mod handler { use crate::init_opts_bare; fn test_remote_repository() -> anyhow::Result { let path = tempfile::tempdir()?.path().to_str().unwrap().to_string(); let repo_a = git2::Repository::init_opts(path, &init_opts_bare())?; Ok(repo_a) } mod calculate_delta_handler { use anyhow::Result; use std::path::{Path, PathBuf}; use std::{ collections::HashMap, sync::atomic::{AtomicUsize, Ordering}, }; use once_cell::sync::Lazy; use crate::{commit_all, Case, Suite}; use gitbutler_app::watcher::handlers::calculate_deltas_handler::Handler; use gitbutler_app::{ deltas::{self, operations::Operation}, reader, sessions, virtual_branches::{self, branch}, }; use self::branch::BranchId; static TEST_TARGET_INDEX: Lazy = Lazy::new(|| AtomicUsize::new(0)); fn test_target() -> virtual_branches::target::Target { virtual_branches::target::Target { branch: format!( "refs/remotes/remote name {}/branch name {}", TEST_TARGET_INDEX.load(Ordering::Relaxed), TEST_TARGET_INDEX.load(Ordering::Relaxed) ) .parse() .unwrap(), remote_url: format!("remote url {}", TEST_TARGET_INDEX.load(Ordering::Relaxed)), sha: format!( "0123456789abcdef0123456789abcdef0123456{}", TEST_TARGET_INDEX.load(Ordering::Relaxed) ) .parse() .unwrap(), } } static TEST_INDEX: Lazy = Lazy::new(|| AtomicUsize::new(0)); fn test_branch() -> branch::Branch { TEST_INDEX.fetch_add(1, Ordering::Relaxed); branch::Branch { id: BranchId::generate(), name: format!("branch_name_{}", TEST_INDEX.load(Ordering::Relaxed)), notes: format!("branch_notes_{}", TEST_INDEX.load(Ordering::Relaxed)), applied: true, upstream: Some( format!( "refs/remotes/origin/upstream_{}", TEST_INDEX.load(Ordering::Relaxed) ) .parse() .unwrap(), ), upstream_head: None, created_timestamp_ms: TEST_INDEX.load(Ordering::Relaxed) as u128, updated_timestamp_ms: (TEST_INDEX.load(Ordering::Relaxed) + 100) as u128, head: format!( "0123456789abcdef0123456789abcdef0123456{}", TEST_INDEX.load(Ordering::Relaxed) ) .parse() .unwrap(), tree: format!( "0123456789abcdef0123456789abcdef012345{}", TEST_INDEX.load(Ordering::Relaxed) + 10 ) .parse() .unwrap(), ownership: branch::BranchOwnershipClaims::default(), order: TEST_INDEX.load(Ordering::Relaxed), selected_for_changes: None, } } #[test] fn test_register_existing_commited_file() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, .. } = suite.new_case_with_files(HashMap::from([(PathBuf::from("test.txt"), "test")])); let listener = Handler::from_path(&suite.local_app_data); std::fs::write(project.path.join("test.txt"), "test2")?; listener.handle("test.txt", &project.id)?; let session = gb_repository.get_current_session()?.unwrap(); let session_reader = sessions::Reader::open(&gb_repository, &session)?; let deltas_reader = deltas::Reader::new(&session_reader); let deltas = deltas_reader.read_file("test.txt")?.unwrap(); assert_eq!(deltas.len(), 1); assert_eq!(deltas[0].operations.len(), 1); assert_eq!( deltas[0].operations[0], Operation::Insert((4, "2".to_string())), ); assert_eq!( std::fs::read_to_string(gb_repository.session_wd_path().join("test.txt"))?, "test2" ); Ok(()) } #[test] fn test_register_must_init_current_session() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); std::fs::write(project.path.join("test.txt"), "test")?; listener.handle("test.txt", &project.id)?; assert!(gb_repository.get_current_session()?.is_some()); Ok(()) } #[test] fn test_register_must_not_override_current_session() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); std::fs::write(project.path.join("test.txt"), "test")?; listener.handle("test.txt", &project.id)?; let session1 = gb_repository.get_current_session()?.unwrap(); std::fs::write(project.path.join("test.txt"), "test2")?; listener.handle("test.txt", &project.id)?; let session2 = gb_repository.get_current_session()?.unwrap(); assert_eq!(session1.id, session2.id); Ok(()) } #[test] fn test_register_binfile() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); std::fs::write( project.path.join("test.bin"), [0, 159, 146, 150, 159, 146, 150], )?; listener.handle("test.bin", &project.id)?; let session = gb_repository.get_current_session()?.unwrap(); let session_reader = sessions::Reader::open(&gb_repository, &session)?; let deltas_reader = deltas::Reader::new(&session_reader); let deltas = deltas_reader.read_file("test.bin")?.unwrap(); assert_eq!(deltas.len(), 1); assert_eq!(deltas[0].operations.len(), 0); assert_eq!( std::fs::read_to_string(gb_repository.session_wd_path().join("test.bin"))?, "" ); Ok(()) } #[test] fn test_register_empty_new_file() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); std::fs::write(project.path.join("test.txt"), "")?; listener.handle("test.txt", &project.id)?; let session = gb_repository.get_current_session()?.unwrap(); let session_reader = sessions::Reader::open(&gb_repository, &session)?; let deltas_reader = deltas::Reader::new(&session_reader); let deltas = deltas_reader.read_file("test.txt")?.unwrap(); assert_eq!(deltas.len(), 1); assert_eq!(deltas[0].operations.len(), 0); assert_eq!( std::fs::read_to_string(gb_repository.session_wd_path().join("test.txt"))?, "" ); Ok(()) } #[test] fn test_register_new_file() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); std::fs::write(project.path.join("test.txt"), "test")?; listener.handle("test.txt", &project.id)?; let session = gb_repository.get_current_session()?.unwrap(); let session_reader = sessions::Reader::open(&gb_repository, &session)?; let deltas_reader = deltas::Reader::new(&session_reader); let deltas = deltas_reader.read_file("test.txt")?.unwrap(); assert_eq!(deltas.len(), 1); assert_eq!(deltas[0].operations.len(), 1); assert_eq!( deltas[0].operations[0], Operation::Insert((0, "test".to_string())), ); assert_eq!( std::fs::read_to_string(gb_repository.session_wd_path().join("test.txt"))?, "test" ); Ok(()) } #[test] fn test_register_no_changes_saved_thgoughout_flushes() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); // file change, wd and deltas are written std::fs::write(project.path.join("test.txt"), "test")?; listener.handle("test.txt", &project.id)?; // make two more sessions. gb_repository.flush(&project_repository, None)?; gb_repository.get_or_create_current_session()?; gb_repository.flush(&project_repository, None)?; // after some sessions, files from the first change are still there. let session = gb_repository.get_or_create_current_session()?; let session_reader = sessions::Reader::open(&gb_repository, &session)?; let files = session_reader.files(None)?; assert_eq!(files.len(), 1); Ok(()) } #[test] fn test_register_new_file_twice() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); std::fs::write(project.path.join("test.txt"), "test")?; listener.handle("test.txt", &project.id)?; let session = gb_repository.get_current_session()?.unwrap(); let session_reader = sessions::Reader::open(&gb_repository, &session)?; let deltas_reader = deltas::Reader::new(&session_reader); let deltas = deltas_reader.read_file("test.txt")?.unwrap(); assert_eq!(deltas.len(), 1); assert_eq!(deltas[0].operations.len(), 1); assert_eq!( deltas[0].operations[0], Operation::Insert((0, "test".to_string())), ); assert_eq!( std::fs::read_to_string(gb_repository.session_wd_path().join("test.txt"))?, "test" ); std::fs::write(project.path.join("test.txt"), "test2")?; listener.handle("test.txt", &project.id)?; let deltas = deltas_reader.read_file("test.txt")?.unwrap(); assert_eq!(deltas.len(), 2); assert_eq!(deltas[0].operations.len(), 1); assert_eq!( deltas[0].operations[0], Operation::Insert((0, "test".to_string())), ); assert_eq!(deltas[1].operations.len(), 1); assert_eq!( deltas[1].operations[0], Operation::Insert((4, "2".to_string())), ); assert_eq!( std::fs::read_to_string(gb_repository.session_wd_path().join("test.txt"))?, "test2" ); Ok(()) } #[test] fn test_register_file_deleted() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); { // write file std::fs::write(project.path.join("test.txt"), "test")?; listener.handle("test.txt", &project.id)?; } { // current session must have the deltas, but not the file (it didn't exist) let session = gb_repository.get_current_session()?.unwrap(); let session_reader = sessions::Reader::open(&gb_repository, &session)?; let deltas_reader = deltas::Reader::new(&session_reader); let deltas = deltas_reader.read_file("test.txt")?.unwrap(); assert_eq!(deltas.len(), 1); assert_eq!(deltas[0].operations.len(), 1); assert_eq!( deltas[0].operations[0], Operation::Insert((0, "test".to_string())), ); assert_eq!( std::fs::read_to_string(gb_repository.session_wd_path().join("test.txt"))?, "test" ); let files = session_reader.files(None).unwrap(); assert!(files.is_empty()); } gb_repository.flush(&project_repository, None)?; { // file should be available in the next session, but not deltas just yet. let session = gb_repository.get_or_create_current_session()?; let session_reader = sessions::Reader::open(&gb_repository, &session)?; let files = session_reader.files(None).unwrap(); assert_eq!(files.len(), 1); assert_eq!( files[Path::new("test.txt")], reader::Content::UTF8("test".to_string()) ); let deltas_reader = deltas::Reader::new(&session_reader); let deltas = deltas_reader.read(None)?; assert!(deltas.is_empty()); // removing the file std::fs::remove_file(project.path.join("test.txt"))?; listener.handle("test.txt", &project.id)?; // deltas are recorded let deltas = deltas_reader.read_file("test.txt")?.unwrap(); assert_eq!(deltas.len(), 1); assert_eq!(deltas[0].operations.len(), 1); assert_eq!(deltas[0].operations[0], Operation::Delete((0, 4)),); } gb_repository.flush(&project_repository, None)?; { // since file was deleted in the previous session, it should not exist in the new one. let session = gb_repository.get_or_create_current_session()?; let session_reader = sessions::Reader::open(&gb_repository, &session)?; let files = session_reader.files(None).unwrap(); assert!(files.is_empty()); } Ok(()) } #[test] fn test_flow_with_commits() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, project_repository, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); let size = 10; let relative_file_path = Path::new("one/two/test.txt"); for i in 1..=size { std::fs::create_dir_all(Path::new(&project.path).join("one/two"))?; // create a session with a single file change and flush it std::fs::write( Path::new(&project.path).join(relative_file_path), i.to_string(), )?; commit_all(&project_repository.git_repository); listener.handle(relative_file_path, &project.id)?; assert!(gb_repository.flush(&project_repository, None)?.is_some()); } // get all the created sessions let mut sessions: Vec = gb_repository .get_sessions_iterator()? .map(Result::unwrap) .collect(); assert_eq!(sessions.len(), size); // verify sessions order is correct let mut last_start = sessions[0].meta.start_timestamp_ms; let mut last_end = sessions[0].meta.start_timestamp_ms; sessions[1..].iter().for_each(|session| { assert!(session.meta.start_timestamp_ms < last_start); assert!(session.meta.last_timestamp_ms < last_end); last_start = session.meta.start_timestamp_ms; last_end = session.meta.last_timestamp_ms; }); sessions.reverse(); // try to reconstruct file state from operations for every session slice for i in 0..sessions.len() { let sessions_slice = &mut sessions[i..]; // collect all operations from sessions in the reverse order let mut operations: Vec = vec![]; for session in &mut *sessions_slice { let session_reader = sessions::Reader::open(&gb_repository, session).unwrap(); let deltas_reader = deltas::Reader::new(&session_reader); let deltas_by_filepath = deltas_reader.read(None).unwrap(); for deltas in deltas_by_filepath.values() { for delta in deltas { delta.operations.iter().for_each(|operation| { operations.push(operation.clone()); }); } } } let reader = sessions::Reader::open(&gb_repository, sessions_slice.first().unwrap()) .unwrap(); let files = reader.files(None).unwrap(); if i == 0 { assert_eq!(files.len(), 0); } else { assert_eq!(files.len(), 1); } let base_file = files.get(&relative_file_path.to_path_buf()); let mut text: Vec = match base_file { Some(reader::Content::UTF8(file)) => file.chars().collect(), _ => vec![], }; for operation in operations { operation.apply(&mut text).unwrap(); } assert_eq!(text.iter().collect::(), size.to_string()); } Ok(()) } #[test] fn test_flow_no_commits() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, project_repository, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); let size = 10; let relative_file_path = Path::new("one/two/test.txt"); for i in 1..=size { std::fs::create_dir_all(Path::new(&project.path).join("one/two"))?; // create a session with a single file change and flush it std::fs::write( Path::new(&project.path).join(relative_file_path), i.to_string(), )?; listener.handle(relative_file_path, &project.id)?; assert!(gb_repository.flush(&project_repository, None)?.is_some()); } // get all the created sessions let mut sessions: Vec = gb_repository .get_sessions_iterator()? .map(Result::unwrap) .collect(); assert_eq!(sessions.len(), size); // verify sessions order is correct let mut last_start = sessions[0].meta.start_timestamp_ms; let mut last_end = sessions[0].meta.start_timestamp_ms; sessions[1..].iter().for_each(|session| { assert!(session.meta.start_timestamp_ms < last_start); assert!(session.meta.last_timestamp_ms < last_end); last_start = session.meta.start_timestamp_ms; last_end = session.meta.last_timestamp_ms; }); sessions.reverse(); // try to reconstruct file state from operations for every session slice for i in 0..sessions.len() { let sessions_slice = &mut sessions[i..]; // collect all operations from sessions in the reverse order let mut operations: Vec = vec![]; for session in &mut *sessions_slice { let session_reader = sessions::Reader::open(&gb_repository, session).unwrap(); let deltas_reader = deltas::Reader::new(&session_reader); let deltas_by_filepath = deltas_reader.read(None).unwrap(); for deltas in deltas_by_filepath.values() { for delta in deltas { delta.operations.iter().for_each(|operation| { operations.push(operation.clone()); }); } } } let reader = sessions::Reader::open(&gb_repository, sessions_slice.first().unwrap()) .unwrap(); let files = reader.files(None).unwrap(); if i == 0 { assert_eq!(files.len(), 0); } else { assert_eq!(files.len(), 1); } let base_file = files.get(&relative_file_path.to_path_buf()); let mut text: Vec = match base_file { Some(reader::Content::UTF8(file)) => file.chars().collect(), _ => vec![], }; for operation in operations { operation.apply(&mut text).unwrap(); } assert_eq!(text.iter().collect::(), size.to_string()); } Ok(()) } #[test] fn test_flow_signle_session() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); let size = 10_i32; let relative_file_path = Path::new("one/two/test.txt"); for i in 1_i32..=size { std::fs::create_dir_all(Path::new(&project.path).join("one/two"))?; // create a session with a single file change and flush it std::fs::write( Path::new(&project.path).join(relative_file_path), i.to_string(), )?; listener.handle(relative_file_path, &project.id)?; } // collect all operations from sessions in the reverse order let mut operations: Vec = vec![]; let session = gb_repository.get_current_session()?.unwrap(); let session_reader = sessions::Reader::open(&gb_repository, &session).unwrap(); let deltas_reader = deltas::Reader::new(&session_reader); let deltas_by_filepath = deltas_reader.read(None).unwrap(); for deltas in deltas_by_filepath.values() { for delta in deltas { delta.operations.iter().for_each(|operation| { operations.push(operation.clone()); }); } } let reader = sessions::Reader::open(&gb_repository, &session).unwrap(); let files = reader.files(None).unwrap(); let base_file = files.get(&relative_file_path.to_path_buf()); let mut text: Vec = match base_file { Some(reader::Content::UTF8(file)) => file.chars().collect(), _ => vec![], }; for operation in operations { operation.apply(&mut text).unwrap(); } assert_eq!(text.iter().collect::(), size.to_string()); Ok(()) } #[test] fn should_persist_branches_targets_state_between_sessions() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, project_repository, .. } = suite .new_case_with_files(HashMap::from([(PathBuf::from("test.txt"), "hello world")])); let listener = Handler::from_path(&suite.local_app_data); let branch_writer = branch::Writer::new(&gb_repository, project.gb_dir())?; let target_writer = virtual_branches::target::Writer::new(&gb_repository, project.gb_dir())?; let default_target = test_target(); target_writer.write_default(&default_target)?; let mut vbranch0 = test_branch(); branch_writer.write(&mut vbranch0)?; let mut vbranch1 = test_branch(); let vbranch1_target = test_target(); branch_writer.write(&mut vbranch1)?; target_writer.write(&vbranch1.id, &vbranch1_target)?; std::fs::write(project.path.join("test.txt"), "hello world!").unwrap(); listener.handle("test.txt", &project.id)?; let flushed_session = gb_repository.flush(&project_repository, None).unwrap(); // create a new session let session = gb_repository.get_or_create_current_session().unwrap(); assert_ne!(session.id, flushed_session.unwrap().id); // ensure that the virtual branch is still there and selected let session_reader = sessions::Reader::open(&gb_repository, &session).unwrap(); let branches = virtual_branches::Iterator::new(&session_reader) .unwrap() .collect::, gitbutler_app::reader::Error>>() .unwrap() .into_iter() .collect::>(); assert_eq!(branches.len(), 2); let branch_ids = branches.iter().map(|b| b.id).collect::>(); assert!(branch_ids.contains(&vbranch0.id)); assert!(branch_ids.contains(&vbranch1.id)); let target_reader = virtual_branches::target::Reader::new(&session_reader); assert_eq!(target_reader.read_default().unwrap(), default_target); assert_eq!(target_reader.read(&vbranch0.id).unwrap(), default_target); assert_eq!(target_reader.read(&vbranch1.id).unwrap(), vbranch1_target); Ok(()) } #[test] fn should_restore_branches_targets_state_from_head_session() -> Result<()> { let suite = Suite::default(); let Case { gb_repository, project, project_repository, .. } = suite .new_case_with_files(HashMap::from([(PathBuf::from("test.txt"), "hello world")])); let listener = Handler::from_path(&suite.local_app_data); let branch_writer = branch::Writer::new(&gb_repository, project.gb_dir())?; let target_writer = virtual_branches::target::Writer::new(&gb_repository, project.gb_dir())?; let default_target = test_target(); target_writer.write_default(&default_target)?; let mut vbranch0 = test_branch(); branch_writer.write(&mut vbranch0)?; let mut vbranch1 = test_branch(); let vbranch1_target = test_target(); branch_writer.write(&mut vbranch1)?; target_writer.write(&vbranch1.id, &vbranch1_target)?; std::fs::write(project.path.join("test.txt"), "hello world!").unwrap(); listener.handle("test.txt", &project.id).unwrap(); let flushed_session = gb_repository.flush(&project_repository, None).unwrap(); // hard delete branches state from disk std::fs::remove_dir_all(gb_repository.root()).unwrap(); // create a new session let session = gb_repository.get_or_create_current_session().unwrap(); assert_ne!(session.id, flushed_session.unwrap().id); // ensure that the virtual branch is still there and selected let session_reader = sessions::Reader::open(&gb_repository, &session).unwrap(); let branches = virtual_branches::Iterator::new(&session_reader) .unwrap() .collect::, gitbutler_app::reader::Error>>() .unwrap() .into_iter() .collect::>(); assert_eq!(branches.len(), 2); let branch_ids = branches.iter().map(|b| b.id).collect::>(); assert!(branch_ids.contains(&vbranch0.id)); assert!(branch_ids.contains(&vbranch1.id)); let target_reader = virtual_branches::target::Reader::new(&session_reader); assert_eq!(target_reader.read_default().unwrap(), default_target); assert_eq!(target_reader.read(&vbranch0.id).unwrap(), default_target); assert_eq!(target_reader.read(&vbranch1.id).unwrap(), vbranch1_target); Ok(()) } mod flush_wd { use super::*; #[test] fn should_add_new_files_to_session_wd() { let suite = Suite::default(); let Case { gb_repository, project, project_repository, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); // write a file into session std::fs::write(project.path.join("test.txt"), "hello world!").unwrap(); listener.handle("test.txt", &project.id).unwrap(); let flushed_session = gb_repository .flush(&project_repository, None) .unwrap() .unwrap(); { // after flush it should be flushed into the commit let session_commit = gb_repository .git_repository() .find_commit(flushed_session.hash.unwrap()) .unwrap(); let commit_reader = reader::Reader::from_commit( gb_repository.git_repository(), &session_commit, ) .unwrap(); assert_eq!( commit_reader.list_files(Path::new("wd")).unwrap(), vec![Path::new("test.txt")] ); assert_eq!( commit_reader.read(Path::new("wd/test.txt")).unwrap(), reader::Content::UTF8("hello world!".to_string()) ); } // write another file into session std::fs::create_dir_all(project.path.join("one/two")).unwrap(); std::fs::write(project.path.join("one/two/test2.txt"), "hello world!").unwrap(); listener.handle("one/two/test2.txt", &project.id).unwrap(); let flushed_session = gb_repository .flush(&project_repository, None) .unwrap() .unwrap(); { // after flush, it should be flushed into the commit next to the previous one let session_commit = gb_repository .git_repository() .find_commit(flushed_session.hash.unwrap()) .unwrap(); let commit_reader = reader::Reader::from_commit( gb_repository.git_repository(), &session_commit, ) .unwrap(); assert_eq!( commit_reader.list_files(Path::new("wd")).unwrap(), vec![Path::new("one/two/test2.txt"), Path::new("test.txt"),] ); assert_eq!( commit_reader.read(Path::new("wd/test.txt")).unwrap(), reader::Content::UTF8("hello world!".to_string()) ); assert_eq!( commit_reader .read(Path::new("wd/one/two/test2.txt")) .unwrap(), reader::Content::UTF8("hello world!".to_string()) ); } } #[test] fn should_remove_deleted_files_from_session_wd() { let suite = Suite::default(); let Case { gb_repository, project, project_repository, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); // write a file into session std::fs::write(project.path.join("test.txt"), "hello world!").unwrap(); listener.handle("test.txt", &project.id).unwrap(); std::fs::create_dir_all(project.path.join("one/two")).unwrap(); std::fs::write(project.path.join("one/two/test2.txt"), "hello world!").unwrap(); listener.handle("one/two/test2.txt", &project.id).unwrap(); let flushed_session = gb_repository .flush(&project_repository, None) .unwrap() .unwrap(); { // after flush it should be flushed into the commit let session_commit = gb_repository .git_repository() .find_commit(flushed_session.hash.unwrap()) .unwrap(); let commit_reader = reader::Reader::from_commit( gb_repository.git_repository(), &session_commit, ) .unwrap(); assert_eq!( commit_reader.list_files(Path::new("wd")).unwrap(), vec![Path::new("one/two/test2.txt"), Path::new("test.txt"),] ); assert_eq!( commit_reader.read(Path::new("wd/test.txt")).unwrap(), reader::Content::UTF8("hello world!".to_string()) ); assert_eq!( commit_reader .read(Path::new("wd/one/two/test2.txt")) .unwrap(), reader::Content::UTF8("hello world!".to_string()) ); } // rm the files std::fs::remove_file(project.path.join("test.txt")).unwrap(); listener.handle("test.txt", &project.id).unwrap(); std::fs::remove_file(project.path.join("one/two/test2.txt")).unwrap(); listener.handle("one/two/test2.txt", &project.id).unwrap(); let flushed_session = gb_repository .flush(&project_repository, None) .unwrap() .unwrap(); { // after flush it should be removed from the commit let session_commit = gb_repository .git_repository() .find_commit(flushed_session.hash.unwrap()) .unwrap(); let commit_reader = reader::Reader::from_commit( gb_repository.git_repository(), &session_commit, ) .unwrap(); assert!(commit_reader .list_files(Path::new("wd")) .unwrap() .is_empty()); } } #[test] fn should_update_updated_files_in_session_wd() { let suite = Suite::default(); let Case { gb_repository, project, project_repository, .. } = suite.new_case(); let listener = Handler::from_path(&suite.local_app_data); // write a file into session std::fs::write(project.path.join("test.txt"), "hello world!").unwrap(); listener.handle("test.txt", &project.id).unwrap(); std::fs::create_dir_all(project.path.join("one/two")).unwrap(); std::fs::write(project.path.join("one/two/test2.txt"), "hello world!").unwrap(); listener.handle("one/two/test2.txt", &project.id).unwrap(); let flushed_session = gb_repository .flush(&project_repository, None) .unwrap() .unwrap(); { // after flush it should be flushed into the commit let session_commit = gb_repository .git_repository() .find_commit(flushed_session.hash.unwrap()) .unwrap(); let commit_reader = reader::Reader::from_commit( gb_repository.git_repository(), &session_commit, ) .unwrap(); assert_eq!( commit_reader.list_files(Path::new("wd")).unwrap(), vec![Path::new("one/two/test2.txt"), Path::new("test.txt"),] ); assert_eq!( commit_reader.read(Path::new("wd/test.txt")).unwrap(), reader::Content::UTF8("hello world!".to_string()) ); assert_eq!( commit_reader .read(Path::new("wd/one/two/test2.txt")) .unwrap(), reader::Content::UTF8("hello world!".to_string()) ); } // update the file std::fs::write(project.path.join("test.txt"), "hello world!2").unwrap(); listener.handle("test.txt", &project.id).unwrap(); std::fs::write(project.path.join("one/two/test2.txt"), "hello world!2").unwrap(); listener.handle("one/two/test2.txt", &project.id).unwrap(); let flushed_session = gb_repository .flush(&project_repository, None) .unwrap() .unwrap(); { // after flush it should be updated in the commit let session_commit = gb_repository .git_repository() .find_commit(flushed_session.hash.unwrap()) .unwrap(); let commit_reader = reader::Reader::from_commit( gb_repository.git_repository(), &session_commit, ) .unwrap(); assert_eq!( commit_reader.list_files(Path::new("wd")).unwrap(), vec![Path::new("one/two/test2.txt"), Path::new("test.txt"),] ); assert_eq!( commit_reader.read(Path::new("wd/test.txt")).unwrap(), reader::Content::UTF8("hello world!2".to_string()) ); assert_eq!( commit_reader .read(Path::new("wd/one/two/test2.txt")) .unwrap(), reader::Content::UTF8("hello world!2".to_string()) ); } } } } mod fetch_gitbutler_data { use std::time::SystemTime; use gitbutler_app::projects; use pretty_assertions::assert_eq; use crate::watcher::handler::test_remote_repository; use crate::{Case, Suite}; use gitbutler_app::watcher::handlers::fetch_gitbutler_data::Handler; #[tokio::test] async fn test_fetch_success() -> anyhow::Result<()> { let suite = Suite::default(); let Case { project, .. } = suite.new_case(); let cloud = test_remote_repository()?; let api_project = projects::ApiProject { name: "test-sync".to_string(), description: None, repository_id: "123".to_string(), git_url: cloud.path().to_str().unwrap().to_string(), code_git_url: None, created_at: 0_i32.to_string(), updated_at: 0_i32.to_string(), sync: true, }; suite .projects .update(&projects::UpdateRequest { id: project.id, api: Some(api_project.clone()), ..Default::default() }) .await?; let listener = Handler::new(suite.local_app_data, suite.projects, suite.users); listener .handle(&project.id, &SystemTime::now()) .await .unwrap(); Ok(()) } #[tokio::test] async fn test_fetch_fail_no_sync() { let suite = Suite::default(); let Case { project, .. } = suite.new_case(); let listener = Handler::new(suite.local_app_data, suite.projects, suite.users); let res = listener.handle(&project.id, &SystemTime::now()).await; assert_eq!(&res.unwrap_err().to_string(), "sync disabled"); } } mod git_file_change { use anyhow::Result; use std::fs; use gitbutler_app::projects; use pretty_assertions::assert_eq; use crate::{Case, Suite}; use gitbutler_app::watcher::handlers::git_file_change::Handler; use gitbutler_app::watcher::{handlers, Event}; #[test] fn test_flush_session() -> Result<()> { let suite = Suite::default(); let Case { project, gb_repository, .. } = suite.new_case(); assert!(gb_repository.get_current_session()?.is_none()); create_new_session_via_new_file(&project, &suite); assert!(gb_repository.get_current_session()?.is_some()); let listener = Handler::new(suite.local_app_data, suite.projects, suite.users); let flush_file_path = project.path.join(".git/GB_FLUSH"); fs::write(flush_file_path.as_path(), "")?; let result = listener.handle("GB_FLUSH", &project.id)?; assert_eq!(result.len(), 1); assert!(matches!(result[0], Event::Flush(_, _))); assert!(!flush_file_path.exists(), "flush file deleted"); Ok(()) } #[test] fn test_do_not_flush_session_if_file_is_missing() -> Result<()> { let suite = Suite::default(); let Case { project, gb_repository, .. } = suite.new_case(); assert!(gb_repository.get_current_session()?.is_none()); create_new_session_via_new_file(&project, &suite); assert!(gb_repository.get_current_session()?.is_some()); let listener = Handler::new(suite.local_app_data, suite.projects, suite.users); let result = listener.handle("GB_FLUSH", &project.id)?; assert_eq!(result.len(), 0); Ok(()) } fn create_new_session_via_new_file(project: &projects::Project, suite: &Suite) { fs::write(project.path.join("test.txt"), "test").unwrap(); let file_change_listener = handlers::calculate_deltas_handler::Handler::from_path(&suite.local_app_data); file_change_listener .handle("test.txt", &project.id) .unwrap(); } #[test] fn test_flush_deletes_flush_file_without_session_to_flush() -> Result<()> { let suite = Suite::default(); let Case { project, .. } = suite.new_case(); let listener = Handler::new(suite.local_app_data, suite.projects, suite.users); let flush_file_path = project.path.join(".git/GB_FLUSH"); fs::write(flush_file_path.as_path(), "")?; let result = listener.handle("GB_FLUSH", &project.id)?; assert_eq!(result.len(), 0); assert!(!flush_file_path.exists(), "flush file deleted"); Ok(()) } } mod push_project_to_gitbutler { use anyhow::Result; use gitbutler_app::{git, projects}; use std::collections::HashMap; use std::path::PathBuf; use crate::virtual_branches::set_test_target; use crate::watcher::handler::test_remote_repository; use crate::{Case, Suite}; use gitbutler_app::project_repository::LogUntil; use gitbutler_app::watcher::handlers::push_project_to_gitbutler::Handler; fn log_walk(repo: &git2::Repository, head: git::Oid) -> Vec { let mut walker = repo.revwalk().unwrap(); walker.push(head.into()).unwrap(); walker.map(|oid| oid.unwrap().into()).collect::>() } #[tokio::test] async fn test_push_error() -> Result<()> { let suite = Suite::default(); let Case { project, .. } = suite.new_case(); let api_project = projects::ApiProject { name: "test-sync".to_string(), description: None, repository_id: "123".to_string(), git_url: String::new(), code_git_url: Some(String::new()), created_at: 0_i32.to_string(), updated_at: 0_i32.to_string(), sync: true, }; suite .projects .update(&projects::UpdateRequest { id: project.id, api: Some(api_project.clone()), ..Default::default() }) .await?; let listener = Handler::new(suite.local_app_data, suite.projects, suite.users, 100); let res = listener.handle(&project.id).await; res.unwrap_err(); Ok(()) } #[tokio::test] async fn test_push_simple() -> Result<()> { let suite = Suite::default(); let Case { project, gb_repository, project_repository, .. } = suite.new_case_with_files(HashMap::from([(PathBuf::from("test.txt"), "test")])); suite.sign_in(); set_test_target(&gb_repository, &project_repository).unwrap(); let target_id = gb_repository.default_target().unwrap().unwrap().sha; let reference = project_repository.l(target_id, LogUntil::End).unwrap(); let cloud_code = test_remote_repository()?; let api_project = projects::ApiProject { name: "test-sync".to_string(), description: None, repository_id: "123".to_string(), git_url: String::new(), code_git_url: Some(cloud_code.path().to_str().unwrap().to_string()), created_at: 0_i32.to_string(), updated_at: 0_i32.to_string(), sync: true, }; suite .projects .update(&projects::UpdateRequest { id: project.id, api: Some(api_project.clone()), ..Default::default() }) .await?; cloud_code.find_commit(target_id.into()).unwrap_err(); { let listener = Handler::new( suite.local_app_data, suite.projects.clone(), suite.users, 10, ); let res = listener.handle(&project.id).await.unwrap(); assert!(res.is_empty()); } cloud_code.find_commit(target_id.into()).unwrap(); let pushed = log_walk(&cloud_code, target_id); assert_eq!(reference.len(), pushed.len()); assert_eq!(reference, pushed); assert_eq!( suite .projects .get(&project.id) .unwrap() .gitbutler_code_push_state .unwrap() .id, target_id ); Ok(()) } #[tokio::test] async fn test_push_remote_ref() -> Result<()> { let suite = Suite::default(); let Case { project, gb_repository, project_repository, .. } = suite.new_case(); suite.sign_in(); set_test_target(&gb_repository, &project_repository).unwrap(); let cloud_code: git::Repository = test_remote_repository()?.into(); let remote_repo: git::Repository = test_remote_repository()?.into(); let last_commit = create_initial_commit(&remote_repo); remote_repo .reference( &git::Refname::Local(git::LocalRefname::new("refs/heads/testbranch", None)), last_commit, false, "", ) .unwrap(); let mut remote = project_repository .git_repository .remote("tr", &remote_repo.path().to_str().unwrap().parse().unwrap()) .unwrap(); remote .fetch(&["+refs/heads/*:refs/remotes/tr/*"], None) .unwrap(); project_repository .git_repository .find_commit(last_commit) .unwrap(); let api_project = projects::ApiProject { name: "test-sync".to_string(), description: None, repository_id: "123".to_string(), git_url: String::new(), code_git_url: Some(cloud_code.path().to_str().unwrap().to_string()), created_at: 0_i32.to_string(), updated_at: 0_i32.to_string(), sync: true, }; suite .projects .update(&projects::UpdateRequest { id: project.id, api: Some(api_project.clone()), ..Default::default() }) .await?; { let listener = Handler::new( suite.local_app_data, suite.projects.clone(), suite.users, 10, ); listener.handle(&project.id).await.unwrap(); } cloud_code.find_commit(last_commit).unwrap(); Ok(()) } fn create_initial_commit(repo: &git::Repository) -> git::Oid { let signature = git::Signature::now("test", "test@email.com").unwrap(); let mut index = repo.index().unwrap(); let oid = index.write_tree().unwrap(); repo.commit( None, &signature, &signature, "initial commit", &repo.find_tree(oid).unwrap(), &[], ) .unwrap() } fn create_test_commits(repo: &git::Repository, commits: usize) -> git::Oid { let signature = git::Signature::now("test", "test@email.com").unwrap(); let mut last = None; for i in 0..commits { let mut index = repo.index().unwrap(); let oid = index.write_tree().unwrap(); let head = repo.head().unwrap(); last = Some( repo.commit( Some(&head.name().unwrap()), &signature, &signature, format!("commit {i}").as_str(), &repo.find_tree(oid).unwrap(), &[&repo .find_commit(repo.refname_to_id("HEAD").unwrap()) .unwrap()], ) .unwrap(), ); } last.unwrap() } #[tokio::test] async fn test_push_batches() -> Result<()> { let suite = Suite::default(); let Case { project, gb_repository, project_repository, .. } = suite.new_case(); suite.sign_in(); { let head: git::Oid = project_repository .get_head() .unwrap() .peel_to_commit() .unwrap() .id(); let reference = project_repository.l(head, LogUntil::End).unwrap(); assert_eq!(reference.len(), 2); let head = create_test_commits(&project_repository.git_repository, 10); let reference = project_repository.l(head, LogUntil::End).unwrap(); assert_eq!(reference.len(), 12); } set_test_target(&gb_repository, &project_repository).unwrap(); let target_id = gb_repository.default_target().unwrap().unwrap().sha; let reference = project_repository.l(target_id, LogUntil::End).unwrap(); let cloud_code = test_remote_repository()?; let api_project = projects::ApiProject { name: "test-sync".to_string(), description: None, repository_id: "123".to_string(), git_url: String::new(), code_git_url: Some(cloud_code.path().to_str().unwrap().to_string()), created_at: 0_i32.to_string(), updated_at: 0_i32.to_string(), sync: true, }; suite .projects .update(&projects::UpdateRequest { id: project.id, api: Some(api_project.clone()), ..Default::default() }) .await?; { let listener = Handler::new( suite.local_app_data.clone(), suite.projects.clone(), suite.users.clone(), 2, ); listener.handle(&project.id).await.unwrap(); } cloud_code.find_commit(target_id.into()).unwrap(); let pushed = log_walk(&cloud_code, target_id); assert_eq!(reference.len(), pushed.len()); assert_eq!(reference, pushed); assert_eq!( suite .projects .get(&project.id) .unwrap() .gitbutler_code_push_state .unwrap() .id, target_id ); Ok(()) } #[tokio::test] async fn test_push_again_no_change() -> Result<()> { let suite = Suite::default(); let Case { project, gb_repository, project_repository, .. } = suite.new_case_with_files(HashMap::from([(PathBuf::from("test.txt"), "test")])); suite.sign_in(); set_test_target(&gb_repository, &project_repository).unwrap(); let target_id = gb_repository.default_target().unwrap().unwrap().sha; let reference = project_repository.l(target_id, LogUntil::End).unwrap(); let cloud_code = test_remote_repository()?; let api_project = projects::ApiProject { name: "test-sync".to_string(), description: None, repository_id: "123".to_string(), git_url: String::new(), code_git_url: Some(cloud_code.path().to_str().unwrap().to_string()), created_at: 0_i32.to_string(), updated_at: 0_i32.to_string(), sync: true, }; suite .projects .update(&projects::UpdateRequest { id: project.id, api: Some(api_project.clone()), ..Default::default() }) .await?; cloud_code.find_commit(target_id.into()).unwrap_err(); { let listener = Handler::new( suite.local_app_data, suite.projects.clone(), suite.users, 10, ); let res = listener.handle(&project.id).await.unwrap(); assert!(res.is_empty()); } cloud_code.find_commit(target_id.into()).unwrap(); let pushed = log_walk(&cloud_code, target_id); assert_eq!(reference.len(), pushed.len()); assert_eq!(reference, pushed); assert_eq!( suite .projects .get(&project.id) .unwrap() .gitbutler_code_push_state .unwrap() .id, target_id ); Ok(()) } } }