forked from TrueCloudLab/restic
2b39f9f4b2
Among others, this updates minio-go, so that the new "eu-west-3" zone for AWS is supported.
407 lines
10 KiB
Go
407 lines
10 KiB
Go
// Copyright 2017 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package catmsg
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import (
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"errors"
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"fmt"
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"golang.org/x/text/language"
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)
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// A Renderer renders a Message.
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type Renderer interface {
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// Render renders the given string. The given string may be interpreted as a
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// format string, such as the one used by the fmt package or a template.
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Render(s string)
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// Arg returns the i-th argument passed to format a message. This method
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// should return nil if there is no such argument. Messages need access to
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// arguments to allow selecting a message based on linguistic features of
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// those arguments.
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Arg(i int) interface{}
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}
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// A Dictionary specifies a source of messages, including variables or macros.
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type Dictionary interface {
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// Lookup returns the message for the given key. It returns false for ok if
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// such a message could not be found.
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Lookup(key string) (data string, ok bool)
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// TODO: consider returning an interface, instead of a string. This will
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// allow implementations to do their own message type decoding.
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}
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// An Encoder serializes a Message to a string.
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type Encoder struct {
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// The root encoder is used for storing encoded variables.
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root *Encoder
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// The parent encoder provides the surrounding scopes for resolving variable
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// names.
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parent *Encoder
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tag language.Tag
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// buf holds the encoded message so far. After a message completes encoding,
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// the contents of buf, prefixed by the encoded length, are flushed to the
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// parent buffer.
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buf []byte
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// vars is the lookup table of variables in the current scope.
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vars []keyVal
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err error
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inBody bool // if false next call must be EncodeMessageType
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}
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type keyVal struct {
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key string
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offset int
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}
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// Language reports the language for which the encoded message will be stored
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// in the Catalog.
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func (e *Encoder) Language() language.Tag { return e.tag }
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func (e *Encoder) setError(err error) {
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if e.root.err == nil {
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e.root.err = err
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}
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}
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// EncodeUint encodes x.
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func (e *Encoder) EncodeUint(x uint64) {
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e.checkInBody()
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var buf [maxVarintBytes]byte
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n := encodeUint(buf[:], x)
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e.buf = append(e.buf, buf[:n]...)
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}
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// EncodeString encodes s.
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func (e *Encoder) EncodeString(s string) {
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e.checkInBody()
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e.EncodeUint(uint64(len(s)))
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e.buf = append(e.buf, s...)
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}
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// EncodeMessageType marks the current message to be of type h.
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//
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// It must be the first call of a Message's Compile method.
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func (e *Encoder) EncodeMessageType(h Handle) {
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if e.inBody {
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panic("catmsg: EncodeMessageType not the first method called")
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}
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e.inBody = true
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e.EncodeUint(uint64(h))
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}
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// EncodeMessage serializes the given message inline at the current position.
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func (e *Encoder) EncodeMessage(m Message) error {
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e = &Encoder{root: e.root, parent: e, tag: e.tag}
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err := m.Compile(e)
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if _, ok := m.(*Var); !ok {
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e.flushTo(e.parent)
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}
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return err
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}
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func (e *Encoder) checkInBody() {
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if !e.inBody {
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panic("catmsg: expected prior call to EncodeMessageType")
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}
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}
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// stripPrefix indicates the number of prefix bytes that must be stripped to
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// turn a single-element sequence into a message that is just this single member
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// without its size prefix. If the message can be stripped, b[1:n] contains the
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// size prefix.
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func stripPrefix(b []byte) (n int) {
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if len(b) > 0 && Handle(b[0]) == msgFirst {
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x, n, _ := decodeUint(b[1:])
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if 1+n+int(x) == len(b) {
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return 1 + n
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}
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}
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return 0
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}
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func (e *Encoder) flushTo(dst *Encoder) {
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data := e.buf
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p := stripPrefix(data)
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if p > 0 {
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data = data[1:]
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} else {
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// Prefix the size.
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dst.EncodeUint(uint64(len(data)))
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}
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dst.buf = append(dst.buf, data...)
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}
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func (e *Encoder) addVar(key string, m Message) error {
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for _, v := range e.parent.vars {
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if v.key == key {
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err := fmt.Errorf("catmsg: duplicate variable %q", key)
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e.setError(err)
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return err
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}
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}
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scope := e.parent
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// If a variable message is Incomplete, and does not evaluate to a message
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// during execution, we fall back to the variable name. We encode this by
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// appending the variable name if the message reports it's incomplete.
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err := m.Compile(e)
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if err != ErrIncomplete {
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e.setError(err)
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}
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switch {
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case len(e.buf) == 1 && Handle(e.buf[0]) == msgFirst: // empty sequence
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e.buf = e.buf[:0]
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e.inBody = false
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fallthrough
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case len(e.buf) == 0:
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// Empty message.
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if err := String(key).Compile(e); err != nil {
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e.setError(err)
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}
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case err == ErrIncomplete:
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if Handle(e.buf[0]) != msgFirst {
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seq := &Encoder{root: e.root, parent: e}
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seq.EncodeMessageType(msgFirst)
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e.flushTo(seq)
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e = seq
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}
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// e contains a sequence; append the fallback string.
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e.EncodeMessage(String(key))
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}
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// Flush result to variable heap.
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offset := len(e.root.buf)
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e.flushTo(e.root)
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e.buf = e.buf[:0]
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// Record variable offset in current scope.
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scope.vars = append(scope.vars, keyVal{key: key, offset: offset})
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return err
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}
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const (
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substituteVar = iota
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substituteMacro
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substituteError
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)
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// EncodeSubstitution inserts a resolved reference to a variable or macro.
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//
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// This call must be matched with a call to ExecuteSubstitution at decoding
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// time.
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func (e *Encoder) EncodeSubstitution(name string, arguments ...int) {
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if arity := len(arguments); arity > 0 {
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// TODO: also resolve macros.
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e.EncodeUint(substituteMacro)
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e.EncodeString(name)
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for _, a := range arguments {
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e.EncodeUint(uint64(a))
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}
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return
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}
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for scope := e; scope != nil; scope = scope.parent {
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for _, v := range scope.vars {
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if v.key != name {
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continue
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}
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e.EncodeUint(substituteVar) // TODO: support arity > 0
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e.EncodeUint(uint64(v.offset))
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return
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}
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}
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// TODO: refer to dictionary-wide scoped variables.
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e.EncodeUint(substituteError)
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e.EncodeString(name)
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e.setError(fmt.Errorf("catmsg: unknown var %q", name))
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}
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// A Decoder deserializes and evaluates messages that are encoded by an encoder.
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type Decoder struct {
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tag language.Tag
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dst Renderer
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macros Dictionary
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err error
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vars string
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data string
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macroArg int // TODO: allow more than one argument
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}
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// NewDecoder returns a new Decoder.
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//
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// Decoders are designed to be reused for multiple invocations of Execute.
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// Only one goroutine may call Execute concurrently.
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func NewDecoder(tag language.Tag, r Renderer, macros Dictionary) *Decoder {
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return &Decoder{
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tag: tag,
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dst: r,
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macros: macros,
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}
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}
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func (d *Decoder) setError(err error) {
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if d.err == nil {
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d.err = err
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}
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}
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// Language returns the language in which the message is being rendered.
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//
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// The destination language may be a child language of the language used for
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// encoding. For instance, a decoding language of "pt-PT"" is consistent with an
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// encoding language of "pt".
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func (d *Decoder) Language() language.Tag { return d.tag }
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// Done reports whether there are more bytes to process in this message.
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func (d *Decoder) Done() bool { return len(d.data) == 0 }
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// Render implements Renderer.
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func (d *Decoder) Render(s string) { d.dst.Render(s) }
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// Arg implements Renderer.
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//
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// During evaluation of macros, the argument positions may be mapped to
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// arguments that differ from the original call.
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func (d *Decoder) Arg(i int) interface{} {
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if d.macroArg != 0 {
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if i != 1 {
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panic("catmsg: only macros with single argument supported")
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}
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i = d.macroArg
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}
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return d.dst.Arg(i)
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}
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// DecodeUint decodes a number that was encoded with EncodeUint and advances the
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// position.
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func (d *Decoder) DecodeUint() uint64 {
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x, n, err := decodeUintString(d.data)
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d.data = d.data[n:]
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if err != nil {
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d.setError(err)
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}
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return x
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}
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// DecodeString decodes a string that was encoded with EncodeString and advances
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// the position.
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func (d *Decoder) DecodeString() string {
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size := d.DecodeUint()
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s := d.data[:size]
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d.data = d.data[size:]
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return s
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}
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// SkipMessage skips the message at the current location and advances the
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// position.
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func (d *Decoder) SkipMessage() {
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n := int(d.DecodeUint())
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d.data = d.data[n:]
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}
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// Execute decodes and evaluates msg.
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//
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// Only one goroutine may call execute.
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func (d *Decoder) Execute(msg string) error {
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d.err = nil
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if !d.execute(msg) {
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return ErrNoMatch
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}
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return d.err
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}
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func (d *Decoder) execute(msg string) bool {
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saved := d.data
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d.data = msg
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ok := d.executeMessage()
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d.data = saved
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return ok
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}
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// executeMessageFromData is like execute, but also decodes a leading message
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// size and clips the given string accordingly.
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//
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// It reports the number of bytes consumed and whether a message was selected.
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func (d *Decoder) executeMessageFromData(s string) (n int, ok bool) {
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saved := d.data
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d.data = s
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size := int(d.DecodeUint())
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n = len(s) - len(d.data)
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// Sanitize the setting. This allows skipping a size argument for
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// RawString and method Done.
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d.data = d.data[:size]
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ok = d.executeMessage()
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n += size - len(d.data)
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d.data = saved
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return n, ok
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}
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var errUnknownHandler = errors.New("catmsg: string contains unsupported handler")
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// executeMessage reads the handle id, initializes the decoder and executes the
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// message. It is assumed that all of d.data[d.p:] is the single message.
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func (d *Decoder) executeMessage() bool {
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if d.Done() {
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// We interpret no data as a valid empty message.
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return true
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}
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handle := d.DecodeUint()
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var fn Handler
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mutex.Lock()
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if int(handle) < len(handlers) {
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fn = handlers[handle]
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}
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mutex.Unlock()
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if fn == nil {
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d.setError(errUnknownHandler)
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d.execute(fmt.Sprintf("\x02$!(UNKNOWNMSGHANDLER=%#x)", handle))
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return true
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}
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return fn(d)
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}
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// ExecuteMessage decodes and executes the message at the current position.
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func (d *Decoder) ExecuteMessage() bool {
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n, ok := d.executeMessageFromData(d.data)
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d.data = d.data[n:]
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return ok
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}
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// ExecuteSubstitution executes the message corresponding to the substitution
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// as encoded by EncodeSubstitution.
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func (d *Decoder) ExecuteSubstitution() {
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switch x := d.DecodeUint(); x {
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case substituteVar:
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offset := d.DecodeUint()
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d.executeMessageFromData(d.vars[offset:])
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case substituteMacro:
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name := d.DecodeString()
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data, ok := d.macros.Lookup(name)
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old := d.macroArg
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// TODO: support macros of arity other than 1.
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d.macroArg = int(d.DecodeUint())
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switch {
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case !ok:
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// TODO: detect this at creation time.
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d.setError(fmt.Errorf("catmsg: undefined macro %q", name))
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fallthrough
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case !d.execute(data):
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d.dst.Render(name) // fall back to macro name.
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}
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d.macroArg = old
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case substituteError:
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d.dst.Render(d.DecodeString())
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default:
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panic("catmsg: unreachable")
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}
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}
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