chore: separate to new crate

2024-08-30 18:12:39 +00:00 · 2024-07-03 22:44:59 +08:00 · 2024-07-03 22:44:59 +08:00 · ffc75106f3
commit ffc75106f3
parent e4f4a128be
23 changed files with 46 additions and 2142 deletions
--- a/frontend/rust-lib/Cargo.lock
+++ b/frontend/rust-lib/Cargo.lock
@ -194,6 +194,40 @@ dependencies = [
 "thiserror",
 ]
 [[package]]
 name = "appflowy-local-ai-chat"
 version = "0.1.0"
 source = "git+https://github.com/AppFlowy-IO/AppFlowy-LocalAI?rev=b7f51a3f#b7f51a3fe79142582d89c4e577ccd36957cc2c00"
 dependencies = [
 "anyhow",
 "appflowy-plugin",
 "bytes",
 "serde",
 "serde_json",
 "tokio",
 "tokio-stream",
 "tracing",
 ]
 [[package]]
 name = "appflowy-plugin"
 version = "0.1.0"
 source = "git+https://github.com/AppFlowy-IO/AppFlowy-LocalAI?rev=b7f51a3f#b7f51a3fe79142582d89c4e577ccd36957cc2c00"
 dependencies = [
 "anyhow",
 "cfg-if",
 "crossbeam-utils",
 "log",
 "once_cell",
 "parking_lot 0.12.1",
 "serde",
 "serde_json",
 "thiserror",
 "tokio",
 "tokio-stream",
 "tracing",
 ]
 [[package]]
 name = "arc-swap"
 version = "1.7.1"
@ -1667,6 +1701,8 @@ version = "0.1.0"
 dependencies = [
 "allo-isolate",
 "anyhow",
 "appflowy-local-ai-chat",
 "appflowy-plugin",
 "bytes",
 "dashmap",
 "dotenv",
@ -1675,7 +1711,6 @@ dependencies = [
 "flowy-derive",
 "flowy-error",
 "flowy-notification",
 "flowy-sidecar",
 "flowy-sqlite",
 "futures",
 "lib-dispatch",
@ -1963,7 +1998,6 @@ dependencies = [
 "fancy-regex 0.11.0",
 "flowy-codegen",
 "flowy-derive",
 "flowy-sidecar",
 "flowy-sqlite",
 "lib-dispatch",
 "protobuf",
@ -2154,24 +2188,6 @@ dependencies = [
 "serde_repr",
 ]
 [[package]]
 name = "flowy-sidecar"
 version = "0.1.0"
 dependencies = [
 "anyhow",
 "crossbeam-utils",
 "lib-infra",
 "log",
 "once_cell",
 "parking_lot 0.12.1",
 "serde",
 "serde_json",
 "thiserror",
 "tokio",
 "tokio-stream",
 "tracing",
 ]
 [[package]]
 name = "flowy-sqlite"
 version = "0.1.0"
--- a/frontend/rust-lib/Cargo.toml
+++ b/frontend/rust-lib/Cargo.toml
@ -32,7 +32,6 @@ members = [
    "flowy-chat",
    "flowy-chat-pub",
    "flowy-storage-pub",
    "flowy-sidecar",
 ]
 resolver = "2"
@ -68,7 +67,6 @@ collab-integrate = { workspace = true, path = "collab-integrate" }
 flowy-date = { workspace = true, path = "flowy-date" }
 flowy-chat = { workspace = true, path = "flowy-chat" }
 flowy-chat-pub = { workspace = true, path = "flowy-chat-pub" }
 flowy-sidecar = { workspace = true, path = "flowy-sidecar" }
 anyhow = "1.0"
 tracing = "0.1.40"
 bytes = "1.5.0"
@ -146,3 +144,6 @@ collab-document = { version = "0.2", git = "https://github.com/AppFlowy-IO/AppFl
 collab-database = { version = "0.2", git = "https://github.com/AppFlowy-IO/AppFlowy-Collab", rev = "3a58d95" }
 collab-plugins = { version = "0.2", git = "https://github.com/AppFlowy-IO/AppFlowy-Collab", rev = "3a58d95" }
 collab-user = { version = "0.2", git = "https://github.com/AppFlowy-IO/AppFlowy-Collab", rev = "3a58d95" }
 appflowy-local-ai-chat = { version = "0.1", git = "https://github.com/AppFlowy-IO/AppFlowy-LocalAI", rev = "b7f51a3f" }
 appflowy-plugin = { version = "0.1", git = "https://github.com/AppFlowy-IO/AppFlowy-LocalAI", rev = "b7f51a3f" }
--- a/frontend/rust-lib/flowy-chat/Cargo.toml
+++ b/frontend/rust-lib/flowy-chat/Cargo.toml
@ -12,7 +12,6 @@ flowy-error = { path = "../flowy-error", features = [
    "impl_from_dispatch_error",
    "impl_from_collab_folder",
    "impl_from_sqlite",
    "impl_from_sidecar"
 ] }
 lib-dispatch = { workspace = true }
 tracing.workspace = true
@ -29,12 +28,13 @@ tokio.workspace = true
 futures.workspace = true
 allo-isolate = { version = "^0.1", features = ["catch-unwind"] }
 log = "0.4.21"
 flowy-sidecar = { workspace = true, features = ["verbose"] }
 serde = { workspace = true, features = ["derive"] }
 serde_json = { workspace = true }
 anyhow = "1.0.86"
 tokio-stream = "0.1.15"
 parking_lot.workspace = true
 appflowy-local-ai-chat = { version = "0.1.0", features = ["verbose"] }
 appflowy-plugin = { version = "0.1.0", features = ["verbose"] }
 [dev-dependencies]
 dotenv = "0.15.0"
--- a/frontend/rust-lib/flowy-chat/src/chat_manager.rs
+++ b/frontend/rust-lib/flowy-chat/src/chat_manager.rs
@ -1,12 +1,12 @@
 use crate::chat::Chat;
 use crate::chat_service_impl::ChatService;
 use crate::entities::{ChatMessageListPB, ChatMessagePB, RepeatedRelatedQuestionPB};
 use crate::local_ai::llm_chat::{LocalChatLLMChat, LocalLLMSetting};
 use crate::persistence::{insert_chat, ChatTable};
 use appflowy_local_ai_chat::llm_chat::{LocalChatLLMChat, LocalLLMSetting};
 use appflowy_plugin::manager::SidecarManager;
 use dashmap::DashMap;
 use flowy_chat_pub::cloud::{ChatCloudService, ChatMessageType};
 use flowy_error::{FlowyError, FlowyResult};
 use flowy_sidecar::manager::SidecarManager;
 use flowy_sqlite::kv::KVStorePreferences;
 use flowy_sqlite::DBConnection;
 use lib_infra::util::timestamp;
--- a/frontend/rust-lib/flowy-chat/src/chat_service_impl.rs
+++ b/frontend/rust-lib/flowy-chat/src/chat_service_impl.rs
@ -1,6 +1,6 @@
 use crate::chat_manager::ChatUserService;
 use crate::local_ai::llm_chat::{LocalChatLLMChat, LocalLLMSetting};
 use crate::persistence::select_single_message;
 use appflowy_local_ai_chat::llm_chat::{LocalChatLLMChat, LocalLLMSetting};
 use flowy_chat_pub::cloud::{
  ChatCloudService, ChatMessage, ChatMessageType, CompletionType, MessageCursor,
  RepeatedChatMessage, RepeatedRelatedQuestion, StreamAnswer, StreamComplete,
@ -141,7 +141,7 @@ impl ChatCloudService for ChatService {
        .local_llm_chat
        .ask_question(chat_id, &content)
        .await?
-        .map_err(FlowyError::from);
+        .map_err(|err| FlowyError::local_ai().with_context(err));
      Ok(stream.boxed())
    } else {
      self
--- a/frontend/rust-lib/flowy-chat/src/entities.rs
+++ b/frontend/rust-lib/flowy-chat/src/entities.rs
@ -1,4 +1,4 @@
-use crate::local_ai::llm_chat::LocalLLMSetting;
+use appflowy_local_ai_chat::llm_chat::LocalLLMSetting;
 use flowy_chat_pub::cloud::{
  ChatMessage, RelatedQuestion, RepeatedChatMessage, RepeatedRelatedQuestion,
 };
--- a/frontend/rust-lib/flowy-chat/src/lib.rs
+++ b/frontend/rust-lib/flowy-chat/src/lib.rs
@ -5,7 +5,6 @@ mod chat;
 pub mod chat_manager;
 mod chat_service_impl;
 pub mod entities;
 pub mod local_ai;
 pub mod notification;
 mod persistence;
 mod protobuf;
--- a/frontend/rust-lib/flowy-chat/src/local_ai/chat_plugin.rs
+++ b/frontend/rust-lib/flowy-chat/src/local_ai/chat_plugin.rs
@ -1,128 +0,0 @@
 use anyhow::anyhow;
 use bytes::Bytes;
 use flowy_error::FlowyError;
 use flowy_sidecar::core::parser::{DefaultResponseParser, ResponseParser};
 use flowy_sidecar::core::plugin::Plugin;
 use flowy_sidecar::error::{RemoteError, SidecarError};
 use serde_json::json;
 use serde_json::Value as JsonValue;
 use std::sync::Weak;
 use tokio_stream::wrappers::ReceiverStream;
 use tracing::instrument;
 pub struct ChatPluginOperation {
  plugin: Weak<Plugin>,
 }
 impl ChatPluginOperation {
  pub fn new(plugin: Weak<Plugin>) -> Self {
    ChatPluginOperation { plugin }
  }
  fn get_plugin(&self) -> Result<std::sync::Arc<Plugin>, SidecarError> {
    self
      .plugin
      .upgrade()
      .ok_or_else(|| SidecarError::Internal(anyhow!("Plugin is dropped")))
  }
  async fn send_request<T: ResponseParser>(
    &self,
    method: &str,
    params: JsonValue,
  ) -> Result<T::ValueType, SidecarError> {
    let plugin = self.get_plugin()?;
    let mut request = json!({ "method": method });
    request
      .as_object_mut()
      .unwrap()
      .extend(params.as_object().unwrap().clone());
    plugin.async_request::<T>("handle", &request).await
  }
  pub async fn create_chat(&self, chat_id: &str) -> Result<(), SidecarError> {
    self
      .send_request::<DefaultResponseParser>("create_chat", json!({ "chat_id": chat_id }))
      .await
  }
  pub async fn close_chat(&self, chat_id: &str) -> Result<(), SidecarError> {
    self
      .send_request::<DefaultResponseParser>("close_chat", json!({ "chat_id": chat_id }))
      .await
  }
  pub async fn send_message(&self, chat_id: &str, message: &str) -> Result<String, SidecarError> {
    self
      .send_request::<ChatResponseParser>(
        "answer",
        json!({ "chat_id": chat_id, "params": { "content": message } }),
      )
      .await
  }
  #[instrument(level = "debug", skip(self), err)]
  pub async fn stream_message(
    &self,
    chat_id: &str,
    message: &str,
  ) -> Result<ReceiverStream<Result<Bytes, SidecarError>>, FlowyError> {
    let plugin = self
      .get_plugin()
      .map_err(|err| FlowyError::internal().with_context(err.to_string()))?;
    let params = json!({
        "chat_id": chat_id,
        "method": "stream_answer",
        "params": { "content": message }
    });
    plugin
      .stream_request::<ChatStreamResponseParser>("handle", &params)
      .map_err(|err| FlowyError::internal().with_context(err.to_string()))
  }
  pub async fn get_related_questions(&self, chat_id: &str) -> Result<Vec<JsonValue>, SidecarError> {
    self
      .send_request::<ChatRelatedQuestionsResponseParser>(
        "related_question",
        json!({ "chat_id": chat_id }),
      )
      .await
  }
 }
 pub struct ChatResponseParser;
 impl ResponseParser for ChatResponseParser {
  type ValueType = String;
  fn parse_json(json: JsonValue) -> Result<Self::ValueType, RemoteError> {
    json
      .get("data")
      .and_then(|data| data.as_str())
      .map(String::from)
      .ok_or(RemoteError::ParseResponse(json))
  }
 }
 pub struct ChatStreamResponseParser;
 impl ResponseParser for ChatStreamResponseParser {
  type ValueType = Bytes;
  fn parse_json(json: JsonValue) -> Result<Self::ValueType, RemoteError> {
    json
      .as_str()
      .map(|message| Bytes::from(message.to_string()))
      .ok_or(RemoteError::ParseResponse(json))
  }
 }
 pub struct ChatRelatedQuestionsResponseParser;
 impl ResponseParser for ChatRelatedQuestionsResponseParser {
  type ValueType = Vec<JsonValue>;
  fn parse_json(json: JsonValue) -> Result<Self::ValueType, RemoteError> {
    json
      .get("data")
      .and_then(|data| data.as_array()).cloned()
      .ok_or(RemoteError::ParseResponse(json))
  }
 }
--- a/frontend/rust-lib/flowy-chat/src/local_ai/embedding_plugin.rs
+++ b/frontend/rust-lib/flowy-chat/src/local_ai/embedding_plugin.rs
@ -1,62 +0,0 @@
 use anyhow::anyhow;
 use flowy_sidecar::core::parser::ResponseParser;
 use flowy_sidecar::core::plugin::Plugin;
 use flowy_sidecar::error::{RemoteError, SidecarError};
 use serde_json::json;
 use serde_json::Value as JsonValue;
 use std::sync::Weak;
 pub struct EmbeddingPluginOperation {
  plugin: Weak<Plugin>,
 }
 impl EmbeddingPluginOperation {
  pub fn new(plugin: Weak<Plugin>) -> Self {
    EmbeddingPluginOperation { plugin }
  }
  pub async fn get_embeddings(&self, message: &str) -> Result<Vec<Vec<f64>>, SidecarError> {
    let plugin = self
      .plugin
      .upgrade()
      .ok_or(SidecarError::Internal(anyhow!("Plugin is dropped")))?;
    let params = json!({"method": "get_embeddings", "params": {"input": message }});
    plugin
      .async_request::<EmbeddingResponseParse>("handle", &params)
      .await
  }
 }
 pub struct EmbeddingResponseParse;
 impl ResponseParser for EmbeddingResponseParse {
  type ValueType = Vec<Vec<f64>>;
  fn parse_json(json: JsonValue) -> Result<Self::ValueType, RemoteError> {
    if json.is_object() {
      if let Some(data) = json.get("data") {
        if let Some(embeddings) = data.get("embeddings") {
          if let Some(array) = embeddings.as_array() {
            let mut result = Vec::new();
            for item in array {
              if let Some(inner_array) = item.as_array() {
                let mut inner_result = Vec::new();
                for num in inner_array {
                  if let Some(value) = num.as_f64() {
                    inner_result.push(value);
                  } else {
                    return Err(RemoteError::ParseResponse(json));
                  }
                }
                result.push(inner_result);
              } else {
                return Err(RemoteError::ParseResponse(json));
              }
            }
            return Ok(result);
          }
        }
      }
    }
    Err(RemoteError::ParseResponse(json))
  }
 }
--- a/frontend/rust-lib/flowy-chat/src/local_ai/llm_chat.rs
+++ b/frontend/rust-lib/flowy-chat/src/local_ai/llm_chat.rs
@ -1,344 +0,0 @@
 use crate::local_ai::chat_plugin::ChatPluginOperation;
 use bytes::Bytes;
 use flowy_error::{FlowyError, FlowyResult};
 use flowy_sidecar::core::plugin::{Plugin, PluginId, PluginInfo};
 use flowy_sidecar::error::SidecarError;
 use flowy_sidecar::manager::SidecarManager;
 use lib_infra::util::{get_operating_system, OperatingSystem};
 use log::error;
 use serde::{Deserialize, Serialize};
 use std::path::PathBuf;
 use std::sync::{Arc, Weak};
 use std::time::Duration;
 use tokio::sync::RwLock;
 use tokio::time::timeout;
 use tokio_stream::wrappers::ReceiverStream;
 use tracing::{info, instrument, trace};
 #[derive(Debug, Clone, Serialize, Deserialize, Default)]
 pub struct LocalLLMSetting {
  pub chat_bin_path: String,
  pub chat_model_path: String,
  pub enabled: bool,
 }
 impl LocalLLMSetting {
  pub fn validate(&self) -> FlowyResult<()> {
    ChatPluginConfig::new(&self.chat_bin_path, &self.chat_model_path)?;
    Ok(())
  }
  pub fn chat_config(&self) -> FlowyResult<ChatPluginConfig> {
    let config = ChatPluginConfig::new(&self.chat_bin_path, &self.chat_model_path)?;
    Ok(config)
  }
 }
 pub struct LocalChatLLMChat {
  sidecar_manager: Arc<SidecarManager>,
  state: RwLock<LLMState>,
  state_notify: tokio::sync::broadcast::Sender<LLMState>,
  plugin_config: RwLock<Option<ChatPluginConfig>>,
 }
 impl LocalChatLLMChat {
  pub fn new(sidecar_manager: Arc<SidecarManager>) -> Self {
    let (state_notify, _) = tokio::sync::broadcast::channel(10);
    Self {
      sidecar_manager,
      state: RwLock::new(LLMState::Loading),
      state_notify,
      plugin_config: Default::default(),
    }
  }
  async fn update_state(&self, state: LLMState) {
    *self.state.write().await = state.clone();
    let _ = self.state_notify.send(state);
  }
  /// Waits for the plugin to be ready.
  ///
  /// The wait_plugin_ready method is an asynchronous function designed to ensure that the chat
  /// plugin is in a ready state before allowing further operations. This is crucial for maintaining
  /// the correct sequence of operations and preventing errors that could occur if operations are
  /// attempted on an unready plugin.
  ///
  /// # Returns
  ///
  /// A `FlowyResult<()>` indicating success or failure.
  async fn wait_plugin_ready(&self) -> FlowyResult<()> {
    let is_loading = self.state.read().await.is_loading();
    if !is_loading {
      return Ok(());
    }
    info!("[Chat Plugin] wait for chat plugin to be ready");
    let mut rx = self.state_notify.subscribe();
    let timeout_duration = Duration::from_secs(30);
    let result = timeout(timeout_duration, async {
      while let Ok(state) = rx.recv().await {
        if state.is_ready() {
          break;
        }
      }
    })
    .await;
    match result {
      Ok(_) => {
        trace!("[Chat Plugin] chat plugin is ready");
        Ok(())
      },
      Err(_) => Err(
        FlowyError::local_ai().with_context("Timeout while waiting for chat plugin to be ready"),
      ),
    }
  }
  /// Retrieves the chat plugin.
  ///
  /// # Returns
  ///
  /// A `FlowyResult<Weak<Plugin>>` containing a weak reference to the plugin.
  async fn get_chat_plugin(&self) -> FlowyResult<Weak<Plugin>> {
    let plugin_id = self.state.read().await.plugin_id()?;
    let plugin = self.sidecar_manager.get_plugin(plugin_id).await?;
    Ok(plugin)
  }
  /// Creates a new chat session.
  ///
  /// # Arguments
  ///
  /// * `chat_id` - A string slice containing the unique identifier for the chat session.
  ///
  /// # Returns
  ///
  /// A `FlowyResult<()>` indicating success or failure.
  pub async fn create_chat(&self, chat_id: &str) -> FlowyResult<()> {
    trace!("[Chat Plugin] create chat: {}", chat_id);
    self.wait_plugin_ready().await?;
    let plugin = self.get_chat_plugin().await?;
    let operation = ChatPluginOperation::new(plugin);
    operation.create_chat(chat_id).await?;
    Ok(())
  }
  /// Closes an existing chat session.
  ///
  /// # Arguments
  ///
  /// * `chat_id` - A string slice containing the unique identifier for the chat session to close.
  ///
  /// # Returns
  ///
  /// A `FlowyResult<()>` indicating success or failure.
  pub async fn close_chat(&self, chat_id: &str) -> FlowyResult<()> {
    trace!("[Chat Plugin] close chat: {}", chat_id);
    let plugin = self.get_chat_plugin().await?;
    let operation = ChatPluginOperation::new(plugin);
    operation.close_chat(chat_id).await?;
    Ok(())
  }
  /// Asks a question and returns a stream of responses.
  ///
  /// # Arguments
  ///
  /// * `chat_id` - A string slice containing the unique identifier for the chat session.
  /// * `message` - A string slice containing the question or message to send.
  ///
  /// # Returns
  ///
  /// A `FlowyResult<ReceiverStream<anyhow::Result<Bytes, SidecarError>>>` containing a stream of responses.
  pub async fn ask_question(
    &self,
    chat_id: &str,
    message: &str,
  ) -> FlowyResult<ReceiverStream<anyhow::Result<Bytes, SidecarError>>> {
    trace!("[Chat Plugin] ask question: {}", message);
    self.wait_plugin_ready().await?;
    let plugin = self.get_chat_plugin().await?;
    let operation = ChatPluginOperation::new(plugin);
    let stream = operation.stream_message(chat_id, message).await?;
    Ok(stream)
  }
  /// Generates a complete answer for a given message.
  ///
  /// # Arguments
  ///
  /// * `chat_id` - A string slice containing the unique identifier for the chat session.
  /// * `message` - A string slice containing the message to generate an answer for.
  ///
  /// # Returns
  ///
  /// A `FlowyResult<String>` containing the generated answer.
  pub async fn generate_answer(&self, chat_id: &str, message: &str) -> FlowyResult<String> {
    let plugin = self.get_chat_plugin().await?;
    let operation = ChatPluginOperation::new(plugin);
    let answer = operation.send_message(chat_id, message).await?;
    Ok(answer)
  }
  #[instrument(skip_all, err)]
  pub async fn destroy_chat_plugin(&self) -> FlowyResult<()> {
    if let Ok(plugin_id) = self.state.read().await.plugin_id() {
      if let Err(err) = self.sidecar_manager.remove_plugin(plugin_id).await {
        error!("remove plugin failed: {:?}", err);
      }
    }
    self.update_state(LLMState::Uninitialized).await;
    Ok(())
  }
  #[instrument(skip_all, err)]
  pub async fn init_chat_plugin(&self, config: ChatPluginConfig) -> FlowyResult<()> {
    if self.state.read().await.is_ready() {
      if let Some(existing_config) = self.plugin_config.read().await.as_ref() {
        if existing_config == &config {
          trace!("[Chat Plugin] chat plugin already initialized with the same config");
          return Ok(());
        } else {
          trace!(
            "[Chat Plugin] existing config: {:?}, new config:{:?}",
            existing_config,
            config
          );
        }
      }
    }
    let system = get_operating_system();
    // Initialize chat plugin if the config is different
    // If the chat_bin_path is different, remove the old plugin
    if let Err(err) = self.destroy_chat_plugin().await {
      error!("[Chat Plugin] failed to destroy plugin: {:?}", err);
    }
    self.update_state(LLMState::Loading).await;
    // create new plugin
    trace!("[Chat Plugin] create chat plugin: {:?}", config);
    let plugin_info = PluginInfo {
      name: "chat_plugin".to_string(),
      exec_path: config.chat_bin_path.clone(),
    };
    let plugin_id = self.sidecar_manager.create_plugin(plugin_info).await?;
    // init plugin
    trace!("[Chat Plugin] init chat plugin model: {:?}", plugin_id);
    let model_path = config.chat_model_path.clone();
    let params = match system {
      OperatingSystem::Windows => {
        serde_json::json!({
          "absolute_chat_model_path": model_path,
          "device": "cpu",
        })
      },
      OperatingSystem::Linux => {
        serde_json::json!({
          "absolute_chat_model_path": model_path,
          "device": "cpu",
        })
      },
      OperatingSystem::MacOS => {
        serde_json::json!({
          "absolute_chat_model_path": model_path,
          "device": "gpu",
        })
      },
      _ => {
        return Err(FlowyError::local_ai().with_context("Unsupported operating system"));
      },
    };
    info!(
      "[Chat Plugin] setup chat plugin: {:?}, params: {:?}",
      plugin_id, params
    );
    let plugin = self.sidecar_manager.init_plugin(plugin_id, params)?;
    info!("[Chat Plugin] {} setup success", plugin);
    self.plugin_config.write().await.replace(config);
    self.update_state(LLMState::Ready { plugin_id }).await;
    Ok(())
  }
 }
 #[derive(Eq, PartialEq, Debug, Clone)]
 pub struct ChatPluginConfig {
  chat_bin_path: PathBuf,
  chat_model_path: PathBuf,
 }
 impl ChatPluginConfig {
  pub fn new(chat_bin: &str, chat_model_path: &str) -> FlowyResult<Self> {
    let chat_bin_path = PathBuf::from(chat_bin);
    if !chat_bin_path.exists() {
      return Err(FlowyError::invalid_data().with_context(format!(
        "Chat binary path does not exist: {:?}",
        chat_bin_path
      )));
    }
    if !chat_bin_path.is_file() {
      return Err(FlowyError::invalid_data().with_context(format!(
        "Chat binary path is not a file: {:?}",
        chat_bin_path
      )));
    }
    // Check if local_model_dir exists and is a directory
    let chat_model_path = PathBuf::from(&chat_model_path);
    if !chat_model_path.exists() {
      return Err(
        FlowyError::invalid_data()
          .with_context(format!("Local model does not exist: {:?}", chat_model_path)),
      );
    }
    if !chat_model_path.is_file() {
      return Err(
        FlowyError::invalid_data()
          .with_context(format!("Local model is not a file: {:?}", chat_model_path)),
      );
    }
    Ok(Self {
      chat_bin_path,
      chat_model_path,
    })
  }
 }
 #[derive(Debug, Clone)]
 pub enum LLMState {
  Uninitialized,
  Loading,
  Ready { plugin_id: PluginId },
 }
 impl LLMState {
  fn plugin_id(&self) -> FlowyResult<PluginId> {
    match self {
      LLMState::Ready { plugin_id } => Ok(*plugin_id),
      _ => Err(FlowyError::local_ai().with_context("chat plugin is not ready")),
    }
  }
  fn is_loading(&self) -> bool {
    matches!(self, LLMState::Loading)
  }
  #[allow(dead_code)]
  fn is_uninitialized(&self) -> bool {
    matches!(self, LLMState::Uninitialized)
  }
  fn is_ready(&self) -> bool {
    let system = get_operating_system();
    if system.is_desktop() {
      return matches!(self, LLMState::Ready { .. });
    } else {
      false
    }
  }
 }
--- a/frontend/rust-lib/flowy-chat/src/local_ai/mod.rs
+++ b/frontend/rust-lib/flowy-chat/src/local_ai/mod.rs
@ -1,4 +0,0 @@
 pub mod chat_plugin;
 pub mod llm_chat;
 pub mod embedding_plugin;
--- a/frontend/rust-lib/flowy-error/Cargo.toml
+++ b/frontend/rust-lib/flowy-error/Cargo.toml
@ -33,7 +33,6 @@ collab-plugins = { workspace = true, optional = true }
 collab-folder = { workspace = true, optional = true }
 client-api = { workspace = true, optional = true }
 tantivy = { version = "0.21.1", optional = true }
 flowy-sidecar = { workspace = true, optional = true }
 [features]
 impl_from_dispatch_error = ["lib-dispatch"]
@ -49,7 +48,6 @@ impl_from_collab_folder = ["collab-folder"]
 impl_from_collab_database = ["collab-database"]
 impl_from_url = ["url"]
 impl_from_tantivy = ["tantivy"]
 impl_from_sidecar = ["flowy-sidecar"]
 impl_from_sqlite = ["flowy-sqlite", "r2d2"]
 impl_from_appflowy_cloud = ["client-api"]
--- a/frontend/rust-lib/flowy-error/src/impl_from/sidecar.rs
+++ b/frontend/rust-lib/flowy-error/src/impl_from/sidecar.rs
@ -1,8 +0,0 @@
 use crate::{ErrorCode, FlowyError};
 use flowy_sidecar::error::SidecarError;
 impl std::convert::From<SidecarError> for FlowyError {
  fn from(error: SidecarError) -> Self {
    FlowyError::new(ErrorCode::LocalAIError, error)
  }
 }
--- a/frontend/rust-lib/flowy-sidecar/Cargo.toml
+++ b/frontend/rust-lib/flowy-sidecar/Cargo.toml
@ -1,23 +0,0 @@
 [package]
 name = "flowy-sidecar"
 version = "0.1.0"
 edition = "2021"
 # See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
 [dependencies]
 anyhow = { version = "1.0" }
 serde = { version = "1.0", features = ["derive"] }
 tokio = { version = "1.0", features = ["full"] }
 once_cell = "1.19.0"
 thiserror = "1.0"
 serde_json = "1.0.117"
 tracing.workspace = true
 crossbeam-utils = "0.8.20"
 log = "0.4.21"
 parking_lot.workspace = true
 tokio-stream = "0.1.15"
 lib-infra.workspace = true
 [features]
 verbose = []
--- a/frontend/rust-lib/flowy-sidecar/src/core/mod.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/core/mod.rs
@ -1,5 +0,0 @@
 pub mod parser;
 pub mod plugin;
 pub mod rpc_loop;
 mod rpc_object;
 pub mod rpc_peer;
--- a/frontend/rust-lib/flowy-sidecar/src/core/parser.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/core/parser.rs
@ -1,71 +0,0 @@
 use crate::core::rpc_object::RpcObject;
 use crate::error::{ReadError, RemoteError};
 use serde_json::{json, Value as JsonValue};
 use std::io::BufRead;
 #[derive(Debug, Default)]
 pub struct MessageReader(String);
 impl MessageReader {
  /// Attempts to read the next line from the stream and parse it as
  /// an RPC object.
  ///
  /// # Errors
  ///
  /// This function will return an error if there is an underlying
  /// I/O error, if the stream is closed, or if the message is not
  /// a valid JSON object.
  pub fn next<R: BufRead>(&mut self, reader: &mut R) -> Result<RpcObject, ReadError> {
    self.0.clear();
    let _ = reader.read_line(&mut self.0)?;
    if self.0.is_empty() {
      Err(ReadError::Disconnect("Empty line".to_string()))
    } else {
      self.parse(&self.0)
    }
  }
  /// Attempts to parse a &str as an RPC Object.
  ///
  /// This should not be called directly unless you are writing tests.
  #[doc(hidden)]
  pub fn parse(&self, s: &str) -> Result<RpcObject, ReadError> {
    match serde_json::from_str::<JsonValue>(s) {
      Ok(val) => {
        if !val.is_object() {
          Err(ReadError::NotObject(s.to_string()))
        } else {
          Ok(val.into())
        }
      },
      Err(_) => Ok(RpcObject(json!({"message": s.to_string()}))),
    }
  }
 }
 pub type RequestId = u64;
 #[derive(Debug, Clone)]
 /// An RPC call, which may be either a notification or a request.
 pub enum Call<R> {
  Message(JsonValue),
  /// An id and an RPC Request
  Request(RequestId, R),
  /// A malformed request: the request contained an id, but could
  /// not be parsed. The client will receive an error.
  InvalidRequest(RequestId, RemoteError),
 }
 pub trait ResponseParser {
  type ValueType: Send + Sync + 'static;
  fn parse_json(payload: JsonValue) -> Result<Self::ValueType, RemoteError>;
 }
 pub struct DefaultResponseParser;
 impl ResponseParser for DefaultResponseParser {
  type ValueType = ();
  fn parse_json(_payload: JsonValue) -> Result<Self::ValueType, RemoteError> {
    Ok(())
  }
 }
--- a/frontend/rust-lib/flowy-sidecar/src/core/plugin.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/core/plugin.rs
@ -1,205 +0,0 @@
 use crate::error::SidecarError;
 use crate::manager::WeakSidecarState;
 use std::fmt::{Display, Formatter};
 use crate::core::parser::ResponseParser;
 use crate::core::rpc_loop::RpcLoop;
 use crate::core::rpc_peer::{CloneableCallback, OneShotCallback};
 use anyhow::anyhow;
 use serde::{Deserialize, Serialize};
 use serde_json::{json, Value as JsonValue};
 use std::io::BufReader;
 use std::path::PathBuf;
 use std::process::{Child, Stdio};
 use std::sync::Arc;
 use std::thread;
 use std::time::Instant;
 use tokio_stream::wrappers::ReceiverStream;
 use tracing::{error, info};
 #[derive(
  Default, Debug, Clone, Copy, Hash, PartialEq, Eq, PartialOrd, Ord, Serialize, Deserialize,
 )]
 pub struct PluginId(pub(crate) i64);
 impl From<i64> for PluginId {
  fn from(id: i64) -> Self {
    PluginId(id)
  }
 }
 /// The `Peer` trait defines the interface for the opposite side of the RPC channel,
 /// designed to be used behind a pointer or as a trait object.
 pub trait Peer: Send + Sync + 'static {
  /// Clones the peer into a boxed trait object.
  fn box_clone(&self) -> Arc<dyn Peer>;
  /// Sends an RPC notification to the peer with the specified method and parameters.
  fn send_rpc_notification(&self, method: &str, params: &JsonValue);
  fn stream_rpc_request(&self, method: &str, params: &JsonValue, f: CloneableCallback);
  fn async_send_rpc_request(&self, method: &str, params: &JsonValue, f: Box<dyn OneShotCallback>);
  /// Sends a synchronous RPC request to the peer and waits for the result.
  /// Returns the result of the request or an error.
  fn send_rpc_request(&self, method: &str, params: &JsonValue) -> Result<JsonValue, SidecarError>;
  /// Checks if there is an incoming request pending, intended to reduce latency for bulk operations done in the background.
  fn request_is_pending(&self) -> bool;
  /// Schedules a timer to execute the handler's `idle` function after the specified `Instant`.
  /// Note: This is not a high-fidelity timer. Regular RPC messages will always take priority over idle tasks.
  fn schedule_timer(&self, after: Instant, token: usize);
 }
 /// The `Peer` trait object.
 pub type RpcPeer = Arc<dyn Peer>;
 pub struct RpcCtx {
  pub peer: RpcPeer,
 }
 #[derive(Clone)]
 pub struct Plugin {
  peer: RpcPeer,
  pub(crate) id: PluginId,
  pub(crate) name: String,
  #[allow(dead_code)]
  pub(crate) process: Arc<Child>,
 }
 impl Display for Plugin {
  fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
    write!(
      f,
      "{}, plugin id: {:?}, process id: {}",
      self.name,
      self.id,
      self.process.id()
    )
  }
 }
 impl Plugin {
  pub fn initialize(&self, value: JsonValue) -> Result<(), SidecarError> {
    self.peer.send_rpc_request("initialize", &value)?;
    Ok(())
  }
  pub fn request(&self, method: &str, params: &JsonValue) -> Result<JsonValue, SidecarError> {
    self.peer.send_rpc_request(method, params)
  }
  pub async fn async_request<P: ResponseParser>(
    &self,
    method: &str,
    params: &JsonValue,
  ) -> Result<P::ValueType, SidecarError> {
    let (tx, rx) = tokio::sync::oneshot::channel();
    self.peer.async_send_rpc_request(
      method,
      params,
      Box::new(move |result| {
        let _ = tx.send(result);
      }),
    );
    let value = rx.await.map_err(|err| {
      SidecarError::Internal(anyhow!("error waiting for async response: {:?}", err))
    })??;
    let value = P::parse_json(value)?;
    Ok(value)
  }
  pub fn stream_request<P: ResponseParser>(
    &self,
    method: &str,
    params: &JsonValue,
  ) -> Result<ReceiverStream<Result<P::ValueType, SidecarError>>, SidecarError> {
    let (tx, stream) = tokio::sync::mpsc::channel(100);
    let stream = ReceiverStream::new(stream);
    let callback = CloneableCallback::new(move |result| match result {
      Ok(json) => {
        let result = P::parse_json(json).map_err(SidecarError::from);
        let _ = tx.blocking_send(result);
      },
      Err(err) => {
        let _ = tx.blocking_send(Err(err));
      },
    });
    self.peer.stream_rpc_request(method, params, callback);
    Ok(stream)
  }
  pub fn shutdown(&self) {
    match self.peer.send_rpc_request("shutdown", &json!({})) {
      Ok(_) => {
        info!("shutting down plugin {}", self);
      },
      Err(err) => {
        error!("error sending shutdown to plugin {}: {:?}", self, err);
      },
    }
  }
 }
 pub struct PluginInfo {
  pub name: String,
  pub exec_path: PathBuf,
 }
 pub(crate) async fn start_plugin_process(
  plugin_info: PluginInfo,
  id: PluginId,
  state: WeakSidecarState,
 ) -> Result<(), anyhow::Error> {
  let (tx, rx) = tokio::sync::oneshot::channel();
  let spawn_result = thread::Builder::new()
    .name(format!("<{}> core host thread", &plugin_info.name))
    .spawn(move || {
      info!("Load {} plugin", &plugin_info.name);
      let child = std::process::Command::new(&plugin_info.exec_path)
        .stdin(Stdio::piped())
        .stdout(Stdio::piped())
        .spawn();
      match child {
        Ok(mut child) => {
          let child_stdin = child.stdin.take().unwrap();
          let child_stdout = child.stdout.take().unwrap();
          let mut looper = RpcLoop::new(child_stdin);
          let peer: RpcPeer = Arc::new(looper.get_raw_peer());
          let name = plugin_info.name.clone();
          peer.send_rpc_notification("ping", &JsonValue::Array(Vec::new()));
          let plugin = Plugin {
            peer,
            process: Arc::new(child),
            name,
            id,
          };
          state.plugin_connect(Ok(plugin));
          let _ = tx.send(());
          let mut state = state;
          let err = looper.mainloop(
            &plugin_info.name,
            || BufReader::new(child_stdout),
            &mut state,
          );
          state.plugin_exit(id, err);
        },
        Err(err) => {
          let _ = tx.send(());
          state.plugin_connect(Err(err))
        },
      }
    });
  if let Err(err) = spawn_result {
    error!("[RPC] thread spawn failed for {:?}, {:?}", id, err);
    return Err(err.into());
  }
  rx.await?;
  Ok(())
 }
--- a/frontend/rust-lib/flowy-sidecar/src/core/rpc_loop.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/core/rpc_loop.rs
@ -1,271 +0,0 @@
 use crate::core::parser::{Call, MessageReader};
 use crate::core::plugin::RpcCtx;
 use crate::core::rpc_object::RpcObject;
 use crate::core::rpc_peer::{RawPeer, ResponsePayload, RpcState};
 use crate::error::{ReadError, RemoteError, SidecarError};
 use serde::de::DeserializeOwned;
 use std::io::{BufRead, Write};
 use std::sync::Arc;
 use std::thread;
 use std::time::Duration;
 use tracing::{error, trace};
 const MAX_IDLE_WAIT: Duration = Duration::from_millis(5);
 pub trait Handler {
  type Request: DeserializeOwned;
  fn handle_request(
    &mut self,
    ctx: &RpcCtx,
    rpc: Self::Request,
  ) -> Result<ResponsePayload, RemoteError>;
  #[allow(unused_variables)]
  fn idle(&mut self, ctx: &RpcCtx, token: usize) {}
 }
 /// A helper type which shuts down the runloop if a panic occurs while
 /// handling an RPC.
 struct PanicGuard<'a, W: Write + 'static>(&'a RawPeer<W>);
 impl<'a, W: Write + 'static> Drop for PanicGuard<'a, W> {
  /// Implements the cleanup behavior when the guard is dropped.
  ///
  /// This method is automatically called when the `PanicGuard` goes out of scope.
  /// It checks if a panic is occurring and, if so, logs an error message and
  /// disconnects the peer.
  fn drop(&mut self) {
    // - If no panic is occurring, this method does nothing.
    // - If a panic is detected:
    //   1. An error message is logged.
    //   2. The `disconnect()` method is called on the peer.
    if thread::panicking() {
      error!("[RPC] panic guard hit, closing run loop");
      self.0.disconnect();
    }
  }
 }
 /// A structure holding the state of a main loop for handling RPC's.
 pub struct RpcLoop<W: Write + 'static> {
  reader: MessageReader,
  peer: RawPeer<W>,
 }
 impl<W: Write + Send> RpcLoop<W> {
  /// Creates a new `RpcLoop` with the given output stream (which is used for
  /// sending requests and notifications, as well as responses).
  pub fn new(writer: W) -> Self {
    let rpc_peer = RawPeer(Arc::new(RpcState::new(writer)));
    RpcLoop {
      reader: MessageReader::default(),
      peer: rpc_peer,
    }
  }
  /// Gets a reference to the peer.
  pub fn get_raw_peer(&self) -> RawPeer<W> {
    self.peer.clone()
  }
  /// Starts the event loop, reading lines from the reader until EOF or an error occurs.
  ///
  /// Returns `Ok()` if EOF is reached, otherwise returns the underlying `ReadError`.
  ///
  /// # Note:
  /// The reader is provided via a closure to avoid needing `Send`. The main loop runs on a separate I/O thread that calls this closure at startup.
  /// Calls to the handler occur on the caller's thread and maintain the order from the channel. Currently, there can only be one outstanding incoming request.
  /// Starts and manages the main event loop for processing RPC messages.
  ///
  /// This function is the core of the RPC system, handling incoming messages,
  /// dispatching requests to the appropriate handler, and managing the overall
  /// lifecycle of the RPC communication.
  ///
  /// # Arguments
  ///
  /// * `&mut self` - A mutable reference to the `RpcLoop` instance.
  /// * `_plugin_name: &str` - The name of the plugin (currently unused in the function body).
  /// * `buffer_read_fn: BufferReadFn` - A closure that returns a `BufRead` instance for reading input.
  /// * `handler: &mut H` - A mutable reference to the handler implementing the `Handler` trait.
  ///
  /// # Type Parameters
  ///
  /// * `R: BufRead` - The type returned by `buffer_read_fn`, must implement `BufRead`.
  /// * `BufferReadFn: Send + FnOnce() -> R` - The type of the closure that provides the input reader.
  /// * `H: Handler` - The type of the handler, must implement the `Handler` trait.
  ///
  /// # Returns
  ///
  /// * `Result<(), ReadError>` - Returns `Ok(())` if the loop exits normally (EOF),
  ///   or an error if an unrecoverable error occurs.
  ///
  /// # Behavior
  ///
  /// 1. Creates a new `RpcCtx` with a clone of the `RawPeer`.
  /// 2. Spawns a separate thread for reading input using `crossbeam_utils::thread::scope`.
  /// 3. In the reading thread:
  ///    - Continuously reads and parses JSON messages from the input.
  ///    - Handles responses by calling `handle_response` on the peer.
  ///    - Puts other messages into the peer's queue using `put_rpc_object`.
  /// 4. In the main thread:
  ///    - Retrieves messages using `next_read`.
  ///    - Processes requests by calling the handler's `handle_request` method.
  ///    - Sends responses back using the peer's `respond` method.
  /// 5. Continues looping until an error occurs or the peer is disconnected.
  pub fn mainloop<R, BufferReadFn, H>(
    &mut self,
    _plugin_name: &str,
    buffer_read_fn: BufferReadFn,
    handler: &mut H,
  ) -> Result<(), ReadError>
  where
    R: BufRead,
    BufferReadFn: Send + FnOnce() -> R,
    H: Handler,
  {
    // uses `crossbeam_utils::thread::scope` for thread management,
    // which offers several advantages over `std::thread`:
    // 1. Scoped Threads: Guarantees thread termination when the scope ends,
    //    preventing resource leaks.
    // 2. Simplified Lifetime Management: Allows threads to borrow data from
    //    their parent stack frame, enabling more ergonomic code.
    // 3. Improved Safety: Prevents threads from outliving the data they operate on,
    //    reducing risks of data races and use-after-free errors.
    // 4. Efficiency: Potentially more efficient due to known thread lifetimes,
    //    leading to better resource management.
    // 5. Error Propagation: Simplifies propagating errors from spawned threads
    //    back to the parent thread.
    // 6. Consistency with Rust's Ownership Model: Aligns well with Rust's
    //    ownership and borrowing rules.
    // 7. Automatic Thread Joining: No need for manual thread joining, reducing
    //    the risk of thread management errors.
    let exit = crossbeam_utils::thread::scope(|scope| {
      let peer = self.get_raw_peer();
      peer.reset_needs_exit();
      let ctx = RpcCtx {
        peer: Arc::new(peer.clone()),
      };
      // 1. Spawn a new thread for reading data from a stream.
      // 2. Continuously read data from the stream.
      // 3. Parse the data as JSON.
      // 4. Handle the JSON data as either a response or another type of JSON object.
      // 5. Manage errors and connection status.
      scope.spawn(move |_| {
        let mut stream = buffer_read_fn();
        loop {
          if self.peer.needs_exit() {
            trace!("read loop exit");
            break;
          }
          let json = match self.reader.next(&mut stream) {
            Ok(json) => json,
            Err(err) => {
              if self.peer.0.is_blocking() {
                error!("[RPC] {:?}, disconnecting peer", err);
                self.peer.disconnect();
              }
              self.peer.put_rpc_object(Err(err));
              break;
            },
          };
          if json.is_response() {
            let request_id = json.get_id().unwrap();
            match json.into_response() {
              Ok(resp) => {
                let resp = resp.map_err(SidecarError::from);
                self.peer.handle_response(request_id, resp);
              },
              Err(msg) => {
                error!("[RPC] failed to parse response: {}", msg);
                self
                  .peer
                  .handle_response(request_id, Err(SidecarError::InvalidResponse));
              },
            }
          } else {
            self.peer.put_rpc_object(Ok(json));
          }
        }
      });
      // Main processing loop
      loop {
        // `PanicGuard` is a critical safety mechanism in the RPC system. It's designed to detect
        // panics that occur during RPC request handling and ensure that the system shuts down
        // gracefully, preventing resource leaks and maintaining system integrity.
        //
        let _guard = PanicGuard(&peer);
        let read_result = next_read(&peer, &ctx);
        let json = match read_result {
          Ok(json) => json,
          Err(err) => {
            error!("[RPC] error reading message: {:?}, disconnecting peer", err);
            peer.disconnect();
            return err;
          },
        };
        match json.into_rpc::<H::Request>() {
          Ok(Call::Request(id, cmd)) => {
            // Handle request sent from the client. For example from python executable.
            trace!("[RPC] received request: {}", id);
            let result = handler.handle_request(&ctx, cmd);
            peer.respond(result, id);
          },
          Ok(Call::InvalidRequest(id, err)) => {
            trace!("[RPC] received invalid request: {}", id);
            peer.respond(Err(err), id)
          },
          Err(err) => {
            error!("[RPC] error parsing message: {:?}", err);
            peer.disconnect();
            return ReadError::UnknownRequest(err);
          },
          Ok(Call::Message(_msg)) => {
            #[cfg(feature = "verbose")]
            trace!("[RPC {}]: {}", _plugin_name, _msg);
          },
        }
      }
    })
    .unwrap();
    if exit.is_disconnect() {
      Ok(())
    } else {
      Err(exit)
    }
  }
 }
 /// retrieves the next available read result from a peer, performing idle work if no result is
 /// immediately available.
 fn next_read<W>(peer: &RawPeer<W>, _ctx: &RpcCtx) -> Result<RpcObject, ReadError>
 where
  W: Write + Send,
 {
  loop {
    // Continuously checks if there is a result available from the peer using
    if let Some(result) = peer.try_get_rx() {
      return result;
    }
    let time_to_next_timer = match peer.check_timers() {
      Some(Ok(_token)) => continue,
      Some(Err(duration)) => Some(duration),
      None => None,
    };
    // Ensures the function does not block indefinitely by setting a maximum wait time
    let idle_timeout = time_to_next_timer
      .unwrap_or(MAX_IDLE_WAIT)
      .min(MAX_IDLE_WAIT);
    if let Some(result) = peer.get_rx_timeout(idle_timeout) {
      return result;
    }
  }
 }
--- a/frontend/rust-lib/flowy-sidecar/src/core/rpc_object.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/core/rpc_object.rs
@ -1,111 +0,0 @@
 use crate::core::parser::{Call, RequestId};
 use crate::core::rpc_peer::{Response, ResponsePayload};
 use serde::de::{DeserializeOwned, Error};
 use serde_json::Value;
 #[derive(Debug, Clone)]
 pub struct RpcObject(pub Value);
 impl RpcObject {
  /// Returns the 'id' of the underlying object, if present.
  pub fn get_id(&self) -> Option<RequestId> {
    self.0.get("id").and_then(Value::as_u64)
  }
  /// Returns the 'method' field of the underlying object, if present.
  pub fn get_method(&self) -> Option<&str> {
    self.0.get("method").and_then(Value::as_str)
  }
  /// Returns `true` if this object looks like an RPC response;
  /// that is, if it has an 'id' field and does _not_ have a 'method'
  /// field.
  pub fn is_response(&self) -> bool {
    self.0.get("id").is_some() && self.0.get("method").is_none()
  }
  /// Converts a JSON-RPC response into a structured `Response` object.
  ///
  /// This function validates and parses a JSON-RPC response, ensuring it contains the necessary fields,
  /// and then transforms it into a structured `Response` object. The response must contain either a
  /// "result" or an "error" field, but not both. If the response contains a "result" field, it may also
  /// include streaming data, indicated by a nested "stream" field.
  ///
  /// # Errors
  ///
  /// This function will return an error if:
  /// - The "id" field is missing.
  /// - The response contains both "result" and "error" fields, or neither.
  /// - The "stream" field within the "result" is missing "type" or "data" fields.
  /// - The "stream" type is invalid (i.e., not "streaming" or "end").
  ///
  /// # Returns
  ///
  /// - `Ok(Ok(ResponsePayload::Json(result)))`: If the response contains a valid "result".
  /// - `Ok(Ok(ResponsePayload::Streaming(data)))`: If the response contains streaming data of type "streaming".
  /// - `Ok(Ok(ResponsePayload::StreamEnd(json!({}))))`: If the response contains streaming data of type "end".
  /// - `Err(String)`: If any validation or parsing errors occur.
  ///.
  pub fn into_response(mut self) -> Result<Response, String> {
    // Ensure 'id' field is present
    self
      .get_id()
      .ok_or_else(|| "Response requires 'id' field.".to_string())?;
    // Ensure the response contains exactly one of 'result' or 'error'
    let has_result = self.0.get("result").is_some();
    let has_error = self.0.get("error").is_some();
    if has_result == has_error {
      return Err("RPC response must contain exactly one of 'error' or 'result' fields.".into());
    }
    // Handle the 'result' field if present
    if let Some(mut result) = self.0.as_object_mut().and_then(|obj| obj.remove("result")) {
      if let Some(mut stream) = result.as_object_mut().and_then(|obj| obj.remove("stream")) {
        if let Some((has_more, data)) = stream.as_object_mut().and_then(|obj| {
          let has_more = obj.remove("has_more")?.as_bool().unwrap_or(false);
          let data = obj.remove("data")?;
          Some((has_more, data))
        }) {
          return match has_more {
            true => Ok(Ok(ResponsePayload::Streaming(data))),
            false => Ok(Ok(ResponsePayload::StreamEnd(data))),
          };
        } else {
          return Err("Stream response must contain 'type' and 'data' fields.".into());
        }
      }
      Ok(Ok(ResponsePayload::Json(result)))
    } else {
      // Handle the 'error' field
      let error = self.0.as_object_mut().unwrap().remove("error").unwrap();
      Err(format!("Error handling response: {:?}", error))
    }
  }
  /// Converts the underlying `Value` into either an RPC notification or request.
  pub fn into_rpc<R>(self) -> Result<Call<R>, serde_json::Error>
  where
    R: DeserializeOwned,
  {
    let id = self.get_id();
    match id {
      Some(id) => match serde_json::from_value::<R>(self.0) {
        Ok(resp) => Ok(Call::Request(id, resp)),
        Err(err) => Ok(Call::InvalidRequest(id, err.into())),
      },
      None => match self.0.get("message").and_then(|value| value.as_str()) {
        None => Err(serde_json::Error::missing_field("message")),
        Some(s) => Ok(Call::Message(s.to_string().into())),
      },
    }
  }
 }
 impl From<Value> for RpcObject {
  fn from(v: Value) -> RpcObject {
    RpcObject(v)
  }
 }
--- a/frontend/rust-lib/flowy-sidecar/src/core/rpc_peer.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/core/rpc_peer.rs
@ -1,500 +0,0 @@
 use crate::core::plugin::{Peer, PluginId};
 use crate::core::rpc_object::RpcObject;
 use crate::error::{ReadError, RemoteError, SidecarError};
 use parking_lot::{Condvar, Mutex};
 use serde::{de, ser, Deserialize, Deserializer, Serialize, Serializer};
 use serde_json::{json, Value as JsonValue};
 use std::collections::{BTreeMap, BinaryHeap, VecDeque};
 use std::fmt::Display;
 use std::io::Write;
 use std::sync::atomic::{AtomicBool, AtomicUsize, Ordering};
 use std::sync::{mpsc, Arc};
 use std::time::{Duration, Instant};
 use std::{cmp, io};
 use tokio_stream::Stream;
 use tracing::{error, trace, warn};
 pub struct PluginCommand<T> {
  pub plugin_id: PluginId,
  pub cmd: T,
 }
 impl<T: Serialize> Serialize for PluginCommand<T> {
  fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
  where
    S: Serializer,
  {
    let mut v = serde_json::to_value(&self.cmd).map_err(ser::Error::custom)?;
    v["params"]["plugin_id"] = json!(self.plugin_id);
    v.serialize(serializer)
  }
 }
 impl<'de, T: Deserialize<'de>> Deserialize<'de> for PluginCommand<T> {
  fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
  where
    D: Deserializer<'de>,
  {
    #[derive(Deserialize)]
    struct PluginIdHelper {
      plugin_id: PluginId,
    }
    let v = JsonValue::deserialize(deserializer)?;
    let plugin_id = PluginIdHelper::deserialize(&v)
      .map_err(de::Error::custom)?
      .plugin_id;
    let cmd = T::deserialize(v).map_err(de::Error::custom)?;
    Ok(PluginCommand { plugin_id, cmd })
  }
 }
 pub struct RpcState<W: Write> {
  rx_queue: Mutex<VecDeque<Result<RpcObject, ReadError>>>,
  rx_cvar: Condvar,
  writer: Mutex<W>,
  id: AtomicUsize,
  pending: Mutex<BTreeMap<usize, ResponseHandler>>,
  timers: Mutex<BinaryHeap<Timer>>,
  needs_exit: AtomicBool,
  is_blocking: AtomicBool,
 }
 impl<W: Write> RpcState<W> {
  /// Creates a new `RawPeer` instance.
  ///
  /// # Arguments
  ///
  /// * `writer` - An object implementing the `Write` trait, used for sending messages.
  ///
  /// # Returns
  ///
  /// A new `RawPeer` instance wrapped in an `Arc`.
  pub fn new(writer: W) -> Self {
    RpcState {
      rx_queue: Mutex::new(VecDeque::new()),
      rx_cvar: Condvar::new(),
      writer: Mutex::new(writer),
      id: AtomicUsize::new(0),
      pending: Mutex::new(BTreeMap::new()),
      timers: Mutex::new(BinaryHeap::new()),
      needs_exit: AtomicBool::new(false),
      is_blocking: Default::default(),
    }
  }
  pub fn is_blocking(&self) -> bool {
    self.is_blocking.load(Ordering::Acquire)
  }
 }
 pub struct RawPeer<W: Write + 'static>(pub(crate) Arc<RpcState<W>>);
 impl<W: Write + Send + 'static> Peer for RawPeer<W> {
  fn box_clone(&self) -> Arc<dyn Peer> {
    Arc::new((*self).clone())
  }
  fn send_rpc_notification(&self, method: &str, params: &JsonValue) {
    if let Err(e) = self.send(&json!({
        "method": method,
        "params": params,
    })) {
      error!(
        "send error on send_rpc_notification method {}: {}",
        method, e
      );
    }
  }
  fn stream_rpc_request(&self, method: &str, params: &JsonValue, f: CloneableCallback) {
    self.send_rpc(method, params, ResponseHandler::StreamCallback(Arc::new(f)));
  }
  fn async_send_rpc_request(&self, method: &str, params: &JsonValue, f: Box<dyn OneShotCallback>) {
    self.send_rpc(method, params, ResponseHandler::Callback(f));
  }
  fn send_rpc_request(&self, method: &str, params: &JsonValue) -> Result<JsonValue, SidecarError> {
    let (tx, rx) = mpsc::channel();
    self.0.is_blocking.store(true, Ordering::Release);
    self.send_rpc(method, params, ResponseHandler::Chan(tx));
    rx.recv().unwrap_or(Err(SidecarError::PeerDisconnect))
  }
  fn request_is_pending(&self) -> bool {
    let queue = self.0.rx_queue.lock();
    !queue.is_empty()
  }
  fn schedule_timer(&self, after: Instant, token: usize) {
    self.0.timers.lock().push(Timer {
      fire_after: after,
      token,
    });
  }
 }
 impl<W: Write> RawPeer<W> {
  /// Sends a JSON value to the peer.
  ///
  /// # Arguments
  ///
  /// * `json` - A reference to a `JsonValue` to be sent.
  ///
  /// # Returns
  ///
  /// A `Result` indicating success or an `io::Error` if the write operation fails.
  ///
  /// # Notes
  ///
  /// This function serializes the JSON value, appends a newline, and writes it to the underlying writer.
  fn send(&self, json: &JsonValue) -> Result<(), io::Error> {
    let mut s = serde_json::to_string(json).unwrap();
    s.push('\n');
    self.0.writer.lock().write_all(s.as_bytes())
  }
  /// Sends a response to a previous RPC request.
  ///
  /// # Arguments
  ///
  /// * `result` - The `Response` to be sent.
  /// * `id` - The ID of the request being responded to.
  ///
  /// # Notes
  ///
  /// This function constructs a JSON response and sends it using the `send` method.
  /// It handles both successful results and errors.
  pub(crate) fn respond(&self, result: Response, id: u64) {
    let mut response = json!({ "id": id });
    match result {
      Ok(result) => match result {
        ResponsePayload::Json(value) => response["result"] = value,
        ResponsePayload::Streaming(_) | ResponsePayload::StreamEnd(_) => {
          error!("stream response not supported")
        },
      },
      Err(error) => response["error"] = json!(error),
    };
    if let Err(e) = self.send(&response) {
      error!("[RPC] error {} sending response to RPC {:?}", e, id);
    }
  }
  /// Sends an RPC request.
  ///
  /// # Arguments
  ///
  /// * `method` - The name of the RPC method to be called.
  /// * `params` - The parameters for the RPC call.
  /// * `response_handler` - A `ResponseHandler` to handle the response.
  ///
  /// # Notes
  ///
  /// This function generates a unique ID for the request, stores the response handler,
  /// and sends the RPC request. If sending fails, it immediately invokes the response handler with an error.
  fn send_rpc(&self, method: &str, params: &JsonValue, response_handler: ResponseHandler) {
    trace!("[RPC] call method: {} params: {:?}", method, params);
    let id = self.0.id.fetch_add(1, Ordering::Relaxed);
    {
      let mut pending = self.0.pending.lock();
      pending.insert(id, response_handler);
    }
    // Call the ResponseHandler if the send fails. Otherwise, the response will be
    // called in handle_response.
    if let Err(e) = self.send(&json!({
        "id": id,
        "method": method,
        "params": params,
    })) {
      let mut pending = self.0.pending.lock();
      if let Some(rh) = pending.remove(&id) {
        rh.invoke(Err(SidecarError::Io(e)));
      }
    }
  }
  /// Processes an incoming response to an RPC request.
  ///
  /// This function is responsible for handling responses received from the peer, matching them
  /// to their corresponding requests, and invoking the appropriate callbacks. It supports both
  /// one-time responses and streaming responses.
  ///
  /// # Arguments
  ///
  /// * `&self` - A reference to the `RawPeer` instance.
  /// * `request_id: u64` - The unique identifier of the request to which this is a response.
  /// * `resp: Result<ResponsePayload, SidecarError>` - The response payload or an error.
  ///
  /// # Behavior
  ///
  /// 1. Retrieves and removes the response handler for the given `request_id` from the pending requests.
  /// 2. Determines if the response is part of a stream.
  /// 3. For streaming responses:
  ///    - If it's not the end of the stream, re-inserts the stream callback for future messages.
  ///    - If it's the end of the stream, logs this information.
  /// 4. Converts the response payload to JSON.
  /// 5. Invokes the response handler with the JSON data or error.
  ///
  /// # Concurrency
  ///
  /// This function uses mutex locks to ensure thread-safe access to shared data structures.
  /// It's designed to be called from multiple threads safely.
  ///
  /// # Error Handling
  ///
  /// - If no handler is found for the `request_id`, an error is logged.
  /// - If a non-stream response payload is `None`, a warning is logged.
  /// - Errors in the response are propagated to the response handler.
  pub(crate) fn handle_response(
    &self,
    request_id: u64,
    resp: Result<ResponsePayload, SidecarError>,
  ) {
    let request_id = request_id as usize;
    let handler = {
      let mut pending = self.0.pending.lock();
      pending.remove(&request_id)
    };
    let is_stream = resp.as_ref().map(|resp| resp.is_stream()).unwrap_or(false);
    match handler {
      Some(response_handler) => {
        if is_stream {
          let is_stream_end = resp
            .as_ref()
            .map(|resp| resp.is_stream_end())
            .unwrap_or(false);
          if !is_stream_end {
            // when steam is not end, we need to put the stream callback back to pending in order to
            // receive the next stream message.
            if let Some(callback) = response_handler.get_stream_callback() {
              let mut pending = self.0.pending.lock();
              pending.insert(request_id, ResponseHandler::StreamCallback(callback));
            }
          } else {
            trace!("[RPC] {} stream end", request_id);
          }
        }
        let json = resp.map(|resp| resp.into_json());
        match json {
          Ok(Some(json)) => {
            response_handler.invoke(Ok(json));
          },
          Ok(None) => {
            if !is_stream {
              warn!("[RPC] only stream response can be None");
            }
          },
          Err(err) => {
            response_handler.invoke(Err(err));
          },
        }
      },
      None => error!("[RPC] id {}'s handle not found", request_id),
    }
  }
  /// Get a message from the receive queue if available.
  pub(crate) fn try_get_rx(&self) -> Option<Result<RpcObject, ReadError>> {
    let mut queue = self.0.rx_queue.lock();
    queue.pop_front()
  }
  /// Get a message from the receive queue, waiting for at most `Duration`
  /// and returning `None` if no message is available.
  pub(crate) fn get_rx_timeout(&self, dur: Duration) -> Option<Result<RpcObject, ReadError>> {
    let mut queue = self.0.rx_queue.lock();
    let result = self.0.rx_cvar.wait_for(&mut queue, dur);
    if result.timed_out() {
      return None;
    }
    queue.pop_front()
  }
  /// Adds a message to the receive queue. The message should only
  /// be `None` if the read thread is exiting.
  pub(crate) fn put_rpc_object(&self, json: Result<RpcObject, ReadError>) {
    let mut queue = self.0.rx_queue.lock();
    queue.push_back(json);
    self.0.rx_cvar.notify_one();
  }
  /// Checks the status of the most imminent timer.
  ///
  /// # Returns
  ///
  /// - `Some(Ok(usize))`: If the most imminent timer has expired, returns its token.
  /// - `Some(Err(Duration))`: If the most imminent timer has not yet expired, returns the time until it expires.
  /// - `None`: If no timers are registered.
  pub(crate) fn check_timers(&self) -> Option<Result<usize, Duration>> {
    let mut timers = self.0.timers.lock();
    match timers.peek() {
      None => return None,
      Some(t) => {
        let now = Instant::now();
        if t.fire_after > now {
          return Some(Err(t.fire_after - now));
        }
      },
    }
    Some(Ok(timers.pop().unwrap().token))
  }
  /// send disconnect error to pending requests.
  pub(crate) fn disconnect(&self) {
    trace!("[RPC] disconnecting peer");
    let mut pending = self.0.pending.lock();
    let ids = pending.keys().cloned().collect::<Vec<_>>();
    for id in &ids {
      let callback = pending.remove(id).unwrap();
      callback.invoke(Err(SidecarError::PeerDisconnect));
    }
    self.0.needs_exit.store(true, Ordering::Relaxed);
  }
  /// Checks if the RPC system needs to exit.
  pub(crate) fn needs_exit(&self) -> bool {
    self.0.needs_exit.load(Ordering::Relaxed)
  }
  pub(crate) fn reset_needs_exit(&self) {
    self.0.needs_exit.store(false, Ordering::SeqCst);
  }
 }
 impl<W: Write> Clone for RawPeer<W> {
  fn clone(&self) -> Self {
    RawPeer(self.0.clone())
  }
 }
 #[derive(Clone, Debug)]
 pub enum ResponsePayload {
  Json(JsonValue),
  Streaming(JsonValue),
  StreamEnd(JsonValue),
 }
 impl ResponsePayload {
  pub fn empty_json() -> Self {
    ResponsePayload::Json(json!({}))
  }
  pub fn is_stream(&self) -> bool {
    matches!(
      self,
      ResponsePayload::Streaming(_) | ResponsePayload::StreamEnd(_)
    )
  }
  pub fn is_stream_end(&self) -> bool {
    matches!(self, ResponsePayload::StreamEnd(_))
  }
  pub fn into_json(self) -> Option<JsonValue> {
    match self {
      ResponsePayload::Json(v) => Some(v),
      ResponsePayload::Streaming(v) => Some(v),
      ResponsePayload::StreamEnd(_) => None,
    }
  }
 }
 impl Display for ResponsePayload {
  fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
    match self {
      ResponsePayload::Json(v) => write!(f, "{}", v),
      ResponsePayload::Streaming(_) => write!(f, "stream start"),
      ResponsePayload::StreamEnd(_) => write!(f, "stream end"),
    }
  }
 }
 pub type Response = Result<ResponsePayload, RemoteError>;
 pub trait ResponseStream: Stream<Item = Result<JsonValue, SidecarError>> + Unpin + Send {}
 impl<T> ResponseStream for T where T: Stream<Item = Result<JsonValue, SidecarError>> + Unpin + Send {}
 enum ResponseHandler {
  Chan(mpsc::Sender<Result<JsonValue, SidecarError>>),
  Callback(Box<dyn OneShotCallback>),
  StreamCallback(Arc<CloneableCallback>),
 }
 impl ResponseHandler {
  pub fn get_stream_callback(&self) -> Option<Arc<CloneableCallback>> {
    match self {
      ResponseHandler::StreamCallback(cb) => Some(cb.clone()),
      _ => None,
    }
  }
 }
 pub trait OneShotCallback: Send {
  fn call(self: Box<Self>, result: Result<JsonValue, SidecarError>);
 }
 impl<F: Send + FnOnce(Result<JsonValue, SidecarError>)> OneShotCallback for F {
  fn call(self: Box<Self>, result: Result<JsonValue, SidecarError>) {
    (self)(result)
  }
 }
 pub trait Callback: Send + Sync {
  fn call(&self, result: Result<JsonValue, SidecarError>);
 }
 impl<F: Send + Sync + Fn(Result<JsonValue, SidecarError>)> Callback for F {
  fn call(&self, result: Result<JsonValue, SidecarError>) {
    (*self)(result)
  }
 }
 #[derive(Clone)]
 pub struct CloneableCallback {
  callback: Arc<dyn Callback>,
 }
 impl CloneableCallback {
  pub fn new<C: Callback + 'static>(callback: C) -> Self {
    CloneableCallback {
      callback: Arc::new(callback),
    }
  }
  pub fn call(&self, result: Result<JsonValue, SidecarError>) {
    self.callback.call(result)
  }
 }
 impl ResponseHandler {
  fn invoke(self, result: Result<JsonValue, SidecarError>) {
    match self {
      ResponseHandler::Chan(tx) => {
        let _ = tx.send(result);
      },
      ResponseHandler::StreamCallback(cb) => {
        cb.call(result);
      },
      ResponseHandler::Callback(f) => f.call(result),
    }
  }
 }
 #[derive(Debug, PartialEq, Eq)]
 struct Timer {
  fire_after: Instant,
  token: usize,
 }
 impl Ord for Timer {
  fn cmp(&self, other: &Timer) -> cmp::Ordering {
    other.fire_after.cmp(&self.fire_after)
  }
 }
 impl PartialOrd for Timer {
  fn partial_cmp(&self, other: &Timer) -> Option<cmp::Ordering> {
    Some(self.cmp(other))
  }
 }
--- a/frontend/rust-lib/flowy-sidecar/src/error.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/error.rs
@ -1,174 +0,0 @@
 use serde::{Deserialize, Deserializer, Serialize, Serializer};
 use serde_json::{json, Value as JsonValue};
 use std::{fmt, io};
 /// The error type of `tauri-utils`.
 #[derive(Debug, thiserror::Error)]
 pub enum SidecarError {
  /// An IO error occurred on the underlying communication channel.
  #[error(transparent)]
  Io(#[from] io::Error),
  /// The peer returned an error.
  #[error("Remote error: {0}")]
  RemoteError(RemoteError),
  /// The peer closed the connection.
  #[error("Peer closed the connection.")]
  PeerDisconnect,
  /// The peer sent a response containing the id, but was malformed.
  #[error("Invalid response.")]
  InvalidResponse,
  #[error(transparent)]
  Internal(#[from] anyhow::Error),
 }
 #[derive(Debug)]
 pub enum ReadError {
  /// An error occurred in the underlying stream
  Io(io::Error),
  /// The message was not valid JSON.
  Json(serde_json::Error),
  /// The message was not a JSON object.
  NotObject(String),
  /// The the method and params were not recognized by the handler.
  UnknownRequest(serde_json::Error),
  /// The peer closed the connection.
  Disconnect(String),
 }
 #[derive(Debug, Clone, thiserror::Error)]
 pub enum RemoteError {
  /// The JSON was valid, but was not a correctly formed request.
  ///
  /// This Error is used internally, and should not be returned by
  /// clients.
  #[error("Invalid request: {0:?}")]
  InvalidRequest(Option<JsonValue>),
  #[error("Invalid response: {0}")]
  InvalidResponse(JsonValue),
  #[error("Parse response: {0}")]
  ParseResponse(JsonValue),
  /// A custom error, defined by the client.
  #[error("Custom error: {message}")]
  Custom {
    code: i64,
    message: String,
    data: Option<JsonValue>,
  },
  /// An error that cannot be represented by an error object.
  ///
  /// This error is intended to accommodate clients that return arbitrary
  /// error values. It should not be used for new errors.
  #[error("Unknown error: {0}")]
  Unknown(JsonValue),
 }
 impl ReadError {
  /// Returns `true` iff this is the `ReadError::Disconnect` variant.
  pub fn is_disconnect(&self) -> bool {
    matches!(*self, ReadError::Disconnect(_))
  }
 }
 impl fmt::Display for ReadError {
  fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
    match self {
      ReadError::Io(ref err) => write!(f, "I/O Error: {:?}", err),
      ReadError::Json(ref err) => write!(f, "JSON Error: {:?}", err),
      ReadError::NotObject(s) => write!(f, "Expected JSON object, found: {}", s),
      ReadError::UnknownRequest(ref err) => write!(f, "Unknown request: {:?}", err),
      ReadError::Disconnect(reason) => write!(f, "Peer closed the connection, reason: {}", reason),
    }
  }
 }
 impl From<serde_json::Error> for ReadError {
  fn from(err: serde_json::Error) -> ReadError {
    ReadError::Json(err)
  }
 }
 impl From<io::Error> for ReadError {
  fn from(err: io::Error) -> ReadError {
    ReadError::Io(err)
  }
 }
 impl From<serde_json::Error> for RemoteError {
  fn from(err: serde_json::Error) -> RemoteError {
    RemoteError::InvalidRequest(Some(json!(err.to_string())))
  }
 }
 impl From<RemoteError> for SidecarError {
  fn from(err: RemoteError) -> SidecarError {
    SidecarError::RemoteError(err)
  }
 }
 #[derive(Deserialize, Serialize)]
 struct ErrorHelper {
  code: i64,
  message: String,
  #[serde(skip_serializing_if = "Option::is_none")]
  data: Option<JsonValue>,
 }
 impl<'de> Deserialize<'de> for RemoteError {
  fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
  where
    D: Deserializer<'de>,
  {
    let v = JsonValue::deserialize(deserializer)?;
    let resp = match ErrorHelper::deserialize(&v) {
      Ok(resp) => resp,
      Err(_) => return Ok(RemoteError::Unknown(v)),
    };
    Ok(match resp.code {
      -32600 => RemoteError::InvalidRequest(resp.data),
      _ => RemoteError::Custom {
        code: resp.code,
        message: resp.message,
        data: resp.data,
      },
    })
  }
 }
 impl Serialize for RemoteError {
  fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
  where
    S: Serializer,
  {
    let (code, message, data) = match self {
      RemoteError::InvalidRequest(ref d) => (-32600, "Invalid request".to_string(), d.clone()),
      RemoteError::Custom {
        code,
        ref message,
        ref data,
      } => (*code, message.clone(), data.clone()),
      RemoteError::Unknown(_) => {
        panic!("The 'Unknown' error variant is not intended for client use.")
      },
      RemoteError::InvalidResponse(resp) => (
        -1,
        "Invalid response".to_string(),
        Some(json!(resp.to_string())),
      ),
      RemoteError::ParseResponse(resp) => (
        -1,
        "Invalid response".to_string(),
        Some(json!(resp.to_string())),
      ),
    };
    let err = ErrorHelper {
      code,
      message,
      data,
    };
    err.serialize(serializer)
  }
 }
--- a/frontend/rust-lib/flowy-sidecar/src/lib.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/lib.rs
@ -1,3 +0,0 @@
 pub mod core;
 pub mod error;
 pub mod manager;
--- a/frontend/rust-lib/flowy-sidecar/src/manager.rs
+++ b/frontend/rust-lib/flowy-sidecar/src/manager.rs
@ -1,201 +0,0 @@
 use crate::core::parser::ResponseParser;
 use crate::core::plugin::{start_plugin_process, Plugin, PluginId, PluginInfo, RpcCtx};
 use crate::core::rpc_loop::Handler;
 use crate::core::rpc_peer::{PluginCommand, ResponsePayload};
 use crate::error::{ReadError, RemoteError, SidecarError};
 use anyhow::anyhow;
 use lib_infra::util::{get_operating_system, OperatingSystem};
 use parking_lot::Mutex;
 use serde_json::Value;
 use std::io;
 use std::sync::atomic::{AtomicI64, Ordering};
 use std::sync::{Arc, Weak};
 use tracing::{error, info, instrument, trace, warn};
 pub struct SidecarManager {
  state: Arc<Mutex<SidecarState>>,
  plugin_id_counter: Arc<AtomicI64>,
  operating_system: OperatingSystem,
 }
 impl Default for SidecarManager {
  fn default() -> Self {
    Self::new()
  }
 }
 impl SidecarManager {
  pub fn new() -> Self {
    SidecarManager {
      state: Arc::new(Mutex::new(SidecarState {
        plugins: Vec::new(),
      })),
      plugin_id_counter: Arc::new(Default::default()),
      operating_system: get_operating_system(),
    }
  }
  pub async fn create_plugin(&self, plugin_info: PluginInfo) -> Result<PluginId, SidecarError> {
    if self.operating_system.is_not_desktop() {
      return Err(SidecarError::Internal(anyhow!(
        "plugin not supported on this platform"
      )));
    }
    let plugin_id = PluginId::from(self.plugin_id_counter.fetch_add(1, Ordering::SeqCst));
    let weak_state = WeakSidecarState(Arc::downgrade(&self.state));
    start_plugin_process(plugin_info, plugin_id, weak_state).await?;
    Ok(plugin_id)
  }
  pub async fn get_plugin(&self, plugin_id: PluginId) -> Result<Weak<Plugin>, SidecarError> {
    let state = self.state.lock();
    let plugin = state
      .plugins
      .iter()
      .find(|p| p.id == plugin_id)
      .ok_or(anyhow!("plugin not found"))?;
    Ok(Arc::downgrade(plugin))
  }
  #[instrument(skip(self), err)]
  pub async fn remove_plugin(&self, id: PluginId) -> Result<(), SidecarError> {
    if self.operating_system.is_not_desktop() {
      return Err(SidecarError::Internal(anyhow!(
        "plugin not supported on this platform"
      )));
    }
    info!("[RPC] removing plugin {:?}", id);
    self.state.lock().plugin_disconnect(id, Ok(()));
    Ok(())
  }
  pub fn init_plugin(&self, id: PluginId, init_params: Value) -> Result<Arc<Plugin>, SidecarError> {
    if self.operating_system.is_not_desktop() {
      return Err(SidecarError::Internal(anyhow!(
        "plugin not supported on this platform"
      )));
    }
    let state = self.state.lock();
    let plugin = state
      .plugins
      .iter()
      .find(|p| p.id == id)
      .ok_or(anyhow!("plugin not found"))?;
    plugin.initialize(init_params)?;
    Ok(plugin.clone())
  }
  pub fn send_request<P: ResponseParser>(
    &self,
    id: PluginId,
    method: &str,
    request: Value,
  ) -> Result<P::ValueType, SidecarError> {
    let state = self.state.lock();
    let plugin = state
      .plugins
      .iter()
      .find(|p| p.id == id)
      .ok_or(anyhow!("plugin not found"))?;
    let resp = plugin.request(method, &request)?;
    let value = P::parse_json(resp)?;
    Ok(value)
  }
  pub async fn async_send_request<P: ResponseParser>(
    &self,
    id: PluginId,
    method: &str,
    request: Value,
  ) -> Result<P::ValueType, SidecarError> {
    let plugin = self
      .state
      .lock()
      .plugins
      .iter()
      .find(|p| p.id == id)
      .ok_or(anyhow!("plugin not found"))
      .cloned()?;
    let value = plugin.async_request::<P>(method, &request).await?;
    Ok(value)
  }
 }
 pub struct SidecarState {
  plugins: Vec<Arc<Plugin>>,
 }
 impl SidecarState {
  pub fn plugin_connect(&mut self, plugin: Result<Plugin, io::Error>) {
    match plugin {
      Ok(plugin) => {
        info!("[RPC] {} connected", plugin);
        self.plugins.push(Arc::new(plugin));
      },
      Err(err) => {
        warn!("plugin failed to connect: {:?}", err);
      },
    }
  }
  pub fn plugin_disconnect(
    &mut self,
    id: PluginId,
    error: Result<(), ReadError>,
  ) -> Option<Arc<Plugin>> {
    if let Err(err) = error {
      error!("[RPC] plugin {:?} exited with result {:?}", id, err)
    }
    let running_idx = self.plugins.iter().position(|p| p.id == id);
    match running_idx {
      Some(idx) => {
        let plugin = self.plugins.remove(idx);
        plugin.shutdown();
        Some(plugin)
      },
      None => {
        warn!("[RPC] plugin {:?} not found", id);
        None
      },
    }
  }
 }
 #[derive(Clone)]
 pub struct WeakSidecarState(Weak<Mutex<SidecarState>>);
 impl WeakSidecarState {
  pub fn upgrade(&self) -> Option<Arc<Mutex<SidecarState>>> {
    self.0.upgrade()
  }
  pub fn plugin_connect(&self, plugin: Result<Plugin, io::Error>) {
    if let Some(state) = self.upgrade() {
      state.lock().plugin_connect(plugin)
    }
  }
  pub fn plugin_exit(&self, plugin: PluginId, error: Result<(), ReadError>) {
    if let Some(core) = self.upgrade() {
      core.lock().plugin_disconnect(plugin, error);
    }
  }
 }
 impl Handler for WeakSidecarState {
  type Request = PluginCommand<String>;
  fn handle_request(
    &mut self,
    _ctx: &RpcCtx,
    rpc: Self::Request,
  ) -> Result<ResponsePayload, RemoteError> {
    trace!("handling request: {:?}", rpc.cmd);
    Ok(ResponsePayload::empty_json())
  }
 }