dev/ic/rtwreg.h

1.8   dyoung /*	$NetBSD: rtwreg.h,v 1.8 2005/01/02 04:23:03 dyoung Exp $	*/
1.7   dyoung /*-
1.7   dyoung  * Copyright (c) 2004, 2005 David Young.  All rights reserved.
1.1   dyoung  *
1.7   dyoung  * Programmed for NetBSD by David Young.
1.1   dyoung  *
1.1   dyoung  * Redistribution and use in source and binary forms, with or without
1.1   dyoung  * modification, are permitted provided that the following conditions
1.1   dyoung  * are met:
1.1   dyoung  * 1. Redistributions of source code must retain the above copyright
1.1   dyoung  *    notice, this list of conditions and the following disclaimer.
1.1   dyoung  * 2. Redistributions in binary form must reproduce the above copyright
1.1   dyoung  *    notice, this list of conditions and the following disclaimer in the
1.1   dyoung  *    documentation and/or other materials provided with the distribution.
1.7   dyoung  * 3. The name of David Young may not be used to endorse or promote
1.7   dyoung  *    products derived from this software without specific prior
1.7   dyoung  *    written permission.
1.1   dyoung  *
1.7   dyoung  * THIS SOFTWARE IS PROVIDED BY David Young ``AS IS'' AND ANY
1.7   dyoung  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
1.7   dyoung  * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
1.7   dyoung  * PARTICULAR PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL David
1.7   dyoung  * Young BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
1.7   dyoung  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
1.7   dyoung  * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.7   dyoung  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
1.7   dyoung  * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
1.7   dyoung  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.7   dyoung  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
1.7   dyoung  * OF SUCH DAMAGE.
1.1   dyoung  */
1.1   dyoung /* Macros for bit twiddling. */
1.1   dyoung /* TBD factor w/ dev/ic/atwreg.h. */
1.1   dyoung
1.1   dyoung #ifndef _BIT_TWIDDLE
1.1   dyoung #define _BIT_TWIDDLE
1.1   dyoung /* nth bit, BIT(0) == 0x1. */
1.8   dyoung #define BIT(n) (((n) == 32) ? 0 : ((uint32_t)1 << (n)))
1.1   dyoung
1.1   dyoung /* bits m through n, m < n. */
1.1   dyoung #define BITS(m, n) ((BIT(MAX((m), (n)) + 1) - 1) ^ (BIT(MIN((m), (n))) - 1))
1.1   dyoung
1.1   dyoung /* find least significant bit that is set */
1.1   dyoung #define LOWEST_SET_BIT(x) ((((x) - 1) & (x)) ^ (x))
1.1   dyoung
1.1   dyoung /* for x a power of two and p a non-negative integer, is x a greater
1.1   dyoung  * power than 2**p?
1.1   dyoung  */
1.1   dyoung #define GTEQ_POWER(x, p) (((u_long)(x) >> (p)) != 0)
1.1   dyoung
1.1   dyoung #define MASK_TO_SHIFT2(m) (GTEQ_POWER(LOWEST_SET_BIT((m)), 1) ? 1 : 0)
1.1   dyoung
1.1   dyoung #define MASK_TO_SHIFT4(m) \
1.1   dyoung 	(GTEQ_POWER(LOWEST_SET_BIT((m)), 2) \
1.1   dyoung 	    ? 2 + MASK_TO_SHIFT2((m) >> 2) \
1.1   dyoung 	    : MASK_TO_SHIFT2((m)))
1.1   dyoung
1.1   dyoung #define MASK_TO_SHIFT8(m) \
1.1   dyoung 	(GTEQ_POWER(LOWEST_SET_BIT((m)), 4) \
1.1   dyoung 	    ? 4 + MASK_TO_SHIFT4((m) >> 4) \
1.1   dyoung 	    : MASK_TO_SHIFT4((m)))
1.1   dyoung
1.1   dyoung #define MASK_TO_SHIFT16(m) \
1.1   dyoung 	(GTEQ_POWER(LOWEST_SET_BIT((m)), 8) \
1.1   dyoung 	    ? 8 + MASK_TO_SHIFT8((m) >> 8) \
1.1   dyoung 	    : MASK_TO_SHIFT8((m)))
1.1   dyoung
1.1   dyoung #define MASK_TO_SHIFT(m) \
1.1   dyoung 	(GTEQ_POWER(LOWEST_SET_BIT((m)), 16) \
1.1   dyoung 	    ? 16 + MASK_TO_SHIFT16((m) >> 16) \
1.1   dyoung 	    : MASK_TO_SHIFT16((m)))
1.1   dyoung
1.1   dyoung #define MASK_AND_RSHIFT(x, mask) (((x) & (mask)) >> MASK_TO_SHIFT(mask))
1.1   dyoung #define LSHIFT(x, mask) ((x) << MASK_TO_SHIFT(mask))
1.1   dyoung #define MASK_AND_REPLACE(reg, val, mask) ((reg & ~mask) | LSHIFT(val, mask))
1.1   dyoung #define PRESHIFT(m) MASK_AND_RSHIFT((m), (m))
1.1   dyoung
1.1   dyoung #endif /* _BIT_TWIDDLE */
1.1   dyoung
1.1   dyoung /* RTL8180L Host Control and Status Registers */
1.1   dyoung
1.1   dyoung #define RTW_IDR0	0x00	/* ID Register: MAC addr, 6 bytes.
1.1   dyoung 				 * Auto-loaded from EEPROM. Read by byte,
1.1   dyoung 				 * by word, or by double word, but write
1.1   dyoung 				 * only by double word.
1.1   dyoung 				 */
1.1   dyoung #define RTW_IDR1	0x04
1.1   dyoung
1.1   dyoung #define RTW_MAR0	0x08	/* Multicast filter, 64b. */
1.1   dyoung #define RTW_MAR1	0x0c
1.1   dyoung
1.1   dyoung #define RTW_TSFTRL	0x18	/* Timing Synchronization Function Timer
1.1   dyoung 				 * Register, low word, 32b, read-only.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TSFTRH	0x1c	/* High word, 32b, read-only. */
1.1   dyoung #define	RTW_TLPDA	0x20	/* Transmit Low Priority Descriptors Start
1.1   dyoung 				 * Address, 32b, 256-byte alignment.
1.1   dyoung 				 */
1.1   dyoung #define	RTW_TNPDA	0x24	/* Transmit Normal Priority Descriptors Start
1.1   dyoung 				 * Address, 32b, 256-byte alignment.
1.1   dyoung 				 */
1.1   dyoung #define	RTW_THPDA	0x28	/* Transmit High Priority Descriptors Start
1.1   dyoung 				 * Address, 32b, 256-byte alignment.
1.1   dyoung 				 */
1.1   dyoung
1.1   dyoung #define RTW_BRSR	0x2c	/* Basic Rate Set Register, 16b */
1.1   dyoung #define	RTW_BRSR_BPLCP	BIT(8)	/* 1: use short PLCP header for CTS/ACK packet,
1.1   dyoung 				 * 0: use long PLCP header
1.1   dyoung 				 */
1.1   dyoung #define RTW_BRSR_MBR8180_MASK	BITS(1,0)	/* Maximum Basic Service Rate */
1.5  mycroft #define RTW_BRSR_MBR8180_1MBPS	LSHIFT(0, RTW_BRSR_MBR8180_MASK)
1.5  mycroft #define RTW_BRSR_MBR8180_2MBPS	LSHIFT(1, RTW_BRSR_MBR8180_MASK)
1.5  mycroft #define RTW_BRSR_MBR8180_5MBPS	LSHIFT(2, RTW_BRSR_MBR8180_MASK)
1.5  mycroft #define RTW_BRSR_MBR8180_11MBPS	LSHIFT(3, RTW_BRSR_MBR8180_MASK)
1.1   dyoung
1.1   dyoung /* 8181 and 8180 docs conflict! */
1.1   dyoung #define RTW_BRSR_MBR8181_1MBPS	BIT(0)
1.1   dyoung #define RTW_BRSR_MBR8181_2MBPS	BIT(1)
1.1   dyoung #define RTW_BRSR_MBR8181_5MBPS	BIT(2)
1.1   dyoung #define RTW_BRSR_MBR8181_11MBPS	BIT(3)
1.1   dyoung
1.3   dyoung #define RTW_BSSID	0x2e
1.1   dyoung /* BSSID, 6 bytes */
1.1   dyoung #define RTW_BSSID16	0x2e		/* first two bytes */
1.1   dyoung #define RTW_BSSID32	(0x2e + 4)	/* remaining four bytes */
1.1   dyoung #define RTW_BSSID0	RTW_BSSID16		/* BSSID[0], 8b */
1.1   dyoung #define RTW_BSSID1	(RTW_BSSID0 + 1)	/* BSSID[1], 8b */
1.1   dyoung #define RTW_BSSID2	(RTW_BSSID1 + 1)	/* BSSID[2], 8b */
1.1   dyoung #define RTW_BSSID3	(RTW_BSSID2 + 1)	/* BSSID[3], 8b */
1.1   dyoung #define RTW_BSSID4	(RTW_BSSID3 + 1)	/* BSSID[4], 8b */
1.1   dyoung #define RTW_BSSID5	(RTW_BSSID4 + 1)	/* BSSID[5], 8b */
1.1   dyoung
1.1   dyoung #define	RTW_CR		0x37	/* Command Register, 8b */
1.1   dyoung #define	RTW_CR_RST	BIT(4)	/* Reset: host sets to 1 to disable
1.1   dyoung 				 * transmitter & receiver, reinitialize FIFO.
1.1   dyoung 				 * RTL8180L sets to 0 to signal completion.
1.1   dyoung 				 */
1.1   dyoung #define	RTW_CR_RE	BIT(3)	/* Receiver Enable: host enables receiver
1.1   dyoung 				 * by writing 1. RTL8180L indicates receiver
1.1   dyoung 				 * is active with 1. After power-up, host
1.1   dyoung 				 * must wait for reset before writing.
1.1   dyoung 				 */
1.1   dyoung #define	RTW_CR_TE	BIT(2)	/* Transmitter Enable: host enables transmitter
1.1   dyoung 				 * by writing 1. RTL8180L indicates transmitter
1.1   dyoung 				 * is active with 1. After power-up, host
1.1   dyoung 				 * must wait for reset before writing.
1.1   dyoung 				 */
1.1   dyoung #define	RTW_CR_MULRW	BIT(0)	/* PCI Multiple Read/Write enable: 1 enables,
1.1   dyoung 				 * 0 disables. XXX RTL8180, only?
1.1   dyoung 				 */
1.1   dyoung
1.1   dyoung #define	RTW_IMR		0x3c	/* Interrupt Mask Register, 16b */
1.1   dyoung #define	RTW_ISR		0x3e	/* Interrupt status register, 16b */
1.1   dyoung
1.1   dyoung #define RTW_INTR_TXFOVW	BIT(15)		/* Tx FIFO Overflow */
1.1   dyoung #define RTW_INTR_TIMEOUT	BIT(14)	/* Time Out: 1 indicates
1.1   dyoung 					 * RTW_TSFTR[0:31] = RTW_TINT
1.1   dyoung 					 */
1.1   dyoung #define RTW_INTR_BCNINT	BIT(13)	/* Beacon Time Out: time for host to
1.1   dyoung 				 * prepare beacon:
1.1   dyoung 				 * RTW_TSFTR % (RTW_BCNITV_BCNITV * TU) =
1.1   dyoung 				 * (RTW_BCNITV_BCNITV * TU - RTW_BINTRITV)
1.1   dyoung 				 */
1.1   dyoung #define RTW_INTR_ATIMINT	BIT(12)
1.1   dyoung 				/* ATIM Time Out: ATIM interval will pass,
1.1   dyoung 				 * RTW_TSFTR % (RTW_BCNITV_BCNITV * TU) =
1.1   dyoung 				 * (RTW_ATIMWND_ATIMWND * TU - RTW_ATIMTRITV)
1.1   dyoung 				 */
1.1   dyoung #define RTW_INTR_TBDER	BIT(11)	/* Tx Beacon Descriptor Error:
1.1   dyoung 				 * beacon transmission aborted because
1.1   dyoung 				 * frame Rx'd
1.1   dyoung 				 */
1.1   dyoung #define RTW_INTR_TBDOK	BIT(10)	/* Tx Beacon Descriptor OK */
1.1   dyoung #define RTW_INTR_THPDER	BIT(9)	/* Tx High Priority Descriptor Error:
1.1   dyoung 				 * reached short/long retry limit
1.1   dyoung 				 */
1.1   dyoung #define RTW_INTR_THPDOK	BIT(8)	/* Tx High Priority Descriptor OK */
1.1   dyoung #define RTW_INTR_TNPDER	BIT(7)	/* Tx Normal Priority Descriptor Error:
1.1   dyoung 				 * reached short/long retry limit
1.1   dyoung 				 */
1.1   dyoung #define RTW_INTR_TNPDOK	BIT(6)	/* Tx Normal Priority Descriptor OK */
1.1   dyoung #define RTW_INTR_RXFOVW	BIT(5)	/* Rx FIFO Overflow: either RDU (see below)
1.1   dyoung 				 * or PCI bus too slow/busy
1.1   dyoung 				 */
1.1   dyoung #define RTW_INTR_RDU	BIT(4)	/* Rx Descriptor Unavailable */
1.1   dyoung #define RTW_INTR_TLPDER	BIT(3)	/* Tx Normal Priority Descriptor Error
1.1   dyoung 				 * reached short/long retry limit
1.1   dyoung 				 */
1.1   dyoung #define RTW_INTR_TLPDOK	BIT(2)	/* Tx Normal Priority Descriptor OK */
1.1   dyoung #define RTW_INTR_RER	BIT(1)	/* Rx Error: CRC32 or ICV error */
1.1   dyoung #define RTW_INTR_ROK	BIT(0)	/* Rx OK */
1.1   dyoung
1.1   dyoung /* Convenient interrupt conjunctions. */
1.1   dyoung #define RTW_INTR_RX	(RTW_INTR_RER|RTW_INTR_ROK)
1.1   dyoung #define RTW_INTR_TX	(RTW_INTR_TLPDER|RTW_INTR_TLPDOK|RTW_INTR_THPDER|\
1.1   dyoung 			 RTW_INTR_THPDOK|RTW_INTR_TNPDER|RTW_INTR_TNPDOK)
1.1   dyoung #define RTW_INTR_BEACON	(RTW_INTR_TBDER|RTW_INTR_TBDOK|RTW_INTR_BCNINT)
1.1   dyoung #define RTW_INTR_IOERROR	(RTW_INTR_TXFOVW|RTW_INTR_RXFOVW|RTW_INTR_RDU)
1.1   dyoung
1.1   dyoung #define	RTW_TCR		0x40	/* Transmit Configuration Register, 32b */
1.1   dyoung #define RTW_TCR_CWMIN	BIT(31)	/* 1: CWmin = 8, 0: CWmin = 32. */
1.1   dyoung #define RTW_TCR_SWSEQ	BIT(30)	/* 1: host assigns 802.11 sequence number,
1.1   dyoung 				 * 0: hardware assigns sequence number
1.1   dyoung 				 */
1.1   dyoung /* Hardware version ID, read-only */
1.1   dyoung #define RTW_TCR_HWVERID_MASK	BITS(29, 25)
1.1   dyoung #define RTW_TCR_HWVERID_D	LSHIFT(26, RTW_TCR_HWVERID_MASK)
1.1   dyoung #define RTW_TCR_HWVERID_F	LSHIFT(27, RTW_TCR_HWVERID_MASK)
1.1   dyoung #define RTW_TCR_HWVERID_RTL8180	RTW_TCR_HWVERID_F
1.1   dyoung
1.1   dyoung /* Set ACK/CTS Timeout (EIFS).
1.1   dyoung  * 1: ACK rate = max(RTW_BRSR_MBR, Rx rate) (XXX not min? typo in datasheet?)
1.1   dyoung  * 0: ACK rate = 1Mbps
1.1   dyoung  */
1.1   dyoung #define RTW_TCR_SAT	BIT(24)
1.1   dyoung /* Max DMA Burst Size per Tx DMA Burst */
1.1   dyoung #define RTW_TCR_MXDMA_MASK	BITS(23,21)
1.1   dyoung #define RTW_TCR_MXDMA_16	LSHIFT(0, RTW_TCR_MXDMA_MASK)
1.1   dyoung #define RTW_TCR_MXDMA_32	LSHIFT(1, RTW_TCR_MXDMA_MASK)
1.1   dyoung #define RTW_TCR_MXDMA_64	LSHIFT(2, RTW_TCR_MXDMA_MASK)
1.1   dyoung #define RTW_TCR_MXDMA_128	LSHIFT(3, RTW_TCR_MXDMA_MASK)
1.1   dyoung #define RTW_TCR_MXDMA_256	LSHIFT(4, RTW_TCR_MXDMA_MASK)
1.1   dyoung #define RTW_TCR_MXDMA_512	LSHIFT(5, RTW_TCR_MXDMA_MASK)
1.1   dyoung #define RTW_TCR_MXDMA_1024	LSHIFT(6, RTW_TCR_MXDMA_MASK)
1.1   dyoung #define RTW_TCR_MXDMA_2048	LSHIFT(7, RTW_TCR_MXDMA_MASK)
1.1   dyoung
1.1   dyoung #define RTW_TCR_DISCW		BIT(20)	/* disable 802.11 random backoff */
1.1   dyoung
1.1   dyoung #define RTW_TCR_ICV		BIT(19)	/* host lets RTL8180 append ICV to
1.1   dyoung 					 * WEP packets
1.1   dyoung 					 */
1.1   dyoung
1.1   dyoung /* Loopback Test: disables TXI/TXQ outputs. */
1.1   dyoung #define RTW_TCR_LBK_MASK	BITS(18,17)
1.1   dyoung #define RTW_TCR_LBK_NORMAL	LSHIFT(0, RTW_TCR_LBK_MASK) /* normal ops */
1.1   dyoung #define RTW_TCR_LBK_MAC		LSHIFT(1, RTW_TCR_LBK_MASK) /* MAC loopback */
1.1   dyoung #define RTW_TCR_LBK_BBP		LSHIFT(2, RTW_TCR_LBK_MASK) /* baseband loop. */
1.1   dyoung #define RTW_TCR_LBK_CONT	LSHIFT(3, RTW_TCR_LBK_MASK) /* continuous Tx */
1.1   dyoung
1.4   dyoung #define RTW_TCR_CRC	BIT(16)		/* 0: RTL8180 appends CRC32
1.4   dyoung 					 * 1: host appends CRC32
1.4   dyoung 					 *
1.4   dyoung 					 * (I *think* this is right.
1.4   dyoung 					 *  The docs have a mysterious
1.4   dyoung 					 *  description in the
1.4   dyoung 					 *  passive voice.)
1.4   dyoung 					 */
1.1   dyoung #define RTW_TCR_SRL_MASK	BITS(15,8)	/* Short Retry Limit */
1.1   dyoung #define RTW_TCR_LRL_MASK	BITS(7,0)	/* Long Retry Limit */
1.1   dyoung
1.1   dyoung #define	RTW_RCR		0x44	/* Receive Configuration Register, 32b */
1.1   dyoung #define RTW_RCR_ONLYERLPKT	BIT(31)	/* only do Early Rx on packets
1.1   dyoung 					 * longer than 1536 bytes
1.1   dyoung 					 */
1.1   dyoung #define RTW_RCR_ENCS2		BIT(30)	/* enable carrier sense method 2 */
1.1   dyoung #define RTW_RCR_ENCS1		BIT(29)	/* enable carrier sense method 1 */
1.1   dyoung #define RTW_RCR_ENMARP		BIT(28)	/* enable MAC auto-reset PHY */
1.1   dyoung #define RTW_RCR_CBSSID		BIT(23)	/* Check BSSID/ToDS/FromDS: set
1.1   dyoung 					 * "Link On" when received BSSID
1.1   dyoung 					 * matches RTW_BSSID and received
1.1   dyoung 					 * ToDS/FromDS are appropriate
1.1   dyoung 					 * according to RTW_MSR_NETYPE.
1.1   dyoung 					 */
1.1   dyoung #define RTW_RCR_APWRMGT		BIT(22)	/* accept packets w/ PWRMGMT bit set */
1.1   dyoung #define RTW_RCR_ADD3		BIT(21)	/* when RTW_MSR_NETYPE ==
1.1   dyoung 					 * RTW_MSR_NETYPE_INFRA_OK, accept
1.1   dyoung 					 * broadcast/multicast packets whose
1.1   dyoung 					 * 3rd address matches RTL8180's MAC.
1.1   dyoung 					 */
1.1   dyoung #define RTW_RCR_AMF		BIT(20)	/* accept management frames */
1.1   dyoung #define RTW_RCR_ACF		BIT(19)	/* accept control frames */
1.1   dyoung #define RTW_RCR_ADF		BIT(18)	/* accept data frames */
1.1   dyoung /* Rx FIFO Threshold: RTL8180 begins PCI transfer when this many data
1.1   dyoung  * bytes are received
1.1   dyoung  */
1.1   dyoung #define RTW_RCR_RXFTH_MASK	BITS(15,13)
1.1   dyoung #define RTW_RCR_RXFTH_64	LSHIFT(2, RTW_RCR_RXFTH_MASK)
1.1   dyoung #define RTW_RCR_RXFTH_128	LSHIFT(3, RTW_RCR_RXFTH_MASK)
1.1   dyoung #define RTW_RCR_RXFTH_256	LSHIFT(4, RTW_RCR_RXFTH_MASK)
1.1   dyoung #define RTW_RCR_RXFTH_512	LSHIFT(5, RTW_RCR_RXFTH_MASK)
1.1   dyoung #define RTW_RCR_RXFTH_1024	LSHIFT(6, RTW_RCR_RXFTH_MASK)
1.1   dyoung #define RTW_RCR_RXFTH_WHOLE	LSHIFT(7, RTW_RCR_RXFTH_MASK)
1.1   dyoung
1.1   dyoung #define RTW_RCR_AICV		BIT(12)	/* accept frames w/ ICV errors */
1.1   dyoung
1.1   dyoung /* Max DMA Burst Size per Rx DMA Burst */
1.1   dyoung #define RTW_RCR_MXDMA_MASK	BITS(10,8)
1.1   dyoung #define RTW_RCR_MXDMA_16	LSHIFT(0, RTW_RCR_MXDMA_MASK)
1.1   dyoung #define RTW_RCR_MXDMA_32	LSHIFT(1, RTW_RCR_MXDMA_MASK)
1.1   dyoung #define RTW_RCR_MXDMA_64	LSHIFT(2, RTW_RCR_MXDMA_MASK)
1.1   dyoung #define RTW_RCR_MXDMA_128	LSHIFT(3, RTW_RCR_MXDMA_MASK)
1.1   dyoung #define RTW_RCR_MXDMA_256	LSHIFT(4, RTW_RCR_MXDMA_MASK)
1.1   dyoung #define RTW_RCR_MXDMA_512	LSHIFT(5, RTW_RCR_MXDMA_MASK)
1.1   dyoung #define RTW_RCR_MXDMA_1024	LSHIFT(6, RTW_RCR_MXDMA_MASK)
1.1   dyoung #define RTW_RCR_MXDMA_UNLIMITED	LSHIFT(7, RTW_RCR_MXDMA_MASK)
1.1   dyoung
1.1   dyoung /* EEPROM type, read-only. 1: EEPROM is 93c56, 0: 93c46 */
1.1   dyoung #define RTW_RCR_9356SEL		BIT(6)
1.1   dyoung
1.1   dyoung #define RTW_RCR_ACRC32		BIT(5)	/* accept frames w/ CRC32 errors */
1.1   dyoung #define RTW_RCR_AB		BIT(3)	/* accept broadcast frames */
1.1   dyoung #define RTW_RCR_AM		BIT(2)	/* accept multicast frames */
1.1   dyoung /* accept physical match frames. XXX means PLCP header ok? */
1.1   dyoung #define RTW_RCR_APM		BIT(1)
1.1   dyoung #define RTW_RCR_AAP		BIT(0)	/* accept frames w/ destination */
1.1   dyoung
1.1   dyoung #define RTW_TINT	0x48	/* Timer Interrupt Register, 32b */
1.1   dyoung #define	RTW_TBDA	0x4c	/* Transmit Beacon Descriptor Start Address,
1.1   dyoung 				 * 32b, 256-byte alignment
1.1   dyoung 				 */
1.1   dyoung #define RTW_9346CR	0x50	/* 93c46/93c56 Command Register, 8b */
1.1   dyoung #define RTW_9346CR_EEM_MASK	BITS(7,6)	/* Operating Mode */
1.1   dyoung #define RTW_9346CR_EEM_NORMAL	LSHIFT(0, RTW_9346CR_EEM_MASK)
1.1   dyoung /* Load the EEPROM. Reset registers to defaults.
1.1   dyoung  * Takes ~2ms. RTL8180 indicates completion with RTW_9346CR_EEM_NORMAL.
1.1   dyoung  * XXX RTL8180 only?
1.1   dyoung  */
1.1   dyoung #define RTW_9346CR_EEM_AUTOLOAD	LSHIFT(1, RTW_9346CR_EEM_MASK)
1.1   dyoung /* Disable network & bus-master operations and enable
1.1   dyoung  * _EECS, _EESK, _EEDI, _EEDO.
1.1   dyoung  * XXX RTL8180 only?
1.1   dyoung  */
1.1   dyoung #define RTW_9346CR_EEM_PROGRAM	LSHIFT(2, RTW_9346CR_EEM_MASK)
1.1   dyoung /* Enable RTW_CONFIG[0123] registers. */
1.1   dyoung #define RTW_9346CR_EEM_CONFIG	LSHIFT(3, RTW_9346CR_EEM_MASK)
1.1   dyoung /* EEPROM pin status/control in _EEM_CONFIG, _EEM_AUTOLOAD modes.
1.1   dyoung  * XXX RTL8180 only?
1.1   dyoung  */
1.1   dyoung #define RTW_9346CR_EECS	BIT(3)
1.1   dyoung #define RTW_9346CR_EESK	BIT(2)
1.1   dyoung #define RTW_9346CR_EEDI	BIT(1)
1.1   dyoung #define RTW_9346CR_EEDO	BIT(0)	/* read-only */
1.1   dyoung
1.1   dyoung #define RTW_CONFIG0	0x51	/* Configuration Register 0, 8b */
1.1   dyoung #define RTW_CONFIG0_WEP40	BIT(7)	/* implements 40-bit WEP,
1.1   dyoung 					 * XXX RTL8180 only?
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG0_WEP104	BIT(6)	/* implements 104-bit WEP,
1.1   dyoung 					 * from EEPROM, read-only
1.1   dyoung 					 * XXX RTL8180 only?
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG0_LEDGPOEN	BIT(4)	/* 1: RTW_PSR_LEDGPO[01] control
1.1   dyoung 					 *    LED[01] pins.
1.1   dyoung 					 * 0: LED behavior defined by
1.1   dyoung 					 *    RTW_CONFIG1_LEDS10_MASK
1.1   dyoung 					 * XXX RTL8180 only?
1.1   dyoung 					 */
1.1   dyoung /* auxiliary power is present, read-only */
1.1   dyoung #define RTW_CONFIG0_AUXPWR	BIT(3)
1.1   dyoung /* Geographic Location, read-only */
1.1   dyoung #define RTW_CONFIG0_GL_MASK		BITS(1,0)
1.1   dyoung /* _RTW_CONFIG0_GL_* is what the datasheet says, but RTW_CONFIG0_GL_*
1.1   dyoung  * work.
1.1   dyoung  */
1.1   dyoung #define _RTW_CONFIG0_GL_USA		LSHIFT(3, RTW_CONFIG0_GL_MASK)
1.1   dyoung #define RTW_CONFIG0_GL_EUROPE		LSHIFT(2, RTW_CONFIG0_GL_MASK)
1.1   dyoung #define RTW_CONFIG0_GL_JAPAN		LSHIFT(1, RTW_CONFIG0_GL_MASK)
1.1   dyoung #define RTW_CONFIG0_GL_USA		LSHIFT(0, RTW_CONFIG0_GL_MASK)
1.1   dyoung /* RTL8181 datasheet says RTW_CONFIG0_GL_JAPAN = 0. */
1.1   dyoung
1.1   dyoung #define RTW_CONFIG1	0x52	/* Configuration Register 1, 8b */
1.1   dyoung
1.1   dyoung /* LED configuration. From EEPROM. Read/write.
1.1   dyoung  *
1.1   dyoung  * Setting				LED0		LED1
1.1   dyoung  * -------				----		----
1.1   dyoung  * RTW_CONFIG1_LEDS_ACT_INFRA		Activity	Infrastructure
1.1   dyoung  * RTW_CONFIG1_LEDS_ACT_LINK		Activity	Link
1.1   dyoung  * RTW_CONFIG1_LEDS_TX_RX		Tx		Rx
1.1   dyoung  * RTW_CONFIG1_LEDS_LINKACT_INFRA	Link/Activity	Infrastructure
1.1   dyoung  */
1.1   dyoung #define RTW_CONFIG1_LEDS_MASK	BITS(7,6)
1.1   dyoung #define RTW_CONFIG1_LEDS_ACT_INFRA	LSHIFT(0, RTW_CONFIG1_LEDS_MASK)
1.1   dyoung #define RTW_CONFIG1_LEDS_ACT_LINK	LSHIFT(1, RTW_CONFIG1_LEDS_MASK)
1.1   dyoung #define RTW_CONFIG1_LEDS_TX_RX		LSHIFT(2, RTW_CONFIG1_LEDS_MASK)
1.1   dyoung #define RTW_CONFIG1_LEDS_LINKACT_INFRA	LSHIFT(3, RTW_CONFIG1_LEDS_MASK)
1.1   dyoung
1.1   dyoung /* LWAKE Output Signal. Only applicable to Cardbus. Pulse width is 150ms.
1.1   dyoung  *
1.1   dyoung  *                                   RTW_CONFIG1_LWACT
1.1   dyoung  *				0			1
1.1   dyoung  * RTW_CONFIG4_LWPTN	0	active high		active low
1.1   dyoung  *			1	positive pulse		negative pulse
1.1   dyoung  */
1.1   dyoung #define RTW_CONFIG1_LWACT	BIT(4)
1.1   dyoung
1.1   dyoung #define RTW_CONFIG1_MEMMAP	BIT(3)	/* using PCI memory space, read-only */
1.1   dyoung #define RTW_CONFIG1_IOMAP	BIT(2)	/* using PCI I/O space, read-only */
1.1   dyoung #define RTW_CONFIG1_VPD		BIT(1)	/* if set, VPD from offsets
1.1   dyoung 					 * 0x40-0x7f in EEPROM are at
1.1   dyoung 					 * registers 0x60-0x67 of PCI
1.1   dyoung 					 * Configuration Space (XXX huh?)
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG1_PMEN	BIT(0)	/* Power Management Enable: TBD */
1.1   dyoung
1.1   dyoung #define RTW_CONFIG2	0x53	/* Configuration Register 2, 8b */
1.1   dyoung #define RTW_CONFIG2_LCK	BIT(7)	/* clocks are locked, read-only:
1.1   dyoung 				 * Tx frequency & symbol clocks
1.1   dyoung 				 * are derived from the same OSC
1.1   dyoung 				 */
1.1   dyoung #define RTW_CONFIG2_ANT	BIT(6)	/* diversity enabled, read-only */
1.1   dyoung #define RTW_CONFIG2_DPS	BIT(3)	/* Descriptor Polling State: enable
1.1   dyoung 				 * test mode.
1.1   dyoung 				 */
1.1   dyoung #define RTW_CONFIG2_PAPESIGN		BIT(2)		/* TBD, from EEPROM */
1.1   dyoung #define RTW_CONFIG2_PAPETIME_MASK	BITS(1,0)	/* TBD, from EEPROM */
1.1   dyoung
1.1   dyoung #define	RTW_ANAPARM	0x54	/* Analog parameter, 32b */
1.1   dyoung #define RTW_ANAPARM_RFPOW0_MASK	BITS(30,28)		/* undocumented bits
1.1   dyoung 							 * which appear to
1.1   dyoung 							 * control the power
1.1   dyoung 							 * state of the RF
1.1   dyoung 							 * components
1.1   dyoung 							 */
1.3   dyoung #define	RTW_ANAPARM_RFPOW_MASK	\
1.3   dyoung     (RTW_ANAPARM_RFPOW0_MASK|RTW_ANAPARM_RFPOW1_MASK)
1.1   dyoung
1.1   dyoung #define RTW_ANAPARM_TXDACOFF	BIT(27)			/* 1: disable Tx DAC,
1.1   dyoung 							 * 0: enable
1.1   dyoung 							 */
1.1   dyoung #define RTW_ANAPARM_RFPOW1_MASK	BITS(26,20)		/* undocumented bits
1.1   dyoung 							 * which appear to
1.1   dyoung 							 * control the power
1.1   dyoung 							 * state of the RF
1.1   dyoung 							 * components
1.1   dyoung 							 */
1.3   dyoung
1.3   dyoung /*
1.3   dyoung  * Maxim On/Sleep/Off control
1.3   dyoung  */
1.3   dyoung #define RTW_ANAPARM_RFPOW_MAXIM_ON	LSHIFT(0x8, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung /* reg[RTW_ANAPARM] |= RTW_ANAPARM_TXDACOFF; */
1.3   dyoung #define RTW_ANAPARM_RFPOW_MAXIM_SLEEP	LSHIFT(0x378, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung /* reg[RTW_ANAPARM] |= RTW_ANAPARM_TXDACOFF; */
1.3   dyoung #define RTW_ANAPARM_RFPOW_MAXIM_OFF	LSHIFT(0x379, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung /*
1.3   dyoung  * RFMD On/Sleep/Off control
1.3   dyoung  */
1.3   dyoung #define RTW_ANAPARM_RFPOW_RFMD_ON	LSHIFT(0x408, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung /* reg[RTW_ANAPARM] |= RTW_ANAPARM_TXDACOFF; */
1.3   dyoung #define RTW_ANAPARM_RFPOW_RFMD_SLEEP	LSHIFT(0x378, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung /* reg[RTW_ANAPARM] |= RTW_ANAPARM_TXDACOFF; */
1.3   dyoung #define RTW_ANAPARM_RFPOW_RFMD_OFF	LSHIFT(0x379, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung /*
1.3   dyoung  * Philips On/Sleep/Off control
1.3   dyoung  */
1.3   dyoung #define RTW_ANAPARM_RFPOW_ANA_PHILIPS_ON	\
1.3   dyoung     LSHIFT(0x328, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung #define RTW_ANAPARM_RFPOW_DIG_PHILIPS_ON	\
1.3   dyoung     LSHIFT(0x008, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung /* reg[RTW_ANAPARM] |= RTW_ANAPARM_TXDACOFF; */
1.3   dyoung #define RTW_ANAPARM_RFPOW_PHILIPS_SLEEP\
1.3   dyoung     LSHIFT(0x378, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung /* reg[RTW_ANAPARM] |= RTW_ANAPARM_TXDACOFF; */
1.3   dyoung #define RTW_ANAPARM_RFPOW_PHILIPS_OFF\
1.3   dyoung     LSHIFT(0x379, RTW_ANAPARM_RFPOW1_MASK)
1.3   dyoung
1.3   dyoung #define RTW_ANAPARM_RFPOW_PHILIPS_ON	LSHIFT(0x328, RTW_ANAPARM_RFPOW1_MASK)
1.1   dyoung
1.1   dyoung #define RTW_ANAPARM_CARDSP_MASK	BITS(19,0)		/* undocumented
1.1   dyoung 							 * card-specific
1.1   dyoung 							 * bits from the
1.1   dyoung 							 * EEPROM.
1.1   dyoung 							 */
1.1   dyoung
1.1   dyoung #define RTW_MSR		0x58	/* Media Status Register, 8b */
1.1   dyoung /* Network Type and Link Status */
1.1   dyoung #define RTW_MSR_NETYPE_MASK	BITS(3,2)
1.1   dyoung /* AP, XXX RTL8181 only? */
1.1   dyoung #define RTW_MSR_NETYPE_AP_OK	LSHIFT(3, RTW_MSR_NETYPE_MASK)
1.1   dyoung /* infrastructure link ok */
1.1   dyoung #define RTW_MSR_NETYPE_INFRA_OK	LSHIFT(2, RTW_MSR_NETYPE_MASK)
1.1   dyoung /* ad-hoc link ok */
1.1   dyoung #define RTW_MSR_NETYPE_ADHOC_OK	LSHIFT(1, RTW_MSR_NETYPE_MASK)
1.1   dyoung /* no link */
1.1   dyoung #define RTW_MSR_NETYPE_NOLINK	LSHIFT(0, RTW_MSR_NETYPE_MASK)
1.1   dyoung
1.1   dyoung #define RTW_CONFIG3	0x59	/* Configuration Register 3, 8b */
1.1   dyoung #define RTW_CONFIG3_GNTSEL	BIT(7)	/* Grant Select, read-only */
1.1   dyoung #define RTW_CONFIG3_PARMEN	BIT(6)	/* Set RTW_CONFIG3_PARMEN and
1.1   dyoung 					 * RTW_9346CR_EEM_CONFIG to
1.1   dyoung 					 * allow RTW_ANAPARM writes.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG3_MAGIC	BIT(5)	/* Valid when RTW_CONFIG1_PMEN is
1.1   dyoung 					 * set. If set, RTL8180 wakes up
1.1   dyoung 					 * OS when Magic Packet is Rx'd.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG3_CARDBEN	BIT(3)	/* Cardbus-related registers
1.1   dyoung 					 * and functions are enabled,
1.1   dyoung 					 * read-only. XXX RTL8180 only.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG3_CLKRUNEN	BIT(2)	/* CLKRUN enabled, read-only.
1.1   dyoung 					 * XXX RTL8180 only.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG3_FUNCREGEN	BIT(1)	/* Function Registers Enabled,
1.1   dyoung 					 * read-only. XXX RTL8180 only.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG3_FBTBEN	BIT(0)	/* Fast back-to-back enabled,
1.1   dyoung 					 * read-only.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG4	0x5A	/* Configuration Register 4, 8b */
1.1   dyoung #define RTW_CONFIG4_VCOPDN	BIT(7)	/* VCO Power Down
1.1   dyoung 					 * 0: normal operation
1.1   dyoung 					 *    (power-on default)
1.1   dyoung 					 * 1: power-down VCO, RF front-end,
1.1   dyoung 					 *    and most RTL8180 components.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG4_PWROFF	BIT(6)	/* Power Off
1.1   dyoung 					 * 0: normal operation
1.1   dyoung 					 *    (power-on default)
1.1   dyoung 					 * 1: power-down RF front-end,
1.1   dyoung 					 *    and most RTL8180 components,
1.1   dyoung 					 *    but leave VCO on.
1.1   dyoung 					 *
1.1   dyoung 					 * XXX RFMD front-end only?
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG4_PWRMGT	BIT(5)	/* Power Management
1.1   dyoung 					 * 0: normal operation
1.1   dyoung 					 *    (power-on default)
1.1   dyoung 					 * 1: set Tx packet's PWRMGMT bit.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG4_LWPME	BIT(4)	/* LANWAKE vs. PMEB: Cardbus-only
1.1   dyoung 					 * 0: LWAKE & PMEB asserted
1.1   dyoung 					 *    simultaneously
1.1   dyoung 					 * 1: LWAKE asserted only if
1.1   dyoung 					 *    both PMEB is asserted and
1.1   dyoung 					 *    ISOLATEB is low.
1.1   dyoung 					 * XXX RTL8180 only.
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG4_LWPTN	BIT(2)	/* see RTW_CONFIG1_LWACT
1.1   dyoung 					 * XXX RTL8180 only.
1.1   dyoung 					 */
1.1   dyoung /* Radio Front-End Programming Method */
1.1   dyoung #define RTW_CONFIG4_RFTYPE_MASK	BITS(1,0)
1.1   dyoung #define RTW_CONFIG4_RFTYPE_INTERSIL	LSHIFT(1, RTW_CONFIG4_RFTYPE_MASK)
1.1   dyoung #define RTW_CONFIG4_RFTYPE_RFMD		LSHIFT(2, RTW_CONFIG4_RFTYPE_MASK)
1.1   dyoung #define RTW_CONFIG4_RFTYPE_PHILIPS	LSHIFT(3, RTW_CONFIG4_RFTYPE_MASK)
1.1   dyoung
1.1   dyoung #define RTW_TESTR	0x5B	/* TEST mode register, 8b */
1.1   dyoung
1.1   dyoung #define RTW_PSR		0x5e	/* Page Select Register, 8b */
1.1   dyoung #define RTW_PSR_GPO	BIT(7)	/* Control/status of pin 52. */
1.1   dyoung #define RTW_PSR_GPI	BIT(6)	/* Status of pin 64. */
1.1   dyoung #define RTW_PSR_LEDGPO1	BIT(5)	/* Status/control of LED1 pin if
1.1   dyoung 				 * RTW_CONFIG0_LEDGPOEN is set.
1.1   dyoung 				 */
1.1   dyoung #define RTW_PSR_LEDGPO0	BIT(4)	/* Status/control of LED0 pin if
1.1   dyoung 				 * RTW_CONFIG0_LEDGPOEN is set.
1.1   dyoung 				 */
1.1   dyoung #define RTW_PSR_UWF	BIT(1)	/* Enable Unicast Wakeup Frame */
1.1   dyoung #define RTW_PSR_PSEN	BIT(0)	/* 1: page 1, 0: page 0 */
1.1   dyoung
1.1   dyoung #define RTW_SCR		0x5f	/* Security Configuration Register, 8b */
1.1   dyoung #define RTW_SCR_KM_MASK	BITS(5,4)	/* Key Mode */
1.1   dyoung #define RTW_SCR_KM_WEP104	LSHIFT(1, RTW_SCR_KM_MASK)
1.1   dyoung #define RTW_SCR_KM_WEP40	LSHIFT(0, RTW_SCR_KM_MASK)
1.1   dyoung #define RTW_SCR_TXSECON		BIT(1)	/* Enable Tx WEP. Invalid if
1.1   dyoung 					 * neither RTW_CONFIG0_WEP40 nor
1.1   dyoung 					 * RTW_CONFIG0_WEP104 is set.
1.1   dyoung 					 */
1.1   dyoung #define RTW_SCR_RXSECON		BIT(0)	/* Enable Rx WEP. Invalid if
1.1   dyoung 					 * neither RTW_CONFIG0_WEP40 nor
1.1   dyoung 					 * RTW_CONFIG0_WEP104 is set.
1.1   dyoung 					 */
1.1   dyoung
1.1   dyoung #define	RTW_BCNITV	0x70	/* Beacon Interval Register, 16b */
1.3   dyoung #define	RTW_BCNITV_BCNITV_MASK	BITS(9,0)	/* TU between TBTT, written
1.1   dyoung 						 * by host.
1.1   dyoung 						 */
1.1   dyoung #define	RTW_ATIMWND	0x72	/* ATIM Window Register, 16b */
1.1   dyoung #define	RTW_ATIMWND_ATIMWND	BITS(9,0)	/* ATIM Window length in TU,
1.1   dyoung 						 * written by host.
1.1   dyoung 						 */
1.1   dyoung
1.1   dyoung #define RTW_BINTRITV	0x74	/* Beacon Interrupt Interval Register, 16b */
1.1   dyoung #define	RTW_BINTRITV_BINTRITV	BITS(9,0)	/* RTL8180 wakes host with
1.1   dyoung 						 * RTW_INTR_BCNINT at BINTRITV
1.1   dyoung 						 * microseconds before TBTT
1.1   dyoung 						 */
1.1   dyoung #define RTW_ATIMTRITV	0x76	/* ATIM Interrupt Interval Register, 16b */
1.1   dyoung #define	RTW_ATIMTRITV_ATIMTRITV	BITS(9,0)	/* RTL8180 wakes host with
1.1   dyoung 						 * RTW_INTR_ATIMINT at ATIMTRITV
1.1   dyoung 						 * microseconds before end of
1.1   dyoung 						 * ATIM Window
1.1   dyoung 						 */
1.1   dyoung
1.1   dyoung #define RTW_PHYDELAY	0x78	/* PHY Delay Register, 8b */
1.1   dyoung #define RTW_PHYDELAY_REVC_MAGIC	BIT(3)		/* Rev. C magic from reference
1.1   dyoung 						 * driver
1.1   dyoung 						 */
1.1   dyoung #define RTW_PHYDELAY_PHYDELAY	BITS(2,0)	/* microsecond Tx delay between
1.1   dyoung 						 * MAC and RF front-end
1.1   dyoung 						 */
1.1   dyoung #define RTW_CRCOUNT	0x79	/* Carrier Sense Counter, 8b */
1.1   dyoung #define	RTW_CRCOUNT_MAGIC	0x4c
1.1   dyoung
1.1   dyoung #define RTW_CRC16ERR	0x7a	/* CRC16 error count, 16b, XXX RTL8181 only? */
1.1   dyoung
1.1   dyoung #define RTW_BB	0x7c		/* Baseband interface, 32b */
1.1   dyoung /* used for writing RTL8180's integrated baseband processor */
1.1   dyoung #define RTW_BB_RD_MASK		BITS(23,16)	/* data to read */
1.1   dyoung #define RTW_BB_WR_MASK		BITS(15,8)	/* data to write */
1.1   dyoung #define RTW_BB_WREN		BIT(7)		/* write enable */
1.1   dyoung #define RTW_BB_ADDR_MASK	BITS(6,0)	/* address */
1.1   dyoung
1.1   dyoung #define RTW_PHYADDR	0x7c	/* Address register for PHY interface, 8b */
1.1   dyoung #define RTW_PHYDATAW	0x7d	/* Write data to PHY, 8b, write-only */
1.1   dyoung #define RTW_PHYDATAR	0x7e	/* Read data from PHY, 8b (?), read-only */
1.1   dyoung
1.1   dyoung #define RTW_PHYCFG	0x80	/* PHY Configuration Register, 32b */
1.1   dyoung #define RTW_PHYCFG_MAC_POLL	BIT(31)		/* if !RTW_PHYCFG_HST,
1.1   dyoung 						 * host sets. MAC clears
1.1   dyoung 						 * after banging bits.
1.1   dyoung 						 */
1.1   dyoung #define	RTW_PHYCFG_HST		BIT(30)		/* 1: host bangs bits
1.1   dyoung 						 * 0: MAC bangs bits
1.1   dyoung 						 */
1.1   dyoung #define RTW_PHYCFG_MAC_RFTYPE_MASK	BITS(29,28)
1.1   dyoung #define RTW_PHYCFG_MAC_RFTYPE_INTERSIL	LSHIFT(0, RTW_PHYCFG_MAC_RFTYPE_MASK)
1.1   dyoung #define RTW_PHYCFG_MAC_RFTYPE_RFMD	LSHIFT(1, RTW_PHYCFG_MAC_RFTYPE_MASK)
1.1   dyoung #define RTW_PHYCFG_MAC_RFTYPE_GCT	RTW_PHYCFG_MAC_RFTYPE_RFMD
1.1   dyoung #define RTW_PHYCFG_MAC_RFTYPE_PHILIPS	LSHIFT(3, RTW_PHYCFG_MAC_RFTYPE_MASK)
1.1   dyoung #define RTW_PHYCFG_MAC_PHILIPS_ADDR_MASK	BITS(27,24)
1.1   dyoung #define RTW_PHYCFG_MAC_PHILIPS_DATA_MASK	BITS(23,0)
1.1   dyoung #define RTW_PHYCFG_MAC_MAXIM_LODATA_MASK	BITS(27,24)
1.1   dyoung #define RTW_PHYCFG_MAC_MAXIM_ADDR_MASK		BITS(11,8)
1.1   dyoung #define RTW_PHYCFG_MAC_MAXIM_HIDATA_MASK	BITS(7,0)
1.1   dyoung #define	RTW_PHYCFG_HST_EN		BIT(2)
1.1   dyoung #define	RTW_PHYCFG_HST_CLK		BIT(1)
1.1   dyoung #define	RTW_PHYCFG_HST_DATA		BIT(0)
1.1   dyoung
1.1   dyoung #define	RTW_MAXIM_HIDATA_MASK			BITS(11,4)
1.1   dyoung #define	RTW_MAXIM_LODATA_MASK			BITS(3,0)
1.1   dyoung
1.1   dyoung /**
1.1   dyoung  ** 0x84 - 0xD3, page 1, selected when RTW_PSR[PSEN] == 1.
1.1   dyoung  **/
1.1   dyoung
1.1   dyoung #define	RTW_WAKEUP0L	0x84	/* Power Management Wakeup Frame */
1.1   dyoung #define	RTW_WAKEUP0H	0x88	/* 32b */
1.1   dyoung
1.1   dyoung #define	RTW_WAKEUP1L	0x8c
1.1   dyoung #define	RTW_WAKEUP1H	0x90
1.1   dyoung
1.1   dyoung #define	RTW_WAKEUP2LL	0x94
1.1   dyoung #define	RTW_WAKEUP2LH	0x98
1.1   dyoung
1.1   dyoung #define	RTW_WAKEUP2HL	0x9c
1.1   dyoung #define	RTW_WAKEUP2HH	0xa0
1.1   dyoung
1.1   dyoung #define	RTW_WAKEUP3LL	0xa4
1.1   dyoung #define	RTW_WAKEUP3LH	0xa8
1.1   dyoung
1.1   dyoung #define	RTW_WAKEUP3HL	0xac
1.1   dyoung #define	RTW_WAKEUP3HH	0xb0
1.1   dyoung
1.1   dyoung #define	RTW_WAKEUP4LL	0xb4
1.1   dyoung #define	RTW_WAKEUP4LH	0xb8
1.1   dyoung
1.1   dyoung #define	RTW_WAKEUP4HL	0xbc
1.1   dyoung #define	RTW_WAKEUP4HH	0xc0
1.1   dyoung
1.1   dyoung #define RTW_CRC0	0xc4	/* CRC of wakeup frame 0, 16b */
1.1   dyoung #define RTW_CRC1	0xc6	/* CRC of wakeup frame 1, 16b */
1.1   dyoung #define RTW_CRC2	0xc8	/* CRC of wakeup frame 2, 16b */
1.1   dyoung #define RTW_CRC3	0xca	/* CRC of wakeup frame 3, 16b */
1.1   dyoung #define RTW_CRC4	0xcc	/* CRC of wakeup frame 4, 16b */
1.1   dyoung
1.1   dyoung /**
1.1   dyoung  ** 0x84 - 0xD3, page 0, selected when RTW_PSR[PSEN] == 0.
1.1   dyoung  **/
1.1   dyoung
1.1   dyoung /* Default Key Registers, each 128b
1.1   dyoung  *
1.1   dyoung  * If RTW_SCR_KM_WEP104, 104 lsb are the key.
1.1   dyoung  * If RTW_SCR_KM_WEP40, 40 lsb are the key.
1.1   dyoung  */
1.1   dyoung #define RTW_DK0		0x90	/* Default Key 0 Register, 128b */
1.1   dyoung #define RTW_DK1		0xa0	/* Default Key 1 Register, 128b */
1.1   dyoung #define RTW_DK2		0xb0	/* Default Key 2 Register, 128b */
1.1   dyoung #define RTW_DK3		0xc0	/* Default Key 3 Register, 128b */
1.1   dyoung
1.1   dyoung #define	RTW_CONFIG5	0xd8	/* Configuration Register 5, 8b */
1.1   dyoung #define RTW_CONFIG5_TXFIFOOK	BIT(7)	/* Tx FIFO self-test pass, read-only */
1.1   dyoung #define RTW_CONFIG5_RXFIFOOK	BIT(6)	/* Rx FIFO self-test pass, read-only */
1.1   dyoung #define RTW_CONFIG5_CALON	BIT(5)	/* 1: start calibration cycle
1.1   dyoung 					 *    and raise AGCRESET pin.
1.1   dyoung 					 * 0: lower AGCRESET pin
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG5_EACPI	BIT(2)	/* Enable ACPI Wake up, default 0 */
1.1   dyoung #define RTW_CONFIG5_LANWAKE	BIT(1)	/* Enable LAN Wake signal,
1.1   dyoung 					 * from EEPROM
1.1   dyoung 					 */
1.1   dyoung #define RTW_CONFIG5_PMESTS	BIT(0)	/* 1: both software & PCI Reset
1.1   dyoung 					 *    reset PME_Status
1.1   dyoung 					 * 0: only software resets PME_Status
1.1   dyoung 					 *
1.1   dyoung 					 * From EEPROM.
1.1   dyoung 					 */
1.1   dyoung
1.1   dyoung #define	RTW_TPPOLL	0xd9	/* Transmit Priority Polling Register, 8b,
1.1   dyoung 				 * write-only.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_BQ	BIT(7)	/* RTL8180 clears to notify host of a beacon
1.1   dyoung 				 * Tx. Host writes have no effect.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_HPQ	BIT(6)	/* Host writes 1 to notify RTL8180 of
1.1   dyoung 				 * high-priority Tx packets, RTL8180 clears
1.1   dyoung 				 * to after high-priority Tx is complete.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_NPQ	BIT(5)	/* If RTW_CONFIG2_DPS is set,
1.1   dyoung 				 * host writes 1 to notify RTL8180 of
1.1   dyoung 				 * normal-priority Tx packets, RTL8180 clears
1.1   dyoung 				 * after normal-priority Tx is complete.
1.1   dyoung 				 *
1.1   dyoung 				 * If RTW_CONFIG2_DPS is clear, host writes
1.1   dyoung 				 * have no effect. RTL8180 clears after
1.1   dyoung 				 * normal-priority Tx is complete.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_LPQ	BIT(4)	/* Host writes 1 to notify RTL8180 of
1.1   dyoung 				 * low-priority Tx packets, RTL8180 clears
1.1   dyoung 				 * after low-priority Tx is complete.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_SBQ	BIT(3)	/* Host writes 1 to tell RTL8180 to
1.1   dyoung 				 * stop beacon DMA. This bit is invalid
1.1   dyoung 				 * when RTW_CONFIG2_DPS is set.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_SHPQ	BIT(2)	/* Host writes 1 to tell RTL8180 to
1.1   dyoung 				 * stop high-priority DMA.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_SNPQ	BIT(2)	/* Host writes 1 to tell RTL8180 to
1.1   dyoung 				 * stop normal-priority DMA. This bit is invalid
1.1   dyoung 				 * when RTW_CONFIG2_DPS is set.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_SLPQ	BIT(2)	/* Host writes 1 to tell RTL8180 to
1.1   dyoung 				 * stop low-priority DMA.
1.1   dyoung 				 */
1.1   dyoung #define RTW_TPPOLL_FSWINT	BIT(0)	/* Force software interrupt. From
1.1   dyoung 				 	 * reference driver.
1.1   dyoung 					 */
1.1   dyoung
1.1   dyoung
1.1   dyoung #define	RTW_CWR		0xdc	/* Contention Window Register, 16b, read-only */
1.1   dyoung /* Contention Window: indicates number of contention windows before Tx
1.1   dyoung  */
1.1   dyoung #define	RTW_CWR_CW	BITS(9,0)
1.1   dyoung
1.1   dyoung /* Retry Count Register, 16b, read-only */
1.1   dyoung #define	RTW_RETRYCTR	0xde
1.1   dyoung /* Retry Count: indicates number of retries after Tx */
1.1   dyoung #define	RTW_RETRYCTR_RETRYCT	BITS(7,0)
1.1   dyoung
1.1   dyoung #define RTW_RDSAR	0xe4	/* Receive descriptor Start Address Register,
1.1   dyoung 				 * 32b, 256-byte alignment.
1.1   dyoung 				 */
1.1   dyoung /* Function Event Register, 32b, Cardbus only. Only valid when
1.1   dyoung  * both RTW_CONFIG3_CARDBEN and RTW_CONFIG3_FUNCREGEN are set.
1.1   dyoung  */
1.1   dyoung #define RTW_FER		0xf0
1.1   dyoung #define RTW_FER_INTR	BIT(15)	/* set when RTW_FFER_INTR is set */
1.1   dyoung #define RTW_FER_GWAKE	BIT(4)	/* General Wakeup */
1.1   dyoung /* Function Event Mask Register, 32b, Cardbus only. Only valid when
1.1   dyoung  * both RTW_CONFIG3_CARDBEN and RTW_CONFIG3_FUNCREGEN are set.
1.1   dyoung  */
1.1   dyoung #define RTW_FEMR	0xf4
1.1   dyoung #define RTW_FEMR_INTR	BIT(15)	/* set when RTW_FFER_INTR is set */
1.1   dyoung #define RTW_FEMR_WKUP	BIT(14)	/* Wakeup Mask */
1.1   dyoung #define RTW_FEMR_GWAKE	BIT(4)	/* General Wakeup */
1.1   dyoung /* Function Present State Register, 32b, read-only, Cardbus only.
1.1   dyoung  * Only valid when both RTW_CONFIG3_CARDBEN and RTW_CONFIG3_FUNCREGEN
1.1   dyoung  * are set.
1.1   dyoung  */
1.1   dyoung #define RTW_FPSR	0xf8
1.1   dyoung #define RTW_FPSR_INTR	BIT(15)	/* TBD */
1.1   dyoung #define RTW_FPSR_GWAKE	BIT(4)	/* General Wakeup: TBD */
1.1   dyoung /* Function Force Event Register, 32b, write-only, Cardbus only.
1.1   dyoung  * Only valid when both RTW_CONFIG3_CARDBEN and RTW_CONFIG3_FUNCREGEN
1.1   dyoung  * are set.
1.1   dyoung  */
1.1   dyoung #define RTW_FFER	0xfc
1.1   dyoung #define RTW_FFER_INTR	BIT(15)	/* TBD */
1.1   dyoung #define RTW_FFER_GWAKE	BIT(4)	/* General Wakeup: TBD */
1.1   dyoung
1.1   dyoung /* Serial EEPROM offsets */
1.1   dyoung #define RTW_SR_ID	0x00	/* 16b */
1.1   dyoung #define RTW_SR_VID	0x02	/* 16b */
1.1   dyoung #define RTW_SR_DID	0x04	/* 16b */
1.1   dyoung #define RTW_SR_SVID	0x06	/* 16b */
1.1   dyoung #define RTW_SR_SMID	0x08	/* 16b */
1.1   dyoung #define RTW_SR_MNGNT	0x0a
1.1   dyoung #define RTW_SR_MXLAT	0x0b
1.1   dyoung #define RTW_SR_RFCHIPID	0x0c
1.1   dyoung #define RTW_SR_CONFIG3	0x0d
1.1   dyoung #define RTW_SR_MAC	0x0e	/* 6 bytes */
1.1   dyoung #define RTW_SR_CONFIG0	0x14
1.1   dyoung #define RTW_SR_CONFIG1	0x15
1.1   dyoung #define RTW_SR_PMC	0x16	/* Power Management Capabilities, 16b */
1.1   dyoung #define RTW_SR_CONFIG2	0x18
1.1   dyoung #define RTW_SR_CONFIG4	0x19
1.1   dyoung #define RTW_SR_ANAPARM	0x1a	/* Analog Parameters, 32b */
1.1   dyoung #define RTW_SR_TESTR	0x1e
1.1   dyoung #define RTW_SR_CONFIG5	0x1f
1.1   dyoung #define RTW_SR_TXPOWER1		0x20
1.1   dyoung #define RTW_SR_TXPOWER2		0x21
1.1   dyoung #define RTW_SR_TXPOWER3		0x22
1.1   dyoung #define RTW_SR_TXPOWER4		0x23
1.1   dyoung #define RTW_SR_TXPOWER5		0x24
1.1   dyoung #define RTW_SR_TXPOWER6		0x25
1.1   dyoung #define RTW_SR_TXPOWER7		0x26
1.1   dyoung #define RTW_SR_TXPOWER8		0x27
1.1   dyoung #define RTW_SR_TXPOWER9		0x28
1.1   dyoung #define RTW_SR_TXPOWER10	0x29
1.1   dyoung #define RTW_SR_TXPOWER11	0x2a
1.1   dyoung #define RTW_SR_TXPOWER12	0x2b
1.1   dyoung #define RTW_SR_TXPOWER13	0x2c
1.1   dyoung #define RTW_SR_TXPOWER14	0x2d
1.1   dyoung #define RTW_SR_CHANNELPLAN	0x2e	/* bitmap of channels to scan */
1.1   dyoung #define RTW_SR_ENERGYDETTHR	0x2f	/* energy-detect threshold */
1.1   dyoung #define RTW_SR_ENERGYDETTHR_DEFAULT	0x0c	/* use this if old SROM */
1.1   dyoung #define RTW_SR_CISPOINTER	0x30	/* 16b */
1.1   dyoung #define RTW_SR_RFPARM		0x32	/* RF-specific parameter */
1.1   dyoung #define RTW_SR_RFPARM_DIGPHY	BIT(0)		/* 1: digital PHY */
1.1   dyoung #define RTW_SR_RFPARM_DFLANTB	BIT(1)		/* 1: antenna B is default */
1.1   dyoung #define RTW_SR_RFPARM_CS_MASK	BITS(2,3)	/* carrier-sense type */
1.1   dyoung #define RTW_SR_VERSION		0x3c	/* EEPROM content version, 16b */
1.1   dyoung #define RTW_SR_CRC		0x3e	/* EEPROM content CRC, 16b */
1.1   dyoung #define RTW_SR_VPD		0x40	/* Vital Product Data, 64 bytes */
1.1   dyoung #define RTW_SR_CIS		0x80	/* CIS Data, 93c56 only, 128 bytes*/
1.1   dyoung
1.1   dyoung /*
1.1   dyoung  * RTL8180 Transmit/Receive Descriptors
1.1   dyoung  */
1.1   dyoung
1.1   dyoung /* the first descriptor in each ring must be on a 256-byte boundary */
1.1   dyoung #define RTW_DESC_ALIGNMENT 256
1.1   dyoung
1.1   dyoung /* Tx descriptor */
1.1   dyoung struct rtw_txdesc {
1.8   dyoung 	uint32_t	td_ctl0;
1.8   dyoung 	uint32_t	td_ctl1;
1.8   dyoung 	uint32_t	td_buf;
1.8   dyoung 	uint32_t	td_len;
1.8   dyoung 	uint32_t	td_next;
1.8   dyoung 	uint32_t	td_rsvd[3];
1.1   dyoung };
1.1   dyoung
1.6   dyoung #define td_stat td_ctl0
1.1   dyoung
1.1   dyoung #define RTW_TXCTL0_OWN			BIT(31)		/* 1: ready to Tx */
1.1   dyoung #define RTW_TXCTL0_RSVD0		BIT(30)		/* reserved */
1.1   dyoung #define RTW_TXCTL0_FS			BIT(29)		/* first segment */
1.1   dyoung #define RTW_TXCTL0_LS			BIT(28)		/* last segment */
1.1   dyoung
1.1   dyoung #define RTW_TXCTL0_RATE_MASK		BITS(27,24)	/* Tx rate */
1.2   dyoung #define RTW_TXCTL0_RATE_1MBPS		LSHIFT(0, RTW_TXCTL0_RATE_MASK)
1.2   dyoung #define RTW_TXCTL0_RATE_2MBPS		LSHIFT(1, RTW_TXCTL0_RATE_MASK)
1.2   dyoung #define RTW_TXCTL0_RATE_5MBPS		LSHIFT(2, RTW_TXCTL0_RATE_MASK)
1.2   dyoung #define RTW_TXCTL0_RATE_11MBPS		LSHIFT(3, RTW_TXCTL0_RATE_MASK)
1.1   dyoung
1.1   dyoung #define RTW_TXCTL0_RTSEN		BIT(23)		/* RTS Enable */
1.1   dyoung
1.1   dyoung #define RTW_TXCTL0_RTSRATE_MASK		BITS(22,19)	/* Tx rate */
1.2   dyoung #define RTW_TXCTL0_RTSRATE_1MBPS	LSHIFT(0, RTW_TXCTL0_RTSRATE_MASK)
1.2   dyoung #define RTW_TXCTL0_RTSRATE_2MBPS	LSHIFT(1, RTW_TXCTL0_RTSRATE_MASK)
1.2   dyoung #define RTW_TXCTL0_RTSRATE_5MBPS	LSHIFT(2, RTW_TXCTL0_RTSRATE_MASK)
1.2   dyoung #define RTW_TXCTL0_RTSRATE_11MBPS	LSHIFT(3, RTW_TXCTL0_RTSRATE_MASK)
1.1   dyoung
1.1   dyoung #define RTW_TXCTL0_BEACON		BIT(18)	/* packet is a beacon */
1.1   dyoung #define RTW_TXCTL0_MOREFRAG		BIT(17)	/* another fragment follows */
1.1   dyoung #define RTW_TXCTL0_SPLCP		BIT(16)	/* add short PLCP preamble
1.1   dyoung 						 * and header
1.1   dyoung 						 */
1.1   dyoung #define RTW_TXCTL0_KEYID_MASK		BITS(15,14)	/* default key id */
1.1   dyoung #define RTW_TXCTL0_RSVD1_MASK		BITS(13,12)	/* reserved */
1.1   dyoung #define RTW_TXCTL0_TPKTSIZE_MASK	BITS(11,0)	/* Tx packet size
1.1   dyoung 							 * in bytes
1.1   dyoung 							 */
1.1   dyoung
1.2   dyoung #define RTW_TXSTAT_OWN		RTW_TXCTL0_OWN
1.2   dyoung #define RTW_TXSTAT_RSVD0	RTW_TXCTL0_RSVD0
1.2   dyoung #define RTW_TXSTAT_FS		RTW_TXCTL0_FS
1.2   dyoung #define RTW_TXSTAT_LS		RTW_TXCTL0_LS
1.1   dyoung #define RTW_TXSTAT_RSVD1_MASK	BITS(27,16)
1.1   dyoung #define RTW_TXSTAT_TOK		BIT(15)
1.1   dyoung #define RTW_TXSTAT_RTSRETRY_MASK	BITS(14,8)	/* RTS retry count */
1.1   dyoung #define RTW_TXSTAT_DRC_MASK		BITS(7,0)	/* Data retry count */
1.1   dyoung
1.1   dyoung #define RTW_TXCTL1_LENGEXT	BIT(31)		/* supplements _LENGTH
1.1   dyoung 						 * in packets sent 5.5Mb/s or
1.1   dyoung 						 * faster
1.1   dyoung 						 */
1.1   dyoung #define RTW_TXCTL1_LENGTH_MASK	BITS(30,16)	/* PLCP length (microseconds) */
1.1   dyoung #define RTW_TXCTL1_RTSDUR_MASK	BITS(15,0)	/* RTS Duration
1.1   dyoung 						 * (microseconds)
1.1   dyoung 						 */
1.1   dyoung
1.1   dyoung #define RTW_TXLEN_LENGTH_MASK	BITS(11,0)	/* Tx buffer length in bytes */
1.1   dyoung
1.1   dyoung /* Rx descriptor */
1.1   dyoung struct rtw_rxdesc {
1.8   dyoung     uint32_t	rd_ctl;
1.8   dyoung     uint32_t	rd_rsvd0;
1.8   dyoung     uint32_t	rd_buf;
1.8   dyoung     uint32_t	rd_rsvd1;
1.1   dyoung };
1.1   dyoung
1.6   dyoung #define rd_stat rd_ctl
1.6   dyoung #define rd_rssi rd_rsvd0
1.6   dyoung #define rd_tsftl rd_buf		/* valid only when RTW_RXSTAT_LS is set */
1.6   dyoung #define rd_tsfth rd_rsvd1	/* valid only when RTW_RXSTAT_LS is set */
1.1   dyoung
1.1   dyoung #define RTW_RXCTL_OWN		BIT(31)		/* 1: owned by NIC */
1.1   dyoung #define RTW_RXCTL_EOR		BIT(30)		/* end of ring */
1.1   dyoung #define RTW_RXCTL_FS		BIT(29)		/* first segment */
1.1   dyoung #define RTW_RXCTL_LS		BIT(28)		/* last segment */
1.1   dyoung #define RTW_RXCTL_RSVD0_MASK	BITS(29,12)	/* reserved */
1.1   dyoung #define RTW_RXCTL_LENGTH_MASK	BITS(11,0)	/* Rx buffer length */
1.1   dyoung
1.1   dyoung #define RTW_RXSTAT_OWN		RTW_RXCTL_OWN
1.1   dyoung #define RTW_RXSTAT_EOR		RTW_RXCTL_EOR
1.1   dyoung #define RTW_RXSTAT_FS		RTW_RXCTL_FS	/* first segment */
1.1   dyoung #define RTW_RXSTAT_LS		RTW_RXCTL_LS	/* last segment */
1.1   dyoung #define RTW_RXSTAT_DMAFAIL	BIT(27)		/* DMA failure on this pkt */
1.1   dyoung #define RTW_RXSTAT_BOVF		BIT(26)		/* buffer overflow XXX means
1.1   dyoung 						 * FIFO exhausted?
1.1   dyoung 						 */
1.1   dyoung #define RTW_RXSTAT_SPLCP	BIT(25)		/* Rx'd with short preamble
1.1   dyoung 						 * and PLCP header
1.1   dyoung 						 */
1.1   dyoung #define RTW_RXSTAT_RSVD1	BIT(24)		/* reserved */
1.1   dyoung #define RTW_RXSTAT_RATE_MASK	BITS(23,20)	/* Rx rate */
1.1   dyoung #define RTW_RXSTAT_RATE_1MBPS	LSHIFT(0, RTW_RXSTAT_RATE_MASK)
1.1   dyoung #define RTW_RXSTAT_RATE_2MBPS	LSHIFT(1, RTW_RXSTAT_RATE_MASK)
1.1   dyoung #define RTW_RXSTAT_RATE_5MBPS	LSHIFT(2, RTW_RXSTAT_RATE_MASK)
1.1   dyoung #define RTW_RXSTAT_RATE_11MBPS	LSHIFT(3, RTW_RXSTAT_RATE_MASK)
1.1   dyoung #define RTW_RXSTAT_MIC		BIT(19)		/* XXX from reference driver */
1.1   dyoung #define RTW_RXSTAT_MAR		BIT(18)		/* is multicast */
1.1   dyoung #define RTW_RXSTAT_PAR		BIT(17)		/* matches RTL8180's MAC */
1.1   dyoung #define RTW_RXSTAT_BAR		BIT(16)		/* is broadcast */
1.1   dyoung #define RTW_RXSTAT_RES		BIT(15)		/* error summary. valid when
1.1   dyoung 						 * RTW_RXSTAT_LS set. indicates
1.1   dyoung 						 * that either RTW_RXSTAT_CRC32
1.1   dyoung 						 * or RTW_RXSTAT_ICV is set.
1.1   dyoung 						 */
1.1   dyoung #define RTW_RXSTAT_PWRMGT	BIT(14)		/* 802.11 PWRMGMT bit is set */
1.1   dyoung #define RTW_RXSTAT_CRC16	BIT(14)		/* XXX CRC16 error, from
1.1   dyoung 						 * reference driver
1.1   dyoung 						 */
1.1   dyoung #define RTW_RXSTAT_CRC32	BIT(13)		/* CRC32 error */
1.1   dyoung #define RTW_RXSTAT_ICV		BIT(12)		/* ICV error */
1.1   dyoung #define RTW_RXSTAT_LENGTH_MASK	BITS(11,0)	/* frame length, including
1.1   dyoung 						 * CRC32
1.1   dyoung 						 */
1.1   dyoung
1.1   dyoung /* Convenient status conjunction. */
1.1   dyoung #define RTW_RXSTAT_ONESEG	(RTW_RXSTAT_FS|RTW_RXSTAT_LS)
1.1   dyoung /* Convenient status disjunctions. */
1.1   dyoung #define RTW_RXSTAT_IOERROR	(RTW_RXSTAT_DMAFAIL|RTW_RXSTAT_BOVF)
1.1   dyoung #define RTW_RXSTAT_DEBUG	(RTW_RXSTAT_SPLCP|RTW_RXSTAT_MAR|\
1.1   dyoung 				 RTW_RXSTAT_PAR|RTW_RXSTAT_BAR|\
1.1   dyoung 				 RTW_RXSTAT_PWRMGT|RTW_RXSTAT_CRC32|\
1.1   dyoung 				 RTW_RXSTAT_ICV)
1.1   dyoung
1.1   dyoung
1.1   dyoung #define RTW_RXRSSI_VLAN		BITS(32,16)	/* XXX from reference driver */
1.1   dyoung /* for Philips RF front-ends */
1.1   dyoung #define RTW_RXRSSI_RSSI		BITS(15,8)	/* RF energy at the PHY */
1.1   dyoung /* for RF front-ends by Intersil, Maxim, RFMD */
1.1   dyoung #define RTW_RXRSSI_IMR_RSSI	BITS(15,9)	/* RF energy at the PHY */
1.1   dyoung #define RTW_RXRSSI_IMR_LNA	BIT(8)		/* 1: LNA activated */
1.1   dyoung #define RTW_RXRSSI_SQ		BITS(7,0)	/* Barker code-lock quality */
1.1   dyoung
1.1   dyoung #define RTW_READ8(regs, ofs)						\
1.1   dyoung 	bus_space_read_1((regs)->r_bt, (regs)->r_bh, (ofs))
1.1   dyoung
1.1   dyoung #define RTW_READ16(regs, ofs)						\
1.1   dyoung 	bus_space_read_2((regs)->r_bt, (regs)->r_bh, (ofs))
1.1   dyoung
1.1   dyoung #define RTW_READ(regs, ofs)						\
1.1   dyoung 	bus_space_read_4((regs)->r_bt, (regs)->r_bh, (ofs))
1.1   dyoung
1.1   dyoung #define RTW_WRITE8(regs, ofs, val)					\
1.1   dyoung 	bus_space_write_1((regs)->r_bt, (regs)->r_bh, (ofs), (val))
1.1   dyoung
1.1   dyoung #define RTW_WRITE16(regs, ofs, val)					\
1.1   dyoung 	bus_space_write_2((regs)->r_bt, (regs)->r_bh, (ofs), (val))
1.1   dyoung
1.1   dyoung #define RTW_WRITE(regs, ofs, val)					\
1.1   dyoung 	bus_space_write_4((regs)->r_bt, (regs)->r_bh, (ofs), (val))
1.1   dyoung
1.1   dyoung #define	RTW_ISSET(regs, reg, mask)					\
1.1   dyoung 	(RTW_READ((regs), (reg)) & (mask))
1.1   dyoung
1.1   dyoung #define	RTW_CLR(regs, reg, mask)					\
1.1   dyoung 	RTW_WRITE((regs), (reg), RTW_READ((regs), (reg)) & ~(mask))
1.1   dyoung
1.1   dyoung /* bus_space(9) lied? */
1.1   dyoung #ifndef BUS_SPACE_BARRIER_SYNC
1.1   dyoung #define BUS_SPACE_BARRIER_SYNC (BUS_SPACE_BARRIER_READ|BUS_SPACE_BARRIER_WRITE)
1.1   dyoung #endif
1.1   dyoung
1.1   dyoung #ifndef BUS_SPACE_BARRIER_READ_BEFORE_READ
1.1   dyoung #define BUS_SPACE_BARRIER_READ_BEFORE_READ BUS_SPACE_BARRIER_READ
1.1   dyoung #endif
1.1   dyoung
1.1   dyoung #ifndef BUS_SPACE_BARRIER_READ_BEFORE_WRITE
1.1   dyoung #define BUS_SPACE_BARRIER_READ_BEFORE_WRITE BUS_SPACE_BARRIER_READ
1.1   dyoung #endif
1.1   dyoung
1.1   dyoung #ifndef BUS_SPACE_BARRIER_WRITE_BEFORE_READ
1.1   dyoung #define BUS_SPACE_BARRIER_WRITE_BEFORE_READ BUS_SPACE_BARRIER_WRITE
1.1   dyoung #endif
1.1   dyoung
1.1   dyoung #ifndef BUS_SPACE_BARRIER_WRITE_BEFORE_WRITE
1.1   dyoung #define BUS_SPACE_BARRIER_WRITE_BEFORE_WRITE BUS_SPACE_BARRIER_WRITE
1.1   dyoung #endif
1.1   dyoung
1.1   dyoung /*
1.1   dyoung  * Bus barrier
1.1   dyoung  *
1.1   dyoung  * Complete outstanding read and/or write ops on [reg0, reg1]
1.1   dyoung  * ([reg1, reg0]) before starting new ops on the same region. See
1.1   dyoung  * acceptable bus_space_barrier(9) for the flag definitions.
1.1   dyoung  */
1.1   dyoung #define RTW_BARRIER(regs, reg0, reg1, flags)			\
1.1   dyoung 	bus_space_barrier((regs)->r_bh, (regs)->r_bt,		\
1.1   dyoung 	    MIN(reg0, reg1), MAX(reg0, reg1) - MIN(reg0, reg1) + 4, flags)
1.1   dyoung
1.1   dyoung /*
1.1   dyoung  * Barrier convenience macros.
1.1   dyoung  */
1.1   dyoung /* sync */
1.1   dyoung #define RTW_SYNC(regs, reg0, reg1)				\
1.1   dyoung 	RTW_BARRIER(regs, reg0, reg1, BUS_SPACE_BARRIER_SYNC)
1.1   dyoung
1.1   dyoung /* write-before-write */
1.1   dyoung #define RTW_WBW(regs, reg0, reg1)				\
1.1   dyoung 	RTW_BARRIER(regs, reg0, reg1, BUS_SPACE_BARRIER_WRITE_BEFORE_WRITE)
1.1   dyoung
1.1   dyoung /* write-before-read */
1.1   dyoung #define RTW_WBR(regs, reg0, reg1)				\
1.1   dyoung 	RTW_BARRIER(regs, reg0, reg1, BUS_SPACE_BARRIER_WRITE_BEFORE_READ)
1.1   dyoung
1.1   dyoung /* read-before-read */
1.1   dyoung #define RTW_RBR(regs, reg0, reg1)				\
1.1   dyoung 	RTW_BARRIER(regs, reg0, reg1, BUS_SPACE_BARRIER_READ_BEFORE_READ)
1.1   dyoung
1.1   dyoung /* read-before-read */
1.1   dyoung #define RTW_RBW(regs, reg0, reg1)				\
1.1   dyoung 	RTW_BARRIER(regs, reg0, reg1, BUS_SPACE_BARRIER_READ_BEFORE_WRITE)
1.1   dyoung
1.1   dyoung #define RTW_WBRW(regs, reg0, reg1)				\
1.1   dyoung 		RTW_BARRIER(regs, reg0, reg1,			\
1.1   dyoung 		    BUS_SPACE_BARRIER_WRITE_BEFORE_READ |	\
1.1   dyoung 		    BUS_SPACE_BARRIER_WRITE_BEFORE_WRITE)
1.1   dyoung
1.1   dyoung /*
1.1   dyoung  * Registers for RTL8180L's built-in baseband modem.
1.1   dyoung  */
1.1   dyoung #define RTW_BBP_SYS1		0x00
1.1   dyoung #define RTW_BBP_TXAGC		0x03
1.1   dyoung #define RTW_BBP_LNADET		0x04
1.1   dyoung #define RTW_BBP_IFAGCINI	0x05
1.1   dyoung #define RTW_BBP_IFAGCLIMIT	0x06
1.1   dyoung #define RTW_BBP_IFAGCDET	0x07
1.1   dyoung
1.1   dyoung #define RTW_BBP_ANTATTEN	0x10
1.1   dyoung #define RTW_BBP_ANTATTEN_PHILIPS_MAGIC		0x91
1.1   dyoung #define RTW_BBP_ANTATTEN_INTERSIL_MAGIC		0x92
1.1   dyoung #define RTW_BBP_ANTATTEN_RFMD_MAGIC		0x93
1.1   dyoung #define RTW_BBP_ANTATTEN_MAXIM_MAGIC		0xb3
1.1   dyoung #define	RTW_BBP_ANTATTEN_DFLANTB		0x40
1.1   dyoung #define	RTW_BBP_ANTATTEN_CHAN14			0x0c
1.1   dyoung
1.1   dyoung #define RTW_BBP_TRL			0x11
1.1   dyoung #define RTW_BBP_SYS2			0x12
1.1   dyoung #define RTW_BBP_SYS2_ANTDIV		0x80	/* enable antenna diversity */
1.1   dyoung #define RTW_BBP_SYS2_RATE_MASK		BITS(5,4)	/* loopback rate?
1.1   dyoung 							 * 0: 1Mbps
1.1   dyoung 							 * 1: 2Mbps
1.1   dyoung 							 * 2: 5.5Mbps
1.1   dyoung 							 * 3: 11Mbps
1.1   dyoung 							 */
1.1   dyoung #define RTW_BBP_SYS3			0x13
1.1   dyoung /* carrier-sense threshold */
1.1   dyoung #define RTW_BBP_SYS3_CSTHRESH_MASK	BITS(0,3)
1.1   dyoung #define RTW_BBP_CHESTLIM	0x19
1.1   dyoung #define RTW_BBP_CHSQLIM		0x1a
1.1   dyoung