v24

[android-x86/external-wireless-tools.git] / wireless_tools / wireless.13.h

/*
 * This file define a set of standard wireless extensions
 *
 * Version :    13      6.12.01
 *
 * Authors :    Jean Tourrilhes - HPL - <jt@hpl.hp.com>
 * Copyright (c) 1997-2001 Jean Tourrilhes, All Rights Reserved.
 */

#ifndef _LINUX_WIRELESS_H
#define _LINUX_WIRELESS_H

/************************** DOCUMENTATION **************************/
/*
 * Initial APIs (1996 -> onward) :
 * -----------------------------
 * Basically, the wireless extensions are for now a set of standard ioctl
 * call + /proc/net/wireless
 *
 * The entry /proc/net/wireless give statistics and information on the
 * driver.
 * This is better than having each driver having its entry because
 * its centralised and we may remove the driver module safely.
 *
 * Ioctl are used to configure the driver and issue commands.  This is
 * better than command line options of insmod because we may want to
 * change dynamically (while the driver is running) some parameters.
 *
 * The ioctl mechanimsm are copied from standard devices ioctl.
 * We have the list of command plus a structure descibing the
 * data exchanged...
 * Note that to add these ioctl, I was obliged to modify :
 *      # net/core/dev.c (two place + add include)
 *      # net/ipv4/af_inet.c (one place + add include)
 *
 * /proc/net/wireless is a copy of /proc/net/dev.
 * We have a structure for data passed from the driver to /proc/net/wireless
 * Too add this, I've modified :
 *      # net/core/dev.c (two other places)
 *      # include/linux/netdevice.h (one place)
 *      # include/linux/proc_fs.h (one place)
 *
 * New driver API (2001 -> onward) :
 * -------------------------------
 * This file is only concerned with the user space API and common definitions.
 * The new driver API is defined and documented in :
 *      # include/net/iw_handler.h
 *
 * Note as well that /proc/net/wireless implementation has now moved in :
 *      # include/linux/wireless.c
 *
 * Other comments :
 * --------------
 * Do not add here things that are redundant with other mechanisms
 * (drivers init, ifconfig, /proc/net/dev, ...) and with are not
 * wireless specific.
 *
 * These wireless extensions are not magic : each driver has to provide
 * support for them...
 *
 * IMPORTANT NOTE : As everything in the kernel, this is very much a
 * work in progress. Contact me if you have ideas of improvements...
 */

/***************************** INCLUDES *****************************/

#include <linux/types.h>                /* for "caddr_t" et al          */
#include <linux/socket.h>               /* for "struct sockaddr" et al  */
#include <linux/if.h>                   /* for IFNAMSIZ and co... */

/***************************** VERSION *****************************/
/*
 * This constant is used to know the availability of the wireless
 * extensions and to know which version of wireless extensions it is
 * (there is some stuff that will be added in the future...)
 * I just plan to increment with each new version.
 */
#define WIRELESS_EXT    13

/*
 * Changes :
 *
 * V2 to V3
 * --------
 *      Alan Cox start some incompatibles changes. I've integrated a bit more.
 *      - Encryption renamed to Encode to avoid US regulation problems
 *      - Frequency changed from float to struct to avoid problems on old 386
 *
 * V3 to V4
 * --------
 *      - Add sensitivity
 *
 * V4 to V5
 * --------
 *      - Missing encoding definitions in range
 *      - Access points stuff
 *
 * V5 to V6
 * --------
 *      - 802.11 support (ESSID ioctls)
 *
 * V6 to V7
 * --------
 *      - define IW_ESSID_MAX_SIZE and IW_MAX_AP
 *
 * V7 to V8
 * --------
 *      - Changed my e-mail address
 *      - More 802.11 support (nickname, rate, rts, frag)
 *      - List index in frequencies
 *
 * V8 to V9
 * --------
 *      - Support for 'mode of operation' (ad-hoc, managed...)
 *      - Support for unicast and multicast power saving
 *      - Change encoding to support larger tokens (>64 bits)
 *      - Updated iw_params (disable, flags) and use it for NWID
 *      - Extracted iw_point from iwreq for clarity
 *
 * V9 to V10
 * ---------
 *      - Add PM capability to range structure
 *      - Add PM modifier : MAX/MIN/RELATIVE
 *      - Add encoding option : IW_ENCODE_NOKEY
 *      - Add TxPower ioctls (work like TxRate)
 *
 * V10 to V11
 * ----------
 *      - Add WE version in range (help backward/forward compatibility)
 *      - Add retry ioctls (work like PM)
 *
 * V11 to V12
 * ----------
 *      - Add SIOCSIWSTATS to get /proc/net/wireless programatically
 *      - Add DEV PRIVATE IOCTL to avoid collisions in SIOCDEVPRIVATE space
 *      - Add new statistics (frag, retry, beacon)
 *      - Add average quality (for user space calibration)
 *
 * V12 to V13
 * ----------
 *      - Document creation of new driver API.
 *      - Extract union iwreq_data from struct iwreq (for new driver API).
 *      - Rename SIOCSIWNAME as SIOCSIWCOMMIT
 */

/**************************** CONSTANTS ****************************/

/* -------------------------- IOCTL LIST -------------------------- */

/* Basic operations */
#define SIOCSIWCOMMIT   0x8B00          /* Commit pending changes to driver */
#define SIOCGIWNAME     0x8B01          /* get name == wireless protocol */
#define SIOCSIWNWID     0x8B02          /* set network id (the cell) */
#define SIOCGIWNWID     0x8B03          /* get network id */
#define SIOCSIWFREQ     0x8B04          /* set channel/frequency (Hz) */
#define SIOCGIWFREQ     0x8B05          /* get channel/frequency (Hz) */
#define SIOCSIWMODE     0x8B06          /* set operation mode */
#define SIOCGIWMODE     0x8B07          /* get operation mode */
#define SIOCSIWSENS     0x8B08          /* set sensitivity (dBm) */
#define SIOCGIWSENS     0x8B09          /* get sensitivity (dBm) */

/* Informative stuff */
#define SIOCSIWRANGE    0x8B0A          /* Unused */
#define SIOCGIWRANGE    0x8B0B          /* Get range of parameters */
#define SIOCSIWPRIV     0x8B0C          /* Unused */
#define SIOCGIWPRIV     0x8B0D          /* get private ioctl interface info */
#define SIOCSIWSTATS    0x8B0E          /* Unused */
#define SIOCGIWSTATS    0x8B0F          /* Get /proc/net/wireless stats */

/* Mobile IP support */
#define SIOCSIWSPY      0x8B10          /* set spy addresses */
#define SIOCGIWSPY      0x8B11          /* get spy info (quality of link) */

/* Access Point manipulation */
#define SIOCSIWAP       0x8B14          /* set access point MAC addresses */
#define SIOCGIWAP       0x8B15          /* get access point MAC addresses */
#define SIOCGIWAPLIST   0x8B17          /* get list of access point in range */

/* 802.11 specific support */
#define SIOCSIWESSID    0x8B1A          /* set ESSID (network name) */
#define SIOCGIWESSID    0x8B1B          /* get ESSID */
#define SIOCSIWNICKN    0x8B1C          /* set node name/nickname */
#define SIOCGIWNICKN    0x8B1D          /* get node name/nickname */
/* As the ESSID and NICKN are strings up to 32 bytes long, it doesn't fit
 * within the 'iwreq' structure, so we need to use the 'data' member to
 * point to a string in user space, like it is done for RANGE...
 * The "flags" member indicate if the ESSID is active or not (promiscuous).
 */

/* Other parameters useful in 802.11 and some other devices */
#define SIOCSIWRATE     0x8B20          /* set default bit rate (bps) */
#define SIOCGIWRATE     0x8B21          /* get default bit rate (bps) */
#define SIOCSIWRTS      0x8B22          /* set RTS/CTS threshold (bytes) */
#define SIOCGIWRTS      0x8B23          /* get RTS/CTS threshold (bytes) */
#define SIOCSIWFRAG     0x8B24          /* set fragmentation thr (bytes) */
#define SIOCGIWFRAG     0x8B25          /* get fragmentation thr (bytes) */
#define SIOCSIWTXPOW    0x8B26          /* set transmit power (dBm) */
#define SIOCGIWTXPOW    0x8B27          /* get transmit power (dBm) */
#define SIOCSIWRETRY    0x8B28          /* set retry limits and lifetime */
#define SIOCGIWRETRY    0x8B29          /* get retry limits and lifetime */

/* Encoding stuff (scrambling, hardware security, WEP...) */
#define SIOCSIWENCODE   0x8B2A          /* set encoding token & mode */
#define SIOCGIWENCODE   0x8B2B          /* get encoding token & mode */
/* Power saving stuff (power management, unicast and multicast) */
#define SIOCSIWPOWER    0x8B2C          /* set Power Management settings */
#define SIOCGIWPOWER    0x8B2D          /* get Power Management settings */

/* -------------------- DEV PRIVATE IOCTL LIST -------------------- */

/* These 16 ioctl are wireless device private.
 * Each driver is free to use them for whatever purpose it chooses,
 * however the driver *must* export the description of those ioctls
 * with SIOCGIWPRIV and *must* use arguments as defined below.
 * If you don't follow those rules, DaveM is going to hate you (reason :
 * it make mixed 32/64bit operation impossible).
 */
#define SIOCIWFIRSTPRIV 0x8BE0
#define SIOCIWLASTPRIV  0x8BFF
/* Previously, we were using SIOCDEVPRIVATE, but we now have our
 * separate range because of collisions with other tools such as
 * 'mii-tool'.
 * We now have 32 commands, so a bit more space ;-).
 * Also, all 'odd' commands are only usable by root and don't return the
 * content of ifr/iwr to user (but you are not obliged to use the set/get
 * convention, just use every other two command).
 * And I repeat : you are not obliged to use them with iwspy, but you
 * must be compliant with it.
 */

/* ------------------------- IOCTL STUFF ------------------------- */

/* The first and the last (range) */
#define SIOCIWFIRST     0x8B00
#define SIOCIWLAST      SIOCIWLASTPRIV          /* 0x8BFF */

/* Even : get (world access), odd : set (root access) */
#define IW_IS_SET(cmd)  (!((cmd) & 0x1))
#define IW_IS_GET(cmd)  ((cmd) & 0x1)

/* ------------------------- PRIVATE INFO ------------------------- */
/*
 * The following is used with SIOCGIWPRIV. It allow a driver to define
 * the interface (name, type of data) for its private ioctl.
 * Privates ioctl are SIOCIWFIRSTPRIV -> SIOCIWLASTPRIV
 */

#define IW_PRIV_TYPE_MASK       0x7000  /* Type of arguments */
#define IW_PRIV_TYPE_NONE       0x0000
#define IW_PRIV_TYPE_BYTE       0x1000  /* Char as number */
#define IW_PRIV_TYPE_CHAR       0x2000  /* Char as character */
#define IW_PRIV_TYPE_INT        0x4000  /* 32 bits int */
#define IW_PRIV_TYPE_FLOAT      0x5000

#define IW_PRIV_SIZE_FIXED      0x0800  /* Variable or fixed nuber of args */

#define IW_PRIV_SIZE_MASK       0x07FF  /* Max number of those args */

/*
 * Note : if the number of args is fixed and the size < 16 octets,
 * instead of passing a pointer we will put args in the iwreq struct...
 */

/* ----------------------- OTHER CONSTANTS ----------------------- */

/* Maximum frequencies in the range struct */
#define IW_MAX_FREQUENCIES      16
/* Note : if you have something like 80 frequencies,
 * don't increase this constant and don't fill the frequency list.
 * The user will be able to set by channel anyway... */

/* Maximum bit rates in the range struct */
#define IW_MAX_BITRATES         8

/* Maximum tx powers in the range struct */
#define IW_MAX_TXPOWER          8

/* Maximum of address that you may set with SPY */
#define IW_MAX_SPY              8

/* Maximum of address that you may get in the
   list of access points in range */
#define IW_MAX_AP               8

/* Maximum size of the ESSID and NICKN strings */
#define IW_ESSID_MAX_SIZE       32

/* Modes of operation */
#define IW_MODE_AUTO    0       /* Let the driver decides */
#define IW_MODE_ADHOC   1       /* Single cell network */
#define IW_MODE_INFRA   2       /* Multi cell network, roaming, ... */
#define IW_MODE_MASTER  3       /* Synchronisation master or Access Point */
#define IW_MODE_REPEAT  4       /* Wireless Repeater (forwarder) */
#define IW_MODE_SECOND  5       /* Secondary master/repeater (backup) */

/* Maximum number of size of encoding token available
 * they are listed in the range structure */
#define IW_MAX_ENCODING_SIZES   8

/* Maximum size of the encoding token in bytes */
#define IW_ENCODING_TOKEN_MAX   32      /* 256 bits (for now) */

/* Flags for encoding (along with the token) */
#define IW_ENCODE_INDEX         0x00FF  /* Token index (if needed) */
#define IW_ENCODE_FLAGS         0xFF00  /* Flags defined below */
#define IW_ENCODE_MODE          0xF000  /* Modes defined below */
#define IW_ENCODE_DISABLED      0x8000  /* Encoding disabled */
#define IW_ENCODE_ENABLED       0x0000  /* Encoding enabled */
#define IW_ENCODE_RESTRICTED    0x4000  /* Refuse non-encoded packets */
#define IW_ENCODE_OPEN          0x2000  /* Accept non-encoded packets */
#define IW_ENCODE_NOKEY         0x0800  /* Key is write only, so not present */

/* Power management flags available (along with the value, if any) */
#define IW_POWER_ON             0x0000  /* No details... */
#define IW_POWER_TYPE           0xF000  /* Type of parameter */
#define IW_POWER_PERIOD         0x1000  /* Value is a period/duration of  */
#define IW_POWER_TIMEOUT        0x2000  /* Value is a timeout (to go asleep) */
#define IW_POWER_MODE           0x0F00  /* Power Management mode */
#define IW_POWER_UNICAST_R      0x0100  /* Receive only unicast messages */
#define IW_POWER_MULTICAST_R    0x0200  /* Receive only multicast messages */
#define IW_POWER_ALL_R          0x0300  /* Receive all messages though PM */
#define IW_POWER_FORCE_S        0x0400  /* Force PM procedure for sending unicast */
#define IW_POWER_REPEATER       0x0800  /* Repeat broadcast messages in PM period */
#define IW_POWER_MODIFIER       0x000F  /* Modify a parameter */
#define IW_POWER_MIN            0x0001  /* Value is a minimum  */
#define IW_POWER_MAX            0x0002  /* Value is a maximum */
#define IW_POWER_RELATIVE       0x0004  /* Value is not in seconds/ms/us */

/* Transmit Power flags available */
#define IW_TXPOW_DBM            0x0000  /* Value is in dBm */
#define IW_TXPOW_MWATT          0x0001  /* Value is in mW */

/* Retry limits and lifetime flags available */
#define IW_RETRY_ON             0x0000  /* No details... */
#define IW_RETRY_TYPE           0xF000  /* Type of parameter */
#define IW_RETRY_LIMIT          0x1000  /* Maximum number of retries*/
#define IW_RETRY_LIFETIME       0x2000  /* Maximum duration of retries in us */
#define IW_RETRY_MODIFIER       0x000F  /* Modify a parameter */
#define IW_RETRY_MIN            0x0001  /* Value is a minimum  */
#define IW_RETRY_MAX            0x0002  /* Value is a maximum */
#define IW_RETRY_RELATIVE       0x0004  /* Value is not in seconds/ms/us */

/****************************** TYPES ******************************/

/* --------------------------- SUBTYPES --------------------------- */
/*
 *      Generic format for most parameters that fit in an int
 */
struct  iw_param
{
  __s32         value;          /* The value of the parameter itself */
  __u8          fixed;          /* Hardware should not use auto select */
  __u8          disabled;       /* Disable the feature */
  __u16         flags;          /* Various specifc flags (if any) */
};

/*
 *      For all data larger than 16 octets, we need to use a
 *      pointer to memory allocated in user space.
 */
struct  iw_point
{
  caddr_t       pointer;        /* Pointer to the data  (in user space) */
  __u16         length;         /* number of fields or size in bytes */
  __u16         flags;          /* Optional params */
};

/*
 *      A frequency
 *      For numbers lower than 10^9, we encode the number in 'm' and
 *      set 'e' to 0
 *      For number greater than 10^9, we divide it by the lowest power
 *      of 10 to get 'm' lower than 10^9, with 'm'= f / (10^'e')...
 *      The power of 10 is in 'e', the result of the division is in 'm'.
 */
struct  iw_freq
{
        __u32           m;              /* Mantissa */
        __u16           e;              /* Exponent */
        __u8            i;              /* List index (when in range struct) */
};

/*
 *      Quality of the link
 */
struct  iw_quality
{
        __u8            qual;           /* link quality (%retries, SNR,
                                           %missed beacons or better...) */
        __u8            level;          /* signal level (dBm) */
        __u8            noise;          /* noise level (dBm) */
        __u8            updated;        /* Flags to know if updated */
};

/*
 *      Packet discarded in the wireless adapter due to
 *      "wireless" specific problems...
 *      Note : the list of counter and statistics in net_device_stats
 *      is already pretty exhaustive, and you should use that first.
 *      This is only additional stats...
 */
struct  iw_discarded
{
        __u32           nwid;           /* Rx : Wrong nwid/essid */
        __u32           code;           /* Rx : Unable to code/decode (WEP) */
        __u32           fragment;       /* Rx : Can't perform MAC reassembly */
        __u32           retries;        /* Tx : Max MAC retries num reached */
        __u32           misc;           /* Others cases */
};

/*
 *      Packet/Time period missed in the wireless adapter due to
 *      "wireless" specific problems...
 */
struct  iw_missed
{
        __u32           beacon;         /* Missed beacons/superframe */
};

/* ------------------------ WIRELESS STATS ------------------------ */
/*
 * Wireless statistics (used for /proc/net/wireless)
 */
struct  iw_statistics
{
        __u16           status;         /* Status
                                         * - device dependent for now */

        struct iw_quality       qual;           /* Quality of the link
                                                 * (instant/mean/max) */
        struct iw_discarded     discard;        /* Packet discarded counts */
        struct iw_missed        miss;           /* Packet missed counts */
};

/* ------------------------ IOCTL REQUEST ------------------------ */
/*
 * This structure defines the payload of an ioctl, and is used 
 * below.
 *
 * Note that this structure should fit on the memory footprint
 * of iwreq (which is the same as ifreq), which mean a max size of
 * 16 octets = 128 bits. Warning, pointers might be 64 bits wide...
 * You should check this when increasing the structures defined
 * above in this file...
 */
union   iwreq_data
{
        /* Config - generic */
        char            name[IFNAMSIZ];
        /* Name : used to verify the presence of  wireless extensions.
         * Name of the protocol/provider... */

        struct iw_point essid;          /* Extended network name */
        struct iw_param nwid;           /* network id (or domain - the cell) */
        struct iw_freq  freq;           /* frequency or channel :
                                         * 0-1000 = channel
                                         * > 1000 = frequency in Hz */

        struct iw_param sens;           /* signal level threshold */
        struct iw_param bitrate;        /* default bit rate */
        struct iw_param txpower;        /* default transmit power */
        struct iw_param rts;            /* RTS threshold threshold */
        struct iw_param frag;           /* Fragmentation threshold */
        __u32           mode;           /* Operation mode */
        struct iw_param retry;          /* Retry limits & lifetime */

        struct iw_point encoding;       /* Encoding stuff : tokens */
        struct iw_param power;          /* PM duration/timeout */

        struct sockaddr ap_addr;        /* Access point address */

        struct iw_point data;           /* Other large parameters */
};

/*
 * The structure to exchange data for ioctl.
 * This structure is the same as 'struct ifreq', but (re)defined for
 * convenience...
 * Do I need to remind you about structure size (32 octets) ?
 */
struct  iwreq 
{
        union
        {
                char    ifrn_name[IFNAMSIZ];    /* if name, e.g. "eth0" */
        } ifr_ifrn;

        /* Data part (defined just above) */
        union   iwreq_data      u;
};

/* -------------------------- IOCTL DATA -------------------------- */
/*
 *      For those ioctl which want to exchange mode data that what could
 *      fit in the above structure...
 */

/*
 *      Range of parameters
 */

struct  iw_range
{
        /* Informative stuff (to choose between different interface) */
        __u32           throughput;     /* To give an idea... */
        /* In theory this value should be the maximum benchmarked
         * TCP/IP throughput, because with most of these devices the
         * bit rate is meaningless (overhead an co) to estimate how
         * fast the connection will go and pick the fastest one.
         * I suggest people to play with Netperf or any benchmark...
         */

        /* NWID (or domain id) */
        __u32           min_nwid;       /* Minimal NWID we are able to set */
        __u32           max_nwid;       /* Maximal NWID we are able to set */

        /* Frequency */
        __u16           num_channels;   /* Number of channels [0; num - 1] */
        __u8            num_frequency;  /* Number of entry in the list */
        struct iw_freq  freq[IW_MAX_FREQUENCIES];       /* list */
        /* Note : this frequency list doesn't need to fit channel numbers */

        /* signal level threshold range */
        __s32   sensitivity;

        /* Quality of link & SNR stuff */
        struct iw_quality       max_qual;       /* Quality of the link */

        /* Rates */
        __u8            num_bitrates;   /* Number of entries in the list */
        __s32           bitrate[IW_MAX_BITRATES];       /* list, in bps */

        /* RTS threshold */
        __s32           min_rts;        /* Minimal RTS threshold */
        __s32           max_rts;        /* Maximal RTS threshold */

        /* Frag threshold */
        __s32           min_frag;       /* Minimal frag threshold */
        __s32           max_frag;       /* Maximal frag threshold */

        /* Power Management duration & timeout */
        __s32           min_pmp;        /* Minimal PM period */
        __s32           max_pmp;        /* Maximal PM period */
        __s32           min_pmt;        /* Minimal PM timeout */
        __s32           max_pmt;        /* Maximal PM timeout */
        __u16           pmp_flags;      /* How to decode max/min PM period */
        __u16           pmt_flags;      /* How to decode max/min PM timeout */
        __u16           pm_capa;        /* What PM options are supported */

        /* Encoder stuff */
        __u16   encoding_size[IW_MAX_ENCODING_SIZES];   /* Different token sizes */
        __u8    num_encoding_sizes;     /* Number of entry in the list */
        __u8    max_encoding_tokens;    /* Max number of tokens */

        /* Transmit power */
        __u16           txpower_capa;   /* What options are supported */
        __u8            num_txpower;    /* Number of entries in the list */
        __s32           txpower[IW_MAX_TXPOWER];        /* list, in bps */

        /* Wireless Extension version info */
        __u8            we_version_compiled;    /* Must be WIRELESS_EXT */
        __u8            we_version_source;      /* Last update of source */

        /* Retry limits and lifetime */
        __u16           retry_capa;     /* What retry options are supported */
        __u16           retry_flags;    /* How to decode max/min retry limit */
        __u16           r_time_flags;   /* How to decode max/min retry life */
        __s32           min_retry;      /* Minimal number of retries */
        __s32           max_retry;      /* Maximal number of retries */
        __s32           min_r_time;     /* Minimal retry lifetime */
        __s32           max_r_time;     /* Maximal retry lifetime */

        /* Average quality of link & SNR */
        struct iw_quality       avg_qual;       /* Quality of the link */
        /* This should contain the average/typical values of the quality
         * indicator. This should be the threshold between a "good" and
         * a "bad" link (example : monitor going from green to orange).
         * Currently, user space apps like quality monitors don't have any
         * way to calibrate the measurement. With this, they can split
         * the range between 0 and max_qual in different quality level
         * (using a geometric subdivision centered on the average).
         * I expect that people doing the user space apps will feedback
         * us on which value we need to put in each driver...
         */
};

/*
 * Private ioctl interface information
 */
 
struct  iw_priv_args
{
        __u32           cmd;            /* Number of the ioctl to issue */
        __u16           set_args;       /* Type and number of args */
        __u16           get_args;       /* Type and number of args */
        char            name[IFNAMSIZ]; /* Name of the extension */
};

#endif  /* _LINUX_WIRELESS_H */