/* * 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 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * Copyright 2018 OmniOS Community Edition (OmniOSce) Association. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #ifndef _SYS_STREAM_H #define _SYS_STREAM_H /* * For source compatibility */ #include #ifdef _KERNEL #include #include #endif #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* * Data queue. * * NOTE: The *only* public fields are documented in queue(9S). * Everything else is implementation-private. * * The locking rules for the queue_t structure are extremely subtle and vary * widely depending on the field in question. As such, each field is * annotated according to the following legend: * * Q9S: The field is documented in queue(9S) and may be accessed without * locks by a STREAMS module when inside an entry point (e.g., put(9E)). * However, no fields can be directly modified unless q_lock is held * (which is not possible in a DDI compliant STREAMS module), with the * following exceptions: * * - q_ptr: can be modified as per the rules of the STREAMS module. * The STREAMS framework ignores q_ptr and thus imposes *no* * locking rules on it. * - q_qinfo: can be modified before qprocson(). * * - q_minpsz, q_maxpsz, q_hiwat, q_lowat: can be modified as per the * rules of the STREAMS module. The STREAMS framework never * modifies these fields, and is tolerant of temporarily * stale field values. * * In general, the STREAMS framework employs one of the following * techniques to ensure STREAMS modules can safely access Q9S fields: * * - The field is only modified by the framework when the stream is * locked with strlock() (q_next). * * - The field is modified by the framework, but the modifies are * atomic, and temporarily stale values are harmless (q_count, * q_first, q_last). * * - The field is modified by the framework, but the field's visible * values are either constant or directly under the control * of the STREAMS module itself (q_flag). * * QLK: The field must be accessed or modified under q_lock, except when * the stream has been locked with strlock(). If multiple q_locks must * be acquired, q_locks at higher addresses must be taken first. * * STR: The field can be accessed without a lock, but must be modified under * strlock(). * * SQLK: The field must be accessed or modified under SQLOCK(). * * NOLK: The field can be accessed without a lock, but can only be modified * when the queue_t is not known to any other threads. * * SVLK: The field must be accessed or modified under the service_queue lock. * Note that service_lock must be taken after any needed q_locks, * and that no other lock should be taken while service_lock is held. * * In addition, it is always acceptable to modify a field that is not yet * known to any other threads -- and other special case exceptions exist in * the code. Also, q_lock is used with q_wait to implement a stream head * monitor for reads and writes. */ typedef struct queue { struct qinit *q_qinfo; /* Q9S: Q processing procedure */ struct msgb *q_first; /* Q9S: first message in Q */ struct msgb *q_last; /* Q9S: last message in Q */ struct queue *q_next; /* Q9S: next Q in stream */ struct queue *q_link; /* SVLK: next Q for scheduling */ void *q_ptr; /* Q9S: module-specific data */ size_t q_count; /* Q9S: number of bytes on Q */ uint_t q_flag; /* Q9S: Q state */ ssize_t q_minpsz; /* Q9S: smallest packet OK on Q */ ssize_t q_maxpsz; /* Q9S: largest packet OK on Q */ size_t q_hiwat; /* Q9S: Q high water mark */ size_t q_lowat; /* Q9S: Q low water mark */ struct qband *q_bandp; /* QLK: band flow information */ kmutex_t q_lock; /* NOLK: structure lock */ struct stdata *q_stream; /* NOLK: stream backpointer */ struct syncq *q_syncq; /* NOLK: associated syncq */ unsigned char q_nband; /* QLK: number of bands */ kcondvar_t q_wait; /* NOLK: read/write sleep CV */ struct queue *q_nfsrv; /* STR: next Q with svc routine */ ushort_t q_draining; /* QLK: Q is draining */ short q_struiot; /* QLK: sync streams Q UIO mode */ clock_t q_qtstamp; /* QLK: when Q was enabled */ size_t q_mblkcnt; /* QLK: mblk count */ uint_t q_syncqmsgs; /* QLK: syncq message count */ size_t q_rwcnt; /* QLK: # threads in rwnext() */ pri_t q_spri; /* QLK: Q scheduling priority */ /* * Syncq scheduling */ struct msgb *q_sqhead; /* QLK: first syncq message */ struct msgb *q_sqtail; /* QLK: last syncq message */ struct queue *q_sqnext; /* SQLK: next Q on syncq list */ struct queue *q_sqprev; /* SQLK: prev Q on syncq list */ uint_t q_sqflags; /* SQLK: syncq flags */ clock_t q_sqtstamp; /* SQLK: when Q was scheduled for sq */ /* * NOLK: Reference to the queue's module's implementation * structure. This will be NULL for queues associated with drivers. */ struct fmodsw_impl *q_fp; } queue_t; /* * Queue flags; unused flags not documented in queue(9S) can be recycled. */ #define QENAB 0x00000001 /* Queue is already enabled to run */ #define QWANTR 0x00000002 /* Someone wants to read Q */ #define QWANTW 0x00000004 /* Someone wants to write Q */ #define QFULL 0x00000008 /* Q is considered full */ #define QREADR 0x00000010 /* This is the reader (first) Q */ #define QUSE 0x00000020 /* This queue in use (allocation) */ #define QNOENB 0x00000040 /* Don't enable Q via putq */ #define QWANTRMQSYNC 0x00000080 /* Want to remove sync stream Q */ #define QBACK 0x00000100 /* queue has been back-enabled */ /* UNUSED 0x00000200 was QHLIST */ /* UNUSED 0x00000400 was QUNSAFE */ #define QPAIR 0x00000800 /* per queue-pair syncq */ #define QPERQ 0x00001000 /* per queue-instance syncq */ #define QPERMOD 0x00002000 /* per module syncq */ #define QMTSAFE 0x00004000 /* stream module is MT-safe */ #define QMTOUTPERIM 0x00008000 /* Has outer perimeter */ #define QMT_TYPEMASK (QPAIR|QPERQ|QPERMOD|QMTSAFE|QMTOUTPERIM) /* all MT type flags */ #define QINSERVICE 0x00010000 /* service routine executing */ #define QWCLOSE 0x00020000 /* will not be enabled */ #define QEND 0x00040000 /* last queue in stream */ #define QWANTWSYNC 0x00080000 /* Streamhead wants to write Q */ #define QSYNCSTR 0x00100000 /* Q supports Synchronous STREAMS */ #define QISDRV 0x00200000 /* the Queue is attached to a driver */ /* UNUSED 0x00400000 was QHOT */ /* UNUSED 0x00800000 was QNEXTHOT */ /* UNUSED 0x01000000 was _QNEXTLESS */ #define _QINSERTING 0x04000000 /* Private, module is being inserted */ #define _QREMOVING 0x08000000 /* Private, module is being removed */ #define _QASSOCIATED 0x10000000 /* queue is associated with a device */ #define _QDIRECT 0x20000000 /* Private; transport module uses */ /* direct interface to/from sockfs */ #define _QSINGLE_INSTANCE 0x40000000 /* Private; module may only */ /* be pushed once */ /* queue sqflags (protected by SQLOCK). */ #define Q_SQQUEUED 0x01 /* Queue is in the syncq list */ #define Q_SQDRAINING 0x02 /* Servicing syncq msgs. */ /* This is also noted by the */ /* q_draining field, but this one is */ /* protected by SQLOCK */ /* * Structure that describes the separate information * for each priority band in the queue. */ typedef struct qband { struct qband *qb_next; /* next band's info */ size_t qb_count; /* number of bytes in band */ struct msgb *qb_first; /* beginning of band's data */ struct msgb *qb_last; /* end of band's data */ size_t qb_hiwat; /* high water mark for band */ size_t qb_lowat; /* low water mark for band */ uint_t qb_flag; /* see below */ size_t qb_mblkcnt; /* mblk counter for runaway msgs */ } qband_t; /* * qband flags */ #define QB_FULL 0x01 /* band is considered full */ #define QB_WANTW 0x02 /* Someone wants to write to band */ #define QB_BACK 0x04 /* queue has been back-enabled */ /* * Maximum number of bands. */ #define NBAND 256 /* * Fields that can be manipulated through strqset() and strqget(). */ typedef enum qfields { QHIWAT = 0, /* q_hiwat or qb_hiwat */ QLOWAT = 1, /* q_lowat or qb_lowat */ QMAXPSZ = 2, /* q_maxpsz */ QMINPSZ = 3, /* q_minpsz */ QCOUNT = 4, /* q_count or qb_count */ QFIRST = 5, /* q_first or qb_first */ QLAST = 6, /* q_last or qb_last */ QFLAG = 7, /* q_flag or qb_flag */ QSTRUIOT = 8, /* q_struiot */ QBAD = 9 } qfields_t; /* * Module information structure */ struct module_info { ushort_t mi_idnum; /* module id number */ char *mi_idname; /* module name */ ssize_t mi_minpsz; /* min packet size accepted */ ssize_t mi_maxpsz; /* max packet size accepted */ size_t mi_hiwat; /* hi-water mark */ size_t mi_lowat; /* lo-water mark */ }; /* * queue information structure (with Synchronous STREAMS extensions) */ typedef struct msgb mblk_t; typedef struct struiod struiod_t; typedef struct infod infod_t; typedef int (*qi_putp_t)(queue_t *, mblk_t *); typedef int (*qi_srvp_t)(queue_t *); typedef int (*qi_qopen_t)(queue_t *, dev_t *, int, int, cred_t *); typedef int (*qi_qclose_t)(queue_t *, int, cred_t *); typedef int (*qi_qadmin_t)(void); typedef int (*qi_rwp_t)(queue_t *, struiod_t *); typedef int (*qi_infop_t)(queue_t *, infod_t *); struct qinit { qi_putp_t qi_putp; /* put procedure */ qi_srvp_t qi_srvp; /* service procedure */ qi_qopen_t qi_qopen; /* called on startup */ qi_qclose_t qi_qclose; /* called on finish */ qi_qadmin_t qi_qadmin; /* for future use */ struct module_info *qi_minfo; /* module information structure */ struct module_stat *qi_mstat; /* module statistics structure */ qi_rwp_t qi_rwp; /* r/w procedure */ qi_infop_t qi_infop; /* information procedure */ int qi_struiot; /* stream uio type for struio() */ }; /* * Values for qi_struiot and q_struiot: */ #define STRUIOT_NONE -1 /* doesn't support struio() */ #define STRUIOT_DONTCARE 0 /* use current uiomove() (default) */ #define STRUIOT_STANDARD 1 /* use standard uiomove() */ /* * Streamtab (used in cdevsw and fmodsw to point to module or driver) */ struct streamtab { struct qinit *st_rdinit; struct qinit *st_wrinit; struct qinit *st_muxrinit; struct qinit *st_muxwinit; }; /* * Structure sent to mux drivers to indicate a link. */ struct linkblk { queue_t *l_qtop; /* lowest level write queue of upper stream */ /* (set to NULL for persistent links) */ queue_t *l_qbot; /* highest level write queue of lower stream */ int l_index; /* index for lower stream. */ }; /* * Esballoc data buffer freeing routine */ typedef struct free_rtn { void (*free_func)(); caddr_t free_arg; } frtn_t; /* * Data block descriptor * * NOTE: db_base, db_lim, db_ref and db_type are the *only* public fields, * as described in datab(9S). Everything else is implementation-private. */ #define DBLK_REFMAX 255U typedef struct datab { frtn_t *db_frtnp; unsigned char *db_base; unsigned char *db_lim; unsigned char db_ref; unsigned char db_type; unsigned char db_flags; unsigned char db_struioflag; pid_t db_cpid; /* cached pid, needs verification */ void *db_cache; /* kmem cache descriptor */ struct msgb *db_mblk; void (*db_free)(struct msgb *, struct datab *); void (*db_lastfree)(struct msgb *, struct datab *); intptr_t db_cksumstart; intptr_t db_cksumend; intptr_t db_cksumstuff; union { double enforce_alignment; unsigned char data[8]; struct { union { uint32_t u32; uint16_t u16; } cksum_val; /* used to store calculated cksum */ uint16_t flags; uint16_t pad; } cksum; /* * Union used for future extensions (pointer to data ?). */ } db_struioun; struct fthdr *db_fthdr; cred_t *db_credp; /* credential */ } dblk_t; #define db_cksum16 db_struioun.cksum.cksum_val.u16 #define db_cksum32 db_struioun.cksum.cksum_val.u32 /* * Accessor macros for private dblk_t fields (the rest are in ). */ #define DB_CPID(mp) ((mp)->b_datap->db_cpid) #define DB_CRED(mp) ((mp)->b_datap->db_credp) #define DB_FTHDR(mp) ((mp)->b_datap->db_fthdr) /* * Used by GLDv2 to store the TCI information. */ #define DB_TCI(mp) ((mp)->b_datap->db_struioun.cksum.pad) /* * Message block descriptor */ struct msgb { struct msgb *b_next; struct msgb *b_prev; struct msgb *b_cont; unsigned char *b_rptr; unsigned char *b_wptr; struct datab *b_datap; unsigned char b_band; unsigned char b_tag; unsigned short b_flag; queue_t *b_queue; /* for sync queues */ }; /* * bcache descriptor */ typedef struct bcache { kmutex_t mutex; struct kmem_cache *buffer_cache; struct kmem_cache *dblk_cache; int alloc; int destroy; size_t size; uint_t align; } bcache_t; /* * db_flags values (all implementation private!) */ #define DBLK_REFMIN 0x01 /* min refcnt stored in low bit */ #define DBLK_COOKED 0x02 /* message has been processed once */ #define DBLK_UIOA 0x04 /* uioamove() is pending */ /* * db_struioflag values: */ #define STRUIO_SPEC 0x01 /* struio{get,put}() special mblk */ #define STRUIO_DONE 0x02 /* struio done (could be partial) */ #define STRUIO_IP 0x04 /* IP checksum stored in db_struioun */ #define STRUIO_ZC 0x08 /* mblk eligible for zero-copy */ #define STRUIO_ZCNOTIFY 0x10 /* notify stream head when mblk acked */ /* * Message flags. These are interpreted by the stream head. */ #define MSGMARK 0x01 /* last byte of message is "marked" */ #define MSGNOLOOP 0x02 /* don't loop message around to */ /* write side of stream */ #define MSGDELIM 0x04 /* message is delimited */ /* UNUSED 0x08 was MSGNOGET (can be recycled) */ #define MSGMARKNEXT 0x10 /* Private: first byte of next msg marked */ #define MSGNOTMARKNEXT 0x20 /* Private: ... not marked */ #define MSGWAITSYNC 0x40 /* Private: waiting for sync squeue enter */ /* * Streams message types. */ /* * Data and protocol messages (regular and priority) */ #define M_DATA 0x00 /* regular data */ #define M_PROTO 0x01 /* protocol control */ #define M_MULTIDATA 0x02 /* reserved for Multidata use only */ /* * Control messages (regular and priority) */ #define M_BREAK 0x08 /* line break */ #define M_PASSFP 0x09 /* pass file pointer */ #define M_EVENT 0x0a /* Obsoleted: do not use */ #define M_SIG 0x0b /* generate process signal */ #define M_DELAY 0x0c /* real-time xmit delay (1 param) */ #define M_CTL 0x0d /* device-specific control message */ #define M_IOCTL 0x0e /* ioctl; set/get params */ #define M_SETOPTS 0x10 /* set various stream head options */ #define M_RSE 0x11 /* reserved for RSE use only */ /* * Control messages (high priority; go to head of queue) */ #define M_IOCACK 0x81 /* acknowledge ioctl */ #define M_IOCNAK 0x82 /* negative ioctl acknowledge */ #define M_PCPROTO 0x83 /* priority proto message */ #define M_PCSIG 0x84 /* generate process signal */ #define M_READ 0x85 /* generate read notification */ #define M_FLUSH 0x86 /* flush your queues */ #define M_STOP 0x87 /* stop transmission immediately */ #define M_START 0x88 /* restart transmission after stop */ #define M_HANGUP 0x89 /* line disconnect */ #define M_ERROR 0x8a /* send error to stream head */ #define M_COPYIN 0x8b /* request to copyin data */ #define M_COPYOUT 0x8c /* request to copyout data */ #define M_IOCDATA 0x8d /* response to M_COPYIN and M_COPYOUT */ #define M_PCRSE 0x8e /* reserved for RSE use only */ #define M_STOPI 0x8f /* stop reception immediately */ #define M_STARTI 0x90 /* restart reception after stop */ #define M_PCEVENT 0x91 /* Obsoleted: do not use */ #define M_UNHANGUP 0x92 /* line reconnect, sigh */ #define M_CMD 0x93 /* out-of-band ioctl command */ /* * Queue message class definitions. */ #define QNORM 0x00 /* normal priority messages */ #define QPCTL 0x80 /* high priority cntrl messages */ /* * IOCTL structure - this structure is the format of the M_IOCTL message type. */ #if defined(_LP64) struct iocblk { int ioc_cmd; /* ioctl command type */ cred_t *ioc_cr; /* full credentials */ uint_t ioc_id; /* ioctl id */ uint_t ioc_flag; /* see below */ size_t ioc_count; /* count of bytes in data field */ int ioc_rval; /* return value */ int ioc_error; /* error code */ }; #else struct iocblk { int ioc_cmd; /* ioctl command type */ cred_t *ioc_cr; /* full credentials */ uint_t ioc_id; /* ioctl id */ size_t ioc_count; /* count of bytes in data field */ int ioc_error; /* error code */ int ioc_rval; /* return value */ int ioc_fill1; uint_t ioc_flag; /* see below */ int ioc_filler[2]; /* reserved for future use */ }; #endif /* _LP64 */ typedef struct iocblk *IOCP; /* {ioc,cp}_flags values */ #define IOC_MODELS DATAMODEL_MASK /* Note: 0x0FF00000 */ #define IOC_ILP32 DATAMODEL_ILP32 /* ioctl origin is ILP32 */ #define IOC_LP64 DATAMODEL_LP64 /* ioctl origin is LP64 */ #define IOC_NATIVE DATAMODEL_NATIVE #define IOC_NONE DATAMODEL_NONE /* dummy comparison value */ /* * Is the ioctl data formatted for our native model? */ #define IOC_CONVERT_FROM(iocp) ddi_model_convert_from( \ ((struct iocblk *)iocp)->ioc_flag) /* * structure for the M_COPYIN and M_COPYOUT message types. */ #if defined(_LP64) struct copyreq { int cq_cmd; /* ioctl command (from ioc_cmd) */ cred_t *cq_cr; /* full credentials (from ioc_cmd) */ uint_t cq_id; /* ioctl id (from ioc_id) */ uint_t cq_flag; /* must be zero */ mblk_t *cq_private; /* private state information */ caddr_t cq_addr; /* address to copy data to/from */ size_t cq_size; /* number of bytes to copy */ }; #else struct copyreq { int cq_cmd; /* ioctl command (from ioc_cmd) */ cred_t *cq_cr; /* full credentials */ uint_t cq_id; /* ioctl id (from ioc_id) */ caddr_t cq_addr; /* address to copy data to/from */ size_t cq_size; /* number of bytes to copy */ uint_t cq_flag; /* must be zero */ mblk_t *cq_private; /* private state information */ int cq_filler[4]; /* reserved for future use */ }; #endif /* _LP64 */ /* * structure for the M_IOCDATA message type. */ #if defined(_LP64) struct copyresp { int cp_cmd; /* ioctl command (from ioc_cmd) */ cred_t *cp_cr; /* full credentials (from ioc_cmd) */ uint_t cp_id; /* ioctl id (from ioc_id) */ uint_t cp_flag; /* datamodel IOC_ flags; see above */ mblk_t *cp_private; /* private state information */ caddr_t cp_rval; /* status of request: 0 -> success */ /* non-zero -> failure */ }; #else struct copyresp { int cp_cmd; /* ioctl command (from ioc_cmd) */ cred_t *cp_cr; /* full credentials */ uint_t cp_id; /* ioctl id (from ioc_id) */ caddr_t cp_rval; /* status of request: 0 -> success */ /* non-zero -> failure */ size_t cp_pad1; uint_t cp_pad2; mblk_t *cp_private; /* private state information */ uint_t cp_flag; /* datamodel IOC_ flags; see above */ int cp_filler[3]; }; #endif /* _LP64 */ /* * Since these structures are all intended to travel in the same message * at different stages of a STREAMS ioctl, this union is used to determine * the message size in strdoioctl(). */ union ioctypes { struct iocblk iocblk; struct copyreq copyreq; struct copyresp copyresp; }; /* * Options structure for M_SETOPTS message. This is sent upstream * by a module or driver to set stream head options. */ struct stroptions { uint_t so_flags; /* options to set */ short so_readopt; /* read option */ ushort_t so_wroff; /* write offset */ ssize_t so_minpsz; /* minimum read packet size */ ssize_t so_maxpsz; /* maximum read packet size */ size_t so_hiwat; /* read queue high water mark */ size_t so_lowat; /* read queue low water mark */ unsigned char so_band; /* band for water marks */ ushort_t so_erropt; /* error option */ ssize_t so_maxblk; /* maximum message block size */ ushort_t so_copyopt; /* copy options (see stropts.h) */ ushort_t so_tail; /* space available at the end */ }; /* flags for stream options set message */ #define SO_ALL 0x003f /* set all old options */ #define SO_READOPT 0x0001 /* set read option */ #define SO_WROFF 0x0002 /* set write offset */ #define SO_MINPSZ 0x0004 /* set min packet size */ #define SO_MAXPSZ 0x0008 /* set max packet size */ #define SO_HIWAT 0x0010 /* set high water mark */ #define SO_LOWAT 0x0020 /* set low water mark */ #define SO_MREADON 0x0040 /* set read notification ON */ #define SO_MREADOFF 0x0080 /* set read notification OFF */ #define SO_NDELON 0x0100 /* old TTY semantics for NDELAY reads/writes */ #define SO_NDELOFF 0x0200 /* STREAMS semantics for NDELAY reads/writes */ #define SO_ISTTY 0x0400 /* the stream is acting as a terminal */ #define SO_ISNTTY 0x0800 /* the stream is not acting as a terminal */ #define SO_TOSTOP 0x1000 /* stop on background writes to this stream */ #define SO_TONSTOP 0x2000 /* do not stop on background writes to stream */ #define SO_BAND 0x4000 /* water marks affect band */ #define SO_DELIM 0x8000 /* messages are delimited */ #define SO_NODELIM 0x010000 /* turn off delimiters */ #define SO_STRHOLD 0x020000 /* No longer implemented */ #define SO_ERROPT 0x040000 /* set error option */ #define SO_COPYOPT 0x080000 /* copy option(s) present */ #define SO_MAXBLK 0x100000 /* set maximum message block size */ #define SO_TAIL 0x200000 /* set the extra allocated space */ #ifdef _KERNEL /* * Structure for rw (read/write) procedure calls. A pointer * to a struiod_t is passed as a parameter to the rwnext() call. * * Note: DEF_IOV_MAX is defined and used as it is in "fs/vncalls.c" * as there isn't a formal definition of IOV_MAX ??? */ #define DEF_IOV_MAX 16 struct struiod { mblk_t *d_mp; /* pointer to mblk (chain) */ uio_t d_uio; /* uio info */ iovec_t d_iov[DEF_IOV_MAX]; /* iov referenced by uio */ }; /* * Structure for information procedure calls. */ struct infod { unsigned char d_cmd; /* info info request command */ unsigned char d_res; /* info info command results */ int d_bytes; /* mblk(s) byte count */ int d_count; /* count of mblk(s) */ uio_t *d_uiop; /* pointer to uio struct */ }; /* * Values for d_cmd & d_res. */ #define INFOD_FIRSTBYTES 0x02 /* return msgbsize() of first mblk */ #define INFOD_BYTES 0x04 /* return msgbsize() of all mblk(s) */ #define INFOD_COUNT 0x08 /* return count of mblk(s) */ #define INFOD_COPYOUT 0x10 /* copyout any M_DATA mblk(s) */ /* * Structure used by _I_CMD mechanism, similar in spirit to iocblk. */ typedef struct cmdblk { int cb_cmd; /* ioctl command type */ cred_t *cb_cr; /* full credentials */ uint_t cb_len; /* payload size */ int cb_error; /* error code */ } cmdblk_t; #endif /* _KERNEL */ /* * Miscellaneous parameters and flags. */ /* * Values for stream flag in open to indicate module open, clone open, * and the return value for failure. */ #define MODOPEN 0x1 /* open as a module */ #define CLONEOPEN 0x2 /* clone open; pick own minor dev */ #define OPENFAIL -1 /* returned for open failure */ /* * Priority definitions for block allocation. */ #define BPRI_LO 1 #define BPRI_MED 2 #define BPRI_HI 3 /* * Value for packet size that denotes infinity */ #define INFPSZ -1 /* * Flags for flushq() */ #define FLUSHALL 1 /* flush all messages */ #define FLUSHDATA 0 /* don't flush control messages */ /* * Flag for transparent ioctls */ #define TRANSPARENT (unsigned int)(-1) /* * Stream head default high/low water marks */ #define STRHIGH 5120 #define STRLOW 1024 /* * qwriter perimeter types */ #define PERIM_INNER 1 /* The inner perimeter */ #define PERIM_OUTER 2 /* The outer perimeter */ /* * Definitions of Streams macros and function interfaces. */ /* * canenable - check if queue can be enabled by putq(). */ #define canenable(q) !((q)->q_flag & QNOENB) /* * Test if data block type is one of the data messages (i.e. not a control * message). */ #define datamsg(type) \ ((type) == M_DATA || \ (type) == M_MULTIDATA || \ (type) == M_PROTO || \ (type) == M_PCPROTO || \ (type) == M_DELAY) /* * Extract queue class of message block. */ #define queclass(bp) (((bp)->b_datap->db_type >= QPCTL) ? QPCTL : QNORM) /* * Align address on next lower word boundary. */ #define straln(a) (caddr_t)((intptr_t)(a) & -(sizeof (int)-1)) /* * Find the max size of data block. */ #define bpsize(bp) ((unsigned int)(bp->b_datap->db_lim - bp->b_datap->db_base)) #ifdef _KERNEL /* * For two-byte M_ERROR messages: indication that a side does not have an error */ #define NOERROR ((unsigned char)-1) /* * declarations of common routines */ extern mblk_t *allocb(size_t, uint_t); extern mblk_t *desballoc(unsigned char *, size_t, uint_t, frtn_t *); extern mblk_t *esballoc(unsigned char *, size_t, uint_t, frtn_t *); extern bcache_t *bcache_create(char *, size_t, uint_t); extern void bcache_destroy(bcache_t *); extern mblk_t *bcache_allocb(bcache_t *, uint_t); extern mblk_t *mkiocb(uint_t); extern int testb(size_t, uint_t); extern bufcall_id_t bufcall(size_t, uint_t, void (*)(void *), void *); extern bufcall_id_t esbbcall(uint_t, void (*)(void *), void *); extern void freeb(struct msgb *); extern void freemsg(mblk_t *); extern mblk_t *dupb(mblk_t *); extern mblk_t *dupmsg(mblk_t *); extern mblk_t *dupmsg_noloan(mblk_t *); extern mblk_t *copyb(mblk_t *); extern mblk_t *copymsg(mblk_t *); extern void linkb(mblk_t *, mblk_t *); extern mblk_t *unlinkb(mblk_t *); extern mblk_t *reallocb(mblk_t *, size_t, uint_t); /* private */ extern mblk_t *rmvb(mblk_t *, mblk_t *); extern int pullupmsg(struct msgb *, ssize_t); extern mblk_t *msgpullup(struct msgb *, ssize_t); extern int adjmsg(struct msgb *, ssize_t); extern size_t msgdsize(struct msgb *); extern mblk_t *getq(queue_t *); extern void rmvq(queue_t *, mblk_t *); extern void flushq(queue_t *, int); extern void flushq_common(queue_t *, int, int); extern void flushband(queue_t *, unsigned char, int); extern int canput(queue_t *); extern int bcanput(queue_t *, unsigned char); extern int canputnext(queue_t *); extern int bcanputnext(queue_t *, unsigned char); extern int putq(queue_t *, mblk_t *); extern int putbq(queue_t *, mblk_t *); extern int insq(queue_t *, mblk_t *, mblk_t *); extern void put(queue_t *, mblk_t *); extern void putnext(queue_t *, mblk_t *); extern int putctl(queue_t *, int); extern int putctl1(queue_t *, int, int); extern int putnextctl(queue_t *, int); extern int putnextctl1(queue_t *, int, int); extern queue_t *backq(queue_t *); extern void qreply(queue_t *, mblk_t *); extern void qenable(queue_t *); extern int qsize(queue_t *); extern void noenable(queue_t *); extern void enableok(queue_t *); extern int strqset(queue_t *, qfields_t, unsigned char, intptr_t); extern int strqget(queue_t *, qfields_t, unsigned char, void *); extern void unbufcall(bufcall_id_t); extern void qprocson(queue_t *); extern void qprocsoff(queue_t *); extern void freezestr(queue_t *); extern void unfreezestr(queue_t *); extern void qwait(queue_t *); extern int qwait_sig(queue_t *); extern boolean_t qwait_rw(queue_t *); extern void qwriter(queue_t *, mblk_t *, void (*func)(), int); extern timeout_id_t qtimeout(queue_t *, void (*func)(void *), void *, clock_t); extern bufcall_id_t qbufcall(queue_t *, size_t, uint_t, void (*)(void *), void *); extern clock_t quntimeout(queue_t *, timeout_id_t); extern void qunbufcall(queue_t *, bufcall_id_t); extern void strwakeq(queue_t *, int); extern int struioget(queue_t *, mblk_t *, struiod_t *, int); extern int rwnext(queue_t *, struiod_t *); extern int infonext(queue_t *, infod_t *); extern int isuioq(queue_t *); extern void create_putlocks(queue_t *, int); extern int mp_cont_len(mblk_t *, int *); /* * shared or externally configured data structures */ extern int nstrpush; /* maximum number of pushes allowed */ #endif /* _KERNEL */ #ifdef __cplusplus } #endif #endif /* _SYS_STREAM_H */