tmp22/src/cache/redis.rs

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2021-06-09 20:09:54 +05:30
/*
* mCaptcha - A proof of work based DoS protection system
* Copyright © 2021 Aravinth Manivannan <realravinth@batsense.net>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
//! Cache implementation that uses Redis
use crate::redis::Redis;
use std::collections::HashMap;
use actix::prelude::*;
use super::messages::*;
use super::Save;
use crate::errors::*;
pub struct RedisCache(Redis);
#[derive(Clone, Default)]
/// cache datastructure implementing [Save]
pub struct HashCache {
difficulty_map: HashMap<String, CachedPoWConfig>,
result_map: HashMap<String, String>,
}
impl RedisCache {
// save [PoWConfig] to cache
async fn save_pow_config(&mut self, config: CachePoW) -> CaptchaResult<()> {
let challenge = config.string;
let config: CachedPoWConfig = CachedPoWConfig {
key: config.key,
difficulty_factor: config.difficulty_factor,
duration: config.duration,
};
// {MCAPTCHA_NAME}:difficulty_map:challenge (difficulty_factor -> duration) EX duration
// TODO use hashmap
self.difficulty_map.insert(challenge, config);
Ok(())
}
// retrive [PoWConfig] from cache. Deletes config post retrival
fn retrive_pow_config(&mut self, string: String) -> CaptchaResult<Option<CachedPoWConfig>> {
if let Some(difficulty_factor) = self.remove_pow_config(&string) {
Ok(Some(difficulty_factor.to_owned()))
} else {
Ok(None)
}
}
// delete [PoWConfig] from cache
fn remove_pow_config(&mut self, string: &str) -> Option<CachedPoWConfig> {
self.difficulty_map.remove(string)
}
// save captcha result
async fn save_captcha_result(&mut self, res: CacheResult) -> CaptchaResult<()> {
self.result_map.insert(res.token, res.key);
// {MCAPTCHA_NAME}:result_map:token 0 EX duration
Ok(())
}
// verify captcha result
fn verify_captcha_result(&mut self, challenge: VerifyCaptchaResult) -> CaptchaResult<bool> {
if let Some(captcha_id) = self.remove_cache_result(&challenge.token) {
if captcha_id == challenge.key {
return Ok(true);
} else {
return Ok(false);
}
} else {
Ok(false)
}
}
// delete cache result
fn remove_cache_result(&mut self, string: &str) -> Option<String> {
self.result_map.remove(string)
}
}
impl Save for HashCache {}
impl Actor for HashCache {
type Context = Context<Self>;
}
/// cache a PoWConfig
impl Handler<CachePoW> for HashCache {
type Result = MessageResult<CachePoW>;
fn handle(&mut self, msg: CachePoW, ctx: &mut Self::Context) -> Self::Result {
//use actix::clock::sleep;
use actix::clock::delay_for;
use std::time::Duration;
let addr = ctx.address();
let del_msg = DeletePoW(msg.string.clone());
let duration: Duration = Duration::new(msg.duration.clone(), 0);
let wait_for = async move {
//sleep(duration).await;
delay_for(duration).await;
addr.send(del_msg).await.unwrap().unwrap();
}
.into_actor(self);
ctx.spawn(wait_for);
MessageResult(self.save_pow_config(msg))
}
}
/// Delte a PoWConfig
impl Handler<DeletePoW> for HashCache {
type Result = MessageResult<DeletePoW>;
fn handle(&mut self, msg: DeletePoW, _ctx: &mut Self::Context) -> Self::Result {
self.remove_pow_config(&msg.0);
MessageResult(Ok(()))
}
}
/// Retrive PoW difficulty_factor for a PoW string
impl Handler<RetrivePoW> for HashCache {
type Result = MessageResult<RetrivePoW>;
fn handle(&mut self, msg: RetrivePoW, _ctx: &mut Self::Context) -> Self::Result {
MessageResult(self.retrive_pow_config(msg.0))
}
}
/// cache PoW result
impl Handler<CacheResult> for HashCache {
type Result = MessageResult<CacheResult>;
fn handle(&mut self, msg: CacheResult, ctx: &mut Self::Context) -> Self::Result {
//use actix::clock::sleep;
use actix::clock::delay_for;
use std::time::Duration;
let addr = ctx.address();
let del_msg = DeleteCaptchaResult {
token: msg.token.clone(),
};
let duration: Duration = Duration::new(msg.duration.clone(), 0);
let wait_for = async move {
//sleep(duration).await;
delay_for(duration).await;
addr.send(del_msg).await.unwrap().unwrap();
}
.into_actor(self);
ctx.spawn(wait_for);
MessageResult(self.save_captcha_result(msg))
}
}
/// Delte a PoWConfig
impl Handler<DeleteCaptchaResult> for HashCache {
type Result = MessageResult<DeleteCaptchaResult>;
fn handle(&mut self, msg: DeleteCaptchaResult, _ctx: &mut Self::Context) -> Self::Result {
self.remove_cache_result(&msg.token);
MessageResult(Ok(()))
}
}
/// Retrive PoW difficulty_factor for a PoW string
impl Handler<VerifyCaptchaResult> for HashCache {
type Result = MessageResult<VerifyCaptchaResult>;
fn handle(&mut self, msg: VerifyCaptchaResult, _ctx: &mut Self::Context) -> Self::Result {
// MessageResult(self.retrive(msg.0))
MessageResult(self.verify_captcha_result(msg))
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::master::AddVisitorResult;
use crate::pow::PoWConfig;
// async fn sleep(time: u64) {
// //use actix::clock::sleep;
// use actix::clock::delay_for;
// use std::time::Duration;
// let duration: Duration = Duration::new(time, 0);
// //sleep(duration).await;
// delay_for(duration).await;
// }
#[actix_rt::test]
async fn hashcache_pow_cache_works() {
use actix::clock::delay_for;
use actix::clock::Duration;
const DIFFICULTY_FACTOR: u32 = 54;
const DURATION: u64 = 5;
const KEY: &str = "mcaptchakey";
let addr = HashCache::default().start();
let pow: PoWConfig = PoWConfig::new(DIFFICULTY_FACTOR, KEY.into()); //salt is dummy here
let visitor_result = AddVisitorResult {
difficulty_factor: DIFFICULTY_FACTOR,
duration: DURATION,
};
let string = pow.string.clone();
let msg = CachePoWBuilder::default()
.string(pow.string.clone())
.difficulty_factor(DIFFICULTY_FACTOR)
.duration(visitor_result.duration)
.key(KEY.into())
.build()
.unwrap();
addr.send(msg).await.unwrap().unwrap();
let cache_difficulty_factor = addr
.send(RetrivePoW(string.clone()))
.await
.unwrap()
.unwrap();
assert_eq!(
DIFFICULTY_FACTOR,
cache_difficulty_factor.unwrap().difficulty_factor
);
let duration: Duration = Duration::new(5, 0);
//sleep(DURATION + DURATION).await;
delay_for(duration + duration).await;
let expired_string = addr.send(RetrivePoW(string)).await.unwrap().unwrap();
assert_eq!(None, expired_string);
}
#[actix_rt::test]
async fn hashcache_result_cache_works() {
use actix::clock::delay_for;
use actix::clock::Duration;
const DURATION: u64 = 5;
const KEY: &str = "a";
const RES: &str = "b";
let addr = HashCache::default().start();
// send value to cache
// send another value to cache for auto delete
// verify_captcha_result
// delete
// wait for timeout and verify_captcha_result against second value
let add_cache = CacheResult {
key: KEY.into(),
token: RES.into(),
duration: DURATION,
};
addr.send(add_cache).await.unwrap().unwrap();
let verify_msg = VerifyCaptchaResult {
key: KEY.into(),
token: RES.into(),
};
assert!(addr.send(verify_msg.clone()).await.unwrap().unwrap());
// duplicate
assert!(!addr.send(verify_msg).await.unwrap().unwrap());
let verify_msg = VerifyCaptchaResult {
key: "cz".into(),
token: RES.into(),
};
assert!(!addr.send(verify_msg).await.unwrap().unwrap());
let duration: Duration = Duration::new(5, 0);
delay_for(duration + duration).await;
let verify_msg = VerifyCaptchaResult {
key: KEY.into(),
token: RES.into(),
};
assert!(!addr.send(verify_msg).await.unwrap().unwrap());
}
}