freebsd-nq/sys/dev/mwl/mwlhal.h
Pedro F. Giffuni 718cf2ccb9 sys/dev: further adoption of SPDX licensing ID tags.
Mainly focus on files that use BSD 2-Clause license, however the tool I
was using misidentified many licenses so this was mostly a manual - error
prone - task.

The Software Package Data Exchange (SPDX) group provides a specification
to make it easier for automated tools to detect and summarize well known
opensource licenses. We are gradually adopting the specification, noting
that the tags are considered only advisory and do not, in any way,
superceed or replace the license texts.
2017-11-27 14:52:40 +00:00

691 lines
22 KiB
C

/*-
* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
*
* Copyright (c) 2007-2009 Sam Leffler, Errno Consulting
* Copyright (c) 2007-2009 Marvell Semiconductor, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer,
* without modification.
* 2. Redistributions in binary form must reproduce at minimum a disclaimer
* similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any
* redistribution must be conditioned upon including a substantially
* similar Disclaimer requirement for further binary redistribution.
*
* NO WARRANTY
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY
* AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
* THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY,
* OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
* IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGES.
*
* $FreeBSD$
*/
#ifndef _MWL_HAL_H_
#define _MWL_HAL_H_
/*
* Hardware Access Layer for Marvell Wireless Devices.
*/
#define MWL_MBSS_SUPPORT /* enable multi-bss support */
/*
* Define total number of TX queues in the shared memory.
* This count includes the EDCA queues, Block Ack queues, and HCCA queues
* In addition to this, there could be a management packet queue some
* time in the future
*/
#define MWL_NUM_EDCA_QUEUES 4
#define MWL_NUM_HCCA_QUEUES 0
#define MWL_NUM_BA_QUEUES 0
#define MWL_NUM_MGMT_QUEUES 0
#define MWL_NUM_ACK_QUEUES 0
#define MWL_NUM_TX_QUEUES \
(MWL_NUM_EDCA_QUEUES + MWL_NUM_HCCA_QUEUES + MWL_NUM_BA_QUEUES + \
MWL_NUM_MGMT_QUEUES + MWL_NUM_ACK_QUEUES)
#define MWL_MAX_RXWCB_QUEUES 1
#define MWL_MAX_SUPPORTED_RATES 12
#define MWL_MAX_SUPPORTED_MCS 32
typedef enum {
MWL_HAL_OK
} MWL_HAL_STATUS;
/*
* Transmit queue assignment.
*/
enum {
MWL_WME_AC_BK = 0, /* background access category */
MWL_WME_AC_BE = 1, /* best effort access category*/
MWL_WME_AC_VI = 2, /* video access category */
MWL_WME_AC_VO = 3, /* voice access category */
};
struct mwl_hal {
bus_space_handle_t mh_ioh; /* BAR 1 copied from softc */
bus_space_tag_t mh_iot;
uint32_t mh_imask; /* interrupt mask */
/* remainder is opaque to driver */
};
struct mwl_hal *mwl_hal_attach(device_t dev, uint16_t devid,
bus_space_handle_t ioh, bus_space_tag_t iot, bus_dma_tag_t tag);
void mwl_hal_detach(struct mwl_hal *);
/*
* Query whether multi-bss support is available/enabled.
*/
int mwl_hal_ismbsscapable(struct mwl_hal *);
typedef enum {
MWL_HAL_AP,
MWL_HAL_STA, /* infrastructure mode */
MWL_HAL_IBSS /* ibss/adhoc mode */
} MWL_HAL_BSSTYPE;
struct mwl_hal_vap;
struct mwl_hal_vap *mwl_hal_newvap(struct mwl_hal *, MWL_HAL_BSSTYPE,
const uint8_t mac[6]);
void mwl_hal_delvap(struct mwl_hal_vap *);
enum {
MWL_HAL_DEBUG_SENDCMD = 0x00000001,
MWL_HAL_DEBUG_CMDDONE = 0x00000002,
MWL_HAL_DEBUG_IGNHANG = 0x00000004,
};
void mwl_hal_setdebug(struct mwl_hal *, int);
int mwl_hal_getdebug(struct mwl_hal *);
typedef struct {
uint16_t freqLow, freqHigh;
int nchannels;
struct mwl_hal_channel {
uint16_t freq; /* channel center */
uint8_t ieee; /* channel number */
int8_t maxTxPow; /* max tx power (dBm) */
uint8_t targetPowers[4];/* target powers (dBm) */
#define MWL_HAL_MAXCHAN 40
} channels[MWL_HAL_MAXCHAN];
} MWL_HAL_CHANNELINFO;
int mwl_hal_getchannelinfo(struct mwl_hal *, int band, int chw,
const MWL_HAL_CHANNELINFO **);
/*
* Return the current ISR setting and clear the cause.
*/
static __inline void
mwl_hal_getisr(struct mwl_hal *mh, uint32_t *status)
{
#define MACREG_REG_A2H_INTERRUPT_CAUSE 0x00000C30 // (From ARM to host)
#define MACREG_REG_INT_CODE 0x00000C14
uint32_t cause;
cause = bus_space_read_4(mh->mh_iot, mh->mh_ioh,
MACREG_REG_A2H_INTERRUPT_CAUSE);
if (cause == 0xffffffff) { /* card removed */
cause = 0;
} else if (cause != 0) {
/* clear cause bits */
bus_space_write_4(mh->mh_iot, mh->mh_ioh,
MACREG_REG_A2H_INTERRUPT_CAUSE, cause &~ mh->mh_imask);
(void) bus_space_read_4(mh->mh_iot, mh->mh_ioh,
MACREG_REG_INT_CODE);
cause &= mh->mh_imask;
}
*status = cause;
#undef MACREG_REG_INT_CODE
#undef MACREG_REG_A2H_INTERRUPT_CAUSE
}
void mwl_hal_intrset(struct mwl_hal *mh, uint32_t mask);
/*
* Kick the firmware to tell it there are new tx descriptors
* for processing. The driver says what h/w q has work in
* case the f/w ever gets smarter.
*/
static __inline void
mwl_hal_txstart(struct mwl_hal *mh, int qnum)
{
#define MACREG_REG_H2A_INTERRUPT_EVENTS 0x00000C18 // (From host to ARM)
#define MACREG_H2ARIC_BIT_PPA_READY 0x00000001 // bit 0
#define MACREG_REG_INT_CODE 0x00000C14
bus_space_write_4(mh->mh_iot, mh->mh_ioh,
MACREG_REG_H2A_INTERRUPT_EVENTS, MACREG_H2ARIC_BIT_PPA_READY);
(void) bus_space_read_4(mh->mh_iot, mh->mh_ioh, MACREG_REG_INT_CODE);
#undef MACREG_REG_INT_CODE
#undef MACREG_H2ARIC_BIT_PPA_READY
#undef MACREG_REG_H2A_INTERRUPT_EVENTS
}
void mwl_hal_cmddone(struct mwl_hal *mh);
typedef struct {
uint32_t FreqBand : 6,
#define MWL_FREQ_BAND_2DOT4GHZ 0x1
#define MWL_FREQ_BAND_5GHZ 0x4
ChnlWidth: 5,
#define MWL_CH_10_MHz_WIDTH 0x1
#define MWL_CH_20_MHz_WIDTH 0x2
#define MWL_CH_40_MHz_WIDTH 0x4
ExtChnlOffset: 2,
#define MWL_EXT_CH_NONE 0x0
#define MWL_EXT_CH_ABOVE_CTRL_CH 0x1
#define MWL_EXT_CH_BELOW_CTRL_CH 0x3
: 19; /* reserved */
} MWL_HAL_CHANNEL_FLAGS;
typedef struct {
uint32_t channel;
MWL_HAL_CHANNEL_FLAGS channelFlags;
} MWL_HAL_CHANNEL;
/*
* Get Hardware/Firmware capabilities.
*/
struct mwl_hal_hwspec {
uint8_t hwVersion; /* version of the HW */
uint8_t hostInterface; /* host interface */
uint16_t maxNumWCB; /* max # of WCB FW handles */
uint16_t maxNumMCAddr; /* max # of mcast addresses FW handles*/
uint16_t maxNumTxWcb; /* max # of tx descs per WCB */
uint8_t macAddr[6]; /* MAC address programmed in HW */
uint16_t regionCode; /* EEPROM region code */
uint16_t numAntennas; /* Number of antenna used */
uint32_t fwReleaseNumber; /* firmware release number */
uint32_t wcbBase0;
uint32_t rxDescRead;
uint32_t rxDescWrite;
uint32_t ulFwAwakeCookie;
uint32_t wcbBase[MWL_NUM_TX_QUEUES - MWL_NUM_ACK_QUEUES];
};
int mwl_hal_gethwspecs(struct mwl_hal *mh, struct mwl_hal_hwspec *);
/*
* Supply tx/rx dma-related settings to the firmware.
*/
struct mwl_hal_txrxdma {
uint32_t maxNumWCB; /* max # of WCB FW handles */
uint32_t maxNumTxWcb; /* max # of tx descs per WCB */
uint32_t rxDescRead;
uint32_t rxDescWrite;
uint32_t wcbBase[MWL_NUM_TX_QUEUES - MWL_NUM_ACK_QUEUES];
};
int mwl_hal_sethwdma(struct mwl_hal *mh, const struct mwl_hal_txrxdma *);
/*
* Get Hardware Statistics.
*
* Items marked with ! are deprecated and not ever updated. In
* some cases this is because work has been moved to the host (e.g.
* rx defragmentation).
*/
struct mwl_hal_hwstats {
uint32_t TxRetrySuccesses; /* tx success w/ 1 retry */
uint32_t TxMultipleRetrySuccesses;/* tx success w/ >1 retry */
uint32_t TxFailures; /* tx fail due to no ACK */
uint32_t RTSSuccesses; /* CTS rx'd for RTS */
uint32_t RTSFailures; /* CTS not rx'd for RTS */
uint32_t AckFailures; /* same as TxFailures */
uint32_t RxDuplicateFrames; /* rx discard for dup seqno */
uint32_t FCSErrorCount; /* rx discard for bad FCS */
uint32_t TxWatchDogTimeouts; /* MAC tx hang (f/w recovery) */
uint32_t RxOverflows; /* no f/w buffer for rx data */
uint32_t RxFragErrors; /* !rx fail due to defrag */
uint32_t RxMemErrors; /* out of mem or desc corrupted
in some way */
uint32_t RxPointerErrors; /* MAC internal ptr problem */
uint32_t TxUnderflows; /* !tx underflow on dma */
uint32_t TxDone; /* MAC tx ops completed
(possibly w/ error) */
uint32_t TxDoneBufTryPut; /* ! */
uint32_t TxDoneBufPut; /* same as TxDone */
uint32_t Wait4TxBuf; /* !no f/w buf avail when
supplied a tx descriptor */
uint32_t TxAttempts; /* tx descriptors processed */
uint32_t TxSuccesses; /* tx attempts successful */
uint32_t TxFragments; /* tx with fragmentation */
uint32_t TxMulticasts; /* tx multicast frames */
uint32_t RxNonCtlPkts; /* rx non-control frames */
uint32_t RxMulticasts; /* rx multicast frames */
uint32_t RxUndecryptableFrames; /* rx failed due to crypto */
uint32_t RxICVErrors; /* rx failed due to ICV check */
uint32_t RxExcludedFrames; /* rx discarded, e.g. bssid */
};
int mwl_hal_gethwstats(struct mwl_hal *mh, struct mwl_hal_hwstats *);
/*
* Set HT Guard Interval.
*
* GIType = 0: enable long and short GI
* GIType = 1: enable short GI
* GIType = 2: enable long GI
*/
int mwl_hal_sethtgi(struct mwl_hal_vap *, int GIType);
/*
* Set Radio Configuration.
*
* onoff != 0 turns radio on; otherwise off.
* if radio is enabled, the preamble is set too.
*/
typedef enum {
WL_LONG_PREAMBLE = 1,
WL_SHORT_PREAMBLE = 3,
WL_AUTO_PREAMBLE = 5,
} MWL_HAL_PREAMBLE;
int mwl_hal_setradio(struct mwl_hal *mh, int onoff, MWL_HAL_PREAMBLE preamble);
/*
* Set Antenna Configuration (legacy operation).
*
* The RX antenna can be selected using the bitmask
* ant (bit 0 = antenna 1, bit 1 = antenna 2, etc.)
* (diversity?XXX)
*/
typedef enum {
WL_ANTENNATYPE_RX = 1,
WL_ANTENNATYPE_TX = 2,
} MWL_HAL_ANTENNA;
int mwl_hal_setantenna(struct mwl_hal *mh, MWL_HAL_ANTENNA dirSet, int ant);
/*
* Set the threshold for using RTS on TX.
*/
int mwl_hal_setrtsthreshold(struct mwl_hal_vap *, int threshold);
/*
* Set the adapter to operate in infrastructure mode.
*/
int mwl_hal_setinframode(struct mwl_hal_vap *);
/*
* Set Radar Detection Configuration.
*/
typedef enum {
DR_DFS_DISABLE = 0,
DR_CHK_CHANNEL_AVAILABLE_START = 1,
DR_CHK_CHANNEL_AVAILABLE_STOP = 2,
DR_IN_SERVICE_MONITOR_START = 3
} MWL_HAL_RADAR;
int mwl_hal_setradardetection(struct mwl_hal *mh, MWL_HAL_RADAR action);
/*
* Set the region code that selects the radar bin'ing agorithm.
*/
int mwl_hal_setregioncode(struct mwl_hal *mh, int regionCode);
/*
* Initiate an 802.11h-based channel switch. The CSA ie
* is included in the next beacon(s) using the specified
* information and the firmware counts down until switch
* time after which it notifies the driver by delivering
* an interrupt with MACREG_A2HRIC_BIT_CHAN_SWITCH set in
* the cause register.
*/
int mwl_hal_setchannelswitchie(struct mwl_hal *,
const MWL_HAL_CHANNEL *nextchan, uint32_t mode, uint32_t count);
/*
* Set regdomain code (IEEE SKU).
*/
enum {
DOMAIN_CODE_FCC = 0x10, /* USA */
DOMAIN_CODE_IC = 0x20, /* Canda */
DOMAIN_CODE_ETSI = 0x30, /* Europe */
DOMAIN_CODE_SPAIN = 0x31, /* Spain */
DOMAIN_CODE_FRANCE = 0x32, /* France */
DOMAIN_CODE_ETSI_131 = 0x130,/* ETSI w/ 1.3.1 radar type */
DOMAIN_CODE_MKK = 0x40, /* Japan */
DOMAIN_CODE_MKK2 = 0x41, /* Japan w/ 10MHz chan spacing */
DOMAIN_CODE_DGT = 0x80, /* Taiwan */
DOMAIN_CODE_AUS = 0x81, /* Australia */
};
/*
* Transmit rate control. Rate codes with bit 0x80 set are
* interpreted as MCS codes (this limits us to 0-127). The
* transmit rate can be set to a single fixed rate or can
* be configured to start at an initial rate and drop based
* on retry counts.
*/
typedef enum {
RATE_AUTO = 0, /* rate selected by firmware */
RATE_FIXED = 2, /* rate fixed */
RATE_FIXED_DROP = 1, /* rate starts fixed but may drop */
} MWL_HAL_TXRATE_HANDLING;
typedef struct {
uint8_t McastRate; /* rate for multicast frames */
#define RATE_MCS 0x80 /* rate is an MCS index */
uint8_t MgtRate; /* rate for management frames */
struct {
uint8_t TryCount; /* try this many times */
uint8_t Rate; /* use this tx rate */
} RateSeries[4]; /* rate series */
} MWL_HAL_TXRATE;
int mwl_hal_settxrate(struct mwl_hal_vap *,
MWL_HAL_TXRATE_HANDLING handling, const MWL_HAL_TXRATE *rate);
/* NB: hack for setting rates while scanning */
int mwl_hal_settxrate_auto(struct mwl_hal *, const MWL_HAL_TXRATE *rate);
/*
* Set the Slot Time Configuration.
* NB: usecs must either be 9 or 20 for now.
*/
int mwl_hal_setslottime(struct mwl_hal *mh, int usecs);
/*
* Adjust current transmit power settings according to powerLevel.
* This translates to low/medium/high use of the current tx power rate tables.
*/
int mwl_hal_adjusttxpower(struct mwl_hal *, uint32_t powerLevel);
/*
* Set the transmit power for the specified channel; the power
* is taken from the calibration data and capped according to
* the specified max tx power (in dBm).
*/
int mwl_hal_settxpower(struct mwl_hal *, const MWL_HAL_CHANNEL *,
uint8_t maxtxpow);
/*
* Set the Multicast Address Filter.
* A packed array addresses is specified.
*/
#define MWL_HAL_MCAST_MAX 32
int mwl_hal_setmcast(struct mwl_hal *mh, int nmc, const uint8_t macs[]);
/*
* Crypto Configuration.
*/
typedef struct {
uint16_t pad;
uint16_t keyTypeId;
#define KEY_TYPE_ID_WEP 0
#define KEY_TYPE_ID_TKIP 1
#define KEY_TYPE_ID_AES 2 /* AES-CCMP */
uint32_t keyFlags;
#define KEY_FLAG_INUSE 0x00000001 /* indicate key is in use */
#define KEY_FLAG_RXGROUPKEY 0x00000002 /* Group key for RX only */
#define KEY_FLAG_TXGROUPKEY 0x00000004 /* Group key for TX */
#define KEY_FLAG_PAIRWISE 0x00000008 /* pairwise */
#define KEY_FLAG_RXONLY 0x00000010 /* only used for RX */
#define KEY_FLAG_AUTHENTICATOR 0x00000020 /* Key is for Authenticator */
#define KEY_FLAG_TSC_VALID 0x00000040 /* Sequence counters valid */
#define KEY_FLAG_WEP_TXKEY 0x01000000 /* Tx key for WEP */
#define KEY_FLAG_MICKEY_VALID 0x02000000 /* Tx/Rx MIC keys are valid */
uint32_t keyIndex; /* for WEP only; actual key index */
uint16_t keyLen; /* key size in bytes */
union { /* key material, keyLen gives size */
uint8_t wep[16]; /* enough for 128 bits */
uint8_t aes[16];
struct {
/* NB: group or pairwise key is determined by keyFlags */
uint8_t keyMaterial[16];
uint8_t txMic[8];
uint8_t rxMic[8];
struct {
uint16_t low;
uint32_t high;
} rsc;
struct {
uint16_t low;
uint32_t high;
} tsc;
} __packed tkip;
}__packed key;
} __packed MWL_HAL_KEYVAL;
/*
* Plumb a unicast/group key. The mac address identifies
* the station, use the broadcast address for group keys.
*/
int mwl_hal_keyset(struct mwl_hal_vap *, const MWL_HAL_KEYVAL *kv,
const uint8_t mac[6]);
/*
* Plumb a unicast/group key. The mac address identifies
* the station, use the broadcast address for group keys.
*/
int mwl_hal_keyreset(struct mwl_hal_vap *, const MWL_HAL_KEYVAL *kv,
const uint8_t mac[6]);
/*
* Set the MAC address.
*/
int mwl_hal_setmac(struct mwl_hal_vap *, const uint8_t addr[6]);
/*
* Set the beacon frame contents. The firmware will modify the
* frame only to add CSA and WME ie's and to fill in dynamic fields
* such as the sequence #..
*/
int mwl_hal_setbeacon(struct mwl_hal_vap *, const void *, size_t);
/*
* Handle power save operation for AP operation when offloaded to
* the host (SET_HW_SPEC_HOST_POWERSAVE). mwl_hal_setbss_powersave
* informs the firmware whether 1+ associated stations are in power
* save mode (it will then buffer mcast traffic). mwl_hal_setsta_powersave
* specifies a change in power save state for an associated station.
*/
int mwl_hal_setpowersave_bss(struct mwl_hal_vap *, uint8_t nsta);
int mwl_hal_setpowersave_sta(struct mwl_hal_vap *, uint16_t aid, int ena);
/*
* Set Association Configuration for station operation.
*/
int mwl_hal_setassocid(struct mwl_hal_vap *, const uint8_t bssId[6],
uint16_t assocId);
/*
* Set the current channel.
*/
int mwl_hal_setchannel(struct mwl_hal *mh, const MWL_HAL_CHANNEL *c);
/*
* A-MPDU Block Ack (BA) stream support. There are several
* streams that the driver must multiplex. Once assigned
* to a station the driver queues frames to a corresponding
* transmit queue and the firmware handles all the work.
*
* XXX no way to find out how many streams are supported
*/
typedef struct {
void *data[2]; /* opaque data */
int txq;
} MWL_HAL_BASTREAM;
const MWL_HAL_BASTREAM *mwl_hal_bastream_alloc(struct mwl_hal_vap *,
int ba_type, const uint8_t Macaddr[6], uint8_t Tid,
uint8_t ParamInfo, void *, void *);
const MWL_HAL_BASTREAM *mwl_hal_bastream_lookup(struct mwl_hal *mh, int s);
int mwl_hal_bastream_create(struct mwl_hal_vap *, const MWL_HAL_BASTREAM *,
int BarThrs, int WindowSize, uint16_t seqno);
int mwl_hal_bastream_destroy(struct mwl_hal *mh, const MWL_HAL_BASTREAM *);
int mwl_hal_getwatchdogbitmap(struct mwl_hal *mh, uint8_t bitmap[1]);
int mwl_hal_bastream_get_seqno(struct mwl_hal *mh, const MWL_HAL_BASTREAM *,
const uint8_t Macaddr[6], uint16_t *pseqno);
/* for sysctl hookup for debugging */
void mwl_hal_setbastreams(struct mwl_hal *mh, int mask);
int mwl_hal_getbastreams(struct mwl_hal *mh);
/*
* Set/get A-MPDU aggregation parameters.
*/
int mwl_hal_setaggampduratemode(struct mwl_hal *, int mode, int thresh);
int mwl_hal_getaggampduratemode(struct mwl_hal *, int *mode, int *thresh);
/*
* Inform the firmware of a new association station.
* The address is the MAC address of the peer station.
* The AID is supplied sans the 0xc000 bits. The station
* ID is defined by the caller. The peer information must
* be supplied.
*
* NB: All values are in host byte order; any byte swapping
* is handled by the hal.
*/
typedef struct {
uint32_t LegacyRateBitMap;
uint32_t HTRateBitMap;
uint16_t CapInfo;
uint16_t HTCapabilitiesInfo;
uint8_t MacHTParamInfo;
uint8_t Rev;
struct {
uint8_t ControlChan;
uint8_t AddChan;
uint8_t OpMode;
uint8_t stbc;
} __packed AddHtInfo;
} __packed MWL_HAL_PEERINFO;
int mwl_hal_newstation(struct mwl_hal_vap *, const uint8_t addr[6],
uint16_t aid, uint16_t sid, const MWL_HAL_PEERINFO *,
int isQosSta, int wmeInfo);
int mwl_hal_delstation(struct mwl_hal_vap *, const uint8_t addr[6]);
/*
* Prod the firmware to age packets on station power
* save queues and reap frames on the tx aggregation q's.
*/
int mwl_hal_setkeepalive(struct mwl_hal *mh);
typedef enum {
AP_MODE_B_ONLY = 1,
AP_MODE_G_ONLY = 2,
AP_MODE_MIXED = 3,
AP_MODE_N_ONLY = 4,
AP_MODE_BandN = 5,
AP_MODE_GandN = 6,
AP_MODE_BandGandN = 7,
AP_MODE_A_ONLY = 8,
AP_MODE_AandG = 10,
AP_MODE_AandN = 12,
} MWL_HAL_APMODE;
int mwl_hal_setapmode(struct mwl_hal_vap *, MWL_HAL_APMODE);
/*
* Enable/disable firmware operation. mwl_hal_start is
* also used to sync state updates, e.g. beacon frame
* reconstruction after content changes.
*/
int mwl_hal_stop(struct mwl_hal_vap *);
int mwl_hal_start(struct mwl_hal_vap *);
/*
* Add/Remove station from Power Save TIM handling.
*
* If set is non-zero the AID is enabled, if zero it is removed.
*/
int mwl_hal_updatetim(struct mwl_hal_vap *, uint16_t aid, int set);
/*
* Enable/disable 11g protection use. This call specifies
* the ERP information element flags to use.
*/
int mwl_hal_setgprot(struct mwl_hal *, int);
/*
* Enable/disable WMM support.
*/
int mwl_hal_setwmm(struct mwl_hal *mh, int onoff);
/*
* Configure WMM EDCA parameters for the specified h/w ring.
*/
int mwl_hal_setedcaparams(struct mwl_hal *mh, uint8_t qnum,
uint32_t CWmin, uint32_t CWmax, uint8_t AIFSN, uint16_t TXOPLimit);
/*
* Configure rate adaptation for indooor/outdoor operation.
* XXX wtf?
*/
int mwl_hal_setrateadaptmode(struct mwl_hal *mh, uint16_t mode);
typedef enum {
CSMODE_CONSERVATIVE = 0,
CSMODE_AGGRESSIVE = 1,
CSMODE_AUTO_ENA = 2,
CSMODE_AUTO_DIS = 3,
} MWL_HAL_CSMODE;
int mwl_hal_setcsmode(struct mwl_hal *mh, MWL_HAL_CSMODE csmode);
/*
* Configure 11n protection on/off.
*/
typedef enum {
HTPROTECT_NONE = 0, /* disable */
HTPROTECT_OPT = 1, /* optional */
HTPROTECT_HT20 = 2, /* protect only HT20 */
HTPROTECT_HT2040 = 3, /* protect HT20/40 */
HTPROTECT_AUTO = 4, /* automatic */
} MWL_HAL_HTPROTECT;
int mwl_hal_setnprot(struct mwl_hal_vap *, MWL_HAL_HTPROTECT mode);
/*
* Configure 11n protection mechanism for when protection is enabled.
*/
int mwl_hal_setnprotmode(struct mwl_hal_vap *, uint8_t mode);
/*
* Enable/disable Marvell "turbo mode"".
*/
int mwl_hal_setoptimizationlevel(struct mwl_hal *mh, int onoff);
/*
* Set MIMO Power Save handling for a station; the enable and mode
* values come directly from the Action frame.
*/
int mwl_hal_setmimops(struct mwl_hal *mh, const uint8_t addr[6],
uint8_t enable, uint8_t mode);
/*
* Retrieve the region/country code from the EEPROM.
*/
int mwl_hal_getregioncode(struct mwl_hal *mh, uint8_t *countryCode);
int mwl_hal_GetBeacon(struct mwl_hal *mh, uint8_t *pBcn, uint16_t *pLen);
int mwl_hal_SetRifs(struct mwl_hal *mh, uint8_t QNum);
/*
* Set/get promiscuous mode.
*/
int mwl_hal_setpromisc(struct mwl_hal *, int ena);
int mwl_hal_getpromisc(struct mwl_hal *);
/*
* Enable/disable CF-End use.
*/
int mwl_hal_setcfend(struct mwl_hal *, int ena);
/*
* Enable/disable sta-mode DWDS use/operation.
*/
int mwl_hal_setdwds(struct mwl_hal *, int ena);
/*
* Diagnostic interface. This is an open-ended interface that
* is opaque to applications. Diagnostic programs use this to
* retrieve internal data structures, etc. There is no guarantee
* that calling conventions for calls other than MWL_DIAG_REVS
* are stable between HAL releases; a diagnostic application must
* use the HAL revision information to deal with ABI/API differences.
*/
int mwl_hal_getdiagstate(struct mwl_hal *mh, int request,
const void *args, uint32_t argsize,
void **result, uint32_t *resultsize);
int mwl_hal_fwload(struct mwl_hal *mh, void *fwargs);
#endif /* _MWL_HAL_H_ */