3 ##::THIS FORK IS HIGHLY EXPERIMENTAL::
7 There is so much in this fork, with all fixes and additions its basically the most enhanced fork to this day for the Proxmark3 device.
11 The official Proxmark repository is found here: https://github.com/Proxmark/proxmark3
15 ## Build Status Travis CI
16 [![Build Status](https://travis-ci.org/iceman1001/proxmark3.svg?branch=master)](https://travis-ci.org/iceman1001/proxmark3)
18 ## Build Status Coverity Scan
19 [![Coverity Scan Build Status](https://scan.coverity.com/projects/5117/badge.svg)](https://scan.coverity.com/projects/proxmark3-iceman-fork)
22 ## Coverity Scan Config && Run
24 Download the Coverity Scan Self-buld and install it.
25 You will need to configure ARM-NON-EABI- Compiler for it to use:
28 cov-configure --comptype gcc --compiler /opt/devkitpro/devkitARM/bin/arm-none-eabi-gcc
30 ::run it (I'm running on Ubuntu)
31 cov-build --dir cov-int make all
34 tar czvf proxmark3.tgz cov-int
36 :: upload it to coverity.com
40 Whats so special with this fork? I have scraped the web for different enhancements to the PM3 source code and not all of them ever found their way to the master branch.
43 * Jonor's hf 14a raw timing patch
44 * Piwi's updates. (usually gets into the master)
45 * Piwi's "topaz" branch
46 * Piwi's "hardnested" branch
47 * Holiman's iclass, (usually gets into the master)
48 * Marshmellow's fixes (usually gets into the master)
49 * Midnitesnake's Ultralight, Ultralight-c enhancements
50 * Izsh's lf peak modification / iir-filtering
51 * Aspers's tips and tricks from inside the PM3-gui-tool, settings.xml and other stuff.
52 * My own desfire, Ultralight extras, LF T55xx enhancements, bugs fixes (filelength, hf mf commands ), TNP3xxx lua scripts, Awid26, skidata scripts (will come)
53 * other obscure patches like for the sammy-mode, (offline you know), tagidentifications, defaultkeys.
54 * Minor textual changes here and there.
55 * Simulation of Ultralight/Ntag.
56 * Marshmellow's and my "RevEng" addon for the client. Ref: http://reveng.sourceforge.net/ Now using reveng1.31
57 * Someone's alternative bruteforce Mifare changes.. (you need the two other exe to make it work)
59 * A Bruteforce for T55XX passwords against tag.
60 * A Bruteforce for AWID 26, starting w a facilitycode then trying all 0xFFFF cardnumbers via simulation. To be used against a AWID Reader.
61 * A Bruteforce for HID, starting w a facilitycode then trying all 0xFFFF cardnumbers via simulation. To be used against a HID Reader.
62 * Blaposts Crapto1 v3.3
63 * Icsom's legic script and legic enhancements
64 * Azcid's bitsliced bruteforce solver in 'hf mf hardnested'
68 Straight from the CHANGELOG
71 - 'hf 14a/mf sim x" attack mode, now uses also moebius version of mfkey32 to try finding the key.
72 - 'hf 14a sim' Added emulation of Mifare cards with 10byte UID length.
73 - 'hf mf sim' Added emulation of Mifare cards with 10byte UID length.
74 - Added bitsliced bruteforce solver in 'hf mf hardnested' (azcid)
75 - Added `lf guard clone/sim` (iceman)
76 - Added `lf pyramd clone/sim` (iceman)
77 - trying to fix "hf 14b" command to be able to read CALYPSO card. (iceman)
78 - `hf legic load`, it now loads faster and a casting bug is gone. (iceman)
79 - Added `hf legic calccrc8` added a method to calculate the legic crc-8 value (iceman)
80 - `hf legic decode` fixed the output overflow bugs, better printing (iceman)
81 - Coverity Scan fixes a lot of resource leaks, etc (iceman)
82 - Added `lf presco *` commands started (iceman)
83 - Added `lf hid wiegand` added a method to calculate WIEGAND in different formats, (iceman)
84 - `hf mf chkkeys` better printing, same table output as nested, faster execution and added Adam Lauries "try to read Key B if Key A is found" (iceman)
85 - `hf mf nested` better printing and added Adam Lauries "try to read Key B if Key A is found" (iceman)
86 - `hf mf mifare` fixing the zero parity path, which doesn't got called. (iceman)
87 - Updated the @blapost's Crapto1 implementation to v3.3 (blapost)
88 - `hf mf c*` updated the calling structure and refactored of the chinese magic commands (iceman, marshmellow)
89 - Started to add Peter Fillmore's EMV fork into Iceman fork. ref: https://github.com/peterfillmore/proxmark3 (peter fillmore, iceman)
90 - Added Travis-CI automatic build integration with GitHub fork. (iceman)
91 - Updated the Reveng 1.30 sourcecode to 1.31 from Reveng projecthomepage (iceman)
93 - Added possibility to write direct to a Legic Prime Tag (MIM256/1024) without using values from the 'BigBuffer' -> 'hf legic writeRaw <addr> <value>' (icsom)
94 - Added possibility to decrease DCF values at address 0x05 & 0x06 on a Legic Prime Tag
95 DCF-value will be pulled from the BigBuffer (address 0x05 & 0x06) so you have to
96 load the data into the BigBuffer before with 'hf legic load <path/to/legic.dump>' & then
97 write the DCF-Values (both at once) with 'hf legic write 0x05 0x02' (icsom)
98 - Added script `legic.lua` for display and edit Data of Legic-Prime Tags (icsom)
99 - Added the experimental HITAG_S support (spenneb)
100 - Added topaz detection to `hf search` (iceman)
101 - Fixed the silent mode for 14b to be used inside 'hf search' (iceman)
105 Give me a hint, and I'll see if I can't merge in the stuff you have.
107 I don't actually know how to make small pull-request to github :( and that is the number one reason for me not pushing a lot of things back to the PM3 master.
111 I do tend to rename and move stuff around, the official PM3-GUI from Gaucho will not work so well. *sorry*
117 This fork now compiles just fine on
118 windows/mingw environment with Qt5.3.1 & GCC 4.8
122 SETUP AND BUILD FOR UBUNTU
123 --------------------------
125 GC made updates to allow this to build easily on Ubuntu 14.04.2 LTS or 15.10
126 See https://github.com/Proxmark/proxmark3/wiki/Ubuntu%20Linux
129 -> sudo apt-get install p7zip git build-essential libreadline5 libreadline-dev libusb-0.1-4 libusb-dev libqt4-dev perl pkg-config wget
131 Follow these instructions
132 Get devkitARM release 41 from SourceForge (choose either the 64/32 bit depending on your architecture, it is assumed you know how to check and recognize your architecture):
134 (64-bit) http://sourceforge.net/projects/devkitpro/files/devkitARM/previous/devkitARM_r41-x86_64-linux.tar.bz2/download
135 (32-bit) http://sourceforge.net/projects/devkitpro/files/devkitARM/previous/devkitARM_r41-i686-linux.tar.bz2/download
137 Extract the contents of the .tar.bz2:
138 -> tar jxvf devkitARM_r41-<arch>-linux.tar.bz2
140 Create a directory for the arm dev kit:
141 -> sudo mkdir -p /opt/devkitpro/
143 Move the ARM developer kit to the newly created directory:
144 -> sudo mv devkitARM /opt/devkitpro/
146 Add the appropriate environment variable:
147 -> export PATH=${PATH}:/opt/devkitpro/devkitARM/bin/
149 Add the environment variable to your profile:
150 -> echo 'PATH=${PATH}:/opt/devkitpro/devkitARM/bin/ ' >> ~/.bashrc
153 -> git clone https://github.com/iceman1001/proxmark3.git
155 Get the latest commits
159 -> make clean && make all
162 -> client/flasher -b /dev/ttyACM0 bootrom/obj/bootrom.elf
165 -> client/flasher /dev/ttyACM0 armsrc/obj/fullimage.elf
167 Change into the client folder.
171 -> ./proxmark3 /dev/ttyACM0
175 iceman at host iuse.se
180 The Proxmark 3 device is available for purchase (assembled and tested) from the following locations:
182 * http://www.elechouse.com (new and revised hardware package 2015)
184 I recommend you to buy this version.
186 --------------------------------------------------------------------------
188 Most of the ultra-low-volume contract assemblers could put
189 something like this together with a reasonable yield. A run of around
190 a dozen units is probably cost-effective. The BOM includes (possibly-
191 outdated) component pricing, and everything is available from Digikey
192 and the usual distributors.
194 If you've never assembled a modern circuit board by hand, then this is
195 not a good place to start. Some of the components (e.g. the crystals)
196 must not be assembled with a soldering iron, and require hot air.
198 The schematics are included; the component values given are not
199 necessarily correct for all situations, but it should be possible to do
200 nearly anything you would want with appropriate population options.
202 The printed circuit board artwork is also available, as Gerbers and an
208 This program is free software; you can redistribute it and/or modify
209 it under the terms of the GNU General Public License as published by
210 the Free Software Foundation; either version 2 of the License, or
211 (at your option) any later version.
213 This program is distributed in the hope that it will be useful,
214 but WITHOUT ANY WARRANTY; without even the implied warranty of
215 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
216 GNU General Public License for more details.
218 You should have received a copy of the GNU General Public License
219 along with this program; if not, write to the Free Software
220 Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
224 user jwesthues, at host cq.cx
226 May 2007, Cambridge MA