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|
package pkglint
import (
"fmt"
"netbsd.org/pkglint/getopt"
"netbsd.org/pkglint/histogram"
"netbsd.org/pkglint/regex"
tracePkg "netbsd.org/pkglint/trace"
"os"
"os/user"
"path"
"path/filepath"
"runtime"
"runtime/debug"
"runtime/pprof"
"strings"
)
const confMake = "@BMAKE@"
const confVersion = "@VERSION@"
// Pkglint is a container for all global variables of this Go package.
type Pkglint struct {
Opts CmdOpts // Command line options.
Pkgsrc *Pkgsrc // Global data, mostly extracted from mk/*, never nil.
Pkg *Package // The package that is currently checked, or nil.
Mk MkLines // The Makefile (or fragment) that is currently checked, or nil.
Todo []string // The files or directories that still need to be checked.
Wip bool // Is the currently checked file or package from pkgsrc-wip?
Infrastructure bool // Is the currently checked file from the pkgsrc infrastructure?
Testing bool // Is pkglint in self-testing mode (only during development)?
Username string // For checking against OWNER and MAINTAINER
cvsEntriesDir string // Cached to avoid I/O
cvsEntriesLines Lines
Logger
loaded *histogram.Histogram
res regex.Registry
fileCache *FileCache
interner StringInterner
Hashes map[string]*Hash // Maps "alg:filename" => hash (inter-package check).
UsedLicenses map[string]bool // Maps "license name" => true (inter-package check).
}
func NewPkglint() Pkglint {
return Pkglint{
res: regex.NewRegistry(),
fileCache: NewFileCache(200),
interner: NewStringInterner()}
}
type CmdOpts struct {
CheckExtra,
CheckGlobal bool
// TODO: Are these Warn* options really all necessary?
//
// Some of them may have been unreliable in the past when they were new.
// Instead of these fine-grained options, there is already --only, which
// could be contrasted by a future --ignore option, in order to suppress
// individual checks.
WarnExtra,
WarnPerm,
WarnQuoting,
WarnSpace,
WarnStyle bool
Profiling,
ShowHelp,
DumpMakefile,
Import,
Recursive,
ShowVersion bool
LogOnly []string
args []string
}
type Hash struct {
hash []byte
location Location
}
type pkglintFatal struct{}
// G is the abbreviation for "global state";
// these are the only global variable in this Go package
var (
G = NewPkglint()
trace tracePkg.Tracer
)
func Main() int {
G.out = NewSeparatorWriter(os.Stdout)
G.err = NewSeparatorWriter(os.Stderr)
trace.Out = os.Stdout
exitCode := G.Main(os.Args...)
if G.Opts.Profiling {
G = Pkglint{} // Free all memory.
runtime.GC() // For detecting possible memory leaks; see qa-pkglint.
}
return exitCode
}
// Main runs the main program with the given arguments.
// argv[0] is the program name.
//
// Note: during tests, calling this method disables tracing
// because the command line option --debug sets trace.Tracing
// back to false.
//
// It also discards the -Wall option that is used by default in other tests.
func (pkglint *Pkglint) Main(argv ...string) (exitCode int) {
defer func() {
if r := recover(); r != nil {
if _, ok := r.(pkglintFatal); ok {
exitCode = 1
} else {
panic(r)
}
}
}()
if exitcode := pkglint.ParseCommandLine(argv); exitcode != -1 {
return exitcode
}
if pkglint.Opts.Profiling {
defer func() {
pkglint.fileCache.table = nil
pkglint.fileCache.mapping = nil
runtime.GC()
fd, err := os.Create("pkglint.heapdump")
G.AssertNil(err, "heapDump.create")
debug.WriteHeapDump(fd.Fd())
err = fd.Close()
G.AssertNil(err, "heapDump.close")
}()
f, err := os.Create("pkglint.pprof")
if err != nil {
dummyLine.Fatalf("Cannot create profiling file: %s", err)
}
defer f.Close()
err = pprof.StartCPUProfile(f)
G.AssertNil(err, "Cannot start profiling")
defer pprof.StopCPUProfile()
pkglint.res.Profiling()
pkglint.histo = histogram.New()
pkglint.loaded = histogram.New()
defer func() {
pkglint.out.Write("")
pkglint.histo.PrintStats(pkglint.out.out, "loghisto", -1)
pkglint.res.PrintStats(pkglint.out.out)
pkglint.loaded.PrintStats(pkglint.out.out, "loaded", 10)
pkglint.out.WriteLine(sprintf("fileCache: %d hits, %d misses", pkglint.fileCache.hits, pkglint.fileCache.misses))
}()
}
for _, arg := range pkglint.Opts.args {
pkglint.Todo = append(pkglint.Todo, filepath.ToSlash(arg))
}
if len(pkglint.Todo) == 0 {
pkglint.Todo = []string{"."}
}
firstDir := pkglint.Todo[0]
if fileExists(firstDir) {
firstDir = path.Dir(firstDir)
}
relTopdir := findPkgsrcTopdir(firstDir)
if relTopdir == "" {
// If the first argument to pkglint is not inside a pkgsrc tree,
// pkglint doesn't know where to load the infrastructure files from,
// and these are needed for virtually every single check.
// Therefore, the only sensible thing to do is to quit immediately.
dummyLine.Fatalf("%q must be inside a pkgsrc tree.", firstDir)
}
pkglint.Pkgsrc = NewPkgsrc(firstDir + "/" + relTopdir)
pkglint.Wip = matches(pkglint.Pkgsrc.ToRel(firstDir), `^wip(/|$)`) // Same as in Pkglint.Check.
pkglint.Pkgsrc.LoadInfrastructure()
currentUser, err := user.Current()
if err == nil {
// On Windows, this is `Computername\Username`.
pkglint.Username = replaceAll(currentUser.Username, `^.*\\`, "")
}
for len(pkglint.Todo) > 0 {
item := pkglint.Todo[0]
pkglint.Todo = pkglint.Todo[1:]
pkglint.Check(item)
}
pkglint.Pkgsrc.checkToplevelUnusedLicenses()
pkglint.ShowSummary()
if pkglint.errors != 0 {
return 1
}
return 0
}
func (pkglint *Pkglint) ParseCommandLine(args []string) int {
gopts := &pkglint.Opts
lopts := &pkglint.Logger.Opts
opts := getopt.NewOptions()
check := opts.AddFlagGroup('C', "check", "check,...", "enable or disable specific checks")
opts.AddFlagVar('d', "debug", &trace.Tracing, false, "log verbose call traces for debugging")
opts.AddFlagVar('e', "explain", &lopts.Explain, false, "explain the diagnostics or give further help")
opts.AddFlagVar('f', "show-autofix", &lopts.ShowAutofix, false, "show what pkglint can fix automatically")
opts.AddFlagVar('F', "autofix", &lopts.Autofix, false, "try to automatically fix some errors")
opts.AddFlagVar('g', "gcc-output-format", &lopts.GccOutput, false, "mimic the gcc output format")
opts.AddFlagVar('h', "help", &gopts.ShowHelp, false, "show a detailed usage message")
opts.AddFlagVar('I', "dumpmakefile", &gopts.DumpMakefile, false, "dump the Makefile after parsing")
opts.AddFlagVar('i', "import", &gopts.Import, false, "prepare the import of a wip package")
opts.AddFlagVar('m', "log-verbose", &lopts.LogVerbose, false, "allow the same diagnostic more than once")
opts.AddStrList('o', "only", &gopts.LogOnly, "only log diagnostics containing the given text")
opts.AddFlagVar('p', "profiling", &gopts.Profiling, false, "profile the executing program")
opts.AddFlagVar('q', "quiet", &lopts.Quiet, false, "don't show a summary line when finishing")
opts.AddFlagVar('r', "recursive", &gopts.Recursive, false, "check subdirectories, too")
opts.AddFlagVar('s', "source", &lopts.ShowSource, false, "show the source lines together with diagnostics")
opts.AddFlagVar('V', "version", &gopts.ShowVersion, false, "show the version number of pkglint")
warn := opts.AddFlagGroup('W', "warning", "warning,...", "enable or disable groups of warnings")
check.AddFlagVar("extra", &gopts.CheckExtra, false, "check various additional files")
check.AddFlagVar("global", &gopts.CheckGlobal, false, "inter-package checks")
warn.AddFlagVar("extra", &gopts.WarnExtra, false, "enable some extra warnings")
warn.AddFlagVar("perm", &gopts.WarnPerm, false, "warn about unforeseen variable definition and use")
warn.AddFlagVar("quoting", &gopts.WarnQuoting, false, "warn about quoting issues")
warn.AddFlagVar("space", &gopts.WarnSpace, false, "warn about inconsistent use of whitespace")
warn.AddFlagVar("style", &gopts.WarnStyle, false, "warn about stylistic issues")
remainingArgs, err := opts.Parse(args)
if err != nil {
errOut := pkglint.err.out
_, _ = fmt.Fprintln(errOut, err)
_, _ = fmt.Fprintln(errOut, "")
opts.Help(errOut, "pkglint [options] dir...")
return 1
}
gopts.args = remainingArgs
if gopts.ShowHelp {
opts.Help(pkglint.out.out, "pkglint [options] dir...")
return 0
}
if pkglint.Opts.ShowVersion {
_, _ = fmt.Fprintf(pkglint.out.out, "%s\n", confVersion)
return 0
}
return -1
}
// Check checks a directory entry, which can be a regular file,
// a directory or a symlink (only allowed for the working directory).
//
// This is the method that is called for each command line argument.
//
// It sets up all the global state (infrastructure, wip) for accurately
// classifying the entry.
//
// During tests, it assumes that Pkgsrc.LoadInfrastructure has been called.
// It is the most high-level method for testing pkglint.
func (pkglint *Pkglint) Check(dirent string) {
if trace.Tracing {
defer trace.Call1(dirent)()
}
st, err := os.Lstat(dirent)
if err != nil || !st.Mode().IsDir() && !st.Mode().IsRegular() {
NewLineWhole(dirent).Errorf("No such file or directory.")
return
}
isDir := st.Mode().IsDir()
isReg := st.Mode().IsRegular()
dir := dirent
if !isDir {
dir = path.Dir(dirent)
}
basename := path.Base(dirent)
pkgsrcRel := pkglint.Pkgsrc.ToRel(dirent)
pkglint.Wip = matches(pkgsrcRel, `^wip(/|$)`)
pkglint.Infrastructure = matches(pkgsrcRel, `^mk(/|$)`)
pkgsrcdir := findPkgsrcTopdir(dir)
if pkgsrcdir == "" {
NewLineWhole(dirent).Errorf("Cannot determine the pkgsrc root directory for %q.", cleanpath(dir))
return
}
if isReg {
depth := strings.Count(pkgsrcRel, "/")
pkglint.checkExecutable(dirent, st.Mode())
pkglint.checkReg(dirent, basename, depth)
return
}
if isDir && isEmptyDir(dirent) {
return
}
switch pkgsrcdir {
case "../..":
pkglint.checkdirPackage(dir)
case "..":
CheckdirCategory(dir)
case ".":
CheckdirToplevel(dir)
default:
NewLineWhole(dirent).Errorf("Cannot check directories outside a pkgsrc tree.")
}
}
// checkDirent checks a directory entry based on its filename and its mode
// (regular file, directory, symlink).
func (pkglint *Pkglint) checkDirent(dirent string, mode os.FileMode) {
basename := path.Base(dirent)
switch {
case mode.IsRegular():
pkgsrcRel := pkglint.Pkgsrc.ToRel(dirent)
depth := strings.Count(pkgsrcRel, "/")
pkglint.checkReg(dirent, basename, depth)
case hasPrefix(basename, "work"):
if pkglint.Opts.Import {
NewLineWhole(dirent).Errorf("Must be cleaned up before committing the package.")
}
return
case mode.IsDir():
switch {
case basename == "files" || basename == "patches" || isIgnoredFilename(basename):
// Ok
case matches(dirent, `(?:^|/)files/[^/]*$`):
// Ok
case !isEmptyDir(dirent):
NewLineWhole(dirent).Warnf("Unknown directory name.")
}
case mode&os.ModeSymlink != 0:
NewLineWhole(dirent).Warnf("Invalid symlink name.")
default:
NewLineWhole(dirent).Errorf("Only files and directories are allowed in pkgsrc.")
}
}
// checkdirPackage checks a complete pkgsrc package, including each
// of the files individually, and also when seen in combination.
func (pkglint *Pkglint) checkdirPackage(dir string) {
if trace.Tracing {
defer trace.Call1(dir)()
}
pkglint.Pkg = NewPackage(dir)
defer func() { pkglint.Pkg = nil }()
pkg := pkglint.Pkg
// Load the package Makefile and all included files,
// to collect all used and defined variables and similar data.
mklines := pkg.loadPackageMakefile()
if mklines == nil {
return
}
files := dirglob(pkg.File("."))
if pkg.Pkgdir != "." {
files = append(files, dirglob(pkg.File(pkg.Pkgdir))...)
}
if pkglint.Opts.CheckExtra {
files = append(files, dirglob(pkg.File(pkg.Filesdir))...)
}
files = append(files, dirglob(pkg.File(pkg.Patchdir))...)
if pkg.DistinfoFile != pkg.vars.fallback["DISTINFO_FILE"] {
files = append(files, pkg.File(pkg.DistinfoFile))
}
haveDistinfo := false
havePatches := false
// Determine the used variables and PLIST directories before checking any of the Makefile fragments.
// TODO: Why is this code necessary? What effect does it have?
for _, filename := range files {
basename := path.Base(filename)
if (hasPrefix(basename, "Makefile.") || hasSuffix(filename, ".mk")) &&
!matches(filename, `patch-`) &&
!contains(filename, pkg.Pkgdir+"/") &&
!contains(filename, pkg.Filesdir+"/") {
if fragmentMklines := LoadMk(filename, MustSucceed); fragmentMklines != nil {
fragmentMklines.collectUsedVariables()
}
}
if hasPrefix(basename, "PLIST") {
pkg.loadPlistDirs(filename)
}
}
for _, filename := range files {
if containsVarRef(filename) {
if trace.Tracing {
trace.Stepf("Skipping file %q because the name contains an unresolved variable.", filename)
}
continue
}
st, err := os.Lstat(filename)
switch {
case err != nil:
// For missing custom distinfo file, an error message is already generated
// for the line where DISTINFO_FILE is defined.
//
// For all other cases it is next to impossible to reach this branch
// since all those files come from calls to dirglob.
break
case path.Base(filename) == "Makefile":
pkglint.checkExecutable(filename, st.Mode())
pkg.checkfilePackageMakefile(filename, mklines)
default:
pkglint.checkDirent(filename, st.Mode())
}
if contains(filename, "/patches/patch-") {
havePatches = true
} else if hasSuffix(filename, "/distinfo") {
haveDistinfo = true
}
pkg.checkLocallyModified(filename)
}
if pkg.Pkgdir == "." {
if havePatches && !haveDistinfo {
// TODO: Add Line.RefTo to make the context clear.
NewLineWhole(pkg.File(pkg.DistinfoFile)).Warnf("File not found. Please run %q.", bmake("makepatchsum"))
}
}
}
// Assertf checks that the condition is true. Otherwise it terminates the
// process with a fatal error message, prefixed with "Pkglint internal error".
//
// This method must only be used for programming errors.
// For runtime errors, use dummyLine.Fatalf.
func (pkglint *Pkglint) Assertf(cond bool, format string, args ...interface{}) {
if !cond {
panic("Pkglint internal error: " + sprintf(format, args...))
}
}
// AssertNil ensures that the given error is nil.
//
// Contrary to other diagnostics, the format should not end in a period
// since it is followed by the error.
//
// Other than Assertf, this method does not require any comparison operator in the calling code.
// This makes it possible to get 100% branch coverage for cases that "really can never fail".
func (pkglint *Pkglint) AssertNil(err error, format string, args ...interface{}) {
if err != nil {
panic("Pkglint internal error: " + sprintf(format, args...) + ": " + err.Error())
}
}
// Returns the pkgsrc top-level directory, relative to the given directory.
func findPkgsrcTopdir(dirname string) string {
for _, dir := range [...]string{".", "..", "../..", "../../.."} {
if fileExists(dirname + "/" + dir + "/mk/bsd.pkg.mk") {
return dir
}
}
return ""
}
func resolveVariableRefs(text string) (resolved string) {
// TODO: How does this fit into the Scope type, which is newer than this function?
if !contains(text, "${") {
return text
}
visited := make(map[string]bool) // To prevent endless loops
replacer := func(m string) string {
varname := m[2 : len(m)-1]
if !visited[varname] {
visited[varname] = true
if G.Pkg != nil {
if value, ok := G.Pkg.vars.LastValueFound(varname); ok {
return value
}
}
if G.Mk != nil {
if value, ok := G.Mk.vars.LastValueFound(varname); ok {
return value
}
}
}
return "${" + varname + "}"
}
str := text
for {
// TODO: Replace regular expression with full parser.
replaced := replaceAllFunc(str, `\$\{([\w.]+)\}`, replacer)
if replaced == str {
if trace.Tracing && str != text {
trace.Stepf("resolveVariableRefs %q => %q", text, replaced)
}
return replaced
}
str = replaced
}
}
func CheckFileOther(filename string) {
if trace.Tracing {
defer trace.Call1(filename)()
}
if lines := Load(filename, NotEmpty|LogErrors); lines != nil {
CheckLinesTrailingEmptyLines(lines)
}
}
func CheckLinesDescr(lines Lines) {
if trace.Tracing {
defer trace.Call1(lines.FileName)()
}
for _, line := range lines.Lines {
ck := LineChecker{line}
ck.CheckLength(80)
ck.CheckTrailingWhitespace()
ck.CheckValidCharacters()
if contains(line.Text, "${") {
for _, token := range NewMkParser(nil, line.Text, false).MkTokens() {
if token.Varuse != nil && G.Pkgsrc.VariableType(token.Varuse.varname) != nil {
line.Notef("Variables are not expanded in the DESCR file.")
}
}
}
}
CheckLinesTrailingEmptyLines(lines)
if maxLines := 24; lines.Len() > maxLines {
line := lines.Lines[maxLines]
line.Warnf("File too long (should be no more than %d lines).", maxLines)
line.Explain(
"The DESCR file should fit on a traditional terminal of 80x25 characters.",
"It is also intended to give a _brief_ summary about the package's contents.")
}
SaveAutofixChanges(lines)
}
func CheckLinesMessage(lines Lines) {
if trace.Tracing {
defer trace.Call1(lines.FileName)()
}
explanation := func() []string {
return []string{
"A MESSAGE file should consist of a header line, having 75 \"=\"",
"characters, followed by a line containing only the RCS Id, then an",
"empty line, your text and finally the footer line, which is the",
"same as the header line."}
}
if lines.Len() < 3 {
lines.LastLine().Warnf("File too short.")
G.Explain(explanation()...)
return
}
hline := "==========================================================================="
if line := lines.Lines[0]; line.Text != hline {
fix := line.Autofix()
fix.Warnf("Expected a line of exactly 75 \"=\" characters.")
fix.Explain(explanation()...)
fix.InsertBefore(hline)
fix.Apply()
lines.CheckRcsID(0, ``, "")
} else if 1 < lines.Len() {
lines.CheckRcsID(1, ``, "")
}
for _, line := range lines.Lines {
ck := LineChecker{line}
ck.CheckLength(80)
ck.CheckTrailingWhitespace()
ck.CheckValidCharacters()
}
if lastLine := lines.LastLine(); lastLine.Text != hline {
fix := lastLine.Autofix()
fix.Warnf("Expected a line of exactly 75 \"=\" characters.")
fix.Explain(explanation()...)
fix.InsertAfter(hline)
fix.Apply()
}
CheckLinesTrailingEmptyLines(lines)
SaveAutofixChanges(lines)
}
func CheckFileMk(filename string) {
if trace.Tracing {
defer trace.Call1(filename)()
}
mklines := LoadMk(filename, NotEmpty|LogErrors)
if mklines == nil {
return
}
mklines.Check()
mklines.SaveAutofixChanges()
}
func (pkglint *Pkglint) checkReg(filename, basename string, depth int) {
if depth == 2 && !pkglint.Wip {
if contains(basename, "README") || contains(basename, "TODO") {
NewLineWhole(filename).Errorf("Packages in main pkgsrc must not have a %s file.", basename)
// TODO: Add a convincing explanation.
return
}
}
switch {
case hasSuffix(basename, "~"),
hasSuffix(basename, ".orig"),
hasSuffix(basename, ".rej"),
contains(basename, "README") && depth == 2,
contains(basename, "TODO") && depth == 2:
if pkglint.Opts.Import {
NewLineWhole(filename).Errorf("Must be cleaned up before committing the package.")
}
return
}
switch {
case basename == "ALTERNATIVES":
CheckFileAlternatives(filename)
case basename == "buildlink3.mk":
if mklines := LoadMk(filename, NotEmpty|LogErrors); mklines != nil {
CheckLinesBuildlink3Mk(mklines)
}
case hasPrefix(basename, "DESCR"):
if lines := Load(filename, NotEmpty|LogErrors); lines != nil {
CheckLinesDescr(lines)
}
case basename == "distinfo":
if lines := Load(filename, NotEmpty|LogErrors); lines != nil {
CheckLinesDistinfo(lines)
}
case basename == "DEINSTALL" || basename == "INSTALL":
CheckFileOther(filename)
case hasPrefix(basename, "MESSAGE"):
if lines := Load(filename, NotEmpty|LogErrors); lines != nil {
CheckLinesMessage(lines)
}
case basename == "options.mk":
if mklines := LoadMk(filename, NotEmpty|LogErrors); mklines != nil {
CheckLinesOptionsMk(mklines)
}
case matches(basename, `^patch-[-\w.~+]*\w$`):
if lines := Load(filename, NotEmpty|LogErrors); lines != nil {
CheckLinesPatch(lines)
}
case matches(filename, `(?:^|/)patches/manual[^/]*$`):
if trace.Tracing {
trace.Step1("Unchecked file %q.", filename)
}
case matches(filename, `(?:^|/)patches/[^/]*$`):
NewLineWhole(filename).Warnf("Patch files should be named \"patch-\", followed by letters, '-', '_', '.', and digits only.")
case (hasPrefix(basename, "Makefile") || hasSuffix(basename, ".mk")) &&
!(hasPrefix(filename, "files/") || contains(filename, "/files/")) &&
!(hasPrefix(filename, "patches/") || contains(filename, "/patches/")):
CheckFileMk(filename)
case hasPrefix(basename, "PLIST"):
if lines := Load(filename, NotEmpty|LogErrors); lines != nil {
CheckLinesPlist(lines)
}
case hasPrefix(basename, "CHANGES-"):
// This only checks the file but doesn't register the changes globally.
_ = pkglint.Pkgsrc.loadDocChangesFromFile(filename)
case matches(filename, `(?:^|/)files/[^/]*$`):
// Skip
case basename == "spec":
if !hasPrefix(pkglint.Pkgsrc.ToRel(filename), "regress/") {
NewLineWhole(filename).Warnf("Only packages in regress/ may have spec files.")
}
case pkglint.matchesLicenseFile(basename):
break
default:
NewLineWhole(filename).Warnf("Unexpected file found.")
if pkglint.Opts.CheckExtra {
CheckFileOther(filename)
}
}
}
func (pkglint *Pkglint) matchesLicenseFile(basename string) bool {
if pkglint.Pkg == nil {
return false
}
licenseFile := pkglint.Pkg.vars.LastValue("LICENSE_FILE")
return basename == path.Base(licenseFile)
}
func (pkglint *Pkglint) checkExecutable(filename string, mode os.FileMode) {
if mode.Perm()&0111 == 0 {
// Not executable at all.
return
}
if isCommitted(filename) {
// Too late to be fixed by the package developer, since
// CVS remembers the executable bit in the repo file.
// At this point, it can only be reset by the CVS admins.
return
}
line := NewLineWhole(filename)
fix := line.Autofix()
fix.Warnf("Should not be executable.")
fix.Explain(
"No package file should ever be executable.",
"Even the INSTALL and DEINSTALL scripts are usually not usable",
"in the form they have in the package,",
"as the pathnames get adjusted during installation.",
"So there is no need to have any file executable.")
fix.Custom(func(showAutofix, autofix bool) {
fix.Describef(0, "Clearing executable bits")
if autofix {
if err := os.Chmod(filename, mode&^0111); err != nil {
line.Errorf("Cannot clear executable bits: %s", err)
}
}
})
fix.Apply()
}
func CheckLinesTrailingEmptyLines(lines Lines) {
max := lines.Len()
last := max
for last > 1 && lines.Lines[last-1].Text == "" {
last--
}
if last != max {
lines.Lines[last].Notef("Trailing empty lines.")
}
}
// Tool returns the tool definition from the closest scope (file, global), or nil.
// The command can be "sed" or "gsed" or "${SED}".
// If a tool is returned, usable tells whether that tool has been added
// to USE_TOOLS in the current scope (file or package).
func (pkglint *Pkglint) Tool(command string, time ToolTime) (tool *Tool, usable bool) {
varname := ""
p := NewMkParser(nil, command, false)
if varUse := p.VarUse(); varUse != nil && p.EOF() {
varname = varUse.varname
}
tools := pkglint.tools()
if t := tools.ByName(command); t != nil {
if tools.Usable(t, time) {
return t, true
}
tool = t
}
if t := tools.ByVarname(varname); t != nil {
if tools.Usable(t, time) {
return t, true
}
if tool == nil {
tool = t
}
}
return
}
// ToolByVarname looks up the tool by its variable name, e.g. "SED".
//
// The returned tool may come either from the current file or the current package.
// It is not guaranteed to be usable (added to USE_TOOLS), only defined;
// that must be checked by the calling code,
// see Tool.UsableAtLoadTime and Tool.UsableAtRunTime.
func (pkglint *Pkglint) ToolByVarname(varname string) *Tool {
return pkglint.tools().ByVarname(varname)
}
func (pkglint *Pkglint) tools() *Tools {
if pkglint.Mk != nil {
return pkglint.Mk.Tools
} else {
return pkglint.Pkgsrc.Tools
}
}
func (pkglint *Pkglint) loadCvsEntries(filename string) Lines {
dir := path.Dir(filename)
if dir == pkglint.cvsEntriesDir {
return pkglint.cvsEntriesLines
}
lines := Load(dir+"/CVS/Entries", 0)
if lines == nil {
return nil
}
pkglint.cvsEntriesDir = dir
pkglint.cvsEntriesLines = lines
return lines
}
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