There are many areas where Botan is deficient. This file documents some of the more interesting ones. If you're thinking about working on something within Botan, one of these areas might be a good place to start. Questions or comments can go to the development mailing list. Build System / Porting -------------------- The new configure script is fairly flexible in terms of build systems (though there do remain a few pieces of code tied to the idea of make-style syntax). No doubt many users would appreciate having Botan well-integrated into their build environment, so patches to configure.pl (and new template files for misc/config/makefile/) to add support for other build systems. The most requested by far is Visual Studio project files; others that might be of interest would be autotools, Scons, CMake, and jam/bjam. Testing the configure/build/install steps on as many platforms and compilers as possible is a huge win for us. Builds on some platforms, like the Motorola 680x0 and Hitachi SH machines, IBM's AIX on any CPU type, and the Haiku operating system (a BeOS R5 clone) - have *never* been attempted; the support is based entirely on documentation and conjecture, and is very unlikely to work. Support for several operating systems is completely nonexistent - this class includes VMS, vxWorks, eCos, MINIX, GNU/Hurd, L4, and Coyotos. Others, like IRIX, HP-UX, QNX, and Tru64, are tested only a few times a year. Similarly, many commercial compilers are only tested occasionally. Setting up a buildbot system would be ideal, if access to enough machines can be arranged (for the x86 and amd64 operating systems, a single machine running Xen or VMware could suffice). Even one-shot tests with the latest sources on a variety of machines would be incredibly useful. A nice but not essential feature for configure.pl would be adding the ability to generate any needed or requested package-building scripts, with support for systems like rpm, portage, dpkg, commercial Unix package systems, and Windows installer systems. Modules to allow use of platform-specific features within Botan can make life significantly better for users on that platform. Generic Unix/POSIX support is more or less complete, but there are countless vendor extensions that might be used in Botan in interesting and useful ways. Windows has the basics (two entropy source modules, and modules giving access to mutexes and high resolution timers), but there are probably a number of interesting extensions one could write, like making Botan's objects callable by DCOM. Other systems probably have all kinds of interesting system and library calls we can use. Self-test / Benchmark System -------------------- The code is not terrible, but it is significantly sloppier than the library code it is testing. Reporting should be generalized and encapsulated, so it can easily be extended to produce tests results as text to the terminal, or HTML with full details, or as an email, or any of a number of useful formats (which would provide a varying amount of information about what was tested and what went wrong). Bonus points for writing a general system that takes in an arbitrary 'template' file and outputs the filled out report. Much of the code operates at a very low level of abstraction; this has caused it to be difficult to add tests that vary much from the simple known answer tests used for the ciphers and hashes. There are significant codepaths that have no tests written for them, particularly in the X.509 certificate processing code. The benchmark code should also have its output formats generalized; it would be pretty great to have a benchmark run produce a detailed report as HTML and some gnuplot datasets to generate the images included from the HTML file. New Memory Allocator -------------------- The current pool allocator is servicable but it can be very wasteful of memory and could easily be several times faster. Someone who is interested in algorithms might enjoy working on this. Documentation -------------------- This could occupy someone for months. Perhaps even a majority of the API is undocumented, and while these are the less important pieces (or at least pieces meant mostly for internal library use), it would be great to have at least a brief description of each of them, along with a pointer to the appropriate headers. Text written in either a tutorial style or as a straight API breakdown could easily be integrated. There are many obvious example programs which have yet to be written, including encrypting a file with a shared passphrase, and securely salting and hashing a password for storage. Check the mailing list archives for ideas. ECC -------------------- For a long time, interest in ECC has been minimal, but there are rumblings indicating user desire for this is starting to become really active. We don't need anything obscure - ECDSA and ECDH using NIST's approved GF(p) curves gets us 90% of what users are wanting right now. Public Key Engines -------------------- In addition to the fairly low level BigInt optimizations that remain to be done, Botan provides a plugin system that allows different implementations of entire algorithms (RSA, DSA, etc) to be included, which can then be used in a completely transparent manner by application code. As of this writing one hardware public key accelerator (AEP's SureWare Runner cards) and two software backends (GNU MP and OpenSSL's BN library) are supported. There are many others out there, including Apple's vBigNum AltiVec library, Intel's Performance Primitives library, OpenBSD's /dev/crypto, and hardware units like the Broadcom BCM582x and Hi/fn 6500. BigInt -------------------- The portable BigInt routines are fairly good, and as of 1.6 we're using reasonably good algorithms. But well written assembly can often speed up public key operations by 50% or more. There currently exists some limited x86 and x86-64 assembly, but implementations for other architectures (such as Cell's SPU units, PowerPC, SPARCv9, MIPS, and ARM) could really help, as could further work on the x86 code (including making use of SSE instructions and VIA's Montgomery multiplication instruction). The key routines for good performance are bigint_monty_redc and bigint_mul_add_words; together they make up 30-60% of the runtime of most public key algorithms. It is very likely that many of the core algorithms (in src/mp_*) could be optimized at the C level by anyone has some knowledge or interest in algorithms. Compression Modules -------------------- Botan currently supports the bzip2 and zlib compression formats. Support for gzip and (less importantly) zip would likely be appreciated by many users. There are also other interesting algorithms such as LZO (supposedly very fast, which might make it useful in custom network protocols), and LZW (a compression algorithm patented by nCipher; they sell hardware implementations). X.509 Attribute Certificates -------------------- Most of the low-level processing code needed, like support for the ASN.1 SIGNED macro and the DER/BER codec, have already been written and used sufficiently to be well tested and relatively easy to work with. However it involves a lot of careful coding and design work to deal with the semantic issues and provide a good interface to the user; at this point I don't have the slightest idea what a useful API for attribute certificates would be like. RFC 3281 and its references have most of the information you'll need.