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jj/lib/tests/test_bad_locking.rs
Martin von Zweigbergk aac5b7aa25 cargo: rename crates from jujutsu/jujutsu-lib to jj-cli/jj-lib 
Almost everyone calls the project "jj", and there seeems to be
consensus that we should rename the crates. I originally wanted the
crates to be called `jj` and `jj-lib`, but `jj` was already
taken. `jj-cli` is probably at least as good for it anyway.

Once we've published a 0.8.0 under the new names, we'll release 0.7.1
versions under the old names with pointers to the new crates names.
2023-07-09 06:40:43 +02:00

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// Copyright 2020 The Jujutsu Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
use std::path::Path;
use jj_lib::repo::{Repo, StoreFactories};
use jj_lib::workspace::Workspace;
use test_case::test_case;
use testutils::{create_random_commit, load_repo_at_head, TestWorkspace};
fn copy_directory(src: &Path, dst: &Path) {
std::fs::create_dir(dst).ok();
for entry in std::fs::read_dir(src).unwrap() {
let child_src = entry.unwrap().path();
let base_name = child_src.file_name().unwrap();
let child_dst = dst.join(base_name);
if child_src.is_dir() {
copy_directory(&child_src, &child_dst)
} else {
std::fs::copy(&child_src, &child_dst).unwrap();
}
}
}
fn merge_directories(left: &Path, base: &Path, right: &Path, output: &Path) {
std::fs::create_dir(output).ok();
let mut sub_dirs = vec![];
// Walk the left side and copy to the output
for entry in std::fs::read_dir(left).unwrap() {
let path = entry.unwrap().path();
let base_name = path.file_name().unwrap();
let child_left = left.join(base_name);
let child_output = output.join(base_name);
if child_left.is_dir() {
sub_dirs.push(base_name.to_os_string());
} else {
std::fs::copy(&child_left, child_output).unwrap();
}
}
// Walk the base and find files removed in the right side, then remove them in
// the output
for entry in std::fs::read_dir(base).unwrap() {
let path = entry.unwrap().path();
let base_name = path.file_name().unwrap();
let child_base = base.join(base_name);
let child_right = right.join(base_name);
let child_output = output.join(base_name);
if child_base.is_dir() {
sub_dirs.push(base_name.to_os_string());
} else if !child_right.exists() {
std::fs::remove_file(child_output).ok();
}
}
// Walk the right side and find files added in the right side, then add them in
// the output
for entry in std::fs::read_dir(right).unwrap() {
let path = entry.unwrap().path();
let base_name = path.file_name().unwrap();
let child_base = base.join(base_name);
let child_right = right.join(base_name);
let child_output = output.join(base_name);
if child_right.is_dir() {
sub_dirs.push(base_name.to_os_string());
} else if !child_base.exists() {
// This overwrites the left side if that's been written. That's fine, since the
// point of the test is that it should be okay for either side to win.
std::fs::copy(&child_right, child_output).unwrap();
}
}
// Do the merge in subdirectories
for base_name in sub_dirs {
let child_base = base.join(&base_name);
let child_right = right.join(&base_name);
let child_left = left.join(&base_name);
let child_output = output.join(&base_name);
merge_directories(&child_left, &child_base, &child_right, &child_output);
}
}
#[test_case(false ; "local backend")]
#[test_case(true ; "git backend")]
fn test_bad_locking_children(use_git: bool) {
// Test that two new commits created on separate machines are both visible (not
// lost due to lack of locking)
let settings = testutils::user_settings();
let test_workspace = TestWorkspace::init(&settings, use_git);
let repo = &test_workspace.repo;
let workspace_root = test_workspace.workspace.workspace_root();
let mut tx = repo.start_transaction(&settings, "test");
let initial = create_random_commit(tx.mut_repo(), &settings)
.set_parents(vec![repo.store().root_commit_id().clone()])
.write()
.unwrap();
tx.commit();
// Simulate a write of a commit that happens on one machine
let machine1_root = testutils::new_temp_dir();
copy_directory(workspace_root, machine1_root.path());
let machine1_workspace =
Workspace::load(&settings, machine1_root.path(), &StoreFactories::default()).unwrap();
let machine1_repo = machine1_workspace
.repo_loader()
.load_at_head(&settings)
.unwrap();
let mut machine1_tx = machine1_repo.start_transaction(&settings, "test");
let child1 = create_random_commit(machine1_tx.mut_repo(), &settings)
.set_parents(vec![initial.id().clone()])
.write()
.unwrap();
machine1_tx.commit();
// Simulate a write of a commit that happens on another machine
let machine2_root = testutils::new_temp_dir();
copy_directory(workspace_root, machine2_root.path());
let machine2_workspace =
Workspace::load(&settings, machine2_root.path(), &StoreFactories::default()).unwrap();
let machine2_repo = machine2_workspace
.repo_loader()
.load_at_head(&settings)
.unwrap();
let mut machine2_tx = machine2_repo.start_transaction(&settings, "test");
let child2 = create_random_commit(machine2_tx.mut_repo(), &settings)
.set_parents(vec![initial.id().clone()])
.write()
.unwrap();
machine2_tx.commit();
// Simulate that the distributed file system now has received the changes from
// both machines
let merged_path = testutils::new_temp_dir();
merge_directories(
machine1_root.path(),
workspace_root,
machine2_root.path(),
merged_path.path(),
);
let merged_workspace =
Workspace::load(&settings, merged_path.path(), &StoreFactories::default()).unwrap();
let merged_repo = merged_workspace
.repo_loader()
.load_at_head(&settings)
.unwrap();
assert!(merged_repo.view().heads().contains(child1.id()));
assert!(merged_repo.view().heads().contains(child2.id()));
let op_id = merged_repo.op_id().clone();
let op = merged_repo.op_store().read_operation(&op_id).unwrap();
assert_eq!(op.parents.len(), 2);
}
#[test_case(false ; "local backend")]
#[test_case(true ; "git backend")]
fn test_bad_locking_interrupted(use_git: bool) {
// Test that an interrupted update of the op-heads resulting in on op-head
// that's a descendant of the other is resolved without creating a new
// operation.
let settings = testutils::user_settings();
let test_workspace = TestWorkspace::init(&settings, use_git);
let repo = &test_workspace.repo;
let mut tx = repo.start_transaction(&settings, "test");
let initial = create_random_commit(tx.mut_repo(), &settings)
.set_parents(vec![repo.store().root_commit_id().clone()])
.write()
.unwrap();
let repo = tx.commit();
// Simulate a crash that resulted in the old op-head left in place. We simulate
// it somewhat hackily by copying the .jj/op_heads/ directory before the
// operation and then copying that back afterwards, leaving the existing
// op-head(s) in place.
let op_heads_dir = repo.repo_path().join("op_heads");
let backup_path = testutils::new_temp_dir();
copy_directory(&op_heads_dir, backup_path.path());
let mut tx = repo.start_transaction(&settings, "test");
create_random_commit(tx.mut_repo(), &settings)
.set_parents(vec![initial.id().clone()])
.write()
.unwrap();
let op_id = tx.commit().operation().id().clone();
copy_directory(backup_path.path(), &op_heads_dir);
// Reload the repo and check that only the new head is present.
let reloaded_repo = load_repo_at_head(&settings, repo.repo_path());
assert_eq!(reloaded_repo.op_id(), &op_id);
// Reload once more to make sure that the .jj/op_heads/ directory was updated
// correctly.
let reloaded_repo = load_repo_at_head(&settings, repo.repo_path());
assert_eq!(reloaded_repo.op_id(), &op_id);
}
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