tyler/proxmox-backup
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
ec34f7eba0
proxmox-backup/src/bin/proxmox-backup-client.rs

1457 lines
46 KiB
Rust
Raw Blame History

//#[macro_use]
extern crate proxmox_backup;
use failure::*;
//use std::os::unix::io::AsRawFd;
use chrono::{Local, Utc, TimeZone};
use std::path::{Path, PathBuf};
use std::collections::{HashSet, HashMap};
use std::io::Write;
use proxmox_backup::tools;
use proxmox_backup::cli::*;
use proxmox_backup::api_schema::*;
use proxmox_backup::api_schema::router::*;
use proxmox_backup::client::*;
use proxmox_backup::backup::*;
use proxmox_backup::pxar;
//use proxmox_backup::backup::image_index::*;
//use proxmox_backup::config::datastore;
//use proxmox_backup::pxar::encoder::*;
//use proxmox_backup::backup::datastore::*;
use serde_json::{json, Value};
//use hyper::Body;
use std::sync::Arc;
use regex::Regex;
use xdg::BaseDirectories;
use lazy_static::lazy_static;
use futures::*;
use tokio::sync::mpsc;
lazy_static! {
static ref BACKUPSPEC_REGEX: Regex = Regex::new(r"^([a-zA-Z0-9_-]+\.(?:pxar|img|conf|log)):(.+)$").unwrap();
static ref REPO_URL_SCHEMA: Arc<Schema> = Arc::new(
StringSchema::new("Repository URL.")
.format(BACKUP_REPO_URL.clone())
.max_length(256)
.into()
);
}
fn get_default_repository() -> Option<String> {
std::env::var("PBS_REPOSITORY").ok()
}
fn extract_repository_from_value(
param: &Value,
) -> Result<BackupRepository, Error> {
let repo_url = param["repository"]
.as_str()
.map(String::from)
.or_else(get_default_repository)
.ok_or_else(|| format_err!("unable to get (default) repository"))?;
let repo: BackupRepository = repo_url.parse()?;
Ok(repo)
}
fn extract_repository_from_map(
param: &HashMap<String, String>,
) -> Option<BackupRepository> {
param.get("repository")
.map(String::from)
.or_else(get_default_repository)
.and_then(|repo_url| repo_url.parse::<BackupRepository>().ok())
}
fn record_repository(repo: &BackupRepository) {
let base = match BaseDirectories::with_prefix("proxmox-backup") {
Ok(v) => v,
_ => return,
};
// usually $HOME/.cache/proxmox-backup/repo-list
let path = match base.place_cache_file("repo-list") {
Ok(v) => v,
_ => return,
};
let mut data = tools::file_get_json(&path, None).unwrap_or(json!({}));
let repo = repo.to_string();
data[&repo] = json!{ data[&repo].as_i64().unwrap_or(0) + 1 };
let mut map = serde_json::map::Map::new();
loop {
let mut max_used = 0;
let mut max_repo = None;
for (repo, count) in data.as_object().unwrap() {
if map.contains_key(repo) { continue; }
if let Some(count) = count.as_i64() {
if count > max_used {
max_used = count;
max_repo = Some(repo);
}
}
}
if let Some(repo) = max_repo {
map.insert(repo.to_owned(), json!(max_used));
} else {
break;
}
if map.len() > 10 { // store max. 10 repos
break;
}
}
let new_data = json!(map);
let _ = tools::file_set_contents(path, new_data.to_string().as_bytes(), None);
}
fn complete_repository(_arg: &str, _param: &HashMap<String, String>) -> Vec<String> {
let mut result = vec![];
let base = match BaseDirectories::with_prefix("proxmox-backup") {
Ok(v) => v,
_ => return result,
};
// usually $HOME/.cache/proxmox-backup/repo-list
let path = match base.place_cache_file("repo-list") {
Ok(v) => v,
_ => return result,
};
let data = tools::file_get_json(&path, None).unwrap_or(json!({}));
if let Some(map) = data.as_object() {
for (repo, _count) in map {
result.push(repo.to_owned());
}
}
result
}
fn backup_directory<P: AsRef<Path>>(
client: &BackupClient,
dir_path: P,
archive_name: &str,
chunk_size: Option<usize>,
device_set: Option<HashSet<u64>>,
verbose: bool,
skip_lost_and_found: bool,
crypt_config: Option<Arc<CryptConfig>>,
) -> Result<(), Error> {
let pxar_stream = PxarBackupStream::open(dir_path.as_ref(), device_set, verbose, skip_lost_and_found)?;
let chunk_stream = ChunkStream::new(pxar_stream, chunk_size);
let (tx, rx) = mpsc::channel(10); // allow to buffer 10 chunks
let stream = rx
.map_err(Error::from)
.and_then(|x| x); // flatten
// spawn chunker inside a separate task so that it can run parallel
tokio::spawn(
tx.send_all(chunk_stream.then(|r| Ok(r)))
.map_err(|_| {}).map(|_| ())
);
client.upload_stream(archive_name, stream, "dynamic", None, crypt_config).wait()?;
Ok(())
}
fn backup_image<P: AsRef<Path>>(
client: &BackupClient,
image_path: P,
archive_name: &str,
image_size: u64,
chunk_size: Option<usize>,
_verbose: bool,
crypt_config: Option<Arc<CryptConfig>>,
) -> Result<(), Error> {
let path = image_path.as_ref().to_owned();
let file = tokio::fs::File::open(path).wait()?;
let stream = tokio::codec::FramedRead::new(file, tokio::codec::BytesCodec::new())
.map_err(Error::from);
let stream = FixedChunkStream::new(stream, chunk_size.unwrap_or(4*1024*1024));
client.upload_stream(archive_name, stream, "fixed", Some(image_size), crypt_config).wait()?;
Ok(())
}
fn strip_server_file_expenstions(list: Vec<String>) -> Vec<String> {
let mut result = vec![];
for file in list.into_iter() {
if file.ends_with(".didx") {
result.push(file[..file.len()-5].to_owned());
} else if file.ends_with(".fidx") {
result.push(file[..file.len()-5].to_owned());
} else if file.ends_with(".blob") {
result.push(file[..file.len()-5].to_owned());
} else {
result.push(file); // should not happen
}
}
result
}
fn list_backup_groups(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let repo = extract_repository_from_value(&param)?;
let client = HttpClient::new(repo.host(), repo.user())?;
let path = format!("api2/json/admin/datastore/{}/groups", repo.store());
let mut result = client.get(&path, None).wait()?;
record_repository(&repo);
// fixme: implement and use output formatter instead ..
let list = result["data"].as_array_mut().unwrap();
list.sort_unstable_by(|a, b| {
let a_id = a["backup-id"].as_str().unwrap();
let a_backup_type = a["backup-type"].as_str().unwrap();
let b_id = b["backup-id"].as_str().unwrap();
let b_backup_type = b["backup-type"].as_str().unwrap();
let type_order = a_backup_type.cmp(b_backup_type);
if type_order == std::cmp::Ordering::Equal {
a_id.cmp(b_id)
} else {
type_order
}
});
let output_format = param["output-format"].as_str().unwrap_or("text").to_owned();
let mut result = vec![];
for item in list {
let id = item["backup-id"].as_str().unwrap();
let btype = item["backup-type"].as_str().unwrap();
let epoch = item["last-backup"].as_i64().unwrap();
let last_backup = Utc.timestamp(epoch, 0);
let backup_count = item["backup-count"].as_u64().unwrap();
let group = BackupGroup::new(btype, id);
let path = group.group_path().to_str().unwrap().to_owned();
let files = item["files"].as_array().unwrap().iter().map(|v| v.as_str().unwrap().to_owned()).collect();
let files = strip_server_file_expenstions(files);
if output_format == "text" {
println!(
"{:20} | {} | {:5} | {}",
path,
BackupDir::backup_time_to_string(last_backup),
backup_count,
tools::join(&files, ' '),
);
} else {
result.push(json!({
"backup-type": btype,
"backup-id": id,
"last-backup": epoch,
"backup-count": backup_count,
"files": files,
}));
}
}
if output_format != "text" { format_and_print_result(&result.into(), &output_format); }
Ok(Value::Null)
}
fn list_snapshots(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let repo = extract_repository_from_value(&param)?;
let output_format = param["output-format"].as_str().unwrap_or("text").to_owned();
let client = HttpClient::new(repo.host(), repo.user())?;
let path = format!("api2/json/admin/datastore/{}/snapshots", repo.store());
let mut args = json!({});
if let Some(path) = param["group"].as_str() {
let group = BackupGroup::parse(path)?;
args["backup-type"] = group.backup_type().into();
args["backup-id"] = group.backup_id().into();
}
let result = client.get(&path, Some(args)).wait()?;
record_repository(&repo);
let list = result["data"].as_array().unwrap();
let mut result = vec![];
for item in list {
let id = item["backup-id"].as_str().unwrap();
let btype = item["backup-type"].as_str().unwrap();
let epoch = item["backup-time"].as_i64().unwrap();
let snapshot = BackupDir::new(btype, id, epoch);
let path = snapshot.relative_path().to_str().unwrap().to_owned();
let files = item["files"].as_array().unwrap().iter().map(|v| v.as_str().unwrap().to_owned()).collect();
let files = strip_server_file_expenstions(files);
if output_format == "text" {
println!("{} | {}", path, tools::join(&files, ' '));
} else {
result.push(json!({
"backup-type": btype,
"backup-id": id,
"backup-time": epoch,
"files": files,
}));
}
}
if output_format != "text" { format_and_print_result(&result.into(), &output_format); }
Ok(Value::Null)
}
fn forget_snapshots(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let repo = extract_repository_from_value(&param)?;
let path = tools::required_string_param(&param, "snapshot")?;
let snapshot = BackupDir::parse(path)?;
let mut client = HttpClient::new(repo.host(), repo.user())?;
let path = format!("api2/json/admin/datastore/{}/snapshots", repo.store());
let result = client.delete(&path, Some(json!({
"backup-type": snapshot.group().backup_type(),
"backup-id": snapshot.group().backup_id(),
"backup-time": snapshot.backup_time().timestamp(),
}))).wait()?;
record_repository(&repo);
Ok(result)
}
fn start_garbage_collection(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let repo = extract_repository_from_value(&param)?;
let mut client = HttpClient::new(repo.host(), repo.user())?;
let path = format!("api2/json/admin/datastore/{}/gc", repo.store());
let result = client.post(&path, None).wait()?;
record_repository(&repo);
Ok(result)
}
fn parse_backupspec(value: &str) -> Result<(&str, &str), Error> {
if let Some(caps) = BACKUPSPEC_REGEX.captures(value) {
return Ok((caps.get(1).unwrap().as_str(), caps.get(2).unwrap().as_str()));
}
bail!("unable to parse directory specification '{}'", value);
}
fn create_backup(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let repo = extract_repository_from_value(&param)?;
let backupspec_list = tools::required_array_param(&param, "backupspec")?;
let all_file_systems = param["all-file-systems"].as_bool().unwrap_or(false);
let skip_lost_and_found = param["skip-lost-and-found"].as_bool().unwrap_or(false);
let verbose = param["verbose"].as_bool().unwrap_or(false);
let chunk_size_opt = param["chunk-size"].as_u64().map(|v| (v*1024) as usize);
if let Some(size) = chunk_size_opt {
verify_chunk_size(size)?;
}
let keyfile = param["keyfile"].as_str().map(|p| PathBuf::from(p));
let backup_id = param["host-id"].as_str().unwrap_or(&tools::nodename());
let include_dev = param["include-dev"].as_array();
let mut devices = if all_file_systems { None } else { Some(HashSet::new()) };
if let Some(include_dev) = include_dev {
if all_file_systems {
bail!("option 'all-file-systems' conflicts with option 'include-dev'");
}
let mut set = HashSet::new();
for path in include_dev {
let path = path.as_str().unwrap();
let stat = nix::sys::stat::stat(path)
.map_err(|err| format_err!("fstat {:?} failed - {}", path, err))?;
set.insert(stat.st_dev);
}
devices = Some(set);
}
let mut upload_list = vec![];
enum BackupType { PXAR, IMAGE, CONFIG, LOGFILE };
for backupspec in backupspec_list {
let (target, filename) = parse_backupspec(backupspec.as_str().unwrap())?;
use std::os::unix::fs::FileTypeExt;
let metadata = match std::fs::metadata(filename) {
Ok(m) => m,
Err(err) => bail!("unable to access '{}' - {}", filename, err),
};
let file_type = metadata.file_type();
let extension = Path::new(target).extension().map(|s| s.to_str().unwrap()).unwrap();
match extension {
"pxar" => {
if !file_type.is_dir() {
bail!("got unexpected file type (expected directory)");
}
upload_list.push((BackupType::PXAR, filename.to_owned(), target.to_owned(), 0));
}
"img" => {
if !(file_type.is_file() || file_type.is_block_device()) {
bail!("got unexpected file type (expected file or block device)");
}
let size = tools::image_size(&PathBuf::from(filename))?;
if size == 0 { bail!("got zero-sized file '{}'", filename); }
upload_list.push((BackupType::IMAGE, filename.to_owned(), target.to_owned(), size));
}
"conf" => {
if !file_type.is_file() {
bail!("got unexpected file type (expected regular file)");
}
upload_list.push((BackupType::CONFIG, filename.to_owned(), target.to_owned(), metadata.len()));
}
"log" => {
if !file_type.is_file() {
bail!("got unexpected file type (expected regular file)");
}
upload_list.push((BackupType::LOGFILE, filename.to_owned(), target.to_owned(), metadata.len()));
}
_ => {
bail!("got unknown archive extension '{}'", extension);
}
}
}
let backup_time = Utc.timestamp(Utc::now().timestamp(), 0);
let client = HttpClient::new(repo.host(), repo.user())?;
record_repository(&repo);
println!("Starting backup");
println!("Client name: {}", tools::nodename());
println!("Start Time: {}", backup_time.to_rfc3339());
let (crypt_config, rsa_encrypted_key) = match keyfile {
None => (None, None),
Some(path) => {
let (key, created) = load_and_decrtypt_key(&path, get_encryption_key_password)?;
let crypt_config = CryptConfig::new(key)?;
let path = master_pubkey_path()?;
if path.exists() {
let pem_data = proxmox_backup::tools::file_get_contents(&path)?;
let rsa = openssl::rsa::Rsa::public_key_from_pem(&pem_data)?;
let enc_key = crypt_config.generate_rsa_encoded_key(rsa, created)?;
(Some(Arc::new(crypt_config)), Some(enc_key))
} else {
(Some(Arc::new(crypt_config)), None)
}
}
};
let client = client.start_backup(repo.store(), "host", &backup_id, verbose).wait()?;
for (backup_type, filename, target, size) in upload_list {
match backup_type {
BackupType::CONFIG => {
println!("Upload config file '{}' to '{:?}' as {}", filename, repo, target);
client.upload_blob_from_file(&filename, &target, crypt_config.clone(), true).wait()?;
}
BackupType::LOGFILE => {
println!("Upload log file '{}' to '{:?}' as {}", filename, repo, target);
client.upload_blob_from_file(&filename, &target, crypt_config.clone(), true).wait()?;
}
BackupType::PXAR => {
println!("Upload directory '{}' to '{:?}' as {}", filename, repo, target);
backup_directory(
&client,
&filename,
&target,
chunk_size_opt,
devices.clone(),
verbose,
skip_lost_and_found,
crypt_config.clone(),
)?;
}
BackupType::IMAGE => {
println!("Upload image '{}' to '{:?}' as {}", filename, repo, target);
backup_image(
&client,
&filename,
&target,
size,
chunk_size_opt,
verbose,
crypt_config.clone(),
)?;
}
}
}
if let Some(rsa_encrypted_key) = rsa_encrypted_key {
let target = "rsa-encrypted.key";
println!("Upload RSA encoded key to '{:?}' as {}", repo, target);
client.upload_blob_from_data(rsa_encrypted_key, target, None, false).wait()?;
// openssl rsautl -decrypt -inkey master-private.pem -in rsa-encrypted.key -out t
/*
let mut buffer2 = vec![0u8; rsa.size() as usize];
let pem_data = proxmox_backup::tools::file_get_contents("master-private.pem")?;
let rsa = openssl::rsa::Rsa::private_key_from_pem(&pem_data)?;
let len = rsa.private_decrypt(&buffer, &mut buffer2, openssl::rsa::Padding::PKCS1)?;
println!("TEST {} {:?}", len, buffer2);
*/
}
client.finish().wait()?;
let end_time = Utc.timestamp(Utc::now().timestamp(), 0);
let elapsed = end_time.signed_duration_since(backup_time);
println!("Duration: {}", elapsed);
println!("End Time: {}", end_time.to_rfc3339());
Ok(Value::Null)
}
fn complete_backup_source(arg: &str, param: &HashMap<String, String>) -> Vec<String> {
let mut result = vec![];
let data: Vec<&str> = arg.splitn(2, ':').collect();
if data.len() != 2 {
result.push(String::from("root.pxar:/"));
result.push(String::from("etc.pxar:/etc"));
return result;
}
let files = tools::complete_file_name(data[1], param);
for file in files {
result.push(format!("{}:{}", data[0], file));
}
result
}
fn restore(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let repo = extract_repository_from_value(&param)?;
let verbose = param["verbose"].as_bool().unwrap_or(false);
let archive_name = tools::required_string_param(&param, "archive-name")?;
let client = HttpClient::new(repo.host(), repo.user())?;
record_repository(&repo);
let path = tools::required_string_param(&param, "snapshot")?;
let (backup_type, backup_id, backup_time) = if path.matches('/').count() == 1 {
let group = BackupGroup::parse(path)?;
let path = format!("api2/json/admin/datastore/{}/snapshots", repo.store());
let result = client.get(&path, Some(json!({
"backup-type": group.backup_type(),
"backup-id": group.backup_id(),
}))).wait()?;
let list = result["data"].as_array().unwrap();
if list.len() == 0 {
bail!("backup group '{}' does not contain any snapshots:", path);
}
let epoch = list[0]["backup-time"].as_i64().unwrap();
let backup_time = Utc.timestamp(epoch, 0);
(group.backup_type().to_owned(), group.backup_id().to_owned(), backup_time)
} else {
let snapshot = BackupDir::parse(path)?;
(snapshot.group().backup_type().to_owned(), snapshot.group().backup_id().to_owned(), snapshot.backup_time())
};
let target = tools::required_string_param(&param, "target")?;
let target = if target == "-" { None } else { Some(target) };
let keyfile = param["keyfile"].as_str().map(|p| PathBuf::from(p));
let crypt_config = match keyfile {
None => None,
Some(path) => {
let (key, _) = load_and_decrtypt_key(&path, get_encryption_key_password)?;
Some(Arc::new(CryptConfig::new(key)?))
}
};
let server_archive_name = if archive_name.ends_with(".pxar") {
format!("{}.didx", archive_name)
} else if archive_name.ends_with(".img") {
format!("{}.fidx", archive_name)
} else {
format!("{}.blob", archive_name)
};
let client = client.start_backup_reader(repo.store(), &backup_type, &backup_id, backup_time, true).wait()?;
use std::os::unix::fs::OpenOptionsExt;
let tmpfile = std::fs::OpenOptions::new()
.write(true)
.read(true)
.custom_flags(libc::O_TMPFILE)
.open("/tmp")?;
if server_archive_name.ends_with(".blob") {
let writer = Vec::with_capacity(1024*1024);
let blob_data = client.download(&server_archive_name, writer).wait()?;
let blob = DataBlob::from_raw(blob_data)?;
blob.verify_crc()?;
let raw_data = match crypt_config {
Some(ref crypt_config) => blob.decode(Some(crypt_config))?,
None => blob.decode(None)?,
};
if let Some(target) = target {
crate::tools::file_set_contents(target, &raw_data, None)?;
} else {
let stdout = std::io::stdout();
let mut writer = stdout.lock();
writer.write_all(&raw_data)
.map_err(|err| format_err!("unable to pipe data - {}", err))?;
}
} else if server_archive_name.ends_with(".didx") {
let tmpfile = client.download(&server_archive_name, tmpfile).wait()?;
let index = DynamicIndexReader::new(tmpfile)
.map_err(|err| format_err!("unable to read dynamic index '{}' - {}", archive_name, err))?;
let most_used = index.find_most_used_chunks(8);
let chunk_reader = RemoteChunkReader::new(client.clone(), crypt_config, most_used);
let mut reader = BufferedDynamicReader::new(index, chunk_reader);
if let Some(target) = target {
let feature_flags = pxar::CA_FORMAT_DEFAULT;
let mut decoder = pxar::SequentialDecoder::new(&mut reader, feature_flags, |path| {
if verbose {
println!("{:?}", path);
}
Ok(())
});
decoder.restore(Path::new(target), &Vec::new())?;
} else {
let stdout = std::io::stdout();
let mut writer = stdout.lock();
std::io::copy(&mut reader, &mut writer)
.map_err(|err| format_err!("unable to pipe data - {}", err))?;
}
} else if server_archive_name.ends_with(".fidx") {
let tmpfile = client.download(&server_archive_name, tmpfile).wait()?;
let index = FixedIndexReader::new(tmpfile)
.map_err(|err| format_err!("unable to read fixed index '{}' - {}", archive_name, err))?;
let most_used = index.find_most_used_chunks(8);
let chunk_reader = RemoteChunkReader::new(client.clone(), crypt_config, most_used);
let mut reader = BufferedFixedReader::new(index, chunk_reader);
if let Some(target) = target {
let mut writer = std::fs::OpenOptions::new()
.write(true)
.create(true)
.create_new(true)
.open(target)
.map_err(|err| format_err!("unable to create target file {:?} - {}", target, err))?;
std::io::copy(&mut reader, &mut writer)
.map_err(|err| format_err!("unable to store data - {}", err))?;
} else {
let stdout = std::io::stdout();
let mut writer = stdout.lock();
std::io::copy(&mut reader, &mut writer)
.map_err(|err| format_err!("unable to pipe data - {}", err))?;
}
} else {
bail!("unknown archive file extension (expected .pxar of .img)");
}
Ok(Value::Null)
}
fn upload_log(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let logfile = tools::required_string_param(&param, "logfile")?;
let repo = extract_repository_from_value(&param)?;
let snapshot = tools::required_string_param(&param, "snapshot")?;
let snapshot = BackupDir::parse(snapshot)?;
let mut client = HttpClient::new(repo.host(), repo.user())?;
let keyfile = param["keyfile"].as_str().map(|p| PathBuf::from(p));
let crypt_config = match keyfile {
None => None,
Some(path) => {
let (key, _created) = load_and_decrtypt_key(&path, get_encryption_key_password)?;
let crypt_config = CryptConfig::new(key)?;
Some(crypt_config)
}
};
let data = crate::tools::file_get_contents(logfile)?;
let blob = if let Some(ref crypt_config) = crypt_config {
DataBlob::encode(&data, Some(crypt_config), true)?
} else {
DataBlob::encode(&data, None, true)?
};
let raw_data = blob.into_inner();
let path = format!("api2/json/admin/datastore/{}/upload-backup-log", repo.store());
let args = json!({
"backup-type": snapshot.group().backup_type(),
"backup-id": snapshot.group().backup_id(),
"backup-time": snapshot.backup_time().timestamp(),
});
let body = hyper::Body::from(raw_data);
let result = client.upload("application/octet-stream", body, &path, Some(args)).wait()?;
Ok(result)
}
fn prune(
mut param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let repo = extract_repository_from_value(&param)?;
let mut client = HttpClient::new(repo.host(), repo.user())?;
let path = format!("api2/json/admin/datastore/{}/prune", repo.store());
param.as_object_mut().unwrap().remove("repository");
let result = client.post(&path, Some(param)).wait()?;
record_repository(&repo);
Ok(result)
}
fn status(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let repo = extract_repository_from_value(&param)?;
let output_format = param["output-format"].as_str().unwrap_or("text").to_owned();
let client = HttpClient::new(repo.host(), repo.user())?;
let path = format!("api2/json/admin/datastore/{}/status", repo.store());
let result = client.get(&path, None).wait()?;
let data = &result["data"];
record_repository(&repo);
if output_format == "text" {
let total = data["total"].as_u64().unwrap();
let used = data["used"].as_u64().unwrap();
let avail = data["avail"].as_u64().unwrap();
let roundup = total/200;
println!(
"total: {} used: {} ({} %) available: {}",
total,
used,
((used+roundup)*100)/total,
avail,
);
} else {
format_and_print_result(data, &output_format);
}
Ok(Value::Null)
}
// like get, but simply ignore errors and return Null instead
fn try_get(repo: &BackupRepository, url: &str) -> Value {
let client = match HttpClient::new(repo.host(), repo.user()) {
Ok(v) => v,
_ => return Value::Null,
};
let mut resp = match client.get(url, None).wait() {
Ok(v) => v,
_ => return Value::Null,
};
if let Some(map) = resp.as_object_mut() {
if let Some(data) = map.remove("data") {
return data;
}
}
Value::Null
}
fn complete_backup_group(_arg: &str, param: &HashMap<String, String>) -> Vec<String> {
let mut result = vec![];
let repo = match extract_repository_from_map(param) {
Some(v) => v,
_ => return result,
};
let path = format!("api2/json/admin/datastore/{}/groups", repo.store());
let data = try_get(&repo, &path);
if let Some(list) = data.as_array() {
for item in list {
if let (Some(backup_id), Some(backup_type)) =
(item["backup-id"].as_str(), item["backup-type"].as_str())
{
result.push(format!("{}/{}", backup_type, backup_id));
}
}
}
result
}
fn complete_group_or_snapshot(arg: &str, param: &HashMap<String, String>) -> Vec<String> {
let mut result = vec![];
let repo = match extract_repository_from_map(param) {
Some(v) => v,
_ => return result,
};
if arg.matches('/').count() < 2 {
let groups = complete_backup_group(arg, param);
for group in groups {
result.push(group.to_string());
result.push(format!("{}/", group));
}
return result;
}
let mut parts = arg.split('/');
let query = tools::json_object_to_query(json!({
"backup-type": parts.next().unwrap(),
"backup-id": parts.next().unwrap(),
})).unwrap();
let path = format!("api2/json/admin/datastore/{}/snapshots?{}", repo.store(), query);
let data = try_get(&repo, &path);
if let Some(list) = data.as_array() {
for item in list {
if let (Some(backup_id), Some(backup_type), Some(backup_time)) =
(item["backup-id"].as_str(), item["backup-type"].as_str(), item["backup-time"].as_i64())
{
let snapshot = BackupDir::new(backup_type, backup_id, backup_time);
result.push(snapshot.relative_path().to_str().unwrap().to_owned());
}
}
}
result
}
fn complete_server_file_name(_arg: &str, param: &HashMap<String, String>) -> Vec<String> {
let mut result = vec![];
let repo = match extract_repository_from_map(param) {
Some(v) => v,
_ => return result,
};
let snapshot = match param.get("snapshot") {
Some(path) => {
match BackupDir::parse(path) {
Ok(v) => v,
_ => return result,
}
}
_ => return result,
};
let query = tools::json_object_to_query(json!({
"backup-type": snapshot.group().backup_type(),
"backup-id": snapshot.group().backup_id(),
"backup-time": snapshot.backup_time().timestamp(),
})).unwrap();
let path = format!("api2/json/admin/datastore/{}/files?{}", repo.store(), query);
let data = try_get(&repo, &path);
if let Some(list) = data.as_array() {
for item in list {
if let Some(filename) = item.as_str() {
result.push(filename.to_owned());
}
}
}
result
}
fn complete_archive_name(arg: &str, param: &HashMap<String, String>) -> Vec<String> {
let result = complete_server_file_name(arg, param);
strip_server_file_expenstions(result)
}
fn complete_chunk_size(_arg: &str, _param: &HashMap<String, String>) -> Vec<String> {
let mut result = vec![];
let mut size = 64;
loop {
result.push(size.to_string());
size = size * 2;
if size > 4096 { break; }
}
result
}
fn get_encryption_key_password() -> Result<Vec<u8>, Error> {
// fixme: implement other input methods
use std::env::VarError::*;
match std::env::var("PBS_ENCRYPTION_PASSWORD") {
Ok(p) => return Ok(p.as_bytes().to_vec()),
Err(NotUnicode(_)) => bail!("PBS_ENCRYPTION_PASSWORD contains bad characters"),
Err(NotPresent) => {
// Try another method
}
}
// If we're on a TTY, query the user for a password
if crate::tools::tty::stdin_isatty() {
return Ok(crate::tools::tty::read_password("Encryption Key Password: ")?);
}
bail!("no password input mechanism available");
}
fn key_create(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let path = tools::required_string_param(&param, "path")?;
let path = PathBuf::from(path);
let kdf = param["kdf"].as_str().unwrap_or("scrypt");
let key = proxmox::sys::linux::random_data(32)?;
if kdf == "scrypt" {
// always read passphrase from tty
if !crate::tools::tty::stdin_isatty() {
bail!("unable to read passphrase - no tty");
}
let password = crate::tools::tty::read_password("Encryption Key Password: ")?;
let key_config = encrypt_key_with_passphrase(&key, &password)?;
store_key_config(&path, false, key_config)?;
Ok(Value::Null)
} else if kdf == "none" {
let created = Local.timestamp(Local::now().timestamp(), 0);
store_key_config(&path, false, KeyConfig {
kdf: None,
created,
modified: created,
data: key,
})?;
Ok(Value::Null)
} else {
unreachable!();
}
}
fn master_pubkey_path() -> Result<PathBuf, Error> {
let base = BaseDirectories::with_prefix("proxmox-backup")?;
// usually $HOME/.config/proxmox-backup/master-public.pem
let path = base.place_config_file("master-public.pem")?;
Ok(path)
}
fn key_import_master_pubkey(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let path = tools::required_string_param(&param, "path")?;
let path = PathBuf::from(path);
let pem_data = proxmox_backup::tools::file_get_contents(&path)?;
if let Err(err) = openssl::pkey::PKey::public_key_from_pem(&pem_data) {
bail!("Unable to decode PEM data - {}", err);
}
let target_path = master_pubkey_path()?;
proxmox_backup::tools::file_set_contents(&target_path, &pem_data, None)?;
println!("Imported public master key to {:?}", target_path);
Ok(Value::Null)
}
fn key_create_master_key(
_param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
// we need a TTY to query the new password
if !crate::tools::tty::stdin_isatty() {
bail!("unable to create master key - no tty");
}
let rsa = openssl::rsa::Rsa::generate(4096)?;
let pkey = openssl::pkey::PKey::from_rsa(rsa)?;
let new_pw = String::from_utf8(crate::tools::tty::read_password("Master Key Password: ")?)?;
let verify_pw = String::from_utf8(crate::tools::tty::read_password("Verify Password: ")?)?;
if new_pw != verify_pw {
bail!("Password verification fail!");
}
if new_pw.len() < 5 {
bail!("Password is too short!");
}
let pub_key: Vec<u8> = pkey.public_key_to_pem()?;
let filename_pub = "master-public.pem";
println!("Writing public master key to {}", filename_pub);
proxmox_backup::tools::file_set_contents(filename_pub, pub_key.as_slice(), None)?;
let cipher = openssl::symm::Cipher::aes_256_cbc();
let priv_key: Vec<u8> = pkey.private_key_to_pem_pkcs8_passphrase(cipher, new_pw.as_bytes())?;
let filename_priv = "master-private.pem";
println!("Writing private master key to {}", filename_priv);
proxmox_backup::tools::file_set_contents(filename_priv, priv_key.as_slice(), None)?;
Ok(Value::Null)
}
fn key_change_passphrase(
param: Value,
_info: &ApiMethod,
_rpcenv: &mut dyn RpcEnvironment,
) -> Result<Value, Error> {
let path = tools::required_string_param(&param, "path")?;
let path = PathBuf::from(path);
let kdf = param["kdf"].as_str().unwrap_or("scrypt");
// we need a TTY to query the new password
if !crate::tools::tty::stdin_isatty() {
bail!("unable to change passphrase - no tty");
}
let (key, created) = load_and_decrtypt_key(&path, get_encryption_key_password)?;
if kdf == "scrypt" {
let new_pw = String::from_utf8(crate::tools::tty::read_password("New Password: ")?)?;
let verify_pw = String::from_utf8(crate::tools::tty::read_password("Verify Password: ")?)?;
if new_pw != verify_pw {
bail!("Password verification fail!");
}
if new_pw.len() < 5 {
bail!("Password is too short!");
}
let mut new_key_config = encrypt_key_with_passphrase(&key, new_pw.as_bytes())?;
new_key_config.created = created; // keep original value
store_key_config(&path, true, new_key_config)?;
Ok(Value::Null)
} else if kdf == "none" {
let modified = Local.timestamp(Local::now().timestamp(), 0);
store_key_config(&path, true, KeyConfig {
kdf: None,
created, // keep original value
modified,
data: key.to_vec(),
})?;
Ok(Value::Null)
} else {
unreachable!();
}
}
fn key_mgmt_cli() -> CliCommandMap {
let kdf_schema: Arc<Schema> = Arc::new(
StringSchema::new("Key derivation function. Choose 'none' to store the key unecrypted.")
.format(Arc::new(ApiStringFormat::Enum(&["scrypt", "none"])))
.default("scrypt")
.into()
);
let key_create_cmd_def = CliCommand::new(
ApiMethod::new(
key_create,
ObjectSchema::new("Create a new encryption key.")
.required("path", StringSchema::new("File system path."))
.optional("kdf", kdf_schema.clone())
))
.arg_param(vec!["path"])
.completion_cb("path", tools::complete_file_name);
let key_change_passphrase_cmd_def = CliCommand::new(
ApiMethod::new(
key_change_passphrase,
ObjectSchema::new("Change the passphrase required to decrypt the key.")
.required("path", StringSchema::new("File system path."))
.optional("kdf", kdf_schema.clone())
))
.arg_param(vec!["path"])
.completion_cb("path", tools::complete_file_name);
let key_create_master_key_cmd_def = CliCommand::new(
ApiMethod::new(
key_create_master_key,
ObjectSchema::new("Create a new 4096 bit RSA master pub/priv key pair.")
));
let key_import_master_pubkey_cmd_def = CliCommand::new(
ApiMethod::new(
key_import_master_pubkey,
ObjectSchema::new("Import a new RSA public key and use it as master key. The key is expected to be in '.pem' format.")
.required("path", StringSchema::new("File system path."))
))
.arg_param(vec!["path"])
.completion_cb("path", tools::complete_file_name);
let cmd_def = CliCommandMap::new()
.insert("create".to_owned(), key_create_cmd_def.into())
.insert("create-master-key".to_owned(), key_create_master_key_cmd_def.into())
.insert("import-master-pubkey".to_owned(), key_import_master_pubkey_cmd_def.into())
.insert("change-passphrase".to_owned(), key_change_passphrase_cmd_def.into());
cmd_def
}
fn main() {
let backup_source_schema: Arc<Schema> = Arc::new(
StringSchema::new("Backup source specification ([<label>:<path>]).")
.format(Arc::new(ApiStringFormat::Pattern(&BACKUPSPEC_REGEX)))
.into()
);
let backup_cmd_def = CliCommand::new(
ApiMethod::new(
create_backup,
ObjectSchema::new("Create (host) backup.")
.required(
"backupspec",
ArraySchema::new(
"List of backup source specifications ([<label.ext>:<path>] ...)",
backup_source_schema,
).min_length(1)
)
.optional("repository", REPO_URL_SCHEMA.clone())
.optional(
"include-dev",
ArraySchema::new(
"Include mountpoints with same st_dev number (see ``man fstat``) as specified files.",
StringSchema::new("Path to file.").into()
)
)
.optional(
"keyfile",
StringSchema::new("Path to encryption key. All data will be encrypted using this key."))
.optional(
"verbose",
BooleanSchema::new("Verbose output.").default(false))
.optional(
"skip-lost-and-found",
BooleanSchema::new("Skip lost+found directory").default(false))
.optional(
"host-id",
StringSchema::new("Use specified ID for the backup group name ('host/<id>'). The default is the system hostname."))
.optional(
"chunk-size",
IntegerSchema::new("Chunk size in KB. Must be a power of 2.")
.minimum(64)
.maximum(4096)
.default(4096)
)
))
.arg_param(vec!["backupspec"])
.completion_cb("repository", complete_repository)
.completion_cb("backupspec", complete_backup_source)
.completion_cb("keyfile", tools::complete_file_name)
.completion_cb("chunk-size", complete_chunk_size);
let upload_log_cmd_def = CliCommand::new(
ApiMethod::new(
upload_log,
ObjectSchema::new("Upload backup log file.")
.required("snapshot", StringSchema::new("Snapshot path."))
.required("logfile", StringSchema::new("The path to the log file you want to upload."))
.optional("repository", REPO_URL_SCHEMA.clone())
.optional(
"keyfile",
StringSchema::new("Path to encryption key. All data will be encrypted using this key."))
))
.arg_param(vec!["snapshot", "logfile"])
.completion_cb("snapshot", complete_group_or_snapshot)
.completion_cb("logfile", tools::complete_file_name)
.completion_cb("keyfile", tools::complete_file_name)
.completion_cb("repository", complete_repository);
let list_cmd_def = CliCommand::new(
ApiMethod::new(
list_backup_groups,
ObjectSchema::new("List backup groups.")
.optional("repository", REPO_URL_SCHEMA.clone())
.optional("output-format", OUTPUT_FORMAT.clone())
))
.completion_cb("repository", complete_repository);
let snapshots_cmd_def = CliCommand::new(
ApiMethod::new(
list_snapshots,
ObjectSchema::new("List backup snapshots.")
.optional("group", StringSchema::new("Backup group."))
.optional("repository", REPO_URL_SCHEMA.clone())
.optional("output-format", OUTPUT_FORMAT.clone())
))
.arg_param(vec!["group"])
.completion_cb("group", complete_backup_group)
.completion_cb("repository", complete_repository);
let forget_cmd_def = CliCommand::new(
ApiMethod::new(
forget_snapshots,
ObjectSchema::new("Forget (remove) backup snapshots.")
.required("snapshot", StringSchema::new("Snapshot path."))
.optional("repository", REPO_URL_SCHEMA.clone())
))
.arg_param(vec!["snapshot"])
.completion_cb("repository", complete_repository)
.completion_cb("snapshot", complete_group_or_snapshot);
let garbage_collect_cmd_def = CliCommand::new(
ApiMethod::new(
start_garbage_collection,
ObjectSchema::new("Start garbage collection for a specific repository.")
.optional("repository", REPO_URL_SCHEMA.clone())
))
.completion_cb("repository", complete_repository);
let restore_cmd_def = CliCommand::new(
ApiMethod::new(
restore,
ObjectSchema::new("Restore backup repository.")
.required("snapshot", StringSchema::new("Group/Snapshot path."))
.required("archive-name", StringSchema::new("Backup archive name."))
.required("target", StringSchema::new(r###"Target directory path. Use '-' to write to stdandard output.
We do not extraxt '.pxar' archives when writing to stdandard output.
"###
))
.optional("repository", REPO_URL_SCHEMA.clone())
.optional("keyfile", StringSchema::new("Path to encryption key."))
.optional(
"verbose",
BooleanSchema::new("Verbose output.").default(false)
)
))
.arg_param(vec!["snapshot", "archive-name", "target"])
.completion_cb("repository", complete_repository)
.completion_cb("snapshot", complete_group_or_snapshot)
.completion_cb("archive-name", complete_archive_name)
.completion_cb("target", tools::complete_file_name);
let prune_cmd_def = CliCommand::new(
ApiMethod::new(
prune,
proxmox_backup::api2::admin::datastore::add_common_prune_prameters(
ObjectSchema::new("Prune backup repository.")
.optional("repository", REPO_URL_SCHEMA.clone())
)
))
.completion_cb("repository", complete_repository);
let status_cmd_def = CliCommand::new(
ApiMethod::new(
status,
ObjectSchema::new("Get repository status.")
.optional("repository", REPO_URL_SCHEMA.clone())
.optional("output-format", OUTPUT_FORMAT.clone())
))
.completion_cb("repository", complete_repository);
let cmd_def = CliCommandMap::new()
.insert("backup".to_owned(), backup_cmd_def.into())
.insert("upload-log".to_owned(), upload_log_cmd_def.into())
.insert("forget".to_owned(), forget_cmd_def.into())
.insert("garbage-collect".to_owned(), garbage_collect_cmd_def.into())
.insert("list".to_owned(), list_cmd_def.into())
.insert("prune".to_owned(), prune_cmd_def.into())
.insert("restore".to_owned(), restore_cmd_def.into())
.insert("snapshots".to_owned(), snapshots_cmd_def.into())
.insert("status".to_owned(), status_cmd_def.into())
.insert("key".to_owned(), key_mgmt_cli().into());
hyper::rt::run(futures::future::lazy(move || {
run_cli_command(cmd_def.into());
Ok(())
}));
}
Reference in New Issue View Git Blame Copy Permalink