use super::{DBError, SessionData, Store}; use async_std::{fs::write, path::Path}; use rand::{distributions::Alphanumeric, thread_rng, Rng}; use std::{ cell::Cell, time::{Duration, Instant}, }; #[derive(Clone)] enum DataType { DBMap(Store), } impl DataType { fn new(data_type: &str) -> Result { match data_type { "store" => Ok(DataType::DBMap(Store::new())), _ => Err(DBError::new("invalid data type")), } } } impl SessionData for DataType { fn add(&mut self, key: &str, value: &str, data: &str) -> Result, DBError> { match self { DataType::DBMap(dbs) => dbs.add(key, value, data), } } fn eq(&self, key: &str, value: &str) -> Result, DBError> { match self { DataType::DBMap(dbs) => dbs.eq(key, value), } } fn list(&self, keys: Vec<&str>) -> Result, DBError> { match self { DataType::DBMap(dbs) => dbs.list(keys), } } } struct Entry { data: DataType, filename: String, last_used: Cell, } impl Entry { async fn new(filename: String, data: DataType) -> Result { if Path::new(&filename).exists().await { return Err(DBError::new("entry already exists")); } Ok(Self { data: data, filename: filename, last_used: Cell::new(Instant::now()), }) } async fn get(&self) -> Result { Ok(self.data.clone()) } } struct Cache; impl Cache { async fn new(dir: &str) -> Self { Self } } #[cfg(test)] mod datatype_sesssion { use super::*; #[test] fn invalid_cache_type() -> Result<(), DBError> { match DataType::new("dkhgdl") { Ok(_) => Err(DBError::new("invalid data type should raise an error")), Err(err) => { assert_eq!(err.to_string(), "invalid data type"); Ok(()) } } } #[test] fn create_storage() { let dbs = DataType::new("store").unwrap(); let expected: Vec = Vec::new(); assert_eq!(dbs.list(["database"].to_vec()).unwrap(), expected); } #[test] fn update_storage() { let mut dbs = DataType::new("store").unwrap(); let name = "new_database"; let id = "someid"; dbs.add("database", name, id).unwrap(); assert_eq!(dbs.eq("database", name).unwrap(), [id].to_vec()); assert_eq!(dbs.list(["database"].to_vec()).unwrap(), [name].to_vec()); } } #[cfg(test)] mod datatype_file { use super::*; // Test file data traits here. } #[cfg(test)] mod entry { use super::*; use tempfile::tempdir; #[async_std::test] async fn create() { let dir = tempdir().unwrap(); let mut data = DataType::new("store").unwrap(); data.add("database", "roger", "moore").unwrap(); let filepath = dir.path().join("wiliam"); let filename = filepath.to_str().unwrap(); let item = Entry::new(filename.to_string(), data.clone()) .await .unwrap(); let output = item.get().await.unwrap(); assert_eq!( data.list(["database"].to_vec()).unwrap(), output.list(["database"].to_vec()).unwrap() ); } #[async_std::test] async fn no_over_writes() -> Result<(), DBError> { let dir = tempdir().unwrap(); let id = "wicked"; let file = dir.path().join(id); let filename = file.to_str().unwrap(); write(&file, b"previous").await.unwrap(); let data = DataType::new("store").unwrap(); match Entry::new(filename.to_string(), data).await { Ok(_) => { return Err(DBError::new( "Should produce an error for an existing Entry", )) } Err(err) => { assert_eq!(err.to_string(), "entry already exists"); Ok(()) } } } } #[cfg(test)] mod cache { use super::*; use tempfile::tempdir; #[async_std::test] async fn create() { let dir = tempdir().unwrap(); Cache::new(dir.path().to_str().unwrap()).await; } }