214 lines
8.2 KiB
Go
214 lines
8.2 KiB
Go
// Copyright 2012 Google, Inc. All rights reserved.
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//
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// Use of this source code is governed by a BSD-style license
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// that can be found in the LICENSE file in the root of the source
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// tree.
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package gopacket
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import (
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"fmt"
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)
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// SerializableLayer allows its implementations to be written out as a set of bytes,
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// so those bytes may be sent on the wire or otherwise used by the caller.
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// SerializableLayer is implemented by certain Layer types, and can be encoded to
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// bytes using the LayerWriter object.
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type SerializableLayer interface {
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// SerializeTo writes this layer to a slice, growing that slice if necessary
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// to make it fit the layer's data.
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// Args:
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// b: SerializeBuffer to write this layer on to. When called, b.Bytes()
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// is the payload this layer should wrap, if any. Note that this
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// layer can either prepend itself (common), append itself
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// (uncommon), or both (sometimes padding or footers are required at
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// the end of packet data). It's also possible (though probably very
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// rarely needed) to overwrite any bytes in the current payload.
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// After this call, b.Bytes() should return the byte encoding of
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// this layer wrapping the original b.Bytes() payload.
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// opts: options to use while writing out data.
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// Returns:
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// error if a problem was encountered during encoding. If an error is
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// returned, the bytes in data should be considered invalidated, and
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// not used.
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//
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// SerializeTo calls SHOULD entirely ignore LayerContents and
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// LayerPayload. It just serializes based on struct fields, neither
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// modifying nor using contents/payload.
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SerializeTo(b SerializeBuffer, opts SerializeOptions) error
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}
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// SerializeOptions provides options for behaviors that SerializableLayers may want to
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// implement.
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type SerializeOptions struct {
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// FixLengths determines whether, during serialization, layers should fix
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// the values for any length field that depends on the payload.
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FixLengths bool
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// ComputeChecksums determines whether, during serialization, layers
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// should recompute checksums based on their payloads.
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ComputeChecksums bool
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}
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// SerializeBuffer is a helper used by gopacket for writing out packet layers.
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// SerializeBuffer starts off as an empty []byte. Subsequent calls to PrependBytes
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// return byte slices before the current Bytes(), AppendBytes returns byte
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// slices after.
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//
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// Byte slices returned by PrependBytes/AppendBytes are NOT zero'd out, so if
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// you want to make sure they're all zeros, set them as such.
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//
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// SerializeBuffer is specifically designed to handle packet writing, where unlike
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// with normal writes it's easier to start writing at the inner-most layer and
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// work out, meaning that we often need to prepend bytes. This runs counter to
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// typical writes to byte slices using append(), where we only write at the end
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// of the buffer.
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//
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// It can be reused via Clear. Note, however, that a Clear call will invalidate the
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// byte slices returned by any previous Bytes() call (the same buffer is
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// reused).
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//
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// 1) Reusing a write buffer is generally much faster than creating a new one,
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// and with the default implementation it avoids additional memory allocations.
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// 2) If a byte slice from a previous Bytes() call will continue to be used,
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// it's better to create a new SerializeBuffer.
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//
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// The Clear method is specifically designed to minimize memory allocations for
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// similar later workloads on the SerializeBuffer. IE: if you make a set of
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// Prepend/Append calls, then clear, then make the same calls with the same
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// sizes, the second round (and all future similar rounds) shouldn't allocate
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// any new memory.
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type SerializeBuffer interface {
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// Bytes returns the contiguous set of bytes collected so far by Prepend/Append
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// calls. The slice returned by Bytes will be modified by future Clear calls,
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// so if you're planning on clearing this SerializeBuffer, you may want to copy
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// Bytes somewhere safe first.
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Bytes() []byte
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// PrependBytes returns a set of bytes which prepends the current bytes in this
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// buffer. These bytes start in an indeterminate state, so they should be
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// overwritten by the caller. The caller must only call PrependBytes if they
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// know they're going to immediately overwrite all bytes returned.
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PrependBytes(num int) ([]byte, error)
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// AppendBytes returns a set of bytes which appends the current bytes in this
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// buffer. These bytes start in an indeterminate state, so they should be
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// overwritten by the caller. The caller must only call AppendBytes if they
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// know they're going to immediately overwrite all bytes returned.
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AppendBytes(num int) ([]byte, error)
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// Clear resets the SerializeBuffer to a new, empty buffer. After a call to clear,
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// the byte slice returned by any previous call to Bytes() for this buffer
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// should be considered invalidated.
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Clear() error
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}
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type serializeBuffer struct {
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data []byte
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start int
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prepended, appended int
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}
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// NewSerializeBuffer creates a new instance of the default implementation of
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// the SerializeBuffer interface.
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func NewSerializeBuffer() SerializeBuffer {
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return &serializeBuffer{}
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}
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// NewSerializeBufferExpectedSize creates a new buffer for serialization, optimized for an
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// expected number of bytes prepended/appended. This tends to decrease the
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// number of memory allocations made by the buffer during writes.
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func NewSerializeBufferExpectedSize(expectedPrependLength, expectedAppendLength int) SerializeBuffer {
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return &serializeBuffer{
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data: make([]byte, expectedPrependLength, expectedPrependLength+expectedAppendLength),
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start: expectedPrependLength,
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prepended: expectedPrependLength,
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appended: expectedAppendLength,
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}
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}
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func (w *serializeBuffer) Bytes() []byte {
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return w.data[w.start:]
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}
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func (w *serializeBuffer) PrependBytes(num int) ([]byte, error) {
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if num < 0 {
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panic("num < 0")
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}
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if w.start < num {
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toPrepend := w.prepended
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if toPrepend < num {
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toPrepend = num
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}
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w.prepended += toPrepend
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length := cap(w.data) + toPrepend
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newData := make([]byte, length)
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newStart := w.start + toPrepend
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copy(newData[newStart:], w.data[w.start:])
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w.start = newStart
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w.data = newData[:toPrepend+len(w.data)]
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}
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w.start -= num
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return w.data[w.start : w.start+num], nil
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}
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func (w *serializeBuffer) AppendBytes(num int) ([]byte, error) {
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if num < 0 {
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panic("num < 0")
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}
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initialLength := len(w.data)
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if cap(w.data)-initialLength < num {
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toAppend := w.appended
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if toAppend < num {
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toAppend = num
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}
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w.appended += toAppend
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newData := make([]byte, cap(w.data)+toAppend)
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copy(newData[w.start:], w.data[w.start:])
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w.data = newData[:initialLength]
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}
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// Grow the buffer. We know it'll be under capacity given above.
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w.data = w.data[:initialLength+num]
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return w.data[initialLength:], nil
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}
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func (w *serializeBuffer) Clear() error {
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w.start = w.prepended
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w.data = w.data[:w.start]
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return nil
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}
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// SerializeLayers clears the given write buffer, then writes all layers into it so
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// they correctly wrap each other. Note that by clearing the buffer, it
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// invalidates all slices previously returned by w.Bytes()
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//
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// Example:
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// buf := gopacket.NewSerializeBuffer()
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// opts := gopacket.SerializeOptions{}
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// gopacket.SerializeLayers(buf, opts, a, b, c)
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// firstPayload := buf.Bytes() // contains byte representation of a(b(c))
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// gopacket.SerializeLayers(buf, opts, d, e, f)
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// secondPayload := buf.Bytes() // contains byte representation of d(e(f)). firstPayload is now invalidated, since the SerializeLayers call Clears buf.
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func SerializeLayers(w SerializeBuffer, opts SerializeOptions, layers ...SerializableLayer) error {
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w.Clear()
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for i := len(layers) - 1; i >= 0; i-- {
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layer := layers[i]
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err := layer.SerializeTo(w, opts)
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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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return nil
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}
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// SerializePacket is a convenience function that calls SerializeLayers
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// on packet's Layers().
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// It returns an error if one of the packet layers is not a SerializebleLayer.
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func SerializePacket(buf SerializeBuffer, opts SerializeOptions, packet Packet) error {
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sls := []SerializableLayer{}
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for _, layer := range packet.Layers() {
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sl, ok := layer.(SerializableLayer)
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if !ok {
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return fmt.Errorf("layer %s is not serializable", layer.LayerType().String())
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}
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sls = append(sls, sl)
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}
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return SerializeLayers(buf, opts, sls...)
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}
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