Awesome
uthenticode
uthenticode (stylized as μthenticode) is a small cross-platform library for partially verifying Authenticode digital signatures.
[!WARNING]
This is not a full implementation of Authenticode; you must not use it in a way that assumes that its results are equivalent to verification on a Windows machine. See the caveats below for more details.
Read our blog post on verifying Windows binaries without Windows!
What?
Authenticode is Microsoft's code signing technology, designed to allow signing and verification of programs.
μthenticode is a cross-platform reimplementation of the verification side of Authenticode. It doesn't attempt to provide the signing side.
Why?
Because the official APIs (namely, the Wintrust
API) for interacting with
Authenticode signatures are baked deeply into Windows, making it difficult to
verify signed Windows executables on non-Windows hosts.
Other available solutions are deficient:
- WINE implements most of
Wintrust
, but is a massive (and arguably non-native) dependency for a single task. osslsigncode
can add signatures and check timestamps, but is CLI-focused.
Caveats
μthenticode is not identical to the Wintrust
API. Crucially, it
cannot perform full-chain verifications of Authenticode signatures, as it
lacks access to the Trusted Publishers store.
You can use μthenticode to cryptographically verify the embedded chain. You must not assume that a "verified" binary from μthenticode's perspective will run on an unmodified Windows system. We make no claim that μthenticode's implementation of the Authenticode certificate policy is complete.
Building
μthenticode depends on pe-parse
and OpenSSL 3.0 or higher, which are installed via vcpkg
by following these steps:
cmake -B build -S . -DCMAKE_TOOLCHAIN_FILE=<vcpkg-path>/scripts/buildsystems/vcpkg.cmake
cmake --build build
# the default install prefix is the build directory;
# use CMAKE_INSTALL_PREFIX to modify it
cmake --build build --target install
If you have doxygen
installed, you can build μthenticode's documentation
with the top-level Makefile
:
make doc
Pre-built (master) documentation is hosted here.
You can build the (gtest-based) unit tests with -DBUILD_TESTS=1
.
Usage
μthenticode's public API is documented in uthenticode.h
and in the Doxygen
documentation (see above).
The svcli
utility also provides a small example of using μthenticode's APIs.
You can build it by passing -DBUILD_SVCLI=1
to cmake
:
cmake -DBUILD_SVCLI=1 -B build -S . -DCMAKE_TOOLCHAIN_FILE=<vcpkg-path>/scripts/buildsystems/vcpkg.cmake
cmake --build build
./build/src/svcli/svcli /path/to/some.exe
Resources
The following resources were essential to uthenticode's development:
- The
osslsigncode
codebase - ClamAV's Authenticode documentation
- Microsoft's Authenticode specification (circa 2008)
- Peter Gutmann's Authenticode format notes
- RFC5652