
}
func (t *transitionMutatorImpl) mutateMutator(mctx BottomUpMutatorContext) {
module := mctx.(*mutatorContext).module
currentVariation := module.variant.variations[t.name]
t.mutator.Mutate(mctx, currentVariation)
}
func (c *Context) RegisterTransitionMutator(name string, mutator TransitionMutator) {
impl := &transitionMutatorImpl{name: name, mutator: mutator}
c.RegisterTopDownMutator(name+"_propagate", impl.topDownMutator).Parallel()
c.RegisterBottomUpMutator(name, impl.bottomUpMutator).Parallel().setTransitionMutator(impl)
c.RegisterBottomUpMutator(name+"_mutate", impl.mutateMutator).Parallel()
}
// This function is called for every dependency edge to determine which
// variation of the dependency is needed. Its inputs are the depending module,
// its variation, the dependency and the dependency tag.
type Transition func(source *moduleInfo, sourceVariation string, dep *moduleInfo, depTag DependencyTag) string