#![recursion_limit = "1024"] #[macro_use] extern crate log; mod admin_rpc; mod repair; mod server; use std::collections::HashSet; use std::net::SocketAddr; use std::path::PathBuf; use std::sync::Arc; use std::time::Duration; use serde::{Deserialize, Serialize}; use structopt::StructOpt; use garage_util::config::TlsConfig; use garage_util::data::*; use garage_util::error::Error; use garage_rpc::membership::*; use garage_rpc::ring::*; use garage_rpc::rpc_client::*; use admin_rpc::*; #[derive(StructOpt, Debug)] #[structopt(name = "garage")] pub struct Opt { /// RPC connect to this host to execute client operations #[structopt(short = "h", long = "rpc-host", default_value = "127.0.0.1:3901")] rpc_host: SocketAddr, #[structopt(long = "ca-cert")] ca_cert: Option, #[structopt(long = "client-cert")] client_cert: Option, #[structopt(long = "client-key")] client_key: Option, #[structopt(subcommand)] cmd: Command, } #[derive(StructOpt, Debug)] pub enum Command { /// Run Garage server #[structopt(name = "server")] Server(ServerOpt), /// Get network status #[structopt(name = "status")] Status, /// Garage node operations #[structopt(name = "node")] Node(NodeOperation), /// Bucket operations #[structopt(name = "bucket")] Bucket(BucketOperation), /// Key operations #[structopt(name = "key")] Key(KeyOperation), /// Start repair of node data #[structopt(name = "repair")] Repair(RepairOpt), /// Gather node statistics #[structopt(name = "stats")] Stats(StatsOpt), } #[derive(StructOpt, Debug)] pub struct ServerOpt { /// Configuration file #[structopt(short = "c", long = "config", default_value = "./config.toml")] config_file: PathBuf, } #[derive(StructOpt, Debug)] pub enum NodeOperation { /// Configure Garage node #[structopt(name = "configure")] Configure(ConfigureNodeOpt), /// Remove Garage node from cluster #[structopt(name = "remove")] Remove(RemoveNodeOpt), } #[derive(StructOpt, Debug)] pub struct ConfigureNodeOpt { /// Node to configure (prefix of hexadecimal node id) node_id: String, /// Location (datacenter) of the node #[structopt(short = "d", long = "datacenter")] datacenter: Option, /// Capacity (in relative terms, use 1 to represent your smallest server) #[structopt(short = "c", long = "capacity")] capacity: Option, /// Optionnal node tag #[structopt(short = "t", long = "tag")] tag: Option, } #[derive(StructOpt, Debug)] pub struct RemoveNodeOpt { /// Node to configure (prefix of hexadecimal node id) node_id: String, /// If this flag is not given, the node won't be removed #[structopt(long = "yes")] yes: bool, } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub enum BucketOperation { /// List buckets #[structopt(name = "list")] List, /// Get bucket info #[structopt(name = "info")] Info(BucketOpt), /// Create bucket #[structopt(name = "create")] Create(BucketOpt), /// Delete bucket #[structopt(name = "delete")] Delete(DeleteBucketOpt), /// Allow key to read or write to bucket #[structopt(name = "allow")] Allow(PermBucketOpt), /// Allow key to read or write to bucket #[structopt(name = "deny")] Deny(PermBucketOpt), /// Expose as website or not #[structopt(name = "website")] Website(WebsiteOpt), } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub struct WebsiteOpt { /// Create #[structopt(long = "allow")] pub allow: bool, /// Delete #[structopt(long = "deny")] pub deny: bool, /// Bucket name pub bucket: String, } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub struct BucketOpt { /// Bucket name pub name: String, } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub struct DeleteBucketOpt { /// Bucket name pub name: String, /// If this flag is not given, the bucket won't be deleted #[structopt(long = "yes")] pub yes: bool, } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub struct PermBucketOpt { /// Access key ID #[structopt(long = "key")] pub key_id: String, /// Allow/deny read operations #[structopt(long = "read")] pub read: bool, /// Allow/deny write operations #[structopt(long = "write")] pub write: bool, /// Bucket name pub bucket: String, } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub enum KeyOperation { /// List keys #[structopt(name = "list")] List, /// Get key info #[structopt(name = "info")] Info(KeyOpt), /// Create new key #[structopt(name = "new")] New(KeyNewOpt), /// Rename key #[structopt(name = "rename")] Rename(KeyRenameOpt), /// Delete key #[structopt(name = "delete")] Delete(KeyDeleteOpt), } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub struct KeyOpt { /// ID of the key key_id: String, } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub struct KeyNewOpt { /// Name of the key #[structopt(long = "name", default_value = "Unnamed key")] name: String, } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub struct KeyRenameOpt { /// ID of the key key_id: String, /// New name of the key new_name: String, } #[derive(Serialize, Deserialize, StructOpt, Debug)] pub struct KeyDeleteOpt { /// ID of the key key_id: String, /// Confirm deletion #[structopt(long = "yes")] yes: bool, } #[derive(Serialize, Deserialize, StructOpt, Debug, Clone)] pub struct RepairOpt { /// Launch repair operation on all nodes #[structopt(short = "a", long = "all-nodes")] pub all_nodes: bool, /// Confirm the launch of the repair operation #[structopt(long = "yes")] pub yes: bool, #[structopt(subcommand)] pub what: Option, } #[derive(Serialize, Deserialize, StructOpt, Debug, Eq, PartialEq, Clone)] pub enum RepairWhat { /// Only do a full sync of metadata tables #[structopt(name = "tables")] Tables, /// Only repair (resync/rebalance) the set of stored blocks #[structopt(name = "blocks")] Blocks, /// Only redo the propagation of object deletions to the version table (slow) #[structopt(name = "versions")] Versions, /// Only redo the propagation of version deletions to the block ref table (extremely slow) #[structopt(name = "block_refs")] BlockRefs, } #[derive(Serialize, Deserialize, StructOpt, Debug, Clone)] pub struct StatsOpt { /// Gather statistics from all nodes #[structopt(short = "a", long = "all-nodes")] pub all_nodes: bool, /// Gather detailed statistics (this can be long) #[structopt(short = "d", long = "detailed")] pub detailed: bool, } #[tokio::main] async fn main() { pretty_env_logger::init(); let opt = Opt::from_args(); let tls_config = match (opt.ca_cert, opt.client_cert, opt.client_key) { (Some(ca_cert), Some(client_cert), Some(client_key)) => Some(TlsConfig { ca_cert, node_cert: client_cert, node_key: client_key, }), (None, None, None) => None, _ => { warn!("Missing one of: --ca-cert, --node-cert, --node-key. Not using TLS."); None } }; let rpc_http_cli = Arc::new(RpcHttpClient::new(8, &tls_config).expect("Could not create RPC client")); let membership_rpc_cli = RpcAddrClient::new(rpc_http_cli.clone(), MEMBERSHIP_RPC_PATH.to_string()); let admin_rpc_cli = RpcAddrClient::new(rpc_http_cli.clone(), ADMIN_RPC_PATH.to_string()); let resp = match opt.cmd { Command::Server(server_opt) => { // Abort on panic (same behavior as in Go) std::panic::set_hook(Box::new(|panic_info| { error!("{}", panic_info.to_string()); std::process::abort(); })); server::run_server(server_opt.config_file).await } Command::Status => cmd_status(membership_rpc_cli, opt.rpc_host).await, Command::Node(NodeOperation::Configure(configure_opt)) => { cmd_configure(membership_rpc_cli, opt.rpc_host, configure_opt).await } Command::Node(NodeOperation::Remove(remove_opt)) => { cmd_remove(membership_rpc_cli, opt.rpc_host, remove_opt).await } Command::Bucket(bo) => { cmd_admin(admin_rpc_cli, opt.rpc_host, AdminRPC::BucketOperation(bo)).await } Command::Key(bo) => { cmd_admin(admin_rpc_cli, opt.rpc_host, AdminRPC::KeyOperation(bo)).await } Command::Repair(ro) => { cmd_admin(admin_rpc_cli, opt.rpc_host, AdminRPC::LaunchRepair(ro)).await } Command::Stats(so) => { cmd_admin(admin_rpc_cli, opt.rpc_host, AdminRPC::Stats(so)).await } }; if let Err(e) = resp { error!("Error: {}", e); } } async fn cmd_status(rpc_cli: RpcAddrClient, rpc_host: SocketAddr) -> Result<(), Error> { let status = match rpc_cli .call(&rpc_host, &Message::PullStatus, ADMIN_RPC_TIMEOUT) .await?? { Message::AdvertiseNodesUp(nodes) => nodes, resp => return Err(Error::Message(format!("Invalid RPC response: {:?}", resp))), }; let config = match rpc_cli .call(&rpc_host, &Message::PullConfig, ADMIN_RPC_TIMEOUT) .await?? { Message::AdvertiseConfig(cfg) => cfg, resp => return Err(Error::Message(format!("Invalid RPC response: {:?}", resp))), }; println!("Healthy nodes:"); for adv in status.iter().filter(|x| x.is_up) { if let Some(cfg) = config.members.get(&adv.id) { println!( "{:?}\t{}\t{}\t[{}]\t{}\t{}", adv.id, adv.state_info.hostname, adv.addr, cfg.tag, cfg.datacenter, cfg.capacity ); } else { println!( "{:?}\t{}\t{}\tUNCONFIGURED/REMOVED", adv.id, adv.state_info.hostname, adv.addr ); } } let status_keys = status.iter().map(|x| x.id).collect::>(); let failure_case_1 = status.iter().any(|x| !x.is_up); let failure_case_2 = config .members .iter() .any(|(id, _)| !status_keys.contains(id)); if failure_case_1 || failure_case_2 { println!("\nFailed nodes:"); for adv in status.iter().filter(|x| !x.is_up) { if let Some(cfg) = config.members.get(&adv.id) { println!( "{:?}\t{}\t{}\t[{}]\t{}\t{}\tlast seen: {}s ago", adv.id, adv.state_info.hostname, adv.addr, cfg.tag, cfg.datacenter, cfg.capacity, (now_msec() - adv.last_seen) / 1000, ); } } for (id, cfg) in config.members.iter() { if !status.iter().any(|x| x.id == *id) { println!( "{:?}\t{}\t{}\t{}\tnever seen", id, cfg.tag, cfg.datacenter, cfg.capacity ); } } } Ok(()) } async fn cmd_configure( rpc_cli: RpcAddrClient, rpc_host: SocketAddr, args: ConfigureNodeOpt, ) -> Result<(), Error> { let status = match rpc_cli .call(&rpc_host, &Message::PullStatus, ADMIN_RPC_TIMEOUT) .await?? { Message::AdvertiseNodesUp(nodes) => nodes, resp => return Err(Error::Message(format!("Invalid RPC response: {:?}", resp))), }; let mut candidates = vec![]; for adv in status.iter() { if hex::encode(&adv.id).starts_with(&args.node_id) { candidates.push(adv.id); } } if candidates.len() != 1 { return Err(Error::Message(format!( "{} matching nodes", candidates.len() ))); } let mut config = match rpc_cli .call(&rpc_host, &Message::PullConfig, ADMIN_RPC_TIMEOUT) .await?? { Message::AdvertiseConfig(cfg) => cfg, resp => return Err(Error::Message(format!("Invalid RPC response: {:?}", resp))), }; let new_entry = match config.members.get(&candidates[0]) { None => NetworkConfigEntry { datacenter: args .datacenter .expect("Please specifiy a datacenter with the -d flag"), capacity: args .capacity .expect("Please specifiy a capacity with the -c flag"), tag: args.tag.unwrap_or("".to_string()), }, Some(old) => NetworkConfigEntry { datacenter: args.datacenter.unwrap_or(old.datacenter.to_string()), capacity: args.capacity.unwrap_or(old.capacity), tag: args.tag.unwrap_or(old.tag.to_string()), }, }; config.members.insert(candidates[0].clone(), new_entry); config.version += 1; rpc_cli .call( &rpc_host, &Message::AdvertiseConfig(config), ADMIN_RPC_TIMEOUT, ) .await??; Ok(()) } async fn cmd_remove( rpc_cli: RpcAddrClient, rpc_host: SocketAddr, args: RemoveNodeOpt, ) -> Result<(), Error> { let mut config = match rpc_cli .call(&rpc_host, &Message::PullConfig, ADMIN_RPC_TIMEOUT) .await?? { Message::AdvertiseConfig(cfg) => cfg, resp => return Err(Error::Message(format!("Invalid RPC response: {:?}", resp))), }; let mut candidates = vec![]; for (key, _) in config.members.iter() { if hex::encode(key).starts_with(&args.node_id) { candidates.push(*key); } } if candidates.len() != 1 { return Err(Error::Message(format!( "{} matching nodes", candidates.len() ))); } if !args.yes { return Err(Error::Message(format!( "Add the flag --yes to really remove {:?} from the cluster", candidates[0] ))); } config.members.remove(&candidates[0]); config.version += 1; rpc_cli .call( &rpc_host, &Message::AdvertiseConfig(config), ADMIN_RPC_TIMEOUT, ) .await??; Ok(()) } async fn cmd_admin( rpc_cli: RpcAddrClient, rpc_host: SocketAddr, args: AdminRPC, ) -> Result<(), Error> { match rpc_cli.call(&rpc_host, args, ADMIN_RPC_TIMEOUT).await?? { AdminRPC::Ok(msg) => { println!("{}", msg); } AdminRPC::BucketList(bl) => { println!("List of buckets:"); for bucket in bl { println!("{}", bucket); } } AdminRPC::BucketInfo(bucket) => { println!("{:?}", bucket); } AdminRPC::KeyList(kl) => { println!("List of keys:"); for key in kl { println!("{}\t{}", key.0, key.1); } } AdminRPC::KeyInfo(key) => { println!("{:?}", key); } r => { error!("Unexpected response: {:?}", r); } } Ok(()) }