Awesome
hevm
hevm
is an implementation of the Ethereum virtual machine (EVM) made for
symbolic execution, equivalence checking, and unit testing of smart contracts.
hevm
can symbolically execute smart contracts, run unit tests, and run
arbitrary EVM code. It can run on state set up in a Forge std-test
testing
harness, or fetched on demand from
live network using rpc
calls.
hevm
was originally developed as part of the
dapptools project, and was forked to
this repo by the formal methods team at the Ethereum Foundation in August 2022.
Documentation & Support
User facing documentation can be found in the hevm book.
We have a public matrix chat room here.
Installation
Static Binaries
Static binaries for x86 linux and macos are available for each
release. These binaries expect to be able to find the
following programs on PATH
:
solc
z3
- (optionally)
cvc5
- (optionally)
bitwuzla
nixpkgs
hevm is available in
nixpkgs
, and can be installed via:
- flakes:
nix profile install nixpkgs#haskellPackages.hevm
- legacy:
nix-env -iA haskellPackages.hevm
nix flakes
hevm can be installed directly from the main
branch of this repo via the following command:
nix profile install github:ethereum/hevm
Development
We use nix
to manage project dependencies. To start hacking on hevm you should first install
nix.
Once nix is installed you can run nix develop
from the repo root to enter a development shell
containing all required dev dependencies. If you use direnv, then you can run
direnv allow
, and the shell will be automatically entered each time you cd in the project repo.
Once in the shell you can use the usual cabal
commands to build and test hevm:
$ cabal build # build the hevm library
$ cabal build exe:hevm # build the cli binary
$ cabal build test # build the test binary
$ cabal build bench # build the benchmarks
$ cabal repl lib:hevm # enter a repl for the library
$ cabal repl exe:hevm # enter a repl for the cli
$ cabal repl test # enter a repl for the tests
$ cabal repl bench # enter a repl for the benchmarks
$ cabal run hevm # run the cli binary
$ cabal run test # run the test binary
$ cabal run bench # run the benchmarks
# run the cli binary with profiling enabled
$ cabal run --enable-profiling hevm -- <CLI SUBCOMMAND> +RTS -s -p -RTS
# run the test binary with profiling enabled
$ cabal run --enable-profiling test -- +RTS -s -p -RTS
# run the benchmarks with profiling enabled
$ cabal run --enable-profiling bench -- +RTS -s -p -RTS
A high level overview of the architecture can be found in architecture.md.