use anyhow::{bail, Error}; use serde_json::Value; use proxmox::api::{api, cli::*, RpcEnvironment, ApiHandler}; use proxmox_backup::tools::disks::{ SmartAttribute, complete_disk_name, }; use proxmox_backup::api2::node::disks::{ zfs::DISK_LIST_SCHEMA, zfs::ZFS_ASHIFT_SCHEMA, zfs::ZfsRaidLevel, zfs::ZfsCompressionType, }; use proxmox_backup::api2::{self, types::* }; #[api( input: { properties: { "output-format": { schema: OUTPUT_FORMAT, optional: true, }, } } )] /// Local disk list. fn list_disks(mut param: Value, rpcenv: &mut dyn RpcEnvironment) -> Result { let output_format = get_output_format(¶m); param["node"] = "localhost".into(); let info = &api2::node::disks::API_METHOD_LIST_DISKS; let mut data = match info.handler { ApiHandler::Sync(handler) => (handler)(param, info, rpcenv)?, _ => unreachable!(), }; let options = default_table_format_options() .column(ColumnConfig::new("name")) .column(ColumnConfig::new("used")) .column(ColumnConfig::new("gpt")) .column(ColumnConfig::new("disk-type")) .column(ColumnConfig::new("size")) .column(ColumnConfig::new("model")) .column(ColumnConfig::new("wearout")) .column(ColumnConfig::new("status")) ; format_and_print_result_full(&mut data, info.returns, &output_format, &options); Ok(Value::Null) } #[api( input: { properties: { disk: { schema: BLOCKDEVICE_NAME_SCHEMA, }, "output-format": { schema: OUTPUT_FORMAT, optional: true, }, } }, returns: { description: "SMART attributes.", type: Array, items: { type: SmartAttribute, }, } )] /// Show SMART attributes. fn smart_attributes(mut param: Value, rpcenv: &mut dyn RpcEnvironment) -> Result { let output_format = get_output_format(¶m); param["node"] = "localhost".into(); let info = &api2::node::disks::API_METHOD_SMART_STATUS; let mut data = match info.handler { ApiHandler::Sync(handler) => (handler)(param, info, rpcenv)?, _ => unreachable!(), }; let mut data = data["attributes"].take(); let options = default_table_format_options(); format_and_print_result_full(&mut data, API_METHOD_SMART_ATTRIBUTES.returns, &output_format, &options); Ok(Value::Null) } #[api( input: { properties: { disk: { schema: BLOCKDEVICE_NAME_SCHEMA, }, uuid: { description: "UUID for the GPT table.", type: String, optional: true, max_length: 36, }, }, }, )] /// Initialize empty Disk with GPT async fn initialize_disk( mut param: Value, rpcenv: &mut dyn RpcEnvironment, ) -> Result { param["node"] = "localhost".into(); let info = &api2::node::disks::API_METHOD_INITIALIZE_DISK; let result = match info.handler { ApiHandler::Sync(handler) => (handler)(param, info, rpcenv)?, _ => unreachable!(), }; crate::wait_for_local_worker(result.as_str().unwrap()).await?; Ok(Value::Null) } #[api( input: { properties: { name: { schema: DATASTORE_SCHEMA, }, devices: { schema: DISK_LIST_SCHEMA, }, raidlevel: { type: ZfsRaidLevel, }, ashift: { schema: ZFS_ASHIFT_SCHEMA, optional: true, }, compression: { type: ZfsCompressionType, optional: true, }, "add-datastore": { description: "Configure a datastore using the zpool.", type: bool, optional: true, }, }, }, )] /// create a zfs pool async fn create_zpool( mut param: Value, rpcenv: &mut dyn RpcEnvironment, ) -> Result { param["node"] = "localhost".into(); let info = &api2::node::disks::zfs::API_METHOD_CREATE_ZPOOL; let result = match info.handler { ApiHandler::Sync(handler) => (handler)(param, info, rpcenv)?, _ => unreachable!(), }; crate::wait_for_local_worker(result.as_str().unwrap()).await?; Ok(Value::Null) } #[api( input: { properties: { "output-format": { schema: OUTPUT_FORMAT, optional: true, }, } } )] /// Local zfs pools. fn list_zpools(mut param: Value, rpcenv: &mut dyn RpcEnvironment) -> Result { let output_format = get_output_format(¶m); param["node"] = "localhost".into(); let info = &api2::node::disks::zfs::API_METHOD_LIST_ZPOOLS; let mut data = match info.handler { ApiHandler::Sync(handler) => (handler)(param, info, rpcenv)?, _ => unreachable!(), }; let render_usage = |value: &Value, record: &Value| -> Result { let value = value.as_u64().unwrap_or(0); let size = match record["size"].as_u64() { Some(size) => size, None => bail!("missing size property"), }; if size == 0 { bail!("got zero size"); } Ok(format!("{:.2} %", (value as f64)/(size as f64))) }; let options = default_table_format_options() .column(ColumnConfig::new("name")) .column(ColumnConfig::new("size")) .column(ColumnConfig::new("alloc").right_align(true).renderer(render_usage)) .column(ColumnConfig::new("health")); format_and_print_result_full(&mut data, info.returns, &output_format, &options); Ok(Value::Null) } pub fn zpool_commands() -> CommandLineInterface { let cmd_def = CliCommandMap::new() .insert("list", CliCommand::new(&API_METHOD_LIST_ZPOOLS)) .insert("create", CliCommand::new(&API_METHOD_CREATE_ZPOOL) .arg_param(&["name"]) .completion_cb("devices", complete_disk_name) // fixme: comlete the list ); cmd_def.into() } pub fn disk_commands() -> CommandLineInterface { let cmd_def = CliCommandMap::new() .insert("list", CliCommand::new(&API_METHOD_LIST_DISKS)) .insert("smart-attributes", CliCommand::new(&API_METHOD_SMART_ATTRIBUTES) .arg_param(&["disk"]) .completion_cb("disk", complete_disk_name) ) .insert("zpool", zpool_commands()) .insert("initialize", CliCommand::new(&API_METHOD_INITIALIZE_DISK) .arg_param(&["disk"]) .completion_cb("disk", complete_disk_name) ); cmd_def.into() }