Key commands use files

This commit is contained in:
Dennis Schwerdel 2017-03-22 17:28:45 +01:00 committed by Dennis Schwerdel
parent b43be07ed0
commit 205c193108
6 changed files with 86 additions and 137 deletions

106
README.md
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@ -16,7 +16,7 @@ data size and is compressed as a whole to save space ("solid archive").
### Independent backups
All backups share common data in form of chunks but are independent on a higher
level. Backups can be delete and chunks that are not used by any backup can be
level. Backups can be deleted and chunks that are not used by any backup can be
removed.
Other backup solutions use differential backups organized in chains. This makes
@ -94,87 +94,33 @@ Recommended: Brotli/2-7
## Design
- Use rolling checksum to create content-dependent chunks
- Use sha3-shake128 to hash chunks
- Use mmapped hashtable to find duplicate chunks
- Serialize metadata into chunks
- Store small file data within metadata
- Store directory metadata to avoid calculating checksums of unchanged files (same mtime and size)
- Store full directory tree in each backup (use cached metadata and checksums for unchanged entries)
- Compress data chunks in blocks of ~10MB to improve compression ("solid archive")
- Store metadata in separate data chunks to enable metadata caching on client
- Encrypt archive
- Sort new files by file extension to improve compression
## Configurable parameters
- Rolling chunker algorithm
- Minimal chunk size [default: 1 KiB]
- Maximal chunk size [default: 64 KiB]
- Maximal file size for inlining [default: 128 Bytes]
- Block size [default: 10 MiB]
- Block compression algorithm [default: Brotli 6]
- Encryption algorithm [default: chacha20+poly1305]
## TODO
- Remove old data
- Locking / Multiple clients
### Core functionality
- Keep backup files also remotely and sync them
- Lock during backup and vacuum
- Options for creating backups (same filesystem, exclude/include patterns)
- Recompress & combine bundles
- Allow to use tar files for backup and restore (--tar, http://alexcrichton.com/tar-rs/tar/index.html)
## Modules
### CLI functionality
- Remove backup subtrees
- list --tree
- More detailed errors with nicer text
- Rolling checksum chunker
- Also creates hashes
- Mmapped hashtable that stores existing chunks hashes
- Remote block writing and compression/encryption
- Inode data serialization
- Recursive directory scanning, difference calculation, new entry sorting
### ChunkDB
- Stores data in chunks
- A chunk is a file
- Per Chunk properties
- Format version
- Encryption method
- Encryption key
- Compression method / level
- Chunk ID is the hash of the contents
- No locks needed on shared chunk repository !!!
- Chunk ID is calculated after compression and encryption
- Chunk header
- "zvault01"
- Chunk size compressed / raw
- Content hash method / value
- Encryption method / options / key hash
- Compression method / options
- Chunks are write-once read-often
- Chunks are prepared outside the repository
- Only one chunk is being prepared at a time
- Adding data to the chunk returns starting position in raw data
- Operations:
- List available chunks
- Add data
- Flush chunk
- Delete chunk
- Get data
- Check chunk
- Chunk path is `checksum.chunk` or `chec/ksum.chunk`
- Data is added to current chunk and compressed in memory
- Operations on chunk files are just sequencial read/write and delete
- Ability to recompress chunks
### Index
16 Bytes per hash key
8 Bytes data per entry (4 bytes bundle id, 4 bytes chunk id)
=> 24 Bytes per entry
Average chunk sizes
8 Kib => 3 MiB / 1 GiB
16 Kib => 1.5 MiB / 1 GiB
24 Kib => 1.0 MiB / 1 GiB
32 Kib => 750 Kib / 1 GiB
64 Kib => 375 Kib / 1 GiB
### Other
- Stability
- Tests & benchmarks
- Chunker
- Index
- BundleDB
- Bundle map
- Config files
- Backup files
- Backup
- Prune
- Vacuum
- Documentation
- All file formats
- Design

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@ -67,7 +67,8 @@ pub enum Arguments {
},
Import {
repo_path: String,
remote_path: String
remote_path: String,
key_files: Vec<String>
},
Configure {
repo_path: String,
@ -78,10 +79,11 @@ pub enum Arguments {
hash: Option<HashMethod>
},
GenKey {
file: Option<String>
},
AddKey {
repo_path: String,
key_pair: Option<(PublicKey, SecretKey)>,
file: Option<String>,
set_default: bool
},
AlgoTest {
@ -159,22 +161,6 @@ fn parse_public_key(val: &str) -> PublicKey {
}
}
fn parse_secret_key(val: &str) -> SecretKey {
let bytes = match parse_hex(val) {
Ok(bytes) => bytes,
Err(_) => {
error!("Invalid key: {}", val);
exit(1);
}
};
if let Some(key) = SecretKey::from_slice(&bytes) {
key
} else {
error!("Invalid key: {}", val);
exit(1);
}
}
fn parse_hash(val: &str) -> HashMethod {
if let Ok(hash) = HashMethod::from(val) {
hash
@ -251,6 +237,7 @@ pub fn parse() -> Arguments {
)
(@subcommand import =>
(about: "reconstruct a repository from the remote files")
(@arg key: --key -k ... +takes_value "a file with a needed to read the bundles")
(@arg REMOTE: +required "remote repository path")
(@arg REPO: +required "path of the local repository to create")
)
@ -269,14 +256,14 @@ pub fn parse() -> Arguments {
)
(@subcommand genkey =>
(about: "generates a new key pair")
(@arg FILE: +takes_value "the destination file for the keypair")
)
(@subcommand addkey =>
(about: "adds a key to the respository")
(@arg REPO: +required "path of the repository")
(@arg generate: --generate "generate a new key")
(@arg set_default: --default "set this key as default")
(@arg PUBLIC: +takes_value "the public key")
(@arg SECRET: +takes_value "the secret key")
(@arg FILE: +takes_value "the file containing the keypair")
)
(@subcommand algotest =>
(about: "test a specific algorithm combination")
@ -418,7 +405,8 @@ pub fn parse() -> Arguments {
}
return Arguments::Import {
repo_path: repository.to_string(),
remote_path: args.value_of("REMOTE").unwrap().to_string()
remote_path: args.value_of("REMOTE").unwrap().to_string(),
key_files: args.values_of("key").map(|v| v.map(|k| k.to_string()).collect()).unwrap_or_else(|| vec![])
}
}
if let Some(args) = args.subcommand_matches("configure") {
@ -442,8 +430,10 @@ pub fn parse() -> Arguments {
repo_path: repository.to_string(),
}
}
if let Some(_args) = args.subcommand_matches("genkey") {
return Arguments::GenKey {}
if let Some(args) = args.subcommand_matches("genkey") {
return Arguments::GenKey {
file: args.value_of("FILE").map(|v| v.to_string())
}
}
if let Some(args) = args.subcommand_matches("addkey") {
let (repository, backup, inode) = split_repo_path(args.value_of("REPO").unwrap());
@ -452,23 +442,18 @@ pub fn parse() -> Arguments {
exit(1);
}
let generate = args.is_present("generate");
if !generate && (!args.is_present("PUBLIC") || !args.is_present("SECRET")) {
println!("Without --generate, a public and secret key must be given");
if !generate && !args.is_present("FILE") {
println!("Without --generate, a file containing the key pair must be given");
exit(1);
}
if generate && (args.is_present("PUBLIC") || args.is_present("SECRET")) {
println!("With --generate, no public or secret key may be given");
if generate && args.is_present("FILE") {
println!("With --generate, no file may be given");
exit(1);
}
let key_pair = if generate {
None
} else {
Some((parse_public_key(args.value_of("PUBLIC").unwrap()), parse_secret_key(args.value_of("SECRET").unwrap())))
};
return Arguments::AddKey {
repo_path: repository.to_string(),
set_default: args.is_present("set_default"),
key_pair: key_pair
file: args.value_of("FILE").map(|v| v.to_string())
}
}
if let Some(args) = args.subcommand_matches("algotest") {

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@ -284,8 +284,8 @@ pub fn run() {
println!();
}
},
Arguments::Import{repo_path, remote_path} => {
Repository::import(repo_path, remote_path).unwrap();
Arguments::Import{repo_path, remote_path, key_files} => {
Repository::import(repo_path, remote_path, key_files).unwrap();
},
Arguments::Configure{repo_path, bundle_size, chunker, compression, encryption, hash} => {
let mut repo = open_repository(&repo_path);
@ -309,26 +309,29 @@ pub fn run() {
repo.save_config().unwrap();
print_config(&repo.config);
},
Arguments::GenKey{} => {
Arguments::GenKey{file} => {
let (public, secret) = gen_keypair();
println!("Public key: {}", to_hex(&public[..]));
println!("Secret key: {}", to_hex(&secret[..]));
println!("public: {}", to_hex(&public[..]));
println!("secret: {}", to_hex(&secret[..]));
if let Some(file) = file {
Crypto::save_keypair_to_file(&public, &secret, file).unwrap();
}
},
Arguments::AddKey{repo_path, set_default, key_pair} => {
Arguments::AddKey{repo_path, set_default, file} => {
let mut repo = open_repository(&repo_path);
let (public, secret) = if let Some(key_pair) = key_pair {
key_pair
let (public, secret) = if let Some(file) = file {
Crypto::load_keypair_from_file(file).unwrap()
} else {
let (public, secret) = gen_keypair();
println!("Public key: {}", to_hex(&public[..]));
println!("Secret key: {}", to_hex(&secret[..]));
println!("public: {}", to_hex(&public[..]));
println!("secret: {}", to_hex(&secret[..]));
(public, secret)
};
repo.register_key(public, secret).unwrap();
if set_default {
repo.set_encryption(Some(&public));
repo.save_config().unwrap();
}
repo.register_key(public, secret).unwrap();
},
Arguments::AlgoTest{bundle_size, chunker, compression, encrypt, hash, file} => {
algotest::run(&file, bundle_size, chunker, compression, encrypt, hash);

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@ -25,14 +25,6 @@ mod repository;
mod cli;
mod prelude;
// TODO: Keep backup files also remotely and sync them
// TODO: Lock during backup and vacuum
// TODO: Remove backup subtrees
// TODO: Recompress & combine bundles
// TODO: list --tree
// TODO: Give crypto keys for import
// TODO: More detailed errors with nicer text
// TODO: Allow to use tar files for backup and restore (--tar, http://alexcrichton.com/tar-rs/tar/index.html)
fn main() {
cli::run();

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@ -109,10 +109,13 @@ impl Repository {
Ok(repo)
}
pub fn import<P: AsRef<Path>, R: AsRef<Path>>(path: P, remote: R) -> Result<Self, RepositoryError> {
pub fn import<P: AsRef<Path>, R: AsRef<Path>>(path: P, remote: R, key_files: Vec<String>) -> Result<Self, RepositoryError> {
let path = path.as_ref();
try!(Repository::create(path, Config::default(), remote));
let mut repo = try!(Repository::open(path));
let mut repo = try!(Repository::create(path, Config::default(), remote));
for file in key_files {
try!(repo.crypto.lock().unwrap().register_keyfile(file));
}
repo = try!(Repository::open(path));
let mut backups: Vec<Backup> = try!(repo.get_backups()).into_iter().map(|(_, v)| v).collect();
backups.sort_by_key(|b| b.date);
if let Some(backup) = backups.pop() {

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@ -132,11 +132,31 @@ impl Crypto {
self.keys.insert(public, secret);
}
#[inline]
pub fn register_keyfile<P: AsRef<Path>>(&mut self, path: P) -> Result<(), EncryptionError> {
let (public, secret) = try!(Self::load_keypair_from_file(path));
self.register_secret_key(public, secret)
}
#[inline]
pub fn load_keypair_from_file<P: AsRef<Path>>(path: P) -> Result<(PublicKey, SecretKey), EncryptionError> {
let keyfile = try!(KeyfileYaml::load(path));
let public = try!(parse_hex(&keyfile.public).map_err(|_| EncryptionError::InvalidKey));
let public = try!(PublicKey::from_slice(&public).ok_or(EncryptionError::InvalidKey));
let secret = try!(parse_hex(&keyfile.secret).map_err(|_| EncryptionError::InvalidKey));
let secret = try!(SecretKey::from_slice(&secret).ok_or(EncryptionError::InvalidKey));
Ok((public, secret))
}
#[inline]
pub fn save_keypair_to_file<P: AsRef<Path>>(public: &PublicKey, secret: &SecretKey, path: P) -> Result<(), EncryptionError> {
KeyfileYaml { public: to_hex(&public[..]), secret: to_hex(&secret[..]) }.save(path)
}
#[inline]
pub fn register_secret_key(&mut self, public: PublicKey, secret: SecretKey) -> Result<(), EncryptionError> {
let keyfile = KeyfileYaml { public: to_hex(&public[..]), secret: to_hex(&secret[..]) };
let path = self.path.join(to_hex(&public[..]) + ".yaml");
try!(keyfile.save(path));
try!(Self::save_keypair_to_file(&public, &secret, path));
self.keys.insert(public, secret);
Ok(())
}