macaw/symbolic
Ryan Scott 4db0341e0a Bump submodules to allow building with what4-1.6.*
This bumps the `what4` submodule to the 1.6.* version series and updates the
`.cabal` files in the `macaw` repo accordingly.

Bumping the `what4` submodule also requires bringing in corresponding changes
in the `crucible`, `llvm-pretty`, and `llvm-pretty-bc-parser` submodules, so I
have done that as well.
2024-06-13 04:25:12 -04:00
..
examples Add optional override for MacawArchStmtExtensions to genArchVals (#230) 2021-09-14 18:24:47 -07:00
src/Data/Macaw macaw-symbolic: Fix interval bounds in mkGlobalPointerValidityPred 2024-01-24 18:50:11 -05:00
test This commit re-implements the memory model used by macaw symbolic 2020-02-11 09:58:53 -08:00
ChangeLog.md macaw-symbolic: Note lazy memory model in the changelog 2023-03-14 13:27:07 -04:00
LICENSE Update license information. 2017-09-27 15:59:06 -07:00
macaw-symbolic.cabal Bump submodules to allow building with what4-1.6.* 2024-06-13 04:25:12 -04:00
README.org Clean up and document the macaw-symbolic API 2019-01-10 18:20:54 -08:00

Overview

The macaw-symbolic library provides a mechanism for translating machine code functions discovered by macaw into Crucible CFGs that can then be symbolically simulated.

The core macaw-symbolic library supports translating generic macaw into crucible, but is not a standalone library. To translate actual machine code, an architecture-specific backend is required. For example, macaw-x86-symbolic can be used to translate x86_64 binaries into crucible. Examples for using macaw-symbolic (and architecture-specific backends) are available in Data.Macaw.Symbolic.

In order to avoid API bloat, the definitions required to implement a new architecture-specific backend are exported through the Data.Macaw.Symbolic.Backend module.

An additional module, Data.Macaw.Symbolic.Memory, provides an example of how to handle memory address translation in the simulator for machine code programs. There are other possible ways to translate memory addresses, but this module provides a versatile example that can serve many common use cases.