// Copyright 2012 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 build import ( "bufio" "bytes" "errors" "fmt" "go/ast" "go/parser" "go/token" "io" "strconv" "strings" "unicode" "unicode/utf8" ) type importReader struct { b *bufio.Reader buf []byte peek byte err error eof bool nerr int pos token.Position } var bom = []byte{0xef, 0xbb, 0xbf} func newImportReader(name string, r io.Reader) *importReader { b := bufio.NewReader(r) // Remove leading UTF-8 BOM. // Per https://golang.org/ref/spec#Source_code_representation: // a compiler may ignore a UTF-8-encoded byte order mark (U+FEFF) // if it is the first Unicode code point in the source text. if leadingBytes, err := b.Peek(3); err == nil && bytes.Equal(leadingBytes, bom) { b.Discard(3) } return &importReader{ b: b, pos: token.Position{ Filename: name, Line: 1, Column: 1, }, } } func isIdent(c byte) bool { return 'A' <= c && c <= 'Z' || 'a' <= c && c <= 'z' || '0' <= c && c <= '9' || c == '_' || c >= utf8.RuneSelf } var ( errSyntax = errors.New("syntax error") errNUL = errors.New("unexpected NUL in input") ) // syntaxError records a syntax error, but only if an I/O error has not already been recorded. func (r *importReader) syntaxError() { if r.err == nil { r.err = errSyntax } } // readByte reads the next byte from the input, saves it in buf, and returns it. // If an error occurs, readByte records the error in r.err and returns 0. func (r *importReader) readByte() byte { c, err := r.b.ReadByte() if err == nil { r.buf = append(r.buf, c) if c == 0 { err = errNUL } } if err != nil { if err == io.EOF { r.eof = true } else if r.err == nil { r.err = err } c = 0 } return c } // readByteNoBuf is like readByte but doesn't buffer the byte. // It exhausts r.buf before reading from r.b. func (r *importReader) readByteNoBuf() byte { var c byte var err error if len(r.buf) > 0 { c = r.buf[0] r.buf = r.buf[1:] } else { c, err = r.b.ReadByte() if err == nil && c == 0 { err = errNUL } } if err != nil { if err == io.EOF { r.eof = true } else if r.err == nil { r.err = err } return 0 } r.pos.Offset++ if c == '\n' { r.pos.Line++ r.pos.Column = 1 } else { r.pos.Column++ } return c } // peekByte returns the next byte from the input reader but does not advance beyond it. // If skipSpace is set, peekByte skips leading spaces and comments. func (r *importReader) peekByte(skipSpace bool) byte { if r.err != nil { if r.nerr++; r.nerr > 10000 { panic("go/build: import reader looping") } return 0 } // Use r.peek as first input byte. // Don't just return r.peek here: it might have been left by peekByte(false) // and this might be peekByte(true). c := r.peek if c == 0 { c = r.readByte() } for r.err == nil && !r.eof { if skipSpace { // For the purposes of this reader, semicolons are never necessary to // understand the input and are treated as spaces. switch c { case ' ', '\f', '\t', '\r', '\n', ';': c = r.readByte() continue case '/': c = r.readByte() if c == '/' { for c != '\n' && r.err == nil && !r.eof { c = r.readByte() } } else if c == '*' { var c1 byte for (c != '*' || c1 != '/') && r.err == nil { if r.eof { r.syntaxError() } c, c1 = c1, r.readByte() } } else { r.syntaxError() } c = r.readByte() continue } } break } r.peek = c return r.peek } // nextByte is like peekByte but advances beyond the returned byte. func (r *importReader) nextByte(skipSpace bool) byte { c := r.peekByte(skipSpace) r.peek = 0 return c } var goEmbed = []byte("go:embed") // findEmbed advances the input reader to the next //go:embed comment. // It reports whether it found a comment. // (Otherwise it found an error or EOF.) func (r *importReader) findEmbed(first bool) bool { // The import block scan stopped after a non-space character, // so the reader is not at the start of a line on the first call. // After that, each //go:embed extraction leaves the reader // at the end of a line. startLine := !first var c byte for r.err == nil && !r.eof { c = r.readByteNoBuf() Reswitch: switch c { default: startLine = false case '\n': startLine = true case ' ', '\t': // leave startLine alone case '"': startLine = false for r.err == nil { if r.eof { r.syntaxError() } c = r.readByteNoBuf() if c == '\\' { r.readByteNoBuf() if r.err != nil { r.syntaxError() return false } continue } if c == '"' { c = r.readByteNoBuf() goto Reswitch } } goto Reswitch case '`': startLine = false for r.err == nil { if r.eof { r.syntaxError() } c = r.readByteNoBuf() if c == '`' { c = r.readByteNoBuf() goto Reswitch } } case '\'': startLine = false for r.err == nil { if r.eof { r.syntaxError() } c = r.readByteNoBuf() if c == '\\' { r.readByteNoBuf() if r.err != nil { r.syntaxError() return false } continue } if c == '\'' { c = r.readByteNoBuf() goto Reswitch } } case '/': c = r.readByteNoBuf() switch c { default: startLine = false goto Reswitch case '*': var c1 byte for (c != '*' || c1 != '/') && r.err == nil { if r.eof { r.syntaxError() } c, c1 = c1, r.readByteNoBuf() } startLine = false case '/': if startLine { // Try to read this as a //go:embed comment. for i := range goEmbed { c = r.readByteNoBuf() if c != goEmbed[i] { goto SkipSlashSlash } } c = r.readByteNoBuf() if c == ' ' || c == '\t' { // Found one! return true } } SkipSlashSlash: for c != '\n' && r.err == nil && !r.eof { c = r.readByteNoBuf() } startLine = true } } } return false } // readKeyword reads the given keyword from the input. // If the keyword is not present, readKeyword records a syntax error. func (r *importReader) readKeyword(kw string) { r.peekByte(true) for i := 0; i < len(kw); i++ { if r.nextByte(false) != kw[i] { r.syntaxError() return } } if isIdent(r.peekByte(false)) { r.syntaxError() } } // readIdent reads an identifier from the input. // If an identifier is not present, readIdent records a syntax error. func (r *importReader) readIdent() { c := r.peekByte(true) if !isIdent(c) { r.syntaxError() return } for isIdent(r.peekByte(false)) { r.peek = 0 } } // readString reads a quoted string literal from the input. // If an identifier is not present, readString records a syntax error. func (r *importReader) readString() { switch r.nextByte(true) { case '`': for r.err == nil { if r.nextByte(false) == '`' { break } if r.eof { r.syntaxError() } } case '"': for r.err == nil { c := r.nextByte(false) if c == '"' { break } if r.eof || c == '\n' { r.syntaxError() } if c == '\\' { r.nextByte(false) } } default: r.syntaxError() } } // readImport reads an import clause - optional identifier followed by quoted string - // from the input. func (r *importReader) readImport() { c := r.peekByte(true) if c == '.' { r.peek = 0 } else if isIdent(c) { r.readIdent() } r.readString() } // readComments is like io.ReadAll, except that it only reads the leading // block of comments in the file. func readComments(f io.Reader) ([]byte, error) { r := newImportReader("", f) r.peekByte(true) if r.err == nil && !r.eof { // Didn't reach EOF, so must have found a non-space byte. Remove it. r.buf = r.buf[:len(r.buf)-1] } return r.buf, r.err } // readGoInfo expects a Go file as input and reads the file up to and including the import section. // It records what it learned in *info. // If info.fset is non-nil, readGoInfo parses the file and sets info.parsed, info.parseErr, // info.imports, info.embeds, and info.embedErr. // // It only returns an error if there are problems reading the file, // not for syntax errors in the file itself. func readGoInfo(f io.Reader, info *fileInfo) error { r := newImportReader(info.name, f) r.readKeyword("package") r.readIdent() for r.peekByte(true) == 'i' { r.readKeyword("import") if r.peekByte(true) == '(' { r.nextByte(false) for r.peekByte(true) != ')' && r.err == nil { r.readImport() } r.nextByte(false) } else { r.readImport() } } info.header = r.buf // If we stopped successfully before EOF, we read a byte that told us we were done. // Return all but that last byte, which would cause a syntax error if we let it through. if r.err == nil && !r.eof { info.header = r.buf[:len(r.buf)-1] } // If we stopped for a syntax error, consume the whole file so that // we are sure we don't change the errors that go/parser returns. if r.err == errSyntax { r.err = nil for r.err == nil && !r.eof { r.readByte() } info.header = r.buf } if r.err != nil { return r.err } if info.fset == nil { return nil } // Parse file header & record imports. info.parsed, info.parseErr = parser.ParseFile(info.fset, info.name, info.header, parser.ImportsOnly|parser.ParseComments) if info.parseErr != nil { return nil } hasEmbed := false for _, decl := range info.parsed.Decls { d, ok := decl.(*ast.GenDecl) if !ok { continue } for _, dspec := range d.Specs { spec, ok := dspec.(*ast.ImportSpec) if !ok { continue } quoted := spec.Path.Value path, err := strconv.Unquote(quoted) if err != nil { return fmt.Errorf("parser returned invalid quoted string: <%s>", quoted) } if path == "embed" { hasEmbed = true } doc := spec.Doc if doc == nil && len(d.Specs) == 1 { doc = d.Doc } info.imports = append(info.imports, fileImport{path, spec.Pos(), doc}) } } // If the file imports "embed", // we have to look for //go:embed comments // in the remainder of the file. // The compiler will enforce the mapping of comments to // declared variables. We just need to know the patterns. // If there were //go:embed comments earlier in the file // (near the package statement or imports), the compiler // will reject them. They can be (and have already been) ignored. if hasEmbed { var line []byte for first := true; r.findEmbed(first); first = false { line = line[:0] pos := r.pos for { c := r.readByteNoBuf() if c == '\n' || r.err != nil || r.eof { break } line = append(line, c) } // Add args if line is well-formed. // Ignore badly-formed lines - the compiler will report them when it finds them, // and we can pretend they are not there to help go list succeed with what it knows. embs, err := parseGoEmbed(string(line), pos) if err == nil { info.embeds = append(info.embeds, embs...) } } } return nil } // parseGoEmbed parses the text following "//go:embed" to extract the glob patterns. // It accepts unquoted space-separated patterns as well as double-quoted and back-quoted Go strings. // This is based on a similar function in cmd/compile/internal/gc/noder.go; // this version calculates position information as well. func parseGoEmbed(args string, pos token.Position) ([]fileEmbed, error) { trimBytes := func(n int) { pos.Offset += n pos.Column += utf8.RuneCountInString(args[:n]) args = args[n:] } trimSpace := func() { trim := strings.TrimLeftFunc(args, unicode.IsSpace) trimBytes(len(args) - len(trim)) } var list []fileEmbed for trimSpace(); args != ""; trimSpace() { var path string pathPos := pos Switch: switch args[0] { default: i := len(args) for j, c := range args { if unicode.IsSpace(c) { i = j break } } path = args[:i] trimBytes(i) case '`': var ok bool path, _, ok = strings.Cut(args[1:], "`") if !ok { return nil, fmt.Errorf("invalid quoted string in //go:embed: %s", args) } trimBytes(1 + len(path) + 1) case '"': i := 1 for ; i < len(args); i++ { if args[i] == '\\' { i++ continue } if args[i] == '"' { q, err := strconv.Unquote(args[:i+1]) if err != nil { return nil, fmt.Errorf("invalid quoted string in //go:embed: %s", args[:i+1]) } path = q trimBytes(i + 1) break Switch } } if i >= len(args) { return nil, fmt.Errorf("invalid quoted string in //go:embed: %s", args) } } if args != "" { r, _ := utf8.DecodeRuneInString(args) if !unicode.IsSpace(r) { return nil, fmt.Errorf("invalid quoted string in //go:embed: %s", args) } } list = append(list, fileEmbed{path, pathPos}) } return list, nil }