tests/windows.rs - platform/external/rust/crates/libloading - Git at Google

 #![cfg(windows)]
 extern crate libloading;
 use libloading::os::windows::*;
 use std::ffi::CStr;

 // The ordinal DLL contains exactly one function (other than DllMain, that is) with ordinal number
 // 1. This function has the sugnature `fn() -> *const c_char` and returns a string "bunny\0" (in
 // reference to WindowsBunny).
 //
 // Both x86_64 and x86 versions of the .dll are functionally the same. Ideally we would compile the
 // dlls with well known ordinals from our own testing helpers library, but rustc does not allow
 // specifying a custom .def file (https://github.com/rust-lang/rust/issues/35089)
 //
 // The DLLs were kindly compiled by WindowsBunny (aka. @retep998).

 #[cfg(target_arch="x86")]
 fn load_ordinal_lib() -> Library {
     Library::new("tests/nagisa32.dll").expect("nagisa32.dll")
 }

 #[cfg(target_arch="x86_64")]
 fn load_ordinal_lib() -> Library {
     Library::new("tests/nagisa64.dll").expect("nagisa64.dll")
 }

 #[cfg(any(target_arch="x86", target_arch="x86_64"))]
 #[test]
 fn test_ordinal() {
     let lib = load_ordinal_lib();
     unsafe {
         let windows: Symbol<unsafe fn() -> *const i8> = lib.get_ordinal(1).expect("function");
         assert_eq!(CStr::from_ptr(windows()).to_bytes(), b"bunny");
     }
 }

 #[cfg(any(target_arch="x86", target_arch="x86_64"))]
 #[test]
 fn test_ordinal_missing_fails() {
     let lib = load_ordinal_lib();
     unsafe {
         let r: Result<Symbol<unsafe fn() -> *const i8>, _> = lib.get_ordinal(2);
         r.err().unwrap();
         let r: Result<Symbol<unsafe fn() -> *const i8>, _> = lib.get_ordinal(!0);
         r.err().unwrap();
     }
 }

 #[test]
 fn test_new_kernel23() {
     Library::new("kernel23").err().unwrap();
 }

 #[test]
 fn test_new_kernel32_no_ext() {
     Library::new("kernel32").unwrap();
 }
	#![cfg(windows)]
	extern crate libloading;
	use libloading::os::windows::*;
	use std::ffi::CStr;

	// The ordinal DLL contains exactly one function (other than DllMain, that is) with ordinal number
	// 1. This function has the sugnature `fn() -> *const c_char` and returns a string "bunny\0" (in
	// reference to WindowsBunny).
	//
	// Both x86_64 and x86 versions of the .dll are functionally the same. Ideally we would compile the
	// dlls with well known ordinals from our own testing helpers library, but rustc does not allow
	// specifying a custom .def file (https://github.com/rust-lang/rust/issues/35089)
	//
	// The DLLs were kindly compiled by WindowsBunny (aka. @retep998).

	#[cfg(target_arch="x86")]
	fn load_ordinal_lib() -> Library {
	Library::new("tests/nagisa32.dll").expect("nagisa32.dll")
	}

	#[cfg(target_arch="x86_64")]
	fn load_ordinal_lib() -> Library {
	Library::new("tests/nagisa64.dll").expect("nagisa64.dll")
	}

	#[cfg(any(target_arch="x86", target_arch="x86_64"))]
	#[test]
	fn test_ordinal() {
	let lib = load_ordinal_lib();
	unsafe {
	let windows: Symbol<unsafe fn() -> *const i8> = lib.get_ordinal(1).expect("function");
	assert_eq!(CStr::from_ptr(windows()).to_bytes(), b"bunny");
	}
	}

	#[cfg(any(target_arch="x86", target_arch="x86_64"))]
	#[test]
	fn test_ordinal_missing_fails() {
	let lib = load_ordinal_lib();
	unsafe {
	let r: Result<Symbol<unsafe fn() -> *const i8>, _> = lib.get_ordinal(2);
	r.err().unwrap();
	let r: Result<Symbol<unsafe fn() -> *const i8>, _> = lib.get_ordinal(!0);
	r.err().unwrap();
	}
	}

	#[test]
	fn test_new_kernel23() {
	Library::new("kernel23").err().unwrap();
	}

	#[test]
	fn test_new_kernel32_no_ext() {
	Library::new("kernel32").unwrap();
	}