447 lines
14 KiB
Rust
447 lines
14 KiB
Rust
use anyhow::{bail, Error};
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use std::convert::TryInto;
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use proxmox::tools::io::{ReadExt, WriteExt};
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const MAX_BLOB_SIZE: usize = 128*1024*1024;
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use super::file_formats::*;
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use super::CryptConfig;
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/// Encoded data chunk with digest and positional information
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pub struct ChunkInfo {
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pub chunk: DataBlob,
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pub digest: [u8; 32],
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pub chunk_len: u64,
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pub offset: u64,
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}
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/// Data blob binary storage format
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///
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/// Data blobs store arbitrary binary data (< 128MB), and can be
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/// compressed and encrypted (or just signed). A simply binary format
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/// is used to store them on disk or transfer them over the network.
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///
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/// Please use index files to store large data files (".fidx" of
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/// ".didx").
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///
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pub struct DataBlob {
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raw_data: Vec<u8>, // tagged, compressed, encryped data
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}
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impl DataBlob {
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/// accessor to raw_data field
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pub fn raw_data(&self) -> &[u8] {
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&self.raw_data
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}
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/// Consume self and returns raw_data
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pub fn into_inner(self) -> Vec<u8> {
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self.raw_data
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}
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/// accessor to chunk type (magic number)
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pub fn magic(&self) -> &[u8; 8] {
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self.raw_data[0..8].try_into().unwrap()
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}
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/// accessor to crc32 checksum
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pub fn crc(&self) -> u32 {
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let crc_o = proxmox::offsetof!(DataBlobHeader, crc);
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u32::from_le_bytes(self.raw_data[crc_o..crc_o+4].try_into().unwrap())
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}
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// set the CRC checksum field
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pub fn set_crc(&mut self, crc: u32) {
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let crc_o = proxmox::offsetof!(DataBlobHeader, crc);
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self.raw_data[crc_o..crc_o+4].copy_from_slice(&crc.to_le_bytes());
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}
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/// compute the CRC32 checksum
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pub fn compute_crc(&self) -> u32 {
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let mut hasher = crc32fast::Hasher::new();
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let start = header_size(self.magic()); // start after HEAD
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hasher.update(&self.raw_data[start..]);
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hasher.finalize()
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}
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/// verify the CRC32 checksum
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pub fn verify_crc(&self) -> Result<(), Error> {
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let expected_crc = self.compute_crc();
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if expected_crc != self.crc() {
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bail!("Data blob has wrong CRC checksum.");
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}
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Ok(())
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}
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/// Create a DataBlob, optionally compressed and/or encrypted
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pub fn encode(
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data: &[u8],
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config: Option<&CryptConfig>,
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compress: bool,
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) -> Result<Self, Error> {
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if data.len() > MAX_BLOB_SIZE {
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bail!("data blob too large ({} bytes).", data.len());
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}
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let mut blob = if let Some(config) = config {
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let compr_data;
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let (_compress, data, magic) = if compress {
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compr_data = zstd::block::compress(data, 1)?;
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// Note: We only use compression if result is shorter
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if compr_data.len() < data.len() {
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(true, &compr_data[..], ENCR_COMPR_BLOB_MAGIC_1_0)
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} else {
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(false, data, ENCRYPTED_BLOB_MAGIC_1_0)
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}
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} else {
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(false, data, ENCRYPTED_BLOB_MAGIC_1_0)
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};
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let header_len = std::mem::size_of::<EncryptedDataBlobHeader>();
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let mut raw_data = Vec::with_capacity(data.len() + header_len);
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let dummy_head = EncryptedDataBlobHeader {
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head: DataBlobHeader { magic: [0u8; 8], crc: [0; 4] },
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iv: [0u8; 16],
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tag: [0u8; 16],
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};
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unsafe {
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raw_data.write_le_value(dummy_head)?;
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}
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let (iv, tag) = config.encrypt_to(data, &mut raw_data)?;
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let head = EncryptedDataBlobHeader {
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head: DataBlobHeader { magic, crc: [0; 4] }, iv, tag,
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};
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unsafe {
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(&mut raw_data[0..header_len]).write_le_value(head)?;
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}
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DataBlob { raw_data }
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} else {
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let max_data_len = data.len() + std::mem::size_of::<DataBlobHeader>();
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if compress {
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let mut comp_data = Vec::with_capacity(max_data_len);
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let head = DataBlobHeader {
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magic: COMPRESSED_BLOB_MAGIC_1_0,
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crc: [0; 4],
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};
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unsafe {
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comp_data.write_le_value(head)?;
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}
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zstd::stream::copy_encode(data, &mut comp_data, 1)?;
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if comp_data.len() < max_data_len {
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let mut blob = DataBlob { raw_data: comp_data };
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blob.set_crc(blob.compute_crc());
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return Ok(blob);
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}
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}
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let mut raw_data = Vec::with_capacity(max_data_len);
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let head = DataBlobHeader {
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magic: UNCOMPRESSED_BLOB_MAGIC_1_0,
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crc: [0; 4],
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};
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unsafe {
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raw_data.write_le_value(head)?;
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}
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raw_data.extend_from_slice(data);
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DataBlob { raw_data }
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};
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blob.set_crc(blob.compute_crc());
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Ok(blob)
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}
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/// Decode blob data
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pub fn decode(self, config: Option<&CryptConfig>) -> Result<Vec<u8>, Error> {
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let magic = self.magic();
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if magic == &UNCOMPRESSED_BLOB_MAGIC_1_0 {
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let data_start = std::mem::size_of::<DataBlobHeader>();
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Ok(self.raw_data[data_start..].to_vec())
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} else if magic == &COMPRESSED_BLOB_MAGIC_1_0 {
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let data_start = std::mem::size_of::<DataBlobHeader>();
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let data = zstd::block::decompress(&self.raw_data[data_start..], MAX_BLOB_SIZE)?;
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Ok(data)
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} else if magic == &ENCR_COMPR_BLOB_MAGIC_1_0 || magic == &ENCRYPTED_BLOB_MAGIC_1_0 {
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let header_len = std::mem::size_of::<EncryptedDataBlobHeader>();
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let head = unsafe {
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(&self.raw_data[..header_len]).read_le_value::<EncryptedDataBlobHeader>()?
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};
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if let Some(config) = config {
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let data = if magic == &ENCR_COMPR_BLOB_MAGIC_1_0 {
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config.decode_compressed_chunk(&self.raw_data[header_len..], &head.iv, &head.tag)?
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} else {
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config.decode_uncompressed_chunk(&self.raw_data[header_len..], &head.iv, &head.tag)?
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};
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Ok(data)
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} else {
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bail!("unable to decrypt blob - missing CryptConfig");
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}
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} else if magic == &AUTH_COMPR_BLOB_MAGIC_1_0 || magic == &AUTHENTICATED_BLOB_MAGIC_1_0 {
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let header_len = std::mem::size_of::<AuthenticatedDataBlobHeader>();
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let head = unsafe {
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(&self.raw_data[..header_len]).read_le_value::<AuthenticatedDataBlobHeader>()?
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};
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let data_start = std::mem::size_of::<AuthenticatedDataBlobHeader>();
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// Note: only verify if we have a crypt config
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if let Some(config) = config {
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let signature = config.compute_auth_tag(&self.raw_data[data_start..]);
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if signature != head.tag {
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bail!("verifying blob signature failed");
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}
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}
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if magic == &AUTH_COMPR_BLOB_MAGIC_1_0 {
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let data = zstd::block::decompress(&self.raw_data[data_start..], 16*1024*1024)?;
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Ok(data)
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} else {
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Ok(self.raw_data[data_start..].to_vec())
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}
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} else {
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bail!("Invalid blob magic number.");
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}
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}
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/// Create a signed DataBlob, optionally compressed
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pub fn create_signed(
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data: &[u8],
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config: &CryptConfig,
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compress: bool,
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) -> Result<Self, Error> {
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if data.len() > MAX_BLOB_SIZE {
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bail!("data blob too large ({} bytes).", data.len());
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}
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let compr_data;
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let (_compress, data, magic) = if compress {
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compr_data = zstd::block::compress(data, 1)?;
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// Note: We only use compression if result is shorter
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if compr_data.len() < data.len() {
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(true, &compr_data[..], AUTH_COMPR_BLOB_MAGIC_1_0)
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} else {
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(false, data, AUTHENTICATED_BLOB_MAGIC_1_0)
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}
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} else {
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(false, data, AUTHENTICATED_BLOB_MAGIC_1_0)
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};
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let header_len = std::mem::size_of::<AuthenticatedDataBlobHeader>();
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let mut raw_data = Vec::with_capacity(data.len() + header_len);
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let head = AuthenticatedDataBlobHeader {
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head: DataBlobHeader { magic, crc: [0; 4] },
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tag: config.compute_auth_tag(data),
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};
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unsafe {
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raw_data.write_le_value(head)?;
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}
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raw_data.extend_from_slice(data);
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let mut blob = DataBlob { raw_data };
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blob.set_crc(blob.compute_crc());
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Ok(blob)
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}
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/// Load blob from ``reader``
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pub fn load(reader: &mut dyn std::io::Read) -> Result<Self, Error> {
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let mut data = Vec::with_capacity(1024*1024);
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reader.read_to_end(&mut data)?;
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Self::from_raw(data)
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}
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/// Create Instance from raw data
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pub fn from_raw(data: Vec<u8>) -> Result<Self, Error> {
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if data.len() < std::mem::size_of::<DataBlobHeader>() {
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bail!("blob too small ({} bytes).", data.len());
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}
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let magic = &data[0..8];
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if magic == ENCR_COMPR_BLOB_MAGIC_1_0 || magic == ENCRYPTED_BLOB_MAGIC_1_0 {
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if data.len() < std::mem::size_of::<EncryptedDataBlobHeader>() {
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bail!("encrypted blob too small ({} bytes).", data.len());
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}
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let blob = DataBlob { raw_data: data };
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Ok(blob)
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} else if magic == COMPRESSED_BLOB_MAGIC_1_0 || magic == UNCOMPRESSED_BLOB_MAGIC_1_0 {
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let blob = DataBlob { raw_data: data };
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Ok(blob)
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} else if magic == AUTH_COMPR_BLOB_MAGIC_1_0 || magic == AUTHENTICATED_BLOB_MAGIC_1_0 {
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if data.len() < std::mem::size_of::<AuthenticatedDataBlobHeader>() {
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bail!("authenticated blob too small ({} bytes).", data.len());
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}
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let blob = DataBlob { raw_data: data };
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Ok(blob)
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} else {
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bail!("unable to parse raw blob - wrong magic");
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}
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}
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/// Verify digest and data length for unencrypted chunks.
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///
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/// To do that, we need to decompress data first. Please note that
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/// this is not possible for encrypted chunks.
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pub fn verify_unencrypted(
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&self,
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expected_chunk_size: usize,
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expected_digest: &[u8; 32],
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) -> Result<(), Error> {
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let magic = self.magic();
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let verify_raw_data = |data: &[u8]| {
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if expected_chunk_size != data.len() {
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bail!("detected chunk with wrong length ({} != {})", expected_chunk_size, data.len());
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}
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let digest = openssl::sha::sha256(data);
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if &digest != expected_digest {
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bail!("detected chunk with wrong digest.");
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}
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Ok(())
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};
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if magic == &COMPRESSED_BLOB_MAGIC_1_0 {
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let data = zstd::block::decompress(&self.raw_data[12..], 16*1024*1024)?;
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verify_raw_data(&data)?;
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} else if magic == &UNCOMPRESSED_BLOB_MAGIC_1_0 {
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verify_raw_data(&self.raw_data[12..])?;
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}
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Ok(())
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}
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}
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/// Builder for chunk DataBlobs
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///
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/// Main purpose is to centralize digest computation. Digest
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/// computation differ for encryped chunk, and this interface ensures that
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/// we always compute the correct one.
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pub struct DataChunkBuilder<'a, 'b> {
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config: Option<&'b CryptConfig>,
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orig_data: &'a [u8],
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digest_computed: bool,
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digest: [u8; 32],
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compress: bool,
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}
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impl <'a, 'b> DataChunkBuilder<'a, 'b> {
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/// Create a new builder instance.
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pub fn new(orig_data: &'a [u8]) -> Self {
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Self {
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orig_data,
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config: None,
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digest_computed: false,
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digest: [0u8; 32],
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compress: true,
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}
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}
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/// Set compression flag.
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///
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/// If true, chunk data is compressed using zstd (level 1).
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pub fn compress(mut self, value: bool) -> Self {
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self.compress = value;
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self
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}
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/// Set encryption Configuration
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///
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/// If set, chunks are encrypted.
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pub fn crypt_config(mut self, value: &'b CryptConfig) -> Self {
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if self.digest_computed {
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panic!("unable to set crypt_config after compute_digest().");
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}
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self.config = Some(value);
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self
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}
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fn compute_digest(&mut self) {
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if !self.digest_computed {
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if let Some(ref config) = self.config {
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self.digest = config.compute_digest(self.orig_data);
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} else {
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self.digest = openssl::sha::sha256(self.orig_data);
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}
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self.digest_computed = true;
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}
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}
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/// Returns the chunk Digest
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///
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/// Note: For encrypted chunks, this needs to be called after
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/// ``crypt_config``.
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pub fn digest(&mut self) -> &[u8; 32] {
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if !self.digest_computed {
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self.compute_digest();
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}
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&self.digest
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}
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/// Consume self and build the ``DataBlob``.
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///
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/// Returns the blob and the computet digest.
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pub fn build(mut self) -> Result<(DataBlob, [u8; 32]), Error> {
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if !self.digest_computed {
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self.compute_digest();
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}
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let chunk = DataBlob::encode(
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self.orig_data,
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self.config,
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self.compress,
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)?;
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Ok((chunk, self.digest))
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}
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/// Create a chunk filled with zeroes
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pub fn build_zero_chunk(
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crypt_config: Option<&CryptConfig>,
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chunk_size: usize,
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compress: bool,
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) -> Result<(DataBlob, [u8; 32]), Error> {
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let mut zero_bytes = Vec::with_capacity(chunk_size);
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zero_bytes.resize(chunk_size, 0u8);
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let mut chunk_builder = DataChunkBuilder::new(&zero_bytes).compress(compress);
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if let Some(ref crypt_config) = crypt_config {
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chunk_builder = chunk_builder.crypt_config(crypt_config);
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}
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chunk_builder.build()
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}
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}
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