tinygo/loader/goroot.go

package loader

// This file constructs a new temporary GOROOT directory by merging both the
// standard Go GOROOT and the GOROOT from TinyGo using symlinks.

import (
	"crypto/sha512"
	"encoding/hex"
	"errors"
	"fmt"
	"io"
	"io/ioutil"
	"os"
	"os/exec"
	"path"
	"path/filepath"
	"runtime"

	"github.com/tinygo-org/tinygo/compileopts"
	"github.com/tinygo-org/tinygo/goenv"
)

// GetCachedGoroot creates a new GOROOT by merging both the standard GOROOT and
// the GOROOT from TinyGo using lots of symbolic links.
func GetCachedGoroot(config *compileopts.Config) (string, error) {
	goroot := goenv.Get("GOROOT")
	if goroot == "" {
		return "", errors.New("could not determine GOROOT")
	}
	tinygoroot := goenv.Get("TINYGOROOT")
	if tinygoroot == "" {
		return "", errors.New("could not determine TINYGOROOT")
	}

	// Determine the location of the cached GOROOT.
	version, err := goenv.GorootVersionString(goroot)
	if err != nil {
		return "", err
	}
	// This hash is really a cache key, that contains (hopefully) enough
	// information to make collisions unlikely during development.
	// By including the Go version and TinyGo version, cache collisions should
	// not happen outside of development.
	hash := sha512.New512_256()
	fmt.Fprintln(hash, goroot)
	fmt.Fprintln(hash, version)
	fmt.Fprintln(hash, goenv.Version)
	fmt.Fprintln(hash, tinygoroot)
	gorootsHash := hash.Sum(nil)
	gorootsHashHex := hex.EncodeToString(gorootsHash[:])
	cachedgorootName := "goroot-" + version + "-" + gorootsHashHex
	cachedgoroot := filepath.Join(goenv.Get("GOCACHE"), cachedgorootName)
	if needsSyscallPackage(config.BuildTags()) {
		cachedgoroot += "-syscall"
	}

	if _, err := os.Stat(cachedgoroot); err == nil {
		return cachedgoroot, nil
	}
	err = os.MkdirAll(goenv.Get("GOCACHE"), 0777)
	if err != nil {
		return "", err
	}
	tmpgoroot, err := ioutil.TempDir(goenv.Get("GOCACHE"), cachedgorootName+".tmp")
	if err != nil {
		return "", err
	}

	// Remove the temporary directory if it wasn't moved to the right place
	// (for example, when there was an error).
	defer os.RemoveAll(tmpgoroot)

	for _, name := range []string{"bin", "lib", "pkg"} {
		err = symlink(filepath.Join(goroot, name), filepath.Join(tmpgoroot, name))
		if err != nil {
			return "", err
		}
	}
	err = mergeDirectory(goroot, tinygoroot, tmpgoroot, "", pathsToOverride(needsSyscallPackage(config.BuildTags())))
	if err != nil {
		return "", err
	}
	err = os.Rename(tmpgoroot, cachedgoroot)
	if err != nil {
		if os.IsExist(err) {
			// Another invocation of TinyGo also seems to have created a GOROOT.
			// Use that one instead. Our new GOROOT will be automatically
			// deleted by the defer above.
			return cachedgoroot, nil
		}
		return "", err
	}
	return cachedgoroot, nil
}

// mergeDirectory merges two roots recursively. The tmpgoroot is the directory
// that will be created by this call by either symlinking the directory from
// goroot or tinygoroot, or by creating the directory and merging the contents.
func mergeDirectory(goroot, tinygoroot, tmpgoroot, importPath string, overrides map[string]bool) error {
	if mergeSubdirs, ok := overrides[importPath+"/"]; ok {
		if !mergeSubdirs {
			// This directory and all subdirectories should come from the TinyGo
			// root, so simply make a symlink.
			newname := filepath.Join(tmpgoroot, "src", importPath)
			oldname := filepath.Join(tinygoroot, "src", importPath)
			return symlink(oldname, newname)
		}

		// Merge subdirectories. Start by making the directory to merge.
		err := os.Mkdir(filepath.Join(tmpgoroot, "src", importPath), 0777)
		if err != nil {
			return err
		}

		// Symlink all files from TinyGo, and symlink directories from TinyGo
		// that need to be overridden.
		tinygoEntries, err := ioutil.ReadDir(filepath.Join(tinygoroot, "src", importPath))
		if err != nil {
			return err
		}
		for _, e := range tinygoEntries {
			if e.IsDir() {
				// A directory, so merge this thing.
				err := mergeDirectory(goroot, tinygoroot, tmpgoroot, path.Join(importPath, e.Name()), overrides)
				if err != nil {
					return err
				}
			} else {
				// A file, so symlink this.
				newname := filepath.Join(tmpgoroot, "src", importPath, e.Name())
				oldname := filepath.Join(tinygoroot, "src", importPath, e.Name())
				err := symlink(oldname, newname)
				if err != nil {
					return err
				}
			}
		}

		// Symlink all directories from $GOROOT that are not part of the TinyGo
		// overrides.
		gorootEntries, err := ioutil.ReadDir(filepath.Join(goroot, "src", importPath))
		if err != nil {
			return err
		}
		for _, e := range gorootEntries {
			if !e.IsDir() {
				// Don't merge in files from Go. Otherwise we'd end up with a
				// weird syscall package with files from both roots.
				continue
			}
			if _, ok := overrides[path.Join(importPath, e.Name())+"/"]; ok {
				// Already included above, so don't bother trying to create this
				// symlink.
				continue
			}
			newname := filepath.Join(tmpgoroot, "src", importPath, e.Name())
			oldname := filepath.Join(goroot, "src", importPath, e.Name())
			err := symlink(oldname, newname)
			if err != nil {
				return err
			}
		}
	}
	return nil
}

// needsSyscallPackage returns whether the syscall package should be overriden
// with the TinyGo version. This is the case on some targets.
func needsSyscallPackage(buildTags []string) bool {
	for _, tag := range buildTags {
		if tag == "baremetal" || tag == "darwin" || tag == "nintendoswitch" {
			return true
		}
	}
	return false
}

// The boolean indicates whether to merge the subdirs. True means merge, false
// means use the TinyGo version.
func pathsToOverride(needsSyscallPackage bool) map[string]bool {
	paths := map[string]bool{
		"/":                     true,
		"device/":               false,
		"examples/":             false,
		"internal/":             true,
		"internal/bytealg/":     false,
		"internal/reflectlite/": false,
		"internal/task/":        false,
		"machine/":              false,
		"os/":                   true,
		"reflect/":              false,
		"runtime/":              false,
		"sync/":                 true,
		"testing/":              false,
	}
	if needsSyscallPackage {
		paths["syscall/"] = true // include syscall/js
	}
	return paths
}

// symlink creates a symlink or something similar. On Unix-like systems, it
// always creates a symlink. On Windows, it tries to create a symlink and if
// that fails, creates a hardlink or directory junction instead.
//
// Note that while Windows 10 does support symlinks and allows them to be
// created using os.Symlink, it requires developer mode to be enabled.
// Therefore provide a fallback for when symlinking is not possible.
// Unfortunately this fallback only works when TinyGo is installed on the same
// filesystem as the TinyGo cache and the Go installation (which is usually the
// C drive).
func symlink(oldname, newname string) error {
	symlinkErr := os.Symlink(oldname, newname)
	if runtime.GOOS == "windows" && symlinkErr != nil {
		// Fallback for when developer mode is disabled.
		// Note that we return the symlink error even if something else fails
		// later on. This is because symlinks are the easiest to support
		// (they're also used on Linux and MacOS) and enabling them is easy:
		// just enable developer mode.
		st, err := os.Stat(oldname)
		if err != nil {
			return symlinkErr
		}
		if st.IsDir() {
			// Make a directory junction. There may be a way to do this
			// programmatically, but it involves a lot of magic. Use the mklink
			// command built into cmd instead (mklink is a builtin, not an
			// external command).
			err := exec.Command("cmd", "/k", "mklink", "/J", newname, oldname).Run()
			if err != nil {
				return symlinkErr
			}
		} else {
			// Try making a hard link.
			err := os.Link(oldname, newname)
			if err != nil {
				// Making a hardlink failed. Try copying the file as a last
				// fallback.
				inf, err := os.Open(oldname)
				if err != nil {
					return err
				}
				defer inf.Close()
				outf, err := os.Create(newname)
				if err != nil {
					return err
				}
				defer outf.Close()
				_, err = io.Copy(outf, inf)
				if err != nil {
					os.Remove(newname)
					return err
				}
				// File was copied.
			}
		}
		return nil // success
	}
	return symlinkErr
}
loader: merge roots from both Go and TinyGo in a cached directory This commit changes the way that packages are looked up. Instead of working around the loader package by modifying the GOROOT variable for specific packages, create a new GOROOT using symlinks. This GOROOT is cached for the specified configuration (Go version, underlying GOROOT path, TinyGo path, whether to override the syscall package). This will also enable go module support in the future. Windows is a bit harder to support, because it only allows the creation of symlinks when developer mode is enabled. This is worked around by using symlinks and if that fails, using directory junctions or hardlinks instead. This should work in the vast majority of cases. The only case it doesn't work, is if developer mode is disabled and TinyGo, the Go toolchain, and the cache directory are not all on the same filesystem. If this is a problem, it is still possible to improve the code by using file copies instead. As a side effect, this also makes diagnostics use a relative file path only when the file is not in GOROOT or in TINYGOROOT. 5 years ago			`package loader`

			`// This file constructs a new temporary GOROOT directory by merging both the`
			`// standard Go GOROOT and the GOROOT from TinyGo using symlinks.`

			`import (`
			`"crypto/sha512"`
			`"encoding/hex"`
			`"errors"`
			`"fmt"`
loader: work around Windows symlink limitation Currently there will be a problem if the TinyGo installation directory is not the same filesystem as the cache directory (usually the C drive) and Developer Mode is disabled. Therefore, let's add another fallback for when both conditions are true, falling back to copying the file instead of symlinking/hardlinking it. 4 years ago			`"io"`
loader: merge roots from both Go and TinyGo in a cached directory This commit changes the way that packages are looked up. Instead of working around the loader package by modifying the GOROOT variable for specific packages, create a new GOROOT using symlinks. This GOROOT is cached for the specified configuration (Go version, underlying GOROOT path, TinyGo path, whether to override the syscall package). This will also enable go module support in the future. Windows is a bit harder to support, because it only allows the creation of symlinks when developer mode is enabled. This is worked around by using symlinks and if that fails, using directory junctions or hardlinks instead. This should work in the vast majority of cases. The only case it doesn't work, is if developer mode is disabled and TinyGo, the Go toolchain, and the cache directory are not all on the same filesystem. If this is a problem, it is still possible to improve the code by using file copies instead. As a side effect, this also makes diagnostics use a relative file path only when the file is not in GOROOT or in TINYGOROOT. 5 years ago			`"io/ioutil"`
			`"os"`
			`"os/exec"`
			`"path"`
			`"path/filepath"`
			`"runtime"`

			`"github.com/tinygo-org/tinygo/compileopts"`
			`"github.com/tinygo-org/tinygo/goenv"`
			`)`

			`// GetCachedGoroot creates a new GOROOT by merging both the standard GOROOT and`
			`// the GOROOT from TinyGo using lots of symbolic links.`
			`func GetCachedGoroot(config *compileopts.Config) (string, error) {`
			`goroot := goenv.Get("GOROOT")`
			`if goroot == "" {`
			`return "", errors.New("could not determine GOROOT")`
			`}`
			`tinygoroot := goenv.Get("TINYGOROOT")`
			`if tinygoroot == "" {`
			`return "", errors.New("could not determine TINYGOROOT")`
			`}`

			`// Determine the location of the cached GOROOT.`
			`version, err := goenv.GorootVersionString(goroot)`
			`if err != nil {`
			`return "", err`
			`}`
			`// This hash is really a cache key, that contains (hopefully) enough`
			`// information to make collisions unlikely during development.`
			`// By including the Go version and TinyGo version, cache collisions should`
			`// not happen outside of development.`
			`hash := sha512.New512_256()`
			`fmt.Fprintln(hash, goroot)`
			`fmt.Fprintln(hash, version)`
			`fmt.Fprintln(hash, goenv.Version)`
			`fmt.Fprintln(hash, tinygoroot)`
			`gorootsHash := hash.Sum(nil)`
			`gorootsHashHex := hex.EncodeToString(gorootsHash[:])`
loader: use ioutil.TempDir to create a temporary directory ... instead of generating one with math/rand. The problem was that math/rand is deterministic across runs, resulting in a possible race when trying to create the same directory between two processes. Additionally, because I used `os.MkdirAll`, no error was reported when the directory already existed. The solution to this is to use the stdlib function designed for this: ioutil.TempDir. 4 years ago			`cachedgorootName := "goroot-" + version + "-" + gorootsHashHex`
			`cachedgoroot := filepath.Join(goenv.Get("GOCACHE"), cachedgorootName)`
loader: merge roots from both Go and TinyGo in a cached directory This commit changes the way that packages are looked up. Instead of working around the loader package by modifying the GOROOT variable for specific packages, create a new GOROOT using symlinks. This GOROOT is cached for the specified configuration (Go version, underlying GOROOT path, TinyGo path, whether to override the syscall package). This will also enable go module support in the future. Windows is a bit harder to support, because it only allows the creation of symlinks when developer mode is enabled. This is worked around by using symlinks and if that fails, using directory junctions or hardlinks instead. This should work in the vast majority of cases. The only case it doesn't work, is if developer mode is disabled and TinyGo, the Go toolchain, and the cache directory are not all on the same filesystem. If this is a problem, it is still possible to improve the code by using file copies instead. As a side effect, this also makes diagnostics use a relative file path only when the file is not in GOROOT or in TINYGOROOT. 5 years ago			`if needsSyscallPackage(config.BuildTags()) {`
			`cachedgoroot += "-syscall"`
			`}`

			`if _, err := os.Stat(cachedgoroot); err == nil {`
			`return cachedgoroot, nil`
			`}`
loader: use ioutil.TempDir to create a temporary directory ... instead of generating one with math/rand. The problem was that math/rand is deterministic across runs, resulting in a possible race when trying to create the same directory between two processes. Additionally, because I used `os.MkdirAll`, no error was reported when the directory already existed. The solution to this is to use the stdlib function designed for this: ioutil.TempDir. 4 years ago			`err = os.MkdirAll(goenv.Get("GOCACHE"), 0777)`
			`if err != nil {`
			`return "", err`
			`}`
			`tmpgoroot, err := ioutil.TempDir(goenv.Get("GOCACHE"), cachedgorootName+".tmp")`
loader: merge roots from both Go and TinyGo in a cached directory This commit changes the way that packages are looked up. Instead of working around the loader package by modifying the GOROOT variable for specific packages, create a new GOROOT using symlinks. This GOROOT is cached for the specified configuration (Go version, underlying GOROOT path, TinyGo path, whether to override the syscall package). This will also enable go module support in the future. Windows is a bit harder to support, because it only allows the creation of symlinks when developer mode is enabled. This is worked around by using symlinks and if that fails, using directory junctions or hardlinks instead. This should work in the vast majority of cases. The only case it doesn't work, is if developer mode is disabled and TinyGo, the Go toolchain, and the cache directory are not all on the same filesystem. If this is a problem, it is still possible to improve the code by using file copies instead. As a side effect, this also makes diagnostics use a relative file path only when the file is not in GOROOT or in TINYGOROOT. 5 years ago			`if err != nil {`
			`return "", err`
			`}`

			`// Remove the temporary directory if it wasn't moved to the right place`
			`// (for example, when there was an error).`
			`defer os.RemoveAll(tmpgoroot)`

			`for _, name := range []string{"bin", "lib", "pkg"} {`
			`err = symlink(filepath.Join(goroot, name), filepath.Join(tmpgoroot, name))`
			`if err != nil {`
			`return "", err`
			`}`
			`}`
			`err = mergeDirectory(goroot, tinygoroot, tmpgoroot, "", pathsToOverride(needsSyscallPackage(config.BuildTags())))`
			`if err != nil {`
			`return "", err`
			`}`
			`err = os.Rename(tmpgoroot, cachedgoroot)`
			`if err != nil {`
			`if os.IsExist(err) {`
			`// Another invocation of TinyGo also seems to have created a GOROOT.`
			`// Use that one instead. Our new GOROOT will be automatically`
			`// deleted by the defer above.`
			`return cachedgoroot, nil`
			`}`
			`return "", err`
			`}`
			`return cachedgoroot, nil`
			`}`

			`// mergeDirectory merges two roots recursively. The tmpgoroot is the directory`
			`// that will be created by this call by either symlinking the directory from`
			`// goroot or tinygoroot, or by creating the directory and merging the contents.`
			`func mergeDirectory(goroot, tinygoroot, tmpgoroot, importPath string, overrides map[string]bool) error {`
			`if mergeSubdirs, ok := overrides[importPath+"/"]; ok {`
			`if !mergeSubdirs {`
			`// This directory and all subdirectories should come from the TinyGo`
			`// root, so simply make a symlink.`
			`newname := filepath.Join(tmpgoroot, "src", importPath)`
			`oldname := filepath.Join(tinygoroot, "src", importPath)`
			`return symlink(oldname, newname)`
			`}`

			`// Merge subdirectories. Start by making the directory to merge.`
			`err := os.Mkdir(filepath.Join(tmpgoroot, "src", importPath), 0777)`
			`if err != nil {`
			`return err`
			`}`

			`// Symlink all files from TinyGo, and symlink directories from TinyGo`
			`// that need to be overridden.`
			`tinygoEntries, err := ioutil.ReadDir(filepath.Join(tinygoroot, "src", importPath))`
			`if err != nil {`
			`return err`
			`}`
			`for _, e := range tinygoEntries {`
			`if e.IsDir() {`
			`// A directory, so merge this thing.`
			`err := mergeDirectory(goroot, tinygoroot, tmpgoroot, path.Join(importPath, e.Name()), overrides)`
			`if err != nil {`
			`return err`
			`}`
			`} else {`
			`// A file, so symlink this.`
			`newname := filepath.Join(tmpgoroot, "src", importPath, e.Name())`
			`oldname := filepath.Join(tinygoroot, "src", importPath, e.Name())`
			`err := symlink(oldname, newname)`
			`if err != nil {`
			`return err`
			`}`
			`}`
			`}`

			`// Symlink all directories from $GOROOT that are not part of the TinyGo`
			`// overrides.`
			`gorootEntries, err := ioutil.ReadDir(filepath.Join(goroot, "src", importPath))`
			`if err != nil {`
			`return err`
			`}`
			`for _, e := range gorootEntries {`
			`if !e.IsDir() {`
			`// Don't merge in files from Go. Otherwise we'd end up with a`
			`// weird syscall package with files from both roots.`
			`continue`
			`}`
			`if _, ok := overrides[path.Join(importPath, e.Name())+"/"]; ok {`
			`// Already included above, so don't bother trying to create this`
			`// symlink.`
			`continue`
			`}`
			`newname := filepath.Join(tmpgoroot, "src", importPath, e.Name())`
			`oldname := filepath.Join(goroot, "src", importPath, e.Name())`
			`err := symlink(oldname, newname)`
			`if err != nil {`
			`return err`
			`}`
			`}`
			`}`
			`return nil`
			`}`

			`// needsSyscallPackage returns whether the syscall package should be overriden`
			`// with the TinyGo version. This is the case on some targets.`
			`func needsSyscallPackage(buildTags []string) bool {`
			`for _, tag := range buildTags {`
nintendoswitch: Add experimental Nintendo Switch support without CRT Bare minimal nintendo switch support using LLD 5 years ago			`if tag == "baremetal" \|\| tag == "darwin" \|\| tag == "nintendoswitch" {`
loader: merge roots from both Go and TinyGo in a cached directory This commit changes the way that packages are looked up. Instead of working around the loader package by modifying the GOROOT variable for specific packages, create a new GOROOT using symlinks. This GOROOT is cached for the specified configuration (Go version, underlying GOROOT path, TinyGo path, whether to override the syscall package). This will also enable go module support in the future. Windows is a bit harder to support, because it only allows the creation of symlinks when developer mode is enabled. This is worked around by using symlinks and if that fails, using directory junctions or hardlinks instead. This should work in the vast majority of cases. The only case it doesn't work, is if developer mode is disabled and TinyGo, the Go toolchain, and the cache directory are not all on the same filesystem. If this is a problem, it is still possible to improve the code by using file copies instead. As a side effect, this also makes diagnostics use a relative file path only when the file is not in GOROOT or in TINYGOROOT. 5 years ago			`return true`
			`}`
			`}`
			`return false`
			`}`

			`// The boolean indicates whether to merge the subdirs. True means merge, false`
			`// means use the TinyGo version.`
			`func pathsToOverride(needsSyscallPackage bool) map[string]bool {`
			`paths := map[string]bool{`
			`"/": true,`
			`"device/": false,`
			`"examples/": false,`
			`"internal/": true,`
			`"internal/bytealg/": false,`
			`"internal/reflectlite/": false,`
			`"internal/task/": false,`
			`"machine/": false,`
			`"os/": true,`
			`"reflect/": false,`
			`"runtime/": false,`
			`"sync/": true,`
			`"testing/": false,`
			`}`
			`if needsSyscallPackage {`
			`paths["syscall/"] = true // include syscall/js`
			`}`
			`return paths`
			`}`

			`// symlink creates a symlink or something similar. On Unix-like systems, it`
			`// always creates a symlink. On Windows, it tries to create a symlink and if`
			`// that fails, creates a hardlink or directory junction instead.`
			`//`
			`// Note that while Windows 10 does support symlinks and allows them to be`
			`// created using os.Symlink, it requires developer mode to be enabled.`
			`// Therefore provide a fallback for when symlinking is not possible.`
			`// Unfortunately this fallback only works when TinyGo is installed on the same`
			`// filesystem as the TinyGo cache and the Go installation (which is usually the`
			`// C drive).`
			`func symlink(oldname, newname string) error {`
			`symlinkErr := os.Symlink(oldname, newname)`
			`if runtime.GOOS == "windows" && symlinkErr != nil {`
			`// Fallback for when developer mode is disabled.`
			`// Note that we return the symlink error even if something else fails`
			`// later on. This is because symlinks are the easiest to support`
			`// (they're also used on Linux and MacOS) and enabling them is easy:`
			`// just enable developer mode.`
			`st, err := os.Stat(oldname)`
			`if err != nil {`
			`return symlinkErr`
			`}`
			`if st.IsDir() {`
			`// Make a directory junction. There may be a way to do this`
			`// programmatically, but it involves a lot of magic. Use the mklink`
			`// command built into cmd instead (mklink is a builtin, not an`
			`// external command).`
			`err := exec.Command("cmd", "/k", "mklink", "/J", newname, oldname).Run()`
			`if err != nil {`
			`return symlinkErr`
			`}`
			`} else {`
loader: work around Windows symlink limitation Currently there will be a problem if the TinyGo installation directory is not the same filesystem as the cache directory (usually the C drive) and Developer Mode is disabled. Therefore, let's add another fallback for when both conditions are true, falling back to copying the file instead of symlinking/hardlinking it. 4 years ago			`// Try making a hard link.`
loader: merge roots from both Go and TinyGo in a cached directory This commit changes the way that packages are looked up. Instead of working around the loader package by modifying the GOROOT variable for specific packages, create a new GOROOT using symlinks. This GOROOT is cached for the specified configuration (Go version, underlying GOROOT path, TinyGo path, whether to override the syscall package). This will also enable go module support in the future. Windows is a bit harder to support, because it only allows the creation of symlinks when developer mode is enabled. This is worked around by using symlinks and if that fails, using directory junctions or hardlinks instead. This should work in the vast majority of cases. The only case it doesn't work, is if developer mode is disabled and TinyGo, the Go toolchain, and the cache directory are not all on the same filesystem. If this is a problem, it is still possible to improve the code by using file copies instead. As a side effect, this also makes diagnostics use a relative file path only when the file is not in GOROOT or in TINYGOROOT. 5 years ago			`err := os.Link(oldname, newname)`
			`if err != nil {`
loader: work around Windows symlink limitation Currently there will be a problem if the TinyGo installation directory is not the same filesystem as the cache directory (usually the C drive) and Developer Mode is disabled. Therefore, let's add another fallback for when both conditions are true, falling back to copying the file instead of symlinking/hardlinking it. 4 years ago			`// Making a hardlink failed. Try copying the file as a last`
			`// fallback.`
			`inf, err := os.Open(oldname)`
			`if err != nil {`
			`return err`
			`}`
			`defer inf.Close()`
			`outf, err := os.Create(newname)`
			`if err != nil {`
			`return err`
			`}`
			`defer outf.Close()`
			`_, err = io.Copy(outf, inf)`
			`if err != nil {`
			`os.Remove(newname)`
			`return err`
			`}`
			`// File was copied.`
loader: merge roots from both Go and TinyGo in a cached directory This commit changes the way that packages are looked up. Instead of working around the loader package by modifying the GOROOT variable for specific packages, create a new GOROOT using symlinks. This GOROOT is cached for the specified configuration (Go version, underlying GOROOT path, TinyGo path, whether to override the syscall package). This will also enable go module support in the future. Windows is a bit harder to support, because it only allows the creation of symlinks when developer mode is enabled. This is worked around by using symlinks and if that fails, using directory junctions or hardlinks instead. This should work in the vast majority of cases. The only case it doesn't work, is if developer mode is disabled and TinyGo, the Go toolchain, and the cache directory are not all on the same filesystem. If this is a problem, it is still possible to improve the code by using file copies instead. As a side effect, this also makes diagnostics use a relative file path only when the file is not in GOROOT or in TINYGOROOT. 5 years ago			`}`
			`}`
			`return nil // success`
			`}`
			`return symlinkErr`
			`}`