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Source file src/cmd/go/internal/work/build.go

Documentation: cmd/go/internal/work

     1  // Copyright 2011 The Go Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  package work
     6  
     7  import (
     8  	"context"
     9  	"errors"
    10  	"flag"
    11  	"fmt"
    12  	"go/build"
    13  	"os"
    14  	"path/filepath"
    15  	"runtime"
    16  	"strconv"
    17  	"strings"
    18  
    19  	"cmd/go/internal/base"
    20  	"cmd/go/internal/cfg"
    21  	"cmd/go/internal/fsys"
    22  	"cmd/go/internal/load"
    23  	"cmd/go/internal/modload"
    24  	"cmd/go/internal/search"
    25  	"cmd/go/internal/trace"
    26  )
    27  
    28  var CmdBuild = &base.Command{
    29  	UsageLine: "go build [-o output] [build flags] [packages]",
    30  	Short:     "compile packages and dependencies",
    31  	Long: `
    32  Build compiles the packages named by the import paths,
    33  along with their dependencies, but it does not install the results.
    34  
    35  If the arguments to build are a list of .go files from a single directory,
    36  build treats them as a list of source files specifying a single package.
    37  
    38  When compiling packages, build ignores files that end in '_test.go'.
    39  
    40  When compiling a single main package, build writes the resulting
    41  executable to an output file named after the last non-major-version
    42  component of the package import path. The '.exe' suffix is added
    43  when writing a Windows executable.
    44  So 'go build example/sam' writes 'sam' or 'sam.exe'.
    45  'go build example.com/foo/v2' writes 'foo' or 'foo.exe', not 'v2.exe'.
    46  
    47  When compiling a package from a list of .go files, the executable
    48  is named after the first source file.
    49  'go build ed.go rx.go' writes 'ed' or 'ed.exe'.
    50  
    51  When compiling multiple packages or a single non-main package,
    52  build compiles the packages but discards the resulting object,
    53  serving only as a check that the packages can be built.
    54  
    55  The -o flag forces build to write the resulting executable or object
    56  to the named output file or directory, instead of the default behavior described
    57  in the last two paragraphs. If the named output is an existing directory or
    58  ends with a slash or backslash, then any resulting executables
    59  will be written to that directory.
    60  
    61  The build flags are shared by the build, clean, get, install, list, run,
    62  and test commands:
    63  
    64  	-C dir
    65  		Change to dir before running the command.
    66  		Any files named on the command line are interpreted after
    67  		changing directories.
    68  		If used, this flag must be the first one in the command line.
    69  	-a
    70  		force rebuilding of packages that are already up-to-date.
    71  	-n
    72  		print the commands but do not run them.
    73  	-p n
    74  		the number of programs, such as build commands or
    75  		test binaries, that can be run in parallel.
    76  		The default is GOMAXPROCS, normally the number of CPUs available.
    77  	-race
    78  		enable data race detection.
    79  		Supported only on linux/amd64, freebsd/amd64, darwin/amd64, darwin/arm64, windows/amd64,
    80  		linux/ppc64le and linux/arm64 (only for 48-bit VMA).
    81  	-msan
    82  		enable interoperation with memory sanitizer.
    83  		Supported only on linux/amd64, linux/arm64, linux/loong64, freebsd/amd64
    84  		and only with Clang/LLVM as the host C compiler.
    85  		PIE build mode will be used on all platforms except linux/amd64.
    86  	-asan
    87  		enable interoperation with address sanitizer.
    88  		Supported only on linux/arm64, linux/amd64, linux/loong64.
    89  		Supported on linux/amd64 or linux/arm64 and only with GCC 7 and higher
    90  		or Clang/LLVM 9 and higher.
    91  		And supported on linux/loong64 only with Clang/LLVM 16 and higher.
    92  	-cover
    93  		enable code coverage instrumentation.
    94  	-covermode set,count,atomic
    95  		set the mode for coverage analysis.
    96  		The default is "set" unless -race is enabled,
    97  		in which case it is "atomic".
    98  		The values:
    99  		set: bool: does this statement run?
   100  		count: int: how many times does this statement run?
   101  		atomic: int: count, but correct in multithreaded tests;
   102  			significantly more expensive.
   103  		Sets -cover.
   104  	-coverpkg pattern1,pattern2,pattern3
   105  		For a build that targets package 'main' (e.g. building a Go
   106  		executable), apply coverage analysis to each package matching
   107  		the patterns. The default is to apply coverage analysis to
   108  		packages in the main Go module. See 'go help packages' for a
   109  		description of package patterns.  Sets -cover.
   110  	-v
   111  		print the names of packages as they are compiled.
   112  	-work
   113  		print the name of the temporary work directory and
   114  		do not delete it when exiting.
   115  	-x
   116  		print the commands.
   117  	-asmflags '[pattern=]arg list'
   118  		arguments to pass on each go tool asm invocation.
   119  	-buildmode mode
   120  		build mode to use. See 'go help buildmode' for more.
   121  	-buildvcs
   122  		Whether to stamp binaries with version control information
   123  		("true", "false", or "auto"). By default ("auto"), version control
   124  		information is stamped into a binary if the main package, the main module
   125  		containing it, and the current directory are all in the same repository.
   126  		Use -buildvcs=false to always omit version control information, or
   127  		-buildvcs=true to error out if version control information is available but
   128  		cannot be included due to a missing tool or ambiguous directory structure.
   129  	-compiler name
   130  		name of compiler to use, as in runtime.Compiler (gccgo or gc).
   131  	-gccgoflags '[pattern=]arg list'
   132  		arguments to pass on each gccgo compiler/linker invocation.
   133  	-gcflags '[pattern=]arg list'
   134  		arguments to pass on each go tool compile invocation.
   135  	-installsuffix suffix
   136  		a suffix to use in the name of the package installation directory,
   137  		in order to keep output separate from default builds.
   138  		If using the -race flag, the install suffix is automatically set to race
   139  		or, if set explicitly, has _race appended to it. Likewise for the -msan
   140  		and -asan flags. Using a -buildmode option that requires non-default compile
   141  		flags has a similar effect.
   142  	-ldflags '[pattern=]arg list'
   143  		arguments to pass on each go tool link invocation.
   144  	-linkshared
   145  		build code that will be linked against shared libraries previously
   146  		created with -buildmode=shared.
   147  	-mod mode
   148  		module download mode to use: readonly, vendor, or mod.
   149  		By default, if a vendor directory is present and the go version in go.mod
   150  		is 1.14 or higher, the go command acts as if -mod=vendor were set.
   151  		Otherwise, the go command acts as if -mod=readonly were set.
   152  		See https://golang.org/ref/mod#build-commands for details.
   153  	-modcacherw
   154  		leave newly-created directories in the module cache read-write
   155  		instead of making them read-only.
   156  	-modfile file
   157  		in module aware mode, read (and possibly write) an alternate go.mod
   158  		file instead of the one in the module root directory. A file named
   159  		"go.mod" must still be present in order to determine the module root
   160  		directory, but it is not accessed. When -modfile is specified, an
   161  		alternate go.sum file is also used: its path is derived from the
   162  		-modfile flag by trimming the ".mod" extension and appending ".sum".
   163  	-overlay file
   164  		read a JSON config file that provides an overlay for build operations.
   165  		The file is a JSON struct with a single field, named 'Replace', that
   166  		maps each disk file path (a string) to its backing file path, so that
   167  		a build will run as if the disk file path exists with the contents
   168  		given by the backing file paths, or as if the disk file path does not
   169  		exist if its backing file path is empty. Support for the -overlay flag
   170  		has some limitations: importantly, cgo files included from outside the
   171  		include path must be in the same directory as the Go package they are
   172  		included from, and overlays will not appear when binaries and tests are
   173  		run through go run and go test respectively.
   174  	-pgo file
   175  		specify the file path of a profile for profile-guided optimization (PGO).
   176  		When the special name "auto" is specified, for each main package in the
   177  		build, the go command selects a file named "default.pgo" in the package's
   178  		directory if that file exists, and applies it to the (transitive)
   179  		dependencies of the main package (other packages are not affected).
   180  		Special name "off" turns off PGO. The default is "auto".
   181  	-pkgdir dir
   182  		install and load all packages from dir instead of the usual locations.
   183  		For example, when building with a non-standard configuration,
   184  		use -pkgdir to keep generated packages in a separate location.
   185  	-tags tag,list
   186  		a comma-separated list of additional build tags to consider satisfied
   187  		during the build. For more information about build tags, see
   188  		'go help buildconstraint'. (Earlier versions of Go used a
   189  		space-separated list, and that form is deprecated but still recognized.)
   190  	-trimpath
   191  		remove all file system paths from the resulting executable.
   192  		Instead of absolute file system paths, the recorded file names
   193  		will begin either a module path@version (when using modules),
   194  		or a plain import path (when using the standard library, or GOPATH).
   195  	-toolexec 'cmd args'
   196  		a program to use to invoke toolchain programs like vet and asm.
   197  		For example, instead of running asm, the go command will run
   198  		'cmd args /path/to/asm <arguments for asm>'.
   199  		The TOOLEXEC_IMPORTPATH environment variable will be set,
   200  		matching 'go list -f {{.ImportPath}}' for the package being built.
   201  
   202  The -asmflags, -gccgoflags, -gcflags, and -ldflags flags accept a
   203  space-separated list of arguments to pass to an underlying tool
   204  during the build. To embed spaces in an element in the list, surround
   205  it with either single or double quotes. The argument list may be
   206  preceded by a package pattern and an equal sign, which restricts
   207  the use of that argument list to the building of packages matching
   208  that pattern (see 'go help packages' for a description of package
   209  patterns). Without a pattern, the argument list applies only to the
   210  packages named on the command line. The flags may be repeated
   211  with different patterns in order to specify different arguments for
   212  different sets of packages. If a package matches patterns given in
   213  multiple flags, the latest match on the command line wins.
   214  For example, 'go build -gcflags=-S fmt' prints the disassembly
   215  only for package fmt, while 'go build -gcflags=all=-S fmt'
   216  prints the disassembly for fmt and all its dependencies.
   217  
   218  For more about specifying packages, see 'go help packages'.
   219  For more about where packages and binaries are installed,
   220  run 'go help gopath'.
   221  For more about calling between Go and C/C++, run 'go help c'.
   222  
   223  Note: Build adheres to certain conventions such as those described
   224  by 'go help gopath'. Not all projects can follow these conventions,
   225  however. Installations that have their own conventions or that use
   226  a separate software build system may choose to use lower-level
   227  invocations such as 'go tool compile' and 'go tool link' to avoid
   228  some of the overheads and design decisions of the build tool.
   229  
   230  See also: go install, go get, go clean.
   231  	`,
   232  }
   233  
   234  const concurrentGCBackendCompilationEnabledByDefault = true
   235  
   236  func init() {
   237  	// break init cycle
   238  	CmdBuild.Run = runBuild
   239  	CmdInstall.Run = runInstall
   240  
   241  	CmdBuild.Flag.StringVar(&cfg.BuildO, "o", "", "output file or directory")
   242  
   243  	AddBuildFlags(CmdBuild, DefaultBuildFlags)
   244  	AddBuildFlags(CmdInstall, DefaultBuildFlags)
   245  	if cfg.Experiment != nil && cfg.Experiment.CoverageRedesign {
   246  		AddCoverFlags(CmdBuild, nil)
   247  		AddCoverFlags(CmdInstall, nil)
   248  	}
   249  }
   250  
   251  // Note that flags consulted by other parts of the code
   252  // (for example, buildV) are in cmd/go/internal/cfg.
   253  
   254  var (
   255  	forcedAsmflags   []string // internally-forced flags for cmd/asm
   256  	forcedGcflags    []string // internally-forced flags for cmd/compile
   257  	forcedLdflags    []string // internally-forced flags for cmd/link
   258  	forcedGccgoflags []string // internally-forced flags for gccgo
   259  )
   260  
   261  var BuildToolchain toolchain = noToolchain{}
   262  var ldBuildmode string
   263  
   264  // buildCompiler implements flag.Var.
   265  // It implements Set by updating both
   266  // BuildToolchain and buildContext.Compiler.
   267  type buildCompiler struct{}
   268  
   269  func (c buildCompiler) Set(value string) error {
   270  	switch value {
   271  	case "gc":
   272  		BuildToolchain = gcToolchain{}
   273  	case "gccgo":
   274  		BuildToolchain = gccgoToolchain{}
   275  	default:
   276  		return fmt.Errorf("unknown compiler %q", value)
   277  	}
   278  	cfg.BuildToolchainName = value
   279  	cfg.BuildContext.Compiler = value
   280  	return nil
   281  }
   282  
   283  func (c buildCompiler) String() string {
   284  	return cfg.BuildContext.Compiler
   285  }
   286  
   287  func init() {
   288  	switch build.Default.Compiler {
   289  	case "gc", "gccgo":
   290  		buildCompiler{}.Set(build.Default.Compiler)
   291  	}
   292  }
   293  
   294  type BuildFlagMask int
   295  
   296  const (
   297  	DefaultBuildFlags BuildFlagMask = 0
   298  	OmitModFlag       BuildFlagMask = 1 << iota
   299  	OmitModCommonFlags
   300  	OmitVFlag
   301  )
   302  
   303  // AddBuildFlags adds the flags common to the build, clean, get,
   304  // install, list, run, and test commands.
   305  func AddBuildFlags(cmd *base.Command, mask BuildFlagMask) {
   306  	base.AddBuildFlagsNX(&cmd.Flag)
   307  	base.AddChdirFlag(&cmd.Flag)
   308  	cmd.Flag.BoolVar(&cfg.BuildA, "a", false, "")
   309  	cmd.Flag.IntVar(&cfg.BuildP, "p", cfg.BuildP, "")
   310  	if mask&OmitVFlag == 0 {
   311  		cmd.Flag.BoolVar(&cfg.BuildV, "v", false, "")
   312  	}
   313  
   314  	cmd.Flag.Var(&load.BuildAsmflags, "asmflags", "")
   315  	cmd.Flag.Var(buildCompiler{}, "compiler", "")
   316  	cmd.Flag.StringVar(&cfg.BuildBuildmode, "buildmode", "default", "")
   317  	cmd.Flag.Var(&load.BuildGcflags, "gcflags", "")
   318  	cmd.Flag.Var(&load.BuildGccgoflags, "gccgoflags", "")
   319  	if mask&OmitModFlag == 0 {
   320  		base.AddModFlag(&cmd.Flag)
   321  	}
   322  	if mask&OmitModCommonFlags == 0 {
   323  		base.AddModCommonFlags(&cmd.Flag)
   324  	} else {
   325  		// Add the overlay flag even when we don't add the rest of the mod common flags.
   326  		// This only affects 'go get' in GOPATH mode, but add the flag anyway for
   327  		// consistency.
   328  		cmd.Flag.StringVar(&fsys.OverlayFile, "overlay", "", "")
   329  	}
   330  	cmd.Flag.StringVar(&cfg.BuildContext.InstallSuffix, "installsuffix", "", "")
   331  	cmd.Flag.Var(&load.BuildLdflags, "ldflags", "")
   332  	cmd.Flag.BoolVar(&cfg.BuildLinkshared, "linkshared", false, "")
   333  	cmd.Flag.StringVar(&cfg.BuildPGO, "pgo", "auto", "")
   334  	cmd.Flag.StringVar(&cfg.BuildPkgdir, "pkgdir", "", "")
   335  	cmd.Flag.BoolVar(&cfg.BuildRace, "race", false, "")
   336  	cmd.Flag.BoolVar(&cfg.BuildMSan, "msan", false, "")
   337  	cmd.Flag.BoolVar(&cfg.BuildASan, "asan", false, "")
   338  	cmd.Flag.Var((*tagsFlag)(&cfg.BuildContext.BuildTags), "tags", "")
   339  	cmd.Flag.Var((*base.StringsFlag)(&cfg.BuildToolexec), "toolexec", "")
   340  	cmd.Flag.BoolVar(&cfg.BuildTrimpath, "trimpath", false, "")
   341  	cmd.Flag.BoolVar(&cfg.BuildWork, "work", false, "")
   342  	cmd.Flag.Var((*buildvcsFlag)(&cfg.BuildBuildvcs), "buildvcs", "")
   343  
   344  	// Undocumented, unstable debugging flags.
   345  	cmd.Flag.StringVar(&cfg.DebugActiongraph, "debug-actiongraph", "", "")
   346  	cmd.Flag.StringVar(&cfg.DebugTrace, "debug-trace", "", "")
   347  	cmd.Flag.StringVar(&cfg.DebugRuntimeTrace, "debug-runtime-trace", "", "")
   348  }
   349  
   350  // AddCoverFlags adds coverage-related flags to "cmd". If the
   351  // CoverageRedesign experiment is enabled, we add -cover{mode,pkg} to
   352  // the build command and only -coverprofile to the test command. If
   353  // the CoverageRedesign experiment is disabled, -cover* flags are
   354  // added only to the test command.
   355  func AddCoverFlags(cmd *base.Command, coverProfileFlag *string) {
   356  	addCover := false
   357  	if cfg.Experiment != nil && cfg.Experiment.CoverageRedesign {
   358  		// New coverage enabled: both build and test commands get
   359  		// coverage flags.
   360  		addCover = true
   361  	} else {
   362  		// New coverage disabled: only test command gets cover flags.
   363  		addCover = coverProfileFlag != nil
   364  	}
   365  	if addCover {
   366  		cmd.Flag.BoolVar(&cfg.BuildCover, "cover", false, "")
   367  		cmd.Flag.Var(coverFlag{(*coverModeFlag)(&cfg.BuildCoverMode)}, "covermode", "")
   368  		cmd.Flag.Var(coverFlag{commaListFlag{&cfg.BuildCoverPkg}}, "coverpkg", "")
   369  	}
   370  	if coverProfileFlag != nil {
   371  		cmd.Flag.Var(coverFlag{V: stringFlag{coverProfileFlag}}, "coverprofile", "")
   372  	}
   373  }
   374  
   375  // tagsFlag is the implementation of the -tags flag.
   376  type tagsFlag []string
   377  
   378  func (v *tagsFlag) Set(s string) error {
   379  	// For compatibility with Go 1.12 and earlier, allow "-tags='a b c'" or even just "-tags='a'".
   380  	if strings.Contains(s, " ") || strings.Contains(s, "'") {
   381  		return (*base.StringsFlag)(v).Set(s)
   382  	}
   383  
   384  	// Split on commas, ignore empty strings.
   385  	*v = []string{}
   386  	for _, s := range strings.Split(s, ",") {
   387  		if s != "" {
   388  			*v = append(*v, s)
   389  		}
   390  	}
   391  	return nil
   392  }
   393  
   394  func (v *tagsFlag) String() string {
   395  	return "<TagsFlag>"
   396  }
   397  
   398  // buildvcsFlag is the implementation of the -buildvcs flag.
   399  type buildvcsFlag string
   400  
   401  func (f *buildvcsFlag) IsBoolFlag() bool { return true } // allow -buildvcs (without arguments)
   402  
   403  func (f *buildvcsFlag) Set(s string) error {
   404  	// https://go.dev/issue/51748: allow "-buildvcs=auto",
   405  	// in addition to the usual "true" and "false".
   406  	if s == "" || s == "auto" {
   407  		*f = "auto"
   408  		return nil
   409  	}
   410  
   411  	b, err := strconv.ParseBool(s)
   412  	if err != nil {
   413  		return errors.New("value is neither 'auto' nor a valid bool")
   414  	}
   415  	*f = (buildvcsFlag)(strconv.FormatBool(b)) // convert to canonical "true" or "false"
   416  	return nil
   417  }
   418  
   419  func (f *buildvcsFlag) String() string { return string(*f) }
   420  
   421  // fileExtSplit expects a filename and returns the name
   422  // and ext (without the dot). If the file has no
   423  // extension, ext will be empty.
   424  func fileExtSplit(file string) (name, ext string) {
   425  	dotExt := filepath.Ext(file)
   426  	name = file[:len(file)-len(dotExt)]
   427  	if dotExt != "" {
   428  		ext = dotExt[1:]
   429  	}
   430  	return
   431  }
   432  
   433  func pkgsMain(pkgs []*load.Package) (res []*load.Package) {
   434  	for _, p := range pkgs {
   435  		if p.Name == "main" {
   436  			res = append(res, p)
   437  		}
   438  	}
   439  	return res
   440  }
   441  
   442  func pkgsNotMain(pkgs []*load.Package) (res []*load.Package) {
   443  	for _, p := range pkgs {
   444  		if p.Name != "main" {
   445  			res = append(res, p)
   446  		}
   447  	}
   448  	return res
   449  }
   450  
   451  func oneMainPkg(pkgs []*load.Package) []*load.Package {
   452  	if len(pkgs) != 1 || pkgs[0].Name != "main" {
   453  		base.Fatalf("-buildmode=%s requires exactly one main package", cfg.BuildBuildmode)
   454  	}
   455  	return pkgs
   456  }
   457  
   458  var pkgsFilter = func(pkgs []*load.Package) []*load.Package { return pkgs }
   459  
   460  func runBuild(ctx context.Context, cmd *base.Command, args []string) {
   461  	modload.InitWorkfile()
   462  	BuildInit()
   463  	b := NewBuilder("")
   464  	defer func() {
   465  		if err := b.Close(); err != nil {
   466  			base.Fatal(err)
   467  		}
   468  	}()
   469  
   470  	pkgs := load.PackagesAndErrors(ctx, load.PackageOpts{AutoVCS: true}, args)
   471  	load.CheckPackageErrors(pkgs)
   472  
   473  	explicitO := len(cfg.BuildO) > 0
   474  
   475  	if len(pkgs) == 1 && pkgs[0].Name == "main" && cfg.BuildO == "" {
   476  		cfg.BuildO = pkgs[0].DefaultExecName()
   477  		cfg.BuildO += cfg.ExeSuffix
   478  	}
   479  
   480  	// sanity check some often mis-used options
   481  	switch cfg.BuildContext.Compiler {
   482  	case "gccgo":
   483  		if load.BuildGcflags.Present() {
   484  			fmt.Println("go build: when using gccgo toolchain, please pass compiler flags using -gccgoflags, not -gcflags")
   485  		}
   486  		if load.BuildLdflags.Present() {
   487  			fmt.Println("go build: when using gccgo toolchain, please pass linker flags using -gccgoflags, not -ldflags")
   488  		}
   489  	case "gc":
   490  		if load.BuildGccgoflags.Present() {
   491  			fmt.Println("go build: when using gc toolchain, please pass compile flags using -gcflags, and linker flags using -ldflags")
   492  		}
   493  	}
   494  
   495  	depMode := ModeBuild
   496  
   497  	pkgs = omitTestOnly(pkgsFilter(pkgs))
   498  
   499  	// Special case -o /dev/null by not writing at all.
   500  	if base.IsNull(cfg.BuildO) {
   501  		cfg.BuildO = ""
   502  	}
   503  
   504  	if cfg.Experiment.CoverageRedesign && cfg.BuildCover {
   505  		load.PrepareForCoverageBuild(pkgs)
   506  	}
   507  
   508  	if cfg.BuildO != "" {
   509  		// If the -o name exists and is a directory or
   510  		// ends with a slash or backslash, then
   511  		// write all main packages to that directory.
   512  		// Otherwise require only a single package be built.
   513  		if fi, err := os.Stat(cfg.BuildO); (err == nil && fi.IsDir()) ||
   514  			strings.HasSuffix(cfg.BuildO, "/") ||
   515  			strings.HasSuffix(cfg.BuildO, string(os.PathSeparator)) {
   516  			if !explicitO {
   517  				base.Fatalf("go: build output %q already exists and is a directory", cfg.BuildO)
   518  			}
   519  			a := &Action{Mode: "go build"}
   520  			for _, p := range pkgs {
   521  				if p.Name != "main" {
   522  					continue
   523  				}
   524  
   525  				p.Target = filepath.Join(cfg.BuildO, p.DefaultExecName())
   526  				p.Target += cfg.ExeSuffix
   527  				p.Stale = true
   528  				p.StaleReason = "build -o flag in use"
   529  				a.Deps = append(a.Deps, b.AutoAction(ModeInstall, depMode, p))
   530  			}
   531  			if len(a.Deps) == 0 {
   532  				base.Fatalf("go: no main packages to build")
   533  			}
   534  			b.Do(ctx, a)
   535  			return
   536  		}
   537  		if len(pkgs) > 1 {
   538  			base.Fatalf("go: cannot write multiple packages to non-directory %s", cfg.BuildO)
   539  		} else if len(pkgs) == 0 {
   540  			base.Fatalf("no packages to build")
   541  		}
   542  		p := pkgs[0]
   543  		p.Target = cfg.BuildO
   544  		p.Stale = true // must build - not up to date
   545  		p.StaleReason = "build -o flag in use"
   546  		a := b.AutoAction(ModeInstall, depMode, p)
   547  		b.Do(ctx, a)
   548  		return
   549  	}
   550  
   551  	a := &Action{Mode: "go build"}
   552  	for _, p := range pkgs {
   553  		a.Deps = append(a.Deps, b.AutoAction(ModeBuild, depMode, p))
   554  	}
   555  	if cfg.BuildBuildmode == "shared" {
   556  		a = b.buildmodeShared(ModeBuild, depMode, args, pkgs, a)
   557  	}
   558  	b.Do(ctx, a)
   559  }
   560  
   561  var CmdInstall = &base.Command{
   562  	UsageLine: "go install [build flags] [packages]",
   563  	Short:     "compile and install packages and dependencies",
   564  	Long: `
   565  Install compiles and installs the packages named by the import paths.
   566  
   567  Executables are installed in the directory named by the GOBIN environment
   568  variable, which defaults to $GOPATH/bin or $HOME/go/bin if the GOPATH
   569  environment variable is not set. Executables in $GOROOT
   570  are installed in $GOROOT/bin or $GOTOOLDIR instead of $GOBIN.
   571  
   572  If the arguments have version suffixes (like @latest or @v1.0.0), "go install"
   573  builds packages in module-aware mode, ignoring the go.mod file in the current
   574  directory or any parent directory, if there is one. This is useful for
   575  installing executables without affecting the dependencies of the main module.
   576  To eliminate ambiguity about which module versions are used in the build, the
   577  arguments must satisfy the following constraints:
   578  
   579  - Arguments must be package paths or package patterns (with "..." wildcards).
   580  They must not be standard packages (like fmt), meta-patterns (std, cmd,
   581  all), or relative or absolute file paths.
   582  
   583  - All arguments must have the same version suffix. Different queries are not
   584  allowed, even if they refer to the same version.
   585  
   586  - All arguments must refer to packages in the same module at the same version.
   587  
   588  - Package path arguments must refer to main packages. Pattern arguments
   589  will only match main packages.
   590  
   591  - No module is considered the "main" module. If the module containing
   592  packages named on the command line has a go.mod file, it must not contain
   593  directives (replace and exclude) that would cause it to be interpreted
   594  differently than if it were the main module. The module must not require
   595  a higher version of itself.
   596  
   597  - Vendor directories are not used in any module. (Vendor directories are not
   598  included in the module zip files downloaded by 'go install'.)
   599  
   600  If the arguments don't have version suffixes, "go install" may run in
   601  module-aware mode or GOPATH mode, depending on the GO111MODULE environment
   602  variable and the presence of a go.mod file. See 'go help modules' for details.
   603  If module-aware mode is enabled, "go install" runs in the context of the main
   604  module.
   605  
   606  When module-aware mode is disabled, non-main packages are installed in the
   607  directory $GOPATH/pkg/$GOOS_$GOARCH. When module-aware mode is enabled,
   608  non-main packages are built and cached but not installed.
   609  
   610  Before Go 1.20, the standard library was installed to
   611  $GOROOT/pkg/$GOOS_$GOARCH.
   612  Starting in Go 1.20, the standard library is built and cached but not installed.
   613  Setting GODEBUG=installgoroot=all restores the use of
   614  $GOROOT/pkg/$GOOS_$GOARCH.
   615  
   616  For more about build flags, see 'go help build'.
   617  
   618  For more about specifying packages, see 'go help packages'.
   619  
   620  See also: go build, go get, go clean.
   621  	`,
   622  }
   623  
   624  // libname returns the filename to use for the shared library when using
   625  // -buildmode=shared. The rules we use are:
   626  // Use arguments for special 'meta' packages:
   627  //
   628  //	std --> libstd.so
   629  //	std cmd --> libstd,cmd.so
   630  //
   631  // A single non-meta argument with trailing "/..." is special cased:
   632  //
   633  //	foo/... --> libfoo.so
   634  //	(A relative path like "./..."  expands the "." first)
   635  //
   636  // Use import paths for other cases, changing '/' to '-':
   637  //
   638  //	somelib --> libsubdir-somelib.so
   639  //	./ or ../ --> libsubdir-somelib.so
   640  //	gopkg.in/tomb.v2 -> libgopkg.in-tomb.v2.so
   641  //	a/... b/... ---> liba/c,b/d.so - all matching import paths
   642  //
   643  // Name parts are joined with ','.
   644  func libname(args []string, pkgs []*load.Package) (string, error) {
   645  	var libname string
   646  	appendName := func(arg string) {
   647  		if libname == "" {
   648  			libname = arg
   649  		} else {
   650  			libname += "," + arg
   651  		}
   652  	}
   653  	var haveNonMeta bool
   654  	for _, arg := range args {
   655  		if search.IsMetaPackage(arg) {
   656  			appendName(arg)
   657  		} else {
   658  			haveNonMeta = true
   659  		}
   660  	}
   661  	if len(libname) == 0 { // non-meta packages only. use import paths
   662  		if len(args) == 1 && strings.HasSuffix(args[0], "/...") {
   663  			// Special case of "foo/..." as mentioned above.
   664  			arg := strings.TrimSuffix(args[0], "/...")
   665  			if build.IsLocalImport(arg) {
   666  				cwd, _ := os.Getwd()
   667  				bp, _ := cfg.BuildContext.ImportDir(filepath.Join(cwd, arg), build.FindOnly)
   668  				if bp.ImportPath != "" && bp.ImportPath != "." {
   669  					arg = bp.ImportPath
   670  				}
   671  			}
   672  			appendName(strings.ReplaceAll(arg, "/", "-"))
   673  		} else {
   674  			for _, pkg := range pkgs {
   675  				appendName(strings.ReplaceAll(pkg.ImportPath, "/", "-"))
   676  			}
   677  		}
   678  	} else if haveNonMeta { // have both meta package and a non-meta one
   679  		return "", errors.New("mixing of meta and non-meta packages is not allowed")
   680  	}
   681  	// TODO(mwhudson): Needs to change for platforms that use different naming
   682  	// conventions...
   683  	return "lib" + libname + ".so", nil
   684  }
   685  
   686  func runInstall(ctx context.Context, cmd *base.Command, args []string) {
   687  	for _, arg := range args {
   688  		if strings.Contains(arg, "@") && !build.IsLocalImport(arg) && !filepath.IsAbs(arg) {
   689  			installOutsideModule(ctx, args)
   690  			return
   691  		}
   692  	}
   693  
   694  	modload.InitWorkfile()
   695  	BuildInit()
   696  	pkgs := load.PackagesAndErrors(ctx, load.PackageOpts{AutoVCS: true}, args)
   697  	if cfg.ModulesEnabled && !modload.HasModRoot() {
   698  		haveErrors := false
   699  		allMissingErrors := true
   700  		for _, pkg := range pkgs {
   701  			if pkg.Error == nil {
   702  				continue
   703  			}
   704  			haveErrors = true
   705  			if missingErr := (*modload.ImportMissingError)(nil); !errors.As(pkg.Error, &missingErr) {
   706  				allMissingErrors = false
   707  				break
   708  			}
   709  		}
   710  		if haveErrors && allMissingErrors {
   711  			latestArgs := make([]string, len(args))
   712  			for i := range args {
   713  				latestArgs[i] = args[i] + "@latest"
   714  			}
   715  			hint := strings.Join(latestArgs, " ")
   716  			base.Fatalf("go: 'go install' requires a version when current directory is not in a module\n\tTry 'go install %s' to install the latest version", hint)
   717  		}
   718  	}
   719  	load.CheckPackageErrors(pkgs)
   720  
   721  	if cfg.Experiment.CoverageRedesign && cfg.BuildCover {
   722  		load.PrepareForCoverageBuild(pkgs)
   723  	}
   724  
   725  	InstallPackages(ctx, args, pkgs)
   726  }
   727  
   728  // omitTestOnly returns pkgs with test-only packages removed.
   729  func omitTestOnly(pkgs []*load.Package) []*load.Package {
   730  	var list []*load.Package
   731  	for _, p := range pkgs {
   732  		if len(p.GoFiles)+len(p.CgoFiles) == 0 && !p.Internal.CmdlinePkgLiteral {
   733  			// Package has no source files,
   734  			// perhaps due to build tags or perhaps due to only having *_test.go files.
   735  			// Also, it is only being processed as the result of a wildcard match
   736  			// like ./..., not because it was listed as a literal path on the command line.
   737  			// Ignore it.
   738  			continue
   739  		}
   740  		list = append(list, p)
   741  	}
   742  	return list
   743  }
   744  
   745  func InstallPackages(ctx context.Context, patterns []string, pkgs []*load.Package) {
   746  	ctx, span := trace.StartSpan(ctx, "InstallPackages "+strings.Join(patterns, " "))
   747  	defer span.Done()
   748  
   749  	if cfg.GOBIN != "" && !filepath.IsAbs(cfg.GOBIN) {
   750  		base.Fatalf("cannot install, GOBIN must be an absolute path")
   751  	}
   752  
   753  	pkgs = omitTestOnly(pkgsFilter(pkgs))
   754  	for _, p := range pkgs {
   755  		if p.Target == "" {
   756  			switch {
   757  			case p.Name != "main" && p.Internal.Local && p.ConflictDir == "":
   758  				// Non-executables outside GOPATH need not have a target:
   759  				// we can use the cache to hold the built package archive for use in future builds.
   760  				// The ones inside GOPATH should have a target (in GOPATH/pkg)
   761  				// or else something is wrong and worth reporting (like a ConflictDir).
   762  			case p.Name != "main" && p.Module != nil:
   763  				// Non-executables have no target (except the cache) when building with modules.
   764  			case p.Name != "main" && p.Standard && p.Internal.Build.PkgObj == "":
   765  				// Most packages in std do not need an installed .a, because they can be
   766  				// rebuilt and used directly from the build cache.
   767  				// A few targets (notably those using cgo) still do need to be installed
   768  				// in case the user's environment lacks a C compiler.
   769  			case p.Internal.GobinSubdir:
   770  				base.Errorf("go: cannot install cross-compiled binaries when GOBIN is set")
   771  			case p.Internal.CmdlineFiles:
   772  				base.Errorf("go: no install location for .go files listed on command line (GOBIN not set)")
   773  			case p.ConflictDir != "":
   774  				base.Errorf("go: no install location for %s: hidden by %s", p.Dir, p.ConflictDir)
   775  			default:
   776  				base.Errorf("go: no install location for directory %s outside GOPATH\n"+
   777  					"\tFor more details see: 'go help gopath'", p.Dir)
   778  			}
   779  		}
   780  	}
   781  	base.ExitIfErrors()
   782  
   783  	b := NewBuilder("")
   784  	defer func() {
   785  		if err := b.Close(); err != nil {
   786  			base.Fatal(err)
   787  		}
   788  	}()
   789  
   790  	depMode := ModeBuild
   791  	a := &Action{Mode: "go install"}
   792  	var tools []*Action
   793  	for _, p := range pkgs {
   794  		// If p is a tool, delay the installation until the end of the build.
   795  		// This avoids installing assemblers/compilers that are being executed
   796  		// by other steps in the build.
   797  		a1 := b.AutoAction(ModeInstall, depMode, p)
   798  		if load.InstallTargetDir(p) == load.ToTool {
   799  			a.Deps = append(a.Deps, a1.Deps...)
   800  			a1.Deps = append(a1.Deps, a)
   801  			tools = append(tools, a1)
   802  			continue
   803  		}
   804  		a.Deps = append(a.Deps, a1)
   805  	}
   806  	if len(tools) > 0 {
   807  		a = &Action{
   808  			Mode: "go install (tools)",
   809  			Deps: tools,
   810  		}
   811  	}
   812  
   813  	if cfg.BuildBuildmode == "shared" {
   814  		// Note: If buildmode=shared then only non-main packages
   815  		// are present in the pkgs list, so all the special case code about
   816  		// tools above did not apply, and a is just a simple Action
   817  		// with a list of Deps, one per package named in pkgs,
   818  		// the same as in runBuild.
   819  		a = b.buildmodeShared(ModeInstall, ModeInstall, patterns, pkgs, a)
   820  	}
   821  
   822  	b.Do(ctx, a)
   823  	base.ExitIfErrors()
   824  
   825  	// Success. If this command is 'go install' with no arguments
   826  	// and the current directory (the implicit argument) is a command,
   827  	// remove any leftover command binary from a previous 'go build'.
   828  	// The binary is installed; it's not needed here anymore.
   829  	// And worse it might be a stale copy, which you don't want to find
   830  	// instead of the installed one if $PATH contains dot.
   831  	// One way to view this behavior is that it is as if 'go install' first
   832  	// runs 'go build' and the moves the generated file to the install dir.
   833  	// See issue 9645.
   834  	if len(patterns) == 0 && len(pkgs) == 1 && pkgs[0].Name == "main" {
   835  		// Compute file 'go build' would have created.
   836  		// If it exists and is an executable file, remove it.
   837  		targ := pkgs[0].DefaultExecName()
   838  		targ += cfg.ExeSuffix
   839  		if filepath.Join(pkgs[0].Dir, targ) != pkgs[0].Target { // maybe $GOBIN is the current directory
   840  			fi, err := os.Stat(targ)
   841  			if err == nil {
   842  				m := fi.Mode()
   843  				if m.IsRegular() {
   844  					if m&0111 != 0 || cfg.Goos == "windows" { // windows never sets executable bit
   845  						os.Remove(targ)
   846  					}
   847  				}
   848  			}
   849  		}
   850  	}
   851  }
   852  
   853  // installOutsideModule implements 'go install pkg@version'. It builds and
   854  // installs one or more main packages in module mode while ignoring any go.mod
   855  // in the current directory or parent directories.
   856  //
   857  // See golang.org/issue/40276 for details and rationale.
   858  func installOutsideModule(ctx context.Context, args []string) {
   859  	modload.ForceUseModules = true
   860  	modload.RootMode = modload.NoRoot
   861  	modload.AllowMissingModuleImports()
   862  	modload.Init()
   863  	BuildInit()
   864  
   865  	// Load packages. Ignore non-main packages.
   866  	// Print a warning if an argument contains "..." and matches no main packages.
   867  	// PackagesAndErrors already prints warnings for patterns that don't match any
   868  	// packages, so be careful not to double print.
   869  	// TODO(golang.org/issue/40276): don't report errors loading non-main packages
   870  	// matched by a pattern.
   871  	pkgOpts := load.PackageOpts{MainOnly: true}
   872  	pkgs, err := load.PackagesAndErrorsOutsideModule(ctx, pkgOpts, args)
   873  	if err != nil {
   874  		base.Fatal(err)
   875  	}
   876  	load.CheckPackageErrors(pkgs)
   877  	patterns := make([]string, len(args))
   878  	for i, arg := range args {
   879  		patterns[i] = arg[:strings.Index(arg, "@")]
   880  	}
   881  
   882  	// Build and install the packages.
   883  	InstallPackages(ctx, patterns, pkgs)
   884  }
   885  
   886  // ExecCmd is the command to use to run user binaries.
   887  // Normally it is empty, meaning run the binaries directly.
   888  // If cross-compiling and running on a remote system or
   889  // simulator, it is typically go_GOOS_GOARCH_exec, with
   890  // the target GOOS and GOARCH substituted.
   891  // The -exec flag overrides these defaults.
   892  var ExecCmd []string
   893  
   894  // FindExecCmd derives the value of ExecCmd to use.
   895  // It returns that value and leaves ExecCmd set for direct use.
   896  func FindExecCmd() []string {
   897  	if ExecCmd != nil {
   898  		return ExecCmd
   899  	}
   900  	ExecCmd = []string{} // avoid work the second time
   901  	if cfg.Goos == runtime.GOOS && cfg.Goarch == runtime.GOARCH {
   902  		return ExecCmd
   903  	}
   904  	path, err := cfg.LookPath(fmt.Sprintf("go_%s_%s_exec", cfg.Goos, cfg.Goarch))
   905  	if err == nil {
   906  		ExecCmd = []string{path}
   907  	}
   908  	return ExecCmd
   909  }
   910  
   911  // A coverFlag is a flag.Value that also implies -cover.
   912  type coverFlag struct{ V flag.Value }
   913  
   914  func (f coverFlag) String() string { return f.V.String() }
   915  
   916  func (f coverFlag) Set(value string) error {
   917  	if err := f.V.Set(value); err != nil {
   918  		return err
   919  	}
   920  	cfg.BuildCover = true
   921  	return nil
   922  }
   923  
   924  type coverModeFlag string
   925  
   926  func (f *coverModeFlag) String() string { return string(*f) }
   927  func (f *coverModeFlag) Set(value string) error {
   928  	switch value {
   929  	case "", "set", "count", "atomic":
   930  		*f = coverModeFlag(value)
   931  		cfg.BuildCoverMode = value
   932  		return nil
   933  	default:
   934  		return errors.New(`valid modes are "set", "count", or "atomic"`)
   935  	}
   936  }
   937  
   938  // A commaListFlag is a flag.Value representing a comma-separated list.
   939  type commaListFlag struct{ Vals *[]string }
   940  
   941  func (f commaListFlag) String() string { return strings.Join(*f.Vals, ",") }
   942  
   943  func (f commaListFlag) Set(value string) error {
   944  	if value == "" {
   945  		*f.Vals = nil
   946  	} else {
   947  		*f.Vals = strings.Split(value, ",")
   948  	}
   949  	return nil
   950  }
   951  
   952  // A stringFlag is a flag.Value representing a single string.
   953  type stringFlag struct{ val *string }
   954  
   955  func (f stringFlag) String() string { return *f.val }
   956  func (f stringFlag) Set(value string) error {
   957  	*f.val = value
   958  	return nil
   959  }
   960  

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