블루투스 헤드폰을 노트북과 한 번 페어링할 수 있습니다. 하지만 헤드폰을 분리하면 다시 연결할 수 없습니다. 작동하는 유일한 방법은 블루투스 데몬을 다시 시작하는 것입니다.
service bluetooth restart
이 작업을 수행하면 로그에 다음이 표시됩니다.
bluetoothd: Terminating
bluetoothd: Stopping hci0 event socket
bluetoothd: Stopping SDP server
bluetoothd: Exit
bluetoothd: Bluetooth daemon 4.99
bluetoothd: Starting SDP server
bluetoothd: Excluding (conf) network
bluetoothd: Excluding (conf) gatt_example
bluetoothd: Excluding (conf) time
bluetoothd: Excluding (conf) alert
bluetoothd: Failed to open RFKILL control device
bluetoothd: Listening for HCI events on hci0
bluetoothd: HCI dev 0 up
bluetoothd: Proximity GATT Reporter Driver: Operation not permitted (1)
bluetoothd: Could not get the contents of DMI chassis type
bluetoothd: Unable to load keys to adapter_ops: Function not implemented (38)
bluetoothd: Adapter /org/bluez/8237/hci0 has been enabled
그러면 헤드폰을 성공적으로 연결할 수 있습니다.
bluetoothd: Can't open input device: No such file or directory (2)
bluetoothd: AVRCP: failed to init uinput for 44:66:a7:81:3C:84
bluetoothd: Badly formated or unrecognized command: AT+XEVENT=Bose SoundLink,158
bluetoothd: Badly formated or unrecognized command: AT+BIA=0,0,0,1,1,1,0
하지만 연결을 끊었다가 다시 연결하려고 하면 작동하지 않고 로그에 아무 것도 표시되지 않습니다.
헤드폰을 연결 해제한 후 다시 연결할 수 없는 이유는 무엇입니까? Bluetooth 데몬을 다시 시작해야 하는 이유는 무엇입니까? 이 문제를 어떻게 해결할 수 있나요?
나는 데비안에서 그것을 사용하고 있습니다 bluez 4.99
.
저는 사용자 정의 커널 4.4를 사용하고 있습니다.
나는 (펄스오디오 없이) alsa를 사용하고 있습니다.
답변1
일부 브랜드의 헤드폰에 문제가 있습니다. 나는 같은 문제가 있었고 블루투스 헤드폰을 다시 연결하는 이 Python 스크립트가 저에게 효과적이었습니다.
Python 3.5 이상이 설치되어 있는지 확인하십시오. 스크립트 사용 방법에 대한 지침은 제목에서 자체적으로 설명됩니다.
https://gist.github.com/pylover/d68be364adac5f946887b85e6ed6e7ae
편집: 이 답변에 이 스크립트의 최신 코드를 요청으로 포함했지만 작성자가 항상 스크립트를 업데이트하므로 제공된 링크에서 최신 반복을 얻는 것이 좋습니다.
#! /usr/bin/env python3.5
"""
Fixing bluetooth stereo headphone/headset problem in ubuntu 16.04 and also debian jessie, with bluez5.
Workaround for bug: https://bugs.launchpad.net/ubuntu/+source/indicator-sound/+bug/1577197
Run it with python3.5 or higher after pairing/connecting the bluetooth stereo headphone.
This will be only fixes the bluez5 problem mentioned above .
Licence: Freeware
See ``python3.5 a2dp.py -h``.
Shorthands:
$ alias speakers="a2dp.py 10:08:C1:44:AE:BC"
$ alias headphones="a2dp.py 00:22:37:3D:DA:50"
$ alias headset="a2dp.py 00:22:37:F8:A0:77 -p hsp"
$ speakers
Check here for the latest updates: https://gist.github.com/pylover/d68be364adac5f946887b85e6ed6e7ae
Thanks to:
* https://github.com/DominicWatson, for adding the ``-p/--profile`` argument.
* https://github.com/IzzySoft, for mentioning wait before connecting again.
* https://github.com/AmploDev, for v0.4.0
* https://github.com/Mihara, for autodetect & autorun service
* https://github.com/dabrovnijk, for systemd service
Change Log
----------
- 0.5.0
* Autodetect & autorun service
- 0.4.1
* Sorting device list
- 0.4.0
* Adding ignore_fail argument by @AmploDev.
* Sending all available streams into selected sink, after successfull connection by @AmploDev.
- 0.3.3
* Updating default sink before turning to ``off`` profile.
- 0.3.2
* Waiting a bit: ``-w/--wait`` before connecting again.
- 0.3.0
* Adding -p / --profile option for using the same script to switch between headset and A2DP audio profiles
- 0.2.5
* Mentioning [mac] argument.
- 0.2.4
* Removing duplicated devices in select device list.
- 0.2.3
* Matching ANSI escape characters. Tested on 16.10 & 16.04
- 0.2.2
* Some sort of code enhancements.
- 0.2.0
* Adding `-V/--version`, `-w/--wait` and `-t/--tries` CLI arguments.
- 0.1.1
* Supporting the `[NEW]` prefix for devices & controllers as advised by @wdullaer
* Drying the code.
"""
import sys
import re
import asyncio
import subprocess as sb
import argparse
__version__ = '0.4.0'
HEX_DIGIT_PATTERN = '[0-9A-F]'
HEX_BYTE_PATTERN = '%s{2}' % HEX_DIGIT_PATTERN
MAC_ADDRESS_PATTERN = ':'.join((HEX_BYTE_PATTERN, ) * 6)
DEVICE_PATTERN = re.compile('^(?:.*\s)?Device\s(?P<mac>%s)\s(?P<name>.*)' % MAC_ADDRESS_PATTERN)
CONTROLLER_PATTERN = re.compile('^(?:.*\s)?Controller\s(?P<mac>%s)\s(?P<name>.*)' % MAC_ADDRESS_PATTERN)
WAIT_TIME = .75
TRIES = 4
PROFILE = 'a2dp'
_profiles = {
'a2dp': 'a2dp_sink',
'hsp': 'headset_head_unit',
'off': 'off'
}
# CLI Arguments
parser = argparse.ArgumentParser(prog=sys.argv[0])
parser.add_argument('-e', '--echo', action='store_true', default=False,
help='If given, the subprocess stdout will be also printed on stdout.')
parser.add_argument('-w', '--wait', default=WAIT_TIME, type=float,
help='The seconds to wait for subprocess output, default is: %s' % WAIT_TIME)
parser.add_argument('-t', '--tries', default=TRIES, type=int,
help='The number of tries if subprocess is failed. default is: %s' % TRIES)
parser.add_argument('-p', '--profile', default=PROFILE,
help='The profile to switch to. available options are: hsp, a2dp. default is: %s' % PROFILE)
parser.add_argument('-V', '--version', action='store_true', help='Show the version.')
parser.add_argument('mac', nargs='?', default=None)
# Exceptions
class SubprocessError(Exception):
pass
class RetryExceededError(Exception):
pass
class BluetoothctlProtocol(asyncio.SubprocessProtocol):
def __init__(self, exit_future, echo=True):
self.exit_future = exit_future
self.transport = None
self.output = None
self.echo = echo
def listen_output(self):
self.output = ''
def not_listen_output(self):
self.output = None
def pipe_data_received(self, fd, raw):
d = raw.decode()
if self.echo:
print(d, end='')
if self.output is not None:
self.output += d
def process_exited(self):
self.exit_future.set_result(True)
def connection_made(self, transport):
self.transport = transport
print('Connection MADE')
async def send_command(self, c):
stdin_transport = self.transport.get_pipe_transport(0)
# noinspection PyProtectedMember
stdin_transport._pipe.write(('%s\n' % c).encode())
async def search_in_output(self, expression, fail_expression=None):
if self.output is None:
return None
for l in self.output.splitlines():
if fail_expression and re.search(fail_expression, l, re.IGNORECASE):
raise SubprocessError('Expression "%s" failed with fail pattern: "%s"' % (l, fail_expression))
if re.search(expression, l, re.IGNORECASE):
return True
async def send_and_wait(self, cmd, wait_expression, fail_expression='fail'):
try:
self.listen_output()
await self.send_command(cmd)
while not await self.search_in_output(wait_expression.lower(), fail_expression=fail_expression):
await wait()
finally:
self.not_listen_output()
async def disconnect(self, mac):
print('Disconnecting the device.')
await self.send_and_wait('disconnect %s' % ':'.join(mac), 'Successful disconnected')
async def connect(self, mac):
print('Connecting again.')
await self.send_and_wait('connect %s' % ':'.join(mac), 'Connection successful')
async def trust(self, mac):
await self.send_and_wait('trust %s' % ':'.join(mac), 'trust succeeded')
async def quit(self):
await self.send_command('quit')
async def get_list(self, command, pattern):
result = set()
try:
self.listen_output()
await self.send_command(command)
await wait()
for l in self.output.splitlines():
m = pattern.match(l)
if m:
result.add(m.groups())
return sorted(list(result), key=lambda i: i[1])
finally:
self.not_listen_output()
async def list_devices(self):
return await self.get_list('devices', DEVICE_PATTERN)
async def list_paired_devices(self):
return await self.get_list('paired-devices', DEVICE_PATTERN)
async def list_controllers(self):
return await self.get_list('list', CONTROLLER_PATTERN)
async def select_paired_device(self):
print('Selecting device:')
devices = await self.list_paired_devices()
count = len(devices)
if count < 1:
raise SubprocessError('There is no connected device.')
elif count == 1:
return devices[0]
for i, d in enumerate(devices):
print('%d. %s %s' % (i+1, d[0], d[1]))
print('Select device[1]:')
selected = input()
return devices[0 if not selected.strip() else (int(selected) - 1)]
async def wait():
return await asyncio.sleep(WAIT_TIME)
async def execute_command(cmd, ignore_fail=False):
p = await asyncio.create_subprocess_shell(cmd, stdout=sb.PIPE, stderr=sb.PIPE)
stdout, stderr = await p.communicate()
stdout, stderr = \
stdout.decode() if stdout is not None else '', \
stderr.decode() if stderr is not None else ''
if p.returncode != 0 or stderr.strip() != '':
message = 'Command: %s failed with status: %s\nstderr: %s' % (cmd, p.returncode, stderr)
if ignore_fail:
print('Ignoring: %s' % message)
else:
raise SubprocessError(message)
return stdout
async def execute_find(cmd, pattern, tries=0, fail_safe=False):
tries = tries or TRIES
message = 'Cannot find `%s` using `%s`.' % (pattern, cmd)
retry_message = message + ' Retrying %d more times'
while True:
stdout = await execute_command(cmd)
match = re.search(pattern, stdout)
if match:
return match.group()
elif tries > 0:
await wait()
print(retry_message % tries)
tries -= 1
continue
if fail_safe:
return None
raise RetryExceededError('Retry times exceeded: %s' % message)
async def find_dev_id(mac, **kw):
return await execute_find('pactl list cards short', 'bluez_card.%s' % '_'.join(mac), **kw)
async def find_sink(mac, **kw):
return await execute_find('pacmd list-sinks', 'bluez_sink.%s' % '_'.join(mac), **kw)
async def set_profile(device_id, profile):
print('Setting the %s profile' % profile)
try:
return await execute_command('pactl set-card-profile %s %s' % (device_id, _profiles[profile]))
except KeyError:
print('Invalid profile: %s, please select one one of a2dp or hsp.' % profile, file=sys.stderr)
raise SystemExit(1)
async def set_default_sink(sink):
print('Updating default sink to %s' % sink)
return await execute_command('pacmd set-default-sink %s' % sink)
async def move_streams_to_sink(sink):
streams = await execute_command('pacmd list-sink-inputs | grep "index:"', True)
for i in streams.split():
i = ''.join(n for n in i if n.isdigit())
if i != '':
print('Moving stream %s to sink' % i)
await execute_command('pacmd move-sink-input %s %s' % (i, sink))
return sink
async def main(args):
global WAIT_TIME, TRIES
if args.version:
print(__version__)
return 0
mac = args.mac
# Hacking, Changing the constants!
WAIT_TIME = args.wait
TRIES = args.tries
exit_future = asyncio.Future()
transport, protocol = await asyncio.get_event_loop().subprocess_exec(
lambda: BluetoothctlProtocol(exit_future, echo=args.echo), 'bluetoothctl'
)
try:
if mac is None:
mac, _ = await protocol.select_paired_device()
mac = mac.split(':' if ':' in mac else '_')
print('Device MAC: %s' % ':'.join(mac))
device_id = await find_dev_id(mac, fail_safe=True)
if device_id is None:
print('It seems device: %s is not connected yet, trying to connect.' % ':'.join(mac))
await protocol.trust(mac)
await protocol.connect(mac)
device_id = await find_dev_id(mac)
sink = await find_sink(mac, fail_safe=True)
if sink is None:
await set_profile(device_id, args.profile)
sink = await find_sink(mac)
print('Device ID: %s' % device_id)
print('Sink: %s' % sink)
await set_default_sink(sink)
await wait()
await set_profile(device_id, 'off')
if args.profile is 'a2dp':
await protocol.disconnect(mac)
await wait()
await protocol.connect(mac)
device_id = await find_dev_id(mac)
print('Device ID: %s' % device_id)
await set_profile(device_id, args.profile)
await set_default_sink(sink)
await move_streams_to_sink(sink)
except (SubprocessError, RetryExceededError) as ex:
print(str(ex), file=sys.stderr)
return 1
finally:
print('Exiting bluetoothctl')
await protocol.quit()
await exit_future
# Close the stdout pipe
transport.close()
if args.profile == 'a2dp':
print('"Enjoy" the HiFi stereo music :)')
else:
print('"Enjoy" your headset audio :)')
if __name__ == '__main__':
sys.exit(asyncio.get_event_loop().run_until_complete(main(parser.parse_args())))
답변2
몇 가지를 말씀드릴 수 있습니다:
a) Linux에서 Bluetooth에 대한 나의 (약간) 경험에 따르면 일반적으로 여기저기서 일종의 문제가 발생합니다.
b) bluez 4.99
2012년 3월에 출시되었으므로 매우 오래된 버전을 사용하고 있습니다. 가능하다면 적어도 최신 버전을 테스트해 보시기 바랍니다.
이것들은 당신의 문제를 설명해야 합니다.