mirror of
https://github.com/mimblewimble/grin.git
synced 2025-01-21 19:41:08 +03:00
26c2669fe8
* pmmr does not depend on switch_commit_hash for a given chain a commitment shold be sufficient to identify a utxo * fix the tests
263 lines
6.7 KiB
Rust
263 lines
6.7 KiB
Rust
// Copyright 2017 The Grin Developers
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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extern crate env_logger;
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extern crate grin_core as core;
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extern crate grin_store as store;
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extern crate time;
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use std::fs;
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use core::ser::*;
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use core::core::pmmr::{Backend, HashSum, Summable, PMMR};
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use core::core::hash::Hashed;
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#[test]
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fn sumtree_append() {
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let (data_dir, elems) = setup();
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let mut backend = store::sumtree::PMMRBackend::new(data_dir).unwrap();
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// adding first set of 4 elements and sync
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let mut mmr_size = load(0, &elems[0..4], &mut backend);
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backend.sync().unwrap();
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// adding the rest and sync again
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mmr_size = load(mmr_size, &elems[4..9], &mut backend);
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backend.sync().unwrap();
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// check the resulting backend store and the computation of the root
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let hash = Hashed::hash(&elems[0].clone());
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let sum = elems[0].sum();
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let node_hash = (1 as u64, &sum, hash).hash();
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assert_eq!(
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backend.get(1),
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Some(HashSum {
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hash: node_hash,
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sum: sum,
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})
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);
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let sum2 = HashSum::from_summable(1, &elems[0])
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+ HashSum::from_summable(2, &elems[1]);
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let sum4 = sum2
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+ (HashSum::from_summable(4, &elems[2])
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+ HashSum::from_summable(5, &elems[3]));
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let sum8 = sum4
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+ ((HashSum::from_summable(8, &elems[4])
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+ HashSum::from_summable(9, &elems[5]))
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+ (HashSum::from_summable(11, &elems[6])
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+ HashSum::from_summable(12, &elems[7])));
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let sum9 = sum8 + HashSum::from_summable(16, &elems[8]);
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{
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let pmmr = PMMR::at(&mut backend, mmr_size);
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assert_eq!(pmmr.root(), sum9);
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}
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}
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#[test]
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fn sumtree_prune_compact() {
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let (data_dir, elems) = setup();
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// setup the mmr store with all elements
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let mut backend = store::sumtree::PMMRBackend::new(data_dir).unwrap();
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let mmr_size = load(0, &elems[..], &mut backend);
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backend.sync().unwrap();
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// save the root
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let root: HashSum<TestElem>;
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{
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let pmmr = PMMR::at(&mut backend, mmr_size);
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root = pmmr.root();
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}
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// pruning some choice nodes
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{
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let mut pmmr = PMMR::at(&mut backend, mmr_size);
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pmmr.prune(1, 1).unwrap();
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pmmr.prune(4, 1).unwrap();
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pmmr.prune(5, 1).unwrap();
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}
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backend.sync().unwrap();
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// check the root
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{
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let pmmr = PMMR::at(&mut backend, mmr_size);
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assert_eq!(root, pmmr.root());
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}
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// compact
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backend.check_compact(2).unwrap();
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// recheck the root
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{
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let pmmr = PMMR::at(&mut backend, mmr_size);
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assert_eq!(root, pmmr.root());
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}
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}
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#[test]
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fn sumtree_reload() {
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let (data_dir, elems) = setup();
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// set everything up with a first backend
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let mmr_size: u64;
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let root: HashSum<TestElem>;
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{
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let mut backend = store::sumtree::PMMRBackend::new(data_dir.clone()).unwrap();
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mmr_size = load(0, &elems[..], &mut backend);
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backend.sync().unwrap();
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// save the root and prune some nodes so we have prune data
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{
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let mut pmmr = PMMR::at(&mut backend, mmr_size);
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root = pmmr.root();
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pmmr.prune(1, 1).unwrap();
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pmmr.prune(4, 1).unwrap();
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}
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backend.sync().unwrap();
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backend.check_compact(1).unwrap();
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backend.sync().unwrap();
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assert_eq!(backend.unpruned_size().unwrap(), mmr_size);
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// prune some more to get rm log data
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{
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let mut pmmr = PMMR::at(&mut backend, mmr_size);
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pmmr.prune(5, 1).unwrap();
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}
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backend.sync().unwrap();
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assert_eq!(backend.unpruned_size().unwrap(), mmr_size);
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}
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// create a new backend and check everything is kosher
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{
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let mut backend = store::sumtree::PMMRBackend::new(data_dir).unwrap();
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assert_eq!(backend.unpruned_size().unwrap(), mmr_size);
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{
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let pmmr = PMMR::at(&mut backend, mmr_size);
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assert_eq!(root, pmmr.root());
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}
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assert_eq!(backend.get(5), None);
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}
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}
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#[test]
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fn sumtree_rewind() {
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let (data_dir, elems) = setup();
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let mut backend = store::sumtree::PMMRBackend::new(data_dir).unwrap();
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// adding elements and keeping the corresponding root
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let mut mmr_size = load(0, &elems[0..4], &mut backend);
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backend.sync().unwrap();
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let root1: HashSum<TestElem>;
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{
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let pmmr = PMMR::at(&mut backend, mmr_size);
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root1 = pmmr.root();
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}
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mmr_size = load(mmr_size, &elems[4..6], &mut backend);
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backend.sync().unwrap();
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let root2: HashSum<TestElem>;
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{
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let pmmr = PMMR::at(&mut backend, mmr_size);
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root2 = pmmr.root();
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}
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mmr_size = load(mmr_size, &elems[6..9], &mut backend);
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backend.sync().unwrap();
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// prune and compact the 2 first elements to spice things up
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{
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let mut pmmr = PMMR::at(&mut backend, mmr_size);
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pmmr.prune(1, 1).unwrap();
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pmmr.prune(2, 1).unwrap();
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}
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backend.check_compact(1).unwrap();
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backend.sync().unwrap();
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// rewind and check the roots still match
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{
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let mut pmmr = PMMR::at(&mut backend, mmr_size);
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pmmr.rewind(9, 3).unwrap();
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assert_eq!(pmmr.root(), root2);
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}
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backend.sync().unwrap();
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{
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let pmmr = PMMR::at(&mut backend, 10);
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assert_eq!(pmmr.root(), root2);
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}
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{
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let mut pmmr = PMMR::at(&mut backend, 10);
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pmmr.rewind(5, 3).unwrap();
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assert_eq!(pmmr.root(), root1);
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}
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backend.sync().unwrap();
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{
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let pmmr = PMMR::at(&mut backend, 7);
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assert_eq!(pmmr.root(), root1);
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}
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}
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fn setup() -> (String, Vec<TestElem>) {
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let _ = env_logger::init();
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let t = time::get_time();
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let data_dir = format!("./target/{}.{}", t.sec, t.nsec);
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fs::create_dir_all(data_dir.clone()).unwrap();
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let elems = vec![
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TestElem([0, 0, 0, 1]),
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TestElem([0, 0, 0, 2]),
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TestElem([0, 0, 0, 3]),
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TestElem([0, 0, 0, 4]),
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TestElem([0, 0, 0, 5]),
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TestElem([0, 0, 0, 6]),
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TestElem([0, 0, 0, 7]),
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TestElem([0, 0, 0, 8]),
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TestElem([1, 0, 0, 0]),
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];
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(data_dir, elems)
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}
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fn load(pos: u64, elems: &[TestElem], backend: &mut store::sumtree::PMMRBackend<TestElem>) -> u64 {
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let mut pmmr = PMMR::at(backend, pos);
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for elem in elems {
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pmmr.push(elem.clone()).unwrap();
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}
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pmmr.unpruned_size()
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}
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#[derive(Copy, Clone, Debug, PartialEq, Eq)]
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struct TestElem([u32; 4]);
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impl Summable for TestElem {
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type Sum = u64;
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fn sum(&self) -> u64 {
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// sums are not allowed to overflow, so we use this simple
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// non-injective "sum" function that will still be homomorphic
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self.0[0] as u64 * 0x1000 + self.0[1] as u64 * 0x100 + self.0[2] as u64 * 0x10
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+ self.0[3] as u64
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}
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fn sum_len() -> usize {
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8
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}
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}
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impl Writeable for TestElem {
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fn write<W: Writer>(&self, writer: &mut W) -> Result<(), Error> {
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try!(writer.write_u32(self.0[0]));
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try!(writer.write_u32(self.0[1]));
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try!(writer.write_u32(self.0[2]));
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writer.write_u32(self.0[3])
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}
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}
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