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src/backup/data_blob.rs: move parts into single files

This commit is contained in:
Dietmar Maurer 2019-08-14 13:05:11 +02:00
parent e27c5a559f
commit 018d11bb84
8 changed files with 679 additions and 643 deletions
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18
src/backup.rs
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@ -121,12 +121,30 @@ pub use crypt_config::*;
mod key_derivation;
pub use key_derivation::*;
mod crypt_reader;
pub use crypt_reader::*;
mod crypt_writer;
pub use crypt_writer::*;
mod checksum_reader;
pub use checksum_reader::*;
mod checksum_writer;
pub use checksum_writer::*;
mod data_chunk;
pub use data_chunk::*;
mod data_blob;
pub use data_blob::*;
mod data_blob_reader;
pub use data_blob_reader::*;
mod data_blob_writer;
pub use data_blob_writer::*;
mod chunk_stream;
pub use chunk_stream::*;

47
src/backup/checksum_reader.rs Normal file
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@ -0,0 +1,47 @@
use failure::*;
use std::io::Read;
pub struct ChecksumReader<'a, R> {
reader: R,
hasher: crc32fast::Hasher,
signer: Option<openssl::sign::Signer<'a>>,
}
impl <'a, R: Read> ChecksumReader<'a, R> {
pub fn new(reader: R, signer: Option<openssl::sign::Signer<'a>>) -> Self {
let hasher = crc32fast::Hasher::new();
Self { reader, hasher, signer }
}
pub fn finish(mut self) -> Result<(R, u32, Option<[u8; 32]>), Error> {
let crc = self.hasher.finalize();
if let Some(ref mut signer) = self.signer {
let mut tag = [0u8; 32];
signer.sign(&mut tag)?;
Ok((self.reader, crc, Some(tag)))
} else {
Ok((self.reader, crc, None))
}
}
}
impl <'a, R: Read> Read for ChecksumReader<'a, R> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, std::io::Error> {
let count = self.reader.read(buf)?;
if count > 0 {
self.hasher.update(&buf[..count]);
if let Some(ref mut signer) = self.signer {
signer.update(&buf[..count])
.map_err(|err| {
std::io::Error::new(
std::io::ErrorKind::Other,
format!("hmac update failed - {}", err))
})?;
}
}
Ok(count)
}
}

48
src/backup/checksum_writer.rs Normal file
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@ -0,0 +1,48 @@
use failure::*;
use std::io::Write;
pub struct ChecksumWriter<'a, W> {
writer: W,
hasher: crc32fast::Hasher,
signer: Option<openssl::sign::Signer<'a>>,
}
impl <'a, W: Write> ChecksumWriter<'a, W> {
pub fn new(writer: W, signer: Option<openssl::sign::Signer<'a>>) -> Self {
let hasher = crc32fast::Hasher::new();
Self { writer, hasher, signer }
}
pub fn finish(mut self) -> Result<(W, u32, Option<[u8; 32]>), Error> {
let crc = self.hasher.finalize();
if let Some(ref mut signer) = self.signer {
let mut tag = [0u8; 32];
signer.sign(&mut tag)?;
Ok((self.writer, crc, Some(tag)))
} else {
Ok((self.writer, crc, None))
}
}
}
impl <'a, W: Write> Write for ChecksumWriter<'a, W> {
fn write(&mut self, buf: &[u8]) -> Result<usize, std::io::Error> {
self.hasher.update(buf);
if let Some(ref mut signer) = self.signer {
signer.update(buf)
.map_err(|err| {
std::io::Error::new(
std::io::ErrorKind::Other,
format!("hmac update failed - {}", err))
})?;
}
self.writer.write(buf)
}
fn flush(&mut self) -> Result<(), std::io::Error> {
self.writer.flush()
}
}

90
src/backup/crypt_reader.rs Normal file
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@ -0,0 +1,90 @@
use failure::*;
use std::io::{Read, BufRead};
use super::CryptConfig;
pub struct CryptReader<R> {
reader: R,
small_read_buf: Vec<u8>,
block_size: usize,
crypter: openssl::symm::Crypter,
finalized: bool,
}
impl <R: BufRead> CryptReader<R> {
pub fn new(reader: R, iv: [u8; 16], tag: [u8; 16], config: &CryptConfig) -> Result<Self, Error> {
let block_size = config.cipher().block_size(); // Note: block size is normally 1 byte for stream ciphers
if block_size.count_ones() != 1 || block_size > 512 {
bail!("unexpected Cipher block size {}", block_size);
}
let mut crypter = config.data_crypter(&iv, openssl::symm::Mode::Decrypt)?;
crypter.set_tag(&tag)?;
Ok(Self { reader, crypter, block_size, finalized: false, small_read_buf: Vec::new() })
}
pub fn finish(self) -> Result<R, Error> {
if !self.finalized {
bail!("CryptReader not successfully finalized.");
}
Ok(self.reader)
}
}
impl <R: BufRead> Read for CryptReader<R> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, std::io::Error> {
if self.small_read_buf.len() > 0 {
let max = if self.small_read_buf.len() > buf.len() { buf.len() } else { self.small_read_buf.len() };
let rest = self.small_read_buf.split_off(max);
buf[..max].copy_from_slice(&self.small_read_buf);
self.small_read_buf = rest;
return Ok(max);
}
let data = self.reader.fill_buf()?;
// handle small read buffers
if buf.len() <= 2*self.block_size {
let mut outbuf = [0u8; 1024];
let count = if data.len() == 0 { // EOF
let written = self.crypter.finalize(&mut outbuf)?;
self.finalized = true;
written
} else {
let mut read_size = outbuf.len() - self.block_size;
if read_size > data.len() {
read_size = data.len();
}
let written = self.crypter.update(&data[..read_size], &mut outbuf)?;
self.reader.consume(read_size);
written
};
if count > buf.len() {
buf.copy_from_slice(&outbuf[..buf.len()]);
self.small_read_buf = outbuf[buf.len()..count].to_vec();
return Ok(buf.len());
} else {
buf[..count].copy_from_slice(&outbuf[..count]);
return Ok(count);
}
} else {
if data.len() == 0 { // EOF
let rest = self.crypter.finalize(buf)?;
self.finalized = true;
return Ok(rest)
} else {
let mut read_size = buf.len() - self.block_size;
if read_size > data.len() {
read_size = data.len();
}
let count = self.crypter.update(&data[..read_size], buf)?;
self.reader.consume(read_size);
return Ok(count)
}
}
}
}

63
src/backup/crypt_writer.rs Normal file
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@ -0,0 +1,63 @@
use failure::*;
use std::io::Write;
use super::CryptConfig;
pub struct CryptWriter<W> {
writer: W,
block_size: usize,
encr_buf: Box<[u8; 64*1024]>,
iv: [u8; 16],
crypter: openssl::symm::Crypter,
}
impl <W: Write> CryptWriter<W> {
pub fn new(writer: W, config: &CryptConfig) -> Result<Self, Error> {
let mut iv = [0u8; 16];
proxmox::sys::linux::fill_with_random_data(&mut iv)?;
let block_size = config.cipher().block_size();
let crypter = config.data_crypter(&iv, openssl::symm::Mode::Encrypt)?;
Ok(Self { writer, iv, crypter, block_size, encr_buf: Box::new([0u8; 64*1024]) })
}
pub fn finish(mut self) -> Result<(W, [u8; 16], [u8; 16]), Error> {
let rest = self.crypter.finalize(self.encr_buf.as_mut())?;
if rest > 0 {
self.writer.write_all(&self.encr_buf[..rest])?;
}
self.writer.flush()?;
let mut tag = [0u8; 16];
self.crypter.get_tag(&mut tag)?;
Ok((self.writer, self.iv, tag))
}
}
impl <W: Write> Write for CryptWriter<W> {
fn write(&mut self, buf: &[u8]) -> Result<usize, std::io::Error> {
let mut write_size = buf.len();
if write_size > (self.encr_buf.len() - self.block_size) {
write_size = self.encr_buf.len() - self.block_size;
}
let count = self.crypter.update(&buf[..write_size], self.encr_buf.as_mut())
.map_err(|err| {
std::io::Error::new(
std::io::ErrorKind::Other,
format!("crypter update failed - {}", err))
})?;
self.writer.write_all(&self.encr_buf[..count])?;
Ok(write_size)
}
fn flush(&mut self) -> Result<(), std::io::Error> {
Ok(())
}
}

643
src/backup/data_blob.rs
View File

@ -7,7 +7,6 @@ const MAX_BLOB_SIZE: usize = 128*1024*1024;
use super::*;
/// Data blob binary storage format
///
/// Data blobs store arbitrary binary data (< 128MB), and can be
@ -288,646 +287,4 @@ impl DataBlob {
bail!("unable to parse raw blob - wrong magic");
}
}
}
use std::io::{Read, BufRead, BufReader, Write, Seek, SeekFrom};
struct CryptReader<R> {
reader: R,
small_read_buf: Vec<u8>,
block_size: usize,
crypter: openssl::symm::Crypter,
finalized: bool,
}
impl <R: BufRead> CryptReader<R> {
fn new(reader: R, iv: [u8; 16], tag: [u8; 16], config: &CryptConfig) -> Result<Self, Error> {
let block_size = config.cipher().block_size(); // Note: block size is normally 1 byte for stream ciphers
if block_size.count_ones() != 1 || block_size > 512 {
bail!("unexpected Cipher block size {}", block_size);
}
let mut crypter = config.data_crypter(&iv, openssl::symm::Mode::Decrypt)?;
crypter.set_tag(&tag)?;
Ok(Self { reader, crypter, block_size, finalized: false, small_read_buf: Vec::new() })
}
fn finish(self) -> Result<R, Error> {
if !self.finalized {
bail!("CryptReader not successfully finalized.");
}
Ok(self.reader)
}
}
impl <R: BufRead> Read for CryptReader<R> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, std::io::Error> {
if self.small_read_buf.len() > 0 {
let max = if self.small_read_buf.len() > buf.len() { buf.len() } else { self.small_read_buf.len() };
let rest = self.small_read_buf.split_off(max);
buf[..max].copy_from_slice(&self.small_read_buf);
self.small_read_buf = rest;
return Ok(max);
}
let data = self.reader.fill_buf()?;
// handle small read buffers
if buf.len() <= 2*self.block_size {
let mut outbuf = [0u8; 1024];
let count = if data.len() == 0 { // EOF
let written = self.crypter.finalize(&mut outbuf)?;
self.finalized = true;
written
} else {
let mut read_size = outbuf.len() - self.block_size;
if read_size > data.len() {
read_size = data.len();
}
let written = self.crypter.update(&data[..read_size], &mut outbuf)?;
self.reader.consume(read_size);
written
};
if count > buf.len() {
buf.copy_from_slice(&outbuf[..buf.len()]);
self.small_read_buf = outbuf[buf.len()..count].to_vec();
return Ok(buf.len());
} else {
buf[..count].copy_from_slice(&outbuf[..count]);
return Ok(count);
}
} else {
if data.len() == 0 { // EOF
let rest = self.crypter.finalize(buf)?;
self.finalized = true;
return Ok(rest)
} else {
let mut read_size = buf.len() - self.block_size;
if read_size > data.len() {
read_size = data.len();
}
let count = self.crypter.update(&data[..read_size], buf)?;
self.reader.consume(read_size);
return Ok(count)
}
}
}
}
struct CryptWriter<W> {
writer: W,
block_size: usize,
encr_buf: Box<[u8; 64*1024]>,
iv: [u8; 16],
crypter: openssl::symm::Crypter,
}
impl <W: Write> CryptWriter<W> {
fn new(writer: W, config: &CryptConfig) -> Result<Self, Error> {
let mut iv = [0u8; 16];
proxmox::sys::linux::fill_with_random_data(&mut iv)?;
let block_size = config.cipher().block_size();
let crypter = config.data_crypter(&iv, openssl::symm::Mode::Encrypt)?;
Ok(Self { writer, iv, crypter, block_size, encr_buf: Box::new([0u8; 64*1024]) })
}
fn finish(mut self) -> Result<(W, [u8; 16], [u8; 16]), Error> {
let rest = self.crypter.finalize(self.encr_buf.as_mut())?;
if rest > 0 {
self.writer.write_all(&self.encr_buf[..rest])?;
}
self.writer.flush()?;
let mut tag = [0u8; 16];
self.crypter.get_tag(&mut tag)?;
Ok((self.writer, self.iv, tag))
}
}
impl <W: Write> Write for CryptWriter<W> {
fn write(&mut self, buf: &[u8]) -> Result<usize, std::io::Error> {
let mut write_size = buf.len();
if write_size > (self.encr_buf.len() - self.block_size) {
write_size = self.encr_buf.len() - self.block_size;
}
let count = self.crypter.update(&buf[..write_size], self.encr_buf.as_mut())
.map_err(|err| {
std::io::Error::new(
std::io::ErrorKind::Other,
format!("crypter update failed - {}", err))
})?;
self.writer.write_all(&self.encr_buf[..count])?;
Ok(write_size)
}
fn flush(&mut self) -> Result<(), std::io::Error> {
Ok(())
}
}
struct ChecksumWriter<'a, W> {
writer: W,
hasher: crc32fast::Hasher,
signer: Option<openssl::sign::Signer<'a>>,
}
impl <'a, W: Write> ChecksumWriter<'a, W> {
fn new(writer: W, signer: Option<openssl::sign::Signer<'a>>) -> Self {
let hasher = crc32fast::Hasher::new();
Self { writer, hasher, signer }
}
pub fn finish(mut self) -> Result<(W, u32, Option<[u8; 32]>), Error> {
let crc = self.hasher.finalize();
if let Some(ref mut signer) = self.signer {
let mut tag = [0u8; 32];
signer.sign(&mut tag)?;
Ok((self.writer, crc, Some(tag)))
} else {
Ok((self.writer, crc, None))
}
}
}
impl <'a, W: Write> Write for ChecksumWriter<'a, W> {
fn write(&mut self, buf: &[u8]) -> Result<usize, std::io::Error> {
self.hasher.update(buf);
if let Some(ref mut signer) = self.signer {
signer.update(buf)
.map_err(|err| {
std::io::Error::new(
std::io::ErrorKind::Other,
format!("hmac update failed - {}", err))
})?;
}
self.writer.write(buf)
}
fn flush(&mut self) -> Result<(), std::io::Error> {
self.writer.flush()
}
}
enum BlobWriterState<'a, W: Write> {
Uncompressed { csum_writer: ChecksumWriter<'a, W> },
Compressed { compr: zstd::stream::write::Encoder<ChecksumWriter<'a, W>> },
Signed { csum_writer: ChecksumWriter<'a, W> },
SignedCompressed { compr: zstd::stream::write::Encoder<ChecksumWriter<'a, W>> },
Encrypted { crypt_writer: CryptWriter<ChecksumWriter<'a, W>> },
EncryptedCompressed { compr: zstd::stream::write::Encoder<CryptWriter<ChecksumWriter<'a, W>>> },
}
/// Write compressed data blobs
pub struct DataBlobWriter<'a, W: Write> {
state: BlobWriterState<'a, W>,
}
impl <'a, W: Write + Seek> DataBlobWriter<'a, W> {
pub fn new_uncompressed(mut writer: W) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = DataBlobHeader { magic: UNCOMPRESSED_BLOB_MAGIC_1_0, crc: [0; 4] };
unsafe {
writer.write_le_value(head)?;
}
let csum_writer = ChecksumWriter::new(writer, None);
Ok(Self { state: BlobWriterState::Uncompressed { csum_writer }})
}
pub fn new_compressed(mut writer: W) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = DataBlobHeader { magic: COMPRESSED_BLOB_MAGIC_1_0, crc: [0; 4] };
unsafe {
writer.write_le_value(head)?;
}
let csum_writer = ChecksumWriter::new(writer, None);
let compr = zstd::stream::write::Encoder::new(csum_writer, 1)?;
Ok(Self { state: BlobWriterState::Compressed { compr }})
}
pub fn new_signed(mut writer: W, config: &'a CryptConfig) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = AuthenticatedDataBlobHeader {
head: DataBlobHeader { magic: AUTHENTICATED_BLOB_MAGIC_1_0, crc: [0; 4] },
tag: [0u8; 32],
};
unsafe {
writer.write_le_value(head)?;
}
let signer = config.data_signer();
let csum_writer = ChecksumWriter::new(writer, Some(signer));
Ok(Self { state: BlobWriterState::Signed { csum_writer }})
}
pub fn new_signed_compressed(mut writer: W, config: &'a CryptConfig) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = AuthenticatedDataBlobHeader {
head: DataBlobHeader { magic: AUTH_COMPR_BLOB_MAGIC_1_0, crc: [0; 4] },
tag: [0u8; 32],
};
unsafe {
writer.write_le_value(head)?;
}
let signer = config.data_signer();
let csum_writer = ChecksumWriter::new(writer, Some(signer));
let compr = zstd::stream::write::Encoder::new(csum_writer, 1)?;
Ok(Self { state: BlobWriterState::SignedCompressed { compr }})
}
pub fn new_encrypted(mut writer: W, config: &'a CryptConfig) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = EncryptedDataBlobHeader {
head: DataBlobHeader { magic: ENCRYPTED_BLOB_MAGIC_1_0, crc: [0; 4] },
iv: [0u8; 16],
tag: [0u8; 16],
};
unsafe {
writer.write_le_value(head)?;
}
let csum_writer = ChecksumWriter::new(writer, None);
let crypt_writer = CryptWriter::new(csum_writer, config)?;
Ok(Self { state: BlobWriterState::Encrypted { crypt_writer }})
}
pub fn new_encrypted_compressed(mut writer: W, config: &'a CryptConfig) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = EncryptedDataBlobHeader {
head: DataBlobHeader { magic: ENCR_COMPR_BLOB_MAGIC_1_0, crc: [0; 4] },
iv: [0u8; 16],
tag: [0u8; 16],
};
unsafe {
writer.write_le_value(head)?;
}
let csum_writer = ChecksumWriter::new(writer, None);
let crypt_writer = CryptWriter::new(csum_writer, config)?;
let compr = zstd::stream::write::Encoder::new(crypt_writer, 1)?;
Ok(Self { state: BlobWriterState::EncryptedCompressed { compr }})
}
pub fn finish(self) -> Result<W, Error> {
match self.state {
BlobWriterState::Uncompressed { csum_writer } => {
// write CRC
let (mut writer, crc, _) = csum_writer.finish()?;
let head = DataBlobHeader { magic: UNCOMPRESSED_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() };
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::Compressed { compr } => {
let csum_writer = compr.finish()?;
let (mut writer, crc, _) = csum_writer.finish()?;
let head = DataBlobHeader { magic: COMPRESSED_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() };
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::Signed { csum_writer } => {
let (mut writer, crc, tag) = csum_writer.finish()?;
let head = AuthenticatedDataBlobHeader {
head: DataBlobHeader { magic: AUTHENTICATED_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() },
tag: tag.unwrap(),
};
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::SignedCompressed { compr } => {
let csum_writer = compr.finish()?;
let (mut writer, crc, tag) = csum_writer.finish()?;
let head = AuthenticatedDataBlobHeader {
head: DataBlobHeader { magic: AUTH_COMPR_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() },
tag: tag.unwrap(),
};
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::Encrypted { crypt_writer } => {
let (csum_writer, iv, tag) = crypt_writer.finish()?;
let (mut writer, crc, _) = csum_writer.finish()?;
let head = EncryptedDataBlobHeader {
head: DataBlobHeader { magic: ENCRYPTED_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() },
iv, tag,
};
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::EncryptedCompressed { compr } => {
let crypt_writer = compr.finish()?;
let (csum_writer, iv, tag) = crypt_writer.finish()?;
let (mut writer, crc, _) = csum_writer.finish()?;
let head = EncryptedDataBlobHeader {
head: DataBlobHeader { magic: ENCR_COMPR_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() },
iv, tag,
};
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
}
}
}
impl <'a, W: Write + Seek> Write for DataBlobWriter<'a, W> {
fn write(&mut self, buf: &[u8]) -> Result<usize, std::io::Error> {
match self.state {
BlobWriterState::Uncompressed { ref mut csum_writer } => {
csum_writer.write(buf)
}
BlobWriterState::Compressed { ref mut compr } => {
compr.write(buf)
}
BlobWriterState::Signed { ref mut csum_writer } => {
csum_writer.write(buf)
}
BlobWriterState::SignedCompressed { ref mut compr } => {
compr.write(buf)
}
BlobWriterState::Encrypted { ref mut crypt_writer } => {
crypt_writer.write(buf)
}
BlobWriterState::EncryptedCompressed { ref mut compr } => {
compr.write(buf)
}
}
}
fn flush(&mut self) -> Result<(), std::io::Error> {
match self.state {
BlobWriterState::Uncompressed { ref mut csum_writer } => {
csum_writer.flush()
}
BlobWriterState::Compressed { ref mut compr } => {
compr.flush()
}
BlobWriterState::Signed { ref mut csum_writer } => {
csum_writer.flush()
}
BlobWriterState::SignedCompressed { ref mut compr } => {
compr.flush()
}
BlobWriterState::Encrypted { ref mut crypt_writer } => {
crypt_writer.flush()
}
BlobWriterState::EncryptedCompressed { ref mut compr } => {
compr.flush()
}
}
}
}
struct ChecksumReader<'a, R> {
reader: R,
hasher: crc32fast::Hasher,
signer: Option<openssl::sign::Signer<'a>>,
}
impl <'a, R: Read> ChecksumReader<'a, R> {
fn new(reader: R, signer: Option<openssl::sign::Signer<'a>>) -> Self {
let hasher = crc32fast::Hasher::new();
Self { reader, hasher, signer }
}
pub fn finish(mut self) -> Result<(R, u32, Option<[u8; 32]>), Error> {
let crc = self.hasher.finalize();
if let Some(ref mut signer) = self.signer {
let mut tag = [0u8; 32];
signer.sign(&mut tag)?;
Ok((self.reader, crc, Some(tag)))
} else {
Ok((self.reader, crc, None))
}
}
}
impl <'a, R: Read> Read for ChecksumReader<'a, R> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, std::io::Error> {
let count = self.reader.read(buf)?;
if count > 0 {
self.hasher.update(&buf[..count]);
if let Some(ref mut signer) = self.signer {
signer.update(&buf[..count])
.map_err(|err| {
std::io::Error::new(
std::io::ErrorKind::Other,
format!("hmac update failed - {}", err))
})?;
}
}
Ok(count)
}
}
enum BlobReaderState<'a, R: Read> {
Uncompressed { expected_crc: u32, csum_reader: ChecksumReader<'a, R> },
Compressed { expected_crc: u32, decompr: zstd::stream::read::Decoder<BufReader<ChecksumReader<'a, R>>> },
Signed { expected_crc: u32, expected_hmac: [u8; 32], csum_reader: ChecksumReader<'a, R> },
SignedCompressed { expected_crc: u32, expected_hmac: [u8; 32], decompr: zstd::stream::read::Decoder<BufReader<ChecksumReader<'a, R>>> },
Encrypted { expected_crc: u32, decrypt_reader: CryptReader<BufReader<ChecksumReader<'a, R>>> },
EncryptedCompressed { expected_crc: u32, decompr: zstd::stream::read::Decoder<BufReader<CryptReader<BufReader<ChecksumReader<'a, R>>>>> },
}
/// Read data blobs
pub struct DataBlobReader<'a, R: Read> {
state: BlobReaderState<'a, R>,
}
impl <'a, R: Read> DataBlobReader<'a, R> {
pub fn new(mut reader: R, config: Option<&'a CryptConfig>) -> Result<Self, Error> {
let head: DataBlobHeader = unsafe { reader.read_le_value()? };
match head.magic {
UNCOMPRESSED_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let csum_reader = ChecksumReader::new(reader, None);
Ok(Self { state: BlobReaderState::Uncompressed { expected_crc, csum_reader }})
}
COMPRESSED_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let csum_reader = ChecksumReader::new(reader, None);
let decompr = zstd::stream::read::Decoder::new(csum_reader)?;
Ok(Self { state: BlobReaderState::Compressed { expected_crc, decompr }})
}
AUTHENTICATED_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let mut expected_hmac = [0u8; 32];
reader.read_exact(&mut expected_hmac)?;
let signer = config.map(|c| c.data_signer());
let csum_reader = ChecksumReader::new(reader, signer);
Ok(Self { state: BlobReaderState::Signed { expected_crc, expected_hmac, csum_reader }})
}
AUTH_COMPR_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let mut expected_hmac = [0u8; 32];
reader.read_exact(&mut expected_hmac)?;
let signer = config.map(|c| c.data_signer());
let csum_reader = ChecksumReader::new(reader, signer);
let decompr = zstd::stream::read::Decoder::new(csum_reader)?;
Ok(Self { state: BlobReaderState::SignedCompressed { expected_crc, expected_hmac, decompr }})
}
ENCRYPTED_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let mut iv = [0u8; 16];
let mut expected_tag = [0u8; 16];
reader.read_exact(&mut iv)?;
reader.read_exact(&mut expected_tag)?;
let csum_reader = ChecksumReader::new(reader, None);
let decrypt_reader = CryptReader::new(BufReader::with_capacity(64*1024, csum_reader), iv, expected_tag, config.unwrap())?;
Ok(Self { state: BlobReaderState::Encrypted { expected_crc, decrypt_reader }})
}
ENCR_COMPR_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let mut iv = [0u8; 16];
let mut expected_tag = [0u8; 16];
reader.read_exact(&mut iv)?;
reader.read_exact(&mut expected_tag)?;
let csum_reader = ChecksumReader::new(reader, None);
let decrypt_reader = CryptReader::new(BufReader::with_capacity(64*1024, csum_reader), iv, expected_tag, config.unwrap())?;
let decompr = zstd::stream::read::Decoder::new(decrypt_reader)?;
Ok(Self { state: BlobReaderState::EncryptedCompressed { expected_crc, decompr }})
}
_ => bail!("got wrong magic number {:?}", head.magic)
}
}
pub fn finish(self) -> Result<R, Error> {
match self.state {
BlobReaderState::Uncompressed { csum_reader, expected_crc } => {
let (reader, crc, _) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
Ok(reader)
}
BlobReaderState::Compressed { expected_crc, decompr } => {
let csum_reader = decompr.finish().into_inner();
let (reader, crc, _) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
Ok(reader)
}
BlobReaderState::Signed { csum_reader, expected_crc, expected_hmac } => {
let (reader, crc, hmac) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
if let Some(hmac) = hmac {
if hmac != expected_hmac {
bail!("blob signature check failed");
}
}
Ok(reader)
}
BlobReaderState::SignedCompressed { expected_crc, expected_hmac, decompr } => {
let csum_reader = decompr.finish().into_inner();
let (reader, crc, hmac) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
if let Some(hmac) = hmac {
if hmac != expected_hmac {
bail!("blob signature check failed");
}
}
Ok(reader)
}
BlobReaderState::Encrypted { expected_crc, decrypt_reader } => {
let csum_reader = decrypt_reader.finish()?.into_inner();
let (reader, crc, _) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
Ok(reader)
}
BlobReaderState::EncryptedCompressed { expected_crc, decompr } => {
let decrypt_reader = decompr.finish().into_inner();
let csum_reader = decrypt_reader.finish()?.into_inner();
let (reader, crc, _) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
Ok(reader)
}
}
}
}
impl <'a, R: BufRead> Read for DataBlobReader<'a, R> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, std::io::Error> {
match &mut self.state {
BlobReaderState::Uncompressed { csum_reader, .. } => {
csum_reader.read(buf)
}
BlobReaderState::Compressed { decompr, .. } => {
decompr.read(buf)
}
BlobReaderState::Signed { csum_reader, .. } => {
csum_reader.read(buf)
}
BlobReaderState::SignedCompressed { decompr, .. } => {
decompr.read(buf)
}
BlobReaderState::Encrypted { decrypt_reader, .. } => {
decrypt_reader.read(buf)
}
BlobReaderState::EncryptedCompressed { decompr, .. } => {
decompr.read(buf)
}
}
}
}

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use failure::*;
use std::io::{Read, BufRead, BufReader};
use proxmox::tools::io::ReadExt;
use super::*;
enum BlobReaderState<'a, R: Read> {
Uncompressed { expected_crc: u32, csum_reader: ChecksumReader<'a, R> },
Compressed { expected_crc: u32, decompr: zstd::stream::read::Decoder<BufReader<ChecksumReader<'a, R>>> },
Signed { expected_crc: u32, expected_hmac: [u8; 32], csum_reader: ChecksumReader<'a, R> },
SignedCompressed { expected_crc: u32, expected_hmac: [u8; 32], decompr: zstd::stream::read::Decoder<BufReader<ChecksumReader<'a, R>>> },
Encrypted { expected_crc: u32, decrypt_reader: CryptReader<BufReader<ChecksumReader<'a, R>>> },
EncryptedCompressed { expected_crc: u32, decompr: zstd::stream::read::Decoder<BufReader<CryptReader<BufReader<ChecksumReader<'a, R>>>>> },
}
/// Read data blobs
pub struct DataBlobReader<'a, R: Read> {
state: BlobReaderState<'a, R>,
}
impl <'a, R: Read> DataBlobReader<'a, R> {
pub fn new(mut reader: R, config: Option<&'a CryptConfig>) -> Result<Self, Error> {
let head: DataBlobHeader = unsafe { reader.read_le_value()? };
match head.magic {
UNCOMPRESSED_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let csum_reader = ChecksumReader::new(reader, None);
Ok(Self { state: BlobReaderState::Uncompressed { expected_crc, csum_reader }})
}
COMPRESSED_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let csum_reader = ChecksumReader::new(reader, None);
let decompr = zstd::stream::read::Decoder::new(csum_reader)?;
Ok(Self { state: BlobReaderState::Compressed { expected_crc, decompr }})
}
AUTHENTICATED_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let mut expected_hmac = [0u8; 32];
reader.read_exact(&mut expected_hmac)?;
let signer = config.map(|c| c.data_signer());
let csum_reader = ChecksumReader::new(reader, signer);
Ok(Self { state: BlobReaderState::Signed { expected_crc, expected_hmac, csum_reader }})
}
AUTH_COMPR_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let mut expected_hmac = [0u8; 32];
reader.read_exact(&mut expected_hmac)?;
let signer = config.map(|c| c.data_signer());
let csum_reader = ChecksumReader::new(reader, signer);
let decompr = zstd::stream::read::Decoder::new(csum_reader)?;
Ok(Self { state: BlobReaderState::SignedCompressed { expected_crc, expected_hmac, decompr }})
}
ENCRYPTED_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let mut iv = [0u8; 16];
let mut expected_tag = [0u8; 16];
reader.read_exact(&mut iv)?;
reader.read_exact(&mut expected_tag)?;
let csum_reader = ChecksumReader::new(reader, None);
let decrypt_reader = CryptReader::new(BufReader::with_capacity(64*1024, csum_reader), iv, expected_tag, config.unwrap())?;
Ok(Self { state: BlobReaderState::Encrypted { expected_crc, decrypt_reader }})
}
ENCR_COMPR_BLOB_MAGIC_1_0 => {
let expected_crc = u32::from_le_bytes(head.crc);
let mut iv = [0u8; 16];
let mut expected_tag = [0u8; 16];
reader.read_exact(&mut iv)?;
reader.read_exact(&mut expected_tag)?;
let csum_reader = ChecksumReader::new(reader, None);
let decrypt_reader = CryptReader::new(BufReader::with_capacity(64*1024, csum_reader), iv, expected_tag, config.unwrap())?;
let decompr = zstd::stream::read::Decoder::new(decrypt_reader)?;
Ok(Self { state: BlobReaderState::EncryptedCompressed { expected_crc, decompr }})
}
_ => bail!("got wrong magic number {:?}", head.magic)
}
}
pub fn finish(self) -> Result<R, Error> {
match self.state {
BlobReaderState::Uncompressed { csum_reader, expected_crc } => {
let (reader, crc, _) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
Ok(reader)
}
BlobReaderState::Compressed { expected_crc, decompr } => {
let csum_reader = decompr.finish().into_inner();
let (reader, crc, _) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
Ok(reader)
}
BlobReaderState::Signed { csum_reader, expected_crc, expected_hmac } => {
let (reader, crc, hmac) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
if let Some(hmac) = hmac {
if hmac != expected_hmac {
bail!("blob signature check failed");
}
}
Ok(reader)
}
BlobReaderState::SignedCompressed { expected_crc, expected_hmac, decompr } => {
let csum_reader = decompr.finish().into_inner();
let (reader, crc, hmac) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
if let Some(hmac) = hmac {
if hmac != expected_hmac {
bail!("blob signature check failed");
}
}
Ok(reader)
}
BlobReaderState::Encrypted { expected_crc, decrypt_reader } => {
let csum_reader = decrypt_reader.finish()?.into_inner();
let (reader, crc, _) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
Ok(reader)
}
BlobReaderState::EncryptedCompressed { expected_crc, decompr } => {
let decrypt_reader = decompr.finish().into_inner();
let csum_reader = decrypt_reader.finish()?.into_inner();
let (reader, crc, _) = csum_reader.finish()?;
if crc != expected_crc {
bail!("blob crc check failed");
}
Ok(reader)
}
}
}
}
impl <'a, R: BufRead> Read for DataBlobReader<'a, R> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, std::io::Error> {
match &mut self.state {
BlobReaderState::Uncompressed { csum_reader, .. } => {
csum_reader.read(buf)
}
BlobReaderState::Compressed { decompr, .. } => {
decompr.read(buf)
}
BlobReaderState::Signed { csum_reader, .. } => {
csum_reader.read(buf)
}
BlobReaderState::SignedCompressed { decompr, .. } => {
decompr.read(buf)
}
BlobReaderState::Encrypted { decrypt_reader, .. } => {
decrypt_reader.read(buf)
}
BlobReaderState::EncryptedCompressed { decompr, .. } => {
decompr.read(buf)
}
}
}
}

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use failure::*;
use std::io::{Write, Seek, SeekFrom};
use proxmox::tools::io::WriteExt;
use super::*;
enum BlobWriterState<'a, W: Write> {
Uncompressed { csum_writer: ChecksumWriter<'a, W> },
Compressed { compr: zstd::stream::write::Encoder<ChecksumWriter<'a, W>> },
Signed { csum_writer: ChecksumWriter<'a, W> },
SignedCompressed { compr: zstd::stream::write::Encoder<ChecksumWriter<'a, W>> },
Encrypted { crypt_writer: CryptWriter<ChecksumWriter<'a, W>> },
EncryptedCompressed { compr: zstd::stream::write::Encoder<CryptWriter<ChecksumWriter<'a, W>>> },
}
/// Data blob writer
pub struct DataBlobWriter<'a, W: Write> {
state: BlobWriterState<'a, W>,
}
impl <'a, W: Write + Seek> DataBlobWriter<'a, W> {
pub fn new_uncompressed(mut writer: W) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = DataBlobHeader { magic: UNCOMPRESSED_BLOB_MAGIC_1_0, crc: [0; 4] };
unsafe {
writer.write_le_value(head)?;
}
let csum_writer = ChecksumWriter::new(writer, None);
Ok(Self { state: BlobWriterState::Uncompressed { csum_writer }})
}
pub fn new_compressed(mut writer: W) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = DataBlobHeader { magic: COMPRESSED_BLOB_MAGIC_1_0, crc: [0; 4] };
unsafe {
writer.write_le_value(head)?;
}
let csum_writer = ChecksumWriter::new(writer, None);
let compr = zstd::stream::write::Encoder::new(csum_writer, 1)?;
Ok(Self { state: BlobWriterState::Compressed { compr }})
}
pub fn new_signed(mut writer: W, config: &'a CryptConfig) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = AuthenticatedDataBlobHeader {
head: DataBlobHeader { magic: AUTHENTICATED_BLOB_MAGIC_1_0, crc: [0; 4] },
tag: [0u8; 32],
};
unsafe {
writer.write_le_value(head)?;
}
let signer = config.data_signer();
let csum_writer = ChecksumWriter::new(writer, Some(signer));
Ok(Self { state: BlobWriterState::Signed { csum_writer }})
}
pub fn new_signed_compressed(mut writer: W, config: &'a CryptConfig) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = AuthenticatedDataBlobHeader {
head: DataBlobHeader { magic: AUTH_COMPR_BLOB_MAGIC_1_0, crc: [0; 4] },
tag: [0u8; 32],
};
unsafe {
writer.write_le_value(head)?;
}
let signer = config.data_signer();
let csum_writer = ChecksumWriter::new(writer, Some(signer));
let compr = zstd::stream::write::Encoder::new(csum_writer, 1)?;
Ok(Self { state: BlobWriterState::SignedCompressed { compr }})
}
pub fn new_encrypted(mut writer: W, config: &'a CryptConfig) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = EncryptedDataBlobHeader {
head: DataBlobHeader { magic: ENCRYPTED_BLOB_MAGIC_1_0, crc: [0; 4] },
iv: [0u8; 16],
tag: [0u8; 16],
};
unsafe {
writer.write_le_value(head)?;
}
let csum_writer = ChecksumWriter::new(writer, None);
let crypt_writer = CryptWriter::new(csum_writer, config)?;
Ok(Self { state: BlobWriterState::Encrypted { crypt_writer }})
}
pub fn new_encrypted_compressed(mut writer: W, config: &'a CryptConfig) -> Result<Self, Error> {
writer.seek(SeekFrom::Start(0))?;
let head = EncryptedDataBlobHeader {
head: DataBlobHeader { magic: ENCR_COMPR_BLOB_MAGIC_1_0, crc: [0; 4] },
iv: [0u8; 16],
tag: [0u8; 16],
};
unsafe {
writer.write_le_value(head)?;
}
let csum_writer = ChecksumWriter::new(writer, None);
let crypt_writer = CryptWriter::new(csum_writer, config)?;
let compr = zstd::stream::write::Encoder::new(crypt_writer, 1)?;
Ok(Self { state: BlobWriterState::EncryptedCompressed { compr }})
}
pub fn finish(self) -> Result<W, Error> {
match self.state {
BlobWriterState::Uncompressed { csum_writer } => {
// write CRC
let (mut writer, crc, _) = csum_writer.finish()?;
let head = DataBlobHeader { magic: UNCOMPRESSED_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() };
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::Compressed { compr } => {
let csum_writer = compr.finish()?;
let (mut writer, crc, _) = csum_writer.finish()?;
let head = DataBlobHeader { magic: COMPRESSED_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() };
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::Signed { csum_writer } => {
let (mut writer, crc, tag) = csum_writer.finish()?;
let head = AuthenticatedDataBlobHeader {
head: DataBlobHeader { magic: AUTHENTICATED_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() },
tag: tag.unwrap(),
};
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::SignedCompressed { compr } => {
let csum_writer = compr.finish()?;
let (mut writer, crc, tag) = csum_writer.finish()?;
let head = AuthenticatedDataBlobHeader {
head: DataBlobHeader { magic: AUTH_COMPR_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() },
tag: tag.unwrap(),
};
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::Encrypted { crypt_writer } => {
let (csum_writer, iv, tag) = crypt_writer.finish()?;
let (mut writer, crc, _) = csum_writer.finish()?;
let head = EncryptedDataBlobHeader {
head: DataBlobHeader { magic: ENCRYPTED_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() },
iv, tag,
};
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
BlobWriterState::EncryptedCompressed { compr } => {
let crypt_writer = compr.finish()?;
let (csum_writer, iv, tag) = crypt_writer.finish()?;
let (mut writer, crc, _) = csum_writer.finish()?;
let head = EncryptedDataBlobHeader {
head: DataBlobHeader { magic: ENCR_COMPR_BLOB_MAGIC_1_0, crc: crc.to_le_bytes() },
iv, tag,
};
writer.seek(SeekFrom::Start(0))?;
unsafe {
writer.write_le_value(head)?;
}
return Ok(writer)
}
}
}
}
impl <'a, W: Write + Seek> Write for DataBlobWriter<'a, W> {
fn write(&mut self, buf: &[u8]) -> Result<usize, std::io::Error> {
match self.state {
BlobWriterState::Uncompressed { ref mut csum_writer } => {
csum_writer.write(buf)
}
BlobWriterState::Compressed { ref mut compr } => {
compr.write(buf)
}
BlobWriterState::Signed { ref mut csum_writer } => {
csum_writer.write(buf)
}
BlobWriterState::SignedCompressed { ref mut compr } => {
compr.write(buf)
}
BlobWriterState::Encrypted { ref mut crypt_writer } => {
crypt_writer.write(buf)
}
BlobWriterState::EncryptedCompressed { ref mut compr } => {
compr.write(buf)
}
}
}
fn flush(&mut self) -> Result<(), std::io::Error> {
match self.state {
BlobWriterState::Uncompressed { ref mut csum_writer } => {
csum_writer.flush()
}
BlobWriterState::Compressed { ref mut compr } => {
compr.flush()
}
BlobWriterState::Signed { ref mut csum_writer } => {
csum_writer.flush()
}
BlobWriterState::SignedCompressed { ref mut compr } => {
compr.flush()
}
BlobWriterState::Encrypted { ref mut crypt_writer } => {
crypt_writer.flush()
}
BlobWriterState::EncryptedCompressed { ref mut compr } => {
compr.flush()
}
}
}
}