12 releases (breaking)
new 0.13.0 | Nov 16, 2024 |
---|---|
0.12.1 | May 21, 2024 |
0.12.0 | Mar 24, 2024 |
0.9.0 | Jun 11, 2023 |
0.4.0 | Oct 22, 2022 |
#1611 in Procedural macros
105 downloads per month
Used in 4 crates
(via redis-swapplex)
6KB
redis-swapplex
Redis multiplexing with reconnection notifications and MGET auto-batching
Why use this instead of redis::aio::ConnectionManager?
- Error-free reconnection behavior: when a command would otherwise fail as a consequence of the connection being dropped, this library will immediately reconnect and retry when able without producing an otherwise avoidable IoError and with subsequent reconnections debounced 1500ms
- ENV configuration simplifies kubernetes usage
- Reconnects can be observed allowing for Redis server-assisted client-side caching using client tracking redirection
- Integrated MGET auto-batching
ENV Configuration
Composible connection urls are provided by environment variables using env-url with the REDIS
prefix:
REDIS_URL=redis://127.0.0.1:6379
# Override env mapping for easy kubernetes config
REDIS_HOST_ENV=MONOLITH_STAGE_REDIS_MASTER_PORT_6379_TCP_ADDR
REDIS_PORT_ENV=MONOLITH_STAGE_REDIS_MASTER_SERVICE_PORT_REDIS
Example
use redis::{AsyncCommands, RedisResult};
use redis_swapplex::get_connection;
async fn get_value(key: &str) -> RedisResult<String> {
let mut conn = get_connection();
conn.get(key).await
}
Runtime Configuration (optional)
For best performance, use the Tokio runtime as configured via the tokio::main or tokio::test macro with the crate
attribute set to async_local
while the barrier-protected-runtime
feature is enabled on async-local
. Doing so configures the Tokio runtime with a barrier that rendezvous runtime worker threads during shutdown in a way that ensures tasks never outlive thread local data owned by runtime worker threads and obviates the need for Box::leak as a means of lifetime extension.
Dependencies
~245–700KB
~17K SLoC