// Copyright 2018 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package module defines the module.Version type along with support code. // // The [module.Version] type is a simple Path, Version pair: // // type Version struct { // Path string // Version string // } // // There are no restrictions imposed directly by use of this structure, // but additional checking functions, most notably [Check], verify that // a particular path, version pair is valid. // // # Escaped Paths // // Module paths appear as substrings of file system paths // (in the download cache) and of web server URLs in the proxy protocol. // In general we cannot rely on file systems to be case-sensitive, // nor can we rely on web servers, since they read from file systems. // That is, we cannot rely on the file system to keep rsc.io/QUOTE // and rsc.io/quote separate. Windows and macOS don't. // Instead, we must never require two different casings of a file path. // Because we want the download cache to match the proxy protocol, // and because we want the proxy protocol to be possible to serve // from a tree of static files (which might be stored on a case-insensitive // file system), the proxy protocol must never require two different casings // of a URL path either. // // One possibility would be to make the escaped form be the lowercase // hexadecimal encoding of the actual path bytes. This would avoid ever // needing different casings of a file path, but it would be fairly illegible // to most programmers when those paths appeared in the file system // (including in file paths in compiler errors and stack traces) // in web server logs, and so on. Instead, we want a safe escaped form that // leaves most paths unaltered. // // The safe escaped form is to replace every uppercase letter // with an exclamation mark followed by the letter's lowercase equivalent. // // For example, // // github.com/Azure/azure-sdk-for-go -> github.com/!azure/azure-sdk-for-go. // github.com/GoogleCloudPlatform/cloudsql-proxy -> github.com/!google!cloud!platform/cloudsql-proxy // github.com/Sirupsen/logrus -> github.com/!sirupsen/logrus. // // Import paths that avoid upper-case letters are left unchanged. // Note that because import paths are ASCII-only and avoid various // problematic punctuation (like : < and >), the escaped form is also ASCII-only // and avoids the same problematic punctuation. // // Import paths have never allowed exclamation marks, so there is no // need to define how to escape a literal !. // // # Unicode Restrictions // // Today, paths are disallowed from using Unicode. // // Although paths are currently disallowed from using Unicode, // we would like at some point to allow Unicode letters as well, to assume that // file systems and URLs are Unicode-safe (storing UTF-8), and apply // the !-for-uppercase convention for escaping them in the file system. // But there are at least two subtle considerations. // // First, note that not all case-fold equivalent distinct runes // form an upper/lower pair. // For example, U+004B ('K'), U+006B ('k'), and U+212A ('K' for Kelvin) // are three distinct runes that case-fold to each other. // When we do add Unicode letters, we must not assume that upper/lower // are the only case-equivalent pairs. // Perhaps the Kelvin symbol would be disallowed entirely, for example. // Or perhaps it would escape as "!!k", or perhaps as "(212A)". // // Second, it would be nice to allow Unicode marks as well as letters, // but marks include combining marks, and then we must deal not // only with case folding but also normalization: both U+00E9 ('é') // and U+0065 U+0301 ('e' followed by combining acute accent) // look the same on the page and are treated by some file systems // as the same path. If we do allow Unicode marks in paths, there // must be some kind of normalization to allow only one canonical // encoding of any character used in an import path. package module // IMPORTANT NOTE // // This file essentially defines the set of valid import paths for the go command. // There are many subtle considerations, including Unicode ambiguity, // security, network, and file system representations. // // This file also defines the set of valid module path and version combinations, // another topic with many subtle considerations. // // Changes to the semantics in this file require approval from rsc. import ( "errors" "fmt" "path" "sort" "strings" "unicode" "unicode/utf8" "golang.org/x/mod/semver" ) // A Version (for clients, a module.Version) is defined by a module path and version pair. // These are stored in their plain (unescaped) form. type Version struct { // Path is a module path, like "golang.org/x/text" or "rsc.io/quote/v2". Path string // Version is usually a semantic version in canonical form. // There are three exceptions to this general rule. // First, the top-level target of a build has no specific version // and uses Version = "". // Second, during MVS calculations the version "none" is used // to represent the decision to take no version of a given module. // Third, filesystem paths found in "replace" directives are // represented by a path with an empty version. Version string `json:",omitempty"` } // String returns a representation of the Version suitable for logging // (Path@Version, or just Path if Version is empty). func (m Version) String() string { if m.Version == "" { return m.Path } return m.Path + "@" + m.Version } // A ModuleError indicates an error specific to a module. type ModuleError struct { Path string Version string Err error } // VersionError returns a [ModuleError] derived from a [Version] and error, // or err itself if it is already such an error. func VersionError(v Version, err error) error { var mErr *ModuleError if errors.As(err, &mErr) && mErr.Path == v.Path && mErr.Version == v.Version { return err } return &ModuleError{ Path: v.Path, Version: v.Version, Err: err, } } func (e *ModuleError) Error() string { if v, ok := e.Err.(*InvalidVersionError); ok { return fmt.Sprintf("%s@%s: invalid %s: %v", e.Path, v.Version, v.noun(), v.Err) } if e.Version != "" { return fmt.Sprintf("%s@%s: %v", e.Path, e.Version, e.Err) } return fmt.Sprintf("module %s: %v", e.Path, e.Err) } func (e *ModuleError) Unwrap() error { return e.Err } // An InvalidVersionError indicates an error specific to a version, with the // module path unknown or specified externally. // // A [ModuleError] may wrap an InvalidVersionError, but an InvalidVersionError // must not wrap a ModuleError. type InvalidVersionError struct { Version string Pseudo bool Err error } // noun returns either "version" or "pseudo-version", depending on whether // e.Version is a pseudo-version. func (e *InvalidVersionError) noun() string { if e.Pseudo { return "pseudo-version" } return "version" } func (e *InvalidVersionError) Error() string { return fmt.Sprintf("%s %q invalid: %s", e.noun(), e.Version, e.Err) } func (e *InvalidVersionError) Unwrap() error { return e.Err } // An InvalidPathError indicates a module, import, or file path doesn't // satisfy all naming constraints. See [CheckPath], [CheckImportPath], // and [CheckFilePath] for specific restrictions. type InvalidPathError struct { Kind string // "module", "import", or "file" Path string Err error } func (e *InvalidPathError) Error() string { return fmt.Sprintf("malformed %s path %q: %v", e.Kind, e.Path, e.Err) } func (e *InvalidPathError) Unwrap() error { return e.Err } // Check checks that a given module path, version pair is valid. // In addition to the path being a valid module path // and the version being a valid semantic version, // the two must correspond. // For example, the path "yaml/v2" only corresponds to // semantic versions beginning with "v2.". func Check(path, version string) error { if err := CheckPath(path); err != nil { return err } if !semver.IsValid(version) { return &ModuleError{ Path: path, Err: &InvalidVersionError{Version: version, Err: errors.New("not a semantic version")}, } } _, pathMajor, _ := SplitPathVersion(path) if err := CheckPathMajor(version, pathMajor); err != nil { return &ModuleError{Path: path, Err: err} } return nil } // firstPathOK reports whether r can appear in the first element of a module path. // The first element of the path must be an LDH domain name, at least for now. // To avoid case ambiguity, the domain name must be entirely lower case. func firstPathOK(r rune) bool { return r == '-' || r == '.' || '0' <= r && r <= '9' || 'a' <= r && r <= 'z' } // modPathOK reports whether r can appear in a module path element. // Paths can be ASCII letters, ASCII digits, and limited ASCII punctuation: - . _ and ~. // // This matches what "go get" has historically recognized in import paths, // and avoids confusing sequences like '%20' or '+' that would change meaning // if used in a URL. // // TODO(rsc): We would like to allow Unicode letters, but that requires additional // care in the safe encoding (see "escaped paths" above). func modPathOK(r rune) bool { if r < utf8.RuneSelf { return r == '-' || r == '.' || r == '_' || r == '~' || '0' <= r && r <= '9' || 'A' <= r && r <= 'Z' || 'a' <= r && r <= 'z' } return false } // importPathOK reports whether r can appear in a package import path element. // // Import paths are intermediate between module paths and file paths: we allow // disallow characters that would be confusing or ambiguous as arguments to // 'go get' (such as '@' and ' ' ), but allow certain characters that are // otherwise-unambiguous on the command line and historically used for some // binary names (such as '++' as a suffix for compiler binaries and wrappers). func importPathOK(r rune) bool { return modPathOK(r) || r == '+' } // fileNameOK reports whether r can appear in a file name. // For now we allow all Unicode letters but otherwise limit to pathOK plus a few more punctuation characters. // If we expand the set of allowed characters here, we have to // work harder at detecting potential case-folding and normalization collisions. // See note about "escaped paths" above. func fileNameOK(r rune) bool { if r < utf8.RuneSelf { // Entire set of ASCII punctuation, from which we remove characters: // ! " # $ % & ' ( ) * + , - . / : ; < = > ? @ [ \ ] ^ _ ` { | } ~ // We disallow some shell special characters: " ' * < > ? ` | // (Note that some of those are disallowed by the Windows file system as well.) // We also disallow path separators / : and \ (fileNameOK is only called on path element characters). // We allow spaces (U+0020) in file names. const allowed = "!#$%&()+,-.=@[]^_{}~ " if '0' <= r && r <= '9' || 'A' <= r && r <= 'Z' || 'a' <= r && r <= 'z' { return true } return strings.ContainsRune(allowed, r) } // It may be OK to add more ASCII punctuation here, but only carefully. // For example Windows disallows < > \, and macOS disallows :, so we must not allow those. return unicode.IsLetter(r) } // CheckPath checks that a module path is valid. // A valid module path is a valid import path, as checked by [CheckImportPath], // with three additional constraints. // First, the leading path element (up to the first slash, if any), // by convention a domain name, must contain only lower-case ASCII letters, // ASCII digits, dots (U+002E), and dashes (U+002D); // it must contain at least one dot and cannot start with a dash. // Second, for a final path element of the form /vN, where N looks numeric // (ASCII digits and dots) must not begin with a leading zero, must not be /v1, // and must not contain any dots. For paths beginning with "gopkg.in/", // this second requirement is replaced by a requirement that the path // follow the gopkg.in server's conventions. // Third, no path element may begin with a dot. func CheckPath(path string) (err error) { defer func() { if err != nil { err = &InvalidPathError{Kind: "module", Path: path, Err: err} } }() if err := checkPath(path, modulePath); err != nil { return err } i := strings.Index(path, "/") if i < 0 { i = len(path) } if i == 0 { return fmt.Errorf("leading slash") } if !strings.Contains(path[:i], ".") { return fmt.Errorf("missing dot in first path element") } if path[0] == '-' { return fmt.Errorf("leading dash in first path element") } for _, r := range path[:i] { if !firstPathOK(r) { return fmt.Errorf("invalid char %q in first path element", r) } } if _, _, ok := SplitPathVersion(path); !ok { return fmt.Errorf("invalid version") } return nil } // CheckImportPath checks that an import path is valid. // // A valid import path consists of one or more valid path elements // separated by slashes (U+002F). (It must not begin with nor end in a slash.) // // A valid path element is a non-empty string made up of // ASCII letters, ASCII digits, and limited ASCII punctuation: - . _ and ~. // It must not end with a dot (U+002E), nor contain two dots in a row. // // The element prefix up to the first dot must not be a reserved file name // on Windows, regardless of case (CON, com1, NuL, and so on). The element // must not have a suffix of a tilde followed by one or more ASCII digits // (to exclude paths elements that look like Windows short-names). // // CheckImportPath may be less restrictive in the future, but see the // top-level package documentation for additional information about // subtleties of Unicode. func CheckImportPath(path string) error { if err := checkPath(path, importPath); err != nil { return &InvalidPathError{Kind: "import", Path: path, Err: err} } return nil } // pathKind indicates what kind of path we're checking. Module paths, // import paths, and file paths have different restrictions. type pathKind int const ( modulePath pathKind = iota importPath filePath ) // checkPath checks that a general path is valid. kind indicates what // specific constraints should be applied. // // checkPath returns an error describing why the path is not valid. // Because these checks apply to module, import, and file paths, // and because other checks may be applied, the caller is expected to wrap // this error with [InvalidPathError]. func checkPath(path string, kind pathKind) error { if !utf8.ValidString(path) { return fmt.Errorf("invalid UTF-8") } if path == "" { return fmt.Errorf("empty string") } if path[0] == '-' && kind != filePath { return fmt.Errorf("leading dash") } if strings.Contains(path, "//") { return fmt.Errorf("double slash") } if path[len(path)-1] == '/' { return fmt.Errorf("trailing slash") } elemStart := 0 for i, r := range path { if r == '/' { if err := checkElem(path[elemStart:i], kind); err != nil { return err } elemStart = i + 1 } } if err := checkElem(path[elemStart:], kind); err != nil { return err } return nil } // checkElem checks whether an individual path element is valid. func checkElem(elem string, kind pathKind) error { if elem == "" { return fmt.Errorf("empty path element") } if strings.Count(elem, ".") == len(elem) { return fmt.Errorf("invalid path element %q", elem) } if elem[0] == '.' && kind == modulePath { return fmt.Errorf("leading dot in path element") } if elem[len(elem)-1] == '.' { return fmt.Errorf("trailing dot in path element") } for _, r := range elem { ok := false switch kind { case modulePath: ok = modPathOK(r) case importPath: ok = importPathOK(r) case filePath: ok = fileNameOK(r) default: panic(fmt.Sprintf("internal error: invalid kind %v", kind)) } if !ok { return fmt.Errorf("invalid char %q", r) } } // Windows disallows a bunch of path elements, sadly. // See https://docs.microsoft.com/en-us/windows/desktop/fileio/naming-a-file short := elem if i := strings.Index(short, "."); i >= 0 { short = short[:i] } for _, bad := range badWindowsNames { if strings.EqualFold(bad, short) { return fmt.Errorf("%q disallowed as path element component on Windows", short) } } if kind == filePath { // don't check for Windows short-names in file names. They're // only an issue for import paths. return nil } // Reject path components that look like Windows short-names. // Those usually end in a tilde followed by one or more ASCII digits. if tilde := strings.LastIndexByte(short, '~'); tilde >= 0 && tilde < len(short)-1 { suffix := short[tilde+1:] suffixIsDigits := true for _, r := range suffix { if r < '0' || r > '9' { suffixIsDigits = false break } } if suffixIsDigits { return fmt.Errorf("trailing tilde and digits in path element") } } return nil } // CheckFilePath checks that a slash-separated file path is valid. // The definition of a valid file path is the same as the definition // of a valid import path except that the set of allowed characters is larger: // all Unicode letters, ASCII digits, the ASCII space character (U+0020), // and the ASCII punctuation characters // “!#$%&()+,-.=@[]^_{}~”. // (The excluded punctuation characters, " * < > ? ` ' | / \ and :, // have special meanings in certain shells or operating systems.) // // CheckFilePath may be less restrictive in the future, but see the // top-level package documentation for additional information about // subtleties of Unicode. func CheckFilePath(path string) error { if err := checkPath(path, filePath); err != nil { return &InvalidPathError{Kind: "file", Path: path, Err: err} } return nil } // badWindowsNames are the reserved file path elements on Windows. // See https://docs.microsoft.com/en-us/windows/desktop/fileio/naming-a-file var badWindowsNames = []string{ "CON", "PRN", "AUX", "NUL", "COM0", "COM1", "COM2", "COM3", "COM4", "COM5", "COM6", "COM7", "COM8", "COM9", "LPT0", "LPT1", "LPT2", "LPT3", "LPT4", "LPT5", "LPT6", "LPT7", "LPT8", "LPT9", } // SplitPathVersion returns prefix and major version such that prefix+pathMajor == path // and version is either empty or "/vN" for N >= 2. // As a special case, gopkg.in paths are recognized directly; // they require ".vN" instead of "/vN", and for all N, not just N >= 2. // SplitPathVersion returns with ok = false when presented with // a path whose last path element does not satisfy the constraints // applied by [CheckPath], such as "example.com/pkg/v1" or "example.com/pkg/v1.2". func SplitPathVersion(path string) (prefix, pathMajor string, ok bool) { if strings.HasPrefix(path, "gopkg.in/") { return splitGopkgIn(path) } i := len(path) dot := false for i > 0 && ('0' <= path[i-1] && path[i-1] <= '9' || path[i-1] == '.') { if path[i-1] == '.' { dot = true } i-- } if i <= 1 || i == len(path) || path[i-1] != 'v' || path[i-2] != '/' { return path, "", true } prefix, pathMajor = path[:i-2], path[i-2:] if dot || len(pathMajor) <= 2 || pathMajor[2] == '0' || pathMajor == "/v1" { return path, "", false } return prefix, pathMajor, true } // splitGopkgIn is like SplitPathVersion but only for gopkg.in paths. func splitGopkgIn(path string) (prefix, pathMajor string, ok bool) { if !strings.HasPrefix(path, "gopkg.in/") { return path, "", false } i := len(path) if strings.HasSuffix(path, "-unstable") { i -= len("-unstable") } for i > 0 && ('0' <= path[i-1] && path[i-1] <= '9') { i-- } if i <= 1 || path[i-1] != 'v' || path[i-2] != '.' { // All gopkg.in paths must end in vN for some N. return path, "", false } prefix, pathMajor = path[:i-2], path[i-2:] if len(pathMajor) <= 2 || pathMajor[2] == '0' && pathMajor != ".v0" { return path, "", false } return prefix, pathMajor, true } // MatchPathMajor reports whether the semantic version v // matches the path major version pathMajor. // // MatchPathMajor returns true if and only if [CheckPathMajor] returns nil. func MatchPathMajor(v, pathMajor string) bool { return CheckPathMajor(v, pathMajor) == nil } // CheckPathMajor returns a non-nil error if the semantic version v // does not match the path major version pathMajor. func CheckPathMajor(v, pathMajor string) error { // TODO(jayconrod): return errors or panic for invalid inputs. This function // (and others) was covered by integration tests for cmd/go, and surrounding // code protected against invalid inputs like non-canonical versions. if strings.HasPrefix(pathMajor, ".v") && strings.HasSuffix(pathMajor, "-unstable") { pathMajor = strings.TrimSuffix(pathMajor, "-unstable") } if strings.HasPrefix(v, "v0.0.0-") && pathMajor == ".v1" { // Allow old bug in pseudo-versions that generated v0.0.0- pseudoversion for gopkg .v1. // For example, gopkg.in/yaml.v2@v2.2.1's go.mod requires gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405. return nil } m := semver.Major(v) if pathMajor == "" { if m == "v0" || m == "v1" || semver.Build(v) == "+incompatible" { return nil } pathMajor = "v0 or v1" } else if pathMajor[0] == '/' || pathMajor[0] == '.' { if m == pathMajor[1:] { return nil } pathMajor = pathMajor[1:] } return &InvalidVersionError{ Version: v, Err: fmt.Errorf("should be %s, not %s", pathMajor, semver.Major(v)), } } // PathMajorPrefix returns the major-version tag prefix implied by pathMajor. // An empty PathMajorPrefix allows either v0 or v1. // // Note that [MatchPathMajor] may accept some versions that do not actually begin // with this prefix: namely, it accepts a 'v0.0.0-' prefix for a '.v1' // pathMajor, even though that pathMajor implies 'v1' tagging. func PathMajorPrefix(pathMajor string) string { if pathMajor == "" { return "" } if pathMajor[0] != '/' && pathMajor[0] != '.' { panic("pathMajor suffix " + pathMajor + " passed to PathMajorPrefix lacks separator") } if strings.HasPrefix(pathMajor, ".v") && strings.HasSuffix(pathMajor, "-unstable") { pathMajor = strings.TrimSuffix(pathMajor, "-unstable") } m := pathMajor[1:] if m != semver.Major(m) { panic("pathMajor suffix " + pathMajor + "passed to PathMajorPrefix is not a valid major version") } return m } // CanonicalVersion returns the canonical form of the version string v. // It is the same as [semver.Canonical] except that it preserves the special build suffix "+incompatible". func CanonicalVersion(v string) string { cv := semver.Canonical(v) if semver.Build(v) == "+incompatible" { cv += "+incompatible" } return cv } // Sort sorts the list by Path, breaking ties by comparing [Version] fields. // The Version fields are interpreted as semantic versions (using [semver.Compare]) // optionally followed by a tie-breaking suffix introduced by a slash character, // like in "v0.0.1/go.mod". func Sort(list []Version) { sort.Slice(list, func(i, j int) bool { mi := list[i] mj := list[j] if mi.Path != mj.Path { return mi.Path < mj.Path } // To help go.sum formatting, allow version/file. // Compare semver prefix by semver rules, // file by string order. vi := mi.Version vj := mj.Version var fi, fj string if k := strings.Index(vi, "/"); k >= 0 { vi, fi = vi[:k], vi[k:] } if k := strings.Index(vj, "/"); k >= 0 { vj, fj = vj[:k], vj[k:] } if vi != vj { return semver.Compare(vi, vj) < 0 } return fi < fj }) } // EscapePath returns the escaped form of the given module path. // It fails if the module path is invalid. func EscapePath(path string) (escaped string, err error) { if err := CheckPath(path); err != nil { return "", err } return escapeString(path) } // EscapeVersion returns the escaped form of the given module version. // Versions are allowed to be in non-semver form but must be valid file names // and not contain exclamation marks. func EscapeVersion(v string) (escaped string, err error) { if err := checkElem(v, filePath); err != nil || strings.Contains(v, "!") { return "", &InvalidVersionError{ Version: v, Err: fmt.Errorf("disallowed version string"), } } return escapeString(v) } func escapeString(s string) (escaped string, err error) { haveUpper := false for _, r := range s { if r == '!' || r >= utf8.RuneSelf { // This should be disallowed by CheckPath, but diagnose anyway. // The correctness of the escaping loop below depends on it. return "", fmt.Errorf("internal error: inconsistency in EscapePath") } if 'A' <= r && r <= 'Z' { haveUpper = true } } if !haveUpper { return s, nil } var buf []byte for _, r := range s { if 'A' <= r && r <= 'Z' { buf = append(buf, '!', byte(r+'a'-'A')) } else { buf = append(buf, byte(r)) } } return string(buf), nil } // UnescapePath returns the module path for the given escaped path. // It fails if the escaped path is invalid or describes an invalid path. func UnescapePath(escaped string) (path string, err error) { path, ok := unescapeString(escaped) if !ok { return "", fmt.Errorf("invalid escaped module path %q", escaped) } if err := CheckPath(path); err != nil { return "", fmt.Errorf("invalid escaped module path %q: %v", escaped, err) } return path, nil } // UnescapeVersion returns the version string for the given escaped version. // It fails if the escaped form is invalid or describes an invalid version. // Versions are allowed to be in non-semver form but must be valid file names // and not contain exclamation marks. func UnescapeVersion(escaped string) (v string, err error) { v, ok := unescapeString(escaped) if !ok { return "", fmt.Errorf("invalid escaped version %q", escaped) } if err := checkElem(v, filePath); err != nil { return "", fmt.Errorf("invalid escaped version %q: %v", v, err) } return v, nil } func unescapeString(escaped string) (string, bool) { var buf []byte bang := false for _, r := range escaped { if r >= utf8.RuneSelf { return "", false } if bang { bang = false if r < 'a' || 'z' < r { return "", false } buf = append(buf, byte(r+'A'-'a')) continue } if r == '!' { bang = true continue } if 'A' <= r && r <= 'Z' { return "", false } buf = append(buf, byte(r)) } if bang { return "", false } return string(buf), true } // MatchPrefixPatterns reports whether any path prefix of target matches one of // the glob patterns (as defined by [path.Match]) in the comma-separated globs // list. This implements the algorithm used when matching a module path to the // GOPRIVATE environment variable, as described by 'go help module-private'. // // It ignores any empty or malformed patterns in the list. // Trailing slashes on patterns are ignored. func MatchPrefixPatterns(globs, target string) bool { for globs != "" { // Extract next non-empty glob in comma-separated list. var glob string if i := strings.Index(globs, ","); i >= 0 { glob, globs = globs[:i], globs[i+1:] } else { glob, globs = globs, "" } glob = strings.TrimSuffix(glob, "/") if glob == "" { continue } // A glob with N+1 path elements (N slashes) needs to be matched // against the first N+1 path elements of target, // which end just before the N+1'th slash. n := strings.Count(glob, "/") prefix := target // Walk target, counting slashes, truncating at the N+1'th slash. for i := 0; i < len(target); i++ { if target[i] == '/' { if n == 0 { prefix = target[:i] break } n-- } } if n > 0 { // Not enough prefix elements. continue } matched, _ := path.Match(glob, prefix) if matched { return true } } return false }