hci_event.c:
- Convert memo->response.clock_offset to host-endian.
hci_ioctl.c:
- printf format tweak (size_t)
hci_link.c:
- Convert memo->response.clock_offset from host-endian.
- Tweak a DIAGNOSTIC message.
l2cap_signal.c:
- In l2cap_recv_config_req(), rp->scid is little-endian so make sure
we convert from host-endian.
from scw@
- In hci_link_free(), do not unlink items from a LIST queue within
a LIST_FOREACH() iterator.
rfcomm_session.c:
- In rfcomm_session_recv_mcc_nsc(), do not unlink items from a LIST
queue within a LIST_FOREACH() iterator.
from scw@
remove pseudo-device btdev(4) and inherent limitations
add bthub(4) which autoconfigures at bluetooth controllers as they
are enabled. bluetooth devices now attach here.
btdevctl(8) and its cache is updated to handle new semantics
etc/rc.d/btdevctl is updated to configure devices from a list
in /etc/bluetooth/btdevctl.conf
Provide an ioctl to set the SCO mtu value in the controller and
place limits in the SCO code such that only packets of this size
may be sent.
Move the mtu option from btsco(4) and btdevctl(8), to the
btconfig(8) program.
Remove temporary BLUETOOTH_SCO kernel option, and enable SCO
socket access.
Fix incoming connection handling for btsco(4) and SCO sockets.
Fix documentation to reflect the new world order.
NetBSD Foundation Membership still pending.) This stack was written by
Iain under sponsorship from Itronix Inc.
The stack includes support for rfcomm networking (networking via your
bluetooth enabled cell phone), hid devices (keyboards/mice), and headsets.
Drivers for both PCMCIA and USB bluetooth controllers are included.
christos