use crate::audio::io::AudioIO;
use crate::midi::io::{MIDIIO, MidiEvent};
use crate::plugins::ipc;
use arc_swap::ArcSwapOption;
use maolan_plugin_protocol::events::EventPair;
use maolan_plugin_protocol::protocol::*;
use maolan_plugin_protocol::ringbuf::RingBuffer;
use maolan_plugin_protocol::shm::ShmMapping;
use std::cell::UnsafeCell;
use std::collections::HashMap;
use std::path::PathBuf;
use std::process::{Child, ChildStderr};
use std::sync::Arc;
use std::sync::atomic::{AtomicBool, AtomicU32, AtomicU64, Ordering};
use std::time::{Duration, Instant};
fn wait_for_host_request_complete(
header: &ShmHeader,
events: &EventPair,
timeout: Duration,
) -> Result<(), String> {
let start = Instant::now();
loop {
if header.request_status.load(Ordering::Acquire) != 0 {
return Ok(());
}
let elapsed = start.elapsed();
if elapsed >= timeout {
return Err("Host did not respond to request".to_string());
}
match events.wait_host(timeout - elapsed) {
Ok(()) => {
std::sync::atomic::fence(Ordering::Acquire);
continue;
}
Err(e) if e.kind() == std::io::ErrorKind::TimedOut => continue,
Err(e) => return Err(format!("Host did not respond to request: {e}")),
}
}
}
pub struct Lv2Processor {
uri: String,
name: String,
audio_inputs: Vec<Arc<AudioIO>>,
audio_outputs: Vec<Arc<AudioIO>>,
main_audio_inputs: usize,
main_audio_outputs: usize,
midi_input_ports: Vec<Arc<MIDIIO>>,
midi_output_ports: Vec<Arc<MIDIIO>>,
param_values: HashMap<u32, AtomicU64>,
bypassed: Arc<AtomicBool>,
child: UnsafeCell<Option<Child>>,
stderr: ArcSwapOption<ChildStderr>,
mapping: Option<ShmMapping>,
events: Option<EventPair>,
shm_name: String,
crash_count: AtomicU32,
}
unsafe impl Sync for Lv2Processor {}
pub type SharedLv2Processor = Arc<Lv2Processor>;
impl Lv2Processor {
pub fn new(
sample_rate: f64,
buffer_size: usize,
plugin_uri: &str,
input_count: usize,
output_count: usize,
host_binary: PathBuf,
) -> Result<Self, String> {
let audio_inputs = (0..input_count.max(1))
.map(|_| Arc::new(AudioIO::new(buffer_size)))
.collect::<Vec<_>>();
let audio_outputs = (0..output_count.max(1))
.map(|_| Arc::new(AudioIO::new(buffer_size)))
.collect::<Vec<_>>();
let instance_id = ipc::unique_instance_id("lv2");
let sample_rate_str = sample_rate.to_string();
let buffer_size_str = buffer_size.to_string();
let num_inputs_str = input_count.max(1).to_string();
let num_outputs_str = output_count.max(1).to_string();
let (mut child, mapping, events, shm_name, stderr) = ipc::spawn_host(ipc::HostSpawnArgs {
host_binary: &host_binary,
format: "lv2",
plugin_spec: plugin_uri,
instance_id: &instance_id,
extra_args: &[
&sample_rate_str,
&buffer_size_str,
&num_inputs_str,
&num_outputs_str,
],
})?;
let header = unsafe { header_ref(mapping.as_ptr()) };
if !ipc::wait_for_ready(header, Duration::from_secs(10)) {
let _ = child.kill();
return Err("LV2 host did not signal ready".to_string());
}
let name = unsafe {
maolan_plugin_protocol::protocol::read_plugin_name_from_scratch(mapping.as_ptr())
.unwrap_or_else(|| {
plugin_uri
.rsplit_once('/')
.map(|(_, name)| name)
.unwrap_or(plugin_uri)
.to_string()
})
};
let header = unsafe { header_ref(mapping.as_ptr()) };
let midi_in_count = header.midi_in_port_count.load(Ordering::Acquire) as usize;
let midi_out_count = header.midi_out_port_count.load(Ordering::Acquire) as usize;
let midi_input_ports: Vec<_> = (0..midi_in_count)
.map(|_| Arc::new(MIDIIO::new()))
.collect();
let midi_output_ports: Vec<_> = (0..midi_out_count)
.map(|_| Arc::new(MIDIIO::new()))
.collect();
let param_values: HashMap<u32, AtomicU64> = HashMap::new();
Ok(Self {
uri: plugin_uri.to_string(),
name,
audio_inputs,
audio_outputs,
main_audio_inputs: input_count.max(1),
main_audio_outputs: output_count.max(1),
midi_input_ports,
midi_output_ports,
param_values,
bypassed: Arc::new(AtomicBool::new(false)),
child: UnsafeCell::new(Some(child)),
stderr: ArcSwapOption::from_pointee(stderr),
mapping: Some(mapping),
events: Some(events),
shm_name,
crash_count: AtomicU32::new(0),
})
}
unsafe fn with_child<R>(&self, f: impl FnOnce(&mut Option<Child>) -> R) -> R {
f(unsafe { &mut *self.child.get() })
}
pub fn setup_audio_ports(&self) {
for port in &self.audio_inputs {
port.setup();
}
for port in &self.audio_outputs {
port.setup();
}
}
pub fn setup_midi_ports(&self) {
for port in &self.midi_input_ports {
unsafe { port.setup() };
}
for port in &self.midi_output_ports {
unsafe { port.setup() };
}
}
pub fn audio_inputs(&self) -> &[Arc<AudioIO>] {
&self.audio_inputs
}
pub fn audio_outputs(&self) -> &[Arc<AudioIO>] {
&self.audio_outputs
}
pub fn main_audio_input_count(&self) -> usize {
self.main_audio_inputs
}
pub fn main_audio_output_count(&self) -> usize {
self.main_audio_outputs
}
pub fn midi_input_count(&self) -> usize {
self.midi_input_ports.len()
}
pub fn midi_output_count(&self) -> usize {
self.midi_output_ports.len()
}
pub fn midi_input_ports(&self) -> &[Arc<MIDIIO>] {
&self.midi_input_ports
}
pub fn midi_output_ports(&self) -> &[Arc<MIDIIO>] {
&self.midi_output_ports
}
pub fn set_bypassed(&self, bypassed: bool) {
self.bypassed.store(bypassed, Ordering::Relaxed);
}
pub fn is_bypassed(&self) -> bool {
self.bypassed.load(Ordering::Relaxed)
}
pub fn parameter_values(&self) -> HashMap<u32, f64> {
self.param_values
.iter()
.map(|(&id, value)| (id, f64::from_bits(value.load(Ordering::Relaxed))))
.collect()
}
pub fn set_parameter(&self, param_id: u32, value: f64) -> Result<(), String> {
self.set_parameter_at(param_id, value, 0)
}
pub fn set_parameter_at(&self, param_id: u32, value: f64, _frame: u32) -> Result<(), String> {
if let Some(slot) = self.param_values.get(¶m_id) {
slot.store(value.to_bits(), Ordering::Relaxed);
} else {
tracing::warn!("LV2 set_parameter_at: unknown parameter id {param_id}");
}
if let Some(ref mapping) = self.mapping {
let ring = unsafe {
let buf = param_ring_ptr(mapping.as_ptr());
let (w, r) = param_indices(mapping.as_ptr());
RingBuffer::new(buf, w, r, RING_CAPACITY)
};
let ev = ParameterEvent {
param_index: param_id,
value: value as f32,
sample_offset: 0,
event_kind: maolan_plugin_protocol::PARAM_EVENT_VALUE,
};
if !ring.push(ev) {}
}
Ok(())
}
pub fn begin_parameter_edit(&self, _param_id: u32) -> Result<(), String> {
Ok(())
}
pub fn end_parameter_edit(&self, _param_id: u32) -> Result<(), String> {
Ok(())
}
pub fn is_parameter_edit_active(&self, _param_id: u32) -> bool {
false
}
pub fn snapshot_state(&self) -> Result<Vec<u8>, String> {
let (mapping, events) = match (&self.mapping, &self.events) {
(Some(m), Some(e)) => (m, e),
_ => return Err("LV2 processor not initialized".to_string()),
};
let ptr = mapping.as_ptr();
let header = unsafe { header_mut(ptr) };
tracing::info!("LV2 snapshot_state: sending request to host");
header.request_type.store(1, Ordering::Release);
header.request_status.store(0, Ordering::Release);
if let Err(e) = events.signal_host() {
header.request_type.store(0, Ordering::Release);
return Err(format!("Failed to signal host for state save: {}", e));
}
if let Err(e) = wait_for_host_request_complete(header, events, Duration::from_secs(5)) {
header.request_type.store(0, Ordering::Release);
return Err(format!("Host did not respond to state save: {}", e));
}
let status = header.request_status.load(Ordering::Acquire);
let size = header.scratch_size.load(Ordering::Acquire) as usize;
tracing::info!(status, size, "LV2 snapshot_state: host responded");
if status != 1 {
header.request_type.store(0, Ordering::Release);
return Err("State save failed in host".to_string());
}
let scratch = unsafe { scratch_ptr(ptr) };
let mut bytes = vec![0u8; size];
unsafe {
std::ptr::copy_nonoverlapping(scratch, bytes.as_mut_ptr(), size);
}
header.request_type.store(0, Ordering::Release);
Ok(bytes)
}
pub fn restore_state(&self, state: &[u8]) -> Result<(), String> {
let (mapping, events) = match (&self.mapping, &self.events) {
(Some(m), Some(e)) => (m, e),
_ => return Err("LV2 processor not initialized".to_string()),
};
let ptr = mapping.as_ptr();
let header = unsafe { header_mut(ptr) };
let scratch = unsafe { scratch_ptr(ptr) };
let size = state.len().min(SCRATCH_SIZE);
unsafe {
std::ptr::copy_nonoverlapping(state.as_ptr(), scratch, size);
}
header.scratch_size.store(size as u32, Ordering::Release);
header.request_type.store(2, Ordering::Release);
header.request_status.store(0, Ordering::Release);
if let Err(e) = events.signal_host() {
header.request_type.store(0, Ordering::Release);
return Err(format!("Failed to signal host for state restore: {}", e));
}
if let Err(e) = wait_for_host_request_complete(header, events, Duration::from_secs(5)) {
header.request_type.store(0, Ordering::Release);
return Err(format!("Host did not respond to state restore: {}", e));
}
let status = header.request_status.load(Ordering::Acquire);
header.request_type.store(0, Ordering::Release);
if status != 1 {
return Err("State restore failed in host".to_string());
}
Ok(())
}
fn deserialize_lv2_control_ports(
scratch: *const u8,
size: usize,
) -> Result<Vec<crate::message::Lv2ControlPortInfo>, String> {
if size < 4 {
return Err("scratch too small for LV2 control ports".to_string());
}
let mut offset = 0usize;
let count = unsafe { std::ptr::read_unaligned(scratch.add(offset) as *const u32) } as usize;
offset += 4;
let mut ports = Vec::with_capacity(count);
for _ in 0..count {
if offset + 4 > size {
return Err("scratch underflow".to_string());
}
let index = unsafe { std::ptr::read_unaligned(scratch.add(offset) as *const u32) };
offset += 4;
if offset + 4 > size {
return Err("scratch underflow".to_string());
}
let name_len =
unsafe { std::ptr::read_unaligned(scratch.add(offset) as *const u32) } as usize;
offset += 4;
if offset + name_len > size {
return Err("scratch underflow".to_string());
}
let mut name_bytes = vec![0u8; name_len];
unsafe {
std::ptr::copy_nonoverlapping(
scratch.add(offset),
name_bytes.as_mut_ptr(),
name_len,
);
}
offset += name_len;
let name = String::from_utf8(name_bytes).map_err(|e| e.to_string())?;
if offset + 12 > size {
return Err("scratch underflow".to_string());
}
let min = f32::from_bits(unsafe {
std::ptr::read_unaligned(scratch.add(offset) as *const u32)
});
let max = f32::from_bits(unsafe {
std::ptr::read_unaligned(scratch.add(offset + 4) as *const u32)
});
let value = f32::from_bits(unsafe {
std::ptr::read_unaligned(scratch.add(offset + 8) as *const u32)
});
offset += 12;
ports.push(crate::message::Lv2ControlPortInfo {
index,
name,
min,
max,
value,
});
}
Ok(ports)
}
fn deserialize_lv2_note_names(
scratch: *const u8,
size: usize,
) -> Result<HashMap<u8, String>, String> {
if size < 4 {
return Err("scratch too small for LV2 note names".to_string());
}
let mut offset = 0usize;
let count = unsafe { std::ptr::read_unaligned(scratch.add(offset) as *const u32) } as usize;
offset += 4;
let mut note_names = HashMap::with_capacity(count);
for _ in 0..count {
if offset + 4 > size {
return Err("scratch underflow".to_string());
}
let note = unsafe { std::ptr::read_unaligned(scratch.add(offset) as *const u32) } as u8;
offset += 4;
if offset + 4 > size {
return Err("scratch underflow".to_string());
}
let name_len =
unsafe { std::ptr::read_unaligned(scratch.add(offset) as *const u32) } as usize;
offset += 4;
if offset + name_len > size {
return Err("scratch underflow".to_string());
}
let mut name_bytes = vec![0u8; name_len];
unsafe {
std::ptr::copy_nonoverlapping(
scratch.add(offset),
name_bytes.as_mut_ptr(),
name_len,
);
}
offset += name_len;
let name = String::from_utf8(name_bytes).map_err(|e| e.to_string())?;
note_names.insert(note, name);
}
Ok(note_names)
}
pub fn control_ports(&self) -> Result<Vec<crate::message::Lv2ControlPortInfo>, String> {
let (mapping, events) = match (&self.mapping, &self.events) {
(Some(m), Some(e)) => (m, e),
_ => return Err("LV2 processor not initialized".to_string()),
};
let ptr = mapping.as_ptr();
let header = unsafe { header_mut(ptr) };
tracing::info!("LV2 control_ports: sending request to host");
header.request_type.store(
maolan_plugin_protocol::protocol::REQUEST_LV2_CONTROL_PORTS,
Ordering::Release,
);
header.request_status.store(0, Ordering::Release);
if let Err(e) = events.signal_host() {
header.request_type.store(0, Ordering::Release);
return Err(format!("Failed to signal host for LV2 control ports: {e}"));
}
if let Err(e) = wait_for_host_request_complete(header, events, Duration::from_secs(5)) {
header.request_type.store(0, Ordering::Release);
return Err(format!("Host did not respond to LV2 control ports: {e}"));
}
let status = header.request_status.load(Ordering::Acquire);
let size = header.scratch_size.load(Ordering::Acquire) as usize;
tracing::info!(status, size, "LV2 control_ports: host responded");
if status != 1 {
header.request_type.store(0, Ordering::Release);
return Err("LV2 control port enumeration failed in host".to_string());
}
let scratch = unsafe { scratch_ptr(ptr) };
let result = Self::deserialize_lv2_control_ports(scratch, size);
match &result {
Ok(ports) => tracing::info!(count = ports.len(), "LV2 control_ports: deserialized"),
Err(e) => tracing::error!("LV2 control_ports: deserialize failed: {e}"),
}
header.request_type.store(0, Ordering::Release);
result
}
pub fn note_names(&self) -> Result<HashMap<u8, String>, String> {
let (mapping, events) = match (&self.mapping, &self.events) {
(Some(m), Some(e)) => (m, e),
_ => return Err("LV2 processor not initialized".to_string()),
};
let ptr = mapping.as_ptr();
let header = unsafe { header_mut(ptr) };
header.request_type.store(
maolan_plugin_protocol::protocol::REQUEST_LV2_MIDNAM,
Ordering::Release,
);
header.request_status.store(0, Ordering::Release);
if let Err(e) = events.signal_host() {
header.request_type.store(0, Ordering::Release);
return Err(format!("Failed to signal host for LV2 midnam: {e}"));
}
if let Err(e) = wait_for_host_request_complete(header, events, Duration::from_secs(5)) {
header.request_type.store(0, Ordering::Release);
return Err(format!("Host did not respond to LV2 midnam: {e}"));
}
let status = header.request_status.load(Ordering::Acquire);
let size = header.scratch_size.load(Ordering::Acquire) as usize;
if status != 1 {
header.request_type.store(0, Ordering::Release);
return Err("LV2 midnam enumeration failed in host".to_string());
}
let scratch = unsafe { scratch_ptr(ptr) };
let result = Self::deserialize_lv2_note_names(scratch, size);
header.request_type.store(0, Ordering::Release);
result
}
pub fn set_resource_directory(&self, dir: &std::path::Path) -> Result<(), String> {
let (mapping, events) = match (&self.mapping, &self.events) {
(Some(m), Some(e)) => (m, e),
_ => return Err("LV2 processor not initialized".to_string()),
};
let ptr = mapping.as_ptr();
let header = unsafe { header_mut(ptr) };
let path_str = dir.to_string_lossy().to_string();
unsafe {
write_resource_directory_to_scratch(ptr, &path_str)
.map_err(|e| format!("Failed to write resource directory: {e}"))?;
}
std::sync::atomic::fence(Ordering::SeqCst);
header.request_type.store(5, Ordering::Release);
header.request_status.store(0, Ordering::Release);
if let Err(e) = events.signal_host() {
header.request_type.store(0, Ordering::Release);
return Err(format!("Failed to signal host for resource directory: {e}"));
}
if let Err(e) = wait_for_host_request_complete(header, events, Duration::from_secs(5)) {
header.request_type.store(0, Ordering::Release);
return Err(format!("Host did not respond to resource directory: {e}"));
}
let status = header.request_status.load(Ordering::Acquire);
header.request_type.store(0, Ordering::Release);
if status != 1 {
return Err("Resource directory update failed in host".to_string());
}
Ok(())
}
pub fn process_with_audio_buffers(
&self,
frames: usize,
audio_inputs: &[&[f32]],
audio_outputs: &mut [&mut [f32]],
) -> Vec<MidiEvent> {
if self.bypassed.load(Ordering::Relaxed) {
ipc::bypass_copy_input_slices_to_outputs(audio_inputs, audio_outputs);
return Vec::new();
}
let crashed = unsafe {
self.with_child(|child| {
if let Some(c) = child.as_mut()
&& let Ok(Some(status)) = c.try_wait()
&& !status.success()
{
self.crash_count.fetch_add(1, Ordering::Relaxed);
return true;
}
false
})
};
if crashed {
ipc::bypass_copy_input_slices_to_outputs(audio_inputs, audio_outputs);
return Vec::new();
}
let (mapping, events) = match (&self.mapping, &self.events) {
(Some(m), Some(e)) => (m, e),
_ => {
ipc::bypass_copy_input_slices_to_outputs(audio_inputs, audio_outputs);
return Vec::new();
}
};
let ptr = mapping.as_ptr();
let num_in = audio_inputs.len();
let num_out = audio_outputs.len();
let midi_in_count = self.midi_input_ports.len();
let midi_out_count = self.midi_output_ports.len();
unsafe {
ipc::configure_shm_header(ptr, frames, num_in, num_out, midi_in_count, midi_out_count);
let t = transport_mut(ptr);
t.playhead_sample = 0;
t.tempo = 120.0;
t.numerator = 4;
t.denominator = 4;
t.flags = 1;
ipc::copy_input_slices_to_shm(audio_inputs, ptr, frames);
for (port_idx, port) in self.midi_input_ports.iter().enumerate() {
let buf = midi_in_ring_ptr(ptr, port_idx);
let (w, r) = midi_in_indices(ptr, port_idx);
let ring = RingBuffer::new(buf, w, r, RING_CAPACITY);
let port_buffer = port.buffer();
for ev in port_buffer {
let data = {
let mut d = [0u8; 3];
for (i, b) in ev.data.iter().enumerate().take(3) {
d[i] = *b;
}
d
};
let _ = ring.push(maolan_plugin_protocol::MidiEvent {
sample_offset: ev.frame,
data,
channel: ev.data.first().copied().unwrap_or(0) & 0x0F,
flags: 0,
_pad: 0,
});
}
port.mark_finished();
}
}
if events.signal_host().is_err() {
ipc::bypass_copy_input_slices_to_outputs(audio_inputs, audio_outputs);
return Vec::new();
}
let timeout = Duration::from_millis(100);
match events.wait_host(timeout) {
Ok(()) => {}
Err(_) => {
ipc::bypass_copy_input_slices_to_outputs(audio_inputs, audio_outputs);
return Vec::new();
}
}
unsafe {
ipc::copy_outputs_from_shm_to_slices(audio_outputs, ptr, frames);
let mut output_events = Vec::new();
for (port_idx, port) in self.midi_output_ports.iter().enumerate() {
let buf = midi_out_ring_ptr(ptr, port_idx);
let (w, r) = midi_out_indices(ptr, port_idx);
let ring = RingBuffer::new(buf, w, r, RING_CAPACITY);
let mut port_buffer = port.buffer_mut();
port_buffer.clear();
while let Some(ev) = ring.pop() {
let event = MidiEvent {
frame: ev.sample_offset,
data: ev.data.to_vec(),
};
port_buffer.push(event.clone());
output_events.push(event);
}
port.mark_finished();
}
output_events
}
}
pub fn uri(&self) -> &str {
&self.uri
}
pub fn name(&self) -> &str {
&self.name
}
pub fn take_stderr(&self) -> Option<ChildStderr> {
self.stderr.swap(None).and_then(|s| Arc::try_unwrap(s).ok())
}
pub fn begin_parameter_edit_at(&self, _param_id: u32, _frame: u32) -> Result<(), String> {
Ok(())
}
pub fn end_parameter_edit_at(&self, _param_id: u32, _frame: u32) -> Result<(), String> {
Ok(())
}
pub fn run_host_callbacks_main_thread(&self) {}
pub fn reconfigure_ports_if_needed(&self) -> Result<bool, String> {
Ok(false)
}
pub fn gui_set_parent_x11(&self, window: usize) -> Result<(), String> {
if let Some(ref mapping) = self.mapping {
let header = unsafe { header_mut(mapping.as_ptr()) };
header.set_parent_window(window);
return Ok(());
}
Err("No active host to set parent window".to_string())
}
pub fn gui_set_floating_mode(&self, floating: bool) -> Result<(), String> {
if let Some(ref mapping) = self.mapping {
let header = unsafe { header_mut(mapping.as_ptr()) };
header.set_gui_mode(if floating {
GuiMode::Floating
} else {
GuiMode::Embedded
});
return Ok(());
}
Err("No active host to set GUI mode".to_string())
}
pub fn gui_show(&self) -> Result<(), String> {
if let Some(ref mapping) = self.mapping
&& let Some(ref events) = self.events
{
let header = unsafe { header_mut(mapping.as_ptr()) };
header.request_type.store(3, Ordering::Release);
let _ = events.signal_host();
return Ok(());
}
Err("No active host to show GUI".to_string())
}
pub fn gui_hide(&self) {
if let Some(ref mapping) = self.mapping
&& let Some(ref events) = self.events
{
let header = unsafe { header_mut(mapping.as_ptr()) };
header.request_type.store(4, Ordering::Release);
let _ = events.signal_host();
}
}
pub fn drain_echoed_parameters(&self) -> Vec<ParameterEvent> {
let mut result = Vec::new();
if let Some(ref mapping) = self.mapping {
let ring = unsafe {
let buf = echo_ring_ptr(mapping.as_ptr());
let (w, r) = echo_indices(mapping.as_ptr());
RingBuffer::new(buf, w, r, RING_CAPACITY)
};
while let Some(ev) = ring.pop() {
result.push(ev);
}
}
result
}
pub fn drain_midi_outputs(&self) -> Vec<crate::midi::io::MidiEvent> {
let mut result = Vec::new();
if let Some(ref mapping) = self.mapping {
let ring = unsafe {
let buf = midi_out_ring_ptr(mapping.as_ptr(), 0);
let (w, r) = midi_out_indices(mapping.as_ptr(), 0);
RingBuffer::new(buf, w, r, RING_CAPACITY)
};
while let Some(ev) = ring.pop() {
result.push(crate::midi::io::MidiEvent {
frame: ev.sample_offset,
data: ev.data.to_vec(),
});
}
}
result
}
}
impl Drop for Lv2Processor {
fn drop(&mut self) {
let mapping = self.mapping.take();
let events = self.events.take();
let child = self.child.get_mut().take();
let shm_name = std::mem::take(&mut self.shm_name);
ipc::drop_host(mapping, events, child, shm_name);
}
}
#[cfg(test)]
mod tests {
use super::*;
fn find_host_binary() -> PathBuf {
ipc::find_plugin_host_binary().expect("maolan-plugin-host binary should be built for tests")
}
#[cfg_attr(
all(miri, target_os = "freebsd"),
ignore = "plugin host discovery/runtime uses OS facilities not supported by Miri on FreeBSD"
)]
#[test]
fn find_host_binary_locates_binary() {
let host_bin = find_host_binary();
assert!(
host_bin.exists(),
"plugin-host binary should exist at {}",
host_bin.display()
);
}
#[cfg_attr(
all(miri, target_os = "freebsd"),
ignore = "plugin host discovery/runtime uses OS facilities not supported by Miri on FreeBSD"
)]
#[test]
fn lv2_processor_crash_bypass() {
let host_bin = find_host_binary();
let processor = Lv2Processor::new(48000.0, 256, "__crash__", 1, 1, host_bin)
.expect("should create LV2 processor for crash test");
processor.setup_audio_ports();
let input_buffers = [vec![1.0; 256]];
let mut output_buffers = [vec![0.0; 256]];
let inputs = input_buffers.iter().map(Vec::as_slice).collect::<Vec<_>>();
let mut outputs = output_buffers
.iter_mut()
.map(Vec::as_mut_slice)
.collect::<Vec<_>>();
processor.process_with_audio_buffers(256, &inputs, &mut outputs);
let out_buf = &output_buffers[0];
let first_few: Vec<f32> = out_buf.iter().take(10).copied().collect();
assert!(
out_buf.iter().all(|&s| s == 1.0),
"after crash, output should be bypass copy of input, got: {:?}",
first_few
);
}
}