blob: be46fc0edfbe268a1dec40c8a1976dd9f12fc460 [file] [log] [blame] [edit]
package cc
import (
"fmt"
"sort"
"strings"
"github.com/google/blueprint/proptools"
"android/soong/android"
)
func init() {
android.RegisterSingletonType("cflag_artifacts_text", cflagArtifactsTextFactory)
}
var (
TrackedCFlags = []string{
"-Wall",
"-Werror",
"-Wextra",
"-Wthread-safety",
"-O3",
}
TrackedCFlagsDir = []string{
"device/google/",
"vendor/google/",
}
)
const FileBP = 50
// Stores output files.
type cflagArtifactsText struct {
interOutputs map[string]android.WritablePaths
outputs android.WritablePaths
}
// allowedDir verifies if the directory/project is part of the TrackedCFlagsDir
// filter.
func allowedDir(subdir string) bool {
subdir += "/"
return android.HasAnyPrefix(subdir, TrackedCFlagsDir)
}
func (s *cflagArtifactsText) genFlagFilename(flag string) string {
return fmt.Sprintf("module_cflags%s.txt", flag)
}
// incrementFile is used to generate an output path object with the passed in flag
// and part number.
// e.g. FLAG + part # -> out/soong/cflags/module_cflags-FLAG.txt.0
func (s *cflagArtifactsText) incrementFile(ctx android.SingletonContext,
flag string, part int) (string, android.OutputPath) {
filename := fmt.Sprintf("%s.%d", s.genFlagFilename(flag), part)
filepath := android.PathForOutput(ctx, "cflags", filename)
s.interOutputs[flag] = append(s.interOutputs[flag], filepath)
return filename, filepath
}
// GenCFlagArtifactParts is used to generate the build rules which produce the
// intermediary files for each desired C Flag artifact
// e.g. module_cflags-FLAG.txt.0, module_cflags-FLAG.txt.1, ...
func (s *cflagArtifactsText) GenCFlagArtifactParts(ctx android.SingletonContext,
flag string, using bool, modules []string, part int) int {
cleanedName := strings.Replace(flag, "=", "_", -1)
filename, filepath := s.incrementFile(ctx, cleanedName, part)
rule := android.NewRuleBuilder(pctx, ctx)
rule.Command().Textf("rm -f %s", filepath.String())
if using {
rule.Command().
Textf("echo '# Modules using %s'", flag).
FlagWithOutput(">> ", filepath)
} else {
rule.Command().
Textf("echo '# Modules not using %s'", flag).
FlagWithOutput(">> ", filepath)
}
length := len(modules)
if length == 0 {
rule.Build(filename, "gen "+filename)
part++
}
// Following loop splits the module list for each tracked C Flag into
// chunks of length FileBP (file breakpoint) and generates a partial artifact
// (intermediary file) build rule for each split.
moduleShards := android.ShardStrings(modules, FileBP)
for index, shard := range moduleShards {
rule.Command().
Textf("for m in %s; do echo $m",
strings.Join(proptools.ShellEscapeList(shard), " ")).
FlagWithOutput(">> ", filepath).
Text("; done")
rule.Build(filename, "gen "+filename)
if index+1 != len(moduleShards) {
filename, filepath = s.incrementFile(ctx, cleanedName, part+index+1)
rule = android.NewRuleBuilder(pctx, ctx)
rule.Command().Textf("rm -f %s", filepath.String())
}
}
return part + len(moduleShards)
}
// GenCFlagArtifacts is used to generate build rules which combine the
// intermediary files of a specific tracked flag into a single C Flag artifact
// for each tracked flag.
// e.g. module_cflags-FLAG.txt.0 + module_cflags-FLAG.txt.1 = module_cflags-FLAG.txt
func (s *cflagArtifactsText) GenCFlagArtifacts(ctx android.SingletonContext) {
// Scans through s.interOutputs and creates a build rule for each tracked C
// Flag that concatenates the associated intermediary file into a single
// artifact.
for _, flag := range TrackedCFlags {
// Generate build rule to combine related intermediary files into a
// C Flag artifact
rule := android.NewRuleBuilder(pctx, ctx)
filename := s.genFlagFilename(flag)
outputpath := android.PathForOutput(ctx, "cflags", filename)
rule.Command().
Text("cat").
Inputs(s.interOutputs[flag].Paths()).
FlagWithOutput("> ", outputpath)
rule.Build(filename, "gen "+filename)
s.outputs = append(s.outputs, outputpath)
}
}
func (s *cflagArtifactsText) GenerateBuildActions(ctx android.SingletonContext) {
modulesWithCFlag := make(map[string][]string)
// Scan through all modules, selecting the ones that are part of the filter,
// and then storing into a map which tracks whether or not tracked C flag is
// used or not.
ctx.VisitAllModules(func(module android.Module) {
if ccModule, ok := module.(*Module); ok {
if allowedDir(ctx.ModuleDir(ccModule)) {
cflags := ccModule.flags.Local.CFlags
cppflags := ccModule.flags.Local.CppFlags
module := fmt.Sprintf("%s:%s (%s)",
ctx.BlueprintFile(ccModule),
ctx.ModuleName(ccModule),
ctx.ModuleSubDir(ccModule))
for _, flag := range TrackedCFlags {
if inList(flag, cflags) || inList(flag, cppflags) {
modulesWithCFlag[flag] = append(modulesWithCFlag[flag], module)
} else {
modulesWithCFlag["!"+flag] = append(modulesWithCFlag["!"+flag], module)
}
}
}
}
})
// Traversing map and setting up rules to produce intermediary files which
// contain parts of each expected C Flag artifact.
for _, flag := range TrackedCFlags {
sort.Strings(modulesWithCFlag[flag])
part := s.GenCFlagArtifactParts(ctx, flag, true, modulesWithCFlag[flag], 0)
sort.Strings(modulesWithCFlag["!"+flag])
s.GenCFlagArtifactParts(ctx, flag, false, modulesWithCFlag["!"+flag], part)
}
// Combine intermediary files into a single C Flag artifact.
s.GenCFlagArtifacts(ctx)
}
func cflagArtifactsTextFactory() android.Singleton {
return &cflagArtifactsText{
interOutputs: make(map[string]android.WritablePaths),
}
}
func (s *cflagArtifactsText) MakeVars(ctx android.MakeVarsContext) {
ctx.Strict("SOONG_MODULES_CFLAG_ARTIFACTS", strings.Join(s.outputs.Strings(), " "))
}