// Copyright 2023 Greptime Team // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. use std::borrow::Cow; use std::collections::HashMap; use std::fmt::Display; use std::fs::OpenOptions; use std::io; use std::io::Write; use std::net::SocketAddr; use std::path::{Path, PathBuf}; use std::process::{Child, Command}; use std::sync::atomic::{AtomicU32, Ordering}; use std::sync::{Arc, Mutex}; use std::time::Duration; use async_trait::async_trait; use client::error::ServerSnafu; use client::{ Client, Database as DB, Error as ClientError, DEFAULT_CATALOG_NAME, DEFAULT_SCHEMA_NAME, }; use common_error::ext::ErrorExt; use common_query::{Output, OutputData}; use common_recordbatch::RecordBatches; use datatypes::data_type::ConcreteDataType; use datatypes::scalars::ScalarVectorBuilder; use datatypes::schema::{ColumnSchema, Schema}; use datatypes::vectors::{StringVectorBuilder, VectorRef}; use mysql::prelude::Queryable; use mysql::{Conn as MySqlClient, Row as MySqlRow}; use sqlness::{Database, EnvController, QueryContext}; use tokio::sync::Mutex as TokioMutex; use tokio_postgres::{Client as PgClient, SimpleQueryMessage as PgRow}; use crate::protocol_interceptor::{MYSQL, PROTOCOL_KEY}; use crate::server_mode::ServerMode; use crate::util::{get_workspace_root, maybe_pull_binary, PROGRAM}; use crate::{util, ServerAddr}; // standalone mode const SERVER_MODE_STANDALONE_IDX: usize = 0; // distributed mode const SERVER_MODE_METASRV_IDX: usize = 0; const SERVER_MODE_DATANODE_START_IDX: usize = 1; const SERVER_MODE_FRONTEND_IDX: usize = 4; const SERVER_MODE_FLOWNODE_IDX: usize = 5; #[derive(Clone)] pub enum WalConfig { RaftEngine, Kafka { /// Indicates whether the runner needs to start a kafka cluster /// (it might be available in the external system environment). needs_kafka_cluster: bool, broker_endpoints: Vec, }, } #[derive(Clone)] pub struct StoreConfig { pub store_addrs: Vec, pub setup_etcd: bool, pub setup_pg: bool, } #[derive(Clone)] pub struct Env { sqlness_home: PathBuf, server_addrs: ServerAddr, wal: WalConfig, /// The path to the directory that contains the pre-built GreptimeDB binary. /// When running in CI, this is expected to be set. /// If not set, this runner will build the GreptimeDB binary itself when needed, and set this field by then. bins_dir: Arc>>, /// The path to the directory that contains the old pre-built GreptimeDB binaries. versioned_bins_dirs: Arc>>, /// Pull different versions of GreptimeDB on need. pull_version_on_need: bool, /// Store address for metasrv metadata store_config: StoreConfig, } #[async_trait] impl EnvController for Env { type DB = GreptimeDB; async fn start(&self, mode: &str, id: usize, _config: Option<&Path>) -> Self::DB { if self.server_addrs.server_addr.is_some() && id > 0 { panic!("Parallel test mode is not supported when server address is already set."); } std::env::set_var("SQLNESS_HOME", self.sqlness_home.display().to_string()); match mode { "standalone" => self.start_standalone(id).await, "distributed" => self.start_distributed(id).await, _ => panic!("Unexpected mode: {mode}"), } } /// Stop one [`Database`]. async fn stop(&self, _mode: &str, mut database: Self::DB) { database.stop(); } } impl Env { pub fn new( data_home: PathBuf, server_addrs: ServerAddr, wal: WalConfig, pull_version_on_need: bool, bins_dir: Option, store_config: StoreConfig, ) -> Self { Self { sqlness_home: data_home, server_addrs, wal, pull_version_on_need, bins_dir: Arc::new(Mutex::new(bins_dir.clone())), versioned_bins_dirs: Arc::new(Mutex::new(HashMap::from_iter([( "latest".to_string(), bins_dir.clone().unwrap_or(util::get_binary_dir("debug")), )]))), store_config, } } async fn start_standalone(&self, id: usize) -> GreptimeDB { println!("Starting standalone instance {id}"); if self.server_addrs.server_addr.is_some() { self.connect_db(&self.server_addrs, id).await } else { self.build_db(); self.setup_wal(); let mut db_ctx = GreptimeDBContext::new(self.wal.clone(), self.store_config.clone()); let server_mode = ServerMode::random_standalone(); db_ctx.set_server_mode(server_mode.clone(), SERVER_MODE_STANDALONE_IDX); let server_addr = server_mode.server_addr().unwrap(); let server_process = self.start_server(server_mode, &db_ctx, id, true).await; let mut greptimedb = self.connect_db(&server_addr, id).await; greptimedb.server_processes = Some(Arc::new(Mutex::new(vec![server_process]))); greptimedb.is_standalone = true; greptimedb.ctx = db_ctx; greptimedb } } async fn start_distributed(&self, id: usize) -> GreptimeDB { if self.server_addrs.server_addr.is_some() { self.connect_db(&self.server_addrs, id).await } else { self.build_db(); self.setup_wal(); self.setup_etcd(); self.setup_pg(); let mut db_ctx = GreptimeDBContext::new(self.wal.clone(), self.store_config.clone()); // start a distributed GreptimeDB let meta_server_mode = ServerMode::random_metasrv(); let metasrv_port = match &meta_server_mode { ServerMode::Metasrv { rpc_server_addr, .. } => rpc_server_addr .split(':') .nth(1) .unwrap() .parse::() .unwrap(), _ => panic!("metasrv mode not set, maybe running in remote mode which doesn't support restart?"), }; db_ctx.set_server_mode(meta_server_mode.clone(), SERVER_MODE_METASRV_IDX); let meta_server = self.start_server(meta_server_mode, &db_ctx, id, true).await; let datanode_1_mode = ServerMode::random_datanode(metasrv_port, 0); db_ctx.set_server_mode(datanode_1_mode.clone(), SERVER_MODE_DATANODE_START_IDX); let datanode_1 = self.start_server(datanode_1_mode, &db_ctx, id, true).await; let datanode_2_mode = ServerMode::random_datanode(metasrv_port, 1); db_ctx.set_server_mode(datanode_2_mode.clone(), SERVER_MODE_DATANODE_START_IDX + 1); let datanode_2 = self.start_server(datanode_2_mode, &db_ctx, id, true).await; let datanode_3_mode = ServerMode::random_datanode(metasrv_port, 2); db_ctx.set_server_mode(datanode_3_mode.clone(), SERVER_MODE_DATANODE_START_IDX + 2); let datanode_3 = self.start_server(datanode_3_mode, &db_ctx, id, true).await; let frontend_mode = ServerMode::random_frontend(metasrv_port); let server_addr = frontend_mode.server_addr().unwrap(); db_ctx.set_server_mode(frontend_mode.clone(), SERVER_MODE_FRONTEND_IDX); let frontend = self.start_server(frontend_mode, &db_ctx, id, true).await; let flownode_mode = ServerMode::random_flownode(metasrv_port, 0); db_ctx.set_server_mode(flownode_mode.clone(), SERVER_MODE_FLOWNODE_IDX); let flownode = self.start_server(flownode_mode, &db_ctx, id, true).await; let mut greptimedb = self.connect_db(&server_addr, id).await; greptimedb.metasrv_process = Some(meta_server).into(); greptimedb.server_processes = Some(Arc::new(Mutex::new(vec![ datanode_1, datanode_2, datanode_3, ]))); greptimedb.frontend_process = Some(frontend).into(); greptimedb.flownode_process = Some(flownode).into(); greptimedb.is_standalone = false; greptimedb.ctx = db_ctx; greptimedb } } async fn create_pg_client(&self, pg_server_addr: &str) -> PgClient { let sockaddr: SocketAddr = pg_server_addr.parse().expect( "Failed to parse the Postgres server address. Please check if the address is in the format of `ip:port`.", ); let mut config = tokio_postgres::config::Config::new(); config.host(sockaddr.ip().to_string()); config.port(sockaddr.port()); config.dbname(DEFAULT_SCHEMA_NAME); // retry to connect to Postgres server until success const MAX_RETRY: usize = 3; let mut backoff = Duration::from_millis(500); for _ in 0..MAX_RETRY { if let Ok((pg_client, conn)) = config.connect(tokio_postgres::NoTls).await { tokio::spawn(conn); return pg_client; } tokio::time::sleep(backoff).await; backoff *= 2; } panic!("Failed to connect to Postgres server. Please check if the server is running."); } async fn create_mysql_client(&self, mysql_server_addr: &str) -> MySqlClient { let sockaddr: SocketAddr = mysql_server_addr.parse().expect( "Failed to parse the MySQL server address. Please check if the address is in the format of `ip:port`.", ); let ops = mysql::OptsBuilder::new() .ip_or_hostname(Some(sockaddr.ip().to_string())) .tcp_port(sockaddr.port()) .db_name(Some(DEFAULT_SCHEMA_NAME)); // retry to connect to MySQL server until success const MAX_RETRY: usize = 3; let mut backoff = Duration::from_millis(500); for _ in 0..MAX_RETRY { // exponential backoff if let Ok(client) = mysql::Conn::new(ops.clone()) { return client; } tokio::time::sleep(backoff).await; backoff *= 2; } panic!("Failed to connect to MySQL server. Please check if the server is running.") } async fn connect_db(&self, server_addr: &ServerAddr, id: usize) -> GreptimeDB { let grpc_server_addr = server_addr.server_addr.clone().unwrap(); let pg_server_addr = server_addr.pg_server_addr.clone().unwrap(); let mysql_server_addr = server_addr.mysql_server_addr.clone().unwrap(); let grpc_client = Client::with_urls(vec![grpc_server_addr.clone()]); let db = DB::new(DEFAULT_CATALOG_NAME, DEFAULT_SCHEMA_NAME, grpc_client); let pg_client = self.create_pg_client(&pg_server_addr).await; let mysql_client = self.create_mysql_client(&mysql_server_addr).await; GreptimeDB { grpc_client: TokioMutex::new(db), pg_client: TokioMutex::new(pg_client), mysql_client: TokioMutex::new(mysql_client), server_processes: None, metasrv_process: None.into(), frontend_process: None.into(), flownode_process: None.into(), ctx: GreptimeDBContext { time: 0, datanode_id: Default::default(), wal: self.wal.clone(), store_config: self.store_config.clone(), server_modes: Vec::new(), }, is_standalone: false, env: self.clone(), id, } } fn stop_server(process: &mut Child) { let _ = process.kill(); let _ = process.wait(); } async fn start_server( &self, mode: ServerMode, db_ctx: &GreptimeDBContext, id: usize, truncate_log: bool, ) -> Child { let log_file_name = match mode { ServerMode::Datanode { node_id, .. } => { db_ctx.incr_datanode_id(); format!("greptime-{}-sqlness-datanode-{}.log", id, node_id) } ServerMode::Flownode { .. } => format!("greptime-{}-sqlness-flownode.log", id), ServerMode::Frontend { .. } => format!("greptime-{}-sqlness-frontend.log", id), ServerMode::Metasrv { .. } => format!("greptime-{}-sqlness-metasrv.log", id), ServerMode::Standalone { .. } => format!("greptime-{}-sqlness-standalone.log", id), }; let stdout_file_name = self.sqlness_home.join(log_file_name).display().to_string(); println!("DB instance {id} log file at {stdout_file_name}"); let stdout_file = OpenOptions::new() .create(true) .write(true) .truncate(truncate_log) .append(!truncate_log) .open(stdout_file_name) .unwrap(); let args = mode.get_args(&self.sqlness_home, self, db_ctx, id); let check_ip_addrs = mode.check_addrs(); for check_ip_addr in &check_ip_addrs { if util::check_port(check_ip_addr.parse().unwrap(), Duration::from_secs(1)).await { panic!( "Port {check_ip_addr} is already in use, please check and retry.", check_ip_addr = check_ip_addr ); } } let program = PROGRAM; let bins_dir = self.bins_dir.lock().unwrap().clone().expect( "GreptimeDB binary is not available. Please pass in the path to the directory that contains the pre-built GreptimeDB binary. Or you may call `self.build_db()` beforehand.", ); let mut process = Command::new(program) .current_dir(bins_dir.clone()) .env("TZ", "UTC") .args(args) .stdout(stdout_file) .spawn() .unwrap_or_else(|error| { panic!( "Failed to start the DB with subcommand {}, Error: {error}, path: {:?}", mode.name(), bins_dir.join(program) ); }); for check_ip_addr in &check_ip_addrs { if !util::check_port(check_ip_addr.parse().unwrap(), Duration::from_secs(10)).await { Env::stop_server(&mut process); panic!("{} doesn't up in 10 seconds, quit.", mode.name()) } } process } /// stop and restart the server process async fn restart_server(&self, db: &GreptimeDB, is_full_restart: bool) { { if let Some(server_process) = db.server_processes.clone() { let mut server_processes = server_process.lock().unwrap(); for server_process in server_processes.iter_mut() { Env::stop_server(server_process); } } if is_full_restart { if let Some(mut metasrv_process) = db.metasrv_process.lock().expect("poisoned lock").take() { Env::stop_server(&mut metasrv_process); } if let Some(mut frontend_process) = db.frontend_process.lock().expect("poisoned lock").take() { Env::stop_server(&mut frontend_process); } } if let Some(mut flownode_process) = db.flownode_process.lock().expect("poisoned lock").take() { Env::stop_server(&mut flownode_process); } } // check if the server is distributed or standalone let new_server_processes = if db.is_standalone { let server_mode = db .ctx .get_server_mode(SERVER_MODE_STANDALONE_IDX) .cloned() .unwrap(); let server_addr = server_mode.server_addr().unwrap(); let new_server_process = self.start_server(server_mode, &db.ctx, db.id, false).await; *db.pg_client.lock().await = self .create_pg_client(&server_addr.pg_server_addr.unwrap()) .await; *db.mysql_client.lock().await = self .create_mysql_client(&server_addr.mysql_server_addr.unwrap()) .await; vec![new_server_process] } else { db.ctx.reset_datanode_id(); if is_full_restart { let metasrv_mode = db .ctx .get_server_mode(SERVER_MODE_METASRV_IDX) .cloned() .unwrap(); let metasrv = self.start_server(metasrv_mode, &db.ctx, db.id, false).await; db.metasrv_process .lock() .expect("lock poisoned") .replace(metasrv); // wait for metasrv to start // since it seems older version of db might take longer to complete election tokio::time::sleep(Duration::from_secs(5)).await; } let mut processes = vec![]; for i in 0..3 { let datanode_mode = db .ctx .get_server_mode(SERVER_MODE_DATANODE_START_IDX + i) .cloned() .unwrap(); let new_server_process = self .start_server(datanode_mode, &db.ctx, db.id, false) .await; processes.push(new_server_process); } if is_full_restart { let frontend_mode = db .ctx .get_server_mode(SERVER_MODE_FRONTEND_IDX) .cloned() .unwrap(); let frontend = self .start_server(frontend_mode, &db.ctx, db.id, false) .await; db.frontend_process .lock() .expect("lock poisoned") .replace(frontend); } let flownode_mode = db .ctx .get_server_mode(SERVER_MODE_FLOWNODE_IDX) .cloned() .unwrap(); let flownode = self .start_server(flownode_mode, &db.ctx, db.id, false) .await; db.flownode_process .lock() .expect("lock poisoned") .replace(flownode); processes }; if let Some(server_processes) = db.server_processes.clone() { let mut server_processes = server_processes.lock().unwrap(); *server_processes = new_server_processes; } } /// Setup kafka wal cluster if needed. The counterpart is in [GreptimeDB::stop]. fn setup_wal(&self) { if matches!(self.wal, WalConfig::Kafka { needs_kafka_cluster, .. } if needs_kafka_cluster) { util::setup_wal(); } } /// Setup etcd if needed. fn setup_etcd(&self) { if self.store_config.setup_etcd { let client_ports = self .store_config .store_addrs .iter() .map(|s| s.split(':').nth(1).unwrap().parse::().unwrap()) .collect::>(); util::setup_etcd(client_ports, None, None); } } /// Setup PostgreSql if needed. fn setup_pg(&self) { if self.store_config.setup_pg { let client_ports = self .store_config .store_addrs .iter() .map(|s| s.split(':').nth(1).unwrap().parse::().unwrap()) .collect::>(); let client_port = client_ports.first().unwrap_or(&5432); util::setup_pg(*client_port, None); } } /// Build the DB with `cargo build --bin greptime` fn build_db(&self) { if self.bins_dir.lock().unwrap().is_some() { return; } println!("Going to build the DB..."); let output = Command::new("cargo") .current_dir(util::get_workspace_root()) .args(["build", "--bin", "greptime"]) .output() .expect("Failed to start GreptimeDB"); if !output.status.success() { println!("Failed to build GreptimeDB, {}", output.status); println!("Cargo build stdout:"); io::stdout().write_all(&output.stdout).unwrap(); println!("Cargo build stderr:"); io::stderr().write_all(&output.stderr).unwrap(); panic!(); } let _ = self .bins_dir .lock() .unwrap() .insert(util::get_binary_dir("debug")); } } pub struct GreptimeDB { server_processes: Option>>>, metasrv_process: Mutex>, frontend_process: Mutex>, flownode_process: Mutex>, grpc_client: TokioMutex, pg_client: TokioMutex, mysql_client: TokioMutex, ctx: GreptimeDBContext, is_standalone: bool, env: Env, id: usize, } impl GreptimeDB { async fn postgres_query(&self, _ctx: QueryContext, query: String) -> Box { let client = self.pg_client.lock().await; match client.simple_query(&query).await { Ok(rows) => Box::new(PostgresqlFormatter { rows }), Err(e) => Box::new(format!("Failed to execute query, encountered: {:?}", e)), } } async fn mysql_query(&self, _ctx: QueryContext, query: String) -> Box { let mut conn = self.mysql_client.lock().await; let result = conn.query_iter(query); Box::new(match result { Ok(result) => { let mut rows = vec![]; let affected_rows = result.affected_rows(); for row in result { match row { Ok(r) => rows.push(r), Err(e) => { return Box::new(format!("Failed to parse query result, err: {:?}", e)) } } } if rows.is_empty() { format!("affected_rows: {}", affected_rows) } else { format!("{}", MysqlFormatter { rows }) } } Err(e) => format!("Failed to execute query, err: {:?}", e), }) } async fn grpc_query(&self, _ctx: QueryContext, query: String) -> Box { let mut client = self.grpc_client.lock().await; let query_str = query.trim().to_lowercase(); if query_str.starts_with("use ") { // use [db] let database = query .split_ascii_whitespace() .nth(1) .expect("Illegal `USE` statement: expecting a database.") .trim_end_matches(';'); client.set_schema(database); Box::new(ResultDisplayer { result: Ok(Output::new_with_affected_rows(0)), }) as _ } else if query_str.starts_with("set time_zone") || query_str.starts_with("set session time_zone") || query_str.starts_with("set local time_zone") { // set time_zone='xxx' let timezone = query .split('=') .nth(1) .expect("Illegal `SET TIMEZONE` statement: expecting a timezone expr.") .trim() .strip_prefix('\'') .unwrap() .strip_suffix("';") .unwrap(); client.set_timezone(timezone); Box::new(ResultDisplayer { result: Ok(Output::new_with_affected_rows(0)), }) as _ } else { let mut result = client.sql(&query).await; if let Ok(Output { data: OutputData::Stream(stream), .. }) = result { match RecordBatches::try_collect(stream).await { Ok(recordbatches) => { result = Ok(Output::new_with_record_batches(recordbatches)); } Err(e) => { let status_code = e.status_code(); let msg = e.output_msg(); result = ServerSnafu { code: status_code, msg, } .fail(); } } } Box::new(ResultDisplayer { result }) as _ } } } #[async_trait] impl Database for GreptimeDB { async fn query(&self, ctx: QueryContext, query: String) -> Box { if ctx.context.contains_key("restart") && self.env.server_addrs.server_addr.is_none() { self.env.restart_server(self, false).await; } else if let Some(version) = ctx.context.get("version") { let version_bin_dir = self .env .versioned_bins_dirs .lock() .expect("lock poison") .get(version.as_str()) .cloned(); match version_bin_dir { Some(path) if path.clone().join(PROGRAM).is_file() => { // use version in versioned_bins_dirs *self.env.bins_dir.lock().unwrap() = Some(path.clone()); } _ => { // use version in dir files maybe_pull_binary(version, self.env.pull_version_on_need).await; let root = get_workspace_root(); let new_path = PathBuf::from_iter([&root, version]); *self.env.bins_dir.lock().unwrap() = Some(new_path); } } self.env.restart_server(self, true).await; // sleep for a while to wait for the server to fully boot up tokio::time::sleep(Duration::from_secs(5)).await; } if let Some(protocol) = ctx.context.get(PROTOCOL_KEY) { // protocol is bound to be either "mysql" or "postgres" if protocol == MYSQL { self.mysql_query(ctx, query).await } else { self.postgres_query(ctx, query).await } } else { self.grpc_query(ctx, query).await } } } impl GreptimeDB { fn stop(&mut self) { if let Some(server_processes) = self.server_processes.clone() { let mut server_processes = server_processes.lock().unwrap(); for mut server_process in server_processes.drain(..) { Env::stop_server(&mut server_process); println!( "Standalone or Datanode (pid = {}) is stopped", server_process.id() ); } } if let Some(mut metasrv) = self .metasrv_process .lock() .expect("someone else panic when holding lock") .take() { Env::stop_server(&mut metasrv); println!("Metasrv (pid = {}) is stopped", metasrv.id()); } if let Some(mut frontend) = self .frontend_process .lock() .expect("someone else panic when holding lock") .take() { Env::stop_server(&mut frontend); println!("Frontend (pid = {}) is stopped", frontend.id()); } if let Some(mut flownode) = self .flownode_process .lock() .expect("someone else panic when holding lock") .take() { Env::stop_server(&mut flownode); println!("Flownode (pid = {}) is stopped", flownode.id()); } if matches!(self.ctx.wal, WalConfig::Kafka { needs_kafka_cluster, .. } if needs_kafka_cluster) { util::teardown_wal(); } } } impl Drop for GreptimeDB { fn drop(&mut self) { if self.env.server_addrs.server_addr.is_none() { self.stop(); } } } pub struct GreptimeDBContext { /// Start time in millisecond time: i64, datanode_id: AtomicU32, wal: WalConfig, store_config: StoreConfig, server_modes: Vec, } impl GreptimeDBContext { pub fn new(wal: WalConfig, store_config: StoreConfig) -> Self { Self { time: common_time::util::current_time_millis(), datanode_id: AtomicU32::new(0), wal, store_config, server_modes: Vec::new(), } } pub(crate) fn time(&self) -> i64 { self.time } pub fn is_raft_engine(&self) -> bool { matches!(self.wal, WalConfig::RaftEngine) } pub fn kafka_wal_broker_endpoints(&self) -> String { match &self.wal { WalConfig::RaftEngine => String::new(), WalConfig::Kafka { broker_endpoints, .. } => serde_json::to_string(&broker_endpoints).unwrap(), } } fn incr_datanode_id(&self) { let _ = self.datanode_id.fetch_add(1, Ordering::Relaxed); } fn reset_datanode_id(&self) { self.datanode_id.store(0, Ordering::Relaxed); } pub(crate) fn store_config(&self) -> StoreConfig { self.store_config.clone() } fn set_server_mode(&mut self, mode: ServerMode, idx: usize) { if idx >= self.server_modes.len() { self.server_modes.resize(idx + 1, mode.clone()); } self.server_modes[idx] = mode; } fn get_server_mode(&self, idx: usize) -> Option<&ServerMode> { self.server_modes.get(idx) } } struct ResultDisplayer { result: Result, } impl Display for ResultDisplayer { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match &self.result { Ok(result) => match &result.data { OutputData::AffectedRows(rows) => { write!(f, "Affected Rows: {rows}") } OutputData::RecordBatches(recordbatches) => { let pretty = recordbatches.pretty_print().map_err(|e| e.to_string()); match pretty { Ok(s) => write!(f, "{s}"), Err(e) => { write!(f, "Failed to pretty format {recordbatches:?}, error: {e}") } } } OutputData::Stream(_) => unreachable!(), }, Err(e) => { let status_code = e.status_code(); let root_cause = e.output_msg(); write!( f, "Error: {}({status_code}), {root_cause}", status_code as u32 ) } } } } struct PostgresqlFormatter { pub rows: Vec, } impl Display for PostgresqlFormatter { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { if self.rows.is_empty() { return f.write_fmt(format_args!("(Empty response)")); } // create schema let schema = match &self.rows[0] { PgRow::CommandComplete(affected_rows) => { write!( f, "{}", ResultDisplayer { result: Ok(Output::new_with_affected_rows(*affected_rows as usize)), } )?; return Ok(()); } PgRow::RowDescription(desc) => Arc::new(Schema::new( desc.iter() .map(|column| { ColumnSchema::new(column.name(), ConcreteDataType::string_datatype(), false) }) .collect(), )), _ => unreachable!(), }; if schema.num_columns() == 0 { return Ok(()); } // convert to string vectors let mut columns: Vec = (0..schema.num_columns()) .map(|_| StringVectorBuilder::with_capacity(schema.num_columns())) .collect(); for row in self.rows.iter().skip(1) { if let PgRow::Row(row) = row { for (i, column) in columns.iter_mut().enumerate().take(schema.num_columns()) { column.push(row.get(i)); } } } let columns: Vec = columns .into_iter() .map(|mut col| Arc::new(col.finish()) as VectorRef) .collect(); // construct recordbatch let recordbatches = RecordBatches::try_from_columns(schema, columns) .expect("Failed to construct recordbatches from columns. Please check the schema."); let result_displayer = ResultDisplayer { result: Ok(Output::new_with_record_batches(recordbatches)), }; write!(f, "{}", result_displayer)?; Ok(()) } } struct MysqlFormatter { pub rows: Vec, } impl Display for MysqlFormatter { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { if self.rows.is_empty() { return f.write_fmt(format_args!("(Empty response)")); } // create schema let head_column = &self.rows[0]; let head_binding = head_column.columns(); let names = head_binding .iter() .map(|column| column.name_str()) .collect::>>(); let schema = Arc::new(Schema::new( names .iter() .map(|name| { ColumnSchema::new(name.to_string(), ConcreteDataType::string_datatype(), false) }) .collect(), )); // convert to string vectors let mut columns: Vec = (0..schema.num_columns()) .map(|_| StringVectorBuilder::with_capacity(schema.num_columns())) .collect(); for row in self.rows.iter() { for (i, name) in names.iter().enumerate() { columns[i].push(row.get::(name).as_deref()); } } let columns: Vec = columns .into_iter() .map(|mut col| Arc::new(col.finish()) as VectorRef) .collect(); // construct recordbatch let recordbatches = RecordBatches::try_from_columns(schema, columns) .expect("Failed to construct recordbatches from columns. Please check the schema."); let result_displayer = ResultDisplayer { result: Ok(Output::new_with_record_batches(recordbatches)), }; write!(f, "{}", result_displayer)?; Ok(()) } }