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Connection handle: %d
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MasterSlaveRole: %s [%#x]
switch_role <BD_ADDR> <role>role_discovery <connection_handle>
The Role_Discovery command is used for a Bluetooth device to determine
which role the device is performing for a particular Connection Handle.
The connection handle must be a connection handle for an ACL connection.

	<connection_handle> - dddd; connection handle
The Switch_Role command is used for a Bluetooth device to switch the
current role the device is performing for a particular connection with
another specified Bluetooth device. The BD_ADDR command parameter indicates
for which connection the role switch is to be performed. The Role indicates
the requested new role that the local device performs. Note: the BD_ADDR
command parameter must specify a Bluetooth device for which a connection
already exists.

	<BD_ADDR> - xx:xx:xx:xx:xx:xx BD_ADDR or name
	<role>    - dd; role; 0 - Master, 1 - Slaveread_link_policy_settings <connection_handle>
This command will read the Link Policy setting for the specified connection
handle. The link policy settings parameter determines the behavior of the
local Link Manager when it receives a request from a remote device or it
determines itself to change the master-slave role or to enter the hold,
sniff, or park mode. The local Link Manager will automatically accept or
reject such a request from the remote device, and may even autonomously
request itself, depending on the value of the link policy settings parameter
for the corresponding connection handle. The connection handle must be a
connection handle for an ACL connection.

	<connection_handle> - dddd; connection handlewrite_link_policy_settings <connection_handle> <settings>
This command will write the Link Policy setting for the specified connection
handle. The link policy settings parameter determines the behavior of the
local Link Manager when it receives a request from a remote device or it
determines itself to change the master-slave role or to enter the hold,
sniff, or park mode. The local Link Manager will automatically accept or
reject such a request from the remote device, and may even autonomously
request itself, depending on the value of the link policy settings parameter
for the corresponding connection handle. The connection handle must be a
connection handle for an ACL connection. Multiple Link Manager policies may
be specified for the link policy settings parameter by performing a bitwise
OR operation of the different activity types.

	<connection_handle> - dddd; connection handle
	<settings>          - xxxx; settings
		0x0000 - Disable All LM Modes (Default)
		0x0001 - Enable Master Slave Switch
		0x0002 - Enable Hold Mode
		0x0004 - Enable Sniff Mode
		0x0008 - Enable Park Mode
Packet type: %#04x
LMP version: %s [%#02x]
LMP sub-version: %#04x
Manufacturer: %s [%#04x]
Features: %#02x Reason: %s [%#02x]
Name: %s
%x:%x:%xInquiry result #%d
	BD_ADDR: %s
	Page Scan Rep. Mode: %#02x
	Page Scan Mode: %#02x
	Class: %02x:%02x:%02x
	Clock offset: %#04x
Encryption mode: %s [%d]
Inquiry result, num_responses=%d
	Page Scan Period Mode: %#02x
Inquiry complete. Status: %s [%#02x]
inquiry <LAP> <inquiry_length> <num_reponses>
This command will cause the Bluetooth unit to enter Inquiry Mode.
Inquiry Mode is used to discover other nearby Bluetooth units. The LAP
input parameter contains the LAP from which the inquiry access code shall
be derived when the inquiry procedure is made. The Inquiry_Length parameter
specifies the total duration of the Inquiry Mode and, when this time
expires, Inquiry will be halted. The Num_Responses parameter specifies the
number of responses that can be received before the Inquiry is halted.

	<LAP>            - xx:xx:xx; 9e:8b:33 (GIAC), 93:8b:00 (LDIAC)
	<inquiry_length> - dd; total length == dd * 1.28 sec
	<num_responses>  - ddcreate_connection <BD_ADDR> <pkt> <rep_mode> <ps_mode> <clck_off> <role_sw>	<BD_ADDR> - xx:xx:xx:xx:xx:xx BD_ADDR or name

	<pkt>     - xxxx; packet type
		ACL packets
		-----------
		0x0008 DM1
		0x0010 DH1
		0x0400 DM3
		0x0800 DH3
		0x4000 DM5
		0x8000 DH5

	rep_mode  - d; page scan repetition mode
		Page scan repetition modes
		--------------------------
		0 Page scan repetition mode 0
		1 Page scan repetition mode 1
		2 Page scan repetition mode 2

	ps_mode   - d; Page scan mode
		Page scan modes
		---------------
		0 Mandatory page scan mode
		1 Optional page scan mode1
		2 Optional page scan mode2
		3 Optional page scan mode3

	clck_off  - dddd; clock offset. Use 0 if unknown

	role_sw   - d; allow (1) or deny role switch
disconnect <connection_handle> <reason>
The Disconnection command is used to terminate an existing connection.
The connection handle command parameter indicates which connection is to
be disconnected. The Reason command parameter indicates the reason for
ending the connection.

	<connection_handle> - dddd; connection handle
	<reason>            - dd; reason; usually 19 (0x13) - user ended;
	                      also 0x05, 0x13-0x15, 0x1A, 0x29add_sco_connection <acl connection handle> <packet type>This command will cause the link manager to create a SCO connection using
the ACL connection specified by the connection handle command parameter.
The Link Manager will determine how the new connection is established. This
connection is determined by the current state of the device, its piconet,
and the state of the device to be connected. The packet type command parameter
specifies which packet types the Link Manager should use for the connection.
The Link Manager must only use the packet type(s) specified by the packet
type command parameter for sending HCI SCO data packets. Multiple packet
types may be specified for the packet type command parameter by performing
a bitwise OR operation of the different packet types. Note: An SCO connection
can only be created when an ACL connection already exists and when it is
not put in park mode.

	<connection_handle> - dddd; ACL connection handle
	<packet_type>       - xxxx; packet type
		SCO packets
		-----------
		0x0020 HV1
		0x0040 HV2
		0x0080 HV3
change_connection_packet_type <connection_hande> <packet_type>The Change_Connection_Packet_Type command is used to change which packet
types can be used for a connection that is currently established. This
allows current connections to be dynamically modified to support different
types of user data. The Packet_Type command parameter specifies which
packet types the Link Manager can use for the connection. Multiple packet
types may be specified for the Packet_Type command parameter by bitwise OR
operation of the different packet types.

	<connection_handle> - dddd; connection handle
	<packet_type>       - xxxx; packet type mask
		ACL packets
		-----------
		0x0008 DM1
		0x0010 DH1
		0x0400 DM3
		0x0800 DH3
		0x4000 DM5
		0x8000 DH5

		SCO packets
		-----------
		0x0020 HV1
		0x0040 HV2
		0x0080 HV3
remote_name_request <BD_ADDR> <ps_rep_mode> <ps_mode> <clock_offset>
The Remote_Name_Request command is used to obtain the user-friendly
name of another Bluetooth unit.

	<BD_ADDR>      - xx:xx:xx:xx:xx:xx BD_ADDR or name
	<ps_rep_mode>  - dd; page scan repetition mode [0-2]
	<ps_mode>      - dd; page scan mode [0-3]
	<clock_offset> - xxxx; clock offset [0 - 0xffff]read_remote_supported_features <connection_handle>
This command requests a list of the supported features for the remote
unit identified by the connection handle parameter. The connection handle
must be a connection handle for an ACL connection.

	<connection_handle> - dddd; connection handleread_remote_version_information <connection_handle>
This command will obtain the values for the version information for the
remote Bluetooth unit identified by the connection handle parameter. The
connection handle must be a connection handle for an ACL connection.

	<connection_handle> - dddd; connection handleread_clock_offset <connection_handle>
This command allows the Host to read the clock offset from the remote unit.
	<connection_handle> - dddd; connection handlew/@0@1@1@1@1@/@{Gz??Page scan mode: %#02x
Page scan period mode: %#02x
disabledSCO flow control %s [%d]
EnabledDisabledLocal name: %s
Hold Mode Activities: %#02x
Maintain current Power StateVoice settings: %#04x
Input coding: %s [%d]
Input data format: %s [%d]
Encryption mode: %s [%#02x]
Scan enable: %s [%#02x]
%sNumber of keys deleted: %d
Number of keys written: %d
Complete: Status: %s [%#x]
Maximum Number of keys: %d
Number of keys read: %d
Event: Number of keys: %d
	%d: %s %02xPIN type: %s [%#02x]
resetread_pin_typewrite_pin_type <pin_type>change_local_name <name>read_local_nameread_page_timeoutwrite_page_timeout <timeout>read_scan_enableread_page_scan_activityread_inquiry_scan_activityread_authentication_enableread_encryption_moderead_class_of_deviceread_voice_settingsread_hold_mode_activityread_sco_flow_control_enableread_page_scan_period_moderead_page_scan_modeLink supervision timeout: %.2f msec [%d slots]
Number of broadcast retransmissions: %d
Authentication Enable: %s [%d]
Inquiry Scan Interval: %.2f msec [%d slots]
Inquiry Scan Window: %.2f msec [%d slots]
Page Scan Interval: %.2f msec [%d slots]
Page Scan Window: %.2f msec [%d slots]
Page timeout: %.2f msec [%d slots]
Connection accept timeout: %.2f msec [%d slots]
Input sample size: %d bit [%d]

The Reset command will reset the Host Controller and the Link Manager.
After the reset is completed, the current operational state will be lost,
the Bluetooth unit will enter standby mode and the Host Controller will
automatically revert to the default values for the parameters for which
default values are defined in the specification.
The Read_PIN_Type command is used for the Host to read whether the Link
Manager assumes that the Host supports variable PIN codes only a fixed PIN
code.
The Write_PIN_Type command is used for the Host to write to the Host
Controller whether the Host supports variable PIN codes or only a fixed PIN
code.

	<pin_type> - dd; 0 - Variable; 1 - Fixedread_stored_link_key [<BD_ADDR>]
The Read_Stored_Link_Key command provides the ability to read one or
more link keys stored in the Bluetooth Host Controller. The Bluetooth Host
Controller can store a limited number of link keys for other Bluetooth
devices.

	<BD_ADDR> - xx:xx:xx:xx:xx:xx BD_ADDR or namewrite_stored_link_key <BD_ADDR> <key>
The Write_Stored_Link_Key command provides the ability to write one
or more link keys to be stored in the Bluetooth Host Controller. The
Bluetooth Host Controller can store a limited number of link keys for other
Bluetooth devices. If no additional space is available in the Bluetooth
Host Controller then no additional link keys will be stored.

	<BD_ADDR> - xx:xx:xx:xx:xx:xx BD_ADDR or name
	<key>     - xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx up to 16 bytes link keydelete_stored_link_key [<BD_ADDR>]
The Delete_Stored_Link_Key command provides the ability to remove one
or more of the link keys stored in the Bluetooth Host Controller. The
Bluetooth Host Controller can store a limited number of link keys for other
Bluetooth devices.

	<BD_ADDR> - xx:xx:xx:xx:xx:xx BD_ADDR or name
The Change_Local_Name command provides the ability to modify the user
friendly name for the Bluetooth unit.

	<name> - string
The Read_Local_Name command provides the ability to read the
stored user-friendly name for the Bluetooth unit.read_connection_accept_timeout
This command will read the value for the Connection_Accept_Timeout
configuration parameter. The Connection_Accept_Timeout configuration
parameter allows the Bluetooth hardware to automatically deny a
connection request after a specified time period has occurred and
the new connection is not accepted. Connection Accept Timeout
measured in Number of Baseband slots.write_connection_accept_timeout <timeout>
This command will write the value for the Connection_Accept_Timeout
configuration parameter.

	<timeout> - dddd; measured in number of baseband slots.
This command will read the value for the Page_Timeout configuration
parameter. The Page_Timeout configuration parameter defines the
maximum time the local Link Manager will wait for a baseband page
response from the remote unit at a locally initiated connection
attempt. Page Timeout measured in Number of Baseband slots.
This command will write the value for the Page_Timeout configuration
parameter.

	<timeout> - dddd; measured in number of baseband slots.
This command will read the value for the Scan_Enable parameter. The
Scan_Enable parameter controls whether or not the Bluetooth uint
will periodically scan for page attempts and/or inquiry requests
from other Bluetooth unit.

	0x00 - No Scans enabled.
	0x01 - Inquiry Scan enabled. Page Scan disabled.
	0x02 - Inquiry Scan disabled. Page Scan enabled.
	0x03 - Inquiry Scan enabled. Page Scan enabled.write_scan_enable <scan_enable>
This command will write the value for the Scan_Enable parameter.
The Scan_Enable parameter controls whether or not the Bluetooth
unit will periodically scan for page attempts and/or inquiry
requests from other Bluetooth unit.

	<scan_enable> - dd;
	0 - No Scans enabled.
	1 - Inquiry Scan enabled. Page Scan disabled.
	2 - Inquiry Scan disabled. Page Scan enabled.
	3 - Inquiry Scan enabled. Page Scan enabled.
This command will read the value for Page_Scan_Activity configuration
parameters. The Page_Scan_Interval configuration parameter defines the
amount of time between consecutive page scans. This time interval is 
defined from when the Host Controller started its last page scan until
it begins the next page scan. The Page_Scan_Window configuration parameter
defines the amount of time for the duration of the page scan. The
Page_Scan_Window can only be less than or equal to the Page_Scan_Interval.write_page_scan_activity interval(dddd) window(dddd)
This command will write the value for Page_Scan_Activity configuration
parameter. The Page_Scan_Interval configuration parameter defines the
amount of time between consecutive page scans. This is defined as the time
interval from when the Host Controller started its last page scan until it
begins the next page scan. The Page_Scan_Window configuration parameter
defines the amount of time for the duration of the page scan. 
The Page_Scan_Window can only be less than or equal to the Page_Scan_Interval.

	<interval> - Range: 0x0012 -- 0x100, Time = N * 0.625 msec
	<window>   - Range: 0x0012 -- 0x100, Time = N * 0.625 msen
This command will read the value for Inquiry_Scan_Activity configuration
parameter. The Inquiry_Scan_Interval configuration parameter defines the
amount of time between consecutive inquiry scans. This is defined as the
time interval from when the Host Controller started its last inquiry scan
until it begins the next inquiry scan.write_inquiry_scan_activity interval(dddd) window(dddd)
This command will write the value for Inquiry_Scan_Activity configuration
parameter. The Inquiry_Scan_Interval configuration parameter defines the
amount of time between consecutive inquiry scans. This is defined as the
time interval from when the Host Controller started its last inquiry scan
until it begins the next inquiry scan. The Inquiry_Scan_Window configuration
parameter defines the amount of time for the duration of the inquiry scan.
The Inquiry_Scan_Window can only be less than or equal to the Inquiry_Scan_Interval.

	<interval> - Range: 0x0012 -- 0x100, Time = N * 0.625 msec
	<window>   - Range: 0x0012 -- 0x100, Time = N * 0.625 msen
This command will read the value for the Authentication_Enable parameter.
The Authentication_Enable parameter controls if the local unit requires
to authenticate the remote unit at connection setup (between the
Create_Connection command or acceptance of an incoming ACL connection
and the corresponding Connection Complete event). At connection setup, only
the unit(s) with the Authentication_Enable parameter enabled will try to
authenticate the other unit.write_authentication_enable enable(0|1)
This command will write the value for the Authentication_Enable parameter.
The Authentication_Enable parameter controls if the local unit requires to
authenticate the remote unit at connection setup (between the
Create_Connection command or acceptance of an incoming ACL connection
and the corresponding Connection Complete event). At connection setup, only
the unit(s) with the Authentication_Enable parameter enabled will try to
authenticate the other unit.
This command will read the value for the Encryption_Mode parameter. The
Encryption_Mode parameter controls if the local unit requires encryption
to the remote unit at connection setup (between the Create_Connection
command or acceptance of an incoming ACL connection and the corresponding
Connection Complete event). At connection setup, only the unit(s) with
the Authentication_Enable parameter enabled and Encryption_Mode parameter
enabled will try to encrypt the connection to the other unit.

	<encryption_mode>:
	0x00 - Encryption disabled.
	0x01 - Encryption only for point-to-point packets.
	0x02 - Encryption for both point-to-point and broadcast packets.write_encryption_mode mode(0|1|2)	This command will write the value for the Encryption_Mode parameter.
The Encryption_Mode parameter controls if the local unit requires
encryption to the remote unit at connection setup (between the
Create_Connection command or acceptance of an incoming ACL connection
and the corresponding Connection Complete event). At connection setup,
only the unit(s) with the Authentication_Enable parameter enabled and
Encryption_Mode parameter enabled will try to encrypt the connection to
the other unit.

	<encryption_mode> (dd)
	0 - Encryption disabled.
	1 - Encryption only for point-to-point packets.
	2 - Encryption for both point-to-point and broadcast packets.
This command will read the value for the Class_of_Device parameter.
The Class_of_Device parameter is used to indicate the capabilities of
the local unit to other units.write_class_of_device class(xx:xx:xx)
This command will write the value for the Class_of_Device parameter.
The Class_of_Device parameter is used to indicate the capabilities of 
the local unit to other units.

	<class> (xx:xx:xx) - class of device
This command will read the values for the Voice_Setting parameter.
The Voice_Setting parameter controls all the various settings for voice
connections. These settings apply to all voice connections, and cannot be
set for individual voice connections. The Voice_Setting parameter controls
the configuration for voice connections: Input Coding, Air coding format,
input data format, Input sample size, and linear PCM parameter.write_voice_settings settings(xxxx)
This command will write the values for the Voice_Setting parameter.
The Voice_Setting parameter controls all the various settings for voice
connections. These settings apply to all voice connections, and cannot be
set for individual voice connections. The Voice_Setting parameter controls
the configuration for voice connections: Input Coding, Air coding format,
input data format, Input sample size, and linear PCM parameter.

	<voice_settings> (xxxx) - voice settingsread_number_broadcast_retransmissions
This command will read the unit's parameter value for the Number of
Broadcast Retransmissions. Broadcast packets are not acknowledged and are
unreliable.write_number_broadcast_retransmissions count(dd)
This command will write the unit's parameter value for the Number of
Broadcast Retransmissions. Broadcast packets are not acknowledged and are
unreliable.

	<count> (dd) - number of broadcast retransimissions
This command will read the value for the Hold_Mode_Activity parameter.
The Hold_Mode_Activity value is used to determine what activities should
be suspended when the unit is in hold mode.write_hold_mode_activity settings(0|1|2|4)
This command will write the value for the Hold_Mode_Activity parameter.
The Hold_Mode_Activity value is used to determine what activities should
be suspended when the unit is in hold mode.

	<settings> (dd) - bit mask:
	0 - Maintain current Power State. Default
	1 - Suspend Page Scan.
	2 - Suspend Inquiry Scan.
	4 - Suspend Periodic Inquiries.
The Read_SCO_Flow_Control_Enable command provides the ability to read
the SCO_Flow_Control_Enable setting. By using this setting, the Host can
decide if the Host Controller will send Number Of Completed Packets events
for SCO Connection Handles. This setting allows the Host to enable and
disable SCO flow control.write_sco_flow_control_enable enable(0|1)
The Write_SCO_Flow_Control_Enable command provides the ability to write
the SCO_Flow_Control_Enable setting. By using this setting, the Host can
decide if the Host Controller will send Number Of Completed Packets events
for SCO Connection Handles. This setting allows the Host to enable and
disable SCO flow control. The SCO_Flow_Control_Enable setting can only be
changed if no connections exist.read_link_supervision_timeout <connection_handle>
This command will read the value for the Link_Supervision_Timeout
parameter for the device. The Link_Supervision_Timeout parameter is used
by the master or slave Bluetooth device to monitor link loss. If, for any
reason, no Baseband packets are received from that Connection Handle for a
duration longer than the Link_Supervision_Timeout, the connection is
disconnected.

	<connection_handle> - dddd; connection handle
write_link_supervision_timeout <connection_handle> <timeout>
This command will write the value for the Link_Supervision_Timeout
parameter for the device. The Link_Supervision_Timeout parameter is used
by the master or slave Bluetooth device to monitor link loss. If, for any
reason, no Baseband packets are received from that connection handle for a
duration longer than the Link_Supervision_Timeout, the connection is
disconnected.

	<connection_handle> - dddd; connection handle
	<timeout>           - dddd; timeout measured in number of baseband slots

This command is used to read the mandatory Page_Scan_Period_Mode of the
local Bluetooth device. Every time an inquiry response message is sent, the
Bluetooth device will start a timer (T_mandatory_pscan), the value of which
is dependent on the Page_Scan_Period_Mode. As long as this timer has not
expired, the Bluetooth device will use the Page_Scan_Period_Mode for all
following page scans.write_page_scan_period_mode <page_scan_period_mode>
This command is used to write the mandatory Page_Scan_Period_Mode of the
local Bluetooth device. Every time an inquiry response message is sent, the
Bluetooth device will start a timer (T_mandatory_pscan), the value of which
is dependent on the Page_Scan_Period_Mode. As long as this timer has not
expired, the Bluetooth device will use the Page_Scan_Period_Mode for all
following page scans.

	<page_scan_period_mode> - dd; page scan period mode:
	0x00 - P0 (Default)
	0x01 - P1
	0x02 - P2
This command is used to read the default page scan mode of the local
Bluetooth device. The Page_Scan_Mode parameter indicates the page scan mode
that is used for the default page scan. Currently one mandatory page scan
mode and three optional page scan modes are defined. Following an inquiry
response, if the Baseband timer T_mandatory_pscan has not expired, the
mandatory page scan mode must be applied.write_page_scan_mode <page_scan_mode>
This command is used to write the default page scan mode of the local
Bluetooth device. The Page_Scan_Mode parameter indicates the page scan mode
that is used for the default page scan. Currently, one mandatory page scan
mode and three optional page scan modes are defined. Following an inquiry
response, if the Baseband timer T_mandatory_pscan has not expired, the
mandatory page scan mode must be applied.

	<page_scan_mode> - dd; page scan mode:
	0x00 - Mandatory Page Scan Mode (Default)
	0x01 - Optional Page Scan Mode I
	0x02 - Optional Page Scan Mode II
	0x03 - Optional Page Scan Mode III?Number of ACL packets: %d
Number of SCO packets: %d
Country code: %s [%#02x]
HCI version: %s [%#02x]
HCI revision: %#04x
read_local_supported_featuresread_buffer_sizeread_country_coderead_bd_addrMax. ACL packet size: %d bytes
Max. SCO packet size: %d bytes
read_local_version_information
This command will read the values for the version information for the
local Bluetooth unit.
This command requests a list of the supported features for the local
unit. This command will return a list of the LMP features.
The Read_Buffer_Size command is used to read the maximum size of the
data portion of HCI ACL and SCO Data Packets sent from the Host to the
Host Controller.
This command will read the value for the Country_Code return parameter.
The Country_Code defines which range of frequency band of the ISM 2.4 GHz
band will be used by the unit.
This command will read the value for the BD_ADDR parameter. The BD_ADDR
is a 48-bit unique identifier for a Bluetooth unit.RSSI: %d dB
Link quality: %d
Failed contact counter: %d
read_rssi <connection_handle>read_failed_contact_counter <connection_handle>
This command will read the value for the Failed_Contact_Counter
parameter for a particular ACL connection to another device.

	<connection_handle> - dddd; ACL connection handle
reset_failed_contact_counter <connection_handle>
This command will reset the value for the Failed_Contact_Counter
parameter for a particular ACL connection to another device.

	<connection_handle> - dddd; ACL connection handle
get_link_quality <connection_handle>
This command will return the value for the Link_Quality for the
specified ACL connection handle. This command will return a Link_Quality
value from 0-255, which represents the quality of the link between two
Bluetooth devices. The higher the value, the better the link quality is.
Each Bluetooth module vendor will determine how to measure the link quality.

	<connection_handle> - dddd; ACL connection handle

This command will read the value for the difference between the
measured Received Signal Strength Indication (RSSI) and the limits of
the Golden Receive Power Range for a ACL connection handle to another
Bluetooth device. Any positive RSSI value returned by the Host Controller
indicates how many dB the RSSI is above the upper limit, any negative
value indicates how many dB the RSSI is below the lower limit. The value
zero indicates that the RSSI is inside the Golden Receive Power Range.

	<connection_handle> - dddd; ACL connection handle
Role switch: %d
Packet mask: %#04x
Commands sent: %d
Events received: %d
ACL packets received: %d
ACL packets sent: %d
SCO packets received: %d
SCO packets sent: %d
Bytes received: %d
Bytes sent: %d
Max. ACL packet size: %d
Max. SCO packet size: %d
Debug level: %d
State: %#x
%-15s %08x %9d
MASTSLAVACLSCOread_node_stateGet the HCI node stateinitializeInitialize the HCI noderead_debug_levelRead the HCI node debug levelwrite_debug_level <level>read_node_buffer_sizeread_node_bd_addrread_node_featuresread_node_statreset_node_statflush_neighbor_cacheread_neighbor_cacheread_connection_listread_node_packet_maskread_node_role_switchwrite_node_role_switch {0|1}read_node_listLink Policy Settings mask: %#04x
Number of free command buffers: %d
Numbef of free ACL buffers: %d
Total number of ACL buffers: %d
Numbef of free SCO buffers: %d
Total number of SCO buffers: %d
Name            ID       Num hooks
Remote BD_ADDR    Handle Type Mode Role Encrypt Pending Queue State
%-17.17s %6d %4.4s %4d %4.4s %7.7s %7d %5d %s
BD_ADDR           Features                Clock offset Page scan Rep. scan
%-17.17s %02x %02x %02x %02x %02x %02x %02x %02x %#12x %#9x %#9x
Write the HCI node debug levelRead the HCI node buffer information. This will return current state of the
HCI buffer for the HCI nodeRead the HCI node BD_ADDR. Returns device BD_ADDR as cached by the HCI nodeRead the HCI node features. This will return list of supported features as
cached by the HCI nodeRead packets and bytes counters for the HCI nodeReset packets and bytes counters for the HCI nodeFlush content of the HCI node neighbor cacheRead content of the HCI node neighbor cacheRead the baseband connection descriptors list for the HCI noderead_node_link_policy_settings_maskRead the value of the Link Policy Settinngs mask for the HCI nodewrite_node_link_policy_settings_mask <policy_mask>Write the value of the Link Policy Settings mask for the HCI node. By default
all supported Link Policy modes (as reported by the local device features) are
enabled. The particular Link Policy mode is enabled if local device supports
it and correspinding bit in the mask was set

	<policy_mask> - xxxx; Link Policy mask
		0x0000 - Disable All LM Modes
		0x0001 - Enable Master Slave Switch
		0x0002 - Enable Hold Mode
		0x0004 - Enable Sniff Mode
		0x0008 - Enable Park Mode
Read the value of the Packet mask for the HCI nodewrite_node_packet_mask <packet_mask>Write the value of the Packet mask for the HCI node. By default all supported
packet types (as reported by the local device features) are enabled. The
particular packet type is enabled if local device supports it and corresponding
bit in the mask was set

	<packet_mask> - xxxx; packet type mask
		ACL packets
		-----------
		0x0008 DM1
		0x0010 DH1
		0x0400 DM3
		0x0800 DH3
		0x4000 DM5
		0x8000 DH5

		SCO packets
		-----------
		0x0020 HV1
		0x0040 HV2
		0x0080 HV3
Read the value of the Role Switch parameter for the HCI nodeWrite the value of the Role Switch parameter for the HCI node. By default,
if Role Switch is supported, local device will try to perform Role Switch
and become Master on incoming connection. Some devices do not support Role
Switch and thus incomming connections from such devices will fail. Setting
this parameter to zero will prevent Role Switch and thus accepting device
will remain SlaveGet a list of HCI nodes, their Netgraph IDs and connected hooks.Usage: hccontrol [-hN] [-n HCI_node_name] cmd [p1] [..]

For more information use 'help command'
Could not get list of HCI nodesCould not bind socket, node=%sCould not connect socket, node=%snet.bluetooth.hci.command_timeoutCould not execute command "%s". %s
/usr/src/usr.sbin/bluetooth/hccontrol/hccontrol.c	%s
n:NvhhelpSupported commands:
Unknown command: "%s"
Could not allocate memoryCould not create socketCould not bind socketCould not find HCI nodesUsing HCI node: %s
Could not setsockopt()Could not sysctlnametomib()Could not sysctl()Usage: %s
%s
do_hci_command?UNKNOWNUnknown errorNo errorUnknown HCI commandNo connectionHardware failurePage timeoutAuthentication failureKey missingMemory fullConnection timeoutMax number of connectionsACL connection already existsCommand disallowedHost timeoutInvalid HCI command parameterRepeated attemptsPairing not allowedUnknown LMP PDUUnsupported remote featureSCO offset rejectedSCO interval rejectedSCO air mode rejectedInvalid LMP parametersUnspecified errorRole change not allowedLMP response timeoutLMP PSU not allowedUnit key usedQoS is not supportedInstant passedCLOSEDW4_LP_CON_RSPW4_CONN_COMPLETEOPENNorth America, Europe, JapanFrance<3-Slot> <5-Slot> <Encryption> <Slot offset> <Timing accuracy> <Switch> <Hold mode> <Sniff mode> <Park mode> <RSSI> <Channel quality> <SCO link> <HV2 packets> <HV3 packets> <u-law log> <A-law log> <CVSD> <Paging scheme> <Power control> <Transparent SCO data> <Flow control lag (bit0)> <Flow control lag (bit1)> <Flow control lag (bit2)> <Unknown2.7> Ericsson Technology LicensingNokia Mobile PhonesIntel Corp.IBM Corp.Toshiba Corp.3ComMicrosoftLucentMotorolaInfineon Technologies AGCambridge Silicon RadioSilicon WaveDigianswer A/STexas Instruments Inc.Parthus Technologies Inc.Broadcom CorporationMitel SemiconductorWidcomm, Inc.Zeevo, Inc.Atmel CorporationRTX Telecom A/SKC Technology Inc.NewlogicTransilica, Inc.TTPCom LimitedSignia Technologies, Inc.Conexant Systems Inc.QualcommInventelAVM BerlinBandSpeed, Inc.Mansella LtdNEC CorporationWavePlus Technology Co., Ltd.AlcatelPhilips SemiconductorsC TechnologiesOpen InterfaceR F Micro DevicesHitachi LtdSymbol Technologies, Inc.TenovisGCT SemiconductorNorwood SystemsMewTel Technology Inc.ST MicroelectronicsSynopsysRed-M (Communications) LtdCommil LtdEclipse (HQ Espana) S.L.Renesas Technology Corp.Mobilian CorporationTeraxGennum CorporationResearch In MotionIPextreme, Inc.Systems and Chips, IncBluetooth SIG, IncSeiko Epson CorporationBluetooth LMP 1.0Bluetooth LMP 1.1Bluetooth LMP 1.2Bluetooth LMP 2.0Suspend Page Scan Suspend Inquiry Scan Suspend Periodic Inquiries 1's complement2's complementSign-MagnitudeReservedLinearu-lawA-lawNONEP2PALLNo Scan enabledVariable PINFixed PIN6@?@S@a@r@@@@@@@@@@0@X@@@@@@ @X@7@I@]@m@@@@@@@@	@@@@2@@@U@@d@k@y@@@@@@@@@@@@@)@1@D@P@_@n@{@@@@@@@@@)@G@[@g@q@@@@@@@@@@@@1@E@S@_@@q@@@@(@@@@@@@
@@'@7@U@]@t@@@@@@H@@@@@@(@C@h@N@g@@@@@@@@@@@@%@7@I@@@8@X@[@n@@@@@@@@@@@@@@x@@@@@(@@@@@Max number of SCO connections to a unitHost rejected due to limited resourcesHost rejected due to security reasonsHost rejected due to remote unit is a personal unitUnsupported feature or parameter valueOther end terminated connection: User ended connectionOther end terminated connection: Low resourcesOther end terminated connection: About to power offConnection terminated by local hostUnsupported LMP parameter valueLMP error transaction collisionEncryption mode not acceptablePairing with unit key not supportedMitsubishi Electric CorporationRohde & Schwartz GmbH & Co. KGMacronix International Co. Ltd.Computer Access Technology Corporation (CATC)Integrated System Solution Corp.Matsushita Electric Industrial Co., Ltd.Bluetooth HCI Specification 1.0BBluetooth HCI Specification 1.1Bluetooth HCI Specification 1.2Bluetooth HCI Specification 2.0Only for point-to-point packetsBoth point-to-point and broadcast packetsInquiry Scan enabled. Page Scan disabledInquiry Scan disabled. Page Scan enabledInquiry Scan enabled. Page Scan enabled;Lhh@0Pp p!@#(0%P`'x*`-/2(03@3`456p7088(9Hp:h0;;=0>>?(p@H0AhA0BBPCC	D(	@EH	Fh	F	@G	G	`H	pI
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