// Copyright 2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. // rustpkg utilities having to do with paths and directories pub use util::{PkgId, RemotePath, LocalPath}; use core::libc::consts::os::posix88::{S_IRUSR, S_IWUSR, S_IXUSR}; use core::os::mkdir_recursive; pub use util::{normalize, OutputType, Main, Lib, Bench, Test}; /// Returns the value of RUST_PATH, as a list /// of Paths. In general this should be read from the /// environment; for now, it's hard-wired to just be "." pub fn rust_path() -> ~[Path] { ~[Path(".")] } pub static u_rwx: i32 = (S_IRUSR | S_IWUSR | S_IXUSR) as i32; /// Creates a directory that is readable, writeable, /// and executable by the user. Returns true iff creation /// succeeded. pub fn make_dir_rwx(p: &Path) -> bool { os::make_dir(p, u_rwx) } // n.b. So far this only handles local workspaces // n.b. The next three functions ignore the package version right // now. Should fix that. /// True if there's a directory in with /// pkgid's short name pub fn workspace_contains_package_id(pkgid: &PkgId, workspace: &Path) -> bool { let pkgpath = workspace.push("src").push(pkgid.local_path.to_str()); os::path_is_dir(&pkgpath) } /// Return the directory for 's source files in . /// Doesn't check that it exists. pub fn pkgid_src_in_workspace(pkgid: &PkgId, workspace: &Path) -> Path { let result = workspace.push("src"); result.push(pkgid.local_path.to_str()) } /// Figure out what the executable name for in 's build /// directory is, and if the file exists, return it. pub fn built_executable_in_workspace(pkgid: &PkgId, workspace: &Path) -> Option { let mut result = workspace.push("build"); // should use a target-specific subdirectory result = mk_output_path(Main, pkgid, &result); debug!("built_executable_in_workspace: checking whether %s exists", result.to_str()); if os::path_exists(&result) { Some(result) } else { // This is not an error, but it's worth logging it error!(fmt!("built_executable_in_workspace: %s does not exist", result.to_str())); None } } /// Figure out what the test name for in 's build /// directory is, and if the file exists, return it. pub fn built_test_in_workspace(pkgid: &PkgId, workspace: &Path) -> Option { output_in_workspace(pkgid, workspace, Test) } /// Figure out what the test name for in 's build /// directory is, and if the file exists, return it. pub fn built_bench_in_workspace(pkgid: &PkgId, workspace: &Path) -> Option { output_in_workspace(pkgid, workspace, Bench) } fn output_in_workspace(pkgid: &PkgId, workspace: &Path, what: OutputType) -> Option { let mut result = workspace.push("build"); // should use a target-specific subdirectory result = mk_output_path(what, pkgid, &result); debug!("output_in_workspace: checking whether %s exists", result.to_str()); if os::path_exists(&result) { Some(result) } else { error!(fmt!("output_in_workspace: %s does not exist", result.to_str())); None } } /// Figure out what the library name for in 's build /// directory is, and if the file exists, return it. pub fn built_library_in_workspace(pkgid: &PkgId, workspace: &Path) -> Option { let result = mk_output_path(Lib, pkgid, &workspace.push("build")); debug!("built_library_in_workspace: checking whether %s exists", result.to_str()); // We don't know what the hash is, so we have to search through the directory // contents let dir_contents = os::list_dir(&result.pop()); debug!("dir has %? entries", dir_contents.len()); let lib_prefix = fmt!("%s%s", os::consts::DLL_PREFIX, pkgid.short_name); let lib_filetype = fmt!("%s%s", pkgid.version.to_str(), os::consts::DLL_SUFFIX); debug!("lib_prefix = %s and lib_filetype = %s", lib_prefix, lib_filetype); let mut result_filename = None; for dir_contents.each |&p| { let mut which = 0; let mut hash = None; // Find a filename that matches the pattern: (lib_prefix)-hash-(version)(lib_suffix) // and remember what the hash was for p.each_split_char('-') |piece| { debug!("a piece = %s", piece); if which == 0 && piece != lib_prefix { break; } else if which == 0 { which += 1; } else if which == 1 { hash = Some(piece.to_owned()); which += 1; } else if which == 2 && piece != lib_filetype { hash = None; break; } else if which == 2 { break; } else { // something went wrong hash = None; break; } } if hash.is_some() { result_filename = Some(p); break; } } // Return the filename that matches, which we now know exists // (if result_filename != None) debug!("result_filename = %?", result_filename); match result_filename { None => None, Some(result_filename) => { let result_filename = result.with_filename(result_filename); debug!("result_filename = %s", result_filename.to_str()); Some(result_filename) } } } /// Returns the executable that would be installed for /// in /// As a side effect, creates the bin-dir if it doesn't exist pub fn target_executable_in_workspace(pkgid: &PkgId, workspace: &Path) -> Path { target_file_in_workspace(pkgid, workspace, Main) } /// Returns the executable that would be installed for /// in /// As a side effect, creates the bin-dir if it doesn't exist pub fn target_library_in_workspace(pkgid: &PkgId, workspace: &Path) -> Path { target_file_in_workspace(pkgid, workspace, Lib) } /// Returns the test executable that would be installed for /// in /// note that we *don't* install test executables, so this is just for unit testing pub fn target_test_in_workspace(pkgid: &PkgId, workspace: &Path) -> Path { target_file_in_workspace(pkgid, workspace, Test) } /// Returns the bench executable that would be installed for /// in /// note that we *don't* install bench executables, so this is just for unit testing pub fn target_bench_in_workspace(pkgid: &PkgId, workspace: &Path) -> Path { target_file_in_workspace(pkgid, workspace, Bench) } fn target_file_in_workspace(pkgid: &PkgId, workspace: &Path, what: OutputType) -> Path { use conditions::bad_path::cond; let subdir = match what { Lib => "lib", Main | Test | Bench => "bin" }; let result = workspace.push(subdir); if !os::path_exists(&result) && !mkdir_recursive(&result, u_rwx) { cond.raise((copy result, fmt!("I couldn't create the %s dir", subdir))); } mk_output_path(what, pkgid, &result) } /// Return the directory for 's build artifacts in . /// Creates it if it doesn't exist. pub fn build_pkg_id_in_workspace(pkgid: &PkgId, workspace: &Path) -> Path { use conditions::bad_path::cond; let mut result = workspace.push("build"); // n.b. Should actually use a target-specific // subdirectory of build/ result = result.push_rel(&*pkgid.local_path); if os::path_exists(&result) || os::mkdir_recursive(&result, u_rwx) { result } else { cond.raise((result, fmt!("Could not create directory for package %s", pkgid.to_str()))) } } /// Return the output file for a given directory name, /// given whether we're building a library and whether we're building tests pub fn mk_output_path(what: OutputType, pkg_id: &PkgId, workspace: &Path) -> Path { let short_name_with_version = pkg_id.short_name_with_version(); // Not local_path.dir_path()! For package foo/bar/blat/, we want // the executable blat-0.5 to live under blat/ let dir = workspace.push_rel(&*pkg_id.local_path); debug!("mk_output_path: short_name = %s, path = %s", if what == Lib { copy short_name_with_version } else { copy pkg_id.short_name }, dir.to_str()); let output_path = match what { // this code is duplicated from elsewhere; fix this Lib => dir.push(os::dll_filename(short_name_with_version)), // executable names *aren't* versioned _ => dir.push(fmt!("%s%s%s", copy pkg_id.short_name, match what { Test => "test", Bench => "bench", _ => "" } os::EXE_SUFFIX)) }; debug!("mk_output_path: returning %s", output_path.to_str()); output_path }