platform_build_blueprint/package_ctx.go
Colin Cross e0e473efb4 Add NewBuiltinRule and NewBuiltinPool
Allow Blueprint build statements and rules to reference rules and pools
defined outside of Blueprint.

Change-Id: I48644497d16a4c2bab88db400dbe7f7fe169d933
2016-08-29 15:12:33 -07:00

882 lines
24 KiB
Go

// Copyright 2014 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 (
"errors"
"fmt"
"reflect"
"runtime"
"strings"
"sync"
)
// A PackageContext provides a way to create package-scoped Ninja pools,
// rules, and variables. A Go package should create a single unexported
// package-scoped PackageContext variable that it uses to create all package-
// scoped Ninja object definitions. This PackageContext object should then be
// passed to all calls to define module- or singleton-specific Ninja
// definitions. For example:
//
// package blah
//
// import (
// "blueprint"
// )
//
// var (
// pctx = NewPackageContext("path/to/blah")
//
// myPrivateVar = pctx.StaticVariable("myPrivateVar", "abcdef")
// MyExportedVar = pctx.StaticVariable("MyExportedVar", "$myPrivateVar 123456!")
//
// SomeRule = pctx.StaticRule(...)
// )
//
// // ...
//
// func (m *MyModule) GenerateBuildActions(ctx blueprint.Module) {
// ctx.Build(pctx, blueprint.BuildParams{
// Rule: SomeRule,
// Outputs: []string{"$myPrivateVar"},
// })
// }
type PackageContext interface {
Import(pkgPath string)
ImportAs(as, pkgPath string)
StaticVariable(name, value string) Variable
VariableFunc(name string, f func(config interface{}) (string, error)) Variable
VariableConfigMethod(name string, method interface{}) Variable
StaticPool(name string, params PoolParams) Pool
PoolFunc(name string, f func(interface{}) (PoolParams, error)) Pool
StaticRule(name string, params RuleParams, argNames ...string) Rule
RuleFunc(name string, f func(interface{}) (RuleParams, error), argNames ...string) Rule
AddNinjaFileDeps(deps ...string)
getScope() *basicScope
}
type packageContext struct {
fullName string
shortName string
pkgPath string
scope *basicScope
ninjaFileDeps []string
}
var _ PackageContext = &packageContext{}
func (p *packageContext) getScope() *basicScope {
return p.scope
}
var packageContexts = map[string]*packageContext{}
// NewPackageContext creates a PackageContext object for a given package. The
// pkgPath argument should always be set to the full path used to import the
// package. This function may only be called from a Go package's init()
// function or as part of a package-scoped variable initialization.
func NewPackageContext(pkgPath string) PackageContext {
checkCalledFromInit()
if _, present := packageContexts[pkgPath]; present {
panic(fmt.Errorf("package %q already has a package context", pkgPath))
}
pkgName := pkgPathToName(pkgPath)
err := validateNinjaName(pkgName)
if err != nil {
panic(err)
}
i := strings.LastIndex(pkgPath, "/")
shortName := pkgPath[i+1:]
p := &packageContext{
fullName: pkgName,
shortName: shortName,
pkgPath: pkgPath,
scope: newScope(nil),
}
packageContexts[pkgPath] = p
return p
}
var Phony Rule = NewBuiltinRule("phony")
var Console Pool = NewBuiltinPool("console")
var errRuleIsBuiltin = errors.New("the rule is a built-in")
var errPoolIsBuiltin = errors.New("the pool is a built-in")
var errVariableIsArg = errors.New("argument variables have no value")
// checkCalledFromInit panics if a Go package's init function is not on the
// call stack.
func checkCalledFromInit() {
for skip := 3; ; skip++ {
_, funcName, ok := callerName(skip)
if !ok {
panic("not called from an init func")
}
if funcName == "init" || strings.HasPrefix(funcName, "init·") {
return
}
}
}
// callerName returns the package path and function name of the calling
// function. The skip argument has the same meaning as the skip argument of
// runtime.Callers.
func callerName(skip int) (pkgPath, funcName string, ok bool) {
var pc [1]uintptr
n := runtime.Callers(skip+1, pc[:])
if n != 1 {
return "", "", false
}
f := runtime.FuncForPC(pc[0])
fullName := f.Name()
lastDotIndex := strings.LastIndex(fullName, ".")
if lastDotIndex == -1 {
panic("unable to distinguish function name from package")
}
if fullName[lastDotIndex-1] == ')' {
// The caller is a method on some type, so it's name looks like
// "pkg/path.(type).method". We need to go back one dot farther to get
// to the package name.
lastDotIndex = strings.LastIndex(fullName[:lastDotIndex], ".")
}
pkgPath = fullName[:lastDotIndex]
funcName = fullName[lastDotIndex+1:]
ok = true
return
}
// pkgPathToName makes a Ninja-friendly name out of a Go package name by
// replaceing all the '/' characters with '.'. We assume the results are
// unique, though this is not 100% guaranteed for Go package names that
// already contain '.' characters. Disallowing package names with '.' isn't
// reasonable since many package names contain the name of the hosting site
// (e.g. "code.google.com"). In practice this probably isn't really a
// problem.
func pkgPathToName(pkgPath string) string {
return strings.Replace(pkgPath, "/", ".", -1)
}
// Import enables access to the exported Ninja pools, rules, and variables
// that are defined at the package scope of another Go package. Go's
// visibility rules apply to these references - capitalized names indicate
// that something is exported. It may only be called from a Go package's
// init() function. The Go package path passed to Import must have already
// been imported into the Go package using a Go import statement. The
// imported variables may then be accessed from Ninja strings as
// "${pkg.Variable}", while the imported rules can simply be accessed as
// exported Go variables from the package. For example:
//
// import (
// "blueprint"
// "foo/bar"
// )
//
// var pctx = NewPackagePath("blah")
//
// func init() {
// pctx.Import("foo/bar")
// }
//
// ...
//
// func (m *MyModule) GenerateBuildActions(ctx blueprint.Module) {
// ctx.Build(pctx, blueprint.BuildParams{
// Rule: bar.SomeRule,
// Outputs: []string{"${bar.SomeVariable}"},
// })
// }
//
// Note that the local name used to refer to the package in Ninja variable names
// is derived from pkgPath by extracting the last path component. This differs
// from Go's import declaration, which derives the local name from the package
// clause in the imported package. By convention these names are made to match,
// but this is not required.
func (p *packageContext) Import(pkgPath string) {
checkCalledFromInit()
importPkg, ok := packageContexts[pkgPath]
if !ok {
panic(fmt.Errorf("package %q has no context", pkgPath))
}
err := p.scope.AddImport(importPkg.shortName, importPkg.scope)
if err != nil {
panic(err)
}
}
// ImportAs provides the same functionality as Import, but it allows the local
// name that will be used to refer to the package to be specified explicitly.
// It may only be called from a Go package's init() function.
func (p *packageContext) ImportAs(as, pkgPath string) {
checkCalledFromInit()
importPkg, ok := packageContexts[pkgPath]
if !ok {
panic(fmt.Errorf("package %q has no context", pkgPath))
}
err := validateNinjaName(as)
if err != nil {
panic(err)
}
err = p.scope.AddImport(as, importPkg.scope)
if err != nil {
panic(err)
}
}
type staticVariable struct {
pctx *packageContext
name_ string
value_ string
}
// StaticVariable returns a Variable whose value does not depend on any
// configuration information. It may only be called during a Go package's
// initialization - either from the init() function or as part of a package-
// scoped variable's initialization.
//
// This function is usually used to initialize a package-scoped Go variable that
// represents a Ninja variable that will be output. The name argument should
// exactly match the Go variable name, and the value string may reference other
// Ninja variables that are visible within the calling Go package.
func (p *packageContext) StaticVariable(name, value string) Variable {
checkCalledFromInit()
err := validateNinjaName(name)
if err != nil {
panic(err)
}
v := &staticVariable{p, name, value}
err = p.scope.AddVariable(v)
if err != nil {
panic(err)
}
return v
}
func (v *staticVariable) packageContext() *packageContext {
return v.pctx
}
func (v *staticVariable) name() string {
return v.name_
}
func (v *staticVariable) fullName(pkgNames map[*packageContext]string) string {
return packageNamespacePrefix(pkgNames[v.pctx]) + v.name_
}
func (v *staticVariable) value(interface{}) (*ninjaString, error) {
ninjaStr, err := parseNinjaString(v.pctx.scope, v.value_)
if err != nil {
err = fmt.Errorf("error parsing variable %s value: %s", v, err)
panic(err)
}
return ninjaStr, nil
}
func (v *staticVariable) String() string {
return v.pctx.pkgPath + "." + v.name_
}
type variableFunc struct {
pctx *packageContext
name_ string
value_ func(interface{}) (string, error)
}
// VariableFunc returns a Variable whose value is determined by a function that
// takes a config object as input and returns either the variable value or an
// error. It may only be called during a Go package's initialization - either
// from the init() function or as part of a package-scoped variable's
// initialization.
//
// This function is usually used to initialize a package-scoped Go variable that
// represents a Ninja variable that will be output. The name argument should
// exactly match the Go variable name, and the value string returned by f may
// reference other Ninja variables that are visible within the calling Go
// package.
func (p *packageContext) VariableFunc(name string,
f func(config interface{}) (string, error)) Variable {
checkCalledFromInit()
err := validateNinjaName(name)
if err != nil {
panic(err)
}
v := &variableFunc{p, name, f}
err = p.scope.AddVariable(v)
if err != nil {
panic(err)
}
return v
}
// VariableConfigMethod returns a Variable whose value is determined by calling
// a method on the config object. The method must take no arguments and return
// a single string that will be the variable's value. It may only be called
// during a Go package's initialization - either from the init() function or as
// part of a package-scoped variable's initialization.
//
// This function is usually used to initialize a package-scoped Go variable that
// represents a Ninja variable that will be output. The name argument should
// exactly match the Go variable name, and the value string returned by method
// may reference other Ninja variables that are visible within the calling Go
// package.
func (p *packageContext) VariableConfigMethod(name string,
method interface{}) Variable {
checkCalledFromInit()
err := validateNinjaName(name)
if err != nil {
panic(err)
}
methodValue := reflect.ValueOf(method)
validateVariableMethod(name, methodValue)
fun := func(config interface{}) (string, error) {
result := methodValue.Call([]reflect.Value{reflect.ValueOf(config)})
resultStr := result[0].Interface().(string)
return resultStr, nil
}
v := &variableFunc{p, name, fun}
err = p.scope.AddVariable(v)
if err != nil {
panic(err)
}
return v
}
func (v *variableFunc) packageContext() *packageContext {
return v.pctx
}
func (v *variableFunc) name() string {
return v.name_
}
func (v *variableFunc) fullName(pkgNames map[*packageContext]string) string {
return packageNamespacePrefix(pkgNames[v.pctx]) + v.name_
}
func (v *variableFunc) value(config interface{}) (*ninjaString, error) {
value, err := v.value_(config)
if err != nil {
return nil, err
}
ninjaStr, err := parseNinjaString(v.pctx.scope, value)
if err != nil {
err = fmt.Errorf("error parsing variable %s value: %s", v, err)
panic(err)
}
return ninjaStr, nil
}
func (v *variableFunc) String() string {
return v.pctx.pkgPath + "." + v.name_
}
func validateVariableMethod(name string, methodValue reflect.Value) {
methodType := methodValue.Type()
if methodType.Kind() != reflect.Func {
panic(fmt.Errorf("method given for variable %s is not a function",
name))
}
if n := methodType.NumIn(); n != 1 {
panic(fmt.Errorf("method for variable %s has %d inputs (should be 1)",
name, n))
}
if n := methodType.NumOut(); n != 1 {
panic(fmt.Errorf("method for variable %s has %d outputs (should be 1)",
name, n))
}
if kind := methodType.Out(0).Kind(); kind != reflect.String {
panic(fmt.Errorf("method for variable %s does not return a string",
name))
}
}
// An argVariable is a Variable that exists only when it is set by a build
// statement to pass a value to the rule being invoked. It has no value, so it
// can never be used to create a Ninja assignment statement. It is inserted
// into the rule's scope, which is used for name lookups within the rule and
// when assigning argument values as part of a build statement.
type argVariable struct {
name_ string
}
func (v *argVariable) packageContext() *packageContext {
panic("this should not be called")
}
func (v *argVariable) name() string {
return v.name_
}
func (v *argVariable) fullName(pkgNames map[*packageContext]string) string {
return v.name_
}
func (v *argVariable) value(config interface{}) (*ninjaString, error) {
return nil, errVariableIsArg
}
func (v *argVariable) String() string {
return "<arg>:" + v.name_
}
type staticPool struct {
pctx *packageContext
name_ string
params PoolParams
}
// StaticPool returns a Pool whose value does not depend on any configuration
// information. It may only be called during a Go package's initialization -
// either from the init() function or as part of a package-scoped Go variable's
// initialization.
//
// This function is usually used to initialize a package-scoped Go variable that
// represents a Ninja pool that will be output. The name argument should
// exactly match the Go variable name, and the params fields may reference other
// Ninja variables that are visible within the calling Go package.
func (p *packageContext) StaticPool(name string, params PoolParams) Pool {
checkCalledFromInit()
err := validateNinjaName(name)
if err != nil {
panic(err)
}
pool := &staticPool{p, name, params}
err = p.scope.AddPool(pool)
if err != nil {
panic(err)
}
return pool
}
func (p *staticPool) packageContext() *packageContext {
return p.pctx
}
func (p *staticPool) name() string {
return p.name_
}
func (p *staticPool) fullName(pkgNames map[*packageContext]string) string {
return packageNamespacePrefix(pkgNames[p.pctx]) + p.name_
}
func (p *staticPool) def(config interface{}) (*poolDef, error) {
def, err := parsePoolParams(p.pctx.scope, &p.params)
if err != nil {
panic(fmt.Errorf("error parsing PoolParams for %s: %s", p, err))
}
return def, nil
}
func (p *staticPool) String() string {
return p.pctx.pkgPath + "." + p.name_
}
type poolFunc struct {
pctx *packageContext
name_ string
paramsFunc func(interface{}) (PoolParams, error)
}
// PoolFunc returns a Pool whose value is determined by a function that takes a
// config object as input and returns either the pool parameters or an error. It
// may only be called during a Go package's initialization - either from the
// init() function or as part of a package-scoped variable's initialization.
//
// This function is usually used to initialize a package-scoped Go variable that
// represents a Ninja pool that will be output. The name argument should
// exactly match the Go variable name, and the string fields of the PoolParams
// returned by f may reference other Ninja variables that are visible within the
// calling Go package.
func (p *packageContext) PoolFunc(name string, f func(interface{}) (PoolParams,
error)) Pool {
checkCalledFromInit()
err := validateNinjaName(name)
if err != nil {
panic(err)
}
pool := &poolFunc{p, name, f}
err = p.scope.AddPool(pool)
if err != nil {
panic(err)
}
return pool
}
func (p *poolFunc) packageContext() *packageContext {
return p.pctx
}
func (p *poolFunc) name() string {
return p.name_
}
func (p *poolFunc) fullName(pkgNames map[*packageContext]string) string {
return packageNamespacePrefix(pkgNames[p.pctx]) + p.name_
}
func (p *poolFunc) def(config interface{}) (*poolDef, error) {
params, err := p.paramsFunc(config)
if err != nil {
return nil, err
}
def, err := parsePoolParams(p.pctx.scope, &params)
if err != nil {
panic(fmt.Errorf("error parsing PoolParams for %s: %s", p, err))
}
return def, nil
}
func (p *poolFunc) String() string {
return p.pctx.pkgPath + "." + p.name_
}
type builtinPool struct {
name_ string
}
func (p *builtinPool) packageContext() *packageContext {
return nil
}
func (p *builtinPool) name() string {
return p.name_
}
func (p *builtinPool) fullName(pkgNames map[*packageContext]string) string {
return p.name_
}
func (p *builtinPool) def(config interface{}) (*poolDef, error) {
return nil, errPoolIsBuiltin
}
// NewBuiltinPool returns a Pool object that refers to a pool name created outside of Blueprint
func NewBuiltinPool(name string) Pool {
return &builtinPool{
name_: name,
}
}
func (p *builtinPool) String() string {
return "<builtin>:" + p.name_
}
type staticRule struct {
pctx *packageContext
name_ string
params RuleParams
argNames map[string]bool
scope_ *basicScope
sync.Mutex // protects scope_ during lazy creation
}
// StaticRule returns a Rule whose value does not depend on any configuration
// information. It may only be called during a Go package's initialization -
// either from the init() function or as part of a package-scoped Go variable's
// initialization.
//
// This function is usually used to initialize a package-scoped Go variable that
// represents a Ninja rule that will be output. The name argument should
// exactly match the Go variable name, and the params fields may reference other
// Ninja variables that are visible within the calling Go package.
//
// The argNames arguments list Ninja variables that may be overridden by Ninja
// build statements that invoke the rule. These arguments may be referenced in
// any of the string fields of params. Arguments can shadow package-scoped
// variables defined within the caller's Go package, but they may not shadow
// those defined in another package. Shadowing a package-scoped variable
// results in the package-scoped variable's value being used for build
// statements that do not override the argument. For argument names that do not
// shadow package-scoped variables the default value is an empty string.
func (p *packageContext) StaticRule(name string, params RuleParams,
argNames ...string) Rule {
checkCalledFromInit()
err := validateNinjaName(name)
if err != nil {
panic(err)
}
err = validateArgNames(argNames)
if err != nil {
panic(fmt.Errorf("invalid argument name: %s", err))
}
argNamesSet := make(map[string]bool)
for _, argName := range argNames {
argNamesSet[argName] = true
}
ruleScope := (*basicScope)(nil) // This will get created lazily
r := &staticRule{
pctx: p,
name_: name,
params: params,
argNames: argNamesSet,
scope_: ruleScope,
}
err = p.scope.AddRule(r)
if err != nil {
panic(err)
}
return r
}
func (r *staticRule) packageContext() *packageContext {
return r.pctx
}
func (r *staticRule) name() string {
return r.name_
}
func (r *staticRule) fullName(pkgNames map[*packageContext]string) string {
return packageNamespacePrefix(pkgNames[r.pctx]) + r.name_
}
func (r *staticRule) def(interface{}) (*ruleDef, error) {
def, err := parseRuleParams(r.scope(), &r.params)
if err != nil {
panic(fmt.Errorf("error parsing RuleParams for %s: %s", r, err))
}
return def, nil
}
func (r *staticRule) scope() *basicScope {
// We lazily create the scope so that all the package-scoped variables get
// declared before the args are created. Otherwise we could incorrectly
// shadow a package-scoped variable with an arg variable.
r.Lock()
defer r.Unlock()
if r.scope_ == nil {
r.scope_ = makeRuleScope(r.pctx.scope, r.argNames)
}
return r.scope_
}
func (r *staticRule) isArg(argName string) bool {
return r.argNames[argName]
}
func (r *staticRule) String() string {
return r.pctx.pkgPath + "." + r.name_
}
type ruleFunc struct {
pctx *packageContext
name_ string
paramsFunc func(interface{}) (RuleParams, error)
argNames map[string]bool
scope_ *basicScope
sync.Mutex // protects scope_ during lazy creation
}
// RuleFunc returns a Rule whose value is determined by a function that takes a
// config object as input and returns either the rule parameters or an error. It
// may only be called during a Go package's initialization - either from the
// init() function or as part of a package-scoped variable's initialization.
//
// This function is usually used to initialize a package-scoped Go variable that
// represents a Ninja rule that will be output. The name argument should
// exactly match the Go variable name, and the string fields of the RuleParams
// returned by f may reference other Ninja variables that are visible within the
// calling Go package.
//
// The argNames arguments list Ninja variables that may be overridden by Ninja
// build statements that invoke the rule. These arguments may be referenced in
// any of the string fields of the RuleParams returned by f. Arguments can
// shadow package-scoped variables defined within the caller's Go package, but
// they may not shadow those defined in another package. Shadowing a package-
// scoped variable results in the package-scoped variable's value being used for
// build statements that do not override the argument. For argument names that
// do not shadow package-scoped variables the default value is an empty string.
func (p *packageContext) RuleFunc(name string, f func(interface{}) (RuleParams,
error), argNames ...string) Rule {
checkCalledFromInit()
err := validateNinjaName(name)
if err != nil {
panic(err)
}
err = validateArgNames(argNames)
if err != nil {
panic(fmt.Errorf("invalid argument name: %s", err))
}
argNamesSet := make(map[string]bool)
for _, argName := range argNames {
argNamesSet[argName] = true
}
ruleScope := (*basicScope)(nil) // This will get created lazily
rule := &ruleFunc{
pctx: p,
name_: name,
paramsFunc: f,
argNames: argNamesSet,
scope_: ruleScope,
}
err = p.scope.AddRule(rule)
if err != nil {
panic(err)
}
return rule
}
func (r *ruleFunc) packageContext() *packageContext {
return r.pctx
}
func (r *ruleFunc) name() string {
return r.name_
}
func (r *ruleFunc) fullName(pkgNames map[*packageContext]string) string {
return packageNamespacePrefix(pkgNames[r.pctx]) + r.name_
}
func (r *ruleFunc) def(config interface{}) (*ruleDef, error) {
params, err := r.paramsFunc(config)
if err != nil {
return nil, err
}
def, err := parseRuleParams(r.scope(), &params)
if err != nil {
panic(fmt.Errorf("error parsing RuleParams for %s: %s", r, err))
}
return def, nil
}
func (r *ruleFunc) scope() *basicScope {
// We lazily create the scope so that all the global variables get declared
// before the args are created. Otherwise we could incorrectly shadow a
// global variable with an arg variable.
r.Lock()
defer r.Unlock()
if r.scope_ == nil {
r.scope_ = makeRuleScope(r.pctx.scope, r.argNames)
}
return r.scope_
}
func (r *ruleFunc) isArg(argName string) bool {
return r.argNames[argName]
}
func (r *ruleFunc) String() string {
return r.pctx.pkgPath + "." + r.name_
}
type builtinRule struct {
name_ string
scope_ *basicScope
sync.Mutex // protects scope_ during lazy creation
}
func (r *builtinRule) packageContext() *packageContext {
return nil
}
func (r *builtinRule) name() string {
return r.name_
}
func (r *builtinRule) fullName(pkgNames map[*packageContext]string) string {
return r.name_
}
func (r *builtinRule) def(config interface{}) (*ruleDef, error) {
return nil, errRuleIsBuiltin
}
func (r *builtinRule) scope() *basicScope {
r.Lock()
defer r.Unlock()
if r.scope_ == nil {
r.scope_ = makeRuleScope(nil, nil)
}
return r.scope_
}
func (r *builtinRule) isArg(argName string) bool {
return false
}
func (r *builtinRule) String() string {
return "<builtin>:" + r.name_
}
// NewBuiltinRule returns a Rule object that refers to a rule that was created outside of Blueprint
func NewBuiltinRule(name string) Rule {
return &builtinRule{
name_: name,
}
}
func (p *packageContext) AddNinjaFileDeps(deps ...string) {
p.ninjaFileDeps = append(p.ninjaFileDeps, deps...)
}