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@@ -3,80 +3,138 @@
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//! Utilities for working with static strings.
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-use std::ffi::CStr;
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-
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-/// A byte-array containing a single NUL byte (`b"\0"`).
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-pub const NUL_BYTE: &'static [u8] = b"\0";
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-
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-/// Determine if a byte slice is a C-like string.
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-///
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-/// These checks guarantee that:
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-///
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-/// 1. there are no intermediate NUL bytes
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-/// 2. the last byte *is* a NUL byte
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+/// Create a `CStr` from a literal byte slice, appending a NUL byte to it first.
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///
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/// # Warning
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///
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-/// This function does _not_ guarantee that the bytes represent any valid
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-/// encoding such as ASCII or UTF-8.
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+/// The literal byte slice which is taken as an argument *MUST NOT* have any NUL
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+/// bytes (`b"\0"`) in it, anywhere, or else an empty string will be returned
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+/// (`CStr::from_bytes_with_nul_unchecked(b"\0")`) so as to avoid `panic!()`ing.
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///
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/// # Examples
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///
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/// ```
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-/// # use tor_util::strings::byte_slice_is_c_like;
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-/// #
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-/// let bytes: &[u8] = b"foo bar baz";
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+/// #[macro_use]
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+/// extern crate tor_util;
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///
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-/// assert!(byte_slice_is_c_like(&bytes) == false);
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+/// use std::ffi::CStr;
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///
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-/// let bytes: &[u8] = b"foo\0bar baz";
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+/// # fn do_test() -> Result<&'static CStr, &'static str> {
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+/// let message: &'static str = "This is a test of the tsunami warning system.";
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+/// let tuesday: &'static CStr;
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+/// let original: &str;
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///
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-/// assert!(byte_slice_is_c_like(&bytes) == false);
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+/// tuesday = cstr!("This is a test of the tsunami warning system.");
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+/// original = tuesday.to_str().or(Err("Couldn't unwrap CStr!"))?;
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///
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-/// let bytes: &[u8] = b"foo bar baz\0";
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+/// assert!(original == message);
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+/// #
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+/// # Ok(tuesday)
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+/// # }
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+/// # fn main() {
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+/// # do_test(); // so that we can use the ? operator in the test
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+/// # }
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+/// ```
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+/// It is also possible to pass several string literals to this macro. They
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+/// will be concatenated together in the order of the arguments, unmodified,
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+/// before finally being suffixed with a NUL byte:
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///
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-/// assert!(byte_slice_is_c_like(&bytes) == true);
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/// ```
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-pub fn byte_slice_is_c_like(bytes: &[u8]) -> bool {
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- if !bytes[..bytes.len() - 1].contains(&0x00) && bytes[bytes.len() - 1] == 0x00 {
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- return true;
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- }
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- false
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-}
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-
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-/// Get a static `CStr` containing a single `NUL_BYTE`.
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+/// #[macro_use]
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+/// extern crate tor_util;
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+/// #
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+/// # use std::ffi::CStr;
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+/// #
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+/// # fn do_test() -> Result<&'static CStr, &'static str> {
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///
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-/// # Examples
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+/// let quux: &'static CStr = cstr!("foo", "bar", "baz");
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+/// let orig: &'static str = quux.to_str().or(Err("Couldn't unwrap CStr!"))?;
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///
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-/// When used as follows in a Rust FFI function, which could be called
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-/// from C:
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+/// assert!(orig == "foobarbaz");
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+/// # Ok(quux)
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+/// # }
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+/// # fn main() {
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+/// # do_test(); // so that we can use the ? operator in the test
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+/// # }
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+/// ```
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+/// This is useful for passing static strings to C from Rust FFI code. To do so
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+/// so, use the `.as_ptr()` method on the resulting `&'static CStr` to convert
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+/// it to the Rust equivalent of a C `const char*`:
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///
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/// ```
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-/// # extern crate libc;
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-/// # extern crate tor_util;
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-/// #
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-/// # use tor_util::strings::empty_static_cstr;
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-/// use libc::c_char;
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+/// #[macro_use]
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+/// extern crate tor_util;
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+///
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/// use std::ffi::CStr;
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+/// use std::os::raw::c_char;
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///
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-/// pub extern "C" fn give_c_code_an_empty_static_string() -> *const c_char {
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-/// let empty: &'static CStr = empty_static_cstr();
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+/// pub extern "C" fn give_static_borrowed_string_to_c() -> *const c_char {
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+/// let hello: &'static CStr = cstr!("Hello, language my parents wrote.");
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///
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-/// empty.as_ptr()
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+/// hello.as_ptr()
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/// }
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-///
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/// # fn main() {
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-/// # give_c_code_an_empty_static_string();
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+/// # let greetings = give_static_borrowed_string_to_c();
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/// # }
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/// ```
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+/// Note that the C code this static borrowed string is passed to *MUST NOT*
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+/// attempt to free the memory for the string.
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+///
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+/// # Note
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+///
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+/// An unfortunate limitation of the rustc compiler (as of 1.25.0-nightly), is
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+/// that the above code compiles, however if we were to change the assignment of
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+/// `tuesday` as follows, it will fail to compile, because Rust macros are
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+/// expanded at parse time, and at parse time there is no symbols table
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+/// available.
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///
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-/// This equates to an "empty" `const char*` static string in C.
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-pub fn empty_static_cstr() -> &'static CStr {
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- let empty: &'static CStr;
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+/// ```ignore
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+/// tuesday = cstr!(message);
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+/// ```
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+/// with the error message `error: expected a literal`.
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+///
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+/// # Returns
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+///
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+/// If the string literals passed as arguments contain no NUL bytes anywhere,
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+/// then an `&'static CStr` containing the (concatenated) bytes of the string
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+/// literal(s) passed as arguments, with a NUL byte appended, is returned.
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+/// Otherwise, an `&'static CStr` containing a single NUL byte is returned (an
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+/// "empty" string in C).
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+#[macro_export]
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+macro_rules! cstr {
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+ ($($bytes:expr),*) => (
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+ ::std::ffi::CStr::from_bytes_with_nul(
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+ concat!($($bytes),*, "\0").as_bytes()
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+ ).unwrap_or(
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+ unsafe{
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+ ::std::ffi::CStr::from_bytes_with_nul_unchecked(b"\0")
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+ }
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+ )
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+ )
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+}
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+
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+#[cfg(test)]
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+mod test {
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+ use std::ffi::CStr;
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+
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+ #[test]
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+ fn cstr_macro() {
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+ let _: &'static CStr = cstr!("boo");
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+ }
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+
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+ #[test]
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+ fn cstr_macro_multi_input() {
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+ let quux: &'static CStr = cstr!("foo", "bar", "baz");
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- unsafe {
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- empty = CStr::from_bytes_with_nul_unchecked(NUL_BYTE);
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+ assert!(quux.to_str().unwrap() == "foobarbaz");
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}
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- empty
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+ #[test]
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+ fn cstr_macro_bad_input() {
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+ let waving: &'static CStr = cstr!("waving not drowning o/");
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+ let drowning: &'static CStr = cstr!("\0 drowning not waving");
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+
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+ assert!(waving.to_str().unwrap() == "waving not drowning o/");
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+ assert!(drowning.to_str().unwrap() == "")
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+ }
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}
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