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// Copyright 2022 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 android
import (
"encoding/json"
"errors"
"fmt"
"path/filepath"
"strings"
)
// The ConfiguredJarList struct provides methods for handling a list of (apex, jar) pairs.
// Such lists are used in the build system for things like bootclasspath jars or system server jars.
// The apex part is either an apex name, or a special names "platform" or "system_ext". Jar is a
// module name. The pairs come from Make product variables as a list of colon-separated strings.
//
// Examples:
// - "com.android.art:core-oj"
// - "platform:framework"
// - "system_ext:foo"
type ConfiguredJarList struct {
// A list of apex components, which can be an apex name,
// or special names like "platform" or "system_ext".
apexes []string
// A list of jar module name components.
jars []string
}
// Len returns the length of the list of jars.
func (l *ConfiguredJarList) Len() int {
return len(l.jars)
}
// Jar returns the idx-th jar component of (apex, jar) pairs.
func (l *ConfiguredJarList) Jar(idx int) string {
return l.jars[idx]
}
// Apex returns the idx-th apex component of (apex, jar) pairs.
func (l *ConfiguredJarList) Apex(idx int) string {
return l.apexes[idx]
}
// ContainsJar returns true if the (apex, jar) pairs contains a pair with the
// given jar module name.
func (l *ConfiguredJarList) ContainsJar(jar string) bool {
return InList(jar, l.jars)
}
// If the list contains the given (apex, jar) pair.
func (l *ConfiguredJarList) containsApexJarPair(apex, jar string) bool {
for i := 0; i < l.Len(); i++ {
if apex == l.apexes[i] && jar == l.jars[i] {
return true
}
}
return false
}
// ApexOfJar returns the apex component of the first pair with the given jar name on the list, or
// an empty string if not found.
func (l *ConfiguredJarList) ApexOfJar(jar string) string {
if idx := IndexList(jar, l.jars); idx != -1 {
return l.Apex(IndexList(jar, l.jars))
}
return ""
}
// IndexOfJar returns the first pair with the given jar name on the list, or -1
// if not found.
func (l *ConfiguredJarList) IndexOfJar(jar string) int {
return IndexList(jar, l.jars)
}
func copyAndAppend(list []string, item string) []string {
// Create the result list to be 1 longer than the input.
result := make([]string, len(list)+1)
// Copy the whole input list into the result.
count := copy(result, list)
// Insert the extra item at the end.
result[count] = item
return result
}
// Append an (apex, jar) pair to the list.
func (l *ConfiguredJarList) Append(apex string, jar string) ConfiguredJarList {
// Create a copy of the backing arrays before appending to avoid sharing backing
// arrays that are mutated across instances.
apexes := copyAndAppend(l.apexes, apex)
jars := copyAndAppend(l.jars, jar)
return ConfiguredJarList{apexes, jars}
}
// Append a list of (apex, jar) pairs to the list.
func (l *ConfiguredJarList) AppendList(other *ConfiguredJarList) ConfiguredJarList {
apexes := make([]string, 0, l.Len()+other.Len())
jars := make([]string, 0, l.Len()+other.Len())
apexes = append(apexes, l.apexes...)
jars = append(jars, l.jars...)
apexes = append(apexes, other.apexes...)
jars = append(jars, other.jars...)
return ConfiguredJarList{apexes, jars}
}
// RemoveList filters out a list of (apex, jar) pairs from the receiving list of pairs.
func (l *ConfiguredJarList) RemoveList(list ConfiguredJarList) ConfiguredJarList {
apexes := make([]string, 0, l.Len())
jars := make([]string, 0, l.Len())
for i, jar := range l.jars {
apex := l.apexes[i]
if !list.containsApexJarPair(apex, jar) {
apexes = append(apexes, apex)
jars = append(jars, jar)
}
}
return ConfiguredJarList{apexes, jars}
}
// Filter keeps the entries if a jar appears in the given list of jars to keep. Returns a new list
// and any remaining jars that are not on this list.
func (l *ConfiguredJarList) Filter(jarsToKeep []string) (ConfiguredJarList, []string) {
var apexes []string
var jars []string
for i, jar := range l.jars {
if InList(jar, jarsToKeep) {
apexes = append(apexes, l.apexes[i])
jars = append(jars, jar)
}
}
return ConfiguredJarList{apexes, jars}, RemoveListFromList(jarsToKeep, jars)
}
// CopyOfJars returns a copy of the list of strings containing jar module name
// components.
func (l *ConfiguredJarList) CopyOfJars() []string {
return CopyOf(l.jars)
}
// CopyOfApexJarPairs returns a copy of the list of strings with colon-separated
// (apex, jar) pairs.
func (l *ConfiguredJarList) CopyOfApexJarPairs() []string {
pairs := make([]string, 0, l.Len())
for i, jar := range l.jars {
apex := l.apexes[i]
pairs = append(pairs, apex+":"+jar)
}
return pairs
}
// BuildPaths returns a list of build paths based on the given directory prefix.
func (l *ConfiguredJarList) BuildPaths(ctx PathContext, dir OutputPath) WritablePaths {
paths := make(WritablePaths, l.Len())
for i, jar := range l.jars {
paths[i] = dir.Join(ctx, ModuleStem(ctx.Config(), l.Apex(i), jar)+".jar")
}
return paths
}
// BuildPathsByModule returns a map from module name to build paths based on the given directory
// prefix.
func (l *ConfiguredJarList) BuildPathsByModule(ctx PathContext, dir OutputPath) map[string]WritablePath {
paths := map[string]WritablePath{}
for i, jar := range l.jars {
paths[jar] = dir.Join(ctx, ModuleStem(ctx.Config(), l.Apex(i), jar)+".jar")
}
return paths
}
// UnmarshalJSON converts JSON configuration from raw bytes into a
// ConfiguredJarList structure.
func (l *ConfiguredJarList) UnmarshalJSON(b []byte) error {
// Try and unmarshal into a []string each item of which contains a pair
// <apex>:<jar>.
var list []string
err := json.Unmarshal(b, &list)
if err != nil {
// Did not work so return
return err
}
apexes, jars, err := splitListOfPairsIntoPairOfLists(list)
if err != nil {
return err
}
l.apexes = apexes
l.jars = jars
return nil
}
func (l *ConfiguredJarList) MarshalJSON() ([]byte, error) {
if len(l.apexes) != len(l.jars) {
return nil, errors.New(fmt.Sprintf("Inconsistent ConfiguredJarList: apexes: %q, jars: %q", l.apexes, l.jars))
}
list := make([]string, 0, len(l.apexes))
for i := 0; i < len(l.apexes); i++ {
list = append(list, l.apexes[i]+":"+l.jars[i])
}
return json.Marshal(list)
}
func OverrideConfiguredJarLocationFor(cfg Config, apex string, jar string) (newApex string, newJar string) {
for _, entry := range cfg.productVariables.ConfiguredJarLocationOverrides {
tuple := strings.Split(entry, ":")
if len(tuple) != 4 {
panic("malformed configured jar location override '%s', expected format: <old_apex>:<old_jar>:<new_apex>:<new_jar>")
}
if apex == tuple[0] && jar == tuple[1] {
return tuple[2], tuple[3]
}
}
return apex, jar
}
// ModuleStem returns the overridden jar name.
func ModuleStem(cfg Config, apex string, jar string) string {
_, newJar := OverrideConfiguredJarLocationFor(cfg, apex, jar)
return newJar
}
// DevicePaths computes the on-device paths for the list of (apex, jar) pairs,
// based on the operating system.
func (l *ConfiguredJarList) DevicePaths(cfg Config, ostype OsType) []string {
paths := make([]string, l.Len())
for i := 0; i < l.Len(); i++ {
apex, jar := OverrideConfiguredJarLocationFor(cfg, l.Apex(i), l.Jar(i))
name := jar + ".jar"
var subdir string
if apex == "platform" {
subdir = "system/framework"
} else if apex == "system_ext" {
subdir = "system_ext/framework"
} else {
subdir = filepath.Join("apex", apex, "javalib")
}
if ostype.Class == Host {
paths[i] = filepath.Join(cfg.Getenv("OUT_DIR"), "host", cfg.PrebuiltOS(), subdir, name)
} else {
paths[i] = filepath.Join("/", subdir, name)
}
}
return paths
}
func (l *ConfiguredJarList) String() string {
var pairs []string
for i := 0; i < l.Len(); i++ {
pairs = append(pairs, l.apexes[i]+":"+l.jars[i])
}
return strings.Join(pairs, ",")
}
func splitListOfPairsIntoPairOfLists(list []string) ([]string, []string, error) {
// Now we need to populate this list by splitting each item in the slice of
// pairs and appending them to the appropriate list of apexes or jars.
apexes := make([]string, len(list))
jars := make([]string, len(list))
for i, apexjar := range list {
apex, jar, err := splitConfiguredJarPair(apexjar)
if err != nil {
return nil, nil, err
}
apexes[i] = apex
jars[i] = jar
}
return apexes, jars, nil
}
// Expected format for apexJarValue = <apex name>:<jar name>
func splitConfiguredJarPair(str string) (string, string, error) {
pair := strings.SplitN(str, ":", 2)
if len(pair) == 2 {
apex := pair[0]
jar := pair[1]
if apex == "" {
return apex, jar, fmt.Errorf("invalid apex '%s' in <apex>:<jar> pair '%s', expected format: <apex>:<jar>", apex, str)
}
return apex, jar, nil
} else {
return "error-apex", "error-jar", fmt.Errorf("malformed (apex, jar) pair: '%s', expected format: <apex>:<jar>", str)
}
}
// EmptyConfiguredJarList returns an empty jar list.
func EmptyConfiguredJarList() ConfiguredJarList {
return ConfiguredJarList{}
}
// IsConfiguredJarForPlatform returns true if the given apex name is a special name for the platform.
func IsConfiguredJarForPlatform(apex string) bool {
return apex == "platform" || apex == "system_ext"
}
var earlyBootJarsKey = NewOnceKey("earlyBootJars")