// 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 modfetch import ( "fmt" "io" "io/fs" "os" "strconv" "time" "cmd/go/internal/cfg" "cmd/go/internal/modfetch/codehost" "cmd/go/internal/par" "cmd/go/internal/vcs" web "cmd/go/internal/web" "golang.org/x/mod/module" ) const traceRepo = false // trace all repo actions, for debugging // A Repo represents a repository storing all versions of a single module. // It must be safe for simultaneous use by multiple goroutines. type Repo interface { // ModulePath returns the module path. ModulePath() string // CheckReuse checks whether the validation criteria in the origin // are still satisfied on the server corresponding to this module. // If so, the caller can reuse any cached Versions or RevInfo containing // this origin rather than redownloading those from the server. CheckReuse(old *codehost.Origin) error // Versions lists all known versions with the given prefix. // Pseudo-versions are not included. // // Versions should be returned sorted in semver order // (implementations can use semver.Sort). // // Versions returns a non-nil error only if there was a problem // fetching the list of versions: it may return an empty list // along with a nil error if the list of matching versions // is known to be empty. // // If the underlying repository does not exist, // Versions returns an error matching errors.Is(_, os.NotExist). Versions(prefix string) (*Versions, error) // Stat returns information about the revision rev. // A revision can be any identifier known to the underlying service: // commit hash, branch, tag, and so on. Stat(rev string) (*RevInfo, error) // Latest returns the latest revision on the default branch, // whatever that means in the underlying source code repository. // It is only used when there are no tagged versions. Latest() (*RevInfo, error) // GoMod returns the go.mod file for the given version. GoMod(version string) (data []byte, err error) // Zip writes a zip file for the given version to dst. Zip(dst io.Writer, version string) error } // A Versions describes the available versions in a module repository. type Versions struct { Origin *codehost.Origin `json:",omitempty"` // origin information for reuse List []string // semver versions } // A RevInfo describes a single revision in a module repository. type RevInfo struct { Version string // suggested version string for this revision Time time.Time // commit time // These fields are used for Stat of arbitrary rev, // but they are not recorded when talking about module versions. Name string `json:"-"` // complete ID in underlying repository Short string `json:"-"` // shortened ID, for use in pseudo-version Origin *codehost.Origin `json:",omitempty"` // provenance for reuse } // Re: module paths, import paths, repository roots, and lookups // // A module is a collection of Go packages stored in a file tree // with a go.mod file at the root of the tree. // The go.mod defines the module path, which is the import path // corresponding to the root of the file tree. // The import path of a directory within that file tree is the module path // joined with the name of the subdirectory relative to the root. // // For example, the module with path rsc.io/qr corresponds to the // file tree in the repository https://github.com/rsc/qr. // That file tree has a go.mod that says "module rsc.io/qr". // The package in the root directory has import path "rsc.io/qr". // The package in the gf256 subdirectory has import path "rsc.io/qr/gf256". // In this example, "rsc.io/qr" is both a module path and an import path. // But "rsc.io/qr/gf256" is only an import path, not a module path: // it names an importable package, but not a module. // // As a special case to incorporate code written before modules were // introduced, if a path p resolves using the pre-module "go get" lookup // to the root of a source code repository without a go.mod file, // that repository is treated as if it had a go.mod in its root directory // declaring module path p. (The go.mod is further considered to // contain requirements corresponding to any legacy version // tracking format such as Gopkg.lock, vendor/vendor.conf, and so on.) // // The presentation so far ignores the fact that a source code repository // has many different versions of a file tree, and those versions may // differ in whether a particular go.mod exists and what it contains. // In fact there is a well-defined mapping only from a module path, version // pair - often written path@version - to a particular file tree. // For example rsc.io/qr@v0.1.0 depends on the "implicit go.mod at root of // repository" rule, while rsc.io/qr@v0.2.0 has an explicit go.mod. // Because the "go get" import paths rsc.io/qr and github.com/rsc/qr // both redirect to the Git repository https://github.com/rsc/qr, // github.com/rsc/qr@v0.1.0 is the same file tree as rsc.io/qr@v0.1.0 // but a different module (a different name). In contrast, since v0.2.0 // of that repository has an explicit go.mod that declares path rsc.io/qr, // github.com/rsc/qr@v0.2.0 is an invalid module path, version pair. // Before modules, import comments would have had the same effect. // // The set of import paths associated with a given module path is // clearly not fixed: at the least, new directories with new import paths // can always be added. But another potential operation is to split a // subtree out of a module into its own module. If done carefully, // this operation can be done while preserving compatibility for clients. // For example, suppose that we want to split rsc.io/qr/gf256 into its // own module, so that there would be two modules rsc.io/qr and rsc.io/qr/gf256. // Then we can simultaneously issue rsc.io/qr v0.3.0 (dropping the gf256 subdirectory) // and rsc.io/qr/gf256 v0.1.0, including in their respective go.mod // cyclic requirements pointing at each other: rsc.io/qr v0.3.0 requires // rsc.io/qr/gf256 v0.1.0 and vice versa. Then a build can be // using an older rsc.io/qr module that includes the gf256 package, but if // it adds a requirement on either the newer rsc.io/qr or the newer // rsc.io/qr/gf256 module, it will automatically add the requirement // on the complementary half, ensuring both that rsc.io/qr/gf256 is // available for importing by the build and also that it is only defined // by a single module. The gf256 package could move back into the // original by another simultaneous release of rsc.io/qr v0.4.0 including // the gf256 subdirectory and an rsc.io/qr/gf256 v0.2.0 with no code // in its root directory, along with a new requirement cycle. // The ability to shift module boundaries in this way is expected to be // important in large-scale program refactorings, similar to the ones // described in https://talks.golang.org/2016/refactor.article. // // The possibility of shifting module boundaries reemphasizes // that you must know both the module path and its version // to determine the set of packages provided directly by that module. // // On top of all this, it is possible for a single code repository // to contain multiple modules, either in branches or subdirectories, // as a limited kind of monorepo. For example rsc.io/qr/v2, // the v2.x.x continuation of rsc.io/qr, is expected to be found // in v2-tagged commits in https://github.com/rsc/qr, either // in the root or in a v2 subdirectory, disambiguated by go.mod. // Again the precise file tree corresponding to a module // depends on which version we are considering. // // It is also possible for the underlying repository to change over time, // without changing the module path. If I copy the github repo over // to https://bitbucket.org/rsc/qr and update https://rsc.io/qr?go-get=1, // then clients of all versions should start fetching from bitbucket // instead of github. That is, in contrast to the exact file tree, // the location of the source code repository associated with a module path // does not depend on the module version. (This is by design, as the whole // point of these redirects is to allow package authors to establish a stable // name that can be updated as code moves from one service to another.) // // All of this is important background for the lookup APIs defined in this // file. // // The Lookup function takes a module path and returns a Repo representing // that module path. Lookup can do only a little with the path alone. // It can check that the path is well-formed (see semver.CheckPath) // and it can check that the path can be resolved to a target repository. // To avoid version control access except when absolutely necessary, // Lookup does not attempt to connect to the repository itself. var lookupCache par.Cache type lookupCacheKey struct { proxy, path string } // Lookup returns the module with the given module path, // fetched through the given proxy. // // The distinguished proxy "direct" indicates that the path should be fetched // from its origin, and "noproxy" indicates that the patch should be fetched // directly only if GONOPROXY matches the given path. // // For the distinguished proxy "off", Lookup always returns a Repo that returns // a non-nil error for every method call. // // A successful return does not guarantee that the module // has any defined versions. func Lookup(proxy, path string) Repo { if traceRepo { defer logCall("Lookup(%q, %q)", proxy, path)() } type cached struct { r Repo } c := lookupCache.Do(lookupCacheKey{proxy, path}, func() any { r := newCachingRepo(path, func() (Repo, error) { r, err := lookup(proxy, path) if err == nil && traceRepo { r = newLoggingRepo(r) } return r, err }) return cached{r} }).(cached) return c.r } // lookup returns the module with the given module path. func lookup(proxy, path string) (r Repo, err error) { if cfg.BuildMod == "vendor" { return nil, errLookupDisabled } if module.MatchPrefixPatterns(cfg.GONOPROXY, path) { switch proxy { case "noproxy", "direct": return lookupDirect(path) default: return nil, errNoproxy } } switch proxy { case "off": return errRepo{path, errProxyOff}, nil case "direct": return lookupDirect(path) case "noproxy": return nil, errUseProxy default: return newProxyRepo(proxy, path) } } type lookupDisabledError struct{} func (lookupDisabledError) Error() string { if cfg.BuildModReason == "" { return fmt.Sprintf("module lookup disabled by -mod=%s", cfg.BuildMod) } return fmt.Sprintf("module lookup disabled by -mod=%s\n\t(%s)", cfg.BuildMod, cfg.BuildModReason) } var errLookupDisabled error = lookupDisabledError{} var ( errProxyOff = notExistErrorf("module lookup disabled by GOPROXY=off") errNoproxy error = notExistErrorf("disabled by GOPRIVATE/GONOPROXY") errUseProxy error = notExistErrorf("path does not match GOPRIVATE/GONOPROXY") ) func lookupDirect(path string) (Repo, error) { security := web.SecureOnly if module.MatchPrefixPatterns(cfg.GOINSECURE, path) { security = web.Insecure } rr, err := vcs.RepoRootForImportPath(path, vcs.PreferMod, security) if err != nil { // We don't know where to find code for a module with this path. return nil, notExistError{err: err} } if rr.VCS.Name == "mod" { // Fetch module from proxy with base URL rr.Repo. return newProxyRepo(rr.Repo, path) } code, err := lookupCodeRepo(rr) if err != nil { return nil, err } return newCodeRepo(code, rr.Root, path) } func lookupCodeRepo(rr *vcs.RepoRoot) (codehost.Repo, error) { code, err := codehost.NewRepo(rr.VCS.Cmd, rr.Repo) if err != nil { if _, ok := err.(*codehost.VCSError); ok { return nil, err } return nil, fmt.Errorf("lookup %s: %v", rr.Root, err) } return code, nil } // A loggingRepo is a wrapper around an underlying Repo // that prints a log message at the start and end of each call. // It can be inserted when debugging. type loggingRepo struct { r Repo } func newLoggingRepo(r Repo) *loggingRepo { return &loggingRepo{r} } // logCall prints a log message using format and args and then // also returns a function that will print the same message again, // along with the elapsed time. // Typical usage is: // // defer logCall("hello %s", arg)() // // Note the final (). func logCall(format string, args ...any) func() { start := time.Now() fmt.Fprintf(os.Stderr, "+++ %s\n", fmt.Sprintf(format, args...)) return func() { fmt.Fprintf(os.Stderr, "%.3fs %s\n", time.Since(start).Seconds(), fmt.Sprintf(format, args...)) } } func (l *loggingRepo) ModulePath() string { return l.r.ModulePath() } func (l *loggingRepo) CheckReuse(old *codehost.Origin) (err error) { defer func() { logCall("CheckReuse[%s]: %v", l.r.ModulePath(), err) }() return l.r.CheckReuse(old) } func (l *loggingRepo) Versions(prefix string) (*Versions, error) { defer logCall("Repo[%s]: Versions(%q)", l.r.ModulePath(), prefix)() return l.r.Versions(prefix) } func (l *loggingRepo) Stat(rev string) (*RevInfo, error) { defer logCall("Repo[%s]: Stat(%q)", l.r.ModulePath(), rev)() return l.r.Stat(rev) } func (l *loggingRepo) Latest() (*RevInfo, error) { defer logCall("Repo[%s]: Latest()", l.r.ModulePath())() return l.r.Latest() } func (l *loggingRepo) GoMod(version string) ([]byte, error) { defer logCall("Repo[%s]: GoMod(%q)", l.r.ModulePath(), version)() return l.r.GoMod(version) } func (l *loggingRepo) Zip(dst io.Writer, version string) error { dstName := "_" if dst, ok := dst.(interface{ Name() string }); ok { dstName = strconv.Quote(dst.Name()) } defer logCall("Repo[%s]: Zip(%s, %q)", l.r.ModulePath(), dstName, version)() return l.r.Zip(dst, version) } // errRepo is a Repo that returns the same error for all operations. // // It is useful in conjunction with caching, since cache hits will not attempt // the prohibited operations. type errRepo struct { modulePath string err error } func (r errRepo) ModulePath() string { return r.modulePath } func (r errRepo) CheckReuse(old *codehost.Origin) error { return r.err } func (r errRepo) Versions(prefix string) (*Versions, error) { return nil, r.err } func (r errRepo) Stat(rev string) (*RevInfo, error) { return nil, r.err } func (r errRepo) Latest() (*RevInfo, error) { return nil, r.err } func (r errRepo) GoMod(version string) ([]byte, error) { return nil, r.err } func (r errRepo) Zip(dst io.Writer, version string) error { return r.err } // A notExistError is like fs.ErrNotExist, but with a custom message type notExistError struct { err error } func notExistErrorf(format string, args ...any) error { return notExistError{fmt.Errorf(format, args...)} } func (e notExistError) Error() string { return e.err.Error() } func (notExistError) Is(target error) bool { return target == fs.ErrNotExist } func (e notExistError) Unwrap() error { return e.err }