To enable stored messages to be protected using symmetric key encryption and validated
using message authentication codes, this set of changes adds support for storing
symmetric key material as Secret Key Packets, symmetric key encrypted session keys as
Public Key Encrypted Session Key Packets, and MAC tags as Signature Packets.
Co-authored-by: Konstantinos Andrikopoulos <kandrikopoulos@proton.ch>
Co-authored-by: Daniel Huigens <d.huigens@protonmail.com>
Mocha v10 requires the lib to be esm compliant.
ESM mandates the use of file extensions in imports, so to minimize the
changes (for now), we rely on the flag `experimental-specifier-resolution=node`
and on `ts-node` (needed only for Node 20).
Breaking changes:
downstream bundlers might be affected by the package.json changes depending on
how they load the library.
NB: legacy package.json entrypoints are still available.
The changes do not affect the public API:
`RandomBuffer` was used internally for secure randomness generation before
`crypto.getRandomValues` was made available to WebWorkers, requiring
generating randomness in the main thread.
As a result of the change, the internal `getRandomBytes()` and some functions
that use it are no longer async.
Refactor functions to take the configuration as a parameter.
This allows setting a config option for a single function call, whereas
setting `openpgp.config` could lead to concurrency-related issues when
multiple async function calls are made at the same time.
`openpgp.config` is used as default for unset config values in top-level
functions.
`openpgp.config` is used as default config object in low-level functions
(i.e., when calling a low-level function, it may be required to pass
`{ ...openpgp.config, modifiedConfig: modifiedValue }`).
Also,
- remove `config.rsaBlinding`: blinding is now always applied to RSA decryption
- remove `config.debug`: debugging mode can be enabled by setting
`process.env.NODE_ENV = 'development'`
- remove `config.useNative`: native crypto is always used when available
Also, when generating RSA keys in JS, generate them with p < q, as per
the spec.
Also, when generating RSA keys using Web Crypto or Node crypto, swap the
generated p and q around, so that will satisfy p < q in most browsers
(but not old Microsoft Edge, 50% of the time) and so that we can use the
generated u coefficient (p^-1 mod q in OpenPGP, q^-1 mod p in RFC3447).
Then, when signing and verifying, swap p and q again, so that the key
hopefully satisfies Safari's requirement that p > q, and so that we can
keep using u again.
