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use crate::alsa;
use super::pcm::Info;
use std::ffi::{CStr, CString};
use super::Direction;
use super::error::*;
use super::mixer::MilliBel;
use super::Round;
use std::{ptr, mem, fmt, cmp};
use crate::{Card, poll};
use std::cell::UnsafeCell;
use libc::{c_uint, c_void, size_t, c_long, c_int, pollfd, c_short};
/// We prefer not to allocate for every ElemId, ElemInfo or ElemValue.
/// But we don't know if these will increase in the future or on other platforms.
/// Unfortunately, Rust does not support alloca, so hard-code the sizes for now.
const ELEM_ID_SIZE: usize = 64;
// const ELEM_VALUE_SIZE: usize = 1224;
// const ELEM_INFO_SIZE: usize = 272;
/// [snd_ctl_pcm_next_device](https://www.alsa-project.org/alsa-doc/alsa-lib/control_8c.html#accbb0be6e5ca7361ffec0ea304ed1b05) wrapper.
/// Iterate over devices of a card.
pub struct DeviceIter<'a>(&'a Ctl, c_int);
impl<'a> DeviceIter<'a>{
pub fn new(ctl: &'a Ctl) -> DeviceIter {
DeviceIter(ctl, -1)
}
}
impl<'a> Iterator for DeviceIter<'a> {
type Item = c_int;
fn next(&mut self) -> Option<c_int> {
match acheck!(snd_ctl_pcm_next_device(self.0.0, &mut self.1)) {
Ok(_) if self.1 == -1 => None,
Ok(_) => Some(self.1),
Err(_) => None,
}
}
}
pub struct Ctl(*mut alsa::snd_ctl_t);
unsafe impl Send for Ctl {}
impl Ctl {
/// Wrapper around open that takes a &str instead of a &CStr
pub fn new(c: &str, nonblock: bool) -> Result<Self> {
Self::open(&CString::new(c).unwrap(), nonblock)
}
/// Open does not support async mode (it's not very Rustic anyway)
pub fn open(c: &CStr, nonblock: bool) -> Result<Ctl> {
let mut r = ptr::null_mut();
let flags = if nonblock { 1 } else { 0 }; // FIXME: alsa::SND_CTL_NONBLOCK does not exist in alsa-sys
acheck!(snd_ctl_open(&mut r, c.as_ptr(), flags)).map(|_| Ctl(r))
}
pub fn from_card(c: &Card, nonblock: bool) -> Result<Ctl> {
let s = format!("hw:{}", c.get_index());
Ctl::open(&CString::new(s).unwrap(), nonblock)
}
pub fn card_info(&self) -> Result<CardInfo> { CardInfo::new().and_then(|c|
acheck!(snd_ctl_card_info(self.0, c.0)).map(|_| c)) }
pub fn wait(&self, timeout_ms: Option<u32>) -> Result<bool> {
acheck!(snd_ctl_wait(self.0, timeout_ms.map(|x| x as c_int).unwrap_or(-1))).map(|i| i == 1) }
pub fn get_db_range(&self, id: &ElemId) -> Result<(MilliBel, MilliBel)> {
let mut min: c_long = 0;
let mut max: c_long = 0;
acheck!(snd_ctl_get_dB_range(self.0, elem_id_ptr(id), &mut min, &mut max))
.map(|_| (MilliBel(min as i64), MilliBel(max as i64)))
}
pub fn convert_to_db(&self, id: &ElemId, volume: i64) -> Result<MilliBel> {
let mut m: c_long = 0;
acheck!(snd_ctl_convert_to_dB(self.0, elem_id_ptr(id), volume as c_long, &mut m))
.map(|_| (MilliBel(m as i64)))
}
pub fn convert_from_db(&self, id: &ElemId, mb: MilliBel, dir: Round) -> Result<i64> {
let mut m: c_long = 0;
acheck!(snd_ctl_convert_from_dB(self.0, elem_id_ptr(id), mb.0 as c_long, &mut m, dir as c_int))
.map(|_| m as i64)
}
pub fn elem_read(&self, val: &mut ElemValue) -> Result<()> {
acheck!(snd_ctl_elem_read(self.0, elem_value_ptr(val))).map(|_| ())
}
pub fn elem_write(&self, val: &ElemValue) -> Result<()> {
acheck!(snd_ctl_elem_write(self.0, elem_value_ptr(val))).map(|_| ())
}
pub fn elem_lock(&self, id: &ElemId) -> Result<i32> {
acheck!(snd_ctl_elem_lock(self.0, elem_id_ptr(id)))
}
pub fn elem_unlock(&self, id: &ElemId) -> Result<i32> {
acheck!(snd_ctl_elem_unlock(self.0, elem_id_ptr(id)))
}
/// Note: According to alsa-lib documentation, you're also supposed to have functionality for
/// returning whether or not you are subscribed. This does not work in practice, so I'm not
/// including that here.
pub fn subscribe_events(&self, subscribe: bool) -> Result<()> {
acheck!(snd_ctl_subscribe_events(self.0, if subscribe { 1 } else { 0 })).map(|_| ())
}
pub fn read(&self) -> Result<Option<Event>> {
let e = event_new()?;
acheck!(snd_ctl_read(self.0, e.0)).map(|r| if r == 1 { Some(e) } else { None })
}
pub fn pcm_info(&self, device: u32, subdevice: u32, direction: Direction) -> Result<Info> {
Info::new().and_then(|mut info| {
info.set_device(device);
info.set_subdevice(subdevice);
info.set_stream(direction);
acheck!(snd_ctl_pcm_info(self.0, info.0)).map(|_| info )
})
}
}
impl Drop for Ctl {
fn drop(&mut self) { unsafe { alsa::snd_ctl_close(self.0) }; }
}
impl poll::Descriptors for Ctl {
fn count(&self) -> usize {
unsafe { alsa::snd_ctl_poll_descriptors_count(self.0) as usize }
}
fn fill(&self, p: &mut [pollfd]) -> Result<usize> {
let z = unsafe { alsa::snd_ctl_poll_descriptors(self.0, p.as_mut_ptr(), p.len() as c_uint) };
from_code("snd_ctl_poll_descriptors", z).map(|_| z as usize)
}
fn revents(&self, p: &[pollfd]) -> Result<poll::Flags> {
let mut r = 0;
let z = unsafe { alsa::snd_ctl_poll_descriptors_revents(self.0, p.as_ptr() as *mut pollfd, p.len() as c_uint, &mut r) };
from_code("snd_ctl_poll_descriptors_revents", z).map(|_| poll::Flags::from_bits_truncate(r as c_short))
}
}
pub fn ctl_ptr(a: &Ctl) -> *mut alsa::snd_ctl_t { a.0 }
/// [snd_ctl_card_info_t](http://www.alsa-project.org/alsa-doc/alsa-lib/group___control.html) wrapper
pub struct CardInfo(*mut alsa::snd_ctl_card_info_t);
impl Drop for CardInfo {
fn drop(&mut self) { unsafe { alsa::snd_ctl_card_info_free(self.0) }}
}
impl CardInfo {
fn new() -> Result<CardInfo> {
let mut p = ptr::null_mut();
acheck!(snd_ctl_card_info_malloc(&mut p)).map(|_| CardInfo(p))
}
pub fn get_id(&self) -> Result<&str> {
from_const("snd_ctl_card_info_get_id", unsafe { alsa::snd_ctl_card_info_get_id(self.0) })}
pub fn get_driver(&self) -> Result<&str> {
from_const("snd_ctl_card_info_get_driver", unsafe { alsa::snd_ctl_card_info_get_driver(self.0) })}
pub fn get_components(&self) -> Result<&str> {
from_const("snd_ctl_card_info_get_components", unsafe { alsa::snd_ctl_card_info_get_components(self.0) })}
pub fn get_longname(&self) -> Result<&str> {
from_const("snd_ctl_card_info_get_longname", unsafe { alsa::snd_ctl_card_info_get_longname(self.0) })}
pub fn get_name(&self) -> Result<&str> {
from_const("snd_ctl_card_info_get_name", unsafe { alsa::snd_ctl_card_info_get_name(self.0) })}
pub fn get_mixername(&self) -> Result<&str> {
from_const("snd_ctl_card_info_get_mixername", unsafe { alsa::snd_ctl_card_info_get_mixername(self.0) })}
pub fn get_card(&self) -> Card { Card::new(unsafe { alsa::snd_ctl_card_info_get_card(self.0) })}
}
alsa_enum!(
/// [SND_CTL_ELEM_IFACE_xxx](http://www.alsa-project.org/alsa-doc/alsa-lib/group___control.html) constants
ElemIface, ALL_ELEMIFACE[7],
Card = SND_CTL_ELEM_IFACE_CARD,
Hwdep = SND_CTL_ELEM_IFACE_HWDEP,
Mixer = SND_CTL_ELEM_IFACE_MIXER,
PCM = SND_CTL_ELEM_IFACE_PCM,
Rawmidi = SND_CTL_ELEM_IFACE_RAWMIDI,
Timer = SND_CTL_ELEM_IFACE_TIMER,
Sequencer = SND_CTL_ELEM_IFACE_SEQUENCER,
);
alsa_enum!(
/// [SND_CTL_ELEM_TYPE_xxx](http://www.alsa-project.org/alsa-doc/alsa-lib/group___control.html) constants
ElemType, ALL_ELEMTYPE[7],
None = SND_CTL_ELEM_TYPE_NONE,
Boolean = SND_CTL_ELEM_TYPE_BOOLEAN,
Integer = SND_CTL_ELEM_TYPE_INTEGER,
Enumerated = SND_CTL_ELEM_TYPE_ENUMERATED,
Bytes = SND_CTL_ELEM_TYPE_BYTES,
IEC958 = SND_CTL_ELEM_TYPE_IEC958,
Integer64 = SND_CTL_ELEM_TYPE_INTEGER64,
);
/// [snd_ctl_elem_value_t](http://www.alsa-project.org/alsa-doc/alsa-lib/group___control.html) wrapper
pub struct ElemValue {
ptr: *mut alsa::snd_ctl_elem_value_t,
etype: ElemType,
count: u32,
}
impl Drop for ElemValue {
fn drop(&mut self) { unsafe { alsa::snd_ctl_elem_value_free(self.ptr) }; }
}
pub fn elem_value_ptr(a: &ElemValue) -> *mut alsa::snd_ctl_elem_value_t { a.ptr }
pub fn elem_value_new(t: ElemType, count: u32) -> Result<ElemValue> {
let mut p = ptr::null_mut();
acheck!(snd_ctl_elem_value_malloc(&mut p))
.map(|_| ElemValue { ptr: p, etype: t, count })
}
impl ElemValue {
pub fn set_id(&mut self, id: &ElemId) {
unsafe { alsa::snd_ctl_elem_value_set_id(self.ptr, elem_id_ptr(id)) }
}
// Note: The get_bytes hands out a reference to inside the object. Therefore, we can't treat
// the content as "cell"ed, but must take a "&mut self" (to make sure the reference
// from get_bytes has been dropped when calling a set_* function).
pub fn get_boolean(&self, idx: u32) -> Option<bool> {
if self.etype != ElemType::Boolean || idx >= self.count { None }
else { Some( unsafe { alsa::snd_ctl_elem_value_get_boolean(self.ptr, idx as c_uint) } != 0) }
}
pub fn set_boolean(&mut self, idx: u32, val: bool) -> Option<()> {
if self.etype != ElemType::Boolean || idx >= self.count { None }
else { unsafe { alsa::snd_ctl_elem_value_set_boolean(self.ptr, idx as c_uint, if val {1} else {0}) }; Some(()) }
}
pub fn get_integer(&self, idx: u32) -> Option<i32> {
if self.etype != ElemType::Integer || idx >= self.count { None }
else { Some( unsafe { alsa::snd_ctl_elem_value_get_integer(self.ptr, idx as c_uint) } as i32) }
}
pub fn set_integer(&mut self, idx: u32, val: i32) -> Option<()> {
if self.etype != ElemType::Integer || idx >= self.count { None }
else { unsafe { alsa::snd_ctl_elem_value_set_integer(self.ptr, idx as c_uint, val as c_long) }; Some(()) }
}
pub fn get_integer64(&self, idx: u32) -> Option<i64> {
if self.etype != ElemType::Integer64 || idx >= self.count { None }
else { Some( unsafe { alsa::snd_ctl_elem_value_get_integer64(self.ptr, idx as c_uint) } as i64) }
}
pub fn set_integer64(&mut self, idx: u32, val: i64) -> Option<()> {
if self.etype != ElemType::Integer || idx >= self.count { None }
else { unsafe { alsa::snd_ctl_elem_value_set_integer64(self.ptr, idx as c_uint, val) }; Some(()) }
}
pub fn get_enumerated(&self, idx: u32) -> Option<u32> {
if self.etype != ElemType::Enumerated || idx >= self.count { None }
else { Some( unsafe { alsa::snd_ctl_elem_value_get_enumerated(self.ptr, idx as c_uint) } as u32) }
}
pub fn set_enumerated(&mut self, idx: u32, val: u32) -> Option<()> {
if self.etype != ElemType::Enumerated || idx >= self.count { None }
else { unsafe { alsa::snd_ctl_elem_value_set_enumerated(self.ptr, idx as c_uint, val as c_uint) }; Some(()) }
}
pub fn get_byte(&self, idx: u32) -> Option<u8> {
if self.etype != ElemType::Bytes || idx >= self.count { None }
else { Some( unsafe { alsa::snd_ctl_elem_value_get_byte(self.ptr, idx as c_uint) } as u8) }
}
pub fn set_byte(&mut self, idx: u32, val: u8) -> Option<()> {
if self.etype != ElemType::Bytes || idx >= self.count { None }
else { unsafe { alsa::snd_ctl_elem_value_set_byte(self.ptr, idx as c_uint, val) }; Some(()) }
}
pub fn get_bytes(&self) -> Option<&[u8]> {
if self.etype != ElemType::Bytes { None }
else { Some( unsafe { ::std::slice::from_raw_parts(
alsa::snd_ctl_elem_value_get_bytes(self.ptr) as *const u8, self.count as usize) } ) }
}
pub fn set_bytes(&mut self, val: &[u8]) -> Option<()> {
if self.etype != ElemType::Bytes || val.len() != self.count as usize { None }
// Note: the alsa-lib function definition is broken. First, the pointer is declared as mut even
// though it's const, and second, there is a "value" missing between "elem" and "set_bytes".
else { unsafe { alsa::snd_ctl_elem_set_bytes(self.ptr, val.as_ptr() as *mut c_void, val.len() as size_t) }; Some(()) }
}
/// Creates a new ElemValue.
pub fn new(t: ElemType) -> Result<ElemValue> {
// See max length in include/uapi/sound/asound.h in linux kernel for these values
let count = match t {
ElemType::None => 1,
ElemType::Boolean => 128,
ElemType::Integer => 128,
ElemType::Enumerated => 128,
ElemType::Bytes => 512,
ElemType::IEC958 => 1,
ElemType::Integer64 => 64,
};
// if count > maxcount { return Err(Error::new(Some("ElemValue::new - count too large".into()), 1)) }
let ev = elem_value_new(t, count)?;
unsafe { alsa::snd_ctl_elem_value_clear(elem_value_ptr(&ev)) };
Ok(ev)
}
}
impl fmt::Debug for ElemValue {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
use self::ElemType::*;
write!(f, "ElemValue({:?}", self.etype)?;
for a in 0..self.count { match self.etype {
Boolean => write!(f, ",{:?}", self.get_boolean(a).unwrap()),
Integer => write!(f, ",{:?}", self.get_integer(a).unwrap()),
Integer64 => write!(f, ",{:?}", self.get_integer64(a).unwrap()),
Enumerated => write!(f, ",{:?}", self.get_enumerated(a).unwrap()),
Bytes => write!(f, ",{:?}", self.get_byte(a).unwrap()),
_ => Ok(()),
}?};
write!(f, ")")
}
}
/// [snd_ctl_elem_info_t](http://www.alsa-project.org/alsa-doc/alsa-lib/group___control.html) wrapper
pub struct ElemInfo(*mut alsa::snd_ctl_elem_info_t);
pub fn elem_info_ptr(a: &ElemInfo) -> *mut alsa::snd_ctl_elem_info_t { a.0 }
impl Drop for ElemInfo {
fn drop(&mut self) { unsafe { alsa::snd_ctl_elem_info_free(self.0) }; }
}
pub fn elem_info_new() -> Result<ElemInfo> {
let mut p = ptr::null_mut();
acheck!(snd_ctl_elem_info_malloc(&mut p)).map(|_| ElemInfo(p))
}
impl ElemInfo {
pub fn get_type(&self) -> ElemType { ElemType::from_c_int(
unsafe { alsa::snd_ctl_elem_info_get_type(self.0) } as c_int, "snd_ctl_elem_info_get_type").unwrap() }
pub fn get_count(&self) -> u32 { unsafe { alsa::snd_ctl_elem_info_get_count(self.0) as u32 } }
}
//
// Non-allocating version of ElemId
//
pub struct ElemId(UnsafeCell<[u8; ELEM_ID_SIZE]>);
pub fn elem_id_new() -> Result<ElemId> {
assert!(unsafe { alsa::snd_ctl_elem_id_sizeof() } as usize <= ELEM_ID_SIZE);
Ok(ElemId(UnsafeCell::new(unsafe { mem::zeroed() })))
}
#[inline]
pub fn elem_id_ptr(a: &ElemId) -> *mut alsa::snd_ctl_elem_id_t { a.0.get() as *mut _ as *mut alsa::snd_ctl_elem_id_t }
unsafe impl Send for ElemId {}
impl Clone for ElemId {
fn clone(&self) -> Self {
ElemId(UnsafeCell::new(unsafe { *self.0.get() }))
}
}
//
// Allocating version of ElemId
//
/*
pub struct ElemId(*mut alsa::snd_ctl_elem_id_t);
impl Drop for ElemId {
fn drop(&mut self) { unsafe { alsa::snd_ctl_elem_id_free(self.0) }; }
}
pub fn elem_id_new() -> Result<ElemId> {
let mut p = ptr::null_mut();
acheck!(snd_ctl_elem_id_malloc(&mut p)).map(|_| ElemId(p))
}
pub fn elem_id_ptr(a: &ElemId) -> *mut alsa::snd_ctl_elem_id_t { a.0 }
*/
impl ElemId {
pub fn get_name(&self) -> Result<&str> {
from_const("snd_hctl_elem_id_get_name", unsafe { alsa::snd_ctl_elem_id_get_name(elem_id_ptr(self)) })}
pub fn get_device(&self) -> u32 { unsafe { alsa::snd_ctl_elem_id_get_device(elem_id_ptr(self)) as u32 }}
pub fn get_subdevice(&self) -> u32 { unsafe { alsa::snd_ctl_elem_id_get_subdevice(elem_id_ptr(self)) as u32 }}
pub fn get_numid(&self) -> u32 { unsafe { alsa::snd_ctl_elem_id_get_numid(elem_id_ptr(self)) as u32 }}
pub fn get_index(&self) -> u32 { unsafe { alsa::snd_ctl_elem_id_get_index(elem_id_ptr(self)) as u32 }}
pub fn get_interface(&self) -> ElemIface { ElemIface::from_c_int(
unsafe { alsa::snd_ctl_elem_id_get_interface(elem_id_ptr(self)) } as c_int, "snd_ctl_elem_id_get_interface").unwrap() }
pub fn set_device(&mut self, v: u32) { unsafe { alsa::snd_ctl_elem_id_set_device(elem_id_ptr(self), v) }}
pub fn set_subdevice(&mut self, v: u32) { unsafe { alsa::snd_ctl_elem_id_set_subdevice(elem_id_ptr(self), v) }}
pub fn set_numid(&mut self, v: u32) { unsafe { alsa::snd_ctl_elem_id_set_numid(elem_id_ptr(self), v) }}
pub fn set_index(&mut self, v: u32) { unsafe { alsa::snd_ctl_elem_id_set_index(elem_id_ptr(self), v) }}
pub fn set_interface(&mut self, v: ElemIface) { unsafe { alsa::snd_ctl_elem_id_set_interface(elem_id_ptr(self), v as u32) }}
pub fn set_name(&mut self, v: &CStr) { unsafe { alsa::snd_ctl_elem_id_set_name(elem_id_ptr(self), v.as_ptr()) }}
/// Creates a new ElemId.
///
/// To ensure safety (i e make sure we never have an invalid interface enum), we need to supply it to the "new" function.
pub fn new(iface: ElemIface) -> Self {
let mut r = elem_id_new().unwrap();
r.set_interface(iface);
r
}
}
impl cmp::Eq for ElemId {}
impl cmp::PartialEq for ElemId {
fn eq(&self, a: &ElemId) -> bool {
self.get_numid() == a.get_numid() && self.get_interface() == a.get_interface() &&
self.get_index() == a.get_index() && self.get_device() == a.get_device() &&
self.get_subdevice() == a.get_subdevice() && self.get_name().ok() == a.get_name().ok()
}
}
impl fmt::Debug for ElemId {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let index = self.get_index();
let device = self.get_device();
let subdevice = self.get_subdevice();
write!(f, "ElemId(#{}, {:?}, {:?}", self.get_numid(), self.get_interface(), self.get_name())?;
if index > 0 { write!(f, ", index={}", index)? };
if device > 0 || subdevice > 0 { write!(f, ", device={}", device)? };
if subdevice > 0 { write!(f, ", subdevice={}", device)? };
write!(f, ")")
}
}
pub struct Event(*mut alsa::snd_ctl_event_t);
impl Drop for Event {
fn drop(&mut self) { unsafe { alsa::snd_ctl_event_free(self.0) }; }
}
pub fn event_new() -> Result<Event> {
let mut p = ptr::null_mut();
acheck!(snd_ctl_event_malloc(&mut p)).map(|_| Event(p))
}
impl Event {
pub fn get_mask(&self) -> EventMask { EventMask(unsafe { alsa::snd_ctl_event_elem_get_mask(self.0) as u32 })}
pub fn get_id(&self) -> ElemId {
let r = elem_id_new().unwrap();
unsafe { alsa::snd_ctl_event_elem_get_id(self.0, elem_id_ptr(&r)) };
r
}
}
/// [SND_CTL_EVENT_MASK_XXX](http://www.alsa-project.org/alsa-doc/alsa-lib/group___control.html) bitmask
#[derive(Default, Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd)]
pub struct EventMask(pub u32);
impl EventMask {
pub fn remove(&self) -> bool { return self.0 & 0xffffffff == 0xffffffff }
pub fn value(&self) -> bool { return (!self.remove()) && (self.0 & (1 << 0) != 0); }
pub fn info(&self) -> bool { return (!self.remove()) && (self.0 & (1 << 1) != 0); }
pub fn add(&self) -> bool { return (!self.remove()) && (self.0 & (1 << 2) != 0); }
pub fn tlv(&self) -> bool { return (!self.remove()) && (self.0 & (1 << 3) != 0); }
}
#[test]
fn print_sizeof() {
let elemid = unsafe { alsa::snd_ctl_elem_id_sizeof() } as usize;
let elemvalue = unsafe { alsa::snd_ctl_elem_value_sizeof() } as usize;
let eleminfo = unsafe { alsa::snd_ctl_elem_info_sizeof() } as usize;
assert!(elemid <= ELEM_ID_SIZE);
// assert!(elemvalue <= ELEM_VALUE_SIZE);
// assert!(eleminfo <= ELEM_INFO_SIZE);
println!("Elem id: {}, Elem value: {}, Elem info: {}", elemid, elemvalue, eleminfo);
}