A tool and library for signing WebAssembly modules.
- !Wasmsign2
- WASM signatures
- Installation
- Usage
- Inspecting a module
- Creating a key pair
- Signing a WebAssembly module
- Verifying a WebAssembly module
- Verifying a WebAssembly module against multiple public keys
- Detaching a signature from a module
- Embedding a detached signature in a module
- Partial verification
- OpenSSH keys support
- GitHub integration
Unlike typical desktop and mobile applications, WebAssembly binaries do not embed any kind of digital signatures to verify that they come from a trusted source, and haven't been tampered with.
Wasmsign2 takes an existing WebAssembly module, computes a signature for its content, and stores the signature in a custom section.
The resulting binary remains a standalone, valid WebAssembly module, but signatures can be verified prior to executing it.
Wasmsign2 is a proof of concept implementation of the WebAssembly modules signatures proposal. The file format is documented in the WebAssembly tool conventions repository.
The proposal, and this implementation, support domain-specific features such as:
- The ability to have multiple signatures for a single module, with a compact representation
- The ability to sign a module which was already signed with different keys
- The ability to extend an existing module with additional custom sections, without invalidating existing signatures
- The ability to verify multiple subsets of a module's sections with a single signature
- The ability to turn an embedded signature into a detached one, and the other way round.
wasmsign2
is a Rust crate, that can be used in other applications.
See the API documentation for details.
It is also a CLI tool to perform common operations, whose usage is summarized below.
The tool requires the Rust compiler, and can be installed with the following command:
cargo install wasmsign2-cli
USAGE:
wasmsign2 [FLAGS] [SUBCOMMAND]
FLAGS:
-d Print debugging information
-h, --help Prints help information
-V, --version Prints version information
-v Verbose output
SUBCOMMANDS:
attach Embed a detach signature into a module
detach Detach the signature from a module
help Prints this message or the help of the given
subcommand(s)
keygen Generate a new key pair
show Print the structure of a module
sign Sign a module
split Add cutting points to a module to enable partial
verification
verify Verify a module's signatures
verify_matrix Batch verification against multiple public keys
wasmsign2 show --input-file <input_file>
Example:
wasmsign2 show -i z.wasm
The -v
switch prints additional details about signature data.
wasmsign2 keygen --public-key <public_key_file> --secret-key <secret_key_file>
-K, --public-key <public_key_file> Public key file
-k, --secret-key <secret_key_file> Secret key file
Example:
wasmsign2 keygen --public-key key.public --secret-key key.secret
wasmsign2 sign [OPTIONS] --input-file <input_file> --output-file <output_file> --secret-key <secret_key_file>
-i, --input-file <input_file> Input file
-o, --output-file <output_file> Output file
-K, --public-key <public_key_file> Public key file
-k, --secret-key <secret_key_file> Secret key file
-S, --signature-file <signature_file> Signature file
-Z, --ssh Parse OpenSSH keys
Example:
wasmsign2 sign -i z.wasm -o z2.wasm -k secret.key
The public key is optional. It is only used to include a key identifier into the signature in order to speed up signature verification when a module includes multiple signatures made with different keys.
By default, signatures are assumed to be embedded in modules. Detached signatures can be provided with the optional --signature-file
argument.
A module that was already signed can be signed with other keys, and can then be verified by any of the corresponding public keys.
wasmsign2 verify [FLAGS] [OPTIONS] --input-file <input_file>
-i, --input-file <input_file> Input file
-K, --public-key <public_key_file> Public key file
-S, --signature-file <signature_file> Signature file
-s, --split <regex> Custom section names to be verified
-G, --from-github <from_github> GitHub account to retrieve public keys from
-Z, --ssh Parse OpenSSH keys
Example:
wasmsign2 verify -i z2.wasm -K public.key
The optional -s/--split
parameter is documented in the "partial verification" section down below.
wasmsign2 verify_matrix [FLAGS] [OPTIONS] --input-file <input_file>
-i, --input-file <input_file> Input file
-K, --public-keys <public_key_files>... Public key files
-s, --split <regex> Custom section names to be verified
-G, --from-github <from_github> GitHub account to retrieve public keys from
-Z, --ssh Parse OpenSSH keys
The command verifies a module's signatures against multiple keys simultaneously, and reports the set of public keys for which a valid signature was found.
The optional -s/--split
parameter is documented in the "partial verification" section down below.
Example:
wasmsign2 verify_matrix -i z2.wasm -K public.key -K public.key2
wasmsign2 detach --input-file <input_file> --output-file <output_file> --signature-file <signature_file>
-i, --input-file <input_file> Input file
-o, --output-file <output_file> Output file
-S, --signature-file <signature_file> Signature file
The command extracts and removes the signature from a module, and stores it in a distinct file.
Example:
wasmsign2 detach -i z2.wasm -o z3.wasm -S signature
wasmsign2 attach --input-file <input_file> --output-file <output_file> --signature-file <signature_file>
-i, --input-file <input_file> Input file
-o, --output-file <output_file> Output file
-S, --signature-file <signature_file> Signature file
The command embeds a detached signature into a module.
Example:
wasmsign2 attach -i z2.wasm -o z3.wasm -S signature
A signature can verify an entire module, but also one or more subsets of it.
This requires "cutting points" to be defined before the signature process. It is impossible to verify a signature beyond cutting point boudaries.
Cutting points can be added to a module with the split
command:
wasmsign2 split [OPTIONS] --input-file <input_file> --output-file <output_file>
-i, --input-file <input_file> Input file
-o, --output-file <output_file> Output file
-s, --split <regex> Custom section names to be signed
This adds cutting points so that it is possible to verify only the subset of custom sections whose name matches the regular expression, in addition to standard sections.
This command can be repeated, to add new cutting points to a module that was already prepared for partial verification.
Example:
wasmsign2 split -i z2.wasm -o z3.wasm -s '^.debug_'
The above command makes it possible to verify only the custom sections whose name starts with .debug_
, even though the entire module was signed.
In order to do partial verification, the --split
parameter is also available in the verification commands:
wasmsign2 verify -i z3.wasm -K public.key -s '^.debug_'
wasmsign2 verify_matrix -i z3.wasm -K public.key -K public.key2 -s '^.debug_'
In addition to the compact key format documented in the proposal, the API allows loading/saving public and secret keys with DER and PEM encoding.
OpenSSH keys can also be used by adding the --ssh
flag to the sign
, verify
and verify_matrix
commands, provided that they are Ed25519 (EdDSA) keys.
Examples:
wasmsign2 sign --ssh -k ~/.ssh/id_ed25519 -i z.wasm -o z2.wasm
wasmsign2 verify --ssh -K ~/.ssh/id_ed25519.pub -i z2.wasm
If a file contains more than a single public key, the verify_matrix
command will check the signature against all discovered Ed25519 keys.
Public key sets from GitHub accounts can be downloaded at https://github.com/<account>.keys
, replacing <account>
with an actual GitHub account name.
Keys downloaded from such URL can be directly used to verify WebAssembly signatures.
Public keys can also automatically be retrieved from GitHub accounts, using the --from-github
parameter.
Examples:
wasmsign2 verify -G example_account -i z2.wasm
wasmsign2 matrix_verify -G example_account -i z2.wasm