Mercurial > hg
view rust/hgcli/src/main.rs @ 41582:7b2580e0dbbd
largefiles: use wrappedfunction() in overriderevert()
Differential Revision: https://phab.mercurial-scm.org/D5869
author | Martin von Zweigbergk <martinvonz@google.com> |
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date | Tue, 05 Feb 2019 11:17:11 -0800 |
parents | fa9747e7fc86 |
children | 5c9c71cde1c9 |
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// main.rs -- Main routines for `hg` program // // Copyright 2017 Gregory Szorc <gregory.szorc@gmail.com> // // This software may be used and distributed according to the terms of the // GNU General Public License version 2 or any later version. extern crate libc; extern crate cpython; extern crate python27_sys; use cpython::{NoArgs, ObjectProtocol, PyModule, PyResult, Python}; use libc::{c_char, c_int}; use std::env; use std::path::PathBuf; use std::ffi::{CString, OsStr}; #[cfg(target_family = "unix")] use std::os::unix::ffi::{OsStrExt, OsStringExt}; #[derive(Debug)] struct Environment { _exe: PathBuf, python_exe: PathBuf, python_home: PathBuf, mercurial_modules: PathBuf, } /// Run Mercurial locally from a source distribution or checkout. /// /// hg is <srcdir>/rust/target/<target>/hg /// Python interpreter is detected by build script. /// Python home is relative to Python interpreter. /// Mercurial files are relative to hg binary, which is relative to source root. #[cfg(feature = "localdev")] fn get_environment() -> Environment { let exe = env::current_exe().unwrap(); let mut mercurial_modules = exe.clone(); mercurial_modules.pop(); // /rust/target/<target> mercurial_modules.pop(); // /rust/target mercurial_modules.pop(); // /rust mercurial_modules.pop(); // / let python_exe: &'static str = env!("PYTHON_INTERPRETER"); let python_exe = PathBuf::from(python_exe); let mut python_home = python_exe.clone(); python_home.pop(); // On Windows, python2.7.exe exists at the root directory of the Python // install. Everywhere else, the Python install root is one level up. if !python_exe.ends_with("python2.7.exe") { python_home.pop(); } Environment { _exe: exe.clone(), python_exe: python_exe, python_home: python_home, mercurial_modules: mercurial_modules.to_path_buf(), } } // On UNIX, platform string is just bytes and should not contain NUL. #[cfg(target_family = "unix")] fn cstring_from_os<T: AsRef<OsStr>>(s: T) -> CString { CString::new(s.as_ref().as_bytes()).unwrap() } // TODO convert to ANSI characters? #[cfg(target_family = "windows")] fn cstring_from_os<T: AsRef<OsStr>>(s: T) -> CString { CString::new(s.as_ref().to_str().unwrap()).unwrap() } // On UNIX, argv starts as an array of char*. So it is easy to convert // to C strings. #[cfg(target_family = "unix")] fn args_to_cstrings() -> Vec<CString> { env::args_os() .map(|a| CString::new(a.into_vec()).unwrap()) .collect() } // TODO Windows support is incomplete. We should either use env::args_os() // (or call into GetCommandLineW() + CommandLinetoArgvW()), convert these to // PyUnicode instances, and pass these into Python/Mercurial outside the // standard PySys_SetArgvEx() mechanism. This will allow us to preserve the // raw bytes (since PySys_SetArgvEx() is based on char* and can drop wchar // data. // // For now, we use env::args(). This will choke on invalid UTF-8 arguments. // But it is better than nothing. #[cfg(target_family = "windows")] fn args_to_cstrings() -> Vec<CString> { env::args().map(|a| CString::new(a).unwrap()).collect() } fn set_python_home(env: &Environment) { let raw = cstring_from_os(&env.python_home).into_raw(); unsafe { python27_sys::Py_SetPythonHome(raw); } } fn update_encoding(_py: Python, _sys_mod: &PyModule) { // Call sys.setdefaultencoding("undefined") if HGUNICODEPEDANTRY is set. let pedantry = env::var("HGUNICODEPEDANTRY").is_ok(); if pedantry { // site.py removes the sys.setdefaultencoding attribute. So we need // to reload the module to get a handle on it. This is a lesser // used feature and we'll support this later. // TODO support this panic!("HGUNICODEPEDANTRY is not yet supported"); } } fn update_modules_path(env: &Environment, py: Python, sys_mod: &PyModule) { let sys_path = sys_mod.get(py, "path").unwrap(); sys_path .call_method(py, "insert", (0, env.mercurial_modules.to_str()), None) .expect("failed to update sys.path to location of Mercurial modules"); } fn run() -> Result<(), i32> { let env = get_environment(); //println!("{:?}", env); // Tell Python where it is installed. set_python_home(&env); // Set program name. The backing memory needs to live for the duration of the // interpreter. // // TODO consider storing this in a static or associating with lifetime of // the Python interpreter. // // Yes, we use the path to the Python interpreter not argv[0] here. The // reason is because Python uses the given path to find the location of // Python files. Apparently we could define our own ``Py_GetPath()`` // implementation. But this may require statically linking Python, which is // not desirable. let program_name = cstring_from_os(&env.python_exe).as_ptr(); unsafe { python27_sys::Py_SetProgramName(program_name as *mut i8); } unsafe { python27_sys::Py_Initialize(); } // https://docs.python.org/2/c-api/init.html#c.PySys_SetArgvEx has important // usage information about PySys_SetArgvEx: // // * It says the first argument should be the script that is being executed. // If not a script, it can be empty. We are definitely not a script. // However, parts of Mercurial do look at sys.argv[0]. So we need to set // something here. // // * When embedding Python, we should use ``PySys_SetArgvEx()`` and set // ``updatepath=0`` for security reasons. Essentially, Python's default // logic will treat an empty argv[0] in a manner that could result in // sys.path picking up directories it shouldn't and this could lead to // loading untrusted modules. // env::args() will panic if it sees a non-UTF-8 byte sequence. And // Mercurial supports arbitrary encodings of input data. So we need to // use OS-specific mechanisms to get the raw bytes without UTF-8 // interference. let args = args_to_cstrings(); let argv: Vec<*const c_char> = args.iter().map(|a| a.as_ptr()).collect(); unsafe { python27_sys::PySys_SetArgvEx(args.len() as c_int, argv.as_ptr() as *mut *mut i8, 0); } let result; { // These need to be dropped before we call Py_Finalize(). Hence the // block. let gil = Python::acquire_gil(); let py = gil.python(); // Mercurial code could call sys.exit(), which will call exit() // itself. So this may not return. // TODO this may cause issues on Windows due to the CRT mismatch. // Investigate if we can intercept sys.exit() or SystemExit() to // ensure we handle process exit. result = match run_py(&env, py) { // Print unhandled exceptions and exit code 255, as this is what // `python` does. Err(err) => { err.print(py); Err(255) } Ok(()) => Ok(()), }; } unsafe { python27_sys::Py_Finalize(); } result } fn run_py(env: &Environment, py: Python) -> PyResult<()> { let sys_mod = py.import("sys").unwrap(); update_encoding(py, &sys_mod); update_modules_path(&env, py, &sys_mod); // TODO consider a better error message on failure to import. let demand_mod = py.import("hgdemandimport")?; demand_mod.call(py, "enable", NoArgs, None)?; let dispatch_mod = py.import("mercurial.dispatch")?; dispatch_mod.call(py, "run", NoArgs, None)?; Ok(()) } fn main() { let exit_code = match run() { Err(err) => err, Ok(()) => 0, }; std::process::exit(exit_code); }