nih-plug/src/wrapper/util.rs

use std::cmp;
use std::marker::PhantomData;
use std::os::raw::c_char;
use vst3_sys::vst::TChar;
use widestring::U16CString;

#[cfg(all(debug_assertions, feature = "assert_process_allocs"))]
#[global_allocator]
static A: assert_no_alloc::AllocDisabler = assert_no_alloc::AllocDisabler;

/// A Rabin fingerprint based string hash for parameter ID strings.
pub fn hash_param_id(id: &str) -> u32 {
    let mut has_overflown = false;
    let mut hash: u32 = 0;
    for char in id.bytes() {
        // No destructuring assignments on stable Rust yet, somehow that just works on nightly
        // without needing to add a feature attribute
        let (hash2, overflow2) = hash.overflowing_mul(31);
        let (hash3, overflow3) = hash2.overflowing_add(char as u32);

        hash = hash3;
        has_overflown |= overflow2 || overflow3;
    }

    if has_overflown {
        nih_log!(
            "Overflow while hashing param ID \"{}\", consider using 6 character IDs to avoid collissions",
            id
        );
    }

    // Studio One apparently doesn't like negative parameters, so JUCE just zeroes out the sign bit
    hash &= !(1 << 31);

    hash
}

/// The equivalent of the `strlcpy()` C function. Copy `src` to `dest` as a null-terminated
/// C-string. If `dest` does not have enough capacity, add a null terminator at the end to prevent
/// buffer overflows.
pub fn strlcpy(dest: &mut [c_char], src: &str) {
    if dest.is_empty() {
        return;
    }

    let src_bytes: &[u8] = src.as_bytes();
    let src_bytes_signed: &[i8] = unsafe { &*(src_bytes as *const [u8] as *const [i8]) };

    // Make sure there's always room for a null terminator
    let copy_len = cmp::min(dest.len() - 1, src.len());
    dest[..copy_len].copy_from_slice(&src_bytes_signed[..copy_len]);
    dest[copy_len] = 0;
}

/// The same as [strlcpy()], but for VST3's fun UTF-16 strings instead.
pub fn u16strlcpy(dest: &mut [TChar], src: &str) {
    if dest.is_empty() {
        return;
    }

    let src_utf16 = match U16CString::from_str(src) {
        Ok(s) => s,
        Err(err) => {
            nih_debug_assert_failure!("Invalid UTF-16 string: {}", err);
            return;
        }
    };
    let src_utf16_chars = src_utf16.as_slice();
    let src_utf16_chars_signed: &[TChar] =
        unsafe { &*(src_utf16_chars as *const [u16] as *const [TChar]) };

    // Make sure there's always room for a null terminator
    let copy_len = cmp::min(dest.len() - 1, src_utf16_chars_signed.len());
    dest[..copy_len].copy_from_slice(&src_utf16_chars_signed[..copy_len]);
    dest[copy_len] = 0;
}

/// A wrapper around the entire process function, including the plugin wrapper parts. This sets up
/// `assert_no_alloc` if needed, while also making sure that things like FTZ are set up correctly if
/// the host has not already done so.
pub fn process_wrapper<T, F: FnOnce() -> T>(f: F) -> T {
    // Make sure FTZ is always enabled, even if the host doesn't do it for us
    let _ftz_guard = ScopedFtz::enable();

    cfg_if::cfg_if! {
        if #[cfg(all(debug_assertions, feature = "assert_process_allocs"))] {
            assert_no_alloc::assert_no_alloc(f)
        } else {
            f()
        }
    }
}

/// Enable the CPU's Flush To Zero flag while this object is in scope. If the flag was not already
/// set, it will be restored to its old value when this gets dropped.
struct ScopedFtz {
    /// Whether FTZ should be disabled again, i.e. if FTZ was not enabled before.
    should_disable_again: bool,
    /// We can't directly implement !Send and !Sync, but this will do the same thing. This object
    /// affects the current thread's floating point registers, so it may only be dropped on the
    /// current thread.
    _send_sync_marker: PhantomData<*const ()>,
}

impl ScopedFtz {
    fn enable() -> Self {
        cfg_if::cfg_if! {
            if #[cfg(target_feature = "sse")] {
                let mode = unsafe { std::arch::x86_64::_MM_GET_FLUSH_ZERO_MODE() };
                if mode != std::arch::x86_64::_MM_FLUSH_ZERO_ON {
                    unsafe { std::arch::x86_64::_MM_SET_FLUSH_ZERO_MODE(std::arch::x86_64::_MM_FLUSH_ZERO_ON) };

                    Self {
                        should_disable_again: true,
                        _send_sync_marker: PhantomData,
                    }
                } else {
                    Self {
                        should_disable_again: false,
                        _send_sync_marker: PhantomData,
                    }
                }
            } else {
                Self {
                    old_ftz_mode: None,
                    send_sync_marker: PhantomData,
                }
            }
        }
    }
}

impl Drop for ScopedFtz {
    fn drop(&mut self) {
        if self.should_disable_again {
            cfg_if::cfg_if! {
                if #[cfg(target_feature = "sse")] {
                    unsafe { std::arch::x86_64::_MM_SET_FLUSH_ZERO_MODE(std::arch::x86_64::_MM_FLUSH_ZERO_OFF) };
                }
            };
        }
    }
}

#[cfg(test)]
mod miri {
    use std::ffi::CStr;
    use widestring::U16CStr;

    use super::*;

    #[test]
    fn strlcpy_normal() {
        let mut dest = [0; 256];
        strlcpy(&mut dest, "Hello, world!");

        assert_eq!(
            unsafe { CStr::from_ptr(dest.as_ptr()) }.to_str(),
            Ok("Hello, world!")
        );
    }

    #[test]
    fn strlcpy_overflow() {
        let mut dest = [0; 6];
        strlcpy(&mut dest, "Hello, world!");

        assert_eq!(
            unsafe { CStr::from_ptr(dest.as_ptr()) }.to_str(),
            Ok("Hello")
        );
    }

    #[test]
    fn u16strlcpy_normal() {
        let mut dest = [0; 256];
        u16strlcpy(&mut dest, "Hello, world!");

        assert_eq!(
            unsafe { U16CStr::from_ptr_str(dest.as_ptr() as *const u16) }
                .to_string()
                .unwrap(),
            "Hello, world!"
        );
    }

    #[test]
    fn u16strlcpy_overflow() {
        let mut dest = [0; 6];
        u16strlcpy(&mut dest, "Hello, world!");

        assert_eq!(
            unsafe { U16CStr::from_ptr_str(dest.as_ptr() as *const u16) }
                .to_string()
                .unwrap(),
            "Hello"
        );
    }
}
Add a strlcpy implementation 2022-01-27 05:18:31 +11:00			`use std::cmp;`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00			`use std::marker::PhantomData;`
Add a strlcpy implementation 2022-01-27 05:18:31 +11:00			`use std::os::raw::c_char;`
Add an UTF-16 equivalent for strlcpy() 2022-01-27 07:02:52 +11:00			`use vst3_sys::vst::TChar;`
			`use widestring::U16CString;`
Add a strlcpy implementation 2022-01-27 05:18:31 +11:00
Enable assert_no_alloc in debug builds 2022-02-04 01:58:00 +11:00			`#[cfg(all(debug_assertions, feature = "assert_process_allocs"))]`
			`#[global_allocator]`
			`static A: assert_no_alloc::AllocDisabler = assert_no_alloc::AllocDisabler;`

Mark hyperlinks in doc comments 2022-01-29 04:10:28 +11:00			`/// A Rabin fingerprint based string hash for parameter ID strings.`
Implement a JUCE-compatible Rabin fingerprint 2022-01-27 09:35:01 +11:00			`pub fn hash_param_id(id: &str) -> u32 {`
Warn on parameter hash overflow 2022-02-01 07:34:36 +11:00			`let mut has_overflown = false;`
Implement a JUCE-compatible Rabin fingerprint 2022-01-27 09:35:01 +11:00			`let mut hash: u32 = 0;`
			`for char in id.bytes() {`
Avoid destructuring assignment Somehow the nightly compiler just lets you do this without needing to opt in to the unstable feature. 2022-02-06 02:46:29 +11:00			`// No destructuring assignments on stable Rust yet, somehow that just works on nightly`
			`// without needing to add a feature attribute`
			`let (hash2, overflow2) = hash.overflowing_mul(31);`
			`let (hash3, overflow3) = hash2.overflowing_add(char as u32);`

			`hash = hash3;`
			`has_overflown \|= overflow2 \|\| overflow3;`
Warn on parameter hash overflow 2022-02-01 07:34:36 +11:00			`}`

			`if has_overflown {`
			`nih_log!(`
Mention the 6 character overflow limit for IDs 2022-02-04 03:02:42 +11:00			`"Overflow while hashing param ID \"{}\", consider using 6 character IDs to avoid collissions",`
Warn on parameter hash overflow 2022-02-01 07:34:36 +11:00			`id`
			`);`
Implement a JUCE-compatible Rabin fingerprint 2022-01-27 09:35:01 +11:00			`}`

			`// Studio One apparently doesn't like negative parameters, so JUCE just zeroes out the sign bit`
			`hash &= !(1 << 31);`

			`hash`
			`}`

Add a strlcpy implementation 2022-01-27 05:18:31 +11:00			/// The equivalent of the `strlcpy()` C function. Copy `src` to `dest` as a null-terminated
			/// C-string. If `dest` does not have enough capacity, add a null terminator at the end to prevent
			`/// buffer overflows.`
			`pub fn strlcpy(dest: &mut [c_char], src: &str) {`
			`if dest.is_empty() {`
			`return;`
			`}`

			`let src_bytes: &[u8] = src.as_bytes();`
			`let src_bytes_signed: &[i8] = unsafe { &(src_bytes as const [u8] as *const [i8]) };`

			`// Make sure there's always room for a null terminator`
			`let copy_len = cmp::min(dest.len() - 1, src.len());`
			`dest[..copy_len].copy_from_slice(&src_bytes_signed[..copy_len]);`
			`dest[copy_len] = 0;`
			`}`
Add an UTF-16 equivalent for strlcpy() 2022-01-27 07:02:52 +11:00
Disambiguate rustdoc link references 2022-02-05 22:56:03 +11:00			`/// The same as [strlcpy()], but for VST3's fun UTF-16 strings instead.`
Add an UTF-16 equivalent for strlcpy() 2022-01-27 07:02:52 +11:00			`pub fn u16strlcpy(dest: &mut [TChar], src: &str) {`
			`if dest.is_empty() {`
			`return;`
			`}`

			`let src_utf16 = match U16CString::from_str(src) {`
			`Ok(s) => s,`
			`Err(err) => {`
			`nih_debug_assert_failure!("Invalid UTF-16 string: {}", err);`
			`return;`
			`}`
			`};`
			`let src_utf16_chars = src_utf16.as_slice();`
			`let src_utf16_chars_signed: &[TChar] =`
			`unsafe { &(src_utf16_chars as const [u16] as *const [TChar]) };`

			`// Make sure there's always room for a null terminator`
			`let copy_len = cmp::min(dest.len() - 1, src_utf16_chars_signed.len());`
			`dest[..copy_len].copy_from_slice(&src_utf16_chars_signed[..copy_len]);`
			`dest[copy_len] = 0;`
			`}`
Enable assert_no_alloc in debug builds 2022-02-04 01:58:00 +11:00
			`/// A wrapper around the entire process function, including the plugin wrapper parts. This sets up`
			/// `assert_no_alloc` if needed, while also making sure that things like FTZ are set up correctly if
			`/// the host has not already done so.`
			`pub fn process_wrapper<T, F: FnOnce() -> T>(f: F) -> T {`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00			`// Make sure FTZ is always enabled, even if the host doesn't do it for us`
			`let _ftz_guard = ScopedFtz::enable();`

Enable assert_no_alloc in debug builds 2022-02-04 01:58:00 +11:00			`cfg_if::cfg_if! {`
			`if #[cfg(all(debug_assertions, feature = "assert_process_allocs"))] {`
			`assert_no_alloc::assert_no_alloc(f)`
			`} else {`
			`f()`
			`}`
			`}`
			`}`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00
			`/// Enable the CPU's Flush To Zero flag while this object is in scope. If the flag was not already`
			`/// set, it will be restored to its old value when this gets dropped.`
			`struct ScopedFtz {`
Simplify ScopedFtz 2022-02-13 23:51:02 +11:00			`/// Whether FTZ should be disabled again, i.e. if FTZ was not enabled before.`
			`should_disable_again: bool,`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00			`/// We can't directly implement !Send and !Sync, but this will do the same thing. This object`
			`/// affects the current thread's floating point registers, so it may only be dropped on the`
			`/// current thread.`
Prefix all marker fields with underscores 2022-02-14 08:58:51 +11:00			`_send_sync_marker: PhantomData<*const ()>,`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00			`}`

			`impl ScopedFtz {`
			`fn enable() -> Self {`
			`cfg_if::cfg_if! {`
			`if #[cfg(target_feature = "sse")] {`
			`let mode = unsafe { std::arch::x86_64::_MM_GET_FLUSH_ZERO_MODE() };`
			`if mode != std::arch::x86_64::_MM_FLUSH_ZERO_ON {`
			`unsafe { std::arch::x86_64::_MM_SET_FLUSH_ZERO_MODE(std::arch::x86_64::_MM_FLUSH_ZERO_ON) };`

			`Self {`
Simplify ScopedFtz 2022-02-13 23:51:02 +11:00			`should_disable_again: true,`
Prefix all marker fields with underscores 2022-02-14 08:58:51 +11:00			`_send_sync_marker: PhantomData,`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00			`}`
			`} else {`
			`Self {`
Simplify ScopedFtz 2022-02-13 23:51:02 +11:00			`should_disable_again: false,`
Prefix all marker fields with underscores 2022-02-14 08:58:51 +11:00			`_send_sync_marker: PhantomData,`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00			`}`
			`}`
			`} else {`
			`Self {`
			`old_ftz_mode: None,`
			`send_sync_marker: PhantomData,`
			`}`
			`}`
			`}`
			`}`
			`}`

			`impl Drop for ScopedFtz {`
			`fn drop(&mut self) {`
Simplify ScopedFtz 2022-02-13 23:51:02 +11:00			`if self.should_disable_again {`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00			`cfg_if::cfg_if! {`
			`if #[cfg(target_feature = "sse")] {`
Simplify ScopedFtz 2022-02-13 23:51:02 +11:00			`unsafe { std::arch::x86_64::_MM_SET_FLUSH_ZERO_MODE(std::arch::x86_64::_MM_FLUSH_ZERO_OFF) };`
Make sure FTZ is always enabled 2022-02-04 02:18:24 +11:00			`}`
			`};`
			`}`
			`}`
			`}`
Add (miri) tests for {u16,}strlcpy() 2022-02-13 23:04:19 +11:00
Add missing #[cfg(test)] 2022-02-14 02:14:26 +11:00			`#[cfg(test)]`
Add (miri) tests for {u16,}strlcpy() 2022-02-13 23:04:19 +11:00			`mod miri {`
			`use std::ffi::CStr;`
			`use widestring::U16CStr;`

			`use super::*;`

			`#[test]`
			`fn strlcpy_normal() {`
			`let mut dest = [0; 256];`
			`strlcpy(&mut dest, "Hello, world!");`

			`assert_eq!(`
			`unsafe { CStr::from_ptr(dest.as_ptr()) }.to_str(),`
			`Ok("Hello, world!")`
			`);`
			`}`

			`#[test]`
			`fn strlcpy_overflow() {`
			`let mut dest = [0; 6];`
			`strlcpy(&mut dest, "Hello, world!");`

			`assert_eq!(`
			`unsafe { CStr::from_ptr(dest.as_ptr()) }.to_str(),`
			`Ok("Hello")`
			`);`
			`}`

			`#[test]`
			`fn u16strlcpy_normal() {`
			`let mut dest = [0; 256];`
			`u16strlcpy(&mut dest, "Hello, world!");`

			`assert_eq!(`
			`unsafe { U16CStr::from_ptr_str(dest.as_ptr() as *const u16) }`
			`.to_string()`
			`.unwrap(),`
			`"Hello, world!"`
			`);`
			`}`

			`#[test]`
			`fn u16strlcpy_overflow() {`
			`let mut dest = [0; 6];`
			`u16strlcpy(&mut dest, "Hello, world!");`

			`assert_eq!(`
			`unsafe { U16CStr::from_ptr_str(dest.as_ptr() as *const u16) }`
			`.to_string()`
			`.unwrap(),`
			`"Hello"`
			`);`
			`}`
			`}`