From 698f8c2f01ea549d77d7dc3338a12e04c11057b9 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Wed, 17 Apr 2024 14:02:58 +0200 Subject: Adding upstream version 1.64.0+dfsg1. Signed-off-by: Daniel Baumann --- vendor/libloading/src/changelog.rs | 325 +++++++++++++++++++ vendor/libloading/src/error.rs | 130 ++++++++ vendor/libloading/src/lib.rs | 80 +++++ vendor/libloading/src/os/mod.rs | 27 ++ vendor/libloading/src/os/unix/consts.rs | 230 ++++++++++++++ vendor/libloading/src/os/unix/mod.rs | 446 ++++++++++++++++++++++++++ vendor/libloading/src/os/windows/mod.rs | 534 ++++++++++++++++++++++++++++++++ vendor/libloading/src/safe.rs | 299 ++++++++++++++++++ vendor/libloading/src/test_helpers.rs | 37 +++ vendor/libloading/src/util.rs | 34 ++ 10 files changed, 2142 insertions(+) create mode 100644 vendor/libloading/src/changelog.rs create mode 100644 vendor/libloading/src/error.rs create mode 100644 vendor/libloading/src/lib.rs create mode 100644 vendor/libloading/src/os/mod.rs create mode 100644 vendor/libloading/src/os/unix/consts.rs create mode 100644 vendor/libloading/src/os/unix/mod.rs create mode 100644 vendor/libloading/src/os/windows/mod.rs create mode 100644 vendor/libloading/src/safe.rs create mode 100644 vendor/libloading/src/test_helpers.rs create mode 100644 vendor/libloading/src/util.rs (limited to 'vendor/libloading/src') diff --git a/vendor/libloading/src/changelog.rs b/vendor/libloading/src/changelog.rs new file mode 100644 index 000000000..f8b898e6c --- /dev/null +++ b/vendor/libloading/src/changelog.rs @@ -0,0 +1,325 @@ +//! The change log. + +/// Release 0.7.3 (2022-01-15) +/// +/// This release has no functional changes. +/// +/// In this release the `docsrs` `cfg` has been renamed to `libloading_docs` to better reflect that +/// this `cfg` is intended to be only used by `libloading` and only specifically for the invocation +/// of `rustdoc` when documenting `libloading`. Setting this `cfg` in any other situation is +/// unsupported and will not work. +pub mod r0_7_3 {} + +/// Release 0.7.2 (2021-11-14) +/// +/// Cargo.toml now specifies the MSRV bounds, which enables tooling to report an early failure when +/// the version of the toolchain is insufficient. Refer to the [min-rust-version RFC] and its +/// [tracking issue]. +/// +/// [min-rust-version RFC]: https://rust-lang.github.io/rfcs/2495-min-rust-version.html +/// [tracking issue]: https://github.com/rust-lang/rust/issues/65262 +/// +/// Additionally, on platforms `libloading` has no support (today: `not(any(unix, windows))`), we +/// will no longer attempt to implement the cross-platform `Library` and `Symbol` types. This makes +/// `libloading` compile on targets such as `wasm32-unknown-unknown` and gives ability to the +/// downstream consumers of this library to decide how they want to handle the absence of the +/// library loading implementation in their code. One of such approaches could be depending on +/// `libloading` itself optionally as such: +/// +/// ```toml +/// [target.'cfg(any(unix, windows))'.dependencies.libloading] +/// version = "0.7" +/// ``` +pub mod r0_7_2 {} + +/// Release 0.7.1 (2021-10-09) +/// +/// Significantly improved the consistency and style of the documentation. +pub mod r0_7_1 {} + +/// Release 0.7.0 (2021-02-06) +/// +/// ## Breaking changes +/// +/// ### Loading functions are now `unsafe` +/// +/// A number of associated methods involved in loading a library were changed to +/// be `unsafe`. The affected functions are: [`Library::new`], [`os::unix::Library::new`], +/// [`os::unix::Library::open`], [`os::windows::Library::new`], +/// [`os::windows::Library::load_with_flags`]. This is the most prominent breaking change in this +/// release and affects majority of the users of `libloading`. +/// +/// In order to see why it was necessary, consider the following snippet of C++ code: +/// +/// ```c++ +/// #include +/// #include +/// +/// static std::vector UNSHUU = { 1, 2, 3 }; +/// +/// int main() { +/// std::cout << UNSHUU[0] << UNSHUU[1] << UNSHUU[2] << std::endl; // Prints 123 +/// return 0; +/// } +/// ``` +/// +/// The `std::vector` type, much like in Rust's `Vec`, stores its contents in a buffer allocated on +/// the heap. In this example the vector object itself is stored and initialized as a static +/// variable – a compile time construct. The heap, on the other hand, is a runtime construct. And +/// yet the code works exactly as you'd expect – the vector contains numbers 1, 2 and 3 stored in +/// a buffer on heap. So, _what_ makes it work out, exactly? +/// +/// Various executable and shared library formats define conventions and machinery to execute +/// arbitrary code when a program or a shared library is loaded. On systems using the PE format +/// (e.g. Windows) this is available via the optional `DllMain` initializer. Various systems +/// utilizing the ELF format take a sightly different approach of maintaining an array of function +/// pointers in the `.init_array` section. A very similar mechanism exists on systems that utilize +/// the Mach-O format. +/// +/// For the C++ program above, the object stored in the `UNSHUU` global variable is constructed +/// by code run as part of such an initializer routine. This initializer is run before the entry +/// point (the `main` function) is executed, allowing for this magical behaviour to be possible. +/// Were the C++ code built as a shared library instead, the initialization routines would run as +/// the resulting shared library is loaded. In case of `libloading` – during the call to +/// `Library::new` and other methods affected by this change. +/// +/// These initialization (and very closely related termination) routines can be utilized outside of +/// C++ too. Anybody can build a shared library in variety of different programming languages and +/// set up the initializers to execute arbitrary code. Potentially code that does all sorts of +/// wildly unsound stuff. +/// +/// The routines are executed by components that are an integral part of the operating system. +/// Changing or controlling the operation of these components is infeasible. With that in +/// mind, the initializer and termination routines are something anybody loading a library must +/// carefully evaluate the libraries loaded for soundness. +/// +/// In practice, a vast majority of the libraries can be considered a good citizen and their +/// initialization and termination routines, if they have any at all, can be trusted to be sound. +/// +/// Also see: [issue #86]. +/// +/// ### Better & more consistent default behaviour on UNIX systems +/// +/// On UNIX systems the [`Library::new`], [`os::unix::Library::new`] and +/// [`os::unix::Library::this`] methods have been changed to use +/// [RTLD_LAZY] | [RTLD_LOCAL] as the default set of loader options (previously: +/// [`RTLD_NOW`]). This has a couple benefits. Namely: +/// +/// * Lazy binding is generally quicker to execute when only a subset of symbols from a library are +/// used and is typically the default when neither `RTLD_LAZY` nor `RTLD_NOW` are specified when +/// calling the underlying `dlopen` API; +/// * On most UNIX systems (macOS being a notable exception) `RTLD_LOCAL` is the default when +/// neither `RTLD_LOCAL` nor [`RTLD_GLOBAL`] are specified. The explicit setting of the +/// `RTLD_LOCAL` flag makes this behaviour consistent across platforms. +/// +/// ### Dropped support for Windows XP/Vista +/// +/// The (broken) support for Windows XP and Windows Vista environments was removed. This was +/// prompted primarily by a similar policy change in the [Rust +/// project](https://github.com/rust-lang/compiler-team/issues/378) but also as an acknowledgement +/// to the fact that `libloading` never worked in these environments anyway. +/// +/// ### More accurate error variant names +/// +/// Finally, the `Error::LoadLibraryW` renamed to [`Error::LoadLibraryExW`] to more accurately +/// represent the underlying API that's failing. No functional changes as part of this rename +/// intended. +/// +/// [issue #86]: https://github.com/nagisa/rust_libloading/issues/86 +/// [`Library::new`]: crate::Library::new +/// [`Error::LoadLibraryExW`]: crate::Error::LoadLibraryExW +/// [`os::unix::Library::this`]: crate::os::unix::Library::this +/// [`os::unix::Library::new`]: crate::os::unix::Library::new +/// [`os::unix::Library::open`]: crate::os::unix::Library::new +/// [`os::windows::Library::new`]: crate::os::windows::Library::new +/// [`os::windows::Library::load_with_flags`]: crate::os::windows::Library::load_with_flags +/// [`RTLD_NOW`]: crate::os::unix::RTLD_NOW +/// [RTLD_LAZY]: crate::os::unix::RTLD_LAZY +/// [RTLD_LOCAL]: crate::os::unix::RTLD_LOCAL +/// [`RTLD_GLOBAL`]: crate::os::unix::RTLD_GLOBAL +pub mod r0_7_0 {} + +/// Release 0.6.7 (2021-01-14) +/// +/// * Added a [`os::windows::Library::open_already_loaded`] to obtain a handle to a library that +/// must already be loaded. There is no portable equivalent for all UNIX targets. Users who do not +/// care about portability across UNIX platforms may use [`os::unix::Library::open`] with +/// `libc::RTLD_NOLOAD`; +/// +/// [`os::windows::Library::open_already_loaded`]: crate::os::windows::Library::open_already_loaded +/// [`os::unix::Library::open`]: crate::os::unix::Library::open +pub mod r0_6_7 {} + +/// Release 0.6.6 (2020-12-03) +/// +/// * Fix a double-release of resources when [`Library::close`] or [`os::windows::Library::close`] +/// is used on Windows. +/// +/// [`Library::close`]: crate::Library::close +/// [`os::windows::Library::close`]: crate::os::windows::Library::close +pub mod r0_6_6 {} + +/// Release 0.6.5 (2020-10-23) +/// +/// * Upgrade cfg-if 0.1 to 1.0 +pub mod r0_6_5 {} + +/// Release 0.6.4 (2020-10-10) +/// +/// * Remove use of `build.rs` making it easier to build `libloading` without cargo. It also +/// almost halves the build time of this crate. +pub mod r0_6_4 {} + +/// Release 0.6.3 (2020-08-22) +/// +/// * Improve documentation, allowing to view all of the os-specific functionality from +/// documentation generated for any target; +/// * Add [`os::windows::Library::this`]; +/// * Added constants to use with OS-specific `Library::open`; +/// * Add [`library_filename`]. +/// +/// [`os::windows::Library::this`]: crate::os::windows::Library::this +/// [`library_filename`]: crate::library_filename +pub mod r0_6_3 {} + +/// Release 0.6.2 (2020-05-06) +/// +/// * Fixed building of this library on Illumos. +pub mod r0_6_2 {} + +/// Release 0.6.1 (2020-04-15) +/// +/// * Introduced a new method [`os::windows::Library::load_with_flags`]; +/// * Added support for the Illumos triple. +/// +/// [`os::windows::Library::load_with_flags`]: crate::os::windows::Library::load_with_flags +pub mod r0_6_1 {} + +/// Release 0.6.0 (2020-04-05) +/// +/// * Introduced a new method [`os::unix::Library::get_singlethreaded`]; +/// * Added (untested) support for building when targetting Redox and Fuchsia; +/// * The APIs exposed by this library no longer panic and instead return an `Err` when it used +/// to panic. +/// +/// ## Breaking changes +/// +/// * Minimum required (stable) version of Rust to build this library is now 1.40.0; +/// * This crate now implements a custom [`Error`] type and all APIs now return this type rather +/// than returning the `std::io::Error`; +/// * `libloading::Result` has been removed; +/// * Removed the dependency on the C compiler to build this library on UNIX-like platforms. +/// `libloading` used to utilize a snippet written in C to work-around the unlikely possibility +/// of the target having a thread-unsafe implementation of the `dlerror` function. The effect of +/// the work-around was very opportunistic: it would not work if the function was called by +/// forgoing `libloading`. +/// +/// Starting with 0.6.0, [`Library::get`] on platforms where `dlerror` is not MT-safe (such as +/// FreeBSD, DragonflyBSD or NetBSD) will unconditionally return an error when the underlying +/// `dlsym` returns a null pointer. For the use-cases where loading null pointers is necessary +/// consider using [`os::unix::Library::get_singlethreaded`] instead. +/// +/// [`Library::get`]: crate::Library::get +/// [`os::unix::Library::get_singlethreaded`]: crate::os::unix::Library::get_singlethreaded +/// [`Error`]: crate::Error +pub mod r0_6_0 {} + +/// Release 0.5.2 (2019-07-07) +/// +/// * Added API to convert OS-specific `Library` and `Symbol` conversion to underlying resources. +pub mod r0_5_2 {} + +/// Release 0.5.1 (2019-06-01) +/// +/// * Build on Haiku targets. +pub mod r0_5_1 {} + +/// Release 0.5.0 (2018-01-11) +/// +/// * Update to `winapi = ^0.3`; +/// +/// ## Breaking changes +/// +/// * libloading now requires a C compiler to build on UNIX; +/// * This is a temporary measure until the [`linkage`] attribute is stabilised; +/// * Necessary to resolve [#32]. +/// +/// [`linkage`]: https://github.com/rust-lang/rust/issues/29603 +/// [#32]: https://github.com/nagisa/rust_libloading/issues/32 +pub mod r0_5_0 {} + +/// Release 0.4.3 (2017-12-07) +/// +/// * Bump lazy-static dependency to `^1.0`; +/// * `cargo test --release` now works when testing libloading. +pub mod r0_4_3 {} + +/// Release 0.4.2 (2017-09-24) +/// +/// * Improved error and race-condition handling on Windows; +/// * Improved documentation about thread-safety of Library; +/// * Added `Symbol::::lift_option() -> Option>` convenience method. +pub mod r0_4_2 {} + +/// Release 0.4.1 (2017-08-29) +/// +/// * Solaris support +pub mod r0_4_1 {} + +/// Release 0.4.0 (2017-05-01) +/// +/// * Remove build-time dependency on target_build_utils (and by extension serde/phf); +/// * Require at least version 1.14.0 of rustc to build; +/// * Actually, it is cargo which has to be more recent here. The one shipped with rustc 1.14.0 +/// is what’s being required from now on. +pub mod r0_4_0 {} + +/// Release 0.3.4 (2017-03-25) +/// +/// * Remove rogue println! +pub mod r0_3_4 {} + +/// Release 0.3.3 (2017-03-25) +/// +/// * Panics when `Library::get` is called for incompatibly sized type such as named function +/// types (which are zero-sized). +pub mod r0_3_3 {} + +/// Release 0.3.2 (2017-02-10) +/// +/// * Minimum version required is now rustc 1.12.0; +/// * Updated dependency versions (most notably target_build_utils to 0.3.0) +pub mod r0_3_2 {} + +/// Release 0.3.1 (2016-10-01) +/// +/// * `Symbol` and `os::*::Symbol` now implement `Send` where `T: Send`; +/// * `Symbol` and `os::*::Symbol` now implement `Sync` where `T: Sync`; +/// * `Library` and `os::*::Library` now implement `Sync` (they were `Send` in 0.3.0 already). +pub mod r0_3_1 {} + +/// Release 0.3.0 (2016-07-27) +/// +/// * Greatly improved documentation, especially around platform-specific behaviours; +/// * Improved test suite by building our own library to test against; +/// * All `Library`-ies now implement `Send`. +/// * Added `impl From for Library` and `impl From for +/// os::platform::Library` allowing wrapping and extracting the platform-specific library handle; +/// * Added methods to wrap (`Symbol::from_raw`) and unwrap (`Symbol::into_raw`) the safe `Symbol` +/// wrapper into unsafe `os::platform::Symbol`. +/// +/// The last two additions focus on not restricting potential usecases of this library, allowing +/// users of the library to circumvent safety checks if need be. +/// +/// ## Breaking Changes +/// +/// `Library::new` defaults to `RTLD_NOW` instead of `RTLD_LAZY` on UNIX for more consistent +/// cross-platform behaviour. If a library loaded with `Library::new` had any linking errors, but +/// unresolved references weren’t forced to be resolved, the library would’ve “just worked”, +/// whereas now the call to `Library::new` will return an error signifying presence of such error. +/// +/// ## os::platform +/// * Added `os::unix::Library::open` which allows specifying arbitrary flags (e.g. `RTLD_LAZY`); +/// * Added `os::windows::Library::get_ordinal` which allows finding a function or variable by its +/// ordinal number; +pub mod r0_3_0 {} diff --git a/vendor/libloading/src/error.rs b/vendor/libloading/src/error.rs new file mode 100644 index 000000000..bd70ec39c --- /dev/null +++ b/vendor/libloading/src/error.rs @@ -0,0 +1,130 @@ +use std::ffi::CString; + +/// A `dlerror` error. +pub struct DlDescription(pub(crate) CString); + +impl std::fmt::Debug for DlDescription { + fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { + std::fmt::Debug::fmt(&self.0, f) + } +} + +/// A Windows API error. +pub struct WindowsError(pub(crate) std::io::Error); + +impl std::fmt::Debug for WindowsError { + fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { + std::fmt::Debug::fmt(&self.0, f) + } +} + +/// Errors. +#[derive(Debug)] +#[non_exhaustive] +pub enum Error { + /// The `dlopen` call failed. + DlOpen { + /// The source error. + desc: DlDescription + }, + /// The `dlopen` call failed and system did not report an error. + DlOpenUnknown, + /// The `dlsym` call failed. + DlSym { + /// The source error. + desc: DlDescription + }, + /// The `dlsym` call failed and system did not report an error. + DlSymUnknown, + /// The `dlclose` call failed. + DlClose { + /// The source error. + desc: DlDescription + }, + /// The `dlclose` call failed and system did not report an error. + DlCloseUnknown, + /// The `LoadLibraryW` call failed. + LoadLibraryExW { + /// The source error. + source: WindowsError + }, + /// The `LoadLibraryW` call failed and system did not report an error. + LoadLibraryExWUnknown, + /// The `GetModuleHandleExW` call failed. + GetModuleHandleExW { + /// The source error. + source: WindowsError + }, + /// The `GetModuleHandleExW` call failed and system did not report an error. + GetModuleHandleExWUnknown, + /// The `GetProcAddress` call failed. + GetProcAddress { + /// The source error. + source: WindowsError + }, + /// The `GetProcAddressUnknown` call failed and system did not report an error. + GetProcAddressUnknown, + /// The `FreeLibrary` call failed. + FreeLibrary { + /// The source error. + source: WindowsError + }, + /// The `FreeLibrary` call failed and system did not report an error. + FreeLibraryUnknown, + /// The requested type cannot possibly work. + IncompatibleSize, + /// Could not create a new CString. + CreateCString { + /// The source error. + source: std::ffi::NulError + }, + /// Could not create a new CString from bytes with trailing null. + CreateCStringWithTrailing { + /// The source error. + source: std::ffi::FromBytesWithNulError + }, +} + +impl std::error::Error for Error { + fn source(&self) -> Option<&(dyn std::error::Error + 'static)> { + use Error::*; + match *self { + CreateCString { ref source } => Some(source), + CreateCStringWithTrailing { ref source } => Some(source), + LoadLibraryExW { ref source } => Some(&source.0), + GetProcAddress { ref source } => Some(&source.0), + FreeLibrary { ref source } => Some(&source.0), + _ => None, + } + } +} + +impl std::fmt::Display for Error { + fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { + use Error::*; + match *self { + DlOpen { ref desc } => write!(f, "{}", desc.0.to_string_lossy()), + DlOpenUnknown => write!(f, "dlopen failed, but system did not report the error"), + DlSym { ref desc } => write!(f, "{}", desc.0.to_string_lossy()), + DlSymUnknown => write!(f, "dlsym failed, but system did not report the error"), + DlClose { ref desc } => write!(f, "{}", desc.0.to_string_lossy()), + DlCloseUnknown => write!(f, "dlclose failed, but system did not report the error"), + LoadLibraryExW { .. } => write!(f, "LoadLibraryExW failed"), + LoadLibraryExWUnknown => + write!(f, "LoadLibraryExW failed, but system did not report the error"), + GetModuleHandleExW { .. } => write!(f, "GetModuleHandleExW failed"), + GetModuleHandleExWUnknown => + write!(f, "GetModuleHandleExWUnknown failed, but system did not report the error"), + GetProcAddress { .. } => write!(f, "GetProcAddress failed"), + GetProcAddressUnknown => + write!(f, "GetProcAddress failed, but system did not report the error"), + FreeLibrary { .. } => write!(f, "FreeLibrary failed"), + FreeLibraryUnknown => + write!(f, "FreeLibrary failed, but system did not report the error"), + CreateCString { .. } => write!(f, "could not create a C string from bytes"), + CreateCStringWithTrailing { .. } => + write!(f, "could not create a C string from bytes with trailing null"), + IncompatibleSize => write!(f, "requested type cannot possibly work"), + } + } +} diff --git a/vendor/libloading/src/lib.rs b/vendor/libloading/src/lib.rs new file mode 100644 index 000000000..6f0e4cb7f --- /dev/null +++ b/vendor/libloading/src/lib.rs @@ -0,0 +1,80 @@ +//! Bindings around the platform's dynamic library loading primitives with greatly improved memory safety. +//! +//! Using this library allows the loading of [dynamic libraries](struct.Library.html), also known as +//! shared libraries, and the use of the functions and static variables they contain. +//! +//! The `libloading` crate exposes a cross-platform interface to load a library and make use of its +//! contents, but little is done to hide the differences in behaviour between platforms. +//! The API documentation strives to document such differences as much as possible. +//! +//! Platform-specific APIs are also available in the [`os`](crate::os) module. These APIs are more +//! flexible, but less safe. +//! +//! # Installation +//! +//! Add the `libloading` library to your dependencies in `Cargo.toml`: +//! +//! ```toml +//! [dependencies] +//! libloading = "0.7" +//! ``` +//! +//! # Usage +//! +//! In your code, run the following: +//! +//! ```no_run +//! fn call_dynamic() -> Result> { +//! unsafe { +//! let lib = libloading::Library::new("/path/to/liblibrary.so")?; +//! let func: libloading::Symbol u32> = lib.get(b"my_func")?; +//! Ok(func()) +//! } +//! } +//! ``` +//! +//! The compiler will ensure that the loaded function will not outlive the `Library` from which it comes, +//! preventing the most common memory-safety issues. +#![cfg_attr(any(unix, windows), deny(missing_docs, clippy::all, unreachable_pub, unused))] +#![cfg_attr(libloading_docs, feature(doc_cfg))] + +pub mod changelog; +pub mod os; +mod util; + +mod error; +pub use self::error::Error; + +#[cfg(any(unix, windows, libloading_docs))] +mod safe; +#[cfg(any(unix, windows, libloading_docs))] +pub use self::safe::{Library, Symbol}; + +use std::env::consts::{DLL_PREFIX, DLL_SUFFIX}; +use std::ffi::{OsStr, OsString}; + +/// Converts a library name to a filename generally appropriate for use on the system. +/// +/// This function will prepend prefixes (such as `lib`) and suffixes (such as `.so`) to the library +/// `name` to construct the filename. +/// +/// # Examples +/// +/// It can be used to load global libraries in a platform independent manner: +/// +/// ``` +/// use libloading::{Library, library_filename}; +/// // Will attempt to load `libLLVM.so` on Linux, `libLLVM.dylib` on macOS and `LLVM.dll` on +/// // Windows. +/// let library = unsafe { +/// Library::new(library_filename("LLVM")) +/// }; +/// ``` +pub fn library_filename>(name: S) -> OsString { + let name = name.as_ref(); + let mut string = OsString::with_capacity(name.len() + DLL_PREFIX.len() + DLL_SUFFIX.len()); + string.push(DLL_PREFIX); + string.push(name); + string.push(DLL_SUFFIX); + string +} diff --git a/vendor/libloading/src/os/mod.rs b/vendor/libloading/src/os/mod.rs new file mode 100644 index 000000000..710353f5e --- /dev/null +++ b/vendor/libloading/src/os/mod.rs @@ -0,0 +1,27 @@ +//! Unsafe but flexible platform-specific bindings to dynamic library loading facilities. +//! +//! These modules expose more extensive and powerful bindings to the dynamic +//! library loading facilities. Use of these bindings come at the cost of less (in most cases, +//! none at all) safety guarantees, which are provided by the top-level bindings. +//! +//! # Examples +//! +//! Using these modules will likely involve conditional compilation: +//! +//! ```ignore +//! # extern crate libloading; +//! #[cfg(unix)] +//! use libloading::os::unix::*; +//! #[cfg(windows)] +//! use libloading::os::windows::*; +//! ``` + +/// UNIX implementation of dynamic library loading. +#[cfg(any(unix, libloading_docs))] +#[cfg_attr(libloading_docs, doc(cfg(unix)))] +pub mod unix; + +/// Windows implementation of dynamic library loading. +#[cfg(any(windows, libloading_docs))] +#[cfg_attr(libloading_docs, doc(cfg(windows)))] +pub mod windows; diff --git a/vendor/libloading/src/os/unix/consts.rs b/vendor/libloading/src/os/unix/consts.rs new file mode 100644 index 000000000..dbe4df972 --- /dev/null +++ b/vendor/libloading/src/os/unix/consts.rs @@ -0,0 +1,230 @@ +use std::os::raw::c_int; + +/// Perform lazy binding. +/// +/// Relocations shall be performed at an implementation-defined time, ranging from the time +/// of the [`Library::open`] call until the first reference to a given symbol occurs. +/// Specifying `RTLD_LAZY` should improve performance on implementations supporting dynamic +/// symbol binding since a process might not reference all of the symbols in an executable +/// object file. And, for systems supporting dynamic symbol resolution for normal process +/// execution, this behaviour mimics the normal handling of process execution. +/// +/// Conflicts with [`RTLD_NOW`]. +/// +/// [`Library::open`]: crate::os::unix::Library::open +pub const RTLD_LAZY: c_int = posix::RTLD_LAZY; + +/// Perform eager binding. +/// +/// All necessary relocations shall be performed when the executable object file is first +/// loaded. This may waste some processing if relocations are performed for symbols +/// that are never referenced. This behaviour may be useful for applications that need to +/// know that all symbols referenced during execution will be available before +/// [`Library::open`] returns. +/// +/// Conflicts with [`RTLD_LAZY`]. +/// +/// [`Library::open`]: crate::os::unix::Library::open +pub const RTLD_NOW: c_int = posix::RTLD_NOW; + +/// Make loaded symbols available for resolution globally. +/// +/// The executable object file's symbols shall be made available for relocation processing of any +/// other executable object file. In addition, calls to [`Library::get`] on `Library` obtained from +/// [`Library::this`] allows executable object files loaded with this mode to be searched. +/// +/// [`Library::this`]: crate::os::unix::Library::this +/// [`Library::get`]: crate::os::unix::Library::get +pub const RTLD_GLOBAL: c_int = posix::RTLD_GLOBAL; + +/// Load symbols into an isolated namespace. +/// +/// The executable object file's symbols shall not be made available for relocation processing of +/// any other executable object file. This mode of operation is most appropriate for e.g. plugins. +pub const RTLD_LOCAL: c_int = posix::RTLD_LOCAL; + +#[cfg(all(libloading_docs, not(unix)))] +mod posix { + use super::c_int; + pub(super) const RTLD_LAZY: c_int = !0; + pub(super) const RTLD_NOW: c_int = !0; + pub(super) const RTLD_GLOBAL: c_int = !0; + pub(super) const RTLD_LOCAL: c_int = !0; +} + +#[cfg(any(not(libloading_docs), unix))] +mod posix { + extern crate cfg_if; + use self::cfg_if::cfg_if; + use super::c_int; + cfg_if! { + if #[cfg(target_os = "haiku")] { + pub(super) const RTLD_LAZY: c_int = 0; + } else if #[cfg(any( + target_os = "linux", + target_os = "android", + target_os = "emscripten", + + target_os = "macos", + target_os = "ios", + target_os = "freebsd", + target_os = "dragonfly", + target_os = "openbsd", + target_os = "netbsd", + + target_os = "solaris", + target_os = "illumos", + + target_env = "uclibc", + target_env = "newlib", + + target_os = "fuchsia", + target_os = "redox", + ))] { + pub(super) const RTLD_LAZY: c_int = 1; + } else { + compile_error!( + "Target has no known `RTLD_LAZY` value. Please submit an issue or PR adding it." + ); + } + } + + cfg_if! { + if #[cfg(target_os = "haiku")] { + pub(super) const RTLD_NOW: c_int = 1; + } else if #[cfg(any( + target_os = "linux", + all(target_os = "android", target_pointer_width = "64"), + target_os = "emscripten", + + target_os = "macos", + target_os = "ios", + target_os = "freebsd", + target_os = "dragonfly", + target_os = "openbsd", + target_os = "netbsd", + + target_os = "solaris", + target_os = "illumos", + + target_env = "uclibc", + target_env = "newlib", + + target_os = "fuchsia", + target_os = "redox", + ))] { + pub(super) const RTLD_NOW: c_int = 2; + } else if #[cfg(all(target_os = "android",target_pointer_width = "32"))] { + pub(super) const RTLD_NOW: c_int = 0; + } else { + compile_error!( + "Target has no known `RTLD_NOW` value. Please submit an issue or PR adding it." + ); + } + } + + cfg_if! { + if #[cfg(any( + target_os = "haiku", + all(target_os = "android",target_pointer_width = "32"), + ))] { + pub(super) const RTLD_GLOBAL: c_int = 2; + } else if #[cfg(any( + target_env = "uclibc", + all(target_os = "linux", target_arch = "mips"), + all(target_os = "linux", target_arch = "mips64"), + ))] { + pub(super) const RTLD_GLOBAL: c_int = 4; + } else if #[cfg(any( + target_os = "macos", + target_os = "ios", + ))] { + pub(super) const RTLD_GLOBAL: c_int = 8; + } else if #[cfg(any( + target_os = "linux", + all(target_os = "android", target_pointer_width = "64"), + target_os = "emscripten", + + target_os = "freebsd", + target_os = "dragonfly", + target_os = "openbsd", + target_os = "netbsd", + + target_os = "solaris", + target_os = "illumos", + + target_env = "newlib", + + target_os = "fuchsia", + target_os = "redox", + ))] { + pub(super) const RTLD_GLOBAL: c_int = 0x100; + } else { + compile_error!( + "Target has no known `RTLD_GLOBAL` value. Please submit an issue or PR adding it." + ); + } + } + + cfg_if! { + if #[cfg(target_os = "netbsd")] { + pub(super) const RTLD_LOCAL: c_int = 0x200; + } else if #[cfg(any( + target_os = "macos", + target_os = "ios", + ))] { + pub(super) const RTLD_LOCAL: c_int = 4; + } else if #[cfg(any( + target_os = "linux", + target_os = "android", + target_os = "emscripten", + + target_os = "freebsd", + target_os = "dragonfly", + target_os = "openbsd", + + target_os = "haiku", + + target_os = "solaris", + target_os = "illumos", + + target_env = "uclibc", + target_env = "newlib", + + target_os = "fuchsia", + target_os = "redox", + ))] { + pub(super) const RTLD_LOCAL: c_int = 0; + } else { + compile_error!( + "Target has no known `RTLD_LOCAL` value. Please submit an issue or PR adding it." + ); + } + } +} + +// Other constants that exist but are not bound because they are platform-specific (non-posix) +// extensions. Some of these constants are only relevant to `dlsym` or `dlmopen` calls. +// +// RTLD_CONFGEN +// RTLD_DEFAULT +// RTLD_DI_CONFIGADDR +// RTLD_DI_LINKMAP +// RTLD_DI_LMID +// RTLD_DI_ORIGIN +// RTLD_DI_PROFILENAME +// RTLD_DI_PROFILEOUT +// RTLD_DI_SERINFO +// RTLD_DI_SERINFOSIZE +// RTLD_DI_TLS_DATA +// RTLD_DI_TLS_MODID +// RTLD_FIRST +// RTLD_GROUP +// RTLD_NEXT +// RTLD_PARENT +// RTLD_PROBE +// RTLD_SELF +// RTLD_WORLD +// RTLD_NODELETE +// RTLD_NOLOAD +// RTLD_DEEPBIND diff --git a/vendor/libloading/src/os/unix/mod.rs b/vendor/libloading/src/os/unix/mod.rs new file mode 100644 index 000000000..fd0777eab --- /dev/null +++ b/vendor/libloading/src/os/unix/mod.rs @@ -0,0 +1,446 @@ +// A hack for docs.rs to build documentation that has both windows and linux documentation in the +// same rustdoc build visible. +#[cfg(all(libloading_docs, not(unix)))] +mod unix_imports {} +#[cfg(any(not(libloading_docs), unix))] +mod unix_imports { + pub(super) use std::os::unix::ffi::OsStrExt; +} + +pub use self::consts::*; +use self::unix_imports::*; +use std::ffi::{CStr, OsStr}; +use std::os::raw; +use std::{fmt, marker, mem, ptr}; +use util::{cstr_cow_from_bytes, ensure_compatible_types}; + +mod consts; + +// dl* family of functions did not have enough thought put into it. +// +// Whole error handling scheme is done via setting and querying some global state, therefore it is +// not safe to use dynamic library loading in MT-capable environment at all. Only in POSIX 2008+TC1 +// a thread-local state was allowed for `dlerror`, making the dl* family of functions MT-safe. +// +// In practice (as of 2020-04-01) most of the widely used targets use a thread-local for error +// state and have been doing so for a long time. Regardless the comments in this function shall +// remain as a documentation for the future generations. +fn with_dlerror(wrap: fn(crate::error::DlDescription) -> crate::Error, closure: F) +-> Result> +where F: FnOnce() -> Option { + // We used to guard all uses of dl* functions with our own mutex. This made them safe to use in + // MT programs provided the only way a program used dl* was via this library. However, it also + // had a number of downsides or cases where it failed to handle the problems. For instance, + // if any other library called `dlerror` internally concurrently with `libloading` things would + // still go awry. + // + // On platforms where `dlerror` is still MT-unsafe, `dlsym` (`Library::get`) can spuriously + // succeed and return a null pointer for a symbol when the actual symbol look-up operation + // fails. Instances where the actual symbol _could_ be `NULL` are platform specific. For + // instance on GNU glibc based-systems (an excerpt from dlsym(3)): + // + // > The value of a symbol returned by dlsym() will never be NULL if the shared object is the + // > result of normal compilation, since a global symbol is never placed at the NULL + // > address. There are nevertheless cases where a lookup using dlsym() may return NULL as the + // > value of a symbol. For example, the symbol value may be the result of a GNU indirect + // > function (IFUNC) resolver function that returns NULL as the resolved value. + + // While we could could call `dlerror` here to clear the previous error value, only the `dlsym` + // call depends on it being cleared beforehand and only in some cases too. We will instead + // clear the error inside the dlsym binding instead. + // + // In all the other cases, clearing the error here will only be hiding misuse of these bindings + // or a bug in implementation of dl* family of functions. + closure().ok_or_else(|| unsafe { + // This code will only get executed if the `closure` returns `None`. + let error = dlerror(); + if error.is_null() { + // In non-dlsym case this may happen when there’re bugs in our bindings or there’s + // non-libloading user of libdl; possibly in another thread. + None + } else { + // You can’t even rely on error string being static here; call to subsequent dlerror + // may invalidate or overwrite the error message. Why couldn’t they simply give up the + // ownership over the message? + // TODO: should do locale-aware conversion here. OTOH Rust doesn’t seem to work well in + // any system that uses non-utf8 locale, so I doubt there’s a problem here. + let message = CStr::from_ptr(error).into(); + Some(wrap(crate::error::DlDescription(message))) + // Since we do a copy of the error string above, maybe we should call dlerror again to + // let libdl know it may free its copy of the string now? + } + }) +} + +/// A platform-specific counterpart of the cross-platform [`Library`](crate::Library). +pub struct Library { + handle: *mut raw::c_void +} + +unsafe impl Send for Library {} + +// That being said... this section in the volume 2 of POSIX.1-2008 states: +// +// > All functions defined by this volume of POSIX.1-2008 shall be thread-safe, except that the +// > following functions need not be thread-safe. +// +// With notable absence of any dl* function other than dlerror in the list. By “this volume” +// I suppose they refer precisely to the “volume 2”. dl* family of functions are specified +// by this same volume, so the conclusion is indeed that dl* functions are required by POSIX +// to be thread-safe. Great! +// +// See for more details: +// +// * https://github.com/nagisa/rust_libloading/pull/17 +// * http://pubs.opengroup.org/onlinepubs/9699919799/functions/V2_chap02.html#tag_15_09_01 +unsafe impl Sync for Library {} + +impl Library { + /// Find and eagerly load a shared library (module). + /// + /// If the `filename` contains a [path separator], the `filename` is interpreted as a `path` to + /// a file. Otherwise, platform-specific algorithms are employed to find a library with a + /// matching file name. + /// + /// This is equivalent to [Library::open](filename, [RTLD_LAZY] | [RTLD_LOCAL]). + /// + /// [path separator]: std::path::MAIN_SEPARATOR + /// + /// # Safety + /// + /// When a library is loaded, initialisation routines contained within the library are executed. + /// For the purposes of safety, the execution of these routines is conceptually the same calling an + /// unknown foreign function and may impose arbitrary requirements on the caller for the call + /// to be sound. + /// + /// Additionally, the callers of this function must also ensure that execution of the + /// termination routines contained within the library is safe as well. These routines may be + /// executed when the library is unloaded. + #[inline] + pub unsafe fn new>(filename: P) -> Result { + Library::open(Some(filename), RTLD_LAZY | RTLD_LOCAL) + } + + /// Load the `Library` representing the current executable. + /// + /// [`Library::get`] calls of the returned `Library` will look for symbols in following + /// locations in order: + /// + /// 1. The original program image; + /// 2. Any executable object files (e.g. shared libraries) loaded at program startup; + /// 3. Any executable object files loaded at runtime (e.g. via other `Library::new` calls or via + /// calls to the `dlopen` function). + /// + /// Note that the behaviour of a `Library` loaded with this method is different from that of + /// Libraries loaded with [`os::windows::Library::this`]. + /// + /// This is equivalent to [Library::open](None, [RTLD_LAZY] | [RTLD_LOCAL]). + /// + /// [`os::windows::Library::this`]: crate::os::windows::Library::this + #[inline] + pub fn this() -> Library { + unsafe { + // SAFE: this does not load any new shared library images, no danger in it executing + // initialiser routines. + Library::open(None::<&OsStr>, RTLD_LAZY | RTLD_LOCAL).expect("this should never fail") + } + } + + /// Find and load an executable object file (shared library). + /// + /// See documentation for [`Library::this`] for further description of the behaviour + /// when the `filename` is `None`. Otherwise see [`Library::new`]. + /// + /// Corresponds to `dlopen(filename, flags)`. + /// + /// # Safety + /// + /// When a library is loaded, initialisation routines contained within the library are executed. + /// For the purposes of safety, the execution of these routines is conceptually the same calling an + /// unknown foreign function and may impose arbitrary requirements on the caller for the call + /// to be sound. + /// + /// Additionally, the callers of this function must also ensure that execution of the + /// termination routines contained within the library is safe as well. These routines may be + /// executed when the library is unloaded. + pub unsafe fn open

(filename: Option

, flags: raw::c_int) -> Result + where P: AsRef { + let filename = match filename { + None => None, + Some(ref f) => Some(cstr_cow_from_bytes(f.as_ref().as_bytes())?), + }; + with_dlerror(|desc| crate::Error::DlOpen { desc }, move || { + let result = dlopen(match filename { + None => ptr::null(), + Some(ref f) => f.as_ptr() + }, flags); + // ensure filename lives until dlopen completes + drop(filename); + if result.is_null() { + None + } else { + Some(Library { + handle: result + }) + } + }).map_err(|e| e.unwrap_or(crate::Error::DlOpenUnknown)) + } + + unsafe fn get_impl(&self, symbol: &[u8], on_null: F) -> Result, crate::Error> + where F: FnOnce() -> Result, crate::Error> + { + ensure_compatible_types::()?; + let symbol = cstr_cow_from_bytes(symbol)?; + // `dlsym` may return nullptr in two cases: when a symbol genuinely points to a null + // pointer or the symbol cannot be found. In order to detect this case a double dlerror + // pattern must be used, which is, sadly, a little bit racy. + // + // We try to leave as little space as possible for this to occur, but we can’t exactly + // fully prevent it. + match with_dlerror(|desc| crate::Error::DlSym { desc }, || { + dlerror(); + let symbol = dlsym(self.handle, symbol.as_ptr()); + if symbol.is_null() { + None + } else { + Some(Symbol { + pointer: symbol, + pd: marker::PhantomData + }) + } + }) { + Err(None) => on_null(), + Err(Some(e)) => Err(e), + Ok(x) => Ok(x) + } + + } + + /// Get a pointer to a function or static variable by symbol name. + /// + /// The `symbol` may not contain any null bytes, with the exception of the last byte. Providing a + /// null terminated `symbol` may help to avoid an allocation. + /// + /// Symbol is interpreted as-is; no mangling is done. This means that symbols like `x::y` are + /// most likely invalid. + /// + /// # Safety + /// + /// Users of this API must specify the correct type of the function or variable loaded. Using a + /// `Symbol` with a wrong type is undefined. + /// + /// # Platform-specific behaviour + /// + /// Implementation of thread local variables is extremely platform specific and uses of such + /// variables that work on e.g. Linux may have unintended behaviour on other targets. + /// + /// On POSIX implementations where the `dlerror` function is not confirmed to be MT-safe (such + /// as FreeBSD), this function will unconditionally return an error when the underlying `dlsym` + /// call returns a null pointer. There are rare situations where `dlsym` returns a genuine null + /// pointer without it being an error. If loading a null pointer is something you care about, + /// consider using the [`Library::get_singlethreaded`] call. + #[inline(always)] + pub unsafe fn get(&self, symbol: &[u8]) -> Result, crate::Error> { + extern crate cfg_if; + cfg_if::cfg_if! { + // These targets are known to have MT-safe `dlerror`. + if #[cfg(any( + target_os = "linux", + target_os = "android", + target_os = "openbsd", + target_os = "macos", + target_os = "ios", + target_os = "solaris", + target_os = "illumos", + target_os = "redox", + target_os = "fuchsia" + ))] { + self.get_singlethreaded(symbol) + } else { + self.get_impl(symbol, || Err(crate::Error::DlSymUnknown)) + } + } + } + + /// Get a pointer to function or static variable by symbol name. + /// + /// The `symbol` may not contain any null bytes, with the exception of the last byte. Providing a + /// null terminated `symbol` may help to avoid an allocation. + /// + /// Symbol is interpreted as-is; no mangling is done. This means that symbols like `x::y` are + /// most likely invalid. + /// + /// # Safety + /// + /// Users of this API must specify the correct type of the function or variable loaded. + /// + /// It is up to the user of this library to ensure that no other calls to an MT-unsafe + /// implementation of `dlerror` occur during the execution of this function. Failing that, the + /// behaviour of this function is not defined. + /// + /// # Platform-specific behaviour + /// + /// The implementation of thread-local variables is extremely platform specific and uses of such + /// variables that work on e.g. Linux may have unintended behaviour on other targets. + #[inline(always)] + pub unsafe fn get_singlethreaded(&self, symbol: &[u8]) -> Result, crate::Error> { + self.get_impl(symbol, || Ok(Symbol { + pointer: ptr::null_mut(), + pd: marker::PhantomData + })) + } + + /// Convert the `Library` to a raw handle. + /// + /// The handle returned by this function shall be usable with APIs which accept handles + /// as returned by `dlopen`. + pub fn into_raw(self) -> *mut raw::c_void { + let handle = self.handle; + mem::forget(self); + handle + } + + /// Convert a raw handle returned by `dlopen`-family of calls to a `Library`. + /// + /// # Safety + /// + /// The pointer shall be a result of a successful call of the `dlopen`-family of functions or a + /// pointer previously returned by `Library::into_raw` call. It must be valid to call `dlclose` + /// with this pointer as an argument. + pub unsafe fn from_raw(handle: *mut raw::c_void) -> Library { + Library { + handle + } + } + + /// Unload the library. + /// + /// This method might be a no-op, depending on the flags with which the `Library` was opened, + /// what library was opened or other platform specifics. + /// + /// You only need to call this if you are interested in handling any errors that may arise when + /// library is unloaded. Otherwise the implementation of `Drop` for `Library` will close the + /// library and ignore the errors were they arise. + /// + /// The underlying data structures may still get leaked if an error does occur. + pub fn close(self) -> Result<(), crate::Error> { + let result = with_dlerror(|desc| crate::Error::DlClose { desc }, || { + if unsafe { dlclose(self.handle) } == 0 { + Some(()) + } else { + None + } + }).map_err(|e| e.unwrap_or(crate::Error::DlCloseUnknown)); + // While the library is not free'd yet in case of an error, there is no reason to try + // dropping it again, because all that will do is try calling `dlclose` again. only + // this time it would ignore the return result, which we already seen failing… + std::mem::forget(self); + result + } +} + +impl Drop for Library { + fn drop(&mut self) { + unsafe { + dlclose(self.handle); + } + } +} + +impl fmt::Debug for Library { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + f.write_str(&format!("Library@{:p}", self.handle)) + } +} + +/// Symbol from a library. +/// +/// A major difference compared to the cross-platform `Symbol` is that this does not ensure that the +/// `Symbol` does not outlive the `Library` it comes from. +pub struct Symbol { + pointer: *mut raw::c_void, + pd: marker::PhantomData +} + +impl Symbol { + /// Convert the loaded `Symbol` into a raw pointer. + pub fn into_raw(self) -> *mut raw::c_void { + let pointer = self.pointer; + mem::forget(self); + pointer + } +} + +impl Symbol> { + /// Lift Option out of the symbol. + pub fn lift_option(self) -> Option> { + if self.pointer.is_null() { + None + } else { + Some(Symbol { + pointer: self.pointer, + pd: marker::PhantomData, + }) + } + } +} + +unsafe impl Send for Symbol {} +unsafe impl Sync for Symbol {} + +impl Clone for Symbol { + fn clone(&self) -> Symbol { + Symbol { ..*self } + } +} + +impl ::std::ops::Deref for Symbol { + type Target = T; + fn deref(&self) -> &T { + unsafe { + // Additional reference level for a dereference on `deref` return value. + &*(&self.pointer as *const *mut _ as *const T) + } + } +} + +impl fmt::Debug for Symbol { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + unsafe { + let mut info = mem::MaybeUninit::::uninit(); + if dladdr(self.pointer, info.as_mut_ptr()) != 0 { + let info = info.assume_init(); + if info.dli_sname.is_null() { + f.write_str(&format!("Symbol@{:p} from {:?}", + self.pointer, + CStr::from_ptr(info.dli_fname))) + } else { + f.write_str(&format!("Symbol {:?}@{:p} from {:?}", + CStr::from_ptr(info.dli_sname), self.pointer, + CStr::from_ptr(info.dli_fname))) + } + } else { + f.write_str(&format!("Symbol@{:p}", self.pointer)) + } + } + } +} + +// Platform specific things +#[cfg_attr(any(target_os = "linux", target_os = "android"), link(name="dl"))] +#[cfg_attr(any(target_os = "freebsd", target_os = "dragonfly"), link(name="c"))] +extern { + fn dlopen(filename: *const raw::c_char, flags: raw::c_int) -> *mut raw::c_void; + fn dlclose(handle: *mut raw::c_void) -> raw::c_int; + fn dlsym(handle: *mut raw::c_void, symbol: *const raw::c_char) -> *mut raw::c_void; + fn dlerror() -> *mut raw::c_char; + fn dladdr(addr: *mut raw::c_void, info: *mut DlInfo) -> raw::c_int; +} + +#[repr(C)] +struct DlInfo { + dli_fname: *const raw::c_char, + dli_fbase: *mut raw::c_void, + dli_sname: *const raw::c_char, + dli_saddr: *mut raw::c_void +} diff --git a/vendor/libloading/src/os/windows/mod.rs b/vendor/libloading/src/os/windows/mod.rs new file mode 100644 index 000000000..eadeb6980 --- /dev/null +++ b/vendor/libloading/src/os/windows/mod.rs @@ -0,0 +1,534 @@ +// A hack for docs.rs to build documentation that has both windows and linux documentation in the +// same rustdoc build visible. +#[cfg(all(libloading_docs, not(windows)))] +mod windows_imports { + pub(super) enum WORD {} + pub(super) struct DWORD; + pub(super) enum HMODULE {} + pub(super) enum FARPROC {} + + pub(super) mod consts { + use super::DWORD; + pub(crate) const LOAD_IGNORE_CODE_AUTHZ_LEVEL: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_AS_DATAFILE: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_AS_DATAFILE_EXCLUSIVE: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_AS_IMAGE_RESOURCE: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_SEARCH_APPLICATION_DIR: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_SEARCH_DEFAULT_DIRS: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_SEARCH_DLL_LOAD_DIR: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_SEARCH_SYSTEM32: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_SEARCH_USER_DIRS: DWORD = DWORD; + pub(crate) const LOAD_WITH_ALTERED_SEARCH_PATH: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_REQUIRE_SIGNED_TARGET: DWORD = DWORD; + pub(crate) const LOAD_LIBRARY_SAFE_CURRENT_DIRS: DWORD = DWORD; + } +} +#[cfg(any(not(libloading_docs), windows))] +mod windows_imports { + extern crate winapi; + pub(super) use self::winapi::shared::minwindef::{WORD, DWORD, HMODULE, FARPROC}; + pub(super) use self::winapi::shared::ntdef::WCHAR; + pub(super) use self::winapi::um::{errhandlingapi, libloaderapi}; + pub(super) use std::os::windows::ffi::{OsStrExt, OsStringExt}; + pub(super) const SEM_FAILCE: DWORD = 1; + + pub(super) mod consts { + pub(crate) use super::winapi::um::libloaderapi::{ + LOAD_IGNORE_CODE_AUTHZ_LEVEL, + LOAD_LIBRARY_AS_DATAFILE, + LOAD_LIBRARY_AS_DATAFILE_EXCLUSIVE, + LOAD_LIBRARY_AS_IMAGE_RESOURCE, + LOAD_LIBRARY_SEARCH_APPLICATION_DIR, + LOAD_LIBRARY_SEARCH_DEFAULT_DIRS, + LOAD_LIBRARY_SEARCH_DLL_LOAD_DIR, + LOAD_LIBRARY_SEARCH_SYSTEM32, + LOAD_LIBRARY_SEARCH_USER_DIRS, + LOAD_WITH_ALTERED_SEARCH_PATH, + LOAD_LIBRARY_REQUIRE_SIGNED_TARGET, + LOAD_LIBRARY_SAFE_CURRENT_DIRS, + }; + } +} + +use self::windows_imports::*; +use util::{ensure_compatible_types, cstr_cow_from_bytes}; +use std::ffi::{OsStr, OsString}; +use std::{fmt, io, marker, mem, ptr}; + +/// The platform-specific counterpart of the cross-platform [`Library`](crate::Library). +pub struct Library(HMODULE); + +unsafe impl Send for Library {} +// Now, this is sort-of-tricky. MSDN documentation does not really make any claims as to safety of +// the Win32 APIs. Sadly, whomever I asked, even current and former Microsoft employees, couldn’t +// say for sure whether the Win32 APIs used to implement `Library` are thread-safe or not. +// +// My investigation ended up with a question about thread-safety properties of the API involved +// being sent to an internal (to MS) general question mailing-list. The conclusion of the mail is +// as such: +// +// * Nobody inside MS (at least out of all of the people who have seen the question) knows for +// sure either; +// * However, the general consensus between MS developers is that one can rely on the API being +// thread-safe. In case it is not thread-safe it should be considered a bug on the Windows +// part. (NB: bugs filed at https://connect.microsoft.com/ against Windows Server) +unsafe impl Sync for Library {} + +impl Library { + /// Find and load a module. + /// + /// If the `filename` specifies a full path, the function only searches that path for the + /// module. Otherwise, if the `filename` specifies a relative path or a module name without a + /// path, the function uses a Windows-specific search strategy to find the module. For more + /// information, see the [Remarks on MSDN][msdn]. + /// + /// If the `filename` specifies a library filename without a path and with the extension omitted, + /// the `.dll` extension is implicitly added. This behaviour may be suppressed by appending a + /// trailing `.` to the `filename`. + /// + /// This is equivalent to [Library::load_with_flags](filename, 0). + /// + /// [msdn]: https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryw#remarks + /// + /// # Safety + /// + /// When a library is loaded, initialisation routines contained within the library are executed. + /// For the purposes of safety, the execution of these routines is conceptually the same calling an + /// unknown foreign function and may impose arbitrary requirements on the caller for the call + /// to be sound. + /// + /// Additionally, the callers of this function must also ensure that execution of the + /// termination routines contained within the library is safe as well. These routines may be + /// executed when the library is unloaded. + #[inline] + pub unsafe fn new>(filename: P) -> Result { + Library::load_with_flags(filename, 0) + } + + /// Get the `Library` representing the original program executable. + /// + /// Note that the behaviour of the `Library` loaded with this method is different from + /// Libraries loaded with [`os::unix::Library::this`]. For more information refer to [MSDN]. + /// + /// Corresponds to `GetModuleHandleExW(0, NULL, _)`. + /// + /// [`os::unix::Library::this`]: crate::os::unix::Library::this + /// [MSDN]: https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-getmodulehandleexw + pub fn this() -> Result { + unsafe { + let mut handle: HMODULE = std::ptr::null_mut(); + with_get_last_error(|source| crate::Error::GetModuleHandleExW { source }, || { + let result = libloaderapi::GetModuleHandleExW(0, std::ptr::null_mut(), &mut handle); + if result == 0 { + None + } else { + Some(Library(handle)) + } + }).map_err(|e| e.unwrap_or(crate::Error::GetModuleHandleExWUnknown)) + } + } + + /// Get a module that is already loaded by the program. + /// + /// This function returns a `Library` corresponding to a module with the given name that is + /// already mapped into the address space of the process. If the module isn't found, an error is + /// returned. + /// + /// If the `filename` does not include a full path and there are multiple different loaded + /// modules corresponding to the `filename`, it is impossible to predict which module handle + /// will be returned. For more information refer to [MSDN]. + /// + /// If the `filename` specifies a library filename without a path and with the extension omitted, + /// the `.dll` extension is implicitly added. This behaviour may be suppressed by appending a + /// trailing `.` to the `filename`. + /// + /// This is equivalent to `GetModuleHandleExW(0, filename, _)`. + /// + /// [MSDN]: https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-getmodulehandleexw + pub fn open_already_loaded>(filename: P) -> Result { + let wide_filename: Vec = filename.as_ref().encode_wide().chain(Some(0)).collect(); + + let ret = unsafe { + let mut handle: HMODULE = std::ptr::null_mut(); + with_get_last_error(|source| crate::Error::GetModuleHandleExW { source }, || { + // Make sure no winapi calls as a result of drop happen inside this closure, because + // otherwise that might change the return value of the GetLastError. + let result = libloaderapi::GetModuleHandleExW(0, wide_filename.as_ptr(), &mut handle); + if result == 0 { + None + } else { + Some(Library(handle)) + } + }).map_err(|e| e.unwrap_or(crate::Error::GetModuleHandleExWUnknown)) + }; + + drop(wide_filename); // Drop wide_filename here to ensure it doesn’t get moved and dropped + // inside the closure by mistake. See comment inside the closure. + ret + } + + /// Find and load a module, additionally adjusting behaviour with flags. + /// + /// See [`Library::new`] for documentation on the handling of the `filename` argument. See the + /// [flag table on MSDN][flags] for information on applicable values for the `flags` argument. + /// + /// Corresponds to `LoadLibraryExW(filename, reserved: NULL, flags)`. + /// + /// [flags]: https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters + /// + /// # Safety + /// + /// When a library is loaded, initialisation routines contained within the library are executed. + /// For the purposes of safety, the execution of these routines is conceptually the same calling an + /// unknown foreign function and may impose arbitrary requirements on the caller for the call + /// to be sound. + /// + /// Additionally, the callers of this function must also ensure that execution of the + /// termination routines contained within the library is safe as well. These routines may be + /// executed when the library is unloaded. + pub unsafe fn load_with_flags>(filename: P, flags: DWORD) -> Result { + let wide_filename: Vec = filename.as_ref().encode_wide().chain(Some(0)).collect(); + let _guard = ErrorModeGuard::new(); + + let ret = with_get_last_error(|source| crate::Error::LoadLibraryExW { source }, || { + // Make sure no winapi calls as a result of drop happen inside this closure, because + // otherwise that might change the return value of the GetLastError. + let handle = + libloaderapi::LoadLibraryExW(wide_filename.as_ptr(), std::ptr::null_mut(), flags); + if handle.is_null() { + None + } else { + Some(Library(handle)) + } + }).map_err(|e| e.unwrap_or(crate::Error::LoadLibraryExWUnknown)); + drop(wide_filename); // Drop wide_filename here to ensure it doesn’t get moved and dropped + // inside the closure by mistake. See comment inside the closure. + ret + } + + /// Get a pointer to a function or static variable by symbol name. + /// + /// The `symbol` may not contain any null bytes, with the exception of the last byte. A null + /// terminated `symbol` may avoid a string allocation in some cases. + /// + /// Symbol is interpreted as-is; no mangling is done. This means that symbols like `x::y` are + /// most likely invalid. + /// + /// # Safety + /// + /// Users of this API must specify the correct type of the function or variable loaded. + pub unsafe fn get(&self, symbol: &[u8]) -> Result, crate::Error> { + ensure_compatible_types::()?; + let symbol = cstr_cow_from_bytes(symbol)?; + with_get_last_error(|source| crate::Error::GetProcAddress { source }, || { + let symbol = libloaderapi::GetProcAddress(self.0, symbol.as_ptr()); + if symbol.is_null() { + None + } else { + Some(Symbol { + pointer: symbol, + pd: marker::PhantomData + }) + } + }).map_err(|e| e.unwrap_or(crate::Error::GetProcAddressUnknown)) + } + + /// Get a pointer to a function or static variable by ordinal number. + /// + /// # Safety + /// + /// Users of this API must specify the correct type of the function or variable loaded. + pub unsafe fn get_ordinal(&self, ordinal: WORD) -> Result, crate::Error> { + ensure_compatible_types::()?; + with_get_last_error(|source| crate::Error::GetProcAddress { source }, || { + let ordinal = ordinal as usize as *mut _; + let symbol = libloaderapi::GetProcAddress(self.0, ordinal); + if symbol.is_null() { + None + } else { + Some(Symbol { + pointer: symbol, + pd: marker::PhantomData + }) + } + }).map_err(|e| e.unwrap_or(crate::Error::GetProcAddressUnknown)) + } + + /// Convert the `Library` to a raw handle. + pub fn into_raw(self) -> HMODULE { + let handle = self.0; + mem::forget(self); + handle + } + + /// Convert a raw handle to a `Library`. + /// + /// # Safety + /// + /// The handle must be the result of a successful call of `LoadLibraryA`, `LoadLibraryW`, + /// `LoadLibraryExW`, or `LoadLibraryExA`, or a handle previously returned by the + /// `Library::into_raw` call. + pub unsafe fn from_raw(handle: HMODULE) -> Library { + Library(handle) + } + + /// Unload the library. + /// + /// You only need to call this if you are interested in handling any errors that may arise when + /// library is unloaded. Otherwise this will be done when `Library` is dropped. + /// + /// The underlying data structures may still get leaked if an error does occur. + pub fn close(self) -> Result<(), crate::Error> { + let result = with_get_last_error(|source| crate::Error::FreeLibrary { source }, || { + if unsafe { libloaderapi::FreeLibrary(self.0) == 0 } { + None + } else { + Some(()) + } + }).map_err(|e| e.unwrap_or(crate::Error::FreeLibraryUnknown)); + // While the library is not free'd yet in case of an error, there is no reason to try + // dropping it again, because all that will do is try calling `FreeLibrary` again. only + // this time it would ignore the return result, which we already seen failing... + std::mem::forget(self); + result + } +} + +impl Drop for Library { + fn drop(&mut self) { + unsafe { libloaderapi::FreeLibrary(self.0); } + } +} + +impl fmt::Debug for Library { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + unsafe { + // FIXME: use Maybeuninit::uninit_array when stable + let mut buf = + mem::MaybeUninit::<[mem::MaybeUninit::; 1024]>::uninit().assume_init(); + let len = libloaderapi::GetModuleFileNameW(self.0, + (&mut buf[..]).as_mut_ptr().cast(), 1024) as usize; + if len == 0 { + f.write_str(&format!("Library@{:p}", self.0)) + } else { + let string: OsString = OsString::from_wide( + // FIXME: use Maybeuninit::slice_get_ref when stable + &*(&buf[..len] as *const [_] as *const [WCHAR]) + ); + f.write_str(&format!("Library@{:p} from {:?}", self.0, string)) + } + } + } +} + +/// A symbol from a library. +/// +/// A major difference compared to the cross-platform `Symbol` is that this does not ensure that the +/// `Symbol` does not outlive the `Library` that it comes from. +pub struct Symbol { + pointer: FARPROC, + pd: marker::PhantomData +} + +impl Symbol { + /// Convert the loaded `Symbol` into a handle. + pub fn into_raw(self) -> FARPROC { + let pointer = self.pointer; + mem::forget(self); + pointer + } +} + +impl Symbol> { + /// Lift Option out of the symbol. + pub fn lift_option(self) -> Option> { + if self.pointer.is_null() { + None + } else { + Some(Symbol { + pointer: self.pointer, + pd: marker::PhantomData, + }) + } + } +} + +unsafe impl Send for Symbol {} +unsafe impl Sync for Symbol {} + +impl Clone for Symbol { + fn clone(&self) -> Symbol { + Symbol { ..*self } + } +} + +impl ::std::ops::Deref for Symbol { + type Target = T; + fn deref(&self) -> &T { + unsafe { + // Additional reference level for a dereference on `deref` return value. + &*(&self.pointer as *const *mut _ as *const T) + } + } +} + +impl fmt::Debug for Symbol { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + f.write_str(&format!("Symbol@{:p}", self.pointer)) + } +} + +struct ErrorModeGuard(DWORD); + +impl ErrorModeGuard { + #[allow(clippy::if_same_then_else)] + fn new() -> Option { + unsafe { + let mut previous_mode = 0; + if errhandlingapi::SetThreadErrorMode(SEM_FAILCE, &mut previous_mode) == 0 { + // How in the world is it possible for what is essentially a simple variable swap + // to fail? For now we just ignore the error -- the worst that can happen here is + // the previous mode staying on and user seeing a dialog error on older Windows + // machines. + None + } else if previous_mode == SEM_FAILCE { + None + } else { + Some(ErrorModeGuard(previous_mode)) + } + } + } +} + +impl Drop for ErrorModeGuard { + fn drop(&mut self) { + unsafe { + errhandlingapi::SetThreadErrorMode(self.0, ptr::null_mut()); + } + } +} + +fn with_get_last_error(wrap: fn(crate::error::WindowsError) -> crate::Error, closure: F) +-> Result> +where F: FnOnce() -> Option { + closure().ok_or_else(|| { + let error = unsafe { errhandlingapi::GetLastError() }; + if error == 0 { + None + } else { + Some(wrap(crate::error::WindowsError(io::Error::from_raw_os_error(error as i32)))) + } + }) +} + +/// Do not check AppLocker rules or apply Software Restriction Policies for the DLL. +/// +/// This action applies only to the DLL being loaded and not to its dependencies. This value is +/// recommended for use in setup programs that must run extracted DLLs during installation. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_IGNORE_CODE_AUTHZ_LEVEL: DWORD = consts::LOAD_IGNORE_CODE_AUTHZ_LEVEL; + +/// Map the file into the calling process’ virtual address space as if it were a data file. +/// +/// Nothing is done to execute or prepare to execute the mapped file. Therefore, you cannot call +/// functions like [`Library::get`] with this DLL. Using this value causes writes to read-only +/// memory to raise an access violation. Use this flag when you want to load a DLL only to extract +/// messages or resources from it. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_AS_DATAFILE: DWORD = consts::LOAD_LIBRARY_AS_DATAFILE; + +/// Map the file into the calling process’ virtual address space as if it were a data file. +/// +/// Similar to [`LOAD_LIBRARY_AS_DATAFILE`], except that the DLL file is opened with exclusive +/// write access for the calling process. Other processes cannot open the DLL file for write access +/// while it is in use. However, the DLL can still be opened by other processes. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_AS_DATAFILE_EXCLUSIVE: DWORD = consts::LOAD_LIBRARY_AS_DATAFILE_EXCLUSIVE; + +/// Map the file into the process’ virtual address space as an image file. +/// +/// The loader does not load the static imports or perform the other usual initialisation steps. +/// Use this flag when you want to load a DLL only to extract messages or resources from it. +/// +/// Unless the application depends on the file having the in-memory layout of an image, this value +/// should be used with either [`LOAD_LIBRARY_AS_DATAFILE_EXCLUSIVE`] or +/// [`LOAD_LIBRARY_AS_DATAFILE`]. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_AS_IMAGE_RESOURCE: DWORD = consts::LOAD_LIBRARY_AS_IMAGE_RESOURCE; + +/// Search the application's installation directory for the DLL and its dependencies. +/// +/// Directories in the standard search path are not searched. This value cannot be combined with +/// [`LOAD_WITH_ALTERED_SEARCH_PATH`]. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_SEARCH_APPLICATION_DIR: DWORD = consts::LOAD_LIBRARY_SEARCH_APPLICATION_DIR; + +/// Search default directories when looking for the DLL and its dependencies. +/// +/// This value is a combination of [`LOAD_LIBRARY_SEARCH_APPLICATION_DIR`], +/// [`LOAD_LIBRARY_SEARCH_SYSTEM32`], and [`LOAD_LIBRARY_SEARCH_USER_DIRS`]. Directories in the +/// standard search path are not searched. This value cannot be combined with +/// [`LOAD_WITH_ALTERED_SEARCH_PATH`]. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_SEARCH_DEFAULT_DIRS: DWORD = consts::LOAD_LIBRARY_SEARCH_DEFAULT_DIRS; + +/// Directory that contains the DLL is temporarily added to the beginning of the list of +/// directories that are searched for the DLL’s dependencies. +/// +/// Directories in the standard search path are not searched. +/// +/// The `filename` parameter must specify a fully qualified path. This value cannot be combined +/// with [`LOAD_WITH_ALTERED_SEARCH_PATH`]. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_SEARCH_DLL_LOAD_DIR: DWORD = consts::LOAD_LIBRARY_SEARCH_DLL_LOAD_DIR; + +/// Search `%windows%\system32` for the DLL and its dependencies. +/// +/// Directories in the standard search path are not searched. This value cannot be combined with +/// [`LOAD_WITH_ALTERED_SEARCH_PATH`]. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_SEARCH_SYSTEM32: DWORD = consts::LOAD_LIBRARY_SEARCH_SYSTEM32; + +/// Directories added using the `AddDllDirectory` or the `SetDllDirectory` function are searched +/// for the DLL and its dependencies. +/// +/// If more than one directory has been added, the order in which the directories are searched is +/// unspecified. Directories in the standard search path are not searched. This value cannot be +/// combined with [`LOAD_WITH_ALTERED_SEARCH_PATH`]. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_SEARCH_USER_DIRS: DWORD = consts::LOAD_LIBRARY_SEARCH_USER_DIRS; + +/// If `filename` specifies an absolute path, the system uses the alternate file search strategy +/// discussed in the [Remarks section] to find associated executable modules that the specified +/// module causes to be loaded. +/// +/// If this value is used and `filename` specifies a relative path, the behaviour is undefined. +/// +/// If this value is not used, or if `filename` does not specify a path, the system uses the +/// standard search strategy discussed in the [Remarks section] to find associated executable +/// modules that the specified module causes to be loaded. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +/// +/// [Remarks]: https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#remarks +pub const LOAD_WITH_ALTERED_SEARCH_PATH: DWORD = consts::LOAD_WITH_ALTERED_SEARCH_PATH; + +/// Specifies that the digital signature of the binary image must be checked at load time. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_REQUIRE_SIGNED_TARGET: DWORD = consts::LOAD_LIBRARY_REQUIRE_SIGNED_TARGET; + +/// Allow loading a DLL for execution from the current directory only if it is under a directory in +/// the Safe load list. +/// +/// See [flag documentation on MSDN](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexw#parameters). +pub const LOAD_LIBRARY_SAFE_CURRENT_DIRS: DWORD = consts::LOAD_LIBRARY_SAFE_CURRENT_DIRS; diff --git a/vendor/libloading/src/safe.rs b/vendor/libloading/src/safe.rs new file mode 100644 index 000000000..49be0cfc9 --- /dev/null +++ b/vendor/libloading/src/safe.rs @@ -0,0 +1,299 @@ +use super::Error; +#[cfg(libloading_docs)] +use super::os::unix as imp; // the implementation used here doesn't matter particularly much... +#[cfg(all(not(libloading_docs), unix))] +use super::os::unix as imp; +#[cfg(all(not(libloading_docs), windows))] +use super::os::windows as imp; +use std::ffi::OsStr; +use std::fmt; +use std::marker; +use std::ops; + +/// A loaded dynamic library. +#[cfg_attr(libloading_docs, doc(cfg(any(unix, windows))))] +pub struct Library(imp::Library); + +impl Library { + /// Find and load a dynamic library. + /// + /// The `filename` argument may be either: + /// + /// * A library filename; + /// * The absolute path to the library; + /// * A relative (to the current working directory) path to the library. + /// + /// # Safety + /// + /// When a library is loaded, initialisation routines contained within it are executed. + /// For the purposes of safety, the execution of these routines is conceptually the same calling an + /// unknown foreign function and may impose arbitrary requirements on the caller for the call + /// to be sound. + /// + /// Additionally, the callers of this function must also ensure that execution of the + /// termination routines contained within the library is safe as well. These routines may be + /// executed when the library is unloaded. + /// + /// # Thread-safety + /// + /// The implementation strives to be as MT-safe as sanely possible, however on certain + /// platforms the underlying error-handling related APIs not always MT-safe. This library + /// shares these limitations on those platforms. In particular, on certain UNIX targets + /// `dlerror` is not MT-safe, resulting in garbage error messages in certain MT-scenarios. + /// + /// Calling this function from multiple threads is not MT-safe if used in conjunction with + /// library filenames and the library search path is modified (`SetDllDirectory` function on + /// Windows, `{DY,}LD_LIBRARY_PATH` environment variable on UNIX). + /// + /// # Platform-specific behaviour + /// + /// When a plain library filename is supplied, the locations in which the library is searched are + /// platform specific and cannot be adjusted in a portable manner. See the documentation for + /// the platform specific [`os::unix::Library::new`] and [`os::windows::Library::new`] methods + /// for further information on library lookup behaviour. + /// + /// If the `filename` specifies a library filename without a path and with the extension omitted, + /// the `.dll` extension is implicitly added on Windows. + /// + /// [`os::unix::Library::new`]: crate::os::unix::Library::new + /// [`os::windows::Library::new`]: crate::os::windows::Library::new + /// + /// # Tips + /// + /// Distributing your dynamic libraries under a filename common to all platforms (e.g. + /// `awesome.module`) allows you to avoid code which has to account for platform’s conventional + /// library filenames. + /// + /// Strive to specify an absolute or at least a relative path to your library, unless + /// system-wide libraries are being loaded. Platform-dependent library search locations + /// combined with various quirks related to path-less filenames may cause flakiness in + /// programs. + /// + /// # Examples + /// + /// ```no_run + /// # use ::libloading::Library; + /// // Any of the following are valid. + /// unsafe { + /// let _ = Library::new("/path/to/awesome.module").unwrap(); + /// let _ = Library::new("../awesome.module").unwrap(); + /// let _ = Library::new("libsomelib.so.1").unwrap(); + /// } + /// ``` + pub unsafe fn new>(filename: P) -> Result { + imp::Library::new(filename).map(From::from) + } + + /// Get a pointer to a function or static variable by symbol name. + /// + /// The `symbol` may not contain any null bytes, with the exception of the last byte. Providing a + /// null-terminated `symbol` may help to avoid an allocation. + /// + /// The symbol is interpreted as-is; no mangling is done. This means that symbols like `x::y` are + /// most likely invalid. + /// + /// # Safety + /// + /// Users of this API must specify the correct type of the function or variable loaded. + /// + /// # Platform-specific behaviour + /// + /// The implementation of thread-local variables is extremely platform specific and uses of such + /// variables that work on e.g. Linux may have unintended behaviour on other targets. + /// + /// On POSIX implementations where the `dlerror` function is not confirmed to be MT-safe (such + /// as FreeBSD), this function will unconditionally return an error when the underlying `dlsym` + /// call returns a null pointer. There are rare situations where `dlsym` returns a genuine null + /// pointer without it being an error. If loading a null pointer is something you care about, + /// consider using the [`os::unix::Library::get_singlethreaded`] call. + /// + /// [`os::unix::Library::get_singlethreaded`]: crate::os::unix::Library::get_singlethreaded + /// + /// # Examples + /// + /// Given a loaded library: + /// + /// ```no_run + /// # use ::libloading::Library; + /// let lib = unsafe { + /// Library::new("/path/to/awesome.module").unwrap() + /// }; + /// ``` + /// + /// Loading and using a function looks like this: + /// + /// ```no_run + /// # use ::libloading::{Library, Symbol}; + /// # let lib = unsafe { + /// # Library::new("/path/to/awesome.module").unwrap() + /// # }; + /// unsafe { + /// let awesome_function: Symbol f64> = + /// lib.get(b"awesome_function\0").unwrap(); + /// awesome_function(0.42); + /// } + /// ``` + /// + /// A static variable may also be loaded and inspected: + /// + /// ```no_run + /// # use ::libloading::{Library, Symbol}; + /// # let lib = unsafe { Library::new("/path/to/awesome.module").unwrap() }; + /// unsafe { + /// let awesome_variable: Symbol<*mut f64> = lib.get(b"awesome_variable\0").unwrap(); + /// **awesome_variable = 42.0; + /// }; + /// ``` + pub unsafe fn get<'lib, T>(&'lib self, symbol: &[u8]) -> Result, Error> { + self.0.get(symbol).map(|from| Symbol::from_raw(from, self)) + } + + /// Unload the library. + /// + /// This method might be a no-op, depending on the flags with which the `Library` was opened, + /// what library was opened or other platform specifics. + /// + /// You only need to call this if you are interested in handling any errors that may arise when + /// library is unloaded. Otherwise the implementation of `Drop` for `Library` will close the + /// library and ignore the errors were they arise. + /// + /// The underlying data structures may still get leaked if an error does occur. + pub fn close(self) -> Result<(), Error> { + self.0.close() + } +} + +impl fmt::Debug for Library { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + self.0.fmt(f) + } +} + +impl From for Library { + fn from(lib: imp::Library) -> Library { + Library(lib) + } +} + +impl From for imp::Library { + fn from(lib: Library) -> imp::Library { + lib.0 + } +} + +unsafe impl Send for Library {} +unsafe impl Sync for Library {} + +/// Symbol from a library. +/// +/// This type is a safeguard against using dynamically loaded symbols after a `Library` is +/// unloaded. The primary method to create an instance of a `Symbol` is via [`Library::get`]. +/// +/// The `Deref` trait implementation allows the use of `Symbol` as if it was a function or variable +/// itself, without taking care to “extract” the function or variable manually most of the time. +/// +/// [`Library::get`]: Library::get +#[cfg_attr(libloading_docs, doc(cfg(any(unix, windows))))] +pub struct Symbol<'lib, T: 'lib> { + inner: imp::Symbol, + pd: marker::PhantomData<&'lib T>, +} + +impl<'lib, T> Symbol<'lib, T> { + /// Extract the wrapped `os::platform::Symbol`. + /// + /// # Safety + /// + /// Using this function relinquishes all the lifetime guarantees. It is up to the developer to + /// ensure the resulting `Symbol` is not used past the lifetime of the `Library` this symbol + /// was loaded from. + /// + /// # Examples + /// + /// ```no_run + /// # use ::libloading::{Library, Symbol}; + /// unsafe { + /// let lib = Library::new("/path/to/awesome.module").unwrap(); + /// let symbol: Symbol<*mut u32> = lib.get(b"symbol\0").unwrap(); + /// let symbol = symbol.into_raw(); + /// } + /// ``` + pub unsafe fn into_raw(self) -> imp::Symbol { + self.inner + } + + /// Wrap the `os::platform::Symbol` into this safe wrapper. + /// + /// Note that, in order to create association between the symbol and the library this symbol + /// came from, this function requires a reference to the library. + /// + /// # Safety + /// + /// The `library` reference must be exactly the library `sym` was loaded from. + /// + /// # Examples + /// + /// ```no_run + /// # use ::libloading::{Library, Symbol}; + /// unsafe { + /// let lib = Library::new("/path/to/awesome.module").unwrap(); + /// let symbol: Symbol<*mut u32> = lib.get(b"symbol\0").unwrap(); + /// let symbol = symbol.into_raw(); + /// let symbol = Symbol::from_raw(symbol, &lib); + /// } + /// ``` + pub unsafe fn from_raw(sym: imp::Symbol, library: &'lib L) -> Symbol<'lib, T> { + let _ = library; // ignore here for documentation purposes. + Symbol { + inner: sym, + pd: marker::PhantomData, + } + } +} + +impl<'lib, T> Symbol<'lib, Option> { + /// Lift Option out of the symbol. + /// + /// # Examples + /// + /// ```no_run + /// # use ::libloading::{Library, Symbol}; + /// unsafe { + /// let lib = Library::new("/path/to/awesome.module").unwrap(); + /// let symbol: Symbol> = lib.get(b"symbol\0").unwrap(); + /// let symbol: Symbol<*mut u32> = symbol.lift_option().expect("static is not null"); + /// } + /// ``` + pub fn lift_option(self) -> Option> { + self.inner.lift_option().map(|is| Symbol { + inner: is, + pd: marker::PhantomData, + }) + } +} + +impl<'lib, T> Clone for Symbol<'lib, T> { + fn clone(&self) -> Symbol<'lib, T> { + Symbol { + inner: self.inner.clone(), + pd: marker::PhantomData, + } + } +} + +// FIXME: implement FnOnce for callable stuff instead. +impl<'lib, T> ops::Deref for Symbol<'lib, T> { + type Target = T; + fn deref(&self) -> &T { + ops::Deref::deref(&self.inner) + } +} + +impl<'lib, T> fmt::Debug for Symbol<'lib, T> { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + self.inner.fmt(f) + } +} + +unsafe impl<'lib, T: Send> Send for Symbol<'lib, T> {} +unsafe impl<'lib, T: Sync> Sync for Symbol<'lib, T> {} diff --git a/vendor/libloading/src/test_helpers.rs b/vendor/libloading/src/test_helpers.rs new file mode 100644 index 000000000..9e3e9924f --- /dev/null +++ b/vendor/libloading/src/test_helpers.rs @@ -0,0 +1,37 @@ +//! This is a separate file containing helpers for tests of this library. It is built into a +//! dynamic library by the build.rs script. +#![crate_type="cdylib"] + +#[no_mangle] +pub static mut TEST_STATIC_U32: u32 = 0; + +#[no_mangle] +pub static mut TEST_STATIC_PTR: *mut () = 0 as *mut _; + +#[no_mangle] +pub extern "C" fn test_identity_u32(x: u32) -> u32 { + x +} + +#[repr(C)] +pub struct S { + a: u64, + b: u32, + c: u16, + d: u8 +} + +#[no_mangle] +pub extern "C" fn test_identity_struct(x: S) -> S { + x +} + +#[no_mangle] +pub unsafe extern "C" fn test_get_static_u32() -> u32 { + TEST_STATIC_U32 +} + +#[no_mangle] +pub unsafe extern "C" fn test_check_static_ptr() -> bool { + TEST_STATIC_PTR == (&mut TEST_STATIC_PTR as *mut *mut _ as *mut _) +} diff --git a/vendor/libloading/src/util.rs b/vendor/libloading/src/util.rs new file mode 100644 index 000000000..599e6c254 --- /dev/null +++ b/vendor/libloading/src/util.rs @@ -0,0 +1,34 @@ +use std::borrow::Cow; +use std::ffi::{CStr, CString}; +use std::os::raw; + +use crate::Error; + +/// Checks for the last byte and avoids allocating if it is zero. +/// +/// Non-last null bytes still result in an error. +pub(crate) fn cstr_cow_from_bytes(slice: &[u8]) -> Result, Error> { + static ZERO: raw::c_char = 0; + Ok(match slice.last() { + // Slice out of 0 elements + None => unsafe { Cow::Borrowed(CStr::from_ptr(&ZERO)) }, + // Slice with trailing 0 + Some(&0) => Cow::Borrowed( + CStr::from_bytes_with_nul(slice) + .map_err(|source| Error::CreateCStringWithTrailing { source })?, + ), + // Slice with no trailing 0 + Some(_) => { + Cow::Owned(CString::new(slice).map_err(|source| Error::CreateCString { source })?) + } + }) +} + +#[inline] +pub(crate) fn ensure_compatible_types() -> Result<(), Error> { + if ::std::mem::size_of::() != ::std::mem::size_of::() { + Err(Error::IncompatibleSize) + } else { + Ok(()) + } +} -- cgit v1.2.3