use crate::Module; use std::path::Path; use wasmer_runtime_core::cache::{hash_data, Cache as CoreCache}; use wasmer_runtime_core::module::{WasmHash}; pub use wasmer_runtime_core::cache::Error; // /// On-disk storage of compiled WebAssembly. // /// // /// A `Cache` can be used to quickly reload already // /// compiled WebAssembly from a previous execution // /// during which the wasm was explicitly compiled // /// as a `Cache`. // /// // /// # Usage: // /// // /// ``` // /// use wasmer_runtime::{compile_cache, Cache}; // /// // /// # use wasmer_runtime::error::{CompileResult, CacheError}; // /// # fn make_cache(wasm: &[u8]) -> CompileResult<()> { // /// // Make a cache. // /// let cache = compile_cache(wasm)?; // /// // /// # Ok(()) // /// # } // /// # fn usage_cache(cache: Cache) -> Result<(), CacheError> { // /// // Store the cache in a file. // /// cache.store("some_cache_file")?; // /// // /// // Load the cache. // /// let cache = Cache::load("some_cache_file")?; // /// let module = unsafe { cache.into_module()? }; // /// # Ok(()) // /// # } // /// ``` // /// // /// # Performance Characteristics: // /// // /// Loading caches from files has been optimized for latency. // /// There is still more work to do that will reduce // /// loading time, especially for very large modules, // /// but it will require signifigant internal work. // /// // /// # Drawbacks: // /// // /// Due to internal shortcomings, you cannot convert // /// a module into a `Cache`. This means that compiling // /// into a `Cache` and then converting into a module // /// has more overhead than directly compiling // /// into a [`Module`]. // /// // /// [`Module`]: struct.Module.html // pub struct Cache(pub(crate) CoreCache); // impl Cache { // /// Load a `Cache` from the file specified by `path`. // /// // /// # Usage: // /// // /// ``` // /// use wasmer_runtime::Cache; // /// # use wasmer_runtime::error::CacheError; // /// // /// # fn load_cache() -> Result<(), CacheError> { // /// let cache = Cache::load("some_file.cache")?; // /// # Ok(()) // /// # } // /// ``` // pub fn load>(path: P) -> Result { // CoreCache::open(path).map(|core_cache| Cache(core_cache)) // } // /// Convert a `Cache` into a [`Module`]. // /// // /// [`Module`]: struct.Module.html // /// // /// # Usage: // /// // /// ``` // /// use wasmer_runtime::Cache; // /// // /// # use wasmer_runtime::error::CacheError; // /// # fn cache2module(cache: Cache) -> Result<(), CacheError> { // /// let module = unsafe { cache.into_module()? }; // /// # Ok(()) // /// # } // /// ``` // /// // /// # Notes: // /// // /// This method is unsafe because the runtime cannot confirm // /// that this cache was not tampered with or corrupted. // pub unsafe fn into_module(self) -> Result { // let default_compiler = super::default_compiler(); // wasmer_runtime_core::load_cache_with(self.0, default_compiler) // } // /// Compare the Sha256 hash of the wasm this cache was build // /// from with some other WebAssembly. // /// // /// The main use-case for this is invalidating old caches. // pub fn compare_wasm(&self, wasm: &[u8]) -> bool { // let param_wasm_hash = hash_data(wasm); // self.0.wasm_hash() as &[u8] == ¶m_wasm_hash as &[u8] // } // /// Store this cache in a file. // /// // /// # Notes: // /// // /// If a file exists at the specified path, it will be overwritten. // /// // /// # Usage: // /// // /// ``` // /// use wasmer_runtime::Cache; // /// // /// # use wasmer_runtime::error::CacheError; // /// # fn store_cache(cache: Cache) -> Result<(), CacheError> { // /// cache.store("some_file.cache")?; // /// # Ok(()) // /// # } // /// ``` // pub fn store>(&self, path: P) -> Result<(), Error> { // self.0.store(path) // } // } pub trait Cache { type Key; type LoadError; type StoreError; unsafe fn load(&self, key: Self::Key) -> Result; fn store(&mut self, module: Module) -> Result; }