proxmox-backup/src/bin/proxmox-file-restore.rs

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use std::ffi::OsStr;
use std::os::unix::ffi::OsStrExt;
use std::path::PathBuf;
use std::sync::Arc;
use anyhow::{bail, format_err, Error};
use serde_json::{json, Value};
use proxmox::api::{
api,
cli::{
default_table_format_options, format_and_print_result_full, get_output_format,
run_cli_command, CliCommand, CliCommandMap, CliEnvironment, ColumnConfig, OUTPUT_FORMAT,
},
};
use pxar::accessor::aio::Accessor;
use pxar::decoder::aio::Decoder;
use proxmox_backup::api2::{helpers, types::ArchiveEntry};
use proxmox_backup::backup::{
decrypt_key, BackupDir, BufferedDynamicReader, CatalogReader, CryptConfig, CryptMode,
DirEntryAttribute, IndexFile, LocalDynamicReadAt, CATALOG_NAME,
};
use proxmox_backup::client::{BackupReader, RemoteChunkReader};
use proxmox_backup::pxar::{create_zip, extract_sub_dir, extract_sub_dir_seq};
use proxmox_backup::tools;
// use "pub" so rust doesn't complain about "unused" functions in the module
pub mod proxmox_client_tools;
use proxmox_client_tools::{
complete_group_or_snapshot, complete_repository, connect, extract_repository_from_value,
key_source::{
crypto_parameters_keep_fd, format_key_source, get_encryption_key_password, KEYFD_SCHEMA,
KEYFILE_SCHEMA,
},
REPO_URL_SCHEMA,
};
mod proxmox_file_restore;
use proxmox_file_restore::*;
enum ExtractPath {
ListArchives,
Pxar(String, Vec<u8>),
VM(String, Vec<u8>),
}
fn parse_path(path: String, base64: bool) -> Result<ExtractPath, Error> {
let mut bytes = if base64 {
base64::decode(&path)
.map_err(|err| format_err!("Failed base64-decoding path '{}' - {}", path, err))?
} else {
path.into_bytes()
};
if bytes == b"/" {
return Ok(ExtractPath::ListArchives);
}
while !bytes.is_empty() && bytes[0] == b'/' {
bytes.remove(0);
}
let (file, path) = {
let slash_pos = bytes.iter().position(|c| *c == b'/').unwrap_or(bytes.len());
let path = bytes.split_off(slash_pos);
let file = String::from_utf8(bytes)?;
(file, path)
};
if file.ends_with(".pxar.didx") {
Ok(ExtractPath::Pxar(file, path))
} else if file.ends_with(".img.fidx") {
Ok(ExtractPath::VM(file, path))
} else {
bail!("'{}' is not supported for file-restore", file);
}
}
fn keyfile_path(param: &Value) -> Option<String> {
if let Some(Value::String(keyfile)) = param.get("keyfile") {
return Some(keyfile.to_owned());
}
if let Some(Value::Number(keyfd)) = param.get("keyfd") {
return Some(format!("/dev/fd/{}", keyfd));
}
None
}
#[api(
input: {
properties: {
repository: {
schema: REPO_URL_SCHEMA,
optional: true,
},
snapshot: {
type: String,
description: "Group/Snapshot path.",
},
"path": {
description: "Path to restore. Directories will be restored as .zip files.",
type: String,
},
"base64": {
type: Boolean,
description: "If set, 'path' will be interpreted as base64 encoded.",
optional: true,
default: false,
},
keyfile: {
schema: KEYFILE_SCHEMA,
optional: true,
},
"keyfd": {
schema: KEYFD_SCHEMA,
optional: true,
},
"crypt-mode": {
type: CryptMode,
optional: true,
},
"driver": {
type: BlockDriverType,
optional: true,
},
"output-format": {
schema: OUTPUT_FORMAT,
optional: true,
},
}
},
returns: {
description: "A list of elements under the given path",
type: Array,
items: {
type: ArchiveEntry,
}
}
)]
/// List a directory from a backup snapshot.
async fn list(
snapshot: String,
path: String,
base64: bool,
param: Value,
) -> Result<(), Error> {
let repo = extract_repository_from_value(&param)?;
let snapshot: BackupDir = snapshot.parse()?;
let path = parse_path(path, base64)?;
let keyfile = keyfile_path(&param);
let crypto = crypto_parameters_keep_fd(&param)?;
let crypt_config = match crypto.enc_key {
None => None,
Some(ref key) => {
let (key, _, _) =
decrypt_key(&key.key, &get_encryption_key_password).map_err(|err| {
eprintln!("{}", format_key_source(&key.source, "encryption"));
err
})?;
Some(Arc::new(CryptConfig::new(key)?))
}
};
let client = connect(&repo)?;
let client = BackupReader::start(
client,
crypt_config.clone(),
repo.store(),
&snapshot.group().backup_type(),
&snapshot.group().backup_id(),
snapshot.backup_time(),
true,
)
.await?;
let (manifest, _) = client.download_manifest().await?;
manifest.check_fingerprint(crypt_config.as_ref().map(Arc::as_ref))?;
let result = match path {
ExtractPath::ListArchives => {
let mut entries = vec![];
for file in manifest.files() {
if !file.filename.ends_with(".pxar.didx") && !file.filename.ends_with(".img.fidx") {
continue;
}
let path = format!("/{}", file.filename);
let attr = if file.filename.ends_with(".pxar.didx") {
// a pxar file is a file archive, so it's root is also a directory root
Some(&DirEntryAttribute::Directory { start: 0 })
} else {
None
};
entries.push(ArchiveEntry::new(path.as_bytes(), attr));
}
Ok(entries)
}
ExtractPath::Pxar(file, mut path) => {
let index = client
.download_dynamic_index(&manifest, CATALOG_NAME)
.await?;
let most_used = index.find_most_used_chunks(8);
let file_info = manifest.lookup_file_info(&CATALOG_NAME)?;
let chunk_reader = RemoteChunkReader::new(
client.clone(),
crypt_config,
file_info.chunk_crypt_mode(),
most_used,
);
let reader = BufferedDynamicReader::new(index, chunk_reader);
let mut catalog_reader = CatalogReader::new(reader);
let mut fullpath = file.into_bytes();
fullpath.append(&mut path);
helpers::list_dir_content(&mut catalog_reader, &fullpath)
}
ExtractPath::VM(file, path) => {
let details = SnapRestoreDetails {
manifest,
repo,
snapshot,
keyfile,
};
let driver: Option<BlockDriverType> = match param.get("driver") {
Some(drv) => Some(serde_json::from_value(drv.clone())?),
None => None,
};
data_list(driver, details, file, path).await
}
}?;
let options = default_table_format_options()
.sortby("type", false)
.sortby("text", false)
.column(ColumnConfig::new("type"))
.column(ColumnConfig::new("text").header("name"))
.column(ColumnConfig::new("mtime").header("last modified"))
.column(ColumnConfig::new("size"));
let output_format = get_output_format(&param);
format_and_print_result_full(
&mut json!(result),
&API_METHOD_LIST.returns,
&output_format,
&options,
);
Ok(())
}
#[api(
input: {
properties: {
repository: {
schema: REPO_URL_SCHEMA,
optional: true,
},
snapshot: {
type: String,
description: "Group/Snapshot path.",
},
"path": {
description: "Path to restore. Directories will be restored as .zip files if extracted to stdout.",
type: String,
},
"base64": {
type: Boolean,
description: "If set, 'path' will be interpreted as base64 encoded.",
optional: true,
default: false,
},
target: {
type: String,
optional: true,
description: "Target directory path. Use '-' to write to standard output.",
},
keyfile: {
schema: KEYFILE_SCHEMA,
optional: true,
},
"keyfd": {
schema: KEYFD_SCHEMA,
optional: true,
},
"crypt-mode": {
type: CryptMode,
optional: true,
},
verbose: {
type: Boolean,
description: "Print verbose information",
optional: true,
default: false,
},
"driver": {
type: BlockDriverType,
optional: true,
},
}
}
)]
/// Restore files from a backup snapshot.
async fn extract(
snapshot: String,
path: String,
base64: bool,
target: Option<String>,
verbose: bool,
param: Value,
) -> Result<(), Error> {
let repo = extract_repository_from_value(&param)?;
let snapshot: BackupDir = snapshot.parse()?;
let orig_path = path;
let path = parse_path(orig_path.clone(), base64)?;
let target = match target {
Some(target) if target == "-" => None,
Some(target) => Some(PathBuf::from(target)),
None => Some(std::env::current_dir()?),
};
let keyfile = keyfile_path(&param);
let crypto = crypto_parameters_keep_fd(&param)?;
let crypt_config = match crypto.enc_key {
None => None,
Some(ref key) => {
let (key, _, _) =
decrypt_key(&key.key, &get_encryption_key_password).map_err(|err| {
eprintln!("{}", format_key_source(&key.source, "encryption"));
err
})?;
Some(Arc::new(CryptConfig::new(key)?))
}
};
let client = connect(&repo)?;
let client = BackupReader::start(
client,
crypt_config.clone(),
repo.store(),
&snapshot.group().backup_type(),
&snapshot.group().backup_id(),
snapshot.backup_time(),
true,
)
.await?;
let (manifest, _) = client.download_manifest().await?;
match path {
ExtractPath::Pxar(archive_name, path) => {
let file_info = manifest.lookup_file_info(&archive_name)?;
let index = client
.download_dynamic_index(&manifest, &archive_name)
.await?;
let most_used = index.find_most_used_chunks(8);
let chunk_reader = RemoteChunkReader::new(
client.clone(),
crypt_config,
file_info.chunk_crypt_mode(),
most_used,
);
let reader = BufferedDynamicReader::new(index, chunk_reader);
let archive_size = reader.archive_size();
let reader = LocalDynamicReadAt::new(reader);
let decoder = Accessor::new(reader, archive_size).await?;
extract_to_target(decoder, &path, target, verbose).await?;
}
ExtractPath::VM(file, path) => {
let details = SnapRestoreDetails {
manifest,
repo,
snapshot,
keyfile,
};
let driver: Option<BlockDriverType> = match param.get("driver") {
Some(drv) => Some(serde_json::from_value(drv.clone())?),
None => None,
};
if let Some(mut target) = target {
let reader = data_extract(driver, details, file, path.clone(), true).await?;
let decoder = Decoder::from_tokio(reader).await?;
extract_sub_dir_seq(&target, decoder, verbose).await?;
// we extracted a .pxarexclude-cli file auto-generated by the VM when encoding the
// archive, this file is of no use for the user, so try to remove it
target.push(".pxarexclude-cli");
std::fs::remove_file(target).map_err(|e| {
format_err!("unable to remove temporary .pxarexclude-cli file - {}", e)
})?;
} else {
let mut reader = data_extract(driver, details, file, path.clone(), false).await?;
tokio::io::copy(&mut reader, &mut tokio::io::stdout()).await?;
}
}
_ => {
bail!("cannot extract '{}'", orig_path);
}
}
Ok(())
}
async fn extract_to_target<T>(
decoder: Accessor<T>,
path: &[u8],
target: Option<PathBuf>,
verbose: bool,
) -> Result<(), Error>
where
T: pxar::accessor::ReadAt + Clone + Send + Sync + Unpin + 'static,
{
let path = if path.is_empty() { b"/" } else { path };
let root = decoder.open_root().await?;
let file = root
.lookup(OsStr::from_bytes(path))
.await?
.ok_or_else(|| format_err!("error opening '{:?}'", path))?;
if let Some(target) = target {
extract_sub_dir(target, decoder, OsStr::from_bytes(path), verbose).await?;
} else {
match file.kind() {
pxar::EntryKind::File { .. } => {
tokio::io::copy(&mut file.contents().await?, &mut tokio::io::stdout()).await?;
}
_ => {
create_zip(
tokio::io::stdout(),
decoder,
OsStr::from_bytes(path),
verbose,
)
.await?;
}
}
}
Ok(())
}
fn main() {
let list_cmd_def = CliCommand::new(&API_METHOD_LIST)
.arg_param(&["snapshot", "path"])
.completion_cb("repository", complete_repository)
.completion_cb("snapshot", complete_group_or_snapshot);
let restore_cmd_def = CliCommand::new(&API_METHOD_EXTRACT)
.arg_param(&["snapshot", "path", "target"])
.completion_cb("repository", complete_repository)
.completion_cb("snapshot", complete_group_or_snapshot)
.completion_cb("target", tools::complete_file_name);
let status_cmd_def = CliCommand::new(&API_METHOD_STATUS);
let stop_cmd_def = CliCommand::new(&API_METHOD_STOP)
.arg_param(&["name"])
.completion_cb("name", complete_block_driver_ids);
let cmd_def = CliCommandMap::new()
.insert("list", list_cmd_def)
.insert("extract", restore_cmd_def)
.insert("status", status_cmd_def)
.insert("stop", stop_cmd_def);
let rpcenv = CliEnvironment::new();
run_cli_command(
cmd_def,
rpcenv,
Some(|future| proxmox_backup::tools::runtime::main(future)),
);
}