/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* Copyright (c) 1990, 1991 UNIX System Laboratories, Inc. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989, 1990 AT&T */ /* All Rights Reserved */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_SUDEV_H #define _SYS_SUDEV_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include /* * Definitions for INS8250 / 16550 chips */ /* defined as offsets from the data register */ #define DAT 0 /* receive/transmit data */ #define ICR 1 /* interrupt control register */ #define ISR 2 /* interrupt status register */ #define LCR 3 /* line control register */ #define MCR 4 /* modem control register */ #define LSR 5 /* line status register */ #define MSR 6 /* modem status register */ #define SPR 7 /* scratchpad register for ST16C554D */ #define DLL 0 /* divisor latch (lsb) */ #define DLH 1 /* divisor latch (msb) */ #define FIFOR ISR /* FIFO register for 16550 */ #define OUTB(offset, value) ddi_put8(asy->asy_handle, \ asy->asy_ioaddr+offset, value) #define INB(offset) ddi_get8(asy->asy_handle, asy->asy_ioaddr+offset) /* * INTEL 8210-A/B & 16450/16550 Registers Structure. */ /* Line Control Register */ #define WLS0 0x01 /* word length select bit 0 */ #define WLS1 0x02 /* word length select bit 2 */ #define STB 0x04 /* number of stop bits */ #define PEN 0x08 /* parity enable */ #define EPS 0x10 /* even parity select */ #define SETBREAK 0x40 /* break key */ #define DLAB 0x80 /* divisor latch access bit */ #define RXLEN 0x03 /* # of data bits per received/xmitted char */ #define STOP1 0x00 #define STOP2 0x04 #define PAREN 0x08 #define PAREVN 0x10 #define PARMARK 0x20 #define SNDBRK 0x40 #define BITS5 0x00 /* 5 bits per char */ #define BITS6 0x01 /* 6 bits per char */ #define BITS7 0x02 /* 7 bits per char */ #define BITS8 0x03 /* 8 bits per char */ /* baud rate definitions */ #define ASY110 1047 /* 110 baud rate for serial console */ #define ASY150 768 /* 150 baud rate for serial console */ #define ASY300 384 /* 300 baud rate for serial console */ #define ASY600 192 /* 600 baud rate for serial console */ #define ASY1200 96 /* 1200 baud rate for serial console */ #define ASY2400 48 /* 2400 baud rate for serial console */ #define ASY4800 24 /* 4800 baud rate for serial console */ #define ASY9600 12 /* 9600 baud rate for serial console */ /* Line Status Register */ #define RCA 0x01 /* data ready */ #define OVRRUN 0x02 /* overrun error */ #define PARERR 0x04 /* parity error */ #define FRMERR 0x08 /* framing error */ #define BRKDET 0x10 /* a break has arrived */ #define XHRE 0x20 /* tx hold reg is now empty */ #define XSRE 0x40 /* tx shift reg is now empty */ #define RFBE 0x80 /* rx FIFO Buffer error */ /* Interrupt Id Regisger */ #define MSTATUS 0x00 /* modem status changed */ #define NOINTERRUPT 0x01 /* no interrupt pending */ #define TxRDY 0x02 /* Transmitter Holding Register Empty */ #define RxRDY 0x04 /* Receiver Data Available */ #define FFTMOUT 0x0c /* FIFO timeout - 16550AF */ #define RSTATUS 0x06 /* Receiver Line Status */ /* Interrupt Enable Register */ #define RIEN 0x01 /* Received Data Ready */ #define TIEN 0x02 /* Tx Hold Register Empty */ #define SIEN 0x04 /* Receiver Line Status */ #define MIEN 0x08 /* Modem Status */ /* Modem Control Register */ #define DTR 0x01 /* Data Terminal Ready */ #define RTS 0x02 /* Request To Send */ #define OUT1 0x04 /* Aux output - not used */ #define OUT2 0x08 /* dis/enable int per INO on ALI1535D+ */ #define ASY_LOOP 0x10 /* loopback for diagnostics */ /* Modem Status Register */ #define DCTS 0x01 /* Delta Clear To Send */ #define DDSR 0x02 /* Delta Data Set Ready */ #define DRI 0x04 /* Trail Edge Ring Indicator */ #define DDCD 0x08 /* Delta Data Carrier Detect */ #define CTS 0x10 /* Clear To Send */ #define DSR 0x20 /* Data Set Ready */ #define RI 0x40 /* Ring Indicator */ #define DCD 0x80 /* Data Carrier Detect */ #define DELTAS(x) ((x)&(DCTS|DDSR|DRI|DDCD)) #define STATES(x) ((x)(CTS|DSR|RI|DCD)) /* flags for FCR (FIFO Control register) */ #define FIFO_OFF 0x00 /* fifo disabled */ #define FIFO_ON 0x01 /* fifo enabled */ #define FIFOEN 0x8f /* fifo enabled, w/ 8 byte trigger */ #define FIFORCLR 0x8b /* Clear receiver FIFO only */ #define FIFORXFLSH 0x02 /* flush receiver FIFO */ #define FIFOTXFLSH 0x04 /* flush transmitter FIFO */ #define FIFODMA 0x08 /* DMA mode 1 */ #define FIFO_TRIG_1 0x00 /* 1 byte trigger level */ #define FIFO_TRIG_4 0x40 /* 4 byte trigger level */ #define FIFO_TRIG_8 0x80 /* 8 byte trigger level */ #define FIFO_TRIG_14 0xC0 /* 14 byte trigger level */ /* * Defines for ioctl calls (VP/ix) */ #define AIOC ('A'<<8) #define AIOCINTTYPE (AIOC|60) /* set interrupt type */ #define AIOCDOSMODE (AIOC|61) /* set DOS mode */ #define AIOCNONDOSMODE (AIOC|62) /* reset DOS mode */ #define AIOCSERIALOUT (AIOC|63) /* serial device data write */ #define AIOCSERIALIN (AIOC|64) /* serial device data read */ #define AIOCSETSS (AIOC|65) /* set start/stop chars */ #define AIOCINFO (AIOC|66) /* tell usr what device we are */ /* Ioctl alternate names used by VP/ix */ #define VPC_SERIAL_DOS AIOCDOSMODE #define VPC_SERIAL_NONDOS AIOCNONDOSMODE #define VPC_SERIAL_INFO AIOCINFO #define VPC_SERIAL_OUT AIOCSERIALOUT #define VPC_SERIAL_IN AIOCSERIALIN /* Serial in/out requests */ #define SO_DIVLLSB 1 #define SO_DIVLMSB 2 #define SO_LCR 3 #define SO_MCR 4 #define SI_MSR 1 #define SIO_MASK(elem) (1<<((elem)-1)) #define OVERRUN 040000 #define FRERROR 020000 #define PERROR 010000 #define S_ERRORS (PERROR|OVERRUN|FRERROR) /* * Ring buffer and async line management definitions. */ #define RINGBITS 16 /* # of bits in ring ptrs */ #define RINGSIZE (1<async_rput = (ap)->async_rget = 0) #define RING_CNT(ap) (((ap)->async_rput - (ap)->async_rget) & RINGMASK) #define RING_FRAC(ap) ((int)RING_CNT(ap) >= (int)(RINGSIZE/RINGFRAC)) #define RING_POK(ap, n) ((int)RING_CNT(ap) < (int)(RINGSIZE-(n))) #define RING_PUT(ap, c) \ ((ap)->async_ring[(ap)->async_rput++ & RINGMASK] = (uchar_t)(c)) #define RING_UNPUT(ap) ((ap)->async_rput--) #define RING_GOK(ap, n) ((int)RING_CNT(ap) >= (int)(n)) #define RING_GET(ap) ((ap)->async_ring[(ap)->async_rget++ & RINGMASK]) #define RING_EAT(ap, n) ((ap)->async_rget += (n)) #define RING_MARK(ap, c, s) \ ((ap)->async_ring[(ap)->async_rput++ & RINGMASK] = ((uchar_t)(c)|(s))) #define RING_UNMARK(ap) \ ((ap)->async_ring[((ap)->async_rget) & RINGMASK] &= ~S_ERRORS) #define RING_ERR(ap, c) \ ((ap)->async_ring[((ap)->async_rget) & RINGMASK] & (c)) /* * Serial kstats structure and macro to increment an individual kstat */ struct serial_kstats { kstat_named_t ringover; /* ring buffer overflow */ kstat_named_t siloover; /* silo overflow */ }; #define INC64_KSTAT(asy, stat) (asy)->kstats.stat.value.ui64++; /* * Hardware channel common data. One structure per port. * Each of the fields in this structure is required to be protected by a * mutex lock at the highest priority at which it can be altered. * The asy_flags, and asy_next fields can be altered by interrupt * handling code that must be protected by the mutex whose handle is * stored in asy_excl_hi. All others can be protected by the asy_excl * mutex, which is lower priority and adaptive. */ struct asycom { int asy_flags; /* random flags */ /* protected by asy_excl_hi lock */ uint_t asy_hwtype; /* HW type: ASY82510, etc. */ uint_t asy_use_fifo; /* HW FIFO use it or not ?? */ uint_t asy_fifo_buf; /* With FIFO = 16, otherwise = 1 */ uchar_t *asy_ioaddr; /* i/o address of ASY port */ uint_t asy_vect; /* IRQ number */ boolean_t suspended; /* TRUE if driver suspended */ caddr_t asy_priv; /* protocol private data */ dev_info_t *asy_dip; /* dev_info */ long asy_unit; /* which port */ ddi_iblock_cookie_t asy_iblock; kmutex_t *asy_excl; /* asy adaptive mutex */ kmutex_t *asy_excl_hi; /* asy spinlock mutex */ ddi_acc_handle_t asy_handle; /* ddi_get/put handle */ ushort_t asy_rsc_console; /* RSC console port */ ushort_t asy_rsc_control; /* RSC control port */ ushort_t asy_lom_console; /* LOM console port */ uint_t asy_xmit_count; /* Count the no of xmits in one intr */ uint_t asy_out_of_band_xmit; /* Out of band xmission */ uint_t asy_rx_count; /* No. of bytes rx'eved in one intr */ uchar_t asy_device_type; /* Currently used for this device */ uchar_t asy_trig_level; /* Receive FIFO trig level */ kmutex_t *asy_soft_lock; /* soft lock for gaurding softpend. */ int asysoftpend; /* Flag indicating soft int pending. */ ddi_softintr_t asy_softintr_id; ddi_iblock_cookie_t asy_soft_iblock; int asy_baud_divisor_factor; /* for different chips */ int asy_ocflags; /* old cflags used in asy_program() */ uint_t asy_cached_msr; /* a cache for the MSR register */ int asy_speed_cap; /* maximum baud rate */ kstat_t *sukstat; /* ptr to serial kstats */ struct serial_kstats kstats; /* serial kstats structure */ boolean_t inperim; /* in streams q perimeter */ }; /* * Asychronous protocol private data structure for ASY. * Each of the fields in the structure is required to be protected by * the lower priority lock except the fields that are set only at * base level but cleared (with out lock) at interrupt level. */ struct asyncline { int async_flags; /* random flags */ kcondvar_t async_flags_cv; /* condition variable for flags */ dev_t async_dev; /* device major/minor numbers */ mblk_t *async_xmitblk; /* transmit: active msg block */ struct asycom *async_common; /* device common data */ tty_common_t async_ttycommon; /* tty driver common data */ bufcall_id_t async_wbufcid; /* id for pending write-side bufcall */ timeout_id_t async_polltid; /* softint poll timeout id */ /* * The following fields are protected by the asy_excl_hi lock. * Some, such as async_flowc, are set only at the base level and * cleared (without the lock) only by the interrupt level. */ uchar_t *async_optr; /* output pointer */ int async_ocnt; /* output count */ uint_t async_rput; /* producing pointer for input */ uint_t async_rget; /* consuming pointer for input */ uchar_t async_flowc; /* flow control char to send */ /* * Each character stuffed into the ring has two bytes associated * with it. The first byte is used to indicate special conditions * and the second byte is the actual data. The ring buffer * needs to be defined as ushort_t to accomodate this. */ ushort_t async_ring[RINGSIZE]; short async_break; /* break count */ union { struct { uchar_t _hw; /* overrun (hw) */ uchar_t _sw; /* overrun (sw) */ } _a; ushort_t uover_overrun; } async_uover; #define async_overrun async_uover._a.uover_overrun #define async_hw_overrun async_uover._a._hw #define async_sw_overrun async_uover._a._sw short async_ext; /* modem status change count */ short async_work; /* work to do flag */ uchar_t async_queue_full; /* Streams Queue Full */ uchar_t async_ringbuf_overflow; /* when ring buffer overflows */ timeout_id_t async_timer; /* close drain progress timer */ }; /* definitions for async_flags field */ #define ASYNC_EXCL_OPEN 0x10000000 /* exclusive open */ #define ASYNC_WOPEN 0x00000001 /* waiting for open to complete */ #define ASYNC_ISOPEN 0x00000002 /* open is complete */ #define ASYNC_OUT 0x00000004 /* line being used for dialout */ #define ASYNC_CARR_ON 0x00000008 /* carrier on last time we looked */ #define ASYNC_STOPPED 0x00000010 /* output is stopped */ #define ASYNC_DELAY 0x00000020 /* waiting for delay to finish */ #define ASYNC_BREAK 0x00000040 /* waiting for break to finish */ #define ASYNC_BUSY 0x00000080 /* waiting for transmission to finish */ #define ASYNC_DRAINING 0x00000100 /* waiting for output to drain */ #define ASYNC_SERVICEIMM 0x00000200 /* queue soft interrupt as soon as */ #define ASYNC_HW_IN_FLOW 0x00000400 /* input flow control in effect */ #define ASYNC_HW_OUT_FLW 0x00000800 /* output flow control in effect */ #define ASYNC_PROGRESS 0x00001000 /* made progress on output effort */ #define ASYNC_CLOSING 0x00002000 /* closing the stream */ /* asy_hwtype definitions */ #define ASY82510 0x1 #define ASY16550AF 0x2 #define ASY8250 0x3 /* 8250 or 16450 or 16550 */ #define ASY16C554D 0x4 /* ST16C554D */ /* definitions for asy_flags field */ #define ASY_NEEDSOFT 0x00000001 #define ASY_DOINGSOFT 0x00000002 #define ASY_PPS 0x00000004 #define ASY_PPS_EDGE 0x00000008 #define ASY_IGNORE_CD 0x00000040 /* * Different devices this driver supports and what it is used to drive * currently */ #define ASY_KEYBOARD 0x01 #define ASY_MOUSE 0x02 #define ASY_SERIAL 0x03 /* * RSC_DEVICE defines the bit in the minor device number that specifies * the tty line is to be used for console/controlling a RSC device. */ #define RSC_DEVICE (1 << (NBITSMINOR32 - 4)) /* * OUTLINE defines the high-order flag bit in the minor device number that * controls use of a tty line for dialin and dialout simultaneously. */ #define OUTLINE (1 << (NBITSMINOR32 - 1)) #define UNIT(x) (getminor(x) & ~(OUTLINE | RSC_DEVICE)) /* suggested number of soft state instances */ #define SU_INITIAL_SOFT_ITEMS 0x02 /* * ASYSETSOFT macro to pend a soft interrupt if one isn't already pending. */ #define ASYSETSOFT(asy) { \ if (mutex_tryenter(asy->asy_soft_lock)) { \ asy->asy_flags |= ASY_NEEDSOFT; \ if (!asy->asysoftpend) { \ asy->asysoftpend = 1; \ mutex_exit(asy->asy_soft_lock);\ ddi_trigger_softintr(asy->asy_softintr_id);\ } else \ mutex_exit(asy->asy_soft_lock);\ } \ } #ifdef __cplusplus } #endif #endif /* _SYS_SUDEV_H */