mirror of
https://gitlab.com/arm-research/smarter/smarter-device-manager.git
synced 2024-11-24 11:41:31 +00:00
491 lines
14 KiB
Go
491 lines
14 KiB
Go
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// Copyright 2014 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 hpack implements HPACK, a compression format for
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// efficiently representing HTTP header fields in the context of HTTP/2.
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//
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// See http://tools.ietf.org/html/draft-ietf-httpbis-header-compression-09
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package hpack
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import (
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"bytes"
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"errors"
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"fmt"
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)
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// A DecodingError is something the spec defines as a decoding error.
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type DecodingError struct {
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Err error
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}
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func (de DecodingError) Error() string {
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return fmt.Sprintf("decoding error: %v", de.Err)
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}
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// An InvalidIndexError is returned when an encoder references a table
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// entry before the static table or after the end of the dynamic table.
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type InvalidIndexError int
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func (e InvalidIndexError) Error() string {
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return fmt.Sprintf("invalid indexed representation index %d", int(e))
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}
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// A HeaderField is a name-value pair. Both the name and value are
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// treated as opaque sequences of octets.
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type HeaderField struct {
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Name, Value string
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// Sensitive means that this header field should never be
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// indexed.
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Sensitive bool
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}
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// IsPseudo reports whether the header field is an http2 pseudo header.
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// That is, it reports whether it starts with a colon.
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// It is not otherwise guaranteed to be a valid pseudo header field,
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// though.
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func (hf HeaderField) IsPseudo() bool {
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return len(hf.Name) != 0 && hf.Name[0] == ':'
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}
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func (hf HeaderField) String() string {
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var suffix string
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if hf.Sensitive {
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suffix = " (sensitive)"
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}
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return fmt.Sprintf("header field %q = %q%s", hf.Name, hf.Value, suffix)
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}
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// Size returns the size of an entry per RFC 7541 section 4.1.
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func (hf HeaderField) Size() uint32 {
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// http://http2.github.io/http2-spec/compression.html#rfc.section.4.1
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// "The size of the dynamic table is the sum of the size of
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// its entries. The size of an entry is the sum of its name's
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// length in octets (as defined in Section 5.2), its value's
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// length in octets (see Section 5.2), plus 32. The size of
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// an entry is calculated using the length of the name and
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// value without any Huffman encoding applied."
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// This can overflow if somebody makes a large HeaderField
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// Name and/or Value by hand, but we don't care, because that
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// won't happen on the wire because the encoding doesn't allow
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// it.
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return uint32(len(hf.Name) + len(hf.Value) + 32)
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}
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// A Decoder is the decoding context for incremental processing of
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// header blocks.
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type Decoder struct {
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dynTab dynamicTable
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emit func(f HeaderField)
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emitEnabled bool // whether calls to emit are enabled
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maxStrLen int // 0 means unlimited
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// buf is the unparsed buffer. It's only written to
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// saveBuf if it was truncated in the middle of a header
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// block. Because it's usually not owned, we can only
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// process it under Write.
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buf []byte // not owned; only valid during Write
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// saveBuf is previous data passed to Write which we weren't able
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// to fully parse before. Unlike buf, we own this data.
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saveBuf bytes.Buffer
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}
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// NewDecoder returns a new decoder with the provided maximum dynamic
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// table size. The emitFunc will be called for each valid field
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// parsed, in the same goroutine as calls to Write, before Write returns.
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func NewDecoder(maxDynamicTableSize uint32, emitFunc func(f HeaderField)) *Decoder {
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d := &Decoder{
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emit: emitFunc,
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emitEnabled: true,
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}
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d.dynTab.table.init()
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d.dynTab.allowedMaxSize = maxDynamicTableSize
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d.dynTab.setMaxSize(maxDynamicTableSize)
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return d
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}
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// ErrStringLength is returned by Decoder.Write when the max string length
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// (as configured by Decoder.SetMaxStringLength) would be violated.
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var ErrStringLength = errors.New("hpack: string too long")
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// SetMaxStringLength sets the maximum size of a HeaderField name or
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// value string. If a string exceeds this length (even after any
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// decompression), Write will return ErrStringLength.
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// A value of 0 means unlimited and is the default from NewDecoder.
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func (d *Decoder) SetMaxStringLength(n int) {
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d.maxStrLen = n
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}
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// SetEmitFunc changes the callback used when new header fields
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// are decoded.
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// It must be non-nil. It does not affect EmitEnabled.
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func (d *Decoder) SetEmitFunc(emitFunc func(f HeaderField)) {
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d.emit = emitFunc
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}
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// SetEmitEnabled controls whether the emitFunc provided to NewDecoder
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// should be called. The default is true.
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//
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// This facility exists to let servers enforce MAX_HEADER_LIST_SIZE
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// while still decoding and keeping in-sync with decoder state, but
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// without doing unnecessary decompression or generating unnecessary
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// garbage for header fields past the limit.
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func (d *Decoder) SetEmitEnabled(v bool) { d.emitEnabled = v }
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// EmitEnabled reports whether calls to the emitFunc provided to NewDecoder
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// are currently enabled. The default is true.
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func (d *Decoder) EmitEnabled() bool { return d.emitEnabled }
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// TODO: add method *Decoder.Reset(maxSize, emitFunc) to let callers re-use Decoders and their
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// underlying buffers for garbage reasons.
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func (d *Decoder) SetMaxDynamicTableSize(v uint32) {
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d.dynTab.setMaxSize(v)
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}
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// SetAllowedMaxDynamicTableSize sets the upper bound that the encoded
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// stream (via dynamic table size updates) may set the maximum size
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// to.
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func (d *Decoder) SetAllowedMaxDynamicTableSize(v uint32) {
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d.dynTab.allowedMaxSize = v
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}
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type dynamicTable struct {
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// http://http2.github.io/http2-spec/compression.html#rfc.section.2.3.2
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table headerFieldTable
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size uint32 // in bytes
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maxSize uint32 // current maxSize
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allowedMaxSize uint32 // maxSize may go up to this, inclusive
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}
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func (dt *dynamicTable) setMaxSize(v uint32) {
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dt.maxSize = v
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dt.evict()
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}
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func (dt *dynamicTable) add(f HeaderField) {
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dt.table.addEntry(f)
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dt.size += f.Size()
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dt.evict()
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}
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// If we're too big, evict old stuff.
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func (dt *dynamicTable) evict() {
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var n int
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for dt.size > dt.maxSize && n < dt.table.len() {
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dt.size -= dt.table.ents[n].Size()
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n++
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}
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dt.table.evictOldest(n)
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}
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func (d *Decoder) maxTableIndex() int {
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// This should never overflow. RFC 7540 Section 6.5.2 limits the size of
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// the dynamic table to 2^32 bytes, where each entry will occupy more than
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// one byte. Further, the staticTable has a fixed, small length.
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return d.dynTab.table.len() + staticTable.len()
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}
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func (d *Decoder) at(i uint64) (hf HeaderField, ok bool) {
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// See Section 2.3.3.
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if i == 0 {
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return
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}
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if i <= uint64(staticTable.len()) {
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return staticTable.ents[i-1], true
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}
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if i > uint64(d.maxTableIndex()) {
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return
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}
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// In the dynamic table, newer entries have lower indices.
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// However, dt.ents[0] is the oldest entry. Hence, dt.ents is
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// the reversed dynamic table.
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dt := d.dynTab.table
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return dt.ents[dt.len()-(int(i)-staticTable.len())], true
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}
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// Decode decodes an entire block.
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//
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// TODO: remove this method and make it incremental later? This is
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// easier for debugging now.
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func (d *Decoder) DecodeFull(p []byte) ([]HeaderField, error) {
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var hf []HeaderField
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saveFunc := d.emit
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defer func() { d.emit = saveFunc }()
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d.emit = func(f HeaderField) { hf = append(hf, f) }
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if _, err := d.Write(p); err != nil {
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return nil, err
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}
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if err := d.Close(); err != nil {
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return nil, err
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}
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return hf, nil
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}
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func (d *Decoder) Close() error {
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if d.saveBuf.Len() > 0 {
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d.saveBuf.Reset()
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return DecodingError{errors.New("truncated headers")}
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}
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return nil
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}
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func (d *Decoder) Write(p []byte) (n int, err error) {
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if len(p) == 0 {
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// Prevent state machine CPU attacks (making us redo
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// work up to the point of finding out we don't have
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// enough data)
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return
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}
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// Only copy the data if we have to. Optimistically assume
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// that p will contain a complete header block.
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if d.saveBuf.Len() == 0 {
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d.buf = p
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} else {
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d.saveBuf.Write(p)
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d.buf = d.saveBuf.Bytes()
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d.saveBuf.Reset()
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}
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for len(d.buf) > 0 {
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err = d.parseHeaderFieldRepr()
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if err == errNeedMore {
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// Extra paranoia, making sure saveBuf won't
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// get too large. All the varint and string
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// reading code earlier should already catch
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// overlong things and return ErrStringLength,
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// but keep this as a last resort.
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const varIntOverhead = 8 // conservative
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if d.maxStrLen != 0 && int64(len(d.buf)) > 2*(int64(d.maxStrLen)+varIntOverhead) {
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return 0, ErrStringLength
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}
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d.saveBuf.Write(d.buf)
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return len(p), nil
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}
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if err != nil {
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break
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}
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}
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return len(p), err
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}
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// errNeedMore is an internal sentinel error value that means the
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// buffer is truncated and we need to read more data before we can
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// continue parsing.
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var errNeedMore = errors.New("need more data")
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type indexType int
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const (
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indexedTrue indexType = iota
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indexedFalse
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indexedNever
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)
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func (v indexType) indexed() bool { return v == indexedTrue }
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func (v indexType) sensitive() bool { return v == indexedNever }
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// returns errNeedMore if there isn't enough data available.
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// any other error is fatal.
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// consumes d.buf iff it returns nil.
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// precondition: must be called with len(d.buf) > 0
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func (d *Decoder) parseHeaderFieldRepr() error {
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b := d.buf[0]
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switch {
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case b&128 != 0:
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// Indexed representation.
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// High bit set?
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// http://http2.github.io/http2-spec/compression.html#rfc.section.6.1
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return d.parseFieldIndexed()
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case b&192 == 64:
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// 6.2.1 Literal Header Field with Incremental Indexing
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// 0b10xxxxxx: top two bits are 10
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// http://http2.github.io/http2-spec/compression.html#rfc.section.6.2.1
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return d.parseFieldLiteral(6, indexedTrue)
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case b&240 == 0:
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// 6.2.2 Literal Header Field without Indexing
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// 0b0000xxxx: top four bits are 0000
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// http://http2.github.io/http2-spec/compression.html#rfc.section.6.2.2
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return d.parseFieldLiteral(4, indexedFalse)
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case b&240 == 16:
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// 6.2.3 Literal Header Field never Indexed
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// 0b0001xxxx: top four bits are 0001
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// http://http2.github.io/http2-spec/compression.html#rfc.section.6.2.3
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return d.parseFieldLiteral(4, indexedNever)
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case b&224 == 32:
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// 6.3 Dynamic Table Size Update
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// Top three bits are '001'.
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// http://http2.github.io/http2-spec/compression.html#rfc.section.6.3
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return d.parseDynamicTableSizeUpdate()
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}
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return DecodingError{errors.New("invalid encoding")}
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}
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// (same invariants and behavior as parseHeaderFieldRepr)
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func (d *Decoder) parseFieldIndexed() error {
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buf := d.buf
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idx, buf, err := readVarInt(7, buf)
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if err != nil {
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return err
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}
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hf, ok := d.at(idx)
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if !ok {
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return DecodingError{InvalidIndexError(idx)}
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}
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d.buf = buf
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return d.callEmit(HeaderField{Name: hf.Name, Value: hf.Value})
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}
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// (same invariants and behavior as parseHeaderFieldRepr)
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func (d *Decoder) parseFieldLiteral(n uint8, it indexType) error {
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buf := d.buf
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nameIdx, buf, err := readVarInt(n, buf)
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if err != nil {
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return err
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}
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var hf HeaderField
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wantStr := d.emitEnabled || it.indexed()
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if nameIdx > 0 {
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ihf, ok := d.at(nameIdx)
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if !ok {
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return DecodingError{InvalidIndexError(nameIdx)}
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}
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hf.Name = ihf.Name
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} else {
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hf.Name, buf, err = d.readString(buf, wantStr)
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if err != nil {
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return err
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}
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}
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hf.Value, buf, err = d.readString(buf, wantStr)
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if err != nil {
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return err
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}
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d.buf = buf
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if it.indexed() {
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d.dynTab.add(hf)
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}
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hf.Sensitive = it.sensitive()
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return d.callEmit(hf)
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}
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func (d *Decoder) callEmit(hf HeaderField) error {
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if d.maxStrLen != 0 {
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if len(hf.Name) > d.maxStrLen || len(hf.Value) > d.maxStrLen {
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return ErrStringLength
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}
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}
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if d.emitEnabled {
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d.emit(hf)
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}
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return nil
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}
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// (same invariants and behavior as parseHeaderFieldRepr)
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func (d *Decoder) parseDynamicTableSizeUpdate() error {
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buf := d.buf
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size, buf, err := readVarInt(5, buf)
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if err != nil {
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return err
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}
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if size > uint64(d.dynTab.allowedMaxSize) {
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return DecodingError{errors.New("dynamic table size update too large")}
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}
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d.dynTab.setMaxSize(uint32(size))
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d.buf = buf
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return nil
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}
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var errVarintOverflow = DecodingError{errors.New("varint integer overflow")}
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// readVarInt reads an unsigned variable length integer off the
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// beginning of p. n is the parameter as described in
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// http://http2.github.io/http2-spec/compression.html#rfc.section.5.1.
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//
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// n must always be between 1 and 8.
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//
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// The returned remain buffer is either a smaller suffix of p, or err != nil.
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// The error is errNeedMore if p doesn't contain a complete integer.
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func readVarInt(n byte, p []byte) (i uint64, remain []byte, err error) {
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if n < 1 || n > 8 {
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panic("bad n")
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}
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if len(p) == 0 {
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return 0, p, errNeedMore
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}
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i = uint64(p[0])
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if n < 8 {
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i &= (1 << uint64(n)) - 1
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}
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if i < (1<<uint64(n))-1 {
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return i, p[1:], nil
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}
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||
|
origP := p
|
||
|
p = p[1:]
|
||
|
var m uint64
|
||
|
for len(p) > 0 {
|
||
|
b := p[0]
|
||
|
p = p[1:]
|
||
|
i += uint64(b&127) << m
|
||
|
if b&128 == 0 {
|
||
|
return i, p, nil
|
||
|
}
|
||
|
m += 7
|
||
|
if m >= 63 { // TODO: proper overflow check. making this up.
|
||
|
return 0, origP, errVarintOverflow
|
||
|
}
|
||
|
}
|
||
|
return 0, origP, errNeedMore
|
||
|
}
|
||
|
|
||
|
// readString decodes an hpack string from p.
|
||
|
//
|
||
|
// wantStr is whether s will be used. If false, decompression and
|
||
|
// []byte->string garbage are skipped if s will be ignored
|
||
|
// anyway. This does mean that huffman decoding errors for non-indexed
|
||
|
// strings past the MAX_HEADER_LIST_SIZE are ignored, but the server
|
||
|
// is returning an error anyway, and because they're not indexed, the error
|
||
|
// won't affect the decoding state.
|
||
|
func (d *Decoder) readString(p []byte, wantStr bool) (s string, remain []byte, err error) {
|
||
|
if len(p) == 0 {
|
||
|
return "", p, errNeedMore
|
||
|
}
|
||
|
isHuff := p[0]&128 != 0
|
||
|
strLen, p, err := readVarInt(7, p)
|
||
|
if err != nil {
|
||
|
return "", p, err
|
||
|
}
|
||
|
if d.maxStrLen != 0 && strLen > uint64(d.maxStrLen) {
|
||
|
return "", nil, ErrStringLength
|
||
|
}
|
||
|
if uint64(len(p)) < strLen {
|
||
|
return "", p, errNeedMore
|
||
|
}
|
||
|
if !isHuff {
|
||
|
if wantStr {
|
||
|
s = string(p[:strLen])
|
||
|
}
|
||
|
return s, p[strLen:], nil
|
||
|
}
|
||
|
|
||
|
if wantStr {
|
||
|
buf := bufPool.Get().(*bytes.Buffer)
|
||
|
buf.Reset() // don't trust others
|
||
|
defer bufPool.Put(buf)
|
||
|
if err := huffmanDecode(buf, d.maxStrLen, p[:strLen]); err != nil {
|
||
|
buf.Reset()
|
||
|
return "", nil, err
|
||
|
}
|
||
|
s = buf.String()
|
||
|
buf.Reset() // be nice to GC
|
||
|
}
|
||
|
return s, p[strLen:], nil
|
||
|
}
|