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/*use autonomi::client::payment::PaymentOption;
use autonomi::register::{RegisterAddress, RegisterHistory, RegisterValue};
use autonomi::SecretKey;
use log::{debug, info};
use mockall_double::double;
use crate::client::cache_item::CacheItem;
#[double]
use crate::client::CachingClient;
use crate::client::REGISTER_CACHE_KEY;
use crate::client::command::register::create_register_command::CreateRegisterCommand;
use crate::client::command::register::get_register_command::GetRegisterCommand;
use crate::client::command::register::update_register_command::UpdateRegisterCommand;
use crate::controller::StoreType;
use crate::error::register_error::RegisterError;
use mockall::mock;
#[derive(Debug, Clone)]
pub struct RegisterCachingClient {
caching_client: CachingClient,
}
mock! {
#[derive(Debug)]
pub RegisterCachingClient {
pub fn new(caching_client: CachingClient) -> Self;
pub async fn register_create(
&self,
owner: &SecretKey,
register_value: RegisterValue,
payment_option: PaymentOption,
store_type: StoreType,
) -> Result<RegisterAddress, RegisterError>;
pub async fn register_update(
&self,
owner: &SecretKey,
register_value: RegisterValue,
payment_option: PaymentOption,
store_type: StoreType,
) -> Result<(), RegisterError>;
pub async fn register_get(&self, address: &RegisterAddress) -> Result<RegisterValue, RegisterError>;
pub async fn register_history(&self, addr: &RegisterAddress) -> Result<RegisterHistory, RegisterError>;
}
impl Clone for RegisterCachingClient {
fn clone(&self) -> Self;
}
}
impl RegisterCachingClient {
pub fn new(caching_client: CachingClient) -> Self {
Self { caching_client }
}
pub async fn register_create(
&self,
owner: &SecretKey,
register_value: RegisterValue,
payment_option: PaymentOption,
store_type: StoreType,
) -> Result<RegisterAddress, RegisterError> {
let register_address = self.cache_register(owner, ®ister_value, store_type.clone());
if store_type == StoreType::Network {
let command = Box::new(
CreateRegisterCommand::new(self.caching_client.get_client_harness().clone(), owner.clone(), register_value, payment_option)
);
self.caching_client.send_create_command(command).await?;
}
Ok(register_address)
}
pub async fn register_update(
&self,
owner: &SecretKey,
register_value: RegisterValue,
payment_option: PaymentOption,
store_type: StoreType,
) -> Result<(), RegisterError> {
self.cache_register(owner, ®ister_value, store_type.clone());
if store_type == StoreType::Network {
let command = Box::new(
UpdateRegisterCommand::new(self.caching_client.get_client_harness().clone(), owner.clone(), register_value, payment_option)
);
self.caching_client.send_update_command(command).await?;
}
Ok(())
}
fn cache_register(&self, owner: &SecretKey, register_value: &RegisterValue, store_type: StoreType) -> RegisterAddress {
let register_address = RegisterAddress::new(owner.public_key());
let ttl = if store_type != StoreType::Network { u64::MAX } else { self.caching_client.get_ant_tp_config().cached_mutable_ttl };
let cache_item = CacheItem::new(Some(register_value.clone()), ttl);
match rmp_serde::to_vec(&cache_item) {
Ok(serialised_cache_item) => {
info!("updating cache with register at address {}[{}] to value [{:?}] and TTL [{}]", REGISTER_CACHE_KEY, register_address.to_hex(), register_value, ttl);
if store_type == StoreType::Disk {
self.caching_client.get_hybrid_cache().insert(format!("{}{}", REGISTER_CACHE_KEY, register_address.to_hex()), serialised_cache_item);
} else {
self.caching_client.get_hybrid_cache().memory().insert(format!("{}{}", REGISTER_CACHE_KEY, register_address.to_hex()), serialised_cache_item);
}
},
Err(e) => {
log::warn!("Failed to serialize register for [{}]: {}", register_address.to_hex(), e.to_string());
}
}
register_address
}
pub async fn register_get(&self, address: &RegisterAddress) -> Result<RegisterValue, RegisterError> {
let local_address = address.clone();
let local_ant_tp_config = self.caching_client.get_ant_tp_config().clone();
let cache_entry = self.caching_client.get_hybrid_cache().get_ref().get_or_fetch(&format!("{}{}", REGISTER_CACHE_KEY, local_address.to_hex()), {
let client = self.caching_client.get_client_harness().get_ref().lock().await.get_client().await?;
|| async move {
match client.register_get(&local_address).await {
Ok(register_value) => {
debug!("found register value [{}] for address [{}] from network", hex::encode(register_value.clone()), local_address.to_hex());
let cache_item = CacheItem::new(Some(register_value.clone()), local_ant_tp_config.cached_mutable_ttl);
match rmp_serde::to_vec(&cache_item) {
Ok(cache_item) => Ok(cache_item),
Err(e) => Err(anyhow::anyhow!(format!("Failed to serialize register for [{}]: {}", local_address.to_hex(), e.to_string())))
}
}
Err(e) => Err(anyhow::anyhow!(format!("Failed to retrieve register for [{}] from network: {}", local_address.to_hex(), e.to_string())))
}
}
}).await?;
let cache_item: CacheItem<RegisterValue> = rmp_serde::from_slice(cache_entry.value())?;
info!("retrieved register for [{}] from hybrid cache", address.to_hex());
if cache_item.has_expired() {
let command = Box::new(
GetRegisterCommand::new(self.caching_client.get_client_harness().clone(), self.caching_client.get_hybrid_cache().clone(), address.clone(), self.caching_client.get_ant_tp_config().cached_mutable_ttl)
);
self.caching_client.send_get_command(command).await?;
}
Ok(cache_item.item.unwrap())
}
pub async fn register_history(&self, addr: &RegisterAddress) -> Result<RegisterHistory, RegisterError> {
Ok(self.caching_client.get_client_harness().get_ref().lock().await.get_client().await?.register_history(addr))
}
}*/