| // Copyright 2018 The Chromium OS Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| use std; |
| use std::error::Error; |
| use std::fmt::{self, Display}; |
| use std::io::Write; |
| use std::os::unix::io::RawFd; |
| use std::sync::atomic::{AtomicBool, Ordering}; |
| use std::sync::Arc; |
| use std::thread; |
| use std::time::Instant; |
| |
| use audio_streams::{ |
| capture::{CaptureBuffer, CaptureBufferStream}, |
| PlaybackBuffer, PlaybackBufferStream, SampleFormat, StreamControl, StreamSource, |
| }; |
| use data_model::{VolatileMemory, VolatileSlice}; |
| use sync::Mutex; |
| use sys_util::{ |
| self, error, set_rt_prio_limit, set_rt_round_robin, warn, EventFd, GuestAddress, GuestMemory, |
| }; |
| |
| use crate::pci::ac97_mixer::Ac97Mixer; |
| use crate::pci::ac97_regs::*; |
| |
| const DEVICE_SAMPLE_RATE: usize = 48000; |
| |
| // Bus Master registers. Keeps the state of the bus master register values. Used to share the state |
| // between the main and audio threads. |
| struct Ac97BusMasterRegs { |
| pi_regs: Ac97FunctionRegs, // Input |
| po_regs: Ac97FunctionRegs, // Output |
| po_pointer_update_time: Instant, // Time the picb and civ regs were last updated. |
| mc_regs: Ac97FunctionRegs, // Microphone |
| glob_cnt: u32, |
| glob_sta: u32, |
| |
| // IRQ event - driven by the glob_sta register. |
| irq_evt: Option<EventFd>, |
| } |
| |
| impl Ac97BusMasterRegs { |
| fn new() -> Ac97BusMasterRegs { |
| Ac97BusMasterRegs { |
| pi_regs: Ac97FunctionRegs::new(), |
| po_regs: Ac97FunctionRegs::new(), |
| po_pointer_update_time: Instant::now(), |
| mc_regs: Ac97FunctionRegs::new(), |
| glob_cnt: 0, |
| glob_sta: GLOB_STA_RESET_VAL, |
| irq_evt: None, |
| } |
| } |
| |
| fn func_regs(&self, func: Ac97Function) -> &Ac97FunctionRegs { |
| match func { |
| Ac97Function::Input => &self.pi_regs, |
| Ac97Function::Output => &self.po_regs, |
| Ac97Function::Microphone => &self.mc_regs, |
| } |
| } |
| |
| fn func_regs_mut(&mut self, func: Ac97Function) -> &mut Ac97FunctionRegs { |
| match func { |
| Ac97Function::Input => &mut self.pi_regs, |
| Ac97Function::Output => &mut self.po_regs, |
| Ac97Function::Microphone => &mut self.mc_regs, |
| } |
| } |
| } |
| |
| // Internal error type used for reporting errors from guest memory reading. |
| #[derive(Debug)] |
| enum GuestMemoryError { |
| // Failure getting the address of the audio buffer. |
| ReadingGuestBufferAddress(sys_util::GuestMemoryError), |
| // Failure reading samples from guest memory. |
| ReadingGuestSamples(data_model::VolatileMemoryError), |
| } |
| |
| impl std::error::Error for GuestMemoryError {} |
| |
| impl Display for GuestMemoryError { |
| fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { |
| use self::GuestMemoryError::*; |
| |
| match self { |
| ReadingGuestBufferAddress(e) => { |
| write!(f, "Failed to get the address of the audio buffer: {}.", e) |
| } |
| ReadingGuestSamples(e) => write!(f, "Failed to read samples from guest memory: {}.", e), |
| } |
| } |
| } |
| |
| impl From<GuestMemoryError> for AudioError { |
| fn from(err: GuestMemoryError) -> Self { |
| AudioError::ReadingGuestError(err) |
| } |
| } |
| |
| type GuestMemoryResult<T> = std::result::Result<T, GuestMemoryError>; |
| |
| // Internal error type used for reporting errors from the audio thread. |
| #[derive(Debug)] |
| enum AudioError { |
| // Failure to read guest memory. |
| ReadingGuestError(GuestMemoryError), |
| // Failure to get an buffer from the stream. |
| StreamError(Box<dyn Error>), |
| // Failure writing to the audio output. |
| WritingOutput(std::io::Error), |
| } |
| |
| impl std::error::Error for AudioError {} |
| |
| impl Display for AudioError { |
| fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { |
| use self::AudioError::*; |
| |
| match self { |
| ReadingGuestError(e) => write!(f, "Failed to read guest memory: {}.", e), |
| StreamError(e) => write!(f, "Failed to get a buffer from the stream: {}", e), |
| WritingOutput(e) => write!(f, "Failed to write audio output: {}.", e), |
| } |
| } |
| } |
| |
| type AudioResult<T> = std::result::Result<T, AudioError>; |
| |
| // Audio thread book-keeping data |
| struct AudioThreadInfo { |
| thread: Option<thread::JoinHandle<()>>, |
| thread_run: Arc<AtomicBool>, |
| stream_control: Option<Box<dyn StreamControl>>, |
| } |
| |
| impl AudioThreadInfo { |
| fn new() -> Self { |
| Self { |
| thread: None, |
| thread_run: Arc::new(AtomicBool::new(false)), |
| stream_control: None, |
| } |
| } |
| } |
| |
| /// `Ac97BusMaster` emulates the bus master portion of AC97. It exposes a register read/write |
| /// interface compliant with the ICH bus master. |
| pub struct Ac97BusMaster { |
| // Keep guest memory as each function will use it for buffer descriptors. |
| mem: GuestMemory, |
| regs: Arc<Mutex<Ac97BusMasterRegs>>, |
| acc_sema: u8, |
| |
| // Bookkeeping info for playback and capture stream. |
| po_info: AudioThreadInfo, |
| pi_info: AudioThreadInfo, |
| |
| // Audio server used to create playback or capture streams. |
| audio_server: Box<dyn StreamSource>, |
| |
| // Thread for hadlind IRQ resample events from the guest. |
| irq_resample_thread: Option<thread::JoinHandle<()>>, |
| } |
| |
| impl Ac97BusMaster { |
| /// Creates an Ac97BusMaster` object that plays audio from `mem` to streams provided by |
| /// `audio_server`. |
| pub fn new(mem: GuestMemory, audio_server: Box<dyn StreamSource>) -> Self { |
| Ac97BusMaster { |
| mem, |
| regs: Arc::new(Mutex::new(Ac97BusMasterRegs::new())), |
| acc_sema: 0, |
| |
| po_info: AudioThreadInfo::new(), |
| pi_info: AudioThreadInfo::new(), |
| |
| audio_server, |
| |
| irq_resample_thread: None, |
| } |
| } |
| |
| /// Returns any file descriptors that need to be kept open when entering a jail. |
| pub fn keep_fds(&self) -> Option<Vec<RawFd>> { |
| self.audio_server.keep_fds() |
| } |
| |
| /// Provides the events needed to raise interrupts in the guest. |
| pub fn set_irq_event_fd(&mut self, irq_evt: EventFd, irq_resample_evt: EventFd) { |
| let thread_regs = self.regs.clone(); |
| self.regs.lock().irq_evt = Some(irq_evt); |
| self.irq_resample_thread = Some(thread::spawn(move || { |
| loop { |
| if let Err(e) = irq_resample_evt.read() { |
| error!( |
| "Failed to read the irq event from the resample thread: {}.", |
| e, |
| ); |
| break; |
| } |
| { |
| // Scope for the lock on thread_regs. |
| let regs = thread_regs.lock(); |
| // Check output and input irq |
| let po_int_mask = regs.func_regs(Ac97Function::Output).int_mask(); |
| let pi_int_mask = regs.func_regs(Ac97Function::Input).int_mask(); |
| if regs.func_regs(Ac97Function::Output).sr & po_int_mask != 0 |
| || regs.func_regs(Ac97Function::Input).sr & pi_int_mask != 0 |
| { |
| if let Some(irq_evt) = regs.irq_evt.as_ref() { |
| if let Err(e) = irq_evt.write(1) { |
| error!("Failed to set the irq from the resample thread: {}.", e); |
| break; |
| } |
| } |
| } |
| } |
| } |
| })); |
| } |
| |
| /// Called when `mixer` has been changed and the new values should be applied to currently |
| /// active streams. |
| pub fn update_mixer_settings(&mut self, mixer: &Ac97Mixer) { |
| if let Some(control) = self.po_info.stream_control.as_mut() { |
| // The audio server only supports one volume, not separate left and right. |
| let (muted, left_volume, _right_volume) = mixer.get_master_volume(); |
| control.set_volume(left_volume); |
| control.set_mute(muted); |
| } |
| } |
| |
| /// Checks if the bus master is in the cold reset state. |
| pub fn is_cold_reset(&self) -> bool { |
| self.regs.lock().glob_cnt & GLOB_CNT_COLD_RESET == 0 |
| } |
| |
| /// Reads a byte from the given `offset`. |
| pub fn readb(&mut self, offset: u64) -> u8 { |
| fn readb_func_regs(func_regs: &Ac97FunctionRegs, offset: u64) -> u8 { |
| match offset { |
| CIV_OFFSET => func_regs.civ, |
| LVI_OFFSET => func_regs.lvi, |
| SR_OFFSET => func_regs.sr as u8, |
| PIV_OFFSET => func_regs.piv, |
| CR_OFFSET => func_regs.cr, |
| _ => 0, |
| } |
| } |
| |
| let regs = self.regs.lock(); |
| match offset { |
| PI_BASE_00..=PI_CR_0B => readb_func_regs(®s.pi_regs, offset - PI_BASE_00), |
| PO_BASE_10..=PO_CR_1B => readb_func_regs(®s.po_regs, offset - PO_BASE_10), |
| MC_BASE_20..=MC_CR_2B => readb_func_regs(®s.mc_regs, offset - MC_BASE_20), |
| ACC_SEMA_34 => self.acc_sema, |
| _ => 0, |
| } |
| } |
| |
| /// Reads a word from the given `offset`. |
| pub fn readw(&mut self, offset: u64) -> u16 { |
| let regs = self.regs.lock(); |
| match offset { |
| PI_SR_06 => regs.pi_regs.sr, |
| PI_PICB_08 => regs.pi_regs.picb, |
| PO_SR_16 => regs.po_regs.sr, |
| PO_PICB_18 => { |
| // PO PICB |
| if !self.po_info.thread_run.load(Ordering::Relaxed) { |
| // Not running, no need to estimate what has been consumed. |
| regs.po_regs.picb |
| } else { |
| // Estimate how many samples have been played since the last audio callback. |
| let num_channels = 2; |
| let micros = regs.po_pointer_update_time.elapsed().subsec_micros(); |
| // Round down to the next 10 millisecond boundary. The linux driver often |
| // assumes that two rapid reads from picb will return the same value. |
| let millis = micros / 1000 / 10 * 10; |
| |
| let frames_consumed = DEVICE_SAMPLE_RATE as u64 * u64::from(millis) / 1000; |
| |
| regs.po_regs |
| .picb |
| .saturating_sub((num_channels * frames_consumed) as u16) |
| } |
| } |
| MC_SR_26 => regs.mc_regs.sr, |
| MC_PICB_28 => regs.mc_regs.picb, |
| _ => 0, |
| } |
| } |
| |
| /// Reads a 32-bit word from the given `offset`. |
| pub fn readl(&mut self, offset: u64) -> u32 { |
| let regs = self.regs.lock(); |
| match offset { |
| PI_BDBAR_00 => regs.pi_regs.bdbar, |
| PI_CIV_04 => regs.pi_regs.atomic_status_regs(), |
| PO_BDBAR_10 => regs.po_regs.bdbar, |
| PO_CIV_14 => regs.po_regs.atomic_status_regs(), |
| MC_BDBAR_20 => regs.mc_regs.bdbar, |
| MC_CIV_24 => regs.mc_regs.atomic_status_regs(), |
| GLOB_CNT_2C => regs.glob_cnt, |
| GLOB_STA_30 => regs.glob_sta, |
| _ => 0, |
| } |
| } |
| |
| /// Writes the byte `val` to the register specified by `offset`. |
| pub fn writeb(&mut self, offset: u64, val: u8, mixer: &Ac97Mixer) { |
| // Only process writes to the control register when cold reset is set. |
| if self.is_cold_reset() { |
| return; |
| } |
| |
| match offset { |
| PI_CIV_04 => (), // RO |
| PI_LVI_05 => self.set_lvi(Ac97Function::Input, val), |
| PI_SR_06 => self.set_sr(Ac97Function::Input, u16::from(val)), |
| PI_PIV_0A => (), // RO |
| PI_CR_0B => self.set_cr(Ac97Function::Input, val, mixer), |
| PO_CIV_14 => (), // RO |
| PO_LVI_15 => self.set_lvi(Ac97Function::Output, val), |
| PO_SR_16 => self.set_sr(Ac97Function::Output, u16::from(val)), |
| PO_PIV_1A => (), // RO |
| PO_CR_1B => self.set_cr(Ac97Function::Output, val, mixer), |
| MC_CIV_24 => (), // RO |
| MC_LVI_25 => self.set_lvi(Ac97Function::Microphone, val), |
| MC_PIV_2A => (), // RO |
| MC_CR_2B => self.set_cr(Ac97Function::Microphone, val, mixer), |
| ACC_SEMA_34 => self.acc_sema = val, |
| o => warn!("write byte to 0x{:x}", o), |
| } |
| } |
| |
| /// Writes the word `val` to the register specified by `offset`. |
| pub fn writew(&mut self, offset: u64, val: u16) { |
| // Only process writes to the control register when cold reset is set. |
| if self.is_cold_reset() { |
| return; |
| } |
| match offset { |
| PI_SR_06 => self.set_sr(Ac97Function::Input, val), |
| PI_PICB_08 => (), // RO |
| PO_SR_16 => self.set_sr(Ac97Function::Output, val), |
| PO_PICB_18 => (), // RO |
| MC_SR_26 => self.set_sr(Ac97Function::Microphone, val), |
| MC_PICB_28 => (), // RO |
| o => warn!("write word to 0x{:x}", o), |
| } |
| } |
| |
| /// Writes the 32-bit `val` to the register specified by `offset`. |
| pub fn writel(&mut self, offset: u64, val: u32) { |
| // Only process writes to the control register when cold reset is set. |
| if self.is_cold_reset() && offset != 0x2c { |
| return; |
| } |
| match offset { |
| PI_BDBAR_00 => self.set_bdbar(Ac97Function::Input, val), |
| PO_BDBAR_10 => self.set_bdbar(Ac97Function::Output, val), |
| MC_BDBAR_20 => self.set_bdbar(Ac97Function::Microphone, val), |
| GLOB_CNT_2C => self.set_glob_cnt(val), |
| GLOB_STA_30 => (), // RO |
| o => warn!("write long to 0x{:x}", o), |
| } |
| } |
| |
| fn set_bdbar(&mut self, func: Ac97Function, val: u32) { |
| self.regs.lock().func_regs_mut(func).bdbar = val & !0x07; |
| } |
| |
| fn set_lvi(&mut self, func: Ac97Function, val: u8) { |
| let mut regs = self.regs.lock(); |
| let func_regs = regs.func_regs_mut(func); |
| func_regs.lvi = val % 32; // LVI wraps at 32. |
| |
| // If running and stalled waiting for more valid buffers, restart by clearing the "DMA |
| // stopped" bit. |
| if func_regs.cr & CR_RPBM == CR_RPBM |
| && func_regs.sr & SR_DCH == SR_DCH |
| && func_regs.civ != func_regs.lvi |
| { |
| func_regs.sr &= !(SR_DCH | SR_CELV); |
| } |
| } |
| |
| fn set_sr(&mut self, func: Ac97Function, val: u16) { |
| let mut sr = self.regs.lock().func_regs(func).sr; |
| if val & SR_FIFOE != 0 { |
| sr &= !SR_FIFOE; |
| } |
| if val & SR_LVBCI != 0 { |
| sr &= !SR_LVBCI; |
| } |
| if val & SR_BCIS != 0 { |
| sr &= !SR_BCIS; |
| } |
| update_sr(&mut self.regs.lock(), func, sr); |
| } |
| |
| fn set_cr(&mut self, func: Ac97Function, val: u8, mixer: &Ac97Mixer) { |
| if val & CR_RR != 0 { |
| let mut regs = self.regs.lock(); |
| Self::reset_func_regs(&mut regs, func); |
| } else { |
| let cr = self.regs.lock().func_regs(func).cr; |
| if val & CR_RPBM == 0 { |
| // Run/Pause set to pause. |
| self.stop_audio(func); |
| let mut regs = self.regs.lock(); |
| regs.func_regs_mut(func).sr |= SR_DCH; |
| } else if cr & CR_RPBM == 0 { |
| // Not already running. |
| // Run/Pause set to run. |
| { |
| let mut regs = self.regs.lock(); |
| let func_regs = regs.func_regs_mut(func); |
| func_regs.piv = 1; |
| func_regs.civ = 0; |
| func_regs.sr &= !SR_DCH; |
| } |
| if let Err(e) = self.start_audio(func, mixer) { |
| warn!("Failed to start audio: {}", e); |
| } |
| } |
| let mut regs = self.regs.lock(); |
| regs.func_regs_mut(func).cr = val & CR_VALID_MASK; |
| } |
| } |
| |
| fn set_glob_cnt(&mut self, new_glob_cnt: u32) { |
| // Only the reset bits are emulated, the GPI and PCM formatting are not supported. |
| if new_glob_cnt & GLOB_CNT_COLD_RESET == 0 { |
| self.reset_audio_regs(); |
| |
| let mut regs = self.regs.lock(); |
| regs.glob_cnt = new_glob_cnt & GLOB_CNT_STABLE_BITS; |
| self.acc_sema = 0; |
| return; |
| } |
| if new_glob_cnt & GLOB_CNT_WARM_RESET != 0 { |
| // Check if running and if so, ignore. Warm reset is specified to no-op when the device |
| // is playing or recording audio. |
| if !self.po_info.thread_run.load(Ordering::Relaxed) |
| && !self.pi_info.thread_run.load(Ordering::Relaxed) |
| { |
| self.stop_all_audio(); |
| let mut regs = self.regs.lock(); |
| regs.glob_cnt = new_glob_cnt & !GLOB_CNT_WARM_RESET; // Auto-cleared reset bit. |
| return; |
| } |
| } |
| self.regs.lock().glob_cnt = new_glob_cnt; |
| } |
| |
| fn start_audio(&mut self, func: Ac97Function, mixer: &Ac97Mixer) -> Result<(), Box<dyn Error>> { |
| const AUDIO_THREAD_RTPRIO: u16 = 10; // Matches other cros audio clients. |
| |
| let thread_info = match func { |
| Ac97Function::Microphone => return Ok(()), |
| Ac97Function::Input => &mut self.pi_info, |
| Ac97Function::Output => &mut self.po_info, |
| }; |
| |
| let num_channels = 2; |
| let buffer_samples = current_buffer_size(self.regs.lock().func_regs(func), &self.mem)?; |
| let buffer_frames = buffer_samples / num_channels; |
| thread_info.thread_run.store(true, Ordering::Relaxed); |
| let thread_run = thread_info.thread_run.clone(); |
| let thread_mem = self.mem.clone(); |
| let thread_regs = self.regs.clone(); |
| |
| match func { |
| Ac97Function::Input => { |
| let (stream_control, input_stream) = self.audio_server.new_capture_stream( |
| num_channels, |
| SampleFormat::S16LE, |
| DEVICE_SAMPLE_RATE, |
| buffer_frames, |
| )?; |
| self.pi_info.stream_control = Some(stream_control); |
| self.update_mixer_settings(mixer); |
| |
| self.pi_info.thread = Some(thread::spawn(move || { |
| if set_rt_prio_limit(u64::from(AUDIO_THREAD_RTPRIO)).is_err() |
| || set_rt_round_robin(i32::from(AUDIO_THREAD_RTPRIO)).is_err() |
| { |
| warn!("Failed to set audio thread to real time."); |
| } |
| if let Err(e) = |
| audio_in_thread(thread_regs, thread_mem, &thread_run, input_stream) |
| { |
| error!("Capture error: {}", e); |
| } |
| thread_run.store(false, Ordering::Relaxed); |
| })); |
| } |
| Ac97Function::Output => { |
| let (stream_control, output_stream) = self.audio_server.new_playback_stream( |
| num_channels, |
| SampleFormat::S16LE, |
| DEVICE_SAMPLE_RATE, |
| buffer_frames, |
| )?; |
| self.po_info.stream_control = Some(stream_control); |
| self.update_mixer_settings(mixer); |
| |
| self.po_info.thread = Some(thread::spawn(move || { |
| if set_rt_prio_limit(u64::from(AUDIO_THREAD_RTPRIO)).is_err() |
| || set_rt_round_robin(i32::from(AUDIO_THREAD_RTPRIO)).is_err() |
| { |
| warn!("Failed to set audio thread to real time."); |
| } |
| if let Err(e) = |
| audio_out_thread(thread_regs, thread_mem, &thread_run, output_stream) |
| { |
| error!("Playback error: {}", e); |
| } |
| thread_run.store(false, Ordering::Relaxed); |
| })); |
| } |
| Ac97Function::Microphone => (), |
| }; |
| Ok(()) |
| } |
| |
| fn stop_audio(&mut self, func: Ac97Function) { |
| let thread_info = match func { |
| Ac97Function::Microphone => return, |
| Ac97Function::Input => &mut self.pi_info, |
| Ac97Function::Output => &mut self.po_info, |
| }; |
| thread_info.thread_run.store(false, Ordering::Relaxed); |
| if let Some(thread) = thread_info.thread.take() { |
| if let Err(e) = thread.join() { |
| error!("Failed to join {:?} thread: {:?}.", func, e); |
| } |
| } |
| } |
| |
| fn stop_all_audio(&mut self) { |
| self.stop_audio(Ac97Function::Input); |
| self.stop_audio(Ac97Function::Output); |
| self.stop_audio(Ac97Function::Microphone); |
| } |
| |
| // Helper function for resetting function registers. |
| fn reset_func_regs(regs: &mut Ac97BusMasterRegs, func: Ac97Function) { |
| regs.func_regs_mut(func).do_reset(); |
| update_sr(regs, func, SR_DCH); |
| } |
| |
| fn reset_audio_regs(&mut self) { |
| self.stop_all_audio(); |
| let mut regs = self.regs.lock(); |
| Self::reset_func_regs(&mut regs, Ac97Function::Input); |
| Self::reset_func_regs(&mut regs, Ac97Function::Output); |
| Self::reset_func_regs(&mut regs, Ac97Function::Microphone); |
| } |
| } |
| |
| // Gets the next buffer from the guest. This will return `None` if the DMA controlled stopped bit is |
| // set, such as after an underrun where CIV hits LVI. |
| fn next_guest_buffer<'a>( |
| func_regs: &mut Ac97FunctionRegs, |
| mem: &'a GuestMemory, |
| ) -> GuestMemoryResult<Option<VolatileSlice<'a>>> { |
| let sample_size = 2; |
| |
| if func_regs.sr & SR_DCH != 0 { |
| return Ok(None); |
| } |
| let next_buffer = func_regs.civ; |
| let descriptor_addr = func_regs.bdbar + u32::from(next_buffer) * DESCRIPTOR_LENGTH as u32; |
| let buffer_addr_reg: u32 = mem |
| .read_obj_from_addr(GuestAddress(u64::from(descriptor_addr))) |
| .map_err(GuestMemoryError::ReadingGuestBufferAddress)?; |
| let buffer_addr = buffer_addr_reg & !0x03u32; // The address must be aligned to four bytes. |
| let control_reg: u32 = mem |
| .read_obj_from_addr(GuestAddress(u64::from(descriptor_addr) + 4)) |
| .map_err(GuestMemoryError::ReadingGuestBufferAddress)?; |
| let buffer_samples: usize = control_reg as usize & 0x0000_ffff; |
| |
| func_regs.picb = buffer_samples as u16; |
| |
| let samples_remaining = func_regs.picb as usize; |
| if samples_remaining == 0 { |
| return Ok(None); |
| } |
| let read_pos = u64::from(buffer_addr); |
| Ok(Some( |
| mem.get_slice(read_pos, samples_remaining as u64 * sample_size) |
| .map_err(GuestMemoryError::ReadingGuestSamples)?, |
| )) |
| } |
| |
| // Reads the next buffer from guest memory and writes it to `out_buffer`. |
| fn play_buffer( |
| regs: &mut Ac97BusMasterRegs, |
| mem: &GuestMemory, |
| out_buffer: &mut PlaybackBuffer, |
| ) -> AudioResult<()> { |
| // If the current buffer had any samples in it, mark it as done. |
| if regs.func_regs_mut(Ac97Function::Output).picb > 0 { |
| buffer_completed(regs, mem, Ac97Function::Output)? |
| } |
| let func_regs = regs.func_regs_mut(Ac97Function::Output); |
| let buffer_len = func_regs.picb * 2; |
| if let Some(buffer) = next_guest_buffer(func_regs, mem)? { |
| out_buffer.copy_cb(buffer.size() as usize, |out| buffer.copy_to(out)); |
| } else { |
| let zeros = vec![0u8; buffer_len as usize]; |
| out_buffer |
| .write(&zeros) |
| .map_err(AudioError::WritingOutput)?; |
| } |
| Ok(()) |
| } |
| |
| // Marks the current buffer completed and moves to the next buffer for the given |
| // function and registers. |
| fn buffer_completed( |
| regs: &mut Ac97BusMasterRegs, |
| mem: &GuestMemory, |
| func: Ac97Function, |
| ) -> GuestMemoryResult<()> { |
| // check if the completed descriptor wanted an interrupt on completion. |
| let civ = regs.func_regs(func).civ; |
| let descriptor_addr = regs.func_regs(func).bdbar + u32::from(civ) * DESCRIPTOR_LENGTH as u32; |
| let control_reg: u32 = mem |
| .read_obj_from_addr(GuestAddress(u64::from(descriptor_addr) + 4)) |
| .map_err(GuestMemoryError::ReadingGuestBufferAddress)?; |
| |
| let mut new_sr = regs.func_regs(func).sr & !SR_CELV; |
| if control_reg & BD_IOC != 0 { |
| new_sr |= SR_BCIS; |
| } |
| |
| let lvi = regs.func_regs(func).lvi; |
| // if the current buffer was the last valid buffer, then update the status register to |
| // indicate that the end of audio was hit and possibly raise an interrupt. |
| if civ == lvi { |
| new_sr |= SR_DCH | SR_CELV | SR_LVBCI; |
| } else { |
| regs.func_regs_mut(func).move_to_next_buffer(); |
| } |
| |
| update_sr(regs, func, new_sr); |
| |
| regs.func_regs_mut(func).picb = current_buffer_size(regs.func_regs(func), &mem)? as u16; |
| if func == Ac97Function::Output { |
| regs.po_pointer_update_time = Instant::now(); |
| } |
| |
| Ok(()) |
| } |
| |
| // Runs, playing back audio from the guest to `output_stream` until stopped or an error occurs. |
| fn audio_out_thread( |
| regs: Arc<Mutex<Ac97BusMasterRegs>>, |
| mem: GuestMemory, |
| thread_run: &AtomicBool, |
| mut output_stream: Box<dyn PlaybackBufferStream>, |
| ) -> AudioResult<()> { |
| while thread_run.load(Ordering::Relaxed) { |
| output_stream |
| .next_playback_buffer() |
| .map_err(AudioError::StreamError) |
| .and_then(|mut pb_buf| play_buffer(&mut regs.lock(), &mem, &mut pb_buf))?; |
| } |
| Ok(()) |
| } |
| |
| // Reads samples from `in_buffer` and writes it to the next buffer from guest memory. |
| fn capture_buffer( |
| regs: &mut Ac97BusMasterRegs, |
| mem: &GuestMemory, |
| in_buffer: &mut CaptureBuffer, |
| ) -> AudioResult<()> { |
| // If the current buffer had any samples in it, mark it as done. |
| if regs.func_regs_mut(Ac97Function::Input).picb > 0 { |
| buffer_completed(regs, mem, Ac97Function::Input)? |
| } |
| let func_regs = regs.func_regs_mut(Ac97Function::Input); |
| if let Some(buffer) = next_guest_buffer(func_regs, mem)? { |
| in_buffer.copy_cb(buffer.size() as usize, |inb| buffer.copy_from(inb)) |
| } |
| Ok(()) |
| } |
| |
| // Runs, capturing audio from `input_stream` to the guest until stopped or an error occurs. |
| fn audio_in_thread( |
| regs: Arc<Mutex<Ac97BusMasterRegs>>, |
| mem: GuestMemory, |
| thread_run: &AtomicBool, |
| mut input_stream: Box<dyn CaptureBufferStream>, |
| ) -> AudioResult<()> { |
| while thread_run.load(Ordering::Relaxed) { |
| input_stream |
| .next_capture_buffer() |
| .map_err(AudioError::StreamError) |
| .and_then(|mut cp_buf| capture_buffer(&mut regs.lock(), &mem, &mut cp_buf))?; |
| } |
| Ok(()) |
| } |
| |
| // Update the status register and if any interrupts need to fire, raise them. |
| fn update_sr(regs: &mut Ac97BusMasterRegs, func: Ac97Function, val: u16) { |
| let int_mask = match func { |
| Ac97Function::Input => GS_PIINT, |
| Ac97Function::Output => GS_POINT, |
| Ac97Function::Microphone => GS_MINT, |
| }; |
| |
| let mut interrupt_high = false; |
| |
| { |
| let func_regs = regs.func_regs_mut(func); |
| let old_sr = func_regs.sr; |
| func_regs.sr = val; |
| if (old_sr ^ val) & SR_INT_MASK != 0 { |
| if (val & SR_LVBCI) != 0 && (func_regs.cr & CR_LVBIE) != 0 { |
| interrupt_high = true; |
| } |
| if (val & SR_BCIS) != 0 && (func_regs.cr & CR_IOCE) != 0 { |
| interrupt_high = true; |
| } |
| } else { |
| return; |
| } |
| } |
| |
| if interrupt_high { |
| regs.glob_sta |= int_mask; |
| if let Some(irq_evt) = regs.irq_evt.as_ref() { |
| // Ignore write failure, nothing can be done about it from here. |
| let _ = irq_evt.write(1); |
| } |
| } else { |
| regs.glob_sta &= !int_mask; |
| } |
| } |
| |
| // Returns the size in samples of the buffer pointed to by the CIV register. |
| fn current_buffer_size( |
| func_regs: &Ac97FunctionRegs, |
| mem: &GuestMemory, |
| ) -> GuestMemoryResult<usize> { |
| let civ = func_regs.civ; |
| let descriptor_addr = func_regs.bdbar + u32::from(civ) * DESCRIPTOR_LENGTH as u32; |
| let control_reg: u32 = mem |
| .read_obj_from_addr(GuestAddress(u64::from(descriptor_addr) + 4)) |
| .map_err(GuestMemoryError::ReadingGuestBufferAddress)?; |
| let buffer_len: usize = control_reg as usize & 0x0000_ffff; |
| Ok(buffer_len) |
| } |
| |
| #[cfg(test)] |
| mod test { |
| use super::*; |
| |
| use std::time; |
| |
| use audio_streams::DummyStreamSource; |
| |
| #[test] |
| fn bm_bdbar() { |
| let mut bm = Ac97BusMaster::new( |
| GuestMemory::new(&[]).expect("Creating guest memory failed."), |
| Box::new(DummyStreamSource::new()), |
| ); |
| |
| let bdbars = [0x00u64, 0x10, 0x20]; |
| |
| // Make sure writes have no affect during cold reset. |
| bm.writel(0x00, 0x5555_555f); |
| assert_eq!(bm.readl(0x00), 0x0000_0000); |
| |
| // Relesase cold reset. |
| bm.writel(GLOB_CNT_2C, 0x0000_0002); |
| |
| // Tests that the base address is writable and that the bottom three bits are read only. |
| for bdbar in &bdbars { |
| assert_eq!(bm.readl(*bdbar), 0x0000_0000); |
| bm.writel(*bdbar, 0x5555_555f); |
| assert_eq!(bm.readl(*bdbar), 0x5555_5558); |
| } |
| } |
| |
| #[test] |
| fn bm_status_reg() { |
| let mut bm = Ac97BusMaster::new( |
| GuestMemory::new(&[]).expect("Creating guest memory failed."), |
| Box::new(DummyStreamSource::new()), |
| ); |
| |
| let sr_addrs = [0x06u64, 0x16, 0x26]; |
| |
| for sr in &sr_addrs { |
| assert_eq!(bm.readw(*sr), 0x0001); |
| bm.writew(*sr, 0xffff); |
| assert_eq!(bm.readw(*sr), 0x0001); |
| } |
| } |
| |
| #[test] |
| fn bm_global_control() { |
| let mut bm = Ac97BusMaster::new( |
| GuestMemory::new(&[]).expect("Creating guest memory failed."), |
| Box::new(DummyStreamSource::new()), |
| ); |
| |
| assert_eq!(bm.readl(GLOB_CNT_2C), 0x0000_0000); |
| |
| // Relesase cold reset. |
| bm.writel(GLOB_CNT_2C, 0x0000_0002); |
| |
| // Check interrupt enable bits are writable. |
| bm.writel(GLOB_CNT_2C, 0x0000_0072); |
| assert_eq!(bm.readl(GLOB_CNT_2C), 0x0000_0072); |
| |
| // A Warm reset should doesn't affect register state and is auto cleared. |
| bm.writel(0x00, 0x5555_5558); |
| bm.writel(GLOB_CNT_2C, 0x0000_0076); |
| assert_eq!(bm.readl(GLOB_CNT_2C), 0x0000_0072); |
| assert_eq!(bm.readl(0x00), 0x5555_5558); |
| // Check that a cold reset works, but setting bdbar and checking it is zeroed. |
| bm.writel(0x00, 0x5555_555f); |
| bm.writel(GLOB_CNT_2C, 0x000_0070); |
| assert_eq!(bm.readl(GLOB_CNT_2C), 0x0000_0070); |
| assert_eq!(bm.readl(0x00), 0x0000_0000); |
| } |
| |
| #[test] |
| fn start_playback() { |
| const LVI_MASK: u8 = 0x1f; // Five bits for 32 total entries. |
| const IOC_MASK: u32 = 0x8000_0000; // Interrupt on completion. |
| let num_buffers = LVI_MASK as usize + 1; |
| const BUFFER_SIZE: usize = 32768; |
| const FRAGMENT_SIZE: usize = BUFFER_SIZE / 2; |
| |
| const GUEST_ADDR_BASE: u32 = 0x100_0000; |
| let mem = GuestMemory::new(&[(GuestAddress(GUEST_ADDR_BASE as u64), 1024 * 1024 * 1024)]) |
| .expect("Creating guest memory failed."); |
| let mut bm = Ac97BusMaster::new(mem.clone(), Box::new(DummyStreamSource::new())); |
| let mixer = Ac97Mixer::new(); |
| |
| // Release cold reset. |
| bm.writel(GLOB_CNT_2C, 0x0000_0002); |
| |
| // Setup ping-pong buffers. A and B repeating for every possible index. |
| bm.writel(PO_BDBAR_10, GUEST_ADDR_BASE); |
| for i in 0..num_buffers { |
| let pointer_addr = GuestAddress(GUEST_ADDR_BASE as u64 + i as u64 * 8); |
| let control_addr = GuestAddress(GUEST_ADDR_BASE as u64 + i as u64 * 8 + 4); |
| if i % 2 == 0 { |
| mem.write_obj_at_addr(GUEST_ADDR_BASE, pointer_addr) |
| .expect("Writing guest memory failed."); |
| } else { |
| mem.write_obj_at_addr(GUEST_ADDR_BASE + FRAGMENT_SIZE as u32, pointer_addr) |
| .expect("Writing guest memory failed."); |
| }; |
| mem.write_obj_at_addr(IOC_MASK | (FRAGMENT_SIZE as u32) / 2, control_addr) |
| .expect("Writing guest memory failed."); |
| } |
| |
| bm.writeb(PO_LVI_15, LVI_MASK, &mixer); |
| |
| // Start. |
| bm.writeb(PO_CR_1B, CR_IOCE | CR_RPBM, &mixer); |
| |
| std::thread::sleep(time::Duration::from_millis(50)); |
| let picb = bm.readw(PO_PICB_18); |
| let mut civ = bm.readb(PO_CIV_14); |
| assert_eq!(civ, 0); |
| let pos = (FRAGMENT_SIZE - (picb as usize * 2)) / 4; |
| |
| // Check that frames are consumed at least at a reasonable rate. |
| // This wont be exact as during unit tests the thread scheduling is highly variable, so the |
| // test only checks that some samples are consumed. |
| assert!(pos > 1000); |
| |
| assert!(bm.readw(PO_SR_16) & SR_DCH == 0); // DMA is running. |
| |
| // civ should move eventually. |
| for _i in 0..30 { |
| if civ != 0 { |
| break; |
| } |
| std::thread::sleep(time::Duration::from_millis(20)); |
| civ = bm.readb(PO_CIV_14); |
| } |
| |
| assert_ne!(0, civ); |
| |
| // Buffer complete should be set as the IOC bit was set in the descriptor. |
| assert!(bm.readw(PO_SR_16) & SR_BCIS != 0); |
| // Clear the BCIS bit |
| bm.writew(PO_SR_16, SR_BCIS); |
| assert!(bm.readw(PO_SR_16) & SR_BCIS == 0); |
| |
| // Set last valid to the next and wait until it is hit. |
| bm.writeb(PO_LVI_15, civ + 1, &mixer); |
| std::thread::sleep(time::Duration::from_millis(500)); |
| assert!(bm.readw(PO_SR_16) & SR_LVBCI != 0); // Hit last buffer |
| assert!(bm.readw(PO_SR_16) & SR_DCH == SR_DCH); // DMA stopped because of lack of buffers. |
| assert_eq!(bm.readw(PO_SR_16) & SR_CELV, SR_CELV); |
| assert_eq!(bm.readb(PO_LVI_15), bm.readb(PO_CIV_14)); |
| assert!( |
| bm.readl(GLOB_STA_30) & GS_POINT != 0, |
| "POINT bit should be set." |
| ); |
| // Clear the LVB bit |
| bm.writeb(PO_SR_16, SR_LVBCI as u8, &mixer); |
| assert!(bm.readw(PO_SR_16) & SR_LVBCI == 0); |
| // Reset the LVI to the last buffer and check that playback resumes |
| bm.writeb(PO_LVI_15, LVI_MASK, &mixer); |
| assert!(bm.readw(PO_SR_16) & SR_DCH == 0); // DMA restarts. |
| assert_eq!(bm.readw(PO_SR_16) & SR_CELV, 0); |
| |
| let (restart_civ, restart_picb) = (bm.readb(PO_CIV_14), bm.readw(PO_PICB_18)); |
| std::thread::sleep(time::Duration::from_millis(20)); |
| assert!(bm.readw(PO_PICB_18) != restart_picb || bm.readb(PO_CIV_14) != restart_civ); |
| |
| // Stop. |
| bm.writeb(PO_CR_1B, 0, &mixer); |
| assert!(bm.readw(PO_SR_16) & 0x01 != 0); // DMA is not running. |
| bm.writeb(PO_CR_1B, CR_RR, &mixer); |
| assert!( |
| bm.readl(GLOB_STA_30) & GS_POINT == 0, |
| "POINT bit should be disabled." |
| ); |
| } |
| |
| #[test] |
| fn start_capture() { |
| const LVI_MASK: u8 = 0x1f; // Five bits for 32 total entries. |
| const IOC_MASK: u32 = 0x8000_0000; // Interrupt on completion. |
| let num_buffers = LVI_MASK as usize + 1; |
| const BUFFER_SIZE: usize = 32768; |
| const FRAGMENT_SIZE: usize = BUFFER_SIZE / 2; |
| |
| const GUEST_ADDR_BASE: u32 = 0x100_0000; |
| let mem = GuestMemory::new(&[(GuestAddress(GUEST_ADDR_BASE as u64), 1024 * 1024 * 1024)]) |
| .expect("Creating guest memory failed."); |
| let mut bm = Ac97BusMaster::new(mem.clone(), Box::new(DummyStreamSource::new())); |
| let mixer = Ac97Mixer::new(); |
| |
| // Release cold reset. |
| bm.writel(GLOB_CNT_2C, 0x0000_0002); |
| |
| // Setup ping-pong buffers. |
| bm.writel(PI_BDBAR_00, GUEST_ADDR_BASE); |
| for i in 0..num_buffers { |
| let pointer_addr = GuestAddress(GUEST_ADDR_BASE as u64 + i as u64 * 8); |
| let control_addr = GuestAddress(GUEST_ADDR_BASE as u64 + i as u64 * 8 + 4); |
| mem.write_obj_at_addr(GUEST_ADDR_BASE + FRAGMENT_SIZE as u32, pointer_addr) |
| .expect("Writing guest memory failed."); |
| mem.write_obj_at_addr(IOC_MASK | (FRAGMENT_SIZE as u32) / 2, control_addr) |
| .expect("Writing guest memory failed."); |
| } |
| |
| bm.writeb(PI_LVI_05, LVI_MASK, &mixer); |
| |
| // Start. |
| bm.writeb(PI_CR_0B, CR_IOCE | CR_RPBM, &mixer); |
| assert_eq!(bm.readw(PI_PICB_08), 0); |
| |
| std::thread::sleep(time::Duration::from_millis(50)); |
| let picb = bm.readw(PI_PICB_08); |
| assert!(picb > 1000); |
| assert!(bm.readw(PI_SR_06) & SR_DCH == 0); // DMA is running. |
| |
| // civ should move eventually. |
| for _i in 0..10 { |
| let civ = bm.readb(PI_CIV_04); |
| if civ != 0 { |
| break; |
| } |
| std::thread::sleep(time::Duration::from_millis(20)); |
| } |
| assert_ne!(bm.readb(PI_CIV_04), 0); |
| |
| let civ = bm.readb(PI_CIV_04); |
| // Sets LVI to CIV + 1 to trigger last buffer hit |
| bm.writeb(PI_LVI_05, civ + 1, &mixer); |
| std::thread::sleep(time::Duration::from_millis(5000)); |
| assert_ne!(bm.readw(PI_SR_06) & SR_LVBCI, 0); // Hit last buffer |
| assert_eq!(bm.readw(PI_SR_06) & SR_DCH, SR_DCH); // DMA stopped because of lack of buffers. |
| assert_eq!(bm.readw(PI_SR_06) & SR_CELV, SR_CELV); |
| assert_eq!(bm.readb(PI_LVI_05), bm.readb(PI_CIV_04)); |
| assert!( |
| bm.readl(GLOB_STA_30) & GS_PIINT != 0, |
| "PIINT bit should be set." |
| ); |
| |
| // Clear the LVB bit |
| bm.writeb(PI_SR_06, SR_LVBCI as u8, &mixer); |
| assert!(bm.readw(PI_SR_06) & SR_LVBCI == 0); |
| // Reset the LVI to the last buffer and check that playback resumes |
| bm.writeb(PI_LVI_05, LVI_MASK, &mixer); |
| assert!(bm.readw(PI_SR_06) & SR_DCH == 0); // DMA restarts. |
| assert_eq!(bm.readw(PI_SR_06) & SR_CELV, 0); |
| |
| let restart_civ = bm.readb(PI_CIV_04); |
| std::thread::sleep(time::Duration::from_millis(200)); |
| assert_ne!(bm.readb(PI_CIV_04), restart_civ); |
| |
| // Stop. |
| bm.writeb(PI_CR_0B, 0, &mixer); |
| assert!(bm.readw(PI_SR_06) & 0x01 != 0); // DMA is not running. |
| bm.writeb(PI_CR_0B, CR_RR, &mixer); |
| assert!( |
| bm.readl(GLOB_STA_30) & GS_PIINT == 0, |
| "PIINT bit should be disabled." |
| ); |
| } |
| } |