package caddyfile import ( "errors" "fmt" "io" "strings" ) // Dispenser is a type that dispenses tokens, similarly to a lexer, // except that it can do so with some notion of structure and has // some really convenient methods. type Dispenser struct { filename string tokens []Token cursor int nesting int } // NewDispenser returns a Dispenser, ready to use for parsing the given input. func NewDispenser(filename string, input io.Reader) Dispenser { tokens, _ := allTokens(input) // ignoring error because nothing to do with it return Dispenser{ filename: filename, tokens: tokens, cursor: -1, } } // NewDispenserTokens returns a Dispenser filled with the given tokens. func NewDispenserTokens(filename string, tokens []Token) Dispenser { return Dispenser{ filename: filename, tokens: tokens, cursor: -1, } } // Next loads the next token. Returns true if a token // was loaded; false otherwise. If false, all tokens // have been consumed. func (d *Dispenser) Next() bool { if d.cursor < len(d.tokens)-1 { d.cursor++ return true } return false } // NextArg loads the next token if it is on the same // line. Returns true if a token was loaded; false // otherwise. If false, all tokens on the line have // been consumed. It handles imported tokens correctly. func (d *Dispenser) NextArg() bool { if d.cursor < 0 { d.cursor++ return true } if d.cursor >= len(d.tokens) { return false } if d.cursor < len(d.tokens)-1 && d.tokens[d.cursor].File == d.tokens[d.cursor+1].File && d.tokens[d.cursor].Line+d.numLineBreaks(d.cursor) == d.tokens[d.cursor+1].Line { d.cursor++ return true } return false } // NextLine loads the next token only if it is not on the same // line as the current token, and returns true if a token was // loaded; false otherwise. If false, there is not another token // or it is on the same line. It handles imported tokens correctly. func (d *Dispenser) NextLine() bool { if d.cursor < 0 { d.cursor++ return true } if d.cursor >= len(d.tokens) { return false } if d.cursor < len(d.tokens)-1 && (d.tokens[d.cursor].File != d.tokens[d.cursor+1].File || d.tokens[d.cursor].Line+d.numLineBreaks(d.cursor) < d.tokens[d.cursor+1].Line) { d.cursor++ return true } return false } // NextBlock can be used as the condition of a for loop // to load the next token as long as it opens a block or // is already in a block. It returns true if a token was // loaded, or false when the block's closing curly brace // was loaded and thus the block ended. Nested blocks are // not supported. func (d *Dispenser) NextBlock() bool { if d.nesting > 0 { d.Next() if d.Val() == "}" { d.nesting-- return false } return true } if !d.NextArg() { // block must open on same line return false } if d.Val() != "{" { d.cursor-- // roll back if not opening brace return false } d.Next() if d.Val() == "}" { // Open and then closed right away return false } d.nesting++ return true } // Val gets the text of the current token. If there is no token // loaded, it returns empty string. func (d *Dispenser) Val() string { if d.cursor < 0 || d.cursor >= len(d.tokens) { return "" } return d.tokens[d.cursor].Text } // Line gets the line number of the current token. If there is no token // loaded, it returns 0. func (d *Dispenser) Line() int { if d.cursor < 0 || d.cursor >= len(d.tokens) { return 0 } return d.tokens[d.cursor].Line } // File gets the filename of the current token. If there is no token loaded, // it returns the filename originally given when parsing started. func (d *Dispenser) File() string { if d.cursor < 0 || d.cursor >= len(d.tokens) { return d.filename } if tokenFilename := d.tokens[d.cursor].File; tokenFilename != "" { return tokenFilename } return d.filename } // Args is a convenience function that loads the next arguments // (tokens on the same line) into an arbitrary number of strings // pointed to in targets. If there are fewer tokens available // than string pointers, the remaining strings will not be changed // and false will be returned. If there were enough tokens available // to fill the arguments, then true will be returned. func (d *Dispenser) Args(targets ...*string) bool { enough := true for i := 0; i < len(targets); i++ { if !d.NextArg() { enough = false break } *targets[i] = d.Val() } return enough } // RemainingArgs loads any more arguments (tokens on the same line) // into a slice and returns them. Open curly brace tokens also indicate // the end of arguments, and the curly brace is not included in // the return value nor is it loaded. func (d *Dispenser) RemainingArgs() []string { var args []string for d.NextArg() { if d.Val() == "{" { d.cursor-- break } args = append(args, d.Val()) } return args } // ArgErr returns an argument error, meaning that another // argument was expected but not found. In other words, // a line break or open curly brace was encountered instead of // an argument. func (d *Dispenser) ArgErr() error { if d.Val() == "{" { return d.Err("Unexpected token '{', expecting argument") } return d.Errf("Wrong argument count or unexpected line ending after '%s'", d.Val()) } // SyntaxErr creates a generic syntax error which explains what was // found and what was expected. func (d *Dispenser) SyntaxErr(expected string) error { msg := fmt.Sprintf("%s:%d - Syntax error: Unexpected token '%s', expecting '%s'", d.File(), d.Line(), d.Val(), expected) return errors.New(msg) } // EOFErr returns an error indicating that the dispenser reached // the end of the input when searching for the next token. func (d *Dispenser) EOFErr() error { return d.Errf("Unexpected EOF") } // Err generates a custom parse error with a message of msg. func (d *Dispenser) Err(msg string) error { msg = fmt.Sprintf("%s:%d - Parse error: %s", d.File(), d.Line(), msg) return errors.New(msg) } // Errf is like Err, but for formatted error messages func (d *Dispenser) Errf(format string, args ...interface{}) error { return d.Err(fmt.Sprintf(format, args...)) } // numLineBreaks counts how many line breaks are in the token // value given by the token index tknIdx. It returns 0 if the // token does not exist or there are no line breaks. func (d *Dispenser) numLineBreaks(tknIdx int) int { if tknIdx < 0 || tknIdx >= len(d.tokens) { return 0 } return strings.Count(d.tokens[tknIdx].Text, "\n") } // isNewLine determines whether the current token is on a different // line (higher line number) than the previous token. It handles imported // tokens correctly. If there isn't a previous token, it returns true. func (d *Dispenser) isNewLine() bool { if d.cursor < 1 { return true } if d.cursor > len(d.tokens)-1 { return false } return d.tokens[d.cursor-1].File != d.tokens[d.cursor].File || d.tokens[d.cursor-1].Line+d.numLineBreaks(d.cursor-1) < d.tokens[d.cursor].Line }