dev/marvell/gtmpscreg.h

1.5     joerg /*	$NetBSD: gtmpscreg.h,v 1.5 2016/01/15 12:09:15 joerg Exp $	*/
1.1      matt
1.1      matt /*
1.1      matt  * Copyright (c) 2002 Allegro Networks, Inc., Wasabi Systems, Inc.
1.1      matt  * All rights reserved.
1.1      matt  *
1.1      matt  * Redistribution and use in source and binary forms, with or without
1.1      matt  * modification, are permitted provided that the following conditions
1.1      matt  * are met:
1.1      matt  * 1. Redistributions of source code must retain the above copyright
1.1      matt  *    notice, this list of conditions and the following disclaimer.
1.1      matt  * 2. Redistributions in binary form must reproduce the above copyright
1.1      matt  *    notice, this list of conditions and the following disclaimer in the
1.1      matt  *    documentation and/or other materials provided with the distribution.
1.1      matt  * 3. All advertising materials mentioning features or use of this software
1.1      matt  *    must display the following acknowledgement:
1.1      matt  *      This product includes software developed for the NetBSD Project by
1.1      matt  *      Allegro Networks, Inc., and Wasabi Systems, Inc.
1.1      matt  * 4. The name of Allegro Networks, Inc. may not be used to endorse
1.1      matt  *    or promote products derived from this software without specific prior
1.1      matt  *    written permission.
1.1      matt  * 5. The name of Wasabi Systems, Inc. may not be used to endorse
1.1      matt  *    or promote products derived from this software without specific prior
1.1      matt  *    written permission.
1.1      matt  *
1.1      matt  * THIS SOFTWARE IS PROVIDED BY ALLEGRO NETWORKS, INC. AND
1.1      matt  * WASABI SYSTEMS, INC. ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
1.1      matt  * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
1.1      matt  * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1      matt  * IN NO EVENT SHALL EITHER ALLEGRO NETWORKS, INC. OR WASABI SYSTEMS, INC.
1.1      matt  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1      matt  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1      matt  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1      matt  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1      matt  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1      matt  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1      matt  * POSSIBILITY OF SUCH DAMAGE.
1.1      matt  */
1.1      matt
1.1      matt /*
1.1      matt  * gtmpscreg.h - register defines for GT-64260 MPSC
1.1      matt  *
1.1      matt  * creation	Sun Apr  8 11:49:57 PDT 2001	cliff
1.1      matt  */
1.1      matt
1.1      matt #ifndef _GTMPSCREG_H
1.1      matt #define _GTMPSCREG_H
1.1      matt
1.4  kiyohara #define GTMPSC_BASE(u)	(MPSC0_BASE + ((u) << 12))
1.4  kiyohara #define GTMPSC_SIZE	0x1000
1.4  kiyohara
1.4  kiyohara #define GTMPSC_NCHAN	2		/* Number of MPSC channels */
1.1      matt
1.1      matt /*******************************************************************************
1.1      matt  *
1.1      matt  * MPSC register address offsets relative to the base mapping
1.1      matt  */
1.4  kiyohara #define GTMPSC_MMCR_LO	0x000		/* MPSC Main Config Register Low */
1.4  kiyohara #define GTMPSC_MMCR_HI	0x004		/* MPSC Main Config Register High */
1.4  kiyohara #define GTMPSC_MPCR	0x008		/* MPSC Protocol Config Register */
1.4  kiyohara #define GTMPSC_CHR_BASE	0x008		/* MPSC Channel Register Base */
1.4  kiyohara #define GTMPSC_CHRN(n)	(GTMPSC_CHR_BASE + ((n) << 2))
1.4  kiyohara #define GTMPSC_NCHR	11		/* CHR 1-11? */
1.4  kiyohara
1.1      matt #define GTMPSC_MRR	0xb400		/* MPSC Routing Register */
1.1      matt #define GTMPSC_RCRR	0xb404		/* MPSC RX Clock Routing Register */
1.1      matt #define GTMPSC_TCRR	0xb408		/* MPSC TX Clock Routing Register */
1.4  kiyohara
1.1      matt
1.1      matt /*******************************************************************************
1.1      matt  *
1.1      matt  * MPSC register values & bit defines
1.1      matt  *
1.1      matt  *	values are provided for UART mode only
1.1      matt  */
1.1      matt /*
1.1      matt  * MPSC Routing Register bits
1.1      matt  */
1.1      matt #define GTMPSC_MRR_PORT0	0		/* serial port #0 */
1.1      matt #define GTMPSC_MRR_NONE		7		/* unconnected */
1.1      matt 						/* all other "routes" resvd. */
1.5     joerg #define GTMPSC_MRR_MR0_MASK	__BITS(2,0)	/* routing mask for MPSC0 */
1.5     joerg #define GTMPSC_MRR_RESa		__BITS(5,3)
1.5     joerg #define GTMPSC_MRR_MR1_MASK	__BITS(8,6)	/* routing mask for MPSC1 */
1.5     joerg #define GTMPSC_MRR_RESb		__BITS(30,9)
1.5     joerg #define GTMPSC_MRRE_DSC		__BIT(31)	/* "Don't Stop Clock" */
1.1      matt #define GTMPSC_MRR_RES (GTMPSC_MRR_RESa|GTMPSC_MRR_RESb)
1.1      matt /*
1.1      matt  * MPSC Clock Routing Register bits
1.1      matt  * the bitfields and route definitions are common for RCRR and TCRR
1.1      matt  * except for MPSC_TCRR_TSCLK0
1.1      matt  */
1.1      matt #define GTMPSC_CRR_BRG0		0x0		/* Baud Rate Generator #0 */
1.1      matt #define GTMPSC_CRR_BRG1		0x1		/* Baud Rate Generator #1 */
1.1      matt #define GTMPSC_CRR_BRG2		0x2		/* Baud Rate Generator #2 */
1.1      matt #define GTMPSC_CRR_SCLK0	0x8		/* SCLK0 */
1.1      matt #define GTMPSC_TCRR_TSCLK0	0x9		/* TSCLK0 (for TCRR only) */
1.1      matt 						/* all other values resvd. */
1.4  kiyohara #define GTMPSC_CRR(u, v)	((v) << GTMPSC_CRR_SHIFT(u))
1.4  kiyohara #define GTMPSC_CRR_SHIFT(u)	((u) * 8)
1.4  kiyohara #define GTMPSC_CRR_MASK		0xf
1.5     joerg #define GTMPSC_CRR_RESa		__BITS(7,4)
1.5     joerg #define GTMPSC_CRR_RESb		__BITS(31,12)
1.1      matt #define GTMPSC_CRR_RES (GTMPSC_CRR_RESa|GTMPSC_CRR_RESb)
1.1      matt /*
1.1      matt  * MPSC Main Configuration Register LO bits
1.1      matt  */
1.5     joerg #define GTMPSC_MMCR_LO_MODE_MASK __BITS(2,0)
1.1      matt #define GTMPSC_MMCR_LO_MODE_UART (0x4 << 0)	/* UART mode */
1.5     joerg #define GTMPSC_MMCR_LO_TTX	 __BIT(3)	/* Transparent TX */
1.5     joerg #define GTMPSC_MMCR_LO_TRX	 __BIT(4)	/* Transparent RX */
1.5     joerg #define GTMPSC_MMCR_LO_RESa	 __BIT(5)
1.5     joerg #define GTMPSC_MMCR_LO_ET	 __BIT(6)	/* Enable TX */
1.5     joerg #define GTMPSC_MMCR_LO_ER	 __BIT(7)	/* Enable RX */
1.5     joerg #define GTMPSC_MMCR_LO_LPBK_MASK __BITS(9,8)	/* Loop Back */
1.1      matt #define GTMPSC_MMCR_LO_LPBK_NONE (0 << 8)	/* Normal (non-loop) */
1.1      matt #define GTMPSC_MMCR_LO_LPBK_LOOP (1 << 8)	/* Loop Back */
1.1      matt #define GTMPSC_MMCR_LO_LPBK_ECHO (2 << 8)	/* Echo */
1.1      matt #define GTMPSC_MMCR_LO_LPBK_LBE	(3 << 8)	/* Loop Back and Echo */
1.5     joerg #define GTMPSC_MMCR_LO_NLM	__BIT(10)	/* Null Modem */
1.5     joerg #define GTMPSC_MMCR_LO_RESb	__BIT(11)
1.5     joerg #define GTMPSC_MMCR_LO_TSYN	__BIT(12)	/* Transmitter sync to Rcvr. */
1.5     joerg #define GTMPSC_MMCR_LO_RESc	__BIT(13)
1.5     joerg #define GTMPSC_MMCR_LO_TSNS_MASK __BITS(15,14)	/* Transmit Sense */
1.1      matt #define GTMPSC_MMCR_LO_TSNS_INF	(0 << 14)	/* Infinite */
1.5     joerg #define GTMPSC_MMCR_LO_TIDL	__BIT(16)	/* TX Idles */
1.5     joerg #define GTMPSC_MMCR_LO_RTSM	__BIT(17)	/* RTS Mode */
1.5     joerg #define GTMPSC_MMCR_LO_RESd	__BIT(18)
1.5     joerg #define GTMPSC_MMCR_LO_CTSS	__BIT(19)	/* CTS Sampling mode */
1.5     joerg #define GTMPSC_MMCR_LO_CDS	__BIT(20)	/* CD Sampling mode */
1.5     joerg #define GTMPSC_MMCR_LO_CTSM	__BIT(21)	/* CTS operating Mode */
1.5     joerg #define GTMPSC_MMCR_LO_CDM	__BIT(22)	/* CD operating Mode */
1.5     joerg #define GTMPSC_MMCR_LO_CRCM_MASK __BITS(25,23)	/* CRC Mode */
1.1      matt #define GTMPSC_MMCR_LO_CRCM_NONE (0 << 23)	/* CRC Mode */
1.5     joerg #define GTMPSC_MMCR_LO_RESe	__BITS(27,26)
1.5     joerg #define GTMPSC_MMCR_LO_TRVD	__BIT(28)	/* Transmit Reverse Data */
1.5     joerg #define GTMPSC_MMCR_LO_RRVD	__BIT(29)	/* Receive  Reverse Data */
1.5     joerg #define GTMPSC_MMCR_LO_RESf	__BIT(30)
1.5     joerg #define GTMPSC_MMCR_LO_GDE	__BIT(31)	/* Glitch Detect Enable */
1.1      matt #define GTMPSC_MMCR_LO_RES \
1.1      matt 		(GTMPSC_MMCR_LO_RESa|GTMPSC_MMCR_LO_RESb|GTMPSC_MMCR_LO_RESc \
1.1      matt 		|GTMPSC_MMCR_LO_RESd|GTMPSC_MMCR_LO_RESe|GTMPSC_MMCR_LO_RESf)
1.1      matt /*
1.1      matt  * MPSC Main Configuration Register HI bits
1.1      matt  */
1.5     joerg #define GTMPSC_MMCR_HI_TCI	 __BIT(0)	/* TX Clock Invert */
1.5     joerg #define GTMPSC_MMCR_HI_TINV	 __BIT(1)	/* TX Bitstream Inversion */
1.5     joerg #define GTMPSC_MMCR_HI_TPL	 __BITS(4,2)	/* TX Preable Length */
1.1      matt #define GTMPSC_MMCR_HI_TPL_NONE	 0		/* no TX Preable (default) */
1.1      matt #define GTMPSC_MMCR_HI_TPL_16	 (6 << 2)	/* 16 byte preamble */
1.5     joerg #define GTMPSC_MMCR_HI_TPPT_MASK __BITS(8,5)	/* TX Preable Pattern */
1.1      matt #define GTMPSC_MMCR_HI_TPPT_NONE (0 << 5)	/* TX Preable Pattern */
1.5     joerg #define GTMPSC_MMCR_HI_TCDV_MASK __BITS(10,9)	/* TX Clock Divide */
1.1      matt #define GTMPSC_MMCR_HI_TCDV_1X	 (0 << 9)	/* 1x clock mode */
1.1      matt #define GTMPSC_MMCR_HI_TCDV_8X	 (1 << 9)	/* 8x clock mode */
1.1      matt #define GTMPSC_MMCR_HI_TCDV_16X	 (2 << 9)	/* 16x clock mode */
1.1      matt #define GTMPSC_MMCR_HI_TCDV_32X	 (3 << 9)	/* 32x clock mode */
1.5     joerg #define GTMPSC_MMCR_HI_TDEC_MASK __BITS(13,11)	/* TX Encoder */
1.1      matt #define GTMPSC_MMCR_HI_TDEC_NRZ	 (0 << 9)	/* NRZ (default) */
1.1      matt #define GTMPSC_MMCR_HI_TDEC_NRZI (1 << 9)	/* NRZI (mark) */
1.1      matt #define GTMPSC_MMCR_HI_TDEC_FM0	 (2 << 9)	/* FM0 */
1.1      matt #define GTMPSC_MMCR_HI_TDEC_MAN	 (4 << 9)	/* Manchester */
1.1      matt #define GTMPSC_MMCR_HI_TDEC_DMAN (6 << 9)	/* Differential Manchester */
1.1      matt 						/* all other values rsvd. */
1.5     joerg #define GTMPSC_MMCR_HI_RESa	__BITS(15,14)
1.5     joerg #define GTMPSC_MMCR_HI_RINV	__BIT(16)	/* RX Bitstream Inversion */
1.5     joerg #define GTMPSC_MMCR_HI_GDW	__BITS(20,17)	/* Clock Glitch Width */
1.5     joerg #define GTMPSC_MMCR_HI_RESb	__BIT(21)
1.5     joerg #define GTMPSC_MMCR_HI_RDW	__BIT(22)	/* Reveive Data Width */
1.5     joerg #define GTMPSC_MMCR_HI_RSYL_MASK  __BITS(24,23)	/* Reveive Sync Width */
1.1      matt #define GTMPSC_MMCR_HI_RSYL_EXT	  (0 << 23)	/* External sync */
1.1      matt #define GTMPSC_MMCR_HI_RSYL_4BIT  (1 << 23)	/* 4-bit sync */
1.1      matt #define GTMPSC_MMCR_HI_RSYL_8BIT  (2 << 23)	/* 8-bit sync */
1.1      matt #define GTMPSC_MMCR_HI_RSYL_16BIT (3 << 23)	/* 16-bit sync */
1.5     joerg #define GTMPSC_MMCR_HI_RCDV_MASK __BITS(26,25)	/* Receive Clock Divider */
1.4  kiyohara #define GTMPSC_MMCR_HI_RCDV_1X   (0 << 25)	/* 1x clock mode (default) */
1.4  kiyohara #define GTMPSC_MMCR_HI_RCDV_8X   (1 << 25)	/* 8x clock mode (default) */
1.4  kiyohara #define GTMPSC_MMCR_HI_RCDV_16X  (2 << 25)	/* 16x clock mode (default) */
1.4  kiyohara #define GTMPSC_MMCR_HI_RCDV_32X  (3 << 25)	/* 16x clock mode (default) */
1.5     joerg #define GTMPSC_MMCR_HI_RENC_MASK __BITS(29,27)	/* Receive Encoder */
1.1      matt #define GTMPSC_MMCR_HI_RENC_NRZ	(0 << 27)	/* NRZ (default) */
1.1      matt #define GTMPSC_MMCR_HI_RENC_NRZI (1 << 27)	/* NRZI */
1.1      matt #define GTMPSC_MMCR_HI_RENC_FM0	(2 << 27)	/* FM0 */
1.1      matt #define GTMPSC_MMCR_HI_RENC_MAN	(4 << 27)	/* Manchester */
1.1      matt #define GTMPSC_MMCR_HI_RENC_DMAN (6 << 27)	/* Differential Manchester */
1.1      matt 						/* all other values rsvd. */
1.5     joerg #define GTMPSC_MMCR_HI_SEDG_MASK __BITS(31,30)	/* Sync Clock Edge */
1.1      matt #define GTMPSC_MMCR_HI_SEDG_BOTH (0 << 30)	/* rising and falling (dflt) */
1.1      matt #define GTMPSC_MMCR_HI_SEDG_RISE (1 << 30)	/* rising edge */
1.1      matt #define GTMPSC_MMCR_HI_SEDG_FALL (2 << 30)	/* falling edge */
1.1      matt #define GTMPSC_MMCR_HI_SEDG_NONE (3 << 30)	/* no adjustment */
1.1      matt /*
1.1      matt  * SDMAx Command/Status Register bits for UART Mode, RX
1.1      matt  *
1.1      matt  * XXX these belong in sdmareg.h ?
1.1      matt  */
1.5     joerg #define SDMA_CSR_RX_PE		__BIT(0)	/* Parity Error */
1.5     joerg #define SDMA_CSR_RX_CDL		__BIT(1)	/* Carrier Detect Loss */
1.5     joerg #define SDMA_CSR_RX_RESa	__BIT(2)
1.5     joerg #define SDMA_CSR_RX_FR		__BIT(3)	/* Framing Error */
1.5     joerg #define SDMA_CSR_RX_RESb	__BITS(5,4)
1.5     joerg #define SDMA_CSR_RX_OR		__BIT(6)	/* Data Overrun */
1.5     joerg #define SDMA_CSR_RX_RESc	__BITS(8,7)
1.5     joerg #define SDMA_CSR_RX_BR		__BIT(9)	/* Break Received */
1.5     joerg #define SDMA_CSR_RX_MI		__BIT(10)	/* Max Idle */
1.5     joerg #define SDMA_CSR_RX_ADDR	__BIT(11)	/* Address */
1.5     joerg #define SDMA_CSR_RX_AMATCH	__BIT(12)	/* Address match */
1.5     joerg #define SDMA_CSR_RX_CT		__BIT(13)	/* Transparency Control char */
1.5     joerg #define SDMA_CSR_RX_C		__BIT(14)	/* Control char */
1.5     joerg #define SDMA_CSR_RX_ES		__BIT(15)	/* Error Summary */
1.5     joerg #define SDMA_CSR_RX_L		__BIT(16)	/* Last */
1.5     joerg #define SDMA_CSR_RX_F		__BIT(17)	/* First */
1.5     joerg #define SDMA_CSR_RX_RESd	__BITS(22,18)
1.5     joerg #define SDMA_CSR_RX_EI		__BIT(23)	/* Enable Interrupt */
1.5     joerg #define SDMA_CSR_RX_RESe	__BITS(29,24)
1.5     joerg #define SDMA_CSR_RX_AUTO	__BIT(30)	/* Auto Mode */
1.5     joerg #define SDMA_CSR_RX_OWN		__BIT(31)	/* Owner */
1.1      matt #define SDMA_CSR_RX_RES (SDMA_CSR_RX_RESa|SDMA_CSR_RX_RESb|SDMA_CSR_RX_RESc \
1.1      matt 			 |SDMA_CSR_RX_RESd|SDMA_CSR_RX_RESe)
1.1      matt /*
1.1      matt  * SDMAx Command/Status Register bits for UART Mode, TX
1.1      matt  */
1.5     joerg #define SDMA_CSR_TX_RESa	__BIT(0)
1.5     joerg #define SDMA_CSR_TX_CTSL	__BIT(1)	/* CTS Loss */
1.5     joerg #define SDMA_CSR_TX_RESb	__BITS(14,2)
1.5     joerg #define SDMA_CSR_TX_ES		__BIT(15)	/* Error Summary */
1.5     joerg #define SDMA_CSR_TX_L		__BIT(16)	/* Last */
1.5     joerg #define SDMA_CSR_TX_F		__BIT(17)	/* First */
1.5     joerg #define SDMA_CSR_TX_P		__BIT(18)	/* Preamble */
1.5     joerg #define SDMA_CSR_TX_ADDR	__BIT(19)	/* Address */
1.5     joerg #define SDMA_CSR_TX_NS		__BIT(20)	/* No Stop Bit */
1.5     joerg #define SDMA_CSR_TX_RESc	__BITS(22,21)
1.5     joerg #define SDMA_CSR_TX_EI		__BIT(23)	/* Enable Interrupt */
1.5     joerg #define SDMA_CSR_TX_RESd	__BITS(29,24)
1.5     joerg #define SDMA_CSR_TX_AUTO	__BIT(30)	/* Auto Mode */
1.5     joerg #define SDMA_CSR_TX_OWN		__BIT(31)	/* Owner */
1.1      matt #define SDMA_CSR_TX_RES \
1.1      matt 	(SDMA_CSR_TX_RESa|SDMA_CSR_TX_RESb|SDMA_CSR_TX_RESc|SDMA_CSR_TX_RESd)
1.1      matt /*
1.1      matt  * MPSCx Protocol Configuration Register for UART Mode
1.1      matt  */
1.5     joerg #define GTMPSC_MPCR_RESa	__BITS(5,0)
1.5     joerg #define GTMPSC_MPCR_DRT		__BIT(6)	/* Disable Rx on Tx */
1.5     joerg #define GTMPSC_MPCR_ISO		__BIT(7)	/* Isochronous Mode */
1.5     joerg #define GTMPSC_MPCR_RZS		__BIT(8)	/* Rx Zero Stop Bit(s) */
1.5     joerg #define GTMPSC_MPCR_FRZ		__BIT(9)	/* Freeze Tx */
1.5     joerg #define GTMPSC_MPCR_UM_MASK	__BITS(11,10)	/* UART Mode mask */
1.1      matt #define GTMPSC_MPCR_UM_NORM	(0 << 10)	/* Normal UART Mode */
1.1      matt #define GTMPSC_MPCR_UM_MDROP	(1 << 10)	/* Multi-Drop UART Mode */
1.1      matt 						/* other values are resvd. */
1.5     joerg #define GTMPSC_MPCR_CLMASK	__BITS(13,12)	/* Character Length mask */
1.2     perry #define GTMPSC_MPCR_CL_5	(0 << 12)	/* 5 data bits */
1.2     perry #define GTMPSC_MPCR_CL_6	(1 << 12)	/* 6 data bits */
1.2     perry #define GTMPSC_MPCR_CL_7	(2 << 12)	/* 7 data bits */
1.2     perry #define GTMPSC_MPCR_CL_8	(3 << 12)	/* 8 data bits */
1.4  kiyohara #define GTMPSC_MPCR_SBL_1	(0 << 14)	/* 1 stop bit */
1.4  kiyohara #define GTMPSC_MPCR_SBL_2	(1 << 14)	/* 2 stop bits */
1.1      matt #define GTMPSC_MPCR_FLC_NORM	0x0		/* Normal Flow Ctl mode */
1.5     joerg #define GTMPSC_MPCR_FLC_ASYNC	__BIT(15)	/* Asynchronous Flow Ctl mode */
1.5     joerg #define GTMPSC_MPCR_RESb	__BITS(31,16)
1.1      matt #define GTMPSC_MPCR_RES (GTMPSC_MPCR_RESa|GTMPSC_MPCR_RESb)
1.1      matt /*
1.1      matt  * MPSC Channel Register 1 for UART Mode "Break/Stuff"
1.1      matt  */
1.5     joerg #define GTMPSC_CHR1_TCS		__BITS(7,0)	/* Constrol Stuff Character */
1.5     joerg #define GTMPSC_CHR1_BRK		__BITS(23,16)	/* Break Count */
1.5     joerg #define GTMPSC_CHR1_RES		__BITS(15,8)|__BITS(31,24)
1.1      matt /*
1.1      matt  * MPSC Channel Register 2 for UART Mode "Command"
1.1      matt  */
1.5     joerg #define GTMPSC_CHR2_RESa	__BIT(0)
1.5     joerg #define GTMPSC_CHR2_TEV		__BIT(1)	/* Tx Enb. Vert. Redundancy  */
1.5     joerg #define GTMPSC_CHR2_TPM_MASK	__BITS(3,2)	/* Tx Parity Mode mask */
1.1      matt #define GTMPSC_CHR2_TPM_ODD	(0 << 2)	/* Odd Tx Parity */
1.1      matt #define GTMPSC_CHR2_TPM_LOW	(1 << 2)	/* Low (always 0) Tx Parity */
1.1      matt #define GTMPSC_CHR2_TPM_EVEN	(2 << 2)	/* Even Tx Parity */
1.1      matt #define GTMPSC_CHR2_TPM_HIGH	(3 << 2)	/* High (always 1) Tx Parity */
1.5     joerg #define GTMPSC_CHR2_RESb	__BITS(6,4)
1.5     joerg #define GTMPSC_CHR2_TXABORT	__BIT(7)	/* Tx Abort */
1.5     joerg #define GTMPSC_CHR2_RESc	__BIT(8)
1.5     joerg #define GTMPSC_CHR2_TCS		__BIT(9)	/* Tx TCS Char */
1.5     joerg #define GTMPSC_CHR2_RESd	__BITS(16,10)
1.5     joerg #define GTMPSC_CHR2_REC		__BIT(17)	/* Rx Enb. Vert. Redundancy */
1.5     joerg #define GTMPSC_CHR2_RPM_MASK	__BITS(19,18)	/* Rx Parity Mode mask */
1.1      matt #define GTMPSC_CHR2_RPM_ODD	(0 << 18)	/* Odd Rx Parity */
1.1      matt #define GTMPSC_CHR2_RPM_LOW	(1 << 18)	/* Low (always 0) Rx Parity */
1.1      matt #define GTMPSC_CHR2_RPM_EVEN	(2 << 18)	/* Even Rx Parity */
1.1      matt #define GTMPSC_CHR2_RPM_HIGH	(3 << 18)	/* High (always 1) Rx Parity */
1.5     joerg #define GTMPSC_CHR2_RESe	__BITS(22,20)
1.5     joerg #define GTMPSC_CHR2_RXABORT	__BIT(23)	/* Rx Abort */
1.5     joerg #define GTMPSC_CHR2_RESf	__BIT(24)
1.5     joerg #define GTMPSC_CHR2_CRD		__BIT(25)	/* Close RX Descriptor */
1.5     joerg #define GTMPSC_CHR2_RESg	__BITS(30,26)
1.5     joerg #define GTMPSC_CHR2_EH		__BIT(31)	/* Enter Hunt */
1.1      matt #define GTMPSC_CHR2_RES \
1.1      matt 		(GTMPSC_CHR2_RESa|GTMPSC_CHR2_RESb|GTMPSC_CHR2_RESc| \
1.1      matt 		 GTMPSC_CHR2_RESd|GTMPSC_CHR2_RESe|GTMPSC_CHR2_RESf| \
1.1      matt 		 GTMPSC_CHR2_RESg)
1.1      matt /*
1.1      matt  * MPSC Channel Register 3 for UART Mode "Max Idle"
1.1      matt  */
1.5     joerg #define GTMPSC_CHR3_MIR		__BITS(15,0)	/* Max Idle Char count */
1.5     joerg #define GTMPSC_CHR3_RES		__BITS(31,16)
1.1      matt /*
1.1      matt  * MPSC Channel Register 4 for UART Mode "Control Filtering"
1.1      matt  */
1.5     joerg #define GTMPSC_CHR4_CFR		__BITS(7,0)	/* Control bit compare enable */
1.5     joerg #define GTMPSC_CHR4_RES		__BITS(31,8)
1.1      matt /*
1.1      matt  * MPSC Channel Registers 5..8 for UART Mode "UART Control Character"
1.1      matt  *
1.1      matt  * NOTE: two 16 bit CHRCC fields exist in each of Channel Registers 5..8
1.1      matt  */
1.1      matt #define GTMPSC_CHRCC_SHIFT	16
1.5     joerg #define GTMPSC_CHRCC_CHAR	__BITS(7,0)	/* the control character */
1.5     joerg #define GTMPSC_CHRCC_RES	__BITS(11,8)
1.5     joerg #define GTMPSC_CHRCC_INT	__BIT(12)	/* Interrupt */
1.5     joerg #define GTMPSC_CHRCC_CO		__BIT(13)	/* ISO 3309 Control Octet */
1.5     joerg #define GTMPSC_CHRCC_R		__BIT(14)	/* Reject */
1.5     joerg #define GTMPSC_CHRCC_V		__BIT(15)	/* Valid */
1.1      matt /*
1.1      matt  * MPSC Channel Register 9 for UART Mode "Address" (for multidrop operation)
1.1      matt  */
1.5     joerg #define GTMPSC_CHR9_AD1		__BITS(7,0)	/* address #1 */
1.5     joerg #define GTMPSC_CHR9_RESa	__BITS(14,8)
1.5     joerg #define GTMPSC_CHR9_MODE1	__BIT(15)	/* mode #1 */
1.5     joerg #define GTMPSC_CHR9_AD2		__BITS(23,16)	/* address #2 */
1.5     joerg #define GTMPSC_CHR9_RESb	__BITS(30,24)
1.5     joerg #define GTMPSC_CHR9_MODE2	__BIT(31)	/* mode #2 */
1.1      matt #define GTMPSC_CHR9_RES	(GTMPSC_CHR9_RESa|GTMPSC_CHR9_RESb)
1.1      matt /*
1.1      matt  * MPSC Channel Register 10 for UART Mode "Event Status"
1.1      matt  */
1.5     joerg #define GTMPSC_CHR10_CTS	__BIT(0)	/* Clear To Send */
1.5     joerg #define GTMPSC_CHR10_CD		__BIT(1)	/* Carrier Detect */
1.5     joerg #define GTMPSC_CHR10_RESa	__BIT(2)
1.5     joerg #define GTMPSC_CHR10_TIDLE	__BIT(3)	/* Tx in Idle State */
1.5     joerg #define GTMPSC_CHR10_RESb	__BIT(4)
1.5     joerg #define GTMPSC_CHR10_RHS	__BIT(5)	/* Rx in HUNT State */
1.5     joerg #define GTMPSC_CHR10_RESc	__BIT(6)
1.5     joerg #define GTMPSC_CHR10_RLS	__BIT(7)	/* Rx Line STatus */
1.5     joerg #define GTMPSC_CHR10_RESd	__BITS(10,8)
1.5     joerg #define GTMPSC_CHR10_RLIDL	__BIT(11)	/* Rx IDLE Line */
1.5     joerg #define GTMPSC_CHR10_RESe	__BITS(15,12)
1.5     joerg #define GTMPSC_CHR10_RCRn	__BITS(23,16)	/* Received Control Char # */
1.5     joerg #define GTMPSC_CHR10_RESf	__BITS(31,24)
1.1      matt #define GTMPSC_CHR10_RES \
1.1      matt 		(GTMPSC_CHR10_RESa|GTMPSC_CHR10_RESb|GTMPSC_CHR10_RESc \
1.1      matt 		|GTMPSC_CHR10_RESd|GTMPSC_CHR10_RESe|GTMPSC_CHR10_RESf)
1.1      matt
1.1      matt
1.1      matt #endif	/* _GTMPSCREG_H */