// Copyright 2015 Matthew Holt and The Caddy Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package caddyfile import ( "bytes" "io" "slices" "unicode" ) // Format formats the input Caddyfile to a standard, nice-looking // appearance. It works by reading each rune of the input and taking // control over all the bracing and whitespace that is written; otherwise, // words, comments, placeholders, and escaped characters are all treated // literally and written as they appear in the input. func Format(input []byte) []byte { input = bytes.TrimSpace(input) out := new(bytes.Buffer) rdr := bytes.NewReader(input) type heredocState int const ( heredocClosed heredocState = 0 heredocOpening heredocState = 1 heredocOpened heredocState = 2 ) var ( last rune // the last character that was written to the result space = true // whether current/previous character was whitespace (beginning of input counts as space) beginningOfLine = true // whether we are at beginning of line openBrace bool // whether current word/token is or started with open curly brace openBraceWritten bool // if openBrace, whether that brace was written or not openBraceSpace bool // whether there was a non-newline space before open brace newLines int // count of newlines consumed comment bool // whether we're in a comment quoted bool // whether we're in a quoted segment escaped bool // whether current char is escaped heredoc heredocState // whether we're in a heredoc heredocEscaped bool // whether heredoc is escaped heredocMarker []rune heredocClosingMarker []rune nesting int // indentation level ) write := func(ch rune) { out.WriteRune(ch) last = ch } indent := func() { for tabs := nesting; tabs > 0; tabs-- { write('\t') } } nextLine := func() { write('\n') beginningOfLine = true } for { ch, _, err := rdr.ReadRune() if err != nil { if err == io.EOF { break } panic(err) } // detect whether we have the start of a heredoc if !quoted && !(heredoc != heredocClosed || heredocEscaped) && space && last == '<' && ch == '<' { write(ch) heredoc = heredocOpening space = false continue } if heredoc == heredocOpening { if ch == '\n' { if len(heredocMarker) > 0 && heredocMarkerRegexp.MatchString(string(heredocMarker)) { heredoc = heredocOpened } else { heredocMarker = nil heredoc = heredocClosed nextLine() continue } write(ch) continue } if unicode.IsSpace(ch) { // a space means it's just a regular token and not a heredoc heredocMarker = nil heredoc = heredocClosed } else { heredocMarker = append(heredocMarker, ch) write(ch) continue } } // if we're in a heredoc, all characters are read&write as-is if heredoc == heredocOpened { heredocClosingMarker = append(heredocClosingMarker, ch) if len(heredocClosingMarker) > len(heredocMarker)+1 { // We assert that the heredocClosingMarker is followed by a unicode.Space heredocClosingMarker = heredocClosingMarker[1:] } // check if we're done if unicode.IsSpace(ch) && slices.Equal(heredocClosingMarker[:len(heredocClosingMarker)-1], heredocMarker) { heredocMarker = nil heredocClosingMarker = nil heredoc = heredocClosed } else { write(ch) if ch == '\n' { heredocClosingMarker = heredocClosingMarker[:0] } continue } } if last == '<' && space { space = false } if comment { if ch == '\n' { comment = false space = true nextLine() continue } else { write(ch) continue } } if !escaped && ch == '\\' { if space { write(' ') space = false } write(ch) escaped = true continue } if escaped { if ch == '<' { heredocEscaped = true } write(ch) escaped = false continue } if quoted { if ch == '"' { quoted = false } write(ch) continue } if space && ch == '"' { quoted = true } if unicode.IsSpace(ch) { space = true heredocEscaped = false if ch == '\n' { newLines++ } continue } spacePrior := space space = false ////////////////////////////////////////////////////////// // I find it helpful to think of the formatting loop in two // main sections; by the time we reach this point, we // know we are in a "regular" part of the file: we know // the character is not a space, not in a literal segment // like a comment or quoted, it's not escaped, etc. ////////////////////////////////////////////////////////// if ch == '#' { comment = true } if openBrace && spacePrior && !openBraceWritten { if nesting == 0 && last == '}' { nextLine() nextLine() } openBrace = false if beginningOfLine { indent() } else if !openBraceSpace { write(' ') } write('{') openBraceWritten = true nextLine() newLines = 0 // prevent infinite nesting from ridiculous inputs (issue #4169) if nesting < 10 { nesting++ } } switch { case ch == '{': openBrace = true openBraceWritten = false openBraceSpace = spacePrior && !beginningOfLine if openBraceSpace { write(' ') } continue case ch == '}' && (spacePrior || !openBrace): if last != '\n' { nextLine() } if nesting > 0 { nesting-- } indent() write('}') newLines = 0 continue } if newLines > 2 { newLines = 2 } for i := 0; i < newLines; i++ { nextLine() } newLines = 0 if beginningOfLine { indent() } if nesting == 0 && last == '}' && beginningOfLine { nextLine() nextLine() } if !beginningOfLine && spacePrior { write(' ') } if openBrace && !openBraceWritten { write('{') openBraceWritten = true } if spacePrior && ch == '<' { space = true } write(ch) beginningOfLine = false } // the Caddyfile does not need any leading or trailing spaces, but... trimmedResult := bytes.TrimSpace(out.Bytes()) // ...Caddyfiles should, however, end with a newline because // newlines are significant to the syntax of the file return append(trimmedResult, '\n') }