extern crate git2; extern crate pretty_env_logger; #[macro_use] extern crate log; extern crate indicatif; extern crate notify; extern crate tempfile; use git2::{Cred, Error, FetchOptions, Index, IndexEntry, IndexTime, Progress, PushOptions, RemoteCallbacks, ResetType, Repository, Signature, TreeBuilder}; use git2::build::{CheckoutBuilder, RepoBuilder}; use std::fs::{File, create_dir_all, read}; use std::io::Cursor; use std::path::{Path, PathBuf}; use std::string::String; use std::str; use std::sync::mpsc::{channel, Sender, Receiver}; use std::thread::{spawn, JoinHandle}; use indicatif::{ProgressBar, ProgressStyle}; use notify::{raw_watcher, RecommendedWatcher, RawEvent, Op}; use tempfile::TempDir; pub struct BenchmarkRepository { repository: Repository, ssh_user: String, user_name: String, user_email: String, autocommit_channel: (Sender, Receiver), autocommit_directory: Option, autocommit_thread: Option>, autocommit_watcher: Option, } pub struct TargetPath<'a> { pub source: &'a Path, pub destination: &'a Path, } impl BenchmarkRepository { fn progress_bar_style() -> ProgressStyle { ProgressStyle::default_bar() .template("{bar:74.on_black} {percent:>3} %") .progress_chars("█▉▊▋▌▍▎▏ ") } fn transfer_progress_callback(progress: Progress, progress_bar: &mut ProgressBar) -> bool { progress_bar.set_length(progress.total_objects() as u64); progress_bar.set_position(progress.received_objects() as u64); // continue the transfer true } fn push_update_reference_callback(reference: &str, status: Option<&str>) -> Result<(), Error> { match status { None => trace!("Reference “{}” pushed successfully to remote “origin”", reference), Some(error) => panic!("Couldn’t push reference “{}” to remote “origin”: {}", reference, error), }; Ok(()) } fn checkout_progress_callback(path: Option<&Path>, current: usize, total: usize, progress_bar: &mut ProgressBar) { progress_bar.set_length(total as u64); progress_bar.set_position(current as u64); } fn reset_origin(&self, remote_url: &str) -> &Self { let remote = match self.repository.find_remote("origin") { Ok(remote) => remote, Err(_) => match self.repository.remote("origin", remote_url) { Ok(remote) => remote, Err(error) => panic!("Could not reset remote “origin”: {}", error), }, }; info!("Reset origin to “{}”", remote_url); self } fn fetch_branch(&self, branch_name: &str) -> &Self { let mut progress_bar = ProgressBar::new(0); progress_bar.set_style(BenchmarkRepository::progress_bar_style()); { let mut remote_callbacks = RemoteCallbacks::new(); remote_callbacks.credentials( |_, _, _| { match Cred::ssh_key_from_agent(&self.ssh_user) { Ok(credentials) => Ok(credentials), Err(error) => panic!("could not retrieve key pair for SSH authentication as user “{}”: {}", self.ssh_user, error), } }); remote_callbacks.transfer_progress( |progress| BenchmarkRepository::transfer_progress_callback(progress, &mut progress_bar)); let mut fetch_options = FetchOptions::new(); fetch_options.remote_callbacks(remote_callbacks); let mut origin = self.repository.find_remote("origin").expect("could not find remote “origin”"); info!("Updating branch “{}”", branch_name); if let Err(error) = origin.fetch(&[branch_name], Some(&mut fetch_options), None) { panic!("failed to fetch branch “{}” from remote “origin”: {}", branch_name, error); } } progress_bar.finish_and_clear(); trace!("Branch “{}” is up-to-date", branch_name); self } fn init(base_path: &Path) -> Repository { let repository = match Repository::init_bare(base_path) { Ok(repository) => repository, Err(error) => panic!("failed to initialize Git repository in “{}”: {}", base_path.display(), error), }; info!("Initialized Git repository in “{}”", base_path.display()); repository } pub fn new(remote_url: &str, base_path: &Path, ssh_user: &str, user_name: &str, user_email: &str) -> BenchmarkRepository { let repository = match Repository::open(base_path) { Ok(repository) => { info!("Using existing Git repository"); repository }, Err(_) => BenchmarkRepository::init(base_path), }; let benchmark_repository = BenchmarkRepository { repository: repository, ssh_user: ssh_user.to_string(), user_name: user_name.to_string(), user_email: user_email.to_string(), autocommit_channel: channel(), autocommit_directory: None, autocommit_thread: None, autocommit_watcher: None, }; benchmark_repository .reset_origin(remote_url) .fetch_branch("config") .fetch_branch("results") .fetch_branch("status"); benchmark_repository } pub fn read_file_as_index_entry(&self, file_path: &Path, result_file_path: &Path) -> IndexEntry { // create a new blob with the file contents let object_id = match self.repository.blob_path(file_path) { Ok(object_id) => object_id, Err(error) => panic!("Could not write blob for “{}”: {}", file_path.display(), error), }; info!("Created object “{}” from “{}”", object_id, file_path.display()); IndexEntry { ctime: IndexTime::new(0, 0), mtime: IndexTime::new(0, 0), dev: 0, ino: 0, mode: 0o100644, uid: 0, gid: 0, file_size: 0, id: object_id, flags: 0, flags_extended: 0, path: result_file_path.to_string_lossy().as_bytes().to_owned(), } } pub fn commit_files(&self, file_paths: &[TargetPath], branch_name: &str) { let tip_reference_name = format!("refs/remotes/origin/{}", branch_name); let tip_reference = match self.repository.find_reference(&tip_reference_name) { Ok(value) => value, Err(error) => panic!("Could not find reference “{}”: {}", tip_reference_name, error), }; let parent_tree = match tip_reference.peel_to_tree() { Ok(value) => value, Err(error) => panic!("Could not peel reference to tree: {}", error), }; let mut index = match Index::new() { Ok(value) => value, Err(error) => panic!("Could not create index: {}", error), }; match index.read_tree(&parent_tree) { Ok(value) => value, Err(error) => panic!("Could not read parent tree into index: {}", error), }; for target_path in file_paths { let index_entry = self.read_file_as_index_entry(target_path.source, target_path.destination); if let Err(error) = index.add(&index_entry) { panic!("Could not add index entry for “{}”: {}", target_path.destination.display(), error); } } let tree_object_id = match index.write_tree_to(&self.repository) { Ok(value) => value, Err(error) => panic!("Could not write index to tree: {}", error), }; let tree = match self.repository.find_tree(tree_object_id) { Ok(value) => value, Err(error) => panic!("Could obtain tree: {}", error), }; info!("Created tree object “{}”", tree_object_id); let signature = Signature::now(&self.user_name, &self.user_email).expect("Could not create signature"); let message = format!("Add files"); let parent = match tip_reference.peel_to_commit() { Ok(value) => value, Err(error) => panic!("Could not peel reference: {}", error), }; let commit_id = match self.repository.commit(Some(&tip_reference_name), &signature, &signature, &message, &tree, &[&parent]) { Ok(value) => value, Err(error) => panic!("Could not write commit: {}", error), }; let push_refspec = format!("refs/remotes/origin/{}:refs/heads/{}", branch_name, branch_name); trace!("Created commit “{}”, using refspec “{}”", commit_id, push_refspec); let mut remote_callbacks = RemoteCallbacks::new(); remote_callbacks.credentials( |_, _, _| { match Cred::ssh_key_from_agent(&self.ssh_user) { Ok(value) => Ok(value), Err(error) => panic!("could not retrieve key pair for SSH authentication as user “{}”: {}", self.ssh_user, error), } }); remote_callbacks.push_update_reference( |reference, status| BenchmarkRepository::push_update_reference_callback(reference, status)); let mut push_options = PushOptions::new(); push_options.remote_callbacks(remote_callbacks); let mut remote = self.repository.find_remote("origin").expect(""); remote.push(&[&push_refspec], Some(&mut push_options)).expect("couldn’t push"); } pub fn file_exists(&self, file_path: &Path, branch_name: &str) -> bool { let tip_reference_name = format!("refs/remotes/origin/{}", branch_name); let tip_reference = match self.repository.find_reference(&tip_reference_name) { Ok(value) => value, Err(error) => panic!("Could not find reference “{}”: {}", tip_reference_name, error), }; let tree = match tip_reference.peel_to_tree() { Ok(value) => value, Err(error) => panic!("Could not peel reference to tree: {}", error), }; let object_id = match tree.get_path(file_path) { Ok(tree_entry) => tree_entry.id(), Err(error) => return false, }; let blob = match self.repository.find_blob(object_id) { Ok(blob) => blob, Err(error) => return false, }; true } pub fn read_file(&self, file_path: &Path, branch_name: &str) -> Option { let tip_reference_name = format!("refs/remotes/origin/{}", branch_name); let tip_reference = match self.repository.find_reference(&tip_reference_name) { Ok(value) => value, Err(error) => panic!("Could not find reference “{}”: {}", tip_reference_name, error), }; let tree = match tip_reference.peel_to_tree() { Ok(value) => value, Err(error) => panic!("Could not peel reference to tree: {}", error), }; let object_id = match tree.get_path(file_path) { Ok(tree_entry) => tree_entry.id(), Err(error) => return None, }; let blob = match self.repository.find_blob(object_id) { Ok(blob) => blob, Err(error) => return None, }; let content = match std::str::from_utf8(blob.content()) { Ok(content) => content, Err(error) => panic!("Could not interpret file “{}” as UTF-8: {}", file_path.display(), error), }; Some(content.to_owned()) } fn prepare_autocommit_directory(&mut self) { match self.autocommit_thread { Some(_) => (), None => { let tmp_dir = match TempDir::new() { Ok(value) => value, Err(error) => panic!("Could not create autocommit directory: {}", error), }; let lock_file_path = tmp_dir.path().join(".lock"); if let Err(error) = File::create(&lock_file_path) { panic!("Could not create lock file “{}”: {}", lock_file_path.display(), error); } let (sender, receiver) = channel(); let watcher = match raw_watcher(sender) { Ok(value) => value, Err(error) => panic!("Could not create filesystem watcher: {}", error), }; self.autocommit_watcher = Some(watcher); self.autocommit_directory = Some(tmp_dir); trace!("{:#?}", receiver); let thread = spawn( move || { trace!("Autocommit thread running"); trace!("{:#?}", receiver); loop { match receiver.recv() { Ok(RawEvent{path: Some(path), op: Ok(Op::REMOVE), cookie: _}) => { trace!("Received “remove” event for path “{}”", path.display()); }, Err(error) => panic!("Error handling notify event: {}", error), _ => (), } } }); self.autocommit_thread = Some(thread); } } } pub fn create_autocommit_directory(&mut self, directory_path: &Path, branch_name: &str) -> Result { self.prepare_autocommit_directory(); let result_directory_path = self.autocommit_directory.as_ref().unwrap().path().join(branch_name).join(directory_path); match create_dir_all(&result_directory_path) { Ok(_) => (), Err(error) => panic!("Could not create result directory: {}", error), } { let lock_file_path = result_directory_path.join(".lock"); if lock_file_path.exists() { panic!("Autocommit directory “{}” already locked", lock_file_path.display()); } if let Err(error) = File::create(&lock_file_path) { panic!("Could not create temporary file “{}”: {}", lock_file_path.display(), error); } } Ok(result_directory_path) } pub fn wait_for_autocommit_thread(mut self) { if let None = self.autocommit_thread { panic!("No autocommit thread started"); } let autocommit_thread = self.autocommit_thread; if let Err(RecvError) = autocommit_thread.unwrap().join() { panic!("Could not join autocommit thread"); } self.autocommit_thread = None; } } #[cfg(test)] mod tests { }