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Kirill Smelkov
linux
Commits
2c86c275
Commit
2c86c275
authored
Mar 23, 2005
by
James Ketrenos
Committed by
Jeff Garzik
May 27, 2005
Browse files
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Add ipw2100 wireless driver.
parent
0a989b24
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Documentation/networking/README.ipw2100
Documentation/networking/README.ipw2100
+246
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drivers/net/wireless/Kconfig
drivers/net/wireless/Kconfig
+53
-0
drivers/net/wireless/Makefile
drivers/net/wireless/Makefile
+2
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drivers/net/wireless/ipw2100.c
drivers/net/wireless/ipw2100.c
+8649
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drivers/net/wireless/ipw2100.h
drivers/net/wireless/ipw2100.h
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Documentation/networking/README.ipw2100
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2c86c275
===========================
Intel(R) PRO/Wireless 2100 Network Connection Driver for Linux
README.ipw2100
March 14, 2005
===========================
Index
---------------------------
0. Introduction
1. Release 1.1.0 Current Features
2. Command Line Parameters
3. Sysfs Helper Files
4. Radio Kill Switch
5. Dynamic Firmware
6. Power Management
7. Support
8. License
===========================
0. Introduction
------------ ----- ----- ---- --- -- -
This document provides a brief overview of the features supported by the
IPW2100 driver project. The main project website, where the latest
development version of the driver can be found, is:
http://ipw2100.sourceforge.net
There you can find the not only the latest releases, but also information about
potential fixes and patches, as well as links to the development mailing list
for the driver project.
===========================
1. Release 1.1.0 Current Supported Features
---------------------------
- Managed (BSS) and Ad-Hoc (IBSS)
- WEP (shared key and open)
- Wireless Tools support
- 802.1x (tested with XSupplicant 1.0.1)
Enabled (but not supported) features:
- Monitor/RFMon mode
- WPA/WPA2
The distinction between officially supported and enabled is a reflection
on the amount of validation and interoperability testing that has been
performed on a given feature.
===========================
2. Command Line Parameters
---------------------------
If the driver is built as a module, the following optional parameters are used
by entering them on the command line with the modprobe command using this
syntax:
modprobe ipw2100 [<option>=<VAL1><,VAL2>...]
For example, to disable the radio on driver loading, enter:
modprobe ipw2100 disable=1
The ipw2100 driver supports the following module parameters:
Name Value Example:
debug 0x0-0xffffffff debug=1024
mode 0,1,2 mode=1 /* AdHoc */
channel int channel=3 /* Only valid in AdHoc or Monitor */
associate boolean associate=0 /* Do NOT auto associate */
disable boolean disable=1 /* Do not power the HW */
===========================
3. Sysfs Helper Files
---------------------------
There are several ways to control the behavior of the driver. Many of the
general capabilities are exposed through the Wireless Tools (iwconfig). There
are a few capabilities that are exposed through entries in the Linux Sysfs.
----- Driver Level ------
For the driver level files, look in /sys/bus/pci/drivers/ipw2100/
debug_level
This controls the same global as the 'debug' module parameter. For
information on the various debugging levels available, run the 'dvals'
script found in the driver source directory.
NOTE: 'debug_level' is only enabled if CONFIG_IPW2100_DEBUG is turn
on.
----- Device Level ------
For the device level files look in
/sys/bus/pci/drivers/ipw2100/{PCI-ID}/
For example:
/sys/bus/pci/drivers/ipw2100/0000:02:01.0
For the device level files, see /sys/bus/pci/drivers/ipw2100:
rf_kill
read -
0 = RF kill not enabled (radio on)
1 = SW based RF kill active (radio off)
2 = HW based RF kill active (radio off)
3 = Both HW and SW RF kill active (radio off)
write -
0 = If SW based RF kill active, turn the radio back on
1 = If radio is on, activate SW based RF kill
NOTE: If you enable the SW based RF kill and then toggle the HW
based RF kill from ON -> OFF -> ON, the radio will NOT come back on
===========================
4. Radio Kill Switch
---------------------------
Most laptops provide the ability for the user to physically disable the radio.
Some vendors have implemented this as a physical switch that requires no
software to turn the radio off and on. On other laptops, however, the switch
is controlled through a button being pressed and a software driver then making
calls to turn the radio off and on. This is referred to as a "software based
RF kill switch"
See the Sysfs helper file 'rf_kill' for determining the state of the RF switch
on your system.
===========================
5. Dynamic Firmware
---------------------------
As the firmware is licensed under a restricted use license, it can not be
included within the kernel sources. To enable the IPW2100 you will need a
firmware image to load into the wireless NIC's processors.
You can obtain these images from <http://ipw2100.sf.net/firmware.php>.
See INSTALL for instructions on installing the firmware.
===========================
6. Power Management
---------------------------
The IPW2100 supports the configuration of the Power Save Protocol
through a private wireless extension interface. The IPW2100 supports
the following different modes:
off No power management. Radio is always on.
on Automatic power management
1-5 Different levels of power management. The higher the
number the greater the power savings, but with an impact to
packet latencies.
Power management works by powering down the radio after a certain
interval of time has passed where no packets are passed through the
radio. Once powered down, the radio remains in that state for a given
period of time. For higher power savings, the interval between last
packet processed to sleep is shorter and the sleep period is longer.
When the radio is asleep, the access point sending data to the station
must buffer packets at the AP until the station wakes up and requests
any buffered packets. If you have an AP that does not correctly support
the PSP protocol you may experience packet loss or very poor performance
while power management is enabled. If this is the case, you will need
to try and find a firmware update for your AP, or disable power
management (via `iwconfig eth1 power off`)
To configure the power level on the IPW2100 you use a combination of
iwconfig and iwpriv. iwconfig is used to turn power management on, off,
and set it to auto.
iwconfig eth1 power off Disables radio power down
iwconfig eth1 power on Enables radio power management to
last set level (defaults to AUTO)
iwpriv eth1 set_power 0 Sets power level to AUTO and enables
power management if not previously
enabled.
iwpriv eth1 set_power 1-5 Set the power level as specified,
enabling power management if not
previously enabled.
You can view the current power level setting via:
iwpriv eth1 get_power
It will return the current period or timeout that is configured as a string
in the form of xxxx/yyyy (z) where xxxx is the timeout interval (amount of
time after packet processing), yyyy is the period to sleep (amount of time to
wait before powering the radio and querying the access point for buffered
packets), and z is the 'power level'. If power management is turned off the
xxxx/yyyy will be replaced with 'off' -- the level reported will be the active
level if `iwconfig eth1 power on` is invoked.
===========================
7. Support
---------------------------
For general development information and support,
go to:
http://ipw2100.sf.net/
The ipw2100 1.1.0 driver and firmware can be downloaded from:
http://support.intel.com
For installation support on the ipw2100 1.1.0 driver on Linux kernels
2.6.8 or greater, email support is available from:
http://supportmail.intel.com
===========================
8. License
---------------------------
Copyright(c) 2003 - 2005 Intel Corporation. All rights reserved.
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License (version 2) as
published by the Free Software Foundation.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 59
Temple Place - Suite 330, Boston, MA 02111-1307, USA.
The full GNU General Public License is included in this distribution in the
file called LICENSE.
License Contact Information:
James P. Ketrenos <ipw2100-admin@linux.intel.com>
Intel Corporation, 5200 N.E. Elam Young Parkway, Hillsboro, OR 97124-6497
drivers/net/wireless/Kconfig
View file @
2c86c275
...
...
@@ -137,6 +137,59 @@ config PCMCIA_RAYCS
comment "Wireless 802.11b ISA/PCI cards support"
depends on NET_RADIO && (ISA || PCI || PPC_PMAC || PCMCIA)
config IPW2100
tristate "Intel PRO/Wireless 2100 Network Connection"
depends on NET_RADIO && PCI && IEEE80211
select FW_LOADER
---help---
A driver for the Intel PRO/Wireless 2100 Network
Connection 802.11b wireless network adapter.
See <file:Documentation/networking/README.ipw2100> for information on
the capabilities currently enabled in this driver and for tips
for debugging issues and problems.
In order to use this driver, you will need a firmware image for it.
You can obtain the firmware from
<http://ipw2100.sf.net/>. Once you have the firmware image, you
will need to place it in /etc/firmware.
You will also very likely need the Wireless Tools in order to
configure your card:
<http://www.hpl.hp.com/personal/Jean_Tourrilhes/Linux/Tools.html>.
If you want to compile the driver as a module ( = code which can be
inserted in and remvoed from the running kernel whenever you want),
say M here and read <file:Documentation/modules.txt>. The module
will be called ipw2100.ko.
config IPW2100_PROMISC
bool "Enable promiscuous mode"
depends on IPW2100
---help---
Enables promiscuous/monitor mode support for the ipw2100 driver.
With this feature compiled into the driver, you can switch to
promiscuous mode via the Wireless Tool's Monitor mode. While in this
mode, no packets can be sent.
config IPW_DEBUG
bool "Enable full debugging output in IPW2100 module."
depends on IPW2100
---help---
This option will enable debug tracing output for the IPW2100.
This will result in the kernel module being ~60k larger. You can
control which debug output is sent to the kernel log by setting the
value in
/sys/bus/pci/drivers/ipw2100/debug_level
This entry will only exist if this option is enabled.
If you are not trying to debug or develop the IPW2100 driver, you
most likely want to say N here.
config AIRO
tristate "Cisco/Aironet 34X/35X/4500/4800 ISA and PCI cards"
depends on NET_RADIO && ISA && (PCI || BROKEN)
...
...
drivers/net/wireless/Makefile
View file @
2c86c275
...
...
@@ -2,6 +2,8 @@
# Makefile for the Linux Wireless network device drivers.
#
obj-$(CONFIG_IPW2100)
+=
ipw2100.o
obj-$(CONFIG_STRIP)
+=
strip.o
obj-$(CONFIG_ARLAN)
+=
arlan.o
...
...
drivers/net/wireless/ipw2100.c
0 → 100644
View file @
2c86c275
This source diff could not be displayed because it is too large. You can
view the blob
instead.
drivers/net/wireless/ipw2100.h
0 → 100644
View file @
2c86c275
/******************************************************************************
Copyright(c) 2003 - 2005 Intel Corporation. All rights reserved.
This program is free software; you can redistribute it and/or modify it
under the terms of version 2 of the GNU General Public License as
published by the Free Software Foundation.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 59
Temple Place - Suite 330, Boston, MA 02111-1307, USA.
The full GNU General Public License is included in this distribution in the
file called LICENSE.
Contact Information:
James P. Ketrenos <ipw2100-admin@linux.intel.com>
Intel Corporation, 5200 N.E. Elam Young Parkway, Hillsboro, OR 97124-6497
******************************************************************************/
#ifndef _IPW2100_H
#define _IPW2100_H
#include <linux/sched.h>
#include <linux/interrupt.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/list.h>
#include <linux/delay.h>
#include <linux/skbuff.h>
#include <asm/io.h>
#include <linux/socket.h>
#include <linux/if_arp.h>
#include <linux/wireless.h>
#include <linux/version.h>
#include <net/iw_handler.h> // new driver API
#include <net/ieee80211.h>
#include <linux/workqueue.h>
#ifndef IRQ_NONE
typedef
void
irqreturn_t
;
#define IRQ_NONE
#define IRQ_HANDLED
#define IRQ_RETVAL(x)
#endif
#if WIRELESS_EXT < 17
#define IW_QUAL_QUAL_INVALID 0x10
#define IW_QUAL_LEVEL_INVALID 0x20
#define IW_QUAL_NOISE_INVALID 0x40
#endif
#if ( LINUX_VERSION_CODE < KERNEL_VERSION(2,6,5) )
#define pci_dma_sync_single_for_cpu pci_dma_sync_single
#define pci_dma_sync_single_for_device pci_dma_sync_single
#endif
#ifndef HAVE_FREE_NETDEV
#define free_netdev(x) kfree(x)
#endif
struct
ipw2100_priv
;
struct
ipw2100_tx_packet
;
struct
ipw2100_rx_packet
;
#ifdef CONFIG_IPW_DEBUG
enum
{
IPW_DEBUG_ENABLED
=
1
};
extern
u32
ipw2100_debug_level
;
#define IPW_DEBUG(level, message...) \
do { \
if (ipw2100_debug_level & (level)) { \
printk(KERN_DEBUG "ipw2100: %c %s ", \
in_interrupt() ? 'I' : 'U', __FUNCTION__); \
printk(message); \
} \
} while (0)
#else
enum
{
IPW_DEBUG_ENABLED
=
0
};
#define IPW_DEBUG(level, message...) do {} while (0)
#endif
/* CONFIG_IPW_DEBUG */
#define IPW_DL_UNINIT 0x80000000
#define IPW_DL_NONE 0x00000000
#define IPW_DL_ALL 0x7FFFFFFF
/*
* To use the debug system;
*
* If you are defining a new debug classification, simply add it to the #define
* list here in the form of:
*
* #define IPW_DL_xxxx VALUE
*
* shifting value to the left one bit from the previous entry. xxxx should be
* the name of the classification (for example, WEP)
*
* You then need to either add a IPW2100_xxxx_DEBUG() macro definition for your
* classification, or use IPW_DEBUG(IPW_DL_xxxx, ...) whenever you want
* to send output to that classification.
*
* To add your debug level to the list of levels seen when you perform
*
* % cat /proc/net/ipw2100/debug_level
*
* you simply need to add your entry to the ipw2100_debug_levels array.
*
* If you do not see debug_level in /proc/net/ipw2100 then you do not have
* CONFIG_IPW_DEBUG defined in your kernel configuration
*
*/
#define IPW_DL_ERROR (1<<0)
#define IPW_DL_WARNING (1<<1)
#define IPW_DL_INFO (1<<2)
#define IPW_DL_WX (1<<3)
#define IPW_DL_HC (1<<5)
#define IPW_DL_STATE (1<<6)
#define IPW_DL_NOTIF (1<<10)
#define IPW_DL_SCAN (1<<11)
#define IPW_DL_ASSOC (1<<12)
#define IPW_DL_DROP (1<<13)
#define IPW_DL_IOCTL (1<<14)
#define IPW_DL_RF_KILL (1<<17)
#define IPW_DL_MANAGE (1<<15)
#define IPW_DL_FW (1<<16)
#define IPW_DL_FRAG (1<<21)
#define IPW_DL_WEP (1<<22)
#define IPW_DL_TX (1<<23)
#define IPW_DL_RX (1<<24)
#define IPW_DL_ISR (1<<25)
#define IPW_DL_IO (1<<26)
#define IPW_DL_TRACE (1<<28)
#define IPW_DEBUG_ERROR(f, a...) printk(KERN_ERR DRV_NAME ": " f, ## a)
#define IPW_DEBUG_WARNING(f, a...) printk(KERN_WARNING DRV_NAME ": " f, ## a)
#define IPW_DEBUG_INFO(f...) IPW_DEBUG(IPW_DL_INFO, ## f)
#define IPW_DEBUG_WX(f...) IPW_DEBUG(IPW_DL_WX, ## f)
#define IPW_DEBUG_SCAN(f...) IPW_DEBUG(IPW_DL_SCAN, ## f)
#define IPW_DEBUG_NOTIF(f...) IPW_DEBUG(IPW_DL_NOTIF, ## f)
#define IPW_DEBUG_TRACE(f...) IPW_DEBUG(IPW_DL_TRACE, ## f)
#define IPW_DEBUG_RX(f...) IPW_DEBUG(IPW_DL_RX, ## f)
#define IPW_DEBUG_TX(f...) IPW_DEBUG(IPW_DL_TX, ## f)
#define IPW_DEBUG_ISR(f...) IPW_DEBUG(IPW_DL_ISR, ## f)
#define IPW_DEBUG_MANAGEMENT(f...) IPW_DEBUG(IPW_DL_MANAGE, ## f)
#define IPW_DEBUG_WEP(f...) IPW_DEBUG(IPW_DL_WEP, ## f)
#define IPW_DEBUG_HC(f...) IPW_DEBUG(IPW_DL_HC, ## f)
#define IPW_DEBUG_FRAG(f...) IPW_DEBUG(IPW_DL_FRAG, ## f)
#define IPW_DEBUG_FW(f...) IPW_DEBUG(IPW_DL_FW, ## f)
#define IPW_DEBUG_RF_KILL(f...) IPW_DEBUG(IPW_DL_RF_KILL, ## f)
#define IPW_DEBUG_DROP(f...) IPW_DEBUG(IPW_DL_DROP, ## f)
#define IPW_DEBUG_IO(f...) IPW_DEBUG(IPW_DL_IO, ## f)
#define IPW_DEBUG_IOCTL(f...) IPW_DEBUG(IPW_DL_IOCTL, ## f)
#define IPW_DEBUG_STATE(f, a...) IPW_DEBUG(IPW_DL_STATE | IPW_DL_ASSOC | IPW_DL_INFO, f, ## a)
#define IPW_DEBUG_ASSOC(f, a...) IPW_DEBUG(IPW_DL_ASSOC | IPW_DL_INFO, f, ## a)
#define VERIFY(f) \
{ \
int status = 0; \
status = f; \
if(status) \
return status; \
}
enum
{
IPW_HW_STATE_DISABLED
=
1
,
IPW_HW_STATE_ENABLED
=
0
};
struct
ssid_context
{
char
ssid
[
IW_ESSID_MAX_SIZE
+
1
];
int
ssid_len
;
unsigned
char
bssid
[
ETH_ALEN
];
int
port_type
;
int
channel
;
};
extern
const
char
*
port_type_str
[];
extern
const
char
*
band_str
[];
#define NUMBER_OF_BD_PER_COMMAND_PACKET 1
#define NUMBER_OF_BD_PER_DATA_PACKET 2
#define IPW_MAX_BDS 6
#define NUMBER_OF_OVERHEAD_BDS_PER_PACKETR 2
#define NUMBER_OF_BDS_TO_LEAVE_FOR_COMMANDS 1
#define REQUIRED_SPACE_IN_RING_FOR_COMMAND_PACKET \
(IPW_BD_QUEUE_W_R_MIN_SPARE + NUMBER_OF_BD_PER_COMMAND_PACKET)
struct
bd_status
{
union
{
struct
{
u8
nlf
:
1
,
txType
:
2
,
intEnabled
:
1
,
reserved
:
4
;}
fields
;
u8
field
;
}
info
;
}
__attribute__
((
packed
));
#define IPW_BUFDESC_LAST_FRAG 0
struct
ipw2100_bd
{
u32
host_addr
;
u32
buf_length
;
struct
bd_status
status
;
/* number of fragments for frame (should be set only for
* 1st TBD) */
u8
num_fragments
;
u8
reserved
[
6
];
}
__attribute__
((
packed
));
#define IPW_BD_QUEUE_LENGTH(n) (1<<n)
#define IPW_BD_ALIGNMENT(L) (L*sizeof(struct ipw2100_bd))
#define IPW_BD_STATUS_TX_FRAME_802_3 0x00
#define IPW_BD_STATUS_TX_FRAME_NOT_LAST_FRAGMENT 0x01
#define IPW_BD_STATUS_TX_FRAME_COMMAND 0x02
#define IPW_BD_STATUS_TX_FRAME_802_11 0x04
#define IPW_BD_STATUS_TX_INTERRUPT_ENABLE 0x08
struct
ipw2100_bd_queue
{
/* driver (virtual) pointer to queue */
struct
ipw2100_bd
*
drv
;
/* firmware (physical) pointer to queue */
dma_addr_t
nic
;
/* Length of phy memory allocated for BDs */
u32
size
;
/* Number of BDs in queue (and in array) */
u32
entries
;
/* Number of available BDs (invalid for NIC BDs) */
u32
available
;
/* Offset of oldest used BD in array (next one to
* check for completion) */
u32
oldest
;
/* Offset of next available (unused) BD */
u32
next
;
};
#define RX_QUEUE_LENGTH 256
#define TX_QUEUE_LENGTH 256
#define HW_QUEUE_LENGTH 256
#define TX_PENDED_QUEUE_LENGTH (TX_QUEUE_LENGTH / NUMBER_OF_BD_PER_DATA_PACKET)
#define STATUS_TYPE_MASK 0x0000000f
#define COMMAND_STATUS_VAL 0
#define STATUS_CHANGE_VAL 1
#define P80211_DATA_VAL 2
#define P8023_DATA_VAL 3
#define HOST_NOTIFICATION_VAL 4
#define IPW2100_RSSI_TO_DBM (-98)
struct
ipw2100_status
{
u32
frame_size
;
u16
status_fields
;
u8
flags
;
#define IPW_STATUS_FLAG_DECRYPTED (1<<0)
#define IPW_STATUS_FLAG_WEP_ENCRYPTED (1<<1)
#define IPW_STATUS_FLAG_CRC_ERROR (1<<2)
u8
rssi
;
}
__attribute__
((
packed
));
struct
ipw2100_status_queue
{
/* driver (virtual) pointer to queue */
struct
ipw2100_status
*
drv
;
/* firmware (physical) pointer to queue */
dma_addr_t
nic
;
/* Length of phy memory allocated for BDs */
u32
size
;
};
#define HOST_COMMAND_PARAMS_REG_LEN 100
#define CMD_STATUS_PARAMS_REG_LEN 3
#define IPW_WPA_CAPABILITIES 0x1
#define IPW_WPA_LISTENINTERVAL 0x2
#define IPW_WPA_AP_ADDRESS 0x4
#define IPW_MAX_VAR_IE_LEN ((HOST_COMMAND_PARAMS_REG_LEN - 4) * sizeof(u32))
struct
ipw2100_wpa_assoc_frame
{
u16
fixed_ie_mask
;
struct
{
u16
capab_info
;
u16
listen_interval
;
u8
current_ap
[
ETH_ALEN
];
}
fixed_ies
;
u32
var_ie_len
;
u8
var_ie
[
IPW_MAX_VAR_IE_LEN
];
};
#define IPW_BSS 1
#define IPW_MONITOR 2
#define IPW_IBSS 3
/**
* @struct _tx_cmd - HWCommand
* @brief H/W command structure.
*/
struct
ipw2100_cmd_header
{
u32
host_command_reg
;
u32
host_command_reg1
;
u32
sequence
;
u32
host_command_len_reg
;
u32
host_command_params_reg
[
HOST_COMMAND_PARAMS_REG_LEN
];
u32
cmd_status_reg
;
u32
cmd_status_params_reg
[
CMD_STATUS_PARAMS_REG_LEN
];
u32
rxq_base_ptr
;
u32
rxq_next_ptr
;
u32
rxq_host_ptr
;
u32
txq_base_ptr
;
u32
txq_next_ptr
;
u32
txq_host_ptr
;
u32
tx_status_reg
;
u32
reserved
;
u32
status_change_reg
;
u32
reserved1
[
3
];
u32
*
ordinal1_ptr
;
u32
*
ordinal2_ptr
;
}
__attribute__
((
packed
));
struct
ipw2100_data_header
{
u32
host_command_reg
;
u32
host_command_reg1
;
u8
encrypted
;
// BOOLEAN in win! TRUE if frame is enc by driver
u8
needs_encryption
;
// BOOLEAN in win! TRUE if frma need to be enc in NIC
u8
wep_index
;
// 0 no key, 1-4 key index, 0xff immediate key
u8
key_size
;
// 0 no imm key, 0x5 64bit encr, 0xd 128bit encr, 0x10 128bit encr and 128bit IV
u8
key
[
16
];
u8
reserved
[
10
];
// f/w reserved
u8
src_addr
[
ETH_ALEN
];
u8
dst_addr
[
ETH_ALEN
];
u16
fragment_size
;
}
__attribute__
((
packed
));
// Host command data structure
struct
host_command
{
u32
host_command
;
// COMMAND ID
u32
host_command1
;
// COMMAND ID
u32
host_command_sequence
;
// UNIQUE COMMAND NUMBER (ID)
u32
host_command_length
;
// LENGTH
u32
host_command_parameters
[
HOST_COMMAND_PARAMS_REG_LEN
];
// COMMAND PARAMETERS
}
__attribute__
((
packed
));
typedef
enum
{
POWER_ON_RESET
,
EXIT_POWER_DOWN_RESET
,
SW_RESET
,
EEPROM_RW
,
SW_RE_INIT
}
ipw2100_reset_event
;
enum
{
COMMAND
=
0xCAFE
,
DATA
,
RX
};
struct
ipw2100_tx_packet
{
int
type
;
int
index
;
union
{
struct
{
/* COMMAND */
struct
ipw2100_cmd_header
*
cmd
;
dma_addr_t
cmd_phys
;
}
c_struct
;
struct
{
/* DATA */
struct
ipw2100_data_header
*
data
;
dma_addr_t
data_phys
;
struct
ieee80211_txb
*
txb
;
}
d_struct
;
}
info
;
int
jiffy_start
;
struct
list_head
list
;
};
struct
ipw2100_rx_packet
{
struct
ipw2100_rx
*
rxp
;
dma_addr_t
dma_addr
;
int
jiffy_start
;
struct
sk_buff
*
skb
;
struct
list_head
list
;
};
#define FRAG_DISABLED (1<<31)
#define RTS_DISABLED (1<<31)
#define MAX_RTS_THRESHOLD 2304U
#define MIN_RTS_THRESHOLD 1U
#define DEFAULT_RTS_THRESHOLD 1000U
#define DEFAULT_BEACON_INTERVAL 100U
#define DEFAULT_SHORT_RETRY_LIMIT 7U
#define DEFAULT_LONG_RETRY_LIMIT 4U
struct
ipw2100_ordinals
{
u32
table1_addr
;
u32
table2_addr
;
u32
table1_size
;
u32
table2_size
;
};
/* Host Notification header */
struct
ipw2100_notification
{
u32
hnhdr_subtype
;
/* type of host notification */
u32
hnhdr_size
;
/* size in bytes of data
or number of entries, if table.
Does NOT include header */
}
__attribute__
((
packed
));
#define MAX_KEY_SIZE 16
#define MAX_KEYS 8
#define IPW2100_WEP_ENABLE (1<<1)
#define IPW2100_WEP_DROP_CLEAR (1<<2)
#define IPW_NONE_CIPHER (1<<0)
#define IPW_WEP40_CIPHER (1<<1)
#define IPW_TKIP_CIPHER (1<<2)
#define IPW_CCMP_CIPHER (1<<4)
#define IPW_WEP104_CIPHER (1<<5)
#define IPW_CKIP_CIPHER (1<<6)
#define IPW_AUTH_OPEN 0
#define IPW_AUTH_SHARED 1
struct
statistic
{
int
value
;
int
hi
;
int
lo
;
};
#define INIT_STAT(x) do { \
(x)->value = (x)->hi = 0; \
(x)->lo = 0x7fffffff; \
} while (0)
#define SET_STAT(x,y) do { \
(x)->value = y; \
if ((x)->value > (x)->hi) (x)->hi = (x)->value; \
if ((x)->value < (x)->lo) (x)->lo = (x)->value; \
} while (0)
#define INC_STAT(x) do { if (++(x)->value > (x)->hi) (x)->hi = (x)->value; } \
while (0)
#define DEC_STAT(x) do { if (--(x)->value < (x)->lo) (x)->lo = (x)->value; } \
while (0)
#define IPW2100_ERROR_QUEUE 5
/* Power management code: enable or disable? */
enum
{
#ifdef CONFIG_PM
IPW2100_PM_DISABLED
=
0
,
PM_STATE_SIZE
=
16
,
#else
IPW2100_PM_DISABLED
=
1
,
PM_STATE_SIZE
=
0
,
#endif
};
#define STATUS_POWERED (1<<0)
#define STATUS_CMD_ACTIVE (1<<1)
/**< host command in progress */
#define STATUS_RUNNING (1<<2)
/* Card initialized, but not enabled */
#define STATUS_ENABLED (1<<3)
/* Card enabled -- can scan,Tx,Rx */
#define STATUS_STOPPING (1<<4)
/* Card is in shutdown phase */
#define STATUS_INITIALIZED (1<<5)
/* Card is ready for external calls */
#define STATUS_ASSOCIATING (1<<9)
/* Associated, but no BSSID yet */
#define STATUS_ASSOCIATED (1<<10)
/* Associated and BSSID valid */
#define STATUS_INT_ENABLED (1<<11)
#define STATUS_RF_KILL_HW (1<<12)
#define STATUS_RF_KILL_SW (1<<13)
#define STATUS_RF_KILL_MASK (STATUS_RF_KILL_HW | STATUS_RF_KILL_SW)
#define STATUS_EXIT_PENDING (1<<14)
#define STATUS_SCAN_PENDING (1<<23)
#define STATUS_SCANNING (1<<24)
#define STATUS_SCAN_ABORTING (1<<25)
#define STATUS_SCAN_COMPLETE (1<<26)
#define STATUS_WX_EVENT_PENDING (1<<27)
#define STATUS_RESET_PENDING (1<<29)
#define STATUS_SECURITY_UPDATED (1<<30)
/* Security sync needed */
/* Internal NIC states */
#define IPW_STATE_INITIALIZED (1<<0)
#define IPW_STATE_COUNTRY_FOUND (1<<1)
#define IPW_STATE_ASSOCIATED (1<<2)
#define IPW_STATE_ASSN_LOST (1<<3)
#define IPW_STATE_ASSN_CHANGED (1<<4)
#define IPW_STATE_SCAN_COMPLETE (1<<5)
#define IPW_STATE_ENTERED_PSP (1<<6)
#define IPW_STATE_LEFT_PSP (1<<7)
#define IPW_STATE_RF_KILL (1<<8)
#define IPW_STATE_DISABLED (1<<9)
#define IPW_STATE_POWER_DOWN (1<<10)
#define IPW_STATE_SCANNING (1<<11)
#define CFG_STATIC_CHANNEL (1<<0)
/* Restrict assoc. to single channel */
#define CFG_STATIC_ESSID (1<<1)
/* Restrict assoc. to single SSID */
#define CFG_STATIC_BSSID (1<<2)
/* Restrict assoc. to single BSSID */
#define CFG_CUSTOM_MAC (1<<3)
#define CFG_LONG_PREAMBLE (1<<4)
#define CFG_ASSOCIATE (1<<6)
#define CFG_FIXED_RATE (1<<7)
#define CFG_ADHOC_CREATE (1<<8)
#define CFG_C3_DISABLED (1<<9)
#define CFG_PASSIVE_SCAN (1<<10)
#define CAP_SHARED_KEY (1<<0)
/* Off = OPEN */
#define CAP_PRIVACY_ON (1<<1)
/* Off = No privacy */
struct
ipw2100_priv
{
int
stop_hang_check
;
/* Set 1 when shutting down to kill hang_check */
int
stop_rf_kill
;
/* Set 1 when shutting down to kill rf_kill */
struct
ieee80211_device
*
ieee
;
unsigned
long
status
;
unsigned
long
config
;
unsigned
long
capability
;
/* Statistics */
int
resets
;
int
reset_backoff
;
/* Context */
u8
essid
[
IW_ESSID_MAX_SIZE
];
u8
essid_len
;
u8
bssid
[
ETH_ALEN
];
u8
channel
;
int
last_mode
;
int
cstate_limit
;
unsigned
long
connect_start
;
unsigned
long
last_reset
;
u32
channel_mask
;
u32
fatal_error
;
u32
fatal_errors
[
IPW2100_ERROR_QUEUE
];
u32
fatal_index
;
int
eeprom_version
;
int
firmware_version
;
unsigned
long
hw_features
;
int
hangs
;
u32
last_rtc
;
int
dump_raw
;
/* 1 to dump raw bytes in /sys/.../memory */
u8
*
snapshot
[
0x30
];
u8
mandatory_bssid_mac
[
ETH_ALEN
];
u8
mac_addr
[
ETH_ALEN
];
int
power_mode
;
/* WEP data */
struct
ieee80211_security
sec
;
int
messages_sent
;
int
short_retry_limit
;
int
long_retry_limit
;
u32
rts_threshold
;
u32
frag_threshold
;
int
in_isr
;
u32
tx_rates
;
int
tx_power
;
u32
beacon_interval
;
char
nick
[
IW_ESSID_MAX_SIZE
+
1
];
struct
ipw2100_status_queue
status_queue
;
struct
statistic
txq_stat
;
struct
statistic
rxq_stat
;
struct
ipw2100_bd_queue
rx_queue
;
struct
ipw2100_bd_queue
tx_queue
;
struct
ipw2100_rx_packet
*
rx_buffers
;
struct
statistic
fw_pend_stat
;
struct
list_head
fw_pend_list
;
struct
statistic
msg_free_stat
;
struct
statistic
msg_pend_stat
;
struct
list_head
msg_free_list
;
struct
list_head
msg_pend_list
;
struct
ipw2100_tx_packet
*
msg_buffers
;
struct
statistic
tx_free_stat
;
struct
statistic
tx_pend_stat
;
struct
list_head
tx_free_list
;
struct
list_head
tx_pend_list
;
struct
ipw2100_tx_packet
*
tx_buffers
;
struct
ipw2100_ordinals
ordinals
;
struct
pci_dev
*
pci_dev
;
struct
proc_dir_entry
*
dir_dev
;
struct
net_device
*
net_dev
;
struct
iw_statistics
wstats
;
struct
tasklet_struct
irq_tasklet
;
struct
workqueue_struct
*
workqueue
;
struct
work_struct
reset_work
;
struct
work_struct
security_work
;
struct
work_struct
wx_event_work
;
struct
work_struct
hang_check
;
struct
work_struct
rf_kill
;
u32
interrupts
;
int
tx_interrupts
;
int
rx_interrupts
;
int
inta_other
;
spinlock_t
low_lock
;
struct
semaphore
action_sem
;
struct
semaphore
adapter_sem
;
wait_queue_head_t
wait_command_queue
;
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,10)
u32
pm_state
[
PM_STATE_SIZE
];
#endif
};
/*********************************************************
* Host Command -> From Driver to FW
*********************************************************/
/**
* Host command identifiers
*/
#define HOST_COMPLETE 2
#define SYSTEM_CONFIG 6
#define SSID 8
#define MANDATORY_BSSID 9
#define AUTHENTICATION_TYPE 10
#define ADAPTER_ADDRESS 11
#define PORT_TYPE 12
#define INTERNATIONAL_MODE 13
#define CHANNEL 14
#define RTS_THRESHOLD 15
#define FRAG_THRESHOLD 16
#define POWER_MODE 17
#define TX_RATES 18
#define BASIC_TX_RATES 19
#define WEP_KEY_INFO 20
#define WEP_KEY_INDEX 25
#define WEP_FLAGS 26
#define ADD_MULTICAST 27
#define CLEAR_ALL_MULTICAST 28
#define BEACON_INTERVAL 29
#define ATIM_WINDOW 30
#define CLEAR_STATISTICS 31
#define SEND 33
#define TX_POWER_INDEX 36
#define BROADCAST_SCAN 43
#define CARD_DISABLE 44
#define PREFERRED_BSSID 45
#define SET_SCAN_OPTIONS 46
#define SCAN_DWELL_TIME 47
#define SWEEP_TABLE 48
#define AP_OR_STATION_TABLE 49
#define GROUP_ORDINALS 50
#define SHORT_RETRY_LIMIT 51
#define LONG_RETRY_LIMIT 52
#define HOST_PRE_POWER_DOWN 58
#define CARD_DISABLE_PHY_OFF 61
#define MSDU_TX_RATES 62
// Rogue AP Detection
#define SET_STATION_STAT_BITS 64
#define CLEAR_STATIONS_STAT_BITS 65
#define LEAP_ROGUE_MODE 66 //TODO tbw replaced by CFG_LEAP_ROGUE_AP
#define SET_SECURITY_INFORMATION 67
#define DISASSOCIATION_BSSID 68
#define SET_WPA_IE 69
// system configuration bit mask:
//#define IPW_CFG_ANTENNA_SETTING 0x03
//#define IPW_CFG_ANTENNA_A 0x01
//#define IPW_CFG_ANTENNA_B 0x02
#define IPW_CFG_MONITOR 0x00004
//#define IPW_CFG_TX_STATUS_ENABLE 0x00008
#define IPW_CFG_PREAMBLE_AUTO 0x00010
#define IPW_CFG_IBSS_AUTO_START 0x00020
//#define IPW_CFG_KERBEROS_ENABLE 0x00040
#define IPW_CFG_LOOPBACK 0x00100
//#define IPW_CFG_WNMP_PING_PASS 0x00200
//#define IPW_CFG_DEBUG_ENABLE 0x00400
#define IPW_CFG_ANSWER_BCSSID_PROBE 0x00800
//#define IPW_CFG_BT_PRIORITY 0x01000
#define IPW_CFG_BT_SIDEBAND_SIGNAL 0x02000
#define IPW_CFG_802_1x_ENABLE 0x04000
#define IPW_CFG_BSS_MASK 0x08000
#define IPW_CFG_IBSS_MASK 0x10000
//#define IPW_CFG_DYNAMIC_CW 0x10000
#define IPW_SCAN_NOASSOCIATE (1<<0)
#define IPW_SCAN_MIXED_CELL (1<<1)
/* RESERVED (1<<2) */
#define IPW_SCAN_PASSIVE (1<<3)
#define IPW_NIC_FATAL_ERROR 0x2A7F0
#define IPW_ERROR_ADDR(x) (x & 0x3FFFF)
#define IPW_ERROR_CODE(x) ((x & 0xFF000000) >> 24)
#define IPW2100_ERR_C3_CORRUPTION (0x10 << 24)
#define IPW2100_ERR_MSG_TIMEOUT (0x11 << 24)
#define IPW2100_ERR_FW_LOAD (0x12 << 24)
#define IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND 0x200
#define IPW_MEM_SRAM_HOST_INTERRUPT_AREA_LOWER_BOUND IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x0D80
#define IPW_MEM_HOST_SHARED_RX_BD_BASE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x40)
#define IPW_MEM_HOST_SHARED_RX_STATUS_BASE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x44)
#define IPW_MEM_HOST_SHARED_RX_BD_SIZE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x48)
#define IPW_MEM_HOST_SHARED_RX_READ_INDEX (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0xa0)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_BD_BASE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x00)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_BD_SIZE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x04)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_READ_INDEX (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x80)
#define IPW_MEM_HOST_SHARED_RX_WRITE_INDEX \
(IPW_MEM_SRAM_HOST_INTERRUPT_AREA_LOWER_BOUND + 0x20)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_WRITE_INDEX \
(IPW_MEM_SRAM_HOST_INTERRUPT_AREA_LOWER_BOUND)
#if 0
#define IPW_MEM_HOST_SHARED_TX_QUEUE_0_BD_BASE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x00)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_0_BD_SIZE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x04)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_1_BD_BASE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x08)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_1_BD_SIZE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x0c)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_2_BD_BASE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x10)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_2_BD_SIZE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x14)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_3_BD_BASE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x18)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_3_BD_SIZE (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x1c)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_0_READ_INDEX (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x80)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_1_READ_INDEX (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x84)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_2_READ_INDEX (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x88)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_3_READ_INDEX (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x8c)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_BD_BASE(QueueNum) \
(IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + (QueueNum<<3))
#define IPW_MEM_HOST_SHARED_TX_QUEUE_BD_SIZE(QueueNum) \
(IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x0004+(QueueNum<<3))
#define IPW_MEM_HOST_SHARED_TX_QUEUE_READ_INDEX(QueueNum) \
(IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x0080+(QueueNum<<2))
#define IPW_MEM_HOST_SHARED_TX_QUEUE_0_WRITE_INDEX \
(IPW_MEM_SRAM_HOST_INTERRUPT_AREA_LOWER_BOUND + 0x00)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_1_WRITE_INDEX \
(IPW_MEM_SRAM_HOST_INTERRUPT_AREA_LOWER_BOUND + 0x04)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_2_WRITE_INDEX \
(IPW_MEM_SRAM_HOST_INTERRUPT_AREA_LOWER_BOUND + 0x08)
#define IPW_MEM_HOST_SHARED_TX_QUEUE_3_WRITE_INDEX \
(IPW_MEM_SRAM_HOST_INTERRUPT_AREA_LOWER_BOUND + 0x0c)
#define IPW_MEM_HOST_SHARED_SLAVE_MODE_INT_REGISTER \
(IPW_MEM_SRAM_HOST_INTERRUPT_AREA_LOWER_BOUND + 0x78)
#endif
#define IPW_MEM_HOST_SHARED_ORDINALS_TABLE_1 (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x180)
#define IPW_MEM_HOST_SHARED_ORDINALS_TABLE_2 (IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND + 0x184)
#define IPW2100_INTA_TX_TRANSFER (0x00000001) // Bit 0 (LSB)
#define IPW2100_INTA_RX_TRANSFER (0x00000002) // Bit 1
#define IPW2100_INTA_TX_COMPLETE (0x00000004) // Bit 2
#define IPW2100_INTA_EVENT_INTERRUPT (0x00000008) // Bit 3
#define IPW2100_INTA_STATUS_CHANGE (0x00000010) // Bit 4
#define IPW2100_INTA_BEACON_PERIOD_EXPIRED (0x00000020) // Bit 5
#define IPW2100_INTA_SLAVE_MODE_HOST_COMMAND_DONE (0x00010000) // Bit 16
#define IPW2100_INTA_FW_INIT_DONE (0x01000000) // Bit 24
#define IPW2100_INTA_FW_CALIBRATION_CALC (0x02000000) // Bit 25
#define IPW2100_INTA_FATAL_ERROR (0x40000000) // Bit 30
#define IPW2100_INTA_PARITY_ERROR (0x80000000) // Bit 31 (MSB)
#define IPW_AUX_HOST_RESET_REG_PRINCETON_RESET (0x00000001)
#define IPW_AUX_HOST_RESET_REG_FORCE_NMI (0x00000002)
#define IPW_AUX_HOST_RESET_REG_PCI_HOST_CLUSTER_FATAL_NMI (0x00000004)
#define IPW_AUX_HOST_RESET_REG_CORE_FATAL_NMI (0x00000008)
#define IPW_AUX_HOST_RESET_REG_SW_RESET (0x00000080)
#define IPW_AUX_HOST_RESET_REG_MASTER_DISABLED (0x00000100)
#define IPW_AUX_HOST_RESET_REG_STOP_MASTER (0x00000200)
#define IPW_AUX_HOST_GP_CNTRL_BIT_CLOCK_READY (0x00000001) // Bit 0 (LSB)
#define IPW_AUX_HOST_GP_CNTRL_BIT_HOST_ALLOWS_STANDBY (0x00000002) // Bit 1
#define IPW_AUX_HOST_GP_CNTRL_BIT_INIT_DONE (0x00000004) // Bit 2
#define IPW_AUX_HOST_GP_CNTRL_BITS_SYS_CONFIG (0x000007c0) // Bits 6-10
#define IPW_AUX_HOST_GP_CNTRL_BIT_BUS_TYPE (0x00000200) // Bit 9
#define IPW_AUX_HOST_GP_CNTRL_BIT_BAR0_BLOCK_SIZE (0x00000400) // Bit 10
#define IPW_AUX_HOST_GP_CNTRL_BIT_USB_MODE (0x20000000) // Bit 29
#define IPW_AUX_HOST_GP_CNTRL_BIT_HOST_FORCES_SYS_CLK (0x40000000) // Bit 30
#define IPW_AUX_HOST_GP_CNTRL_BIT_FW_FORCES_SYS_CLK (0x80000000) // Bit 31 (MSB)
#define IPW_BIT_GPIO_GPIO1_MASK 0x0000000C
#define IPW_BIT_GPIO_GPIO3_MASK 0x000000C0
#define IPW_BIT_GPIO_GPIO1_ENABLE 0x00000008
#define IPW_BIT_GPIO_RF_KILL 0x00010000
#define IPW_BIT_GPIO_LED_OFF 0x00002000 // Bit 13 = 1
#define IPW_REG_DOMAIN_0_OFFSET 0x0000
#define IPW_REG_DOMAIN_1_OFFSET IPW_MEM_SRAM_HOST_SHARED_LOWER_BOUND
#define IPW_REG_INTA IPW_REG_DOMAIN_0_OFFSET + 0x0008
#define IPW_REG_INTA_MASK IPW_REG_DOMAIN_0_OFFSET + 0x000C
#define IPW_REG_INDIRECT_ACCESS_ADDRESS IPW_REG_DOMAIN_0_OFFSET + 0x0010
#define IPW_REG_INDIRECT_ACCESS_DATA IPW_REG_DOMAIN_0_OFFSET + 0x0014
#define IPW_REG_AUTOINCREMENT_ADDRESS IPW_REG_DOMAIN_0_OFFSET + 0x0018
#define IPW_REG_AUTOINCREMENT_DATA IPW_REG_DOMAIN_0_OFFSET + 0x001C
#define IPW_REG_RESET_REG IPW_REG_DOMAIN_0_OFFSET + 0x0020
#define IPW_REG_GP_CNTRL IPW_REG_DOMAIN_0_OFFSET + 0x0024
#define IPW_REG_GPIO IPW_REG_DOMAIN_0_OFFSET + 0x0030
#define IPW_REG_FW_TYPE IPW_REG_DOMAIN_1_OFFSET + 0x0188
#define IPW_REG_FW_VERSION IPW_REG_DOMAIN_1_OFFSET + 0x018C
#define IPW_REG_FW_COMPATABILITY_VERSION IPW_REG_DOMAIN_1_OFFSET + 0x0190
#define IPW_REG_INDIRECT_ADDR_MASK 0x00FFFFFC
#define IPW_INTERRUPT_MASK 0xC1010013
#define IPW2100_CONTROL_REG 0x220000
#define IPW2100_CONTROL_PHY_OFF 0x8
#define IPW2100_COMMAND 0x00300004
#define IPW2100_COMMAND_PHY_ON 0x0
#define IPW2100_COMMAND_PHY_OFF 0x1
/* in DEBUG_AREA, values of memory always 0xd55555d5 */
#define IPW_REG_DOA_DEBUG_AREA_START IPW_REG_DOMAIN_0_OFFSET + 0x0090
#define IPW_REG_DOA_DEBUG_AREA_END IPW_REG_DOMAIN_0_OFFSET + 0x00FF
#define IPW_DATA_DOA_DEBUG_VALUE 0xd55555d5
#define IPW_INTERNAL_REGISTER_HALT_AND_RESET 0x003000e0
#define IPW_WAIT_CLOCK_STABILIZATION_DELAY 50 // micro seconds
#define IPW_WAIT_RESET_ARC_COMPLETE_DELAY 10 // micro seconds
#define IPW_WAIT_RESET_MASTER_ASSERT_COMPLETE_DELAY 10 // micro seconds
// BD ring queue read/write difference
#define IPW_BD_QUEUE_W_R_MIN_SPARE 2
#define IPW_CACHE_LINE_LENGTH_DEFAULT 0x80
#define IPW_CARD_DISABLE_PHY_OFF_COMPLETE_WAIT 100 // 100 milli
#define IPW_PREPARE_POWER_DOWN_COMPLETE_WAIT 100 // 100 milli
#define IPW_HEADER_802_11_SIZE sizeof(struct ieee80211_header_data)
#define IPW_MAX_80211_PAYLOAD_SIZE 2304U
#define IPW_MAX_802_11_PAYLOAD_LENGTH 2312
#define IPW_MAX_ACCEPTABLE_TX_FRAME_LENGTH 1536
#define IPW_MIN_ACCEPTABLE_RX_FRAME_LENGTH 60
#define IPW_MAX_ACCEPTABLE_RX_FRAME_LENGTH \
(IPW_MAX_ACCEPTABLE_TX_FRAME_LENGTH + IPW_HEADER_802_11_SIZE - \
sizeof(struct ethhdr))
#define IPW_802_11_FCS_LENGTH 4
#define IPW_RX_NIC_BUFFER_LENGTH \
(IPW_MAX_802_11_PAYLOAD_LENGTH + IPW_HEADER_802_11_SIZE + \
IPW_802_11_FCS_LENGTH)
#define IPW_802_11_PAYLOAD_OFFSET \
(sizeof(struct ieee80211_header_data) + \
sizeof(struct ieee80211_snap_hdr))
struct
ipw2100_rx
{
union
{
unsigned
char
payload
[
IPW_RX_NIC_BUFFER_LENGTH
];
struct
ieee80211_hdr
header
;
u32
status
;
struct
ipw2100_notification
notification
;
struct
ipw2100_cmd_header
command
;
}
rx_data
;
}
__attribute__
((
packed
));
// Bit 0-7 are for 802.11b tx rates - . Bit 5-7 are reserved
#define TX_RATE_1_MBIT 0x0001
#define TX_RATE_2_MBIT 0x0002
#define TX_RATE_5_5_MBIT 0x0004
#define TX_RATE_11_MBIT 0x0008
#define TX_RATE_MASK 0x000F
#define DEFAULT_TX_RATES 0x000F
#define IPW_POWER_MODE_CAM 0x00 //(always on)
#define IPW_POWER_INDEX_1 0x01
#define IPW_POWER_INDEX_2 0x02
#define IPW_POWER_INDEX_3 0x03
#define IPW_POWER_INDEX_4 0x04
#define IPW_POWER_INDEX_5 0x05
#define IPW_POWER_AUTO 0x06
#define IPW_POWER_MASK 0x0F
#define IPW_POWER_ENABLED 0x10
#define IPW_POWER_LEVEL(x) ((x) & IPW_POWER_MASK)
#define IPW_TX_POWER_AUTO 0
#define IPW_TX_POWER_ENHANCED 1
#define IPW_TX_POWER_DEFAULT 32
#define IPW_TX_POWER_MIN 0
#define IPW_TX_POWER_MAX 16
#define IPW_TX_POWER_MIN_DBM (-12)
#define IPW_TX_POWER_MAX_DBM 16
#define FW_SCAN_DONOT_ASSOCIATE 0x0001 // Dont Attempt to Associate after Scan
#define FW_SCAN_PASSIVE 0x0008 // Force PASSSIVE Scan
#define REG_MIN_CHANNEL 0
#define REG_MAX_CHANNEL 14
#define REG_CHANNEL_MASK 0x00003FFF
#define IPW_IBSS_11B_DEFAULT_MASK 0x87ff
#define DIVERSITY_EITHER 0 // Use both antennas
#define DIVERSITY_ANTENNA_A 1 // Use antenna A
#define DIVERSITY_ANTENNA_B 2 // Use antenna B
#define HOST_COMMAND_WAIT 0
#define HOST_COMMAND_NO_WAIT 1
#define LOCK_NONE 0
#define LOCK_DRIVER 1
#define LOCK_FW 2
#define TYPE_SWEEP_ORD 0x000D
#define TYPE_IBSS_STTN_ORD 0x000E
#define TYPE_BSS_AP_ORD 0x000F
#define TYPE_RAW_BEACON_ENTRY 0x0010
#define TYPE_CALIBRATION_DATA 0x0011
#define TYPE_ROGUE_AP_DATA 0x0012
#define TYPE_ASSOCIATION_REQUEST 0x0013
#define TYPE_REASSOCIATION_REQUEST 0x0014
#define HW_FEATURE_RFKILL (0x0001)
#define RF_KILLSWITCH_OFF (1)
#define RF_KILLSWITCH_ON (0)
#define IPW_COMMAND_POOL_SIZE 40
#define IPW_START_ORD_TAB_1 1
#define IPW_START_ORD_TAB_2 1000
#define IPW_ORD_TAB_1_ENTRY_SIZE sizeof(u32)
#define IS_ORDINAL_TABLE_ONE(mgr,id) \
((id >= IPW_START_ORD_TAB_1) && (id < mgr->table1_size))
#define IS_ORDINAL_TABLE_TWO(mgr,id) \
((id >= IPW_START_ORD_TAB_2) && (id < (mgr->table2_size + IPW_START_ORD_TAB_2)))
#define BSS_ID_LENGTH 6
// Fixed size data: Ordinal Table 1
typedef
enum
_ORDINAL_TABLE_1
{
// NS - means Not Supported by FW
// Transmit statistics
IPW_ORD_STAT_TX_HOST_REQUESTS
=
1
,
// # of requested Host Tx's (MSDU)
IPW_ORD_STAT_TX_HOST_COMPLETE
,
// # of successful Host Tx's (MSDU)
IPW_ORD_STAT_TX_DIR_DATA
,
// # of successful Directed Tx's (MSDU)
IPW_ORD_STAT_TX_DIR_DATA1
=
4
,
// # of successful Directed Tx's (MSDU) @ 1MB
IPW_ORD_STAT_TX_DIR_DATA2
,
// # of successful Directed Tx's (MSDU) @ 2MB
IPW_ORD_STAT_TX_DIR_DATA5_5
,
// # of successful Directed Tx's (MSDU) @ 5_5MB
IPW_ORD_STAT_TX_DIR_DATA11
,
// # of successful Directed Tx's (MSDU) @ 11MB
IPW_ORD_STAT_TX_DIR_DATA22
,
// # of successful Directed Tx's (MSDU) @ 22MB
IPW_ORD_STAT_TX_NODIR_DATA1
=
13
,
// # of successful Non_Directed Tx's (MSDU) @ 1MB
IPW_ORD_STAT_TX_NODIR_DATA2
,
// # of successful Non_Directed Tx's (MSDU) @ 2MB
IPW_ORD_STAT_TX_NODIR_DATA5_5
,
// # of successful Non_Directed Tx's (MSDU) @ 5.5MB
IPW_ORD_STAT_TX_NODIR_DATA11
,
// # of successful Non_Directed Tx's (MSDU) @ 11MB
IPW_ORD_STAT_NULL_DATA
=
21
,
// # of successful NULL data Tx's
IPW_ORD_STAT_TX_RTS
,
// # of successful Tx RTS
IPW_ORD_STAT_TX_CTS
,
// # of successful Tx CTS
IPW_ORD_STAT_TX_ACK
,
// # of successful Tx ACK
IPW_ORD_STAT_TX_ASSN
,
// # of successful Association Tx's
IPW_ORD_STAT_TX_ASSN_RESP
,
// # of successful Association response Tx's
IPW_ORD_STAT_TX_REASSN
,
// # of successful Reassociation Tx's
IPW_ORD_STAT_TX_REASSN_RESP
,
// # of successful Reassociation response Tx's
IPW_ORD_STAT_TX_PROBE
,
// # of probes successfully transmitted
IPW_ORD_STAT_TX_PROBE_RESP
,
// # of probe responses successfully transmitted
IPW_ORD_STAT_TX_BEACON
,
// # of tx beacon
IPW_ORD_STAT_TX_ATIM
,
// # of Tx ATIM
IPW_ORD_STAT_TX_DISASSN
,
// # of successful Disassociation TX
IPW_ORD_STAT_TX_AUTH
,
// # of successful Authentication Tx
IPW_ORD_STAT_TX_DEAUTH
,
// # of successful Deauthentication TX
IPW_ORD_STAT_TX_TOTAL_BYTES
=
41
,
// Total successful Tx data bytes
IPW_ORD_STAT_TX_RETRIES
,
// # of Tx retries
IPW_ORD_STAT_TX_RETRY1
,
// # of Tx retries at 1MBPS
IPW_ORD_STAT_TX_RETRY2
,
// # of Tx retries at 2MBPS
IPW_ORD_STAT_TX_RETRY5_5
,
// # of Tx retries at 5.5MBPS
IPW_ORD_STAT_TX_RETRY11
,
// # of Tx retries at 11MBPS
IPW_ORD_STAT_TX_FAILURES
=
51
,
// # of Tx Failures
IPW_ORD_STAT_TX_ABORT_AT_HOP
,
//NS // # of Tx's aborted at hop time
IPW_ORD_STAT_TX_MAX_TRIES_IN_HOP
,
// # of times max tries in a hop failed
IPW_ORD_STAT_TX_ABORT_LATE_DMA
,
//NS // # of times tx aborted due to late dma setup
IPW_ORD_STAT_TX_ABORT_STX
,
//NS // # of times backoff aborted
IPW_ORD_STAT_TX_DISASSN_FAIL
,
// # of times disassociation failed
IPW_ORD_STAT_TX_ERR_CTS
,
// # of missed/bad CTS frames
IPW_ORD_STAT_TX_BPDU
,
//NS // # of spanning tree BPDUs sent
IPW_ORD_STAT_TX_ERR_ACK
,
// # of tx err due to acks
// Receive statistics
IPW_ORD_STAT_RX_HOST
=
61
,
// # of packets passed to host
IPW_ORD_STAT_RX_DIR_DATA
,
// # of directed packets
IPW_ORD_STAT_RX_DIR_DATA1
,
// # of directed packets at 1MB
IPW_ORD_STAT_RX_DIR_DATA2
,
// # of directed packets at 2MB
IPW_ORD_STAT_RX_DIR_DATA5_5
,
// # of directed packets at 5.5MB
IPW_ORD_STAT_RX_DIR_DATA11
,
// # of directed packets at 11MB
IPW_ORD_STAT_RX_DIR_DATA22
,
// # of directed packets at 22MB
IPW_ORD_STAT_RX_NODIR_DATA
=
71
,
// # of nondirected packets
IPW_ORD_STAT_RX_NODIR_DATA1
,
// # of nondirected packets at 1MB
IPW_ORD_STAT_RX_NODIR_DATA2
,
// # of nondirected packets at 2MB
IPW_ORD_STAT_RX_NODIR_DATA5_5
,
// # of nondirected packets at 5.5MB
IPW_ORD_STAT_RX_NODIR_DATA11
,
// # of nondirected packets at 11MB
IPW_ORD_STAT_RX_NULL_DATA
=
80
,
// # of null data rx's
IPW_ORD_STAT_RX_POLL
,
//NS // # of poll rx
IPW_ORD_STAT_RX_RTS
,
// # of Rx RTS
IPW_ORD_STAT_RX_CTS
,
// # of Rx CTS
IPW_ORD_STAT_RX_ACK
,
// # of Rx ACK
IPW_ORD_STAT_RX_CFEND
,
// # of Rx CF End
IPW_ORD_STAT_RX_CFEND_ACK
,
// # of Rx CF End + CF Ack
IPW_ORD_STAT_RX_ASSN
,
// # of Association Rx's
IPW_ORD_STAT_RX_ASSN_RESP
,
// # of Association response Rx's
IPW_ORD_STAT_RX_REASSN
,
// # of Reassociation Rx's
IPW_ORD_STAT_RX_REASSN_RESP
,
// # of Reassociation response Rx's
IPW_ORD_STAT_RX_PROBE
,
// # of probe Rx's
IPW_ORD_STAT_RX_PROBE_RESP
,
// # of probe response Rx's
IPW_ORD_STAT_RX_BEACON
,
// # of Rx beacon
IPW_ORD_STAT_RX_ATIM
,
// # of Rx ATIM
IPW_ORD_STAT_RX_DISASSN
,
// # of disassociation Rx
IPW_ORD_STAT_RX_AUTH
,
// # of authentication Rx
IPW_ORD_STAT_RX_DEAUTH
,
// # of deauthentication Rx
IPW_ORD_STAT_RX_TOTAL_BYTES
=
101
,
// Total rx data bytes received
IPW_ORD_STAT_RX_ERR_CRC
,
// # of packets with Rx CRC error
IPW_ORD_STAT_RX_ERR_CRC1
,
// # of Rx CRC errors at 1MB
IPW_ORD_STAT_RX_ERR_CRC2
,
// # of Rx CRC errors at 2MB
IPW_ORD_STAT_RX_ERR_CRC5_5
,
// # of Rx CRC errors at 5.5MB
IPW_ORD_STAT_RX_ERR_CRC11
,
// # of Rx CRC errors at 11MB
IPW_ORD_STAT_RX_DUPLICATE1
=
112
,
// # of duplicate rx packets at 1MB
IPW_ORD_STAT_RX_DUPLICATE2
,
// # of duplicate rx packets at 2MB
IPW_ORD_STAT_RX_DUPLICATE5_5
,
// # of duplicate rx packets at 5.5MB
IPW_ORD_STAT_RX_DUPLICATE11
,
// # of duplicate rx packets at 11MB
IPW_ORD_STAT_RX_DUPLICATE
=
119
,
// # of duplicate rx packets
IPW_ORD_PERS_DB_LOCK
=
120
,
// # locking fw permanent db
IPW_ORD_PERS_DB_SIZE
,
// # size of fw permanent db
IPW_ORD_PERS_DB_ADDR
,
// # address of fw permanent db
IPW_ORD_STAT_RX_INVALID_PROTOCOL
,
// # of rx frames with invalid protocol
IPW_ORD_SYS_BOOT_TIME
,
// # Boot time
IPW_ORD_STAT_RX_NO_BUFFER
,
// # of rx frames rejected due to no buffer
IPW_ORD_STAT_RX_ABORT_LATE_DMA
,
//NS // # of rx frames rejected due to dma setup too late
IPW_ORD_STAT_RX_ABORT_AT_HOP
,
//NS // # of rx frames aborted due to hop
IPW_ORD_STAT_RX_MISSING_FRAG
,
// # of rx frames dropped due to missing fragment
IPW_ORD_STAT_RX_ORPHAN_FRAG
,
// # of rx frames dropped due to non-sequential fragment
IPW_ORD_STAT_RX_ORPHAN_FRAME
,
// # of rx frames dropped due to unmatched 1st frame
IPW_ORD_STAT_RX_FRAG_AGEOUT
,
// # of rx frames dropped due to uncompleted frame
IPW_ORD_STAT_RX_BAD_SSID
,
//NS // Bad SSID (unused)
IPW_ORD_STAT_RX_ICV_ERRORS
,
// # of ICV errors during decryption
// PSP Statistics
IPW_ORD_STAT_PSP_SUSPENSION
=
137
,
// # of times adapter suspended
IPW_ORD_STAT_PSP_BCN_TIMEOUT
,
// # of beacon timeout
IPW_ORD_STAT_PSP_POLL_TIMEOUT
,
// # of poll response timeouts
IPW_ORD_STAT_PSP_NONDIR_TIMEOUT
,
// # of timeouts waiting for last broadcast/muticast pkt
IPW_ORD_STAT_PSP_RX_DTIMS
,
// # of PSP DTIMs received
IPW_ORD_STAT_PSP_RX_TIMS
,
// # of PSP TIMs received
IPW_ORD_STAT_PSP_STATION_ID
,
// PSP Station ID
// Association and roaming
IPW_ORD_LAST_ASSN_TIME
=
147
,
// RTC time of last association
IPW_ORD_STAT_PERCENT_MISSED_BCNS
,
// current calculation of % missed beacons
IPW_ORD_STAT_PERCENT_RETRIES
,
// current calculation of % missed tx retries
IPW_ORD_ASSOCIATED_AP_PTR
,
// If associated, this is ptr to the associated
// AP table entry. set to 0 if not associated
IPW_ORD_AVAILABLE_AP_CNT
,
// # of AP's decsribed in the AP table
IPW_ORD_AP_LIST_PTR
,
// Ptr to list of available APs
IPW_ORD_STAT_AP_ASSNS
,
// # of associations
IPW_ORD_STAT_ASSN_FAIL
,
// # of association failures
IPW_ORD_STAT_ASSN_RESP_FAIL
,
// # of failuresdue to response fail
IPW_ORD_STAT_FULL_SCANS
,
// # of full scans
IPW_ORD_CARD_DISABLED
,
// # Card Disabled
IPW_ORD_STAT_ROAM_INHIBIT
,
// # of times roaming was inhibited due to ongoing activity
IPW_FILLER_40
,
IPW_ORD_RSSI_AT_ASSN
=
160
,
// RSSI of associated AP at time of association
IPW_ORD_STAT_ASSN_CAUSE1
,
// # of reassociations due to no tx from AP in last N
// hops or no prob_ responses in last 3 minutes
IPW_ORD_STAT_ASSN_CAUSE2
,
// # of reassociations due to poor tx/rx quality
IPW_ORD_STAT_ASSN_CAUSE3
,
// # of reassociations due to tx/rx quality with excessive
// load at the AP
IPW_ORD_STAT_ASSN_CAUSE4
,
// # of reassociations due to AP RSSI level fell below
// eligible group
IPW_ORD_STAT_ASSN_CAUSE5
,
// # of reassociations due to load leveling
IPW_ORD_STAT_ASSN_CAUSE6
,
//NS // # of reassociations due to dropped by Ap
IPW_FILLER_41
,
IPW_FILLER_42
,
IPW_FILLER_43
,
IPW_ORD_STAT_AUTH_FAIL
,
// # of times authentication failed
IPW_ORD_STAT_AUTH_RESP_FAIL
,
// # of times authentication response failed
IPW_ORD_STATION_TABLE_CNT
,
// # of entries in association table
// Other statistics
IPW_ORD_RSSI_AVG_CURR
=
173
,
// Current avg RSSI
IPW_ORD_STEST_RESULTS_CURR
,
//NS // Current self test results word
IPW_ORD_STEST_RESULTS_CUM
,
//NS // Cummulative self test results word
IPW_ORD_SELF_TEST_STATUS
,
//NS //
IPW_ORD_POWER_MGMT_MODE
,
// Power mode - 0=CAM, 1=PSP
IPW_ORD_POWER_MGMT_INDEX
,
//NS //
IPW_ORD_COUNTRY_CODE
,
// IEEE country code as recv'd from beacon
IPW_ORD_COUNTRY_CHANNELS
,
// channels suported by country
// IPW_ORD_COUNTRY_CHANNELS:
// For 11b the lower 2-byte are used for channels from 1-14
// and the higher 2-byte are not used.
IPW_ORD_RESET_CNT
,
// # of adapter resets (warm)
IPW_ORD_BEACON_INTERVAL
,
// Beacon interval
IPW_ORD_PRINCETON_VERSION
=
184
,
//NS // Princeton Version
IPW_ORD_ANTENNA_DIVERSITY
,
// TRUE if antenna diversity is disabled
IPW_ORD_CCA_RSSI
,
//NS // CCA RSSI value (factory programmed)
IPW_ORD_STAT_EEPROM_UPDATE
,
//NS // # of times config EEPROM updated
IPW_ORD_DTIM_PERIOD
,
// # of beacon intervals between DTIMs
IPW_ORD_OUR_FREQ
,
// current radio freq lower digits - channel ID
IPW_ORD_RTC_TIME
=
190
,
// current RTC time
IPW_ORD_PORT_TYPE
,
// operating mode
IPW_ORD_CURRENT_TX_RATE
,
// current tx rate
IPW_ORD_SUPPORTED_RATES
,
// Bitmap of supported tx rates
IPW_ORD_ATIM_WINDOW
,
// current ATIM Window
IPW_ORD_BASIC_RATES
,
// bitmap of basic tx rates
IPW_ORD_NIC_HIGHEST_RATE
,
// bitmap of basic tx rates
IPW_ORD_AP_HIGHEST_RATE
,
// bitmap of basic tx rates
IPW_ORD_CAPABILITIES
,
// Management frame capability field
IPW_ORD_AUTH_TYPE
,
// Type of authentication
IPW_ORD_RADIO_TYPE
,
// Adapter card platform type
IPW_ORD_RTS_THRESHOLD
=
201
,
// Min length of packet after which RTS handshaking is used
IPW_ORD_INT_MODE
,
// International mode
IPW_ORD_FRAGMENTATION_THRESHOLD
,
// protocol frag threshold
IPW_ORD_EEPROM_SRAM_DB_BLOCK_START_ADDRESS
,
// EEPROM offset in SRAM
IPW_ORD_EEPROM_SRAM_DB_BLOCK_SIZE
,
// EEPROM size in SRAM
IPW_ORD_EEPROM_SKU_CAPABILITY
,
// EEPROM SKU Capability 206 =
IPW_ORD_EEPROM_IBSS_11B_CHANNELS
,
// EEPROM IBSS 11b channel set
IPW_ORD_MAC_VERSION
=
209
,
// MAC Version
IPW_ORD_MAC_REVISION
,
// MAC Revision
IPW_ORD_RADIO_VERSION
,
// Radio Version
IPW_ORD_NIC_MANF_DATE_TIME
,
// MANF Date/Time STAMP
IPW_ORD_UCODE_VERSION
,
// Ucode Version
IPW_ORD_HW_RF_SWITCH_STATE
=
214
,
// HW RF Kill Switch State
}
ORDINALTABLE1
;
//ENDOF TABLE1
// ordinal table 2
// Variable length data:
#define IPW_FIRST_VARIABLE_LENGTH_ORDINAL 1001
typedef
enum
_ORDINAL_TABLE_2
{
// NS - means Not Supported by FW
IPW_ORD_STAT_BASE
=
1000
,
// contains number of variable ORDs
IPW_ORD_STAT_ADAPTER_MAC
=
1001
,
// 6 bytes: our adapter MAC address
IPW_ORD_STAT_PREFERRED_BSSID
=
1002
,
// 6 bytes: BSSID of the preferred AP
IPW_ORD_STAT_MANDATORY_BSSID
=
1003
,
// 6 bytes: BSSID of the mandatory AP
IPW_FILL_1
,
//NS //
IPW_ORD_STAT_COUNTRY_TEXT
=
1005
,
// 36 bytes: Country name text, First two bytes are Country code
IPW_ORD_STAT_ASSN_SSID
=
1006
,
// 32 bytes: ESSID String
IPW_ORD_STATION_TABLE
=
1007
,
// ? bytes: Station/AP table (via Direct SSID Scans)
IPW_ORD_STAT_SWEEP_TABLE
=
1008
,
// ? bytes: Sweep/Host Table table (via Broadcast Scans)
IPW_ORD_STAT_ROAM_LOG
=
1009
,
// ? bytes: Roaming log
IPW_ORD_STAT_RATE_LOG
=
1010
,
//NS // 0 bytes: Rate log
IPW_ORD_STAT_FIFO
=
1011
,
//NS // 0 bytes: Fifo buffer data structures
IPW_ORD_STAT_FW_VER_NUM
=
1012
,
// 14 bytes: fw version ID string as in (a.bb.ccc; "0.08.011")
IPW_ORD_STAT_FW_DATE
=
1013
,
// 14 bytes: fw date string (mmm dd yyyy; "Mar 13 2002")
IPW_ORD_STAT_ASSN_AP_BSSID
=
1014
,
// 6 bytes: MAC address of associated AP
IPW_ORD_STAT_DEBUG
=
1015
,
//NS // ? bytes:
IPW_ORD_STAT_NIC_BPA_NUM
=
1016
,
// 11 bytes: NIC BPA number in ASCII
IPW_ORD_STAT_UCODE_DATE
=
1017
,
// 5 bytes: uCode date
IPW_ORD_SECURITY_NGOTIATION_RESULT
=
1018
,
}
ORDINALTABLE2
;
// NS - means Not Supported by FW
#define IPW_LAST_VARIABLE_LENGTH_ORDINAL 1018
#ifndef WIRELESS_SPY
#define WIRELESS_SPY // enable iwspy support
#endif
extern
struct
iw_handler_def
ipw2100_wx_handler_def
;
extern
struct
iw_statistics
*
ipw2100_wx_wireless_stats
(
struct
net_device
*
dev
);
extern
void
ipw2100_wx_event_work
(
struct
ipw2100_priv
*
priv
);
#define IPW_HOST_FW_SHARED_AREA0 0x0002f200
#define IPW_HOST_FW_SHARED_AREA0_END 0x0002f510 // 0x310 bytes
#define IPW_HOST_FW_SHARED_AREA1 0x0002f610
#define IPW_HOST_FW_SHARED_AREA1_END 0x0002f630 // 0x20 bytes
#define IPW_HOST_FW_SHARED_AREA2 0x0002fa00
#define IPW_HOST_FW_SHARED_AREA2_END 0x0002fa20 // 0x20 bytes
#define IPW_HOST_FW_SHARED_AREA3 0x0002fc00
#define IPW_HOST_FW_SHARED_AREA3_END 0x0002fc10 // 0x10 bytes
#define IPW_HOST_FW_INTERRUPT_AREA 0x0002ff80
#define IPW_HOST_FW_INTERRUPT_AREA_END 0x00030000 // 0x80 bytes
struct
ipw2100_fw_chunk
{
unsigned
char
*
buf
;
long
len
;
long
pos
;
struct
list_head
list
;
};
struct
ipw2100_fw_chunk_set
{
const
void
*
data
;
unsigned
long
size
;
};
struct
ipw2100_fw
{
int
version
;
struct
ipw2100_fw_chunk_set
fw
;
struct
ipw2100_fw_chunk_set
uc
;
const
struct
firmware
*
fw_entry
;
};
int
ipw2100_get_firmware
(
struct
ipw2100_priv
*
priv
,
struct
ipw2100_fw
*
fw
);
void
ipw2100_release_firmware
(
struct
ipw2100_priv
*
priv
,
struct
ipw2100_fw
*
fw
);
int
ipw2100_fw_download
(
struct
ipw2100_priv
*
priv
,
struct
ipw2100_fw
*
fw
);
int
ipw2100_ucode_download
(
struct
ipw2100_priv
*
priv
,
struct
ipw2100_fw
*
fw
);
#define MAX_FW_VERSION_LEN 14
int
ipw2100_get_fwversion
(
struct
ipw2100_priv
*
priv
,
char
*
buf
,
size_t
max
);
int
ipw2100_get_ucodeversion
(
struct
ipw2100_priv
*
priv
,
char
*
buf
,
size_t
max
);
#endif
/* _IPW2100_H */
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