proxmox-backup/src/bin/proxmox_backup_manager/disk.rs

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use anyhow::{bail, Error};
use serde_json::Value;
use proxmox::api::{api, cli::*, RpcEnvironment, ApiHandler};
use proxmox_backup::tools::disks::{
FileSystemType,
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<Value, Error> {
let output_format = get_output_format(&param);
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 render_wearout = |value: &Value, _record: &Value| -> Result<String, Error> {
match value.as_f64() {
Some(value) => Ok(format!("{:.2} %", if value <= 100.0 { 100.0 - value } else { 0.0 })),
None => Ok(String::from("-")),
}
};
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").renderer(render_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<Value, Error> {
let output_format = get_output_format(&param);
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<Value, Error> {
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<Value, Error> {
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<Value, Error> {
let output_format = get_output_format(&param);
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<String, Error> {
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: complete the list
);
cmd_def.into()
}
#[api(
input: {
properties: {
"output-format": {
schema: OUTPUT_FORMAT,
optional: true,
},
}
}
)]
/// List systemd datastore mount units.
fn list_datastore_mounts(mut param: Value, rpcenv: &mut dyn RpcEnvironment) -> Result<Value, Error> {
let output_format = get_output_format(&param);
param["node"] = "localhost".into();
let info = &api2::node::disks::directory::API_METHOD_LIST_DATASTORE_MOUNTS;
let mut data = match info.handler {
ApiHandler::Sync(handler) => (handler)(param, info, rpcenv)?,
_ => unreachable!(),
};
let options = default_table_format_options()
.column(ColumnConfig::new("path"))
.column(ColumnConfig::new("device"))
.column(ColumnConfig::new("filesystem"))
.column(ColumnConfig::new("options"));
format_and_print_result_full(&mut data, &info.returns, &output_format, &options);
Ok(Value::Null)
}
#[api(
input: {
properties: {
name: {
schema: DATASTORE_SCHEMA,
},
disk: {
schema: BLOCKDEVICE_NAME_SCHEMA,
},
"add-datastore": {
description: "Configure a datastore using the directory.",
type: bool,
optional: true,
},
filesystem: {
type: FileSystemType,
optional: true,
},
},
},
)]
/// Create a Filesystem on an unused disk. Will be mounted under '/mnt/datastore/<name>'.
async fn create_datastore_disk(
mut param: Value,
rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
param["node"] = "localhost".into();
let info = &api2::node::disks::directory::API_METHOD_CREATE_DATASTORE_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)
}
pub fn filesystem_commands() -> CommandLineInterface {
let cmd_def = CliCommandMap::new()
.insert("list", CliCommand::new(&API_METHOD_LIST_DATASTORE_MOUNTS))
.insert("create",
CliCommand::new(&API_METHOD_CREATE_DATASTORE_DISK)
.arg_param(&["name"])
.completion_cb("disk", complete_disk_name)
);
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("fs", filesystem_commands())
.insert("zpool", zpool_commands())
.insert("initialize",
CliCommand::new(&API_METHOD_INITIALIZE_DISK)
.arg_param(&["disk"])
.completion_cb("disk", complete_disk_name)
);
cmd_def.into()
}