Pages

11 September 2012

231. Compiling john the ripper: single/serial, parallel/OMP and MPI

Update: updated for v1.7.9-jumbo-7 since hccap2john in 1.7.9-jumbo-6 was broken

For no particular reason at all, here's how to compile John the Ripper on Debian Testing (Wheezy). It's very easy, and this post is probably a bit superfluous. The standard version only supports serial and parallel (OMP). See below for MPI.


The regular version: 

mkdir ~/tmp
cd ~/tmp
wget http://www.openwall.com/john/g/john-1.7.9.tar.gz
tar xvf john-1.7.9.tar.gz
cd john-1.7.9/src

If you don't edit the Makefile you build a serial/single-threaded binary.
If you want to build a threaded version for a single node with a multicore processor (OMP) do:
Edit Makefile and uncomment row 19 or 20

 18 # gcc with OpenMP
 19 OMPFLAGS = -fopenmp
 20 OMPFLAGS = -fopenmp -msse2
make clean linux-x86-64
cd ../run

You now have a binary called john in your ../run folder.


The Jumbo version:
If you want to build a distributed version with MPI (can split jobs across several nodes) you need the enhanced, community version:

sudo apt-get install openmpi-bin libopenmpi-dev
cd ~/tmp
wget http://www.openwall.com/john/g/john-1.7.9-jumbo-7.tar.gz
tar xvf john-1.7.9-jumbo-7.tar.gz 
cd john-1.7.9-jumbo-7/src

Edit the Makefile
  20 ## Uncomment the TWO lines below for MPI (can be used together with OMP as well)
  21 ## For experimental MPI_Barrier support, add -DJOHN_MPI_BARRIER too.
  22 ## For experimental MPI_Abort support, add -DJOHN_MPI_ABORT too.
  23 CC = mpicc -DHAVE_MPI
  24 MPIOBJ = john-mpi.o

and do
make clean linux-x86-64-native
cd ../run

I had a look at the passwords on one of our lab boxes -- it immediately discovered that someone had used 'password' as the password...


These test were run on my old AMD II X3 445. Processes which don't speed up with MP are highlighted in red. LM DES is borderline -- it's faster, but doesn't scale well.

Here's the single thread/serial version:
./john --test
Benchmarking: Traditional DES [128/128 BS SSE2-16]... DONE
Many salts:     2906K c/s real, 2918K c/s virtual
Only one salt:  2796K c/s real, 2807K c/s virtual
Benchmarking: BSDI DES (x725) [128/128 BS SSE2-16]... DONE
Many salts:     95564 c/s real, 95948 c/s virtual
Only one salt:  93593 c/s real, 93781 c/s virtual
Benchmarking: FreeBSD MD5 [32/64 X2]... DONE
Raw:    14094 c/s real, 14122 c/s virtual
Benchmarking: OpenBSD Blowfish (x32) [32/64 X2]... DONE
Raw:    918 c/s real, 919 c/s virtual
Benchmarking: Kerberos AFS DES [48/64 4K]... DONE
Short:  474316 c/s real, 475267 c/s virtual
Long:   1350K c/s real, 1356K c/s virtual
Benchmarking: LM DES [128/128 BS SSE2-16]... DONE
Raw:    39843K c/s real, 39923K c/s virtual
Benchmarking: generic crypt(3) [?/64]... DONE
Many salts:     262867 c/s real, 263393 c/s virtual
Only one salt:  260121 c/s real, 260642 c/s virtual
Benchmarking: Tripcode DES [48/64 4K]... DONE
Raw:    369843 c/s real, 370584 c/s virtual
Benchmarking: dummy [N/A]... DONE
Raw:    99512K c/s real, 99712K c/s virtual
Here's the OMP version:
Benchmarking: Traditional DES [128/128 BS SSE2-16]... DONE
Many salts:     6706K c/s real, 2555K c/s virtual
Only one salt:  5015K c/s real, 2091K c/s virtual
Benchmarking: BSDI DES (x725) [128/128 BS SSE2-16]... DONE
Many salts:     205670 c/s real, 85411 c/s virtual
Only one salt:  238524 c/s real, 86720 c/s virtual
Benchmarking: FreeBSD MD5 [32/64 X2]... DONE
Raw:    38400 c/s real, 13812 c/s virtual
Benchmarking: OpenBSD Blowfish (x32) [32/64 X2]... DONE
Raw:    2306 c/s real, 845 c/s virtual
Benchmarking: Kerberos AFS DES [48/64 4K]... DONE
Short:  474675 c/s real, 476581 c/s virtual
Long:   1332K c/s real, 1335K c/s virtual
Benchmarking: LM DES [128/128 BS SSE2-16]... DONE
Raw:    49046K c/s real, 16785K c/s virtual
Benchmarking: generic crypt(3) [?/64]... DONE
Many salts:     721670 c/s real, 246640 c/s virtual
Only one salt:  699168 c/s real, 239605 c/s virtual
Benchmarking: Tripcode DES [48/64 4K]... DONE
Raw:    367444 c/s real, 369657 c/s virtual
Benchmarking: dummy [N/A]... DONE
Raw:    100351K c/s real, 100552K c/s virtual
And here's the MPI version:
mpirun -n 3 ./john --test
(note that this includes a great many more tests than the default version)
Benchmarking: Traditional DES [128/128 BS SSE2-16]... (3xMPI) DONE
Many salts:     8533K c/s real, 8707K c/s virtual
Only one salt:  7705K c/s real, 8110K c/s virtual
Benchmarking: BSDI DES (x725) [128/128 BS SSE2-16]... (3xMPI) DONE
Many salts:     279808 c/s real, 282634 c/s virtual
Only one salt:  273362 c/s real, 276096 c/s virtual
Benchmarking: FreeBSD MD5 [128/128 SSE2 intrinsics 12x]... (3xMPI) DONE
Raw:    65124 c/s real, 65781 c/s virtual
Benchmarking: OpenBSD Blowfish (x32) [32/64 X2]... (3xMPI) DONE
Raw:    2722 c/s real, 2749 c/s virtual
Benchmarking: Kerberos AFS DES [48/64 4K]... (3xMPI) DONE
Short:  1387K c/s real, 1415K c/s virtual
Long:   3880K c/s real, 3959K c/s virtual

Benchmarking: LM DES [128/128 BS SSE2-16]... (3xMPI) DONERaw:    114781K c/s real, 115940K c/s virtual

I don't quite understand the Kerberos results.



Other targets of interest are:

linux-x86-64-avx         Linux, x86-64 with AVX (2011+ Intel CPUs)
linux-x86-64-xop         Linux, x86-64 with AVX and XOP (2011+ AMD CPUs)
linux-x86-64             Linux, x86-64 with SSE2 (most common)
linux-x86-avx            Linux, x86 32-bit with AVX (2011+ Intel CPUs)
linux-x86-xop            Linux, x86 32-bit with AVX and XOP (2011+ AMD CPUs)
linux-x86-sse2           Linux, x86 32-bit with SSE2 (most common, if 32-bit)
linux-x86-mmx            Linux, x86 32-bit with MMX (for old computers)
linux-x86-any            Linux, x86 32-bit (for truly ancient computers)

The FX 8150 does AVX and XOP, while my 1055T doesn't.

The community version has more options:

linux-x86-64-native      Linux, x86-64 'native' (all CPU features you've got)
linux-x86-64-gpu         Linux, x86-64 'native', CUDA and OpenCL (experimental)
linux-x86-64-opencl      Linux, x86-64 'native', OpenCL (experimental)
linux-x86-64-cuda        Linux, x86-64 'native', CUDA (experimental)
linux-x86-64-avx         Linux, x86-64 with AVX (2011+ Intel CPUs)
linux-x86-64-xop         Linux, x86-64 with AVX and XOP (2011+ AMD CPUs)
linux-x86-64[i]          Linux, x86-64 with SSE2 (most common)
linux-x86-64-icc         Linux, x86-64 compiled with icc
linux-x86-64-clang       Linux, x86-64 compiled with clang
linux-x86-gpu            Linux, x86 32-bit with SSE2, CUDA and OpenCL (experimental)
linux-x86-opencl         Linux, x86 32-bit with SSE2 and OpenCL (experimental)
linux-x86-cuda           Linux, x86 32-bit with SSE2 and CUDA (experimental)
linux-x86-sse2[i]        Linux, x86 32-bit with SSE2 (most common, 32-bit)
linux-x86-native         Linux, x86 32-bit, with all CPU features you've got (not necessarily best)
linux-x86-mmx            Linux, x86 32-bit with MMX (for old computers)
linux-x86-any            Linux, x86 32-bit (for truly ancient computers)
linux-x86-clang          Linux, x86 32-bit with SSE2, compiled with clang
linux-alpha              Linux, Alpha
linux-sparc              Linux, SPARC 32-bit
linux-ppc32-altivec      Linux, PowerPC w/AltiVec (best)
linux-ppc32              Linux, PowerPC 32-bit
linux-ppc64              Linux, PowerPC 64-bit
linux-ia64               Linux, IA-64

No comments:

Post a Comment