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/*
* Copyright (c) 2017,2018 by Farsight Security, Inc.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*/
package nmsg
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
"io"
"math/rand"
"google.golang.org/protobuf/proto"
)
const (
nmsgVersion = 2
nmsgFlagZlib = 1
nmsgFlagFragment = 2
headerSize = 10
)
var (
nmsgMagic = [4]byte{'N', 'M', 'S', 'G'}
errBadMagic = errors.New("Bad NMSG Magic Number")
containerOverhead = 10
fragmentOverhead = 10 + 4 + 24
)
type containerHeader struct {
Magic [4]byte
Flags, Version byte
Length uint32
}
// isCompressed() and isFragmented() are helper functions for readability.
func (h *containerHeader) isCompressed() bool {
return h.Flags&nmsgFlagZlib != 0
}
func (h *containerHeader) isFragmented() bool {
return h.Flags&nmsgFlagFragment != 0
}
// A Container encapsulates an Nmsg envelope, and maintains metadata for
// sizing containers as payloads are added.
type Container struct {
// Maximum size of a container. AddPayload attempts to keep the container
// under this size.
maxSize int
// Maximum size of fragment or container. Any containers larger than this
// will be fragmented by WriteTo.
writeSize int
// If true, compress container contents before writing.
compress bool
// If true, container was populated from compressed data
// This is primarily used in fragment reassembly to detect whether the
// fragmented data was compressed prior to fragmentation.
isCompressed bool
// If nonzero, an estimate of the effectiveness of compression, expressed
// as compressedSize / uncompressedSize. Default: 0.5
compressionRatio float32
// The current estimated size of the serialized data, before compression
size int
Nmsg
*NmsgFragment
}
// NewContainer creates a new empty NMSG container.
func NewContainer() *Container {
c := &Container{size: containerOverhead}
c.SetMaxSize(0, 0)
return c
}
// SetMaxSize sets the maximum size (including Marshaling overhead,
// container header, and anticipated compression ratio) of a container.
// AddPayload attempts to keep the container within this size.
//
// writeSize specifies the maximum size of containers or fragments.
// Containers larger than writeSize will be written as fragments instead
// of single containers.
//
// A writeSize value of 0 is treated as equal to size.
func (c *Container) SetMaxSize(size, writeSize int) {
if size < MinContainerSize {
size = MinContainerSize
}
if size > MaxContainerSize {
size = MaxContainerSize
}
if writeSize < size {
writeSize = size
}
c.maxSize = size
c.writeSize = writeSize
}
// SetCompression instructs WriteTo to write containers with compressed
// (if true) or uncompressed (if false) contents.
func (c *Container) SetCompression(compress bool) {
c.compress = compress
}
// SetCompressionRatio sets an estimated compression ratio for the data.
// The default value is 2.0
func (c *Container) SetCompressionRatio(ratio float32) {
c.compressionRatio = ratio
}
// SetSequenced sets or unsets sequencing on the container stream.
// The sequence number is updated every time WriteTo() is called.
func (c *Container) SetSequenced(sequenced bool) {
if sequenced {
seqid := uint64(rand.Uint32()) << 32
seqid |= uint64(rand.Uint32())
c.Nmsg.SequenceId = proto.Uint64(seqid)
c.Nmsg.Sequence = proto.Uint32(0)
} else {
c.Nmsg.SequenceId = nil
c.Nmsg.Sequence = nil
}
}
// AddPayload adds the supplied NmsgPayload to the Container if possible.
//
// The return value 'full' is true if the container is full and needs to
// be emptied with WriteTo().
//
// The return value 'ok' is true if the payload was successfully added to
// the container, otherwise, AddPayload() must be called again after WriteTo().
//
// Both ok and full may be true if the payload is larger than the container's
// MaxSize, or if the container is full after adding the payload.
func (c *Container) AddPayload(p *NmsgPayload) (ok, full bool) {
seqSize := 0
if c.Nmsg.Sequence != nil && c.Nmsg.SequenceId != nil {
seqSize = 18 // 6 + 12 bytes for protobuf-encoded sequence and sequenceId values
}
limit := c.maxSize
if c.compress {
if c.compressionRatio > 0 {
limit = int(float32(limit) * c.compressionRatio)
} else {
limit *= 2
}
}
ps := p.payloadSize()
if c.size+ps+seqSize > limit {
full = true
if c.size != containerOverhead {
return
}
}
ok = true
c.size += ps
c.Nmsg.Payloads = append(c.Nmsg.Payloads, p)
c.Nmsg.PayloadCrcs = append(c.Nmsg.PayloadCrcs, nmsgCRC(p.Payload))
return
}
// Reset discards payloads and crcs from the Container
func (c *Container) Reset() {
c.Nmsg.Payloads = c.Nmsg.Payloads[:0]
c.Nmsg.PayloadCrcs = c.Nmsg.PayloadCrcs[:0]
c.NmsgFragment = nil
}
// WriteTo writes the Container to Writer w. If the
// container requires fragmentation, it will call
// w.Write() multiple times.
func (c *Container) WriteTo(w io.Writer) (int64, error) {
var buf bytes.Buffer
header := containerHeader{
Magic: nmsgMagic,
Version: nmsgVersion,
}
defer c.Reset()
b, err := proto.Marshal(&c.Nmsg)
if err != nil {
return 0, err
}
if c.compress {
b, err = zbufDeflate(b)
if err != nil {
return 0, err
}
header.Flags |= nmsgFlagZlib
}
header.Length = uint32(len(b))
if c.Nmsg.Sequence != nil {
*c.Nmsg.Sequence++
}
c.size = containerOverhead
if len(b)+containerOverhead > c.writeSize {
return c.writeFragments(w, b)
}
if err = binary.Write(&buf, binary.BigEndian, &header); err != nil {
return 0, err
}
if _, err = buf.Write(b); err != nil {
return 0, err
}
return buf.WriteTo(w)
}
func (c *Container) writeFragments(w io.Writer, b []byte) (int64, error) {
header := containerHeader{
Magic: nmsgMagic,
Version: nmsgVersion,
Flags: nmsgFlagFragment,
}
if c.compress {
header.Flags |= nmsgFlagZlib
}
fragSize := c.writeSize - fragmentOverhead
lastFrag := len(b) / fragSize
fragID := rand.Uint32()
nf := NmsgFragment{
Id: proto.Uint32(fragID),
Current: proto.Uint32(uint32(0)),
Last: proto.Uint32(uint32(lastFrag)),
Crc: proto.Uint32(nmsgCRC(b)),
}
var written int64
for i := 0; i <= lastFrag; i++ {
var buf bytes.Buffer
fblen := len(b)
if fblen > fragSize {
fblen = fragSize
}
*nf.Current = uint32(i)
nf.Fragment = b[:fblen]
b = b[fblen:]
fbytes, err := proto.Marshal(&nf)
if err != nil {
return written, err
}
header.Length = uint32(len(fbytes))
if err = binary.Write(&buf, binary.BigEndian, header); err != nil {
return written, err
}
if _, err = buf.Write(fbytes); err != nil {
return written, err
}
n, err := buf.WriteTo(w)
if err != nil {
return written, err
}
written += n
}
return written, nil
}
// ReadFrom Reads a Container from the given io.Reader. It returns the
// number of container bytes read on success.
func (c *Container) ReadFrom(r io.Reader) (n int64, err error) {
/*
* The bytes.Buffer Grow() method may panic with ErrTooLarge.
* We catch this panic (and any other error panic()s and return
* an error.
*/
defer func() {
if r := recover(); r != nil {
var ok bool
if err, ok = r.(error); !ok {
err = fmt.Errorf("nmsg.Container ReadFrom: panic %v", r)
}
}
}()
var buf bytes.Buffer
var h containerHeader
if n, err = io.CopyN(&buf, r, headerSize); err != nil {
return n, err
}
err = binary.Read(&buf, binary.BigEndian, &h)
if err != nil {
return n, &dataError{err}
}
if h.Magic != nmsgMagic {
return 0, &dataError{errBadMagic}
}
buf.Grow(int(h.Length))
if n, err = io.CopyN(&buf, r, int64(h.Length)); err != nil {
return int64(buf.Len()), err
}
// err = c.fromBytesHeader(buf.Bytes(), &h)
err = c.fromNmsgBytes(buf.Bytes(), h.isCompressed(), h.isFragmented())
if err != nil {
err = &dataError{err}
}
return int64(buf.Len()), err
}
// FromBytes parses the given buffer as an NMSG container and stores
// the result in the receiver *Container.
func (c *Container) FromBytes(b []byte) error {
var h containerHeader
buf := bytes.NewBuffer(b)
err := binary.Read(buf, binary.BigEndian, &h)
if err != nil {
return err
}
if h.Magic != nmsgMagic {
return errBadMagic
}
return c.fromNmsgBytes(buf.Bytes(), h.isCompressed(), h.isFragmented())
}
// fromNmsgBytes parses the contents (b) of an NMSG container, according to
// whether the container contents are compressed, fragmented, or both.
func (c *Container) fromNmsgBytes(b []byte, compressed, fragmented bool) error {
var err error
cbytes := b
c.isCompressed = compressed
if compressed {
cbytes, err = zbufInflate(b)
if err != nil {
return err
}
}
if fragmented {
c.NmsgFragment = &NmsgFragment{}
return proto.Unmarshal(cbytes, c.NmsgFragment)
}
c.NmsgFragment = nil
return proto.Unmarshal(cbytes, &c.Nmsg)
}
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