proxmox-backup/pbs-api-types/src/lib.rs

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//! Basic API types used by most of the PBS code.
use serde::{Deserialize, Serialize};
use anyhow::bail;
use proxmox::api::api;
use proxmox::api::schema::{ApiStringFormat, ApiType, ArraySchema, Schema, StringSchema, ReturnType};
use proxmox::const_regex;
use proxmox::{IPRE, IPRE_BRACKET, IPV4OCTET, IPV4RE, IPV6H16, IPV6LS32, IPV6RE};
#[rustfmt::skip]
#[macro_export]
macro_rules! PROXMOX_SAFE_ID_REGEX_STR { () => { r"(?:[A-Za-z0-9_][A-Za-z0-9._\-]*)" }; }
#[rustfmt::skip]
#[macro_export]
macro_rules! BACKUP_ID_RE { () => (r"[A-Za-z0-9_][A-Za-z0-9._\-]*") }
#[rustfmt::skip]
#[macro_export]
macro_rules! BACKUP_TYPE_RE { () => (r"(?:host|vm|ct)") }
#[rustfmt::skip]
#[macro_export]
macro_rules! BACKUP_TIME_RE { () => (r"[0-9]{4}-[0-9]{2}-[0-9]{2}T[0-9]{2}:[0-9]{2}:[0-9]{2}Z") }
#[rustfmt::skip]
#[macro_export]
macro_rules! SNAPSHOT_PATH_REGEX_STR {
() => (
concat!(r"(", BACKUP_TYPE_RE!(), ")/(", BACKUP_ID_RE!(), ")/(", BACKUP_TIME_RE!(), r")")
);
}
mod acl;
pub use acl::*;
mod datastore;
pub use datastore::*;
mod jobs;
pub use jobs::*;
mod key_derivation;
pub use key_derivation::{Kdf, KeyInfo};
mod network;
pub use network::*;
#[macro_use]
mod userid;
pub use userid::Authid;
pub use userid::Userid;
pub use userid::{Realm, RealmRef};
pub use userid::{Tokenname, TokennameRef};
pub use userid::{Username, UsernameRef};
pub use userid::{PROXMOX_GROUP_ID_SCHEMA, PROXMOX_TOKEN_ID_SCHEMA, PROXMOX_TOKEN_NAME_SCHEMA};
#[macro_use]
mod user;
pub use user::*;
pub use proxmox::api::upid::*;
mod crypto;
pub use crypto::{CryptMode, Fingerprint};
pub mod file_restore;
mod remote;
pub use remote::*;
mod tape;
pub use tape::*;
mod zfs;
pub use zfs::*;
#[rustfmt::skip]
#[macro_use]
mod local_macros {
macro_rules! DNS_LABEL { () => (r"(?:[a-zA-Z0-9](?:[a-zA-Z0-9\-]*[a-zA-Z0-9])?)") }
macro_rules! DNS_NAME { () => (concat!(r"(?:(?:", DNS_LABEL!() , r"\.)*", DNS_LABEL!(), ")")) }
macro_rules! CIDR_V4_REGEX_STR { () => (concat!(r"(?:", IPV4RE!(), r"/\d{1,2})$")) }
macro_rules! CIDR_V6_REGEX_STR { () => (concat!(r"(?:", IPV6RE!(), r"/\d{1,3})$")) }
macro_rules! DNS_ALIAS_LABEL { () => (r"(?:[a-zA-Z0-9_](?:[a-zA-Z0-9\-]*[a-zA-Z0-9])?)") }
macro_rules! DNS_ALIAS_NAME {
() => (concat!(r"(?:(?:", DNS_ALIAS_LABEL!() , r"\.)*", DNS_ALIAS_LABEL!(), ")"))
}
}
const_regex! {
pub IP_V4_REGEX = concat!(r"^", IPV4RE!(), r"$");
pub IP_V6_REGEX = concat!(r"^", IPV6RE!(), r"$");
pub IP_REGEX = concat!(r"^", IPRE!(), r"$");
pub CIDR_V4_REGEX = concat!(r"^", CIDR_V4_REGEX_STR!(), r"$");
pub CIDR_V6_REGEX = concat!(r"^", CIDR_V6_REGEX_STR!(), r"$");
pub CIDR_REGEX = concat!(r"^(?:", CIDR_V4_REGEX_STR!(), "|", CIDR_V6_REGEX_STR!(), r")$");
pub HOSTNAME_REGEX = r"^(?:[a-zA-Z0-9](?:[a-zA-Z0-9\-]*[a-zA-Z0-9])?)$";
pub DNS_NAME_REGEX = concat!(r"^", DNS_NAME!(), r"$");
pub DNS_ALIAS_REGEX = concat!(r"^", DNS_ALIAS_NAME!(), r"$");
pub DNS_NAME_OR_IP_REGEX = concat!(r"^(?:", DNS_NAME!(), "|", IPRE!(), r")$");
pub SHA256_HEX_REGEX = r"^[a-f0-9]{64}$"; // fixme: define in common_regex ?
pub PASSWORD_REGEX = r"^[[:^cntrl:]]*$"; // everything but control characters
pub UUID_REGEX = r"^[0-9a-f]{8}(?:-[0-9a-f]{4}){3}-[0-9a-f]{12}$";
pub SYSTEMD_DATETIME_REGEX = r"^\d{4}-\d{2}-\d{2}( \d{2}:\d{2}(:\d{2})?)?$"; // fixme: define in common_regex ?
pub FINGERPRINT_SHA256_REGEX = r"^(?:[0-9a-fA-F][0-9a-fA-F])(?::[0-9a-fA-F][0-9a-fA-F]){31}$";
/// Regex for safe identifiers.
///
/// This
/// [article](https://dwheeler.com/essays/fixing-unix-linux-filenames.html)
/// contains further information why it is reasonable to restict
/// names this way. This is not only useful for filenames, but for
/// any identifier command line tools work with.
pub PROXMOX_SAFE_ID_REGEX = concat!(r"^", PROXMOX_SAFE_ID_REGEX_STR!(), r"$");
pub SINGLE_LINE_COMMENT_REGEX = r"^[[:^cntrl:]]*$";
pub BACKUP_REPO_URL_REGEX = concat!(
r"^^(?:(?:(",
USER_ID_REGEX_STR!(), "|", APITOKEN_ID_REGEX_STR!(),
")@)?(",
DNS_NAME!(), "|", IPRE_BRACKET!(),
"):)?(?:([0-9]{1,5}):)?(", PROXMOX_SAFE_ID_REGEX_STR!(), r")$"
);
pub BLOCKDEVICE_NAME_REGEX = r"^(:?(:?h|s|x?v)d[a-z]+)|(:?nvme\d+n\d+)$";
pub SUBSCRIPTION_KEY_REGEX = concat!(r"^pbs(?:[cbsp])-[0-9a-f]{10}$");
}
pub const IP_V4_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&IP_V4_REGEX);
pub const IP_V6_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&IP_V6_REGEX);
pub const IP_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&IP_REGEX);
pub const CIDR_V4_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&CIDR_V4_REGEX);
pub const CIDR_V6_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&CIDR_V6_REGEX);
pub const CIDR_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&CIDR_REGEX);
pub const PVE_CONFIG_DIGEST_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&SHA256_HEX_REGEX);
pub const PASSWORD_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&PASSWORD_REGEX);
pub const UUID_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&UUID_REGEX);
pub const BLOCKDEVICE_NAME_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&BLOCKDEVICE_NAME_REGEX);
pub const SUBSCRIPTION_KEY_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&SUBSCRIPTION_KEY_REGEX);
pub const SYSTEMD_DATETIME_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&SYSTEMD_DATETIME_REGEX);
pub const HOSTNAME_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&HOSTNAME_REGEX);
pub const DNS_ALIAS_FORMAT: ApiStringFormat =
ApiStringFormat::Pattern(&DNS_ALIAS_REGEX);
pub const SEARCH_DOMAIN_SCHEMA: Schema =
StringSchema::new("Search domain for host-name lookup.").schema();
pub const FIRST_DNS_SERVER_SCHEMA: Schema =
StringSchema::new("First name server IP address.")
.format(&IP_FORMAT)
.schema();
pub const SECOND_DNS_SERVER_SCHEMA: Schema =
StringSchema::new("Second name server IP address.")
.format(&IP_FORMAT)
.schema();
pub const THIRD_DNS_SERVER_SCHEMA: Schema =
StringSchema::new("Third name server IP address.")
.format(&IP_FORMAT)
.schema();
pub const HOSTNAME_SCHEMA: Schema = StringSchema::new("Hostname (as defined in RFC1123).")
.format(&HOSTNAME_FORMAT)
.schema();
pub const DNS_NAME_FORMAT: ApiStringFormat =
ApiStringFormat::Pattern(&DNS_NAME_REGEX);
pub const DNS_NAME_OR_IP_FORMAT: ApiStringFormat =
ApiStringFormat::Pattern(&DNS_NAME_OR_IP_REGEX);
pub const DNS_NAME_OR_IP_SCHEMA: Schema = StringSchema::new("DNS name or IP address.")
.format(&DNS_NAME_OR_IP_FORMAT)
.schema();
pub const NODE_SCHEMA: Schema = StringSchema::new("Node name (or 'localhost')")
.format(&ApiStringFormat::VerifyFn(|node| {
if node == "localhost" || node == proxmox::tools::nodename() {
Ok(())
} else {
bail!("no such node '{}'", node);
}
}))
.schema();
pub const TIME_ZONE_SCHEMA: Schema = StringSchema::new(
"Time zone. The file '/usr/share/zoneinfo/zone.tab' contains the list of valid names.")
.format(&SINGLE_LINE_COMMENT_FORMAT)
.min_length(2)
.max_length(64)
.schema();
pub const BLOCKDEVICE_NAME_SCHEMA: Schema = StringSchema::new("Block device name (/sys/block/<name>).")
.format(&BLOCKDEVICE_NAME_FORMAT)
.min_length(3)
.max_length(64)
.schema();
pub const DISK_ARRAY_SCHEMA: Schema = ArraySchema::new(
"Disk name list.", &BLOCKDEVICE_NAME_SCHEMA)
.schema();
pub const DISK_LIST_SCHEMA: Schema = StringSchema::new(
"A list of disk names, comma separated.")
.format(&ApiStringFormat::PropertyString(&DISK_ARRAY_SCHEMA))
.schema();
pub const PASSWORD_SCHEMA: Schema = StringSchema::new("Password.")
.format(&PASSWORD_FORMAT)
.min_length(1)
.max_length(1024)
.schema();
pub const PBS_PASSWORD_SCHEMA: Schema = StringSchema::new("User Password.")
.format(&PASSWORD_FORMAT)
.min_length(5)
.max_length(64)
.schema();
pub const REALM_ID_SCHEMA: Schema = StringSchema::new("Realm name.")
.format(&PROXMOX_SAFE_ID_FORMAT)
.min_length(2)
.max_length(32)
.schema();
pub const FINGERPRINT_SHA256_FORMAT: ApiStringFormat =
ApiStringFormat::Pattern(&FINGERPRINT_SHA256_REGEX);
pub const CERT_FINGERPRINT_SHA256_SCHEMA: Schema =
StringSchema::new("X509 certificate fingerprint (sha256).")
.format(&FINGERPRINT_SHA256_FORMAT)
.schema();
pub const PROXMOX_SAFE_ID_FORMAT: ApiStringFormat =
ApiStringFormat::Pattern(&PROXMOX_SAFE_ID_REGEX);
pub const SINGLE_LINE_COMMENT_FORMAT: ApiStringFormat =
ApiStringFormat::Pattern(&SINGLE_LINE_COMMENT_REGEX);
pub const SINGLE_LINE_COMMENT_SCHEMA: Schema = StringSchema::new("Comment (single line).")
.format(&SINGLE_LINE_COMMENT_FORMAT)
.schema();
pub const SUBSCRIPTION_KEY_SCHEMA: Schema = StringSchema::new("Proxmox Backup Server subscription key.")
.format(&SUBSCRIPTION_KEY_FORMAT)
.min_length(15)
.max_length(16)
.schema();
pub const SERVICE_ID_SCHEMA: Schema = StringSchema::new("Service ID.")
.max_length(256)
.schema();
pub const PROXMOX_CONFIG_DIGEST_SCHEMA: Schema = StringSchema::new(
"Prevent changes if current configuration file has different \
SHA256 digest. This can be used to prevent concurrent \
modifications.",
)
.format(&PVE_CONFIG_DIGEST_FORMAT)
.schema();
/// API schema format definition for repository URLs
pub const BACKUP_REPO_URL: ApiStringFormat = ApiStringFormat::Pattern(&BACKUP_REPO_URL_REGEX);
// Complex type definitions
#[api()]
#[derive(Default, Serialize, Deserialize)]
/// Storage space usage information.
pub struct StorageStatus {
/// Total space (bytes).
pub total: u64,
/// Used space (bytes).
pub used: u64,
/// Available space (bytes).
pub avail: u64,
}
pub const PASSWORD_HINT_SCHEMA: Schema = StringSchema::new("Password hint.")
.format(&SINGLE_LINE_COMMENT_FORMAT)
.min_length(1)
.max_length(64)
.schema();
#[api]
#[derive(Deserialize, Serialize)]
/// RSA public key information
pub struct RsaPubKeyInfo {
/// Path to key (if stored in a file)
#[serde(skip_serializing_if="Option::is_none")]
pub path: Option<String>,
/// RSA exponent
pub exponent: String,
/// Hex-encoded RSA modulus
pub modulus: String,
/// Key (modulus) length in bits
pub length: usize,
}
impl std::convert::TryFrom<openssl::rsa::Rsa<openssl::pkey::Public>> for RsaPubKeyInfo {
type Error = anyhow::Error;
fn try_from(value: openssl::rsa::Rsa<openssl::pkey::Public>) -> Result<Self, Self::Error> {
let modulus = value.n().to_hex_str()?.to_string();
let exponent = value.e().to_dec_str()?.to_string();
let length = value.size() as usize * 8;
Ok(Self {
path: None,
exponent,
modulus,
length,
})
}
}
#[api()]
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(rename_all = "PascalCase")]
/// Describes a package for which an update is available.
pub struct APTUpdateInfo {
/// Package name
pub package: String,
/// Package title
pub title: String,
/// Package architecture
pub arch: String,
/// Human readable package description
pub description: String,
/// New version to be updated to
pub version: String,
/// Old version currently installed
pub old_version: String,
/// Package origin
pub origin: String,
/// Package priority in human-readable form
pub priority: String,
/// Package section
pub section: String,
/// URL under which the package's changelog can be retrieved
pub change_log_url: String,
/// Custom extra field for additional package information
#[serde(skip_serializing_if="Option::is_none")]
pub extra_info: Option<String>,
}
#[api()]
#[derive(Debug, Copy, Clone, PartialEq, Serialize, Deserialize)]
#[serde(rename_all = "lowercase")]
/// Node Power command type.
pub enum NodePowerCommand {
/// Restart the server
Reboot,
/// Shutdown the server
Shutdown,
}
#[api()]
#[derive(Eq, PartialEq, Debug, Serialize, Deserialize)]
#[serde(rename_all = "lowercase")]
pub enum TaskStateType {
/// Ok
OK,
/// Warning
Warning,
/// Error
Error,
/// Unknown
Unknown,
}
#[api(
properties: {
upid: { schema: UPID::API_SCHEMA },
},
)]
#[derive(Serialize, Deserialize)]
/// Task properties.
pub struct TaskListItem {
pub upid: String,
/// The node name where the task is running on.
pub node: String,
/// The Unix PID
pub pid: i64,
/// The task start time (Epoch)
pub pstart: u64,
/// The task start time (Epoch)
pub starttime: i64,
/// Worker type (arbitrary ASCII string)
pub worker_type: String,
/// Worker ID (arbitrary ASCII string)
pub worker_id: Option<String>,
/// The authenticated entity who started the task
pub user: String,
/// The task end time (Epoch)
#[serde(skip_serializing_if="Option::is_none")]
pub endtime: Option<i64>,
/// Task end status
#[serde(skip_serializing_if="Option::is_none")]
pub status: Option<String>,
}
pub const NODE_TASKS_LIST_TASKS_RETURN_TYPE: ReturnType = ReturnType {
optional: false,
schema: &ArraySchema::new(
"A list of tasks.",
&TaskListItem::API_SCHEMA,
).schema(),
};
pub use proxmox_rrd_api_types::{RRDMode, RRDTimeFrameResolution};