mirror of
https://github.com/martinvonz/jj.git
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1b5cd140d5
The `CommitBuilder::store` field is used only in `CommitBuilder::write_to_repo()`, but we can easily get access to the `Store` from the `repo` argument there, so let's remove the field.
181 lines
7.4 KiB
Rust
181 lines
7.4 KiB
Rust
// Copyright 2020 Google LLC
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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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// https://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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use std::path::Path;
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use jujutsu_lib::backend::CommitId;
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use jujutsu_lib::commit_builder::CommitBuilder;
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use jujutsu_lib::repo::RepoRef;
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use jujutsu_lib::testutils;
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use jujutsu_lib::testutils::TestRepo;
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use test_case::test_case;
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fn list_dir(dir: &Path) -> Vec<String> {
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std::fs::read_dir(dir)
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.unwrap()
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.map(|entry| entry.unwrap().file_name().to_str().unwrap().to_owned())
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.collect()
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}
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#[test_case(false ; "local backend")]
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#[test_case(true ; "git backend")]
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fn test_unpublished_operation(use_git: bool) {
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// Test that the operation doesn't get published until that's requested.
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init(use_git);
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let repo = &test_repo.repo;
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let op_heads_dir = repo.repo_path().join("op_heads");
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let op_id0 = repo.op_id().clone();
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assert_eq!(list_dir(&op_heads_dir), vec![repo.op_id().hex()]);
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let mut tx1 = repo.start_transaction("transaction 1");
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testutils::create_random_commit(&settings, repo).write_to_repo(tx1.mut_repo());
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let unpublished_op = tx1.write();
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let op_id1 = unpublished_op.operation().id().clone();
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assert_ne!(op_id1, op_id0);
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assert_eq!(list_dir(&op_heads_dir), vec![op_id0.hex()]);
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unpublished_op.publish();
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assert_eq!(list_dir(&op_heads_dir), vec![op_id1.hex()]);
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}
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#[test_case(false ; "local backend")]
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#[test_case(true ; "git backend")]
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fn test_consecutive_operations(use_git: bool) {
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// Test that consecutive operations result in a single op-head on disk after
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// each operation
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init(use_git);
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let repo = &test_repo.repo;
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let op_heads_dir = repo.repo_path().join("op_heads");
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let op_id0 = repo.op_id().clone();
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assert_eq!(list_dir(&op_heads_dir), vec![repo.op_id().hex()]);
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let mut tx1 = repo.start_transaction("transaction 1");
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testutils::create_random_commit(&settings, repo).write_to_repo(tx1.mut_repo());
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let op_id1 = tx1.commit().operation().id().clone();
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assert_ne!(op_id1, op_id0);
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assert_eq!(list_dir(&op_heads_dir), vec![op_id1.hex()]);
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let repo = repo.reload_at_head(&settings).unwrap();
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let mut tx2 = repo.start_transaction("transaction 2");
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testutils::create_random_commit(&settings, &repo).write_to_repo(tx2.mut_repo());
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let op_id2 = tx2.commit().operation().id().clone();
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assert_ne!(op_id2, op_id0);
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assert_ne!(op_id2, op_id1);
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assert_eq!(list_dir(&op_heads_dir), vec![op_id2.hex()]);
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// Reloading the repo makes no difference (there are no conflicting operations
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// to resolve).
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let _repo = repo.reload_at_head(&settings).unwrap();
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assert_eq!(list_dir(&op_heads_dir), vec![op_id2.hex()]);
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}
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#[test_case(false ; "local backend")]
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#[test_case(true ; "git backend")]
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fn test_concurrent_operations(use_git: bool) {
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// Test that consecutive operations result in multiple op-heads on disk until
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// the repo has been reloaded (which currently happens right away).
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init(use_git);
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let repo = &test_repo.repo;
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let op_heads_dir = repo.repo_path().join("op_heads");
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let op_id0 = repo.op_id().clone();
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assert_eq!(list_dir(&op_heads_dir), vec![repo.op_id().hex()]);
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let mut tx1 = repo.start_transaction("transaction 1");
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testutils::create_random_commit(&settings, repo).write_to_repo(tx1.mut_repo());
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let op_id1 = tx1.commit().operation().id().clone();
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assert_ne!(op_id1, op_id0);
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assert_eq!(list_dir(&op_heads_dir), vec![op_id1.hex()]);
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// After both transactions have committed, we should have two op-heads on disk,
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// since they were run in parallel.
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let mut tx2 = repo.start_transaction("transaction 2");
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testutils::create_random_commit(&settings, repo).write_to_repo(tx2.mut_repo());
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let op_id2 = tx2.commit().operation().id().clone();
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assert_ne!(op_id2, op_id0);
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assert_ne!(op_id2, op_id1);
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let mut actual_heads_on_disk = list_dir(&op_heads_dir);
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actual_heads_on_disk.sort();
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let mut expected_heads_on_disk = vec![op_id1.hex(), op_id2.hex()];
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expected_heads_on_disk.sort();
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assert_eq!(actual_heads_on_disk, expected_heads_on_disk);
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// Reloading the repo causes the operations to be merged
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let repo = repo.reload_at_head(&settings).unwrap();
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let merged_op_id = repo.op_id().clone();
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assert_ne!(merged_op_id, op_id0);
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assert_ne!(merged_op_id, op_id1);
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assert_ne!(merged_op_id, op_id2);
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assert_eq!(list_dir(&op_heads_dir), vec![merged_op_id.hex()]);
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}
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fn assert_heads(repo: RepoRef, expected: Vec<&CommitId>) {
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let expected = expected.iter().cloned().cloned().collect();
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assert_eq!(*repo.view().heads(), expected);
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}
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#[test_case(false ; "local backend")]
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#[test_case(true ; "git backend")]
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fn test_isolation(use_git: bool) {
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// Test that two concurrent transactions don't see each other's changes.
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init(use_git);
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let repo = &test_repo.repo;
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let mut tx = repo.start_transaction("test");
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let initial = testutils::create_random_commit(&settings, repo)
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.set_parents(vec![repo.store().root_commit_id().clone()])
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.write_to_repo(tx.mut_repo());
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let repo = tx.commit();
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let mut tx1 = repo.start_transaction("transaction 1");
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let mut_repo1 = tx1.mut_repo();
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let mut tx2 = repo.start_transaction("transaction 2");
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let mut_repo2 = tx2.mut_repo();
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assert_heads(repo.as_repo_ref(), vec![initial.id()]);
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assert_heads(mut_repo1.as_repo_ref(), vec![initial.id()]);
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assert_heads(mut_repo2.as_repo_ref(), vec![initial.id()]);
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let rewrite1 = CommitBuilder::for_rewrite_from(&settings, &initial)
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.set_description("rewrite1".to_string())
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.write_to_repo(mut_repo1);
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mut_repo1.rebase_descendants(&settings).unwrap();
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let rewrite2 = CommitBuilder::for_rewrite_from(&settings, &initial)
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.set_description("rewrite2".to_string())
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.write_to_repo(mut_repo2);
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mut_repo2.rebase_descendants(&settings).unwrap();
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// Neither transaction has committed yet, so each transaction sees its own
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// commit.
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assert_heads(repo.as_repo_ref(), vec![initial.id()]);
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assert_heads(mut_repo1.as_repo_ref(), vec![rewrite1.id()]);
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assert_heads(mut_repo2.as_repo_ref(), vec![rewrite2.id()]);
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// The base repo and tx2 don't see the commits from tx1.
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tx1.commit();
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assert_heads(repo.as_repo_ref(), vec![initial.id()]);
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assert_heads(mut_repo2.as_repo_ref(), vec![rewrite2.id()]);
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// The base repo still doesn't see the commits after both transactions commit.
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tx2.commit();
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assert_heads(repo.as_repo_ref(), vec![initial.id()]);
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// After reload, the base repo sees both rewrites.
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let repo = repo.reload_at_head(&settings).unwrap();
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assert_heads(repo.as_repo_ref(), vec![rewrite1.id(), rewrite2.id()]);
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}
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