/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::borrow::ToOwned; use std::collections::HashMap; use std::collections::BTreeMap; use std::sync::mpsc::{channel, Receiver, Sender}; use url::Url; use util::str::DOMString; use util::task::spawn_named; #[derive(Copy)] pub enum StorageType { Session, Local } /// Request operations on the storage data associated with a particular url pub enum StorageTaskMsg { /// gets the number of key/value pairs present in the associated storage data Length(Sender, Url, StorageType), /// gets the name of the key at the specified index in the associated storage data Key(Sender>, Url, StorageType, u32), /// gets the value associated with the given key in the associated storage data GetItem(Sender>, Url, StorageType, DOMString), /// sets the value of the given key in the associated storage data /// TODO throw QuotaExceededError in case of error SetItem(Sender, Url, StorageType, DOMString, DOMString), /// removes the key/value pair for the given key in the associated storage data RemoveItem(Sender, Url, StorageType, DOMString), /// clears the associated storage data by removing all the key/value pairs Clear(Sender, Url, StorageType), /// shut down this task Exit } /// Handle to a storage task pub type StorageTask = Sender; pub trait StorageTaskFactory { fn new() -> Self; } impl StorageTaskFactory for StorageTask { /// Create a StorageTask fn new() -> StorageTask { let (chan, port) = channel(); spawn_named("StorageManager".to_owned(), move || { StorageManager::new(port).start(); }); chan } } struct StorageManager { port: Receiver, session_data: HashMap>, local_data: HashMap>, } impl StorageManager { fn new(port: Receiver) -> StorageManager { StorageManager { port: port, session_data: HashMap::new(), local_data: HashMap::new(), } } } impl StorageManager { fn start(&mut self) { loop { match self.port.recv().unwrap() { StorageTaskMsg::Length(sender, url, storage_type) => { self.length(sender, url, storage_type) } StorageTaskMsg::Key(sender, url, storage_type, index) => { self.key(sender, url, storage_type, index) } StorageTaskMsg::SetItem(sender, url, storage_type, name, value) => { self.set_item(sender, url, storage_type, name, value) } StorageTaskMsg::GetItem(sender, url, storage_type, name) => { self.get_item(sender, url, storage_type, name) } StorageTaskMsg::RemoveItem(sender, url, storage_type, name) => { self.remove_item(sender, url, storage_type, name) } StorageTaskMsg::Clear(sender, url, storage_type) => { self.clear(sender, url, storage_type) } StorageTaskMsg::Exit => { break } } } } fn select_data(& self, storage_type: StorageType) -> &HashMap> { match storage_type { StorageType::Session => &self.session_data, StorageType::Local => &self.local_data } } fn select_data_mut(&mut self, storage_type: StorageType) -> &mut HashMap> { match storage_type { StorageType::Session => &mut self.session_data, StorageType::Local => &mut self.local_data } } fn length(&self, sender: Sender, url: Url, storage_type: StorageType) { let origin = self.get_origin_as_string(url); let data = self.select_data(storage_type); sender.send(data.get(&origin).map_or(0u, |entry| entry.len()) as u32).unwrap(); } fn key(&self, sender: Sender>, url: Url, storage_type: StorageType, index: u32) { let origin = self.get_origin_as_string(url); let data = self.select_data(storage_type); sender.send(data.get(&origin) .and_then(|entry| entry.keys().nth(index as uint)) .map(|key| key.clone())).unwrap(); } fn set_item(&mut self, sender: Sender, url: Url, storage_type: StorageType, name: DOMString, value: DOMString) { let origin = self.get_origin_as_string(url); let data = self.select_data_mut(storage_type); if !data.contains_key(&origin) { data.insert(origin.clone(), BTreeMap::new()); } let updated = data.get_mut(&origin).map(|entry| { if entry.get(&origin).map_or(true, |item| *item != value) { entry.insert(name.clone(), value.clone()); true } else { false } }).unwrap(); sender.send(updated).unwrap(); } fn get_item(&self, sender: Sender>, url: Url, storage_type: StorageType, name: DOMString) { let origin = self.get_origin_as_string(url); let data = self.select_data(storage_type); sender.send(data.get(&origin) .and_then(|entry| entry.get(&name)) .map(|value| value.to_string())).unwrap(); } fn remove_item(&mut self, sender: Sender, url: Url, storage_type: StorageType, name: DOMString) { let origin = self.get_origin_as_string(url); let data = self.select_data_mut(storage_type); sender.send(data.get_mut(&origin) .map_or(false, |entry| entry.remove(&name).is_some())).unwrap(); } fn clear(&mut self, sender: Sender, url: Url, storage_type: StorageType) { let origin = self.get_origin_as_string(url); let data = self.select_data_mut(storage_type); sender.send(data.get_mut(&origin) .map_or(false, |entry| { if !entry.is_empty() { entry.clear(); true } else { false }})).unwrap(); } fn get_origin_as_string(&self, url: Url) -> String { let mut origin = "".to_string(); origin.push_str(&url.scheme); origin.push_str("://"); url.domain().map(|domain| origin.push_str(&domain)); url.port().map(|port| { origin.push_str(":"); origin.push_str(&port.to_string()); }); origin.push_str("/"); origin } }