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| author | Bryan Newbold <bnewbold@robocracy.org> | 2017-10-27 21:53:05 -0700 |
|---|---|---|
| committer | Bryan Newbold <bnewbold@robocracy.org> | 2017-10-27 21:53:05 -0700 |
| commit | cfc039aedb9acf4a67e316675f044aa765c3d7fc (patch) | |
| tree | eaf2a9af72f1a33eca5f2b5eb0f042d5dd6546d5 | |
| parent | 2109795e3ecfc2fb1fa65342d8065b5c6130ad79 (diff) | |
| download | geniza-cfc039aedb9acf4a67e316675f044aa765c3d7fc.tar.gz geniza-cfc039aedb9acf4a67e316675f044aa765c3d7fc.zip | |
verify() partial progress; variable renamings
| -rw-r--r-- | src/sleep_register.rs | 64 |
1 files changed, 47 insertions, 17 deletions
diff --git a/src/sleep_register.rs b/src/sleep_register.rs index fa8229d..6041210 100644 --- a/src/sleep_register.rs +++ b/src/sleep_register.rs @@ -78,24 +78,25 @@ impl HyperRegister { buf } - pub fn hash_roots(reg: &mut HyperRegister, index: u64) -> Result<Vec<u8>> { - let mut buf = [0; 40]; + /// Hashes all the tree root parents for the given entry index (data index, not tree index). + pub fn hash_roots(reg: &mut HyperRegister, entry_index: u64) -> Result<Vec<u8>> { + let mut buf = [0; 32]; let mut hash = Blake2b::new(32); let mut index_buf = [0; 8]; hash.input(&[2; 1]); - for ri in HyperRegister::tree_root_nodes(index) { + for ri in HyperRegister::tree_root_nodes(entry_index) { u64::to_be(ri).encode_fixed(&mut index_buf); let node = reg.get_tree_entry(ri)?; hash.input(&node[0..32]); hash.input(&index_buf); hash.input(&node[32..40]); } - hash.result(&mut buf[0..32]); + hash.result(&mut buf); Ok(buf.to_vec()) } + /// Calculates the root notes for a given length (of data entries, not tree entries) fn tree_root_nodes(data_count: u64) -> Vec<u64> { - // Calculates the root notes for a given length (of data entries, not tree entries) // TODO: this should be an iterator // NB: this is a relatively "hot" function, gets called (repeatedly?) on every mutation, // and potentially in inner loops of lookups. @@ -124,11 +125,13 @@ impl HyperRegister { roots } - pub fn get_data_offset(reg: &mut HyperRegister, index: u64) -> Result<u64> { + /// Finds the offset of the given data chunk in the linear appended data file (not a "checked + /// out" individual file) + pub fn get_data_offset(reg: &mut HyperRegister, entry_index: u64) -> Result<u64> { // TODO: this is a naive (linear) implementation // log(N) would go up previous parent nodes (eg, use root_nodes()) let mut sum: u64 = 0; - for i in 0..index { + for i in 0..entry_index { let leaf = reg.get_tree_entry(i * 2)?; sum += u64::from_be(FixedInt::decode_fixed(&leaf[32..40])); } @@ -137,29 +140,29 @@ impl HyperRegister { /// Every node has a parent, so this function won't fail unless index is over 2^62, in which /// case it would overflow and panics instead. - fn tree_parent_index(index: u64) -> u64 { + fn tree_parent_index(tree_index: u64) -> u64 { for i in 0..62 { // find lowest-significant zero bit - if (index & (1 << i)) == 0 { + if (tree_index & (1 << i)) == 0 { // set that bit and clear next higher - return ((index | (1 << i))) & !(1 << (i + 1)); + return ((tree_index | (1 << i))) & !(1 << (i + 1)); } } panic!("Parent lookup overflowed, huge index!"); } /// Calling this on a leaf node is an error, as is calling very high node numbers (> 2^62) - fn tree_child_indices(index: u64) -> Result<(u64, u64)> { - if index % 2 == 0 { + fn tree_child_indices(tree_index: u64) -> Result<(u64, u64)> { + if tree_index % 2 == 0 { bail!("Leaf tree nodes have no children"); } for i in 0..62 { // find lowest-significant zero bit... - if (index & (1 << i)) == 0 { + if (tree_index & (1 << i)) == 0 { // larger child has this bit high, next lower bit cleared - let right = ((index | (1 << i))) & !(1 << (i - 1)); + let right = ((tree_index | (1 << i))) & !(1 << (i - 1)); // smaller child has next lower bit cleared - let left = index & !(1 << (i - 1)); + let left = tree_index & !(1 << (i - 1)); return Ok((left, right)); } } @@ -437,7 +440,7 @@ impl HyperRegister for SleepDirRegister { } // 4. Add signature to signature file - let root_hash = HyperRegister::hash_roots(self, index + 1)?; + let root_hash = HyperRegister::hash_roots(self, index)?; let root_sig = ed25519::signature(&root_hash, &self.secret_key.clone().unwrap()); self.sign_sleep.append(&root_sig)?; @@ -469,7 +472,32 @@ impl HyperRegister for SleepDirRegister { } fn verify(&mut self) -> Result<()> { - unimplemented!() + for i in 0..self.len()? { + + if let Some(_) = self.data_file { + // 1. Read and hash data + let data_chunk = self.get_data_entry(i)?; + let leaf_recalc = HyperRegister::hash_leaf(&data_chunk); + + // 2. Check tree leaf hash for this chunk + let leaf = self.get_tree_entry(i * 2)?; + if leaf.to_vec() != leaf_recalc.to_vec() { + bail!("Data chunk {} failed verification (leaf hash)", i); + } + } else { + warn!("No simple datafile, can't verify hashes"); + } + + // 3. Recurse up parents, hashing all parents + let rehash = HyperRegister::hash_roots(self, i)?; + + // 4. Read and verify signature in file + let sig = self.sign_sleep.read(i)?; + if !ed25519::verify(&rehash, &self.pub_key, &sig) { + bail!("Failed to verify signature for chunk {}", i) + } + } + Ok(()) } fn check(&mut self) -> Result<()> { @@ -532,6 +560,7 @@ fn test_sdr_append() { sdr.append("hello world!".as_bytes()).unwrap(); sdr.check().unwrap(); + sdr.verify().unwrap(); assert_eq!(sdr.len().unwrap(), 1); assert_eq!(sdr.len_bytes().unwrap(), 12); let count = 100; // TODO: make this >1000 when things are faster @@ -539,6 +568,7 @@ fn test_sdr_append() { sdr.append(&[1, 2, 3, 4, 5]).unwrap(); } sdr.check().unwrap(); + sdr.verify().unwrap(); assert_eq!(sdr.len().unwrap(), 1 + count); assert_eq!(sdr.len_bytes().unwrap(), 12 + (count * 5)); } |