use std::io::{self, Cursor}; use std::{ collections::HashMap, sync::{Arc, RwLock}, }; use tracing::{instrument, warn}; use super::{BlobService, BlobWriter}; use crate::{B3Digest, Error}; #[derive(Clone, Default)] pub struct MemoryBlobService { db: Arc>>>, } impl BlobService for MemoryBlobService { /// Constructs a [MemoryBlobService] from the passed [url::Url]: /// - scheme has to be `memory://` /// - there may not be a host. /// - there may not be a path. fn from_url(url: &url::Url) -> Result { if url.scheme() != "memory" { return Err(crate::Error::StorageError("invalid scheme".to_string())); } if url.has_host() || !url.path().is_empty() { return Err(crate::Error::StorageError("invalid url".to_string())); } Ok(Self::default()) } #[instrument(skip(self, digest), fields(blob.digest=%digest))] fn has(&self, digest: &B3Digest) -> Result { let db = self.db.read().unwrap(); Ok(db.contains_key(digest)) } fn open_read(&self, digest: &B3Digest) -> Result>, Error> { let db = self.db.read().unwrap(); match db.get(digest).map(|x| Cursor::new(x.clone())) { Some(result) => Ok(Some(Box::new(result))), None => Ok(None), } } #[instrument(skip(self))] fn open_write(&self) -> Box { Box::new(MemoryBlobWriter::new(self.db.clone())) } } pub struct MemoryBlobWriter { db: Arc>>>, /// Contains the Vec and hasher, or None if already closed writers: Option<(Vec, blake3::Hasher)>, /// The digest that has been returned, if we successfully closed. digest: Option, } impl MemoryBlobWriter { fn new(db: Arc>>>) -> Self { Self { db, writers: Some((Vec::new(), blake3::Hasher::new())), digest: None, } } } impl std::io::Write for MemoryBlobWriter { fn write(&mut self, b: &[u8]) -> std::io::Result { match &mut self.writers { None => Err(io::Error::new( io::ErrorKind::NotConnected, "already closed", )), Some((ref mut buf, ref mut hasher)) => { let bytes_written = buf.write(b)?; hasher.write(&b[..bytes_written]) } } } fn flush(&mut self) -> std::io::Result<()> { match &mut self.writers { None => Err(io::Error::new( io::ErrorKind::NotConnected, "already closed", )), Some(_) => Ok(()), } } } impl BlobWriter for MemoryBlobWriter { fn close(&mut self) -> Result { if self.writers.is_none() { match &self.digest { Some(digest) => Ok(digest.clone()), None => Err(crate::Error::StorageError( "previously closed with error".to_string(), )), } } else { let (buf, hasher) = self.writers.take().unwrap(); // We know self.hasher is doing blake3 hashing, so this won't fail. let digest = B3Digest::from_vec(hasher.finalize().as_bytes().to_vec()).unwrap(); // Only insert if the blob doesn't already exist. let db = self.db.read()?; if !db.contains_key(&digest) { // drop the read lock, so we can open for writing. drop(db); // open the database for writing. let mut db = self.db.write()?; // and put buf in there. This will move buf out. db.insert(digest.clone(), buf); } self.digest = Some(digest.clone()); Ok(digest) } } } #[cfg(test)] mod tests { use super::BlobService; use super::MemoryBlobService; /// This uses a wrong scheme. #[test] fn test_invalid_scheme() { let url = url::Url::parse("http://foo.example/test").expect("must parse"); assert!(MemoryBlobService::from_url(&url).is_err()); } /// This correctly sets the scheme, and doesn't set a path. #[test] fn test_valid_scheme() { let url = url::Url::parse("memory://").expect("must parse"); assert!(MemoryBlobService::from_url(&url).is_ok()); } /// This sets the host to `foo` #[test] fn test_invalid_host() { let url = url::Url::parse("memory://foo").expect("must parse"); assert!(MemoryBlobService::from_url(&url).is_err()); } /// This has the path "/", which is invalid. #[test] fn test_invalid_has_path() { let url = url::Url::parse("memory:///").expect("must parse"); assert!(MemoryBlobService::from_url(&url).is_err()); } /// This has the path "/foo", which is invalid. #[test] fn test_invalid_path2() { let url = url::Url::parse("memory:///foo").expect("must parse"); assert!(MemoryBlobService::from_url(&url).is_err()); } }