The big diff is misleading. Applying each patch to the base 478b28ab12f
and comparing them, we see:
git range-diff 478b28ab12f2001a03261624261fd041f5439706..adcd4022f75953605a9bf9f6a4a45c0b4fd8ed94 478b28ab12f2001a03261624261fd041f5439706..6f1b1e1f451e61cd2bda0922eecaa8387397ac5a
1: adcd4022f ! 1: 6f1b1e1f4 Add additional post-quantum key agreements
@@ Commit message
This patch adds:
- 1. Support for MLKEM768X25519 under the codepoint 0x11ec. The version
- of BoringSSL we patch against did not support it yet.
+ 1. Support for X25519MLKEM768 under the codepoint 0x11ec. The version
+ of BoringSSL we patch against did not support it yet. Like recent
+ upstream, enable by default.
2. Supports for P256Kyber768Draft00 under 0xfe32, which we temporarily
need for compliance reasons. (Note that this is not the codepoint
@@ ssl/extensions.cc: static bool tls1_check_duplicate_extensions(const CBS *cbs) {
return true;
default:
return false;
+@@ ssl/extensions.cc: bool ssl_client_hello_get_extension(const SSL_CLIENT_HELLO *client_hello,
+ }
+
+ static const uint16_t kDefaultGroups[] = {
++ SSL_GROUP_X25519_MLKEM768,
+ SSL_GROUP_X25519,
+ SSL_GROUP_SECP256R1,
+ SSL_GROUP_SECP384R1,
## ssl/ssl_key_share.cc ##
@@
Users can override the new default behavior in the usual way. The
expectation is that the build of BoringSSL they provide the feature set
implemented by the patch.
Per BoringSSL's FIPS policy, its `main` branch is the "update branch"
for FedRAMP compliance's purposes.
This means that we can stop using a specific BoringSSL branch when
enabling FIPS, as well as a number of hacks that allowed us to build
more recent BoringSSL versions with an older pre-compiled FIPS modules.
This also required slightly updating the main BoringSSL submodule, as
the previous version had an issue when building with the FIPS option
enabled. This is turn required some changes to the PQ patch as well as
some APIs that don't seem to be exposed publicly, as well as changing
some paths in the other patches.
In order to allow a smooth upgrade of internal projects, the `fips-compat`
feature is reduced in scope and renamed to `legacy-compat-deprecated` so
that we can incrementally upgrade internal BoringSSL forks. In practice
this shouldn't really be something anyone else would need, since in
order to work it requires a specific mix of BoringSSL version and
backported patches.
Newer versions of FIPS don't need any special casing in our bindings,
unlike the submoduled boringssl-fips. In addition, many users currently
use FIPS by precompiling BoringSSL with the proper build tools and
passing that in to the bindings.
Until we adopt the Update Stream pattern for FIPS, there are two main
use cases:
1. Passing an unmodified, precompiled FIPS validated version of
boringssl (fips-precompiled)
2. Passing a custom source directory of boringssl meant to be linked
with a FIPS validated bcm.o. This is mainly useful if you carry
custom patches but still want to use a FIPS validated BoringCrypto.
(fips-link-precompiled)
This commit introduces the `fips-precompiled` feature and removes the
`fips-no-compat` feature.
Internal users often have two builds for `boring`, one using a
precompiled build of boringSSL and another built from source with
patches applied. However the features that enable these builds are
mutually exclusive. For example, the `"pq-experimental"` feature is
required to build the source with all of the necessary codepoints for PQ
key exchange, but if this feature is enabled and a precompiled boringSSL
is provided, then the build will fail. This means users will have to
also control their builds with mutually exclusive features.
An alternative is to *ignore* features that enable patches whenever a
precompiled boringSSL is provided. This is a little different from the
"assume patched" environment variable, which applies whenever we're
building from source.
Modify the "fips" feature so that it no longer implies "fips-compat".
The latter is no longer needed for recent builds of boringSSL; users who
need older builds will need to enable "fips-compat" explicitly.
Also, remove the "fipps-no-compat" feature, as it's now equivalent to
"fips".
As of boringSSL commit a430310d6563c0734ddafca7731570dfb683dc19, we no
longer need to make exceptions for the types of BufLen, ProtosLen, and
ValueLen, which means the "fips-compat" feature is no longer needed for
"fips" users.
Currently "fips" implies "fips-compat". To allow users to upgrade
without breaking API compatibility with boring version 4, add a new
feature, "fips-no-compat", that does not imply "fips-compat".
In boring 5, we should remove "fips-no-compat" and decouple
"fips-compat" from "fips".
* RTG-3333 Support X25519MLKEM768 by default, but don't sent it as client
X25519MLKEM768 is the standardised successor of the preliminary
X25519Kyber768Draft00. Latest browsers have switched to X25519MLKEM768.
Cloudflare supports both on the edge.
We've had support for X25519MLKEM768 in this crate for a while, but
didn't enable by default. We're now enabling serverside support by
default. We also let clients advertise support when set
to kx-client-pq-supported.
We don't enable support by default yet for clients set to
kx-client-pq-preferred, as that would cause an extra round-trip due to
HelloRetryRequest if the server doesn't support X25519MLKEM768 yet.
BoringSSL against which we build must support X25519MLKEM768, otherwise
this will fail.
* replace once_cell with LazyLock
We can drop the once_cell dependency since the same functionality is
implemented in std now.
Requires bumping MSRV to 1.80.
* fix manual_c_str_literals clippy warning
* chore: Fix docs on SslRef::replace_ex_data
* Detailed error codes
* Clean up boring_sys::init()
We don't need the workaround that was initially introduced for a bug in
openssl, and OPENSSL_init_ssl always calls into CRYPTO_library_init on
boringssl, so just call it explicitly.
* Expose EVP_HPKE_KEY
* Expose client/server-side ECH
Resolves https://github.com/cloudflare/boring/issues/282
* Clean up ECH tests
* Expose SSL_set_enable_ech_grease
* Use corresponds macro
* build: Fix the build for 32-bit Linux platform (#312)
build: Fix the build for 32-bit Linux platform
* Set CMAKE_BUILD_PARALLEL_LEVEL to available_parallelism
cmake-rs' jobserver doesn't work reliably, if at all. One workaround is
to set CMAKE_BUILD_PARALLEL_LEVEL to available_parallelism(). On my
machine it shaves ~35 seconds off of boring-sys builds.
* Expose SSL_CTX_set1_ech_keys from SslContextRef
We currently expose this method on `SslContextBuilder`, which is fine
for bootstrapping an `SSL_CTX`, but subsequent attempts to set ECH keys
(like during key rotation) can only happen via `SslContextRef`. Also
update the method on the builder to take an immutable reference to self
because the API is thread safe.
* Bump cmake-rs to improve Mac OS build parallelism
There's a bug on OSX that prevents the CMake jobserver from working
properly, and so CMake defaults to a single-threaded build. It's not
clear when this is actually going to get fixed, so recent versions of
cmake-rs just disable the jobserver and have CMake fall back to the
number of available cores:
https://github.com/rust-lang/cmake-rs/pull/229
This means we don't need e6833b0074
* Release 4.14.0 (#317)
* Actually expose SslEchKeys
* Address clippy lints
* Revert "Refactor!: Introduce a Cargo feature for optional Hyper 0 support"
This reverts commit 49d5a61163.
* Revert "Refactor!: Remove strict `TokioIo` response requirement from `hyper_boring::v1::HttpsConnector`"
This reverts commit e518c2444a.
* Introduce a builder pattern for SslEchKeys + make set_ech_keys take a reference (#320)
Previously, set_ech_keys would consume the SslEchKeys struct to enforce
the requirement that the struct is immutable after initializing it on a
SSL_CTX. The problem with this is that it requires applications to
needlessly reallocate the SslEchKeys struct if they want to initialize
keys on multiple SSL_CTXs, which is a pretty common pattern. To work
around this, we introduce a builder (SslEchKeysBuilder) that requires
mutable access to add keys to the underlying struct. set_ech_keys takes
in a reference to SslEchKeys, which can only be made via consuming the
builder.
* Revert cmake bump (for now) as it is overly restrictive (#321)
Some users of boring have issues with newer versions of cmake. Because
we have an alternative solution, we can hold off on the bump for now.
---------
Co-authored-by: Bas Westerbaan <bas@cloudflare.com>
Co-authored-by: Alessandro Ghedini <alessandro@cloudflare.com>
Co-authored-by: Evan Rittenhouse <erittenhouse@cloudflare.com>
Co-authored-by: Kornel <kornel@cloudflare.com>
Co-authored-by: Rushil Mehra <rmehra@cloudflare.com>
Co-authored-by: Rushil Mehra <84047965+rushilmehra@users.noreply.github.com>
There's a bug on OSX that prevents the CMake jobserver from working
properly, and so CMake defaults to a single-threaded build. It's not
clear when this is actually going to get fixed, so recent versions of
cmake-rs just disable the jobserver and have CMake fall back to the
number of available cores:
https://github.com/rust-lang/cmake-rs/pull/229
This means we don't need e6833b0074
0x676e67