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|
use bytes::{Bytes, BytesMut};
use libc::{c_int, c_void};
use nix::{Error, Result};
use nix::errno::*;
use nix::sys::aio::*;
use nix::sys::signal::{SaFlags, SigAction, sigaction, SigevNotify, SigHandler, Signal, SigSet};
use nix::sys::time::{TimeSpec, TimeValLike};
use std::io::{Write, Read, Seek, SeekFrom};
use std::ops::Deref;
use std::os::unix::io::AsRawFd;
use std::sync::atomic::{AtomicBool, Ordering};
use std::{thread, time};
use tempfile::tempfile;
// Helper that polls an AioCb for completion or error
fn poll_aio(aiocb: &mut AioCb) -> Result<()> {
loop {
let err = aiocb.error();
if err != Err(Error::from(Errno::EINPROGRESS)) { return err; };
thread::sleep(time::Duration::from_millis(10));
}
}
#[test]
fn test_accessors() {
let mut rbuf = vec![0; 4];
let aiocb = AioCb::from_mut_slice( 1001,
2, //offset
&mut rbuf,
42, //priority
SigevNotify::SigevSignal {
signal: Signal::SIGUSR2,
si_value: 99
},
LioOpcode::LIO_NOP);
assert_eq!(1001, aiocb.fd());
assert_eq!(Some(LioOpcode::LIO_NOP), aiocb.lio_opcode());
assert_eq!(4, aiocb.nbytes());
assert_eq!(2, aiocb.offset());
assert_eq!(42, aiocb.priority());
let sev = aiocb.sigevent().sigevent();
assert_eq!(Signal::SIGUSR2 as i32, sev.sigev_signo);
assert_eq!(99, sev.sigev_value.sival_ptr as i64);
}
// Tests AioCb.cancel. We aren't trying to test the OS's implementation, only
// our bindings. So it's sufficient to check that AioCb.cancel returned any
// AioCancelStat value.
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_cancel() {
let wbuf: &[u8] = b"CDEF";
let f = tempfile().unwrap();
let mut aiocb = AioCb::from_slice( f.as_raw_fd(),
0, //offset
wbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.write().unwrap();
let err = aiocb.error();
assert!(err == Ok(()) || err == Err(Error::from(Errno::EINPROGRESS)));
let cancelstat = aiocb.cancel();
assert!(cancelstat.is_ok());
// Wait for aiocb to complete, but don't care whether it succeeded
let _ = poll_aio(&mut aiocb);
let _ = aiocb.aio_return();
}
// Tests using aio_cancel_all for all outstanding IOs.
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_aio_cancel_all() {
let wbuf: &[u8] = b"CDEF";
let f = tempfile().unwrap();
let mut aiocb = AioCb::from_slice(f.as_raw_fd(),
0, //offset
wbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.write().unwrap();
let err = aiocb.error();
assert!(err == Ok(()) || err == Err(Error::from(Errno::EINPROGRESS)));
let cancelstat = aio_cancel_all(f.as_raw_fd());
assert!(cancelstat.is_ok());
// Wait for aiocb to complete, but don't care whether it succeeded
let _ = poll_aio(&mut aiocb);
let _ = aiocb.aio_return();
}
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_fsync() {
const INITIAL: &[u8] = b"abcdef123456";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut aiocb = AioCb::from_fd( f.as_raw_fd(),
0, //priority
SigevNotify::SigevNone);
let err = aiocb.fsync(AioFsyncMode::O_SYNC);
assert!(err.is_ok());
poll_aio(&mut aiocb).unwrap();
aiocb.aio_return().unwrap();
}
/// `AioCb::fsync` should not modify the `AioCb` object if `libc::aio_fsync` returns
/// an error
// Skip on Linux, because Linux's AIO implementation can't detect errors
// synchronously
#[test]
#[cfg(any(target_os = "freebsd", target_os = "macos"))]
fn test_fsync_error() {
use std::mem;
const INITIAL: &[u8] = b"abcdef123456";
// Create an invalid AioFsyncMode
let mode = unsafe { mem::transmute(666) };
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut aiocb = AioCb::from_fd( f.as_raw_fd(),
0, //priority
SigevNotify::SigevNone);
let err = aiocb.fsync(mode);
assert!(err.is_err());
}
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_aio_suspend() {
const INITIAL: &[u8] = b"abcdef123456";
const WBUF: &[u8] = b"CDEFG";
let timeout = TimeSpec::seconds(10);
let mut rbuf = vec![0; 4];
let rlen = rbuf.len();
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut wcb = AioCb::from_slice( f.as_raw_fd(),
2, //offset
WBUF,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_WRITE);
let mut rcb = AioCb::from_mut_slice( f.as_raw_fd(),
8, //offset
&mut rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_READ);
wcb.write().unwrap();
rcb.read().unwrap();
loop {
{
let cbbuf = [&wcb, &rcb];
assert!(aio_suspend(&cbbuf[..], Some(timeout)).is_ok());
}
if rcb.error() != Err(Error::from(Errno::EINPROGRESS)) &&
wcb.error() != Err(Error::from(Errno::EINPROGRESS)) {
break
}
}
assert!(wcb.aio_return().unwrap() as usize == WBUF.len());
assert!(rcb.aio_return().unwrap() as usize == rlen);
}
// Test a simple aio operation with no completion notification. We must poll
// for completion
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_read() {
const INITIAL: &[u8] = b"abcdef123456";
let mut rbuf = vec![0; 4];
const EXPECT: &[u8] = b"cdef";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
{
let mut aiocb = AioCb::from_mut_slice( f.as_raw_fd(),
2, //offset
&mut rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.read().unwrap();
let err = poll_aio(&mut aiocb);
assert!(err == Ok(()));
assert!(aiocb.aio_return().unwrap() as usize == EXPECT.len());
}
assert!(EXPECT == rbuf.deref().deref());
}
/// `AioCb::read` should not modify the `AioCb` object if `libc::aio_read`
/// returns an error
// Skip on Linux, because Linux's AIO implementation can't detect errors
// synchronously
#[test]
#[cfg(any(target_os = "freebsd", target_os = "macos"))]
fn test_read_error() {
const INITIAL: &[u8] = b"abcdef123456";
let mut rbuf = vec![0; 4];
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut aiocb = AioCb::from_mut_slice( f.as_raw_fd(),
-1, //an invalid offset
&mut rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
assert!(aiocb.read().is_err());
}
// Tests from_mut_slice
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_read_into_mut_slice() {
const INITIAL: &[u8] = b"abcdef123456";
let mut rbuf = vec![0; 4];
const EXPECT: &[u8] = b"cdef";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
{
let mut aiocb = AioCb::from_mut_slice( f.as_raw_fd(),
2, //offset
&mut rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.read().unwrap();
let err = poll_aio(&mut aiocb);
assert!(err == Ok(()));
assert!(aiocb.aio_return().unwrap() as usize == EXPECT.len());
}
assert!(rbuf == EXPECT);
}
// Tests from_ptr
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_read_into_pointer() {
const INITIAL: &[u8] = b"abcdef123456";
let mut rbuf = vec![0; 4];
const EXPECT: &[u8] = b"cdef";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
{
// Safety: ok because rbuf lives until after poll_aio
let mut aiocb = unsafe {
AioCb::from_mut_ptr( f.as_raw_fd(),
2, //offset
rbuf.as_mut_ptr() as *mut c_void,
rbuf.len(),
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP)
};
aiocb.read().unwrap();
let err = poll_aio(&mut aiocb);
assert!(err == Ok(()));
assert!(aiocb.aio_return().unwrap() as usize == EXPECT.len());
}
assert!(rbuf == EXPECT);
}
// Test reading into an immutable buffer. It should fail
// FIXME: This test fails to panic on Linux/musl
#[test]
#[should_panic(expected = "Can't read into an immutable buffer")]
#[cfg_attr(target_env = "musl", ignore)]
fn test_read_immutable_buffer() {
let rbuf: &[u8] = b"CDEF";
let f = tempfile().unwrap();
let mut aiocb = AioCb::from_slice( f.as_raw_fd(),
2, //offset
rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.read().unwrap();
}
// Test a simple aio operation with no completion notification. We must poll
// for completion. Unlike test_aio_read, this test uses AioCb::from_slice
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_write() {
const INITIAL: &[u8] = b"abcdef123456";
let wbuf = "CDEF".to_string().into_bytes();
let mut rbuf = Vec::new();
const EXPECT: &[u8] = b"abCDEF123456";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut aiocb = AioCb::from_slice( f.as_raw_fd(),
2, //offset
&wbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.write().unwrap();
let err = poll_aio(&mut aiocb);
assert!(err == Ok(()));
assert!(aiocb.aio_return().unwrap() as usize == wbuf.len());
f.seek(SeekFrom::Start(0)).unwrap();
let len = f.read_to_end(&mut rbuf).unwrap();
assert!(len == EXPECT.len());
assert!(rbuf == EXPECT);
}
// Tests `AioCb::from_bytes`
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_write_bytes() {
const INITIAL: &[u8] = b"abcdef123456";
let wbuf = Bytes::from(&b"CDEF"[..]);
let mut rbuf = Vec::new();
const EXPECT: &[u8] = b"abCDEF123456";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut aiocb = AioCb::from_bytes( f.as_raw_fd(),
2, //offset
wbuf.clone(),
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.write().unwrap();
let err = poll_aio(&mut aiocb);
assert!(err == Ok(()));
assert!(aiocb.aio_return().unwrap() as usize == wbuf.len());
f.seek(SeekFrom::Start(0)).unwrap();
let len = f.read_to_end(&mut rbuf).unwrap();
assert!(len == EXPECT.len());
assert!(rbuf == EXPECT);
}
// Tests `AioCb::from_bytes_mut`
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_read_bytes_mut_big() {
const INITIAL: &[u8] = b"abcdefgh12345678abcdefgh12345678abcdefgh12345678abcdefgh12345678abcdefgh12345678";
// rbuf needs to be larger than 32 bytes (64 on 32-bit systems) so
// BytesMut::clone is implemented by reference.
let rbuf = BytesMut::from(vec![0; 70]);
const EXPECT: &[u8] = b"cdefgh12345678abcdefgh12345678abcdefgh12345678abcdefgh12345678abcdefgh";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut aiocb = AioCb::from_bytes_mut( f.as_raw_fd(),
2, //offset
rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.read().unwrap();
let err = poll_aio(&mut aiocb);
assert_eq!(err, Ok(()));
assert_eq!(aiocb.aio_return().unwrap() as usize, EXPECT.len());
let buffer = aiocb.into_buffer();
assert_eq!(buffer.bytes_mut().unwrap(), EXPECT);
}
// Tests reallocation in `AioCb::from_bytes_mut`
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_read_bytes_mut_small() {
const INITIAL: &[u8] = b"abcdef";
// rbuf needs to be no more than 32 bytes (64 on 32-bit systems) so
// BytesMut::clone is implemented inline.
let rbuf = BytesMut::from(vec![0; 4]);
const EXPECT: &[u8] = b"cdef";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut aiocb = AioCb::from_bytes_mut( f.as_raw_fd(),
2, //offset
rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
aiocb.read().unwrap();
let err = poll_aio(&mut aiocb);
assert_eq!(err, Ok(()));
assert_eq!(aiocb.aio_return().unwrap() as usize, EXPECT.len());
let buffer = aiocb.into_buffer();
assert_eq!(buffer.bytes_mut().unwrap(), EXPECT);
}
// Tests `AioCb::from_ptr`
#[test]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_write_from_pointer() {
const INITIAL: &[u8] = b"abcdef123456";
let wbuf = "CDEF".to_string().into_bytes();
let mut rbuf = Vec::new();
const EXPECT: &[u8] = b"abCDEF123456";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
// Safety: ok because aiocb outlives poll_aio
let mut aiocb = unsafe {
AioCb::from_ptr( f.as_raw_fd(),
2, //offset
wbuf.as_ptr() as *const c_void,
wbuf.len(),
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP)
};
aiocb.write().unwrap();
let err = poll_aio(&mut aiocb);
assert!(err == Ok(()));
assert!(aiocb.aio_return().unwrap() as usize == wbuf.len());
f.seek(SeekFrom::Start(0)).unwrap();
let len = f.read_to_end(&mut rbuf).unwrap();
assert!(len == EXPECT.len());
assert!(rbuf == EXPECT);
}
/// `AioCb::write` should not modify the `AioCb` object if `libc::aio_write`
/// returns an error
// Skip on Linux, because Linux's AIO implementation can't detect errors
// synchronously
#[test]
#[cfg(any(target_os = "freebsd", target_os = "macos"))]
fn test_write_error() {
let wbuf = "CDEF".to_string().into_bytes();
let mut aiocb = AioCb::from_slice( 666, // An invalid file descriptor
0, //offset
&wbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_NOP);
assert!(aiocb.write().is_err());
}
lazy_static! {
pub static ref SIGNALED: AtomicBool = AtomicBool::new(false);
}
extern fn sigfunc(_: c_int) {
SIGNALED.store(true, Ordering::Relaxed);
}
// Test an aio operation with completion delivered by a signal
// FIXME: This test is ignored on mips because of failures in qemu in CI
#[test]
#[cfg_attr(any(all(target_env = "musl", target_arch = "x86_64"), target_arch = "mips", target_arch = "mips64"), ignore)]
fn test_write_sigev_signal() {
#[allow(unused_variables)]
let m = ::SIGNAL_MTX.lock().expect("Mutex got poisoned by another test");
let sa = SigAction::new(SigHandler::Handler(sigfunc),
SaFlags::SA_RESETHAND,
SigSet::empty());
SIGNALED.store(false, Ordering::Relaxed);
unsafe { sigaction(Signal::SIGUSR2, &sa) }.unwrap();
const INITIAL: &[u8] = b"abcdef123456";
const WBUF: &[u8] = b"CDEF";
let mut rbuf = Vec::new();
const EXPECT: &[u8] = b"abCDEF123456";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
let mut aiocb = AioCb::from_slice( f.as_raw_fd(),
2, //offset
WBUF,
0, //priority
SigevNotify::SigevSignal {
signal: Signal::SIGUSR2,
si_value: 0 //TODO: validate in sigfunc
},
LioOpcode::LIO_NOP);
aiocb.write().unwrap();
while !SIGNALED.load(Ordering::Relaxed) {
thread::sleep(time::Duration::from_millis(10));
}
assert!(aiocb.aio_return().unwrap() as usize == WBUF.len());
f.seek(SeekFrom::Start(0)).unwrap();
let len = f.read_to_end(&mut rbuf).unwrap();
assert!(len == EXPECT.len());
assert!(rbuf == EXPECT);
}
// Test lio_listio with LIO_WAIT, so all AIO ops should be complete by the time
// lio_listio returns.
#[test]
#[cfg(not(any(target_os = "ios", target_os = "macos")))]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_lio_listio_wait() {
const INITIAL: &[u8] = b"abcdef123456";
const WBUF: &[u8] = b"CDEF";
let mut rbuf = vec![0; 4];
let rlen = rbuf.len();
let mut rbuf2 = Vec::new();
const EXPECT: &[u8] = b"abCDEF123456";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
{
let mut wcb = AioCb::from_slice( f.as_raw_fd(),
2, //offset
WBUF,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_WRITE);
let mut rcb = AioCb::from_mut_slice( f.as_raw_fd(),
8, //offset
&mut rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_READ);
let err = lio_listio(LioMode::LIO_WAIT, &[&mut wcb, &mut rcb], SigevNotify::SigevNone);
err.expect("lio_listio failed");
assert!(wcb.aio_return().unwrap() as usize == WBUF.len());
assert!(rcb.aio_return().unwrap() as usize == rlen);
}
assert!(rbuf.deref().deref() == b"3456");
f.seek(SeekFrom::Start(0)).unwrap();
let len = f.read_to_end(&mut rbuf2).unwrap();
assert!(len == EXPECT.len());
assert!(rbuf2 == EXPECT);
}
// Test lio_listio with LIO_NOWAIT and no SigEvent, so we must use some other
// mechanism to check for the individual AioCb's completion.
#[test]
#[cfg(not(any(target_os = "ios", target_os = "macos")))]
#[cfg_attr(all(target_env = "musl", target_arch = "x86_64"), ignore)]
fn test_lio_listio_nowait() {
const INITIAL: &[u8] = b"abcdef123456";
const WBUF: &[u8] = b"CDEF";
let mut rbuf = vec![0; 4];
let rlen = rbuf.len();
let mut rbuf2 = Vec::new();
const EXPECT: &[u8] = b"abCDEF123456";
let mut f = tempfile().unwrap();
f.write_all(INITIAL).unwrap();
{
let mut wcb = AioCb::from_slice( f.as_raw_fd(),
2, //offset
WBUF,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_WRITE);
let mut rcb = AioCb::from_mut_slice( f.as_raw_fd(),
8, //offset
&mut rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_READ);
let err = lio_listio(LioMode::LIO_NOWAIT, &[&mut wcb, &mut rcb], SigevNotify::SigevNone);
err.expect("lio_listio failed");
poll_aio(&mut wcb).unwrap();
poll_aio(&mut rcb).unwrap();
assert!(wcb.aio_return().unwrap() as usize == WBUF.len());
assert!(rcb.aio_return().unwrap() as usize == rlen);
}
assert!(rbuf.deref().deref() == b"3456");
f.seek(SeekFrom::Start(0)).unwrap();
let len = f.read_to_end(&mut rbuf2).unwrap();
assert!(len == EXPECT.len());
assert!(rbuf2 == EXPECT);
}
// Test lio_listio with LIO_NOWAIT and a SigEvent to indicate when all AioCb's
// are complete.
// FIXME: This test is ignored on mips/mips64 because of failures in qemu in CI.
#[test]
#[cfg(not(any(target_os = "ios", target_os = "macos")))]
#[cfg_attr(any(target_arch = "mips", target_arch = "mips64", target_env = "musl"), ignore)]
fn test_lio_listio_signal() {
#[allow(unused_variables)]
let m = ::SIGNAL_MTX.lock().expect("Mutex got poisoned by another test");
const INITIAL: &[u8] = b"abcdef123456";
const WBUF: &[u8] = b"CDEF";
let mut rbuf = vec![0; 4];
let rlen = rbuf.len();
let mut rbuf2 = Vec::new();
const EXPECT: &[u8] = b"abCDEF123456";
let mut f = tempfile().unwrap();
let sa = SigAction::new(SigHandler::Handler(sigfunc),
SaFlags::SA_RESETHAND,
SigSet::empty());
let sigev_notify = SigevNotify::SigevSignal { signal: Signal::SIGUSR2,
si_value: 0 };
f.write_all(INITIAL).unwrap();
{
let mut wcb = AioCb::from_slice( f.as_raw_fd(),
2, //offset
WBUF,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_WRITE);
let mut rcb = AioCb::from_mut_slice( f.as_raw_fd(),
8, //offset
&mut rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_READ);
SIGNALED.store(false, Ordering::Relaxed);
unsafe { sigaction(Signal::SIGUSR2, &sa) }.unwrap();
let err = lio_listio(LioMode::LIO_NOWAIT, &[&mut wcb, &mut rcb], sigev_notify);
err.expect("lio_listio failed");
while !SIGNALED.load(Ordering::Relaxed) {
thread::sleep(time::Duration::from_millis(10));
}
assert!(wcb.aio_return().unwrap() as usize == WBUF.len());
assert!(rcb.aio_return().unwrap() as usize == rlen);
}
assert!(rbuf.deref().deref() == b"3456");
f.seek(SeekFrom::Start(0)).unwrap();
let len = f.read_to_end(&mut rbuf2).unwrap();
assert!(len == EXPECT.len());
assert!(rbuf2 == EXPECT);
}
// Try to use lio_listio to read into an immutable buffer. It should fail
// FIXME: This test fails to panic on Linux/musl
#[test]
#[cfg(not(any(target_os = "ios", target_os = "macos")))]
#[should_panic(expected = "Can't read into an immutable buffer")]
#[cfg_attr(target_env = "musl", ignore)]
fn test_lio_listio_read_immutable() {
let rbuf: &[u8] = b"abcd";
let f = tempfile().unwrap();
let mut rcb = AioCb::from_slice( f.as_raw_fd(),
2, //offset
rbuf,
0, //priority
SigevNotify::SigevNone,
LioOpcode::LIO_READ);
let _ = lio_listio(LioMode::LIO_NOWAIT, &[&mut rcb], SigevNotify::SigevNone);
}
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