v1.45.0
Caution
This version has a critical bug impacting users of distributed query plan caching. See the Fixes in v1.45.1 for details. We highly recommend using v1.45.1 (or newer) or v1.43.2 over v1.45.0.
馃殌 Features
Query validation process with Rust (PR #4551)
The router has been updated with a new Rust-based query validation process using apollo-compiler
from the apollo-rs
project. It replaces the Javascript implementation in the query planner. It improves query planner performance by moving the validation out of the query planner and into the router service, which frees up space in the query planner cache.
Because validation now happens earlier in the router service and not in the query planner, error paths in the query planner are no longer encountered. Some messages in error responses returned from invalid queries should now be more clear.
We've tested the new validation process by running it for months in production, concurrently with the JavaScript implementation, and have now completely transitioned to the Rust-based implementation.
Add support for SHA256 hashing in Rhai (Issue #4939)
The router supports a new sha256
module to create SHA256 hashes in Rhai scripts. The module supports the sha256::digest
function.
An example script that uses the module:
fn supergraph_service(service){
service.map_request(|request|{
log_info("hello world");
let sha = sha256::digest("hello world");
log_info(sha);
});
}
Subgraph support for query batching (Issue #2002)
As an extension to the ongoing work to support client-side query batching in the router, the router now supports batching of subgraph requests. Each subgraph batch request retains the same external format as a client batch request. This optimization reduces the number of round-trip requests from the router to subgraphs.
Also, batching in the router is now a generally available feature: the experimental_batching
router configuration option has been deprecated and is replaced by the batching
option.
Previously, the router preserved the concept of a batch until a RouterRequest
finished processing. From that point, the router converted each batch request item into a separate SupergraphRequest
, and the router planned and executed those requests concurrently within the router, then reassembled them into a batch of RouterResponse
to return to the client. Now with the implementation in this release, the concept of a batch is extended so that batches are issued to configured subgraphs (all or named). Each batch request item is planned and executed separately, but the queries issued to subgraphs are optimally assembled into batches which observe the query constraints of the various batch items.
To configure subgraph batching, you can enable batching.subgraph.all
for all subgraphs. You can also enable batching per subgraph with batching.subgraph.subgraphs.*
. For example:
batching:
enabled: true
mode: batch_http_link
subgraph:
# Enable batching on all subgraphs
all:
enabled: true
batching:
enabled: true
mode: batch_http_link
subgraph:
# Disable batching on all subgraphs
all:
enabled: false
# Configure (override) batching support per subgraph
subgraphs:
subgraph_1:
enabled: true
subgraph_2:
enabled: true
Note: all
can be overridden by subgraphs
. This applies in general for all router subgraph configuration options.
To learn more, see query batching in Apollo docs.
馃悰 Fixes
Update rustls
to v0.21.11, the latest v0.21.x patch (PR #4993)
While the Router does use rustls
, RUSTSEC-2024-0336 (also known as CVE-2024-32650 and GHSA-6g7w-8wpp-frhj) DOES NOT affect the Router since it uses tokio-rustls
which is specifically called out in the advisory as unaffected.
Despite the lack of impact, we update rustls
version v0.21.10 to rustls v0.21.11 which includes a patch.
By @tninesling in #4993
Performance improvements for Apollo usage report field generation (PR 4951)
The performance of generating Apollo usage report signatures, stats keys, and referenced fields has been improved.
Apply alias rewrites to arrays (PR #4958)
The automatic aliasing rules introduced in #2489 to support @interfaceObject
are now properly applied to lists.
By @o0Ignition0o in #4958
Fix compatibility of coprocessor metric creation (PR #4930)
Previously, the router's execution stage created coprocessor metrics differently than other stages. This produced metrics with slight incompatibilities.
This release fixes the issue by creating coprocessor metrics in the same way as all other stages.
馃摎 Documentation
Documentation updates for caching and metrics instruments (PR #4872)
Router documentation has been updated for a couple topics:
- Performance improvements vs. stability concerns when using the router's operation cache
- Overview of standard and custom metrics instruments
馃И Experimental
Experimental: Introduce a pool of query planners (PR #4897)
The router supports a new experimental feature: a pool of query planners to parallelize query planning.
You can configure query planner pools with the supergraph.query_planning.experimental_parallelism
option:
supergraph:
query_planning:
experimental_parallelism: auto # number of available CPUs
Its value is the number of query planners that run in parallel, and its default value is 1
. You can set it to the special value auto
to automatically set it equal to the number of available CPUs.
You can discuss and comment about query planner pools in this GitHub discussion.
By @xuorig and @o0Ignition0o in #4897
Experimental: Rust implementation of Apollo usage report field generation (PR 4796)
The router supports a new experimental Rust implementation for generating the stats report keys and referenced fields that are sent in Apollo usage reports. This implementation is one part of the effort to replace the router-bridge with native Rust code.
The feature is configured with the experimental_apollo_metrics_generation_mode
setting. We recommend that you use its default value, so we can verify that it generates the same payloads as the previous implementation.