Expand description
cacache is a Rust library for managing local key and content address caches. It’s really fast, really good at concurrency, and it will never give you corrupted data, even if cache files get corrupted or manipulated.
API Layout
The cacache API is organized roughly similar to std::fs; most of the
toplevel functionality is available as free functions directly in the
cacache module, with some additional functionality available through
returned objects, as well as WriteOpts, which is analogous to
OpenOpts, but is only able to write.
One major difference is that the default APIs are all async functions, as
opposed to std::fs, where they’re all synchronous. Synchronous APIs in
cacache are accessible through the _sync suffix.
Suffixes
You may notice various suffixes associated with otherwise familiar functions:
_sync- Most cacache APIs are asynchronous by default. Anything using the_syncsuffix behaves just like its unprefixed counterpart, except the operation is synchronous._hash- Since cacache is a content-addressable cache, the_hashsuffix means you’re interacting directly with content data, skipping the index and its metadata. These functions use anIntegrityto look up data, instead of a string key.
Examples
Un-suffixed APIs are all async, using
async-std. They let you put data
in and get it back out – asynchronously!
use async_attributes;
#[async_attributes::main]
async fn main() -> cacache::Result<()> {
// Data goes in...
cacache::write("./my-cache", "key", b"hello").await?;
// ...data comes out!
let data = cacache::read("./my-cache", "key").await?;
assert_eq!(data, b"hello");
Ok(())
}Lookup by hash
What makes cacache content addressable, though, is its ability to fetch
data by its “content address”, which in our case is a “subresource
integrity” hash, which cacache::put
conveniently returns for us. Fetching data by hash is significantly faster
than doing key lookups:
use async_attributes;
#[async_attributes::main]
async fn main() -> cacache::Result<()> {
// Data goes in...
let sri = cacache::write("./my-cache", "key", b"hello").await?;
// ...data gets looked up by `sri` ("Subresource Integrity").
let data = cacache::read_hash("./my-cache", &sri).await?;
assert_eq!(data, b"hello");
Ok(())
}Large file support
cacache supports large file reads, in both async and sync mode, through
an API reminiscent of std::fs::OpenOptions:
use async_attributes;
use async_std::prelude::*;
#[async_attributes::main]
async fn main() -> cacache::Result<()> {
let mut fd = cacache::Writer::create("./my-cache", "key").await?;
for _ in 0..10 {
fd.write_all(b"very large data").await.expect("Failed to write to cache");
}
// Data is only committed to the cache after you do `fd.commit()`!
let sri = fd.commit().await?;
println!("integrity: {}", &sri);
let mut fd = cacache::Reader::open("./my-cache", "key").await?;
let mut buf = String::new();
fd.read_to_string(&mut buf).await.expect("Failed to read to string");
// Make sure to call `.check()` when you're done! It makes sure that what
// you just read is actually valid. `cacache` always verifies the data
// you get out is what it's supposed to be. The check is very cheap!
fd.check()?;
Ok(())
}Sync API
There are also sync APIs available if you don’t want to use async/await. The synchronous APIs are generally faster for linear operations – that is, doing one thing after another, as opposed to doing many things at once. If you’re only reading and writing one thing at a time across your application, you probably want to use these instead.
fn main() -> cacache::Result<()> {
cacache::write_sync("./my-cache", "key", b"my-data").unwrap();
let data = cacache::read_sync("./my-cache", "key").unwrap();
assert_eq!(data, b"my-data");
Ok(())
}Structs
Represents a cache index entry, which points to content.
File handle for reading data asynchronously.
File handle for reading data synchronously.
A reference to an open file writing to the cache.
Builder for options and flags for opening a new cache file to write data into.
A reference to an open file writing to the cache.
Enums
Valid algorithms for integrity strings.
Error type returned by all API calls.
Represents any valid JSON value.
Functions
Removes entire contents of the cache, including temporary files, the entry index, and all content data.
Removes entire contents of the cache synchronously, including temporary files, the entry index, and all content data.
Copies cache data to a specified location. Returns the number of bytes copied.
Copies a cache data by hash to a specified location. Returns the number of bytes copied.
Copies a cache entry by integrity address to a specified location. Returns the number of bytes copied.
Copies a cache entry by key to a specified location. Returns the number of bytes copied.
Returns true if the given hash exists in the cache.
Returns true if the given hash exists in the cache.
Returns a synchronous iterator that lists all cache index entries.
Gets the metadata entry for a certain key.
Gets metadata for a certain key.
Reads the entire contents of a cache file into a bytes vector, looking the data up by key.
Reads the entire contents of a cache file into a bytes vector, looking the data up by its content address.
Reads the entire contents of a cache file synchronously into a bytes vector, looking the data up by its content address.
Reads the entire contents of a cache file synchronously into a bytes vector, looking the data up by key.
Removes an individual index metadata entry. The associated content will be left in the cache.
Removes an individual content entry. Any index entries pointing to this content will become invalidated.
Removes an individual content entry synchronously. Any index entries pointing to this content will become invalidated.
Removes an individual index entry synchronously. The associated content will be left in the cache.
Writes data to the cache, indexing it under key.
Writes data to the cache, skipping associating an index key with it.
Writes data to the cache synchronously, skipping associating a key with it.
Writes data to the cache synchronously, indexing it under key.
Type Definitions
The result type returned by calls to this library