/* $NetBSD: ubavar.h,v 1.13 1996/03/17 22:56:48 ragge Exp $ */ /* * Copyright (c) 1982, 1986 Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * @(#)ubavar.h 7.7 (Berkeley) 6/28/90 */ /* * This file contains definitions related to the kernel structures * for dealing with the unibus adapters. * * Each uba has a uba_softc structure. * Each unibus controller which is not a device has a uba_ctlr structure. * Each unibus device has a uba_device structure. */ #include #include #include /* For struct ivec_dsp */ /* * Per-uba structure. * * This structure holds the interrupt vector for the uba, * and its address in physical and virtual space. At boot time * we determine the devices attached to the uba's and their * interrupt vectors, filling in uh_vec. We free the map * register and bdp resources of the uba into the structures * defined here. * * During normal operation, resources are allocated and returned * to the structures here. We watch the number of passive releases * on each uba, and if the number is excessive may reset the uba. * * When uba resources are needed and not available, or if a device * which can tolerate no other uba activity (rk07) gets on the bus, * then device drivers may have to wait to get to the bus and are * queued here. It is also possible for processes to block in * the unibus driver in resource wait (mrwant, bdpwant); these * wait states are also recorded here. */ struct uba_softc { struct device uh_dev; /* Device struct, autoconfig */ int uh_type; /* type of adaptor */ struct uba_regs *uh_uba; /* virt addr of uba adaptor regs */ struct uba_regs *uh_physuba; /* phys addr of uba adaptor regs */ struct pte *uh_mr; /* start of page map */ int uh_memsize; /* size of uba memory, pages */ caddr_t uh_mem; /* start of uba memory address space */ caddr_t uh_iopage; /* start of uba io page */ void (**Nuh_vec)(); /* interrupt vector */ struct ivec_dsp *uh_idsp; /* Interrupt dispatch area */ u_int *uh_iarea; /* Interrupt vector array */ struct uba_device *uh_actf; /* head of queue to transfer */ struct uba_device *uh_actl; /* tail of queue to transfer */ short uh_mrwant; /* someone is waiting for map reg */ short uh_bdpwant; /* someone awaits bdp's */ int uh_bdpfree; /* free bdp's */ int uh_hangcnt; /* number of ticks hung */ int uh_zvcnt; /* number of recent 0 vectors */ long uh_zvtime; /* time over which zvcnt accumulated */ int uh_zvtotal; /* total number of 0 vectors */ int uh_errcnt; /* number of errors */ int uh_lastiv; /* last free interrupt vector */ short uh_users; /* transient bdp use count */ short uh_xclu; /* an rk07 is using this uba! */ int uh_lastmem; /* limit of any unibus memory */ #define UAMSIZ 100 struct map *uh_map; /* register free map */ struct ivec_dsp uh_dw780; /* Interrupt handles for DW780 */ }; /* given a pointer to uba_regs, find DWBUA registers */ /* this should be replaced with a union in uba_softc */ #define BUA(uba) ((struct dwbua_regs *)(uba)) /* * Per-controller structure. * (E.g. one for each disk and tape controller, and other things * which use and release buffered data paths.) * * If a controller has devices attached, then there are * cross-referenced uba_drive structures. * This structure is the one which is queued in unibus resource wait, * and saves the information about unibus resources which are used. * The queue of devices waiting to transfer is also attached here. */ struct uba_ctlr { struct uba_driver *um_driver; short um_ctlr; /* controller index in driver */ short um_ubanum; /* the uba it is on */ short um_alive; /* controller exists */ void (*um_intr)(); /* interrupt handler(s) */ caddr_t um_addr; /* address of device in i/o space */ struct uba_softc *um_hd; /* the driver saves the prototype command here for use in its go routine */ int um_cmd; /* communication to dgo() */ int um_ubinfo; /* save unibus registers, etc */ int um_bdp; /* for controllers that hang on to bdp's */ struct buf um_tab; /* queue of devices for this controller */ }; /* * Per ``device'' structure. * (A controller has devices or uses and releases buffered data paths). * (Everything else is a ``device''.) * * If a controller has many drives attached, then there will * be several uba_device structures associated with a single uba_ctlr * structure. * * This structure contains all the information necessary to run * a unibus device such as a dz or a dh. It also contains information * for slaves of unibus controllers as to which device on the slave * this is. A flags field here can also be given in the system specification * and is used to tell which dz lines are hard wired or other device * specific parameters. */ struct uba_device { struct uba_driver *ui_driver; short ui_unit; /* unit number on the system */ short ui_ctlr; /* mass ctlr number; -1 if none */ short ui_ubanum; /* the uba it is on */ short ui_slave; /* slave on controller */ void (*ui_intr)(); /* interrupt handler(s) */ caddr_t ui_addr; /* address of device in i/o space */ short ui_dk; /* if init 1 set to number for iostat */ int ui_flags; /* parameter from system specification */ short ui_alive; /* device exists */ short ui_type; /* driver specific type information */ caddr_t ui_physaddr; /* phys addr, for standalone (dump) code */ /* this is the forward link in a list of devices on a controller */ struct uba_device *ui_forw; /* if the device is connected to a controller, this is the controller */ struct uba_ctlr *ui_mi; struct uba_softc *ui_hd; }; /* * Per-driver structure. * * Each unibus driver defines entries for a set of routines * as well as an array of types which are acceptable to it. * These are used at boot time by the configuration program. */ struct uba_driver { int (*ud_probe)(); /* see if a driver is really there */ int (*ud_slave)(); /* see if a slave is there */ int (*ud_attach)(); /* setup driver for a slave */ int (*ud_dgo)(); /* fill csr/ba to start transfer */ u_short *ud_addr; /* device csr addresses */ char *ud_dname; /* name of a device */ struct uba_device **ud_dinfo; /* backpointers to ubdinit structs */ char *ud_mname; /* name of a controller */ struct uba_ctlr **ud_minfo; /* backpointers to ubminit structs */ short ud_xclu; /* want exclusive use of bdp's */ short ud_keepbdp; /* hang on to bdp's once allocated */ int (*ud_ubamem)(); /* see if dedicated memory is present */ }; /* * uba_attach_args is used during autoconfiguration. It is sent * from ubascan() to each (possible) device. */ struct uba_attach_args { caddr_t ua_addr; void (*ua_ivec)(); int ua_iarg; int ua_iaddr; int ua_br; int ua_cvec; }; /* * Flags to UBA map/bdp allocation routines */ #define UBA_NEEDBDP 0x01 /* transfer needs a bdp */ #define UBA_CANTWAIT 0x02 /* don't block me */ #define UBA_NEED16 0x04 /* need 16 bit addresses only */ #define UBA_HAVEBDP 0x08 /* use bdp specified in high bits */ /* * Macros to bust return word from map allocation routines. * SHOULD USE STRUCTURE TO STORE UBA RESOURCE ALLOCATION: */ #ifdef notyet struct ubinfo { long ub_addr; /* unibus address: mr + boff */ int ub_nmr; /* number of registers, 0 if empty */ int ub_bdp; /* bdp number, 0 if none */ }; #define UBAI_MR(i) (((i) >> 9) & 0x7ff) /* starting map register */ #define UBAI_BOFF(i) ((i)&0x1ff) /* page offset */ #else #define UBAI_BDP(i) ((int)(((unsigned)(i)) >> 28)) #define BDPMASK 0xf0000000 #define UBAI_NMR(i) ((int)((i) >> 20) & 0xff) /* max 255 (=127.5K) */ #define UBA_MAXNMR 255 #define UBAI_MR(i) ((int)((i) >> 9) & 0x7ff) /* max 2047 */ #define UBA_MAXMR 2047 #define UBAI_BOFF(i) ((int)((i) & 0x1ff)) #define UBAI_ADDR(i) ((int)((i) & 0xfffff)) /* uba addr (boff+mr) */ #define UBAI_INFO(off, mr, nmr, bdp) \ (((bdp) << 28) | ((nmr) << 20) | ((mr) << 9) | (off)) #endif #ifndef _LOCORE #ifdef _KERNEL #define ubago(ui) ubaqueue(ui, 0) /* * Ubminit and ubdinit initialize the mass storage controller and * device tables specifying possible devices. */ extern struct uba_ctlr ubminit[]; extern struct uba_device ubdinit[]; extern struct cfdriver uba_cd; void ubainit __P((struct uba_softc *)); void ubasetvec __P((struct device *, int, void (*)())); int uballoc __P((int, caddr_t, int, int)); void ubarelse __P((int, int *)); #endif /* _KERNEL */ #endif !_LOCORE