/* $NetBSD: zbus.c,v 1.74 2016/10/03 14:26:02 rkujawa Exp $ */ /* * Copyright (c) 1994 Christian E. Hopps * 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 Christian E. Hopps. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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. */ #include __KERNEL_RCSID(0, "$NetBSD: zbus.c,v 1.74 2016/10/03 14:26:02 rkujawa Exp $"); #include #include #include #include #include #include #include #include #include #include #include "z3rambd.h" struct aconfdata { const char *name; int manid; int prodid; }; struct preconfdata { int manid; int prodid; void *vaddr; }; struct quirksdata { int manid; int prodid; uint8_t quirks; }; vaddr_t ZTWOROMADDR; vaddr_t ZTWOMEMADDR; u_int NZTWOMEMPG; vaddr_t ZBUSADDR; /* kva of Zorro bus I/O pages */ u_int ZBUSAVAIL; /* bytes of Zorro bus I/O space left */ /* * explain the names.. 0123456789 => zothfisven */ static const struct aconfdata aconftab[] = { /* Commodore Amiga */ { "atzee", 513, 1 }, { "atzsc", 514, 2 }, { "atzsc", 514, 3 }, { "bah", 514, 9 }, /* A2060 */ { "ql", 514, 69 }, { "ql", 514, 70 }, { "atfsc", 514, 84 }, { "le", 514, 112 }, /* Ameristar */ { "le", 1053, 1 }, { "bah", 1053, 9 }, /* A2060 */ { "es", 1053, 10 }, /* University of Lowell */ { "grful", 1030, 0 }, /* DMI */ { "grfrs", 2129, 1 }, /* Resolver graphics board */ /* Macrosystems */ { "grfrt", 18260, 6 }, { "grfrh", 18260, 16}, /* Retina BLT Z3 */ { "grfrh", 18260, 19}, /* Altais */ /* Greater valley products */ { "gvpbus", 2017, 2 }, { "gvpbus", 2017, 11 }, { "giv", 2017, 32 }, { "gio", 2017, 255 }, /* progressive perhiperals */ { "zssc", 2026, 150 }, { "ppia", 2026, 187 }, { "ppta", 2026, 105 }, { "ppha", 2026, 1 }, { "mrsc", 2026, 0 }, /* CSA */ { "mgnsc", 1058, 17 }, { "otgsc", 1058, 21 }, /* Microbotics */ { "vhzsc", 1010, 69 }, /* Supra */ { "wstsc", 1056, 12 }, { "wstsc", 1056, 13 }, /* IVS */ { "itrmp", 2112, 48 }, { "itrmp", 2112, 52 }, { "ivasc", 2112, 242 }, { "ivsc", 2112, 243 }, /* Hydra */ { "ed", 2121, 1 }, /* ASDG */ { "ed", 1023, 254 }, /* Village Tronic Ariadne */ { "le", 2167, 201}, /* Village Tronic Ariadne II */ { "ne", 2167, 202}, /* bsc/Alf Data */ { "Tandem", 2092, 6 }, /* Tandem AT disk controller */ { "mfc", 2092, 16 }, { "mfc", 2092, 17 }, { "mfc", 2092, 18 }, /* Cirrus CL GD 5426 -> Picasso, Piccolo, EGS Spectrum */ { "grfcl", 2167, 11}, /* PicassoII mem */ { "grfcl", 2167, 12}, /* PicassoII regs */ { "grfcl", 2167, 21}, /* PicassoIV Z2 mem1 */ { "grfcl", 2167, 22}, /* PicassoIV Z2 mem2 */ { "grfcl", 2167, 23}, /* PicassoIV Z2 regs */ { "grfcl", 2167, 24}, /* PicassoIV Z3 */ { "grfcl", 2193, 2}, /* Spectrum mem */ { "grfcl", 2193, 1}, /* Spectrum regs */ { "grfcl", 2195, 5}, /* Piccolo mem */ { "grfcl", 2195, 6}, /* Piccolo regs */ { "grfcl", 2195, 10}, /* Piccolo SD64 mem */ { "grfcl", 2195, 11}, /* Piccolo SD64 regs */ /* MacroSystemsUS */ { "wesc", 2203, 19}, /* Warp engine */ /* phase 5 digital products */ { "flmem", 8512, 10}, /* FastlaneZ3 memory */ { "flsc", 8512, 11}, /* FastlaneZ3 */ { "cbsc", 8512, 12}, /* Cyberstorm Mk I SCSI */ { "bzivsc", 8512, 17}, /* Blizzard IV SCSI */ { "bztzsc", 8512, 24}, /* Blizzard 2060 SCSI */ { "cbiisc", 8512, 25}, /* Cyberstorm Mk II SCSI */ { "grfcv", 8512, 34}, /* CyberVison 64 */ { "grfcv3d", 8512, 67}, /* CyberVison 64/3D */ { "cbiiisc", 8512, 100}, /* Cyberstorm Mk III SCSI */ { "p5pb", 8512, 101}, /* CyberVisionPPC / BlizzardVisionPPC */ { "bppcsc", 8512, 110}, /* Blizzard 603e+ SCSI */ /* Hacker Inc. */ { "mlhsc", 2011, 1 }, /* Resource Management Force */ { "qn", 2011, 2 }, /* QuickNet Ethernet */ /* ??? */ { "empsc", 2171, 21 }, /* Emplant SCSI */ { "empsc", 2171, 32 }, /* Emplant SCSI */ /* Tseng ET4000 boards */ { "grfet", 2117, 3 }, /* Merlin mem */ { "grfet", 2117, 4 }, /* Merlin regs */ { "grfet", 2167, 1 }, /* Domino mem */ { "grfet", 2167, 2 }, /* Domino regs */ { "grfet", 2167, 3 }, /* Domino regs (proto 16M) */ { "grfet", 2181, 0 }, /* oMniBus */ /* Advanced Systems */ { "nxsc", 2102, 1 }, /* Nexus SCSI board */ /* Masoboshi */ { "mcsc", 8535, 4 }, /* Masoboshi Mastercard 702 */ /* Apollo */ { "apssc", 8738, 35 }, /* Apollo '060 scsi */ /* KATO development */ { "aumld", 2145, 128 }, /* Melody MPEG layer 2 audio board */ /* Individual Computers Jens Schoenfeld */ { "buddha", 4626, 0 }, { "xsurf", 4626, 23 }, /* X-Surf Ethernet */ /* VMC Harald Frank */ { "blst", 5001, 1}, /* ISDN Blaster */ { "hyper4", 5001, 2}, /* Hypercom4-Zbus */ { "hyper3Z", 5001, 3}, /* Hypercom3-Zbus */ { "hyper4+", 5001, 6}, /* Hypercom4+ */ { "hyper3+", 5001, 7}, /* Hypercom3+ */ /* Matay Grzegorz Kraszewski */ { "mppb", 44359, 1}, /* Prometheus PCI bridge */ /* MNTMN */ { "mntva", 28014, 1} /* MNTMN VA2000 */ }; static int naconfent = sizeof(aconftab) / sizeof(struct aconfdata); /* * Anything listed in this table is subject to pre-configuration, * if autoconf.c:config_console() calls amiga_config_found() on * the Zorro III device. */ static struct preconfdata preconftab[] = { {18260, 6, 0 }, /* Retina Z2 */ /* grf1 */ {18260, 16, 0}, /* Retina BLT Z3 */ /* grf2 */ {18260, 19, 0}, /* Altais */ {2167, 11, 0}, /* PicassoII mem */ /* grf3 */ {2167, 12, 0}, /* PicassoII regs */ {2167, 21, 0}, /* PicassoIV Z2 mem1 */ {2167, 22, 0}, /* PicassoIV Z2 mem2 */ {2167, 23, 0}, /* PicassoIV Z2 regs */ {2167, 24, 0}, /* PicassoIV Z3 */ {2193, 2, 0}, /* Spectrum mem */ {2193, 1, 0}, /* Spectrum regs */ {2195, 5, 0}, /* Piccolo mem */ {2195, 6, 0}, /* Piccolo regs */ {2195, 10, 0}, /* Piccolo SD64 mem */ {2195, 11, 0}, /* Piccolo SD64 regs */ {1030, 0, 0}, /* Ulwl board */ /* grf4 */ {8512, 34, 0}, /* Cybervison 64 */ /* grf5 */ {2117, 3, 0}, /* Merlin mem */ /* grf6 */ {2117, 4, 0}, /* Merlin regs */ {2167, 1, 0}, /* Domino mem */ {2167, 2, 0}, /* Domino regs */ {2167, 3, 0}, /* Domino regs (proto 16M) */ {2181, 0, 0}, /* oMniBus mem or regs */ {8512, 67, 0} /* Cybervison 64/3D */ /* grf7 */ /* {28014, 1, 0} // MNTMN VA2000 */ }; static int npreconfent = sizeof(preconftab) / sizeof(struct preconfdata); /* * Quirks table. */ #define ZORRO_QUIRK_NO_ZBUSMAP 1 /* Don't map VA=PA in zbusattach. */ static struct quirksdata quirkstab[] = { {8512, 101, ZORRO_QUIRK_NO_ZBUSMAP} }; static int nquirksent = sizeof(quirkstab) / sizeof(struct quirksdata); void zbusattach(device_t, device_t, void *); int zbusprint(void *, const char *); int zbusmatch(device_t, cfdata_t, void *); static const char *aconflookup(int, int); /* * given a manufacturer id and product id, find quirks * for this board. */ static uint8_t quirkslookup(int mid, int pid) { const struct quirksdata *qdp, *eqdp; eqdp = &quirkstab[nquirksent]; for (qdp = quirkstab; qdp < eqdp; qdp++) if (qdp->manid == mid && qdp->prodid == pid) return(qdp->quirks); return(0); } /* * given a manufacturer id and product id, find the name * that describes this board. */ static const char * aconflookup(int mid, int pid) { const struct aconfdata *adp, *eadp; eadp = &aconftab[naconfent]; for (adp = aconftab; adp < eadp; adp++) if (adp->manid == mid && adp->prodid == pid) return(adp->name); return("board"); } /* * mainbus driver */ CFATTACH_DECL_NEW(zbus, 0, zbusmatch, zbusattach, NULL, NULL); static cfdata_t early_cfdata; /*ARGSUSED*/ int zbusmatch(device_t parent, cfdata_t cf, void *aux) { if (matchname(aux, "zbus") == 0) return(0); if (amiga_realconfig == 0) early_cfdata = cf; return(1); } /* * called to attach bus, we probe, i.e., scan configdev structs passed * in, for each found name call config_found() which will do this again * with that driver if matched else print a diag. */ void zbusattach(device_t parent, device_t self, void *aux) { struct zbus_args za; struct preconfdata *pcp, *epcp; struct cfdev *cdp, *ecdp; epcp = &preconftab[npreconfent]; ecdp = &cfdev[ncfdev]; if (amiga_realconfig) { if (ZTWOMEMADDR) printf(": mem 0x%08lx-0x%08lx", ZTWOMEMADDR, ZTWOMEMADDR + PAGE_SIZE * NZTWOMEMPG - 1); if (ZBUSAVAIL) printf (": i/o size 0x%08x", ZBUSAVAIL); printf("\n"); } for (cdp = cfdev; cdp < ecdp; cdp++) { for (pcp = preconftab; pcp < epcp; pcp++) { if (pcp->manid == cdp->rom.manid && pcp->prodid == cdp->rom.prodid) break; } if (amiga_realconfig == 0 && pcp >= epcp) continue; #if NZ3RAMBD > 0 if (z3rambd_match_id(cdp->rom.manid, cdp->rom.prodid) > 0) { } else #endif /* NZ3RAMBD */ /* * check if it's a Zorro II or III board and not linked into * MemList (i.e. not a memory board) */ switch (cdp->rom.type & (ERT_TYPEMASK | ERTF_MEMLIST)) { case ERT_ZORROII: case ERT_ZORROIII: break; default: continue; } za.pa = cdp->addr; za.size = cdp->size; za.manid = cdp->rom.manid; za.prodid = cdp->rom.prodid; za.serno = cdp->rom.serno; za.slot = (((u_long)za.pa >> 16) & 0xF) - 0x9; if (amiga_realconfig && pcp < epcp && pcp->vaddr) za.va = pcp->vaddr; else { if(quirkslookup(za.manid, za.prodid) != ZORRO_QUIRK_NO_ZBUSMAP) za.va = (void *) (isztwopa(za.pa) ? __UNVOLATILE(ztwomap(za.pa)) : zbusmap(za.pa, za.size)); /* * save value if early console init */ if (amiga_realconfig == 0) pcp->vaddr = za.va; } amiga_config_found(early_cfdata, self, &za, zbusprint); } } /* * print configuration info. */ int zbusprint(void *aux, const char *pnp) { struct zbus_args *zap; int rv; rv = UNCONF; zap = aux; if (pnp) { aprint_normal("%s at %s:", aconflookup(zap->manid, zap->prodid), pnp); if (zap->manid == -1) rv = UNSUPP; } aprint_normal(" pa %8p man/pro %d/%d", zap->pa, zap->manid, zap->prodid); return(rv); } /* * this function is used to map Zorro physical I/O addresses into kernel * virtual addresses. We don't keep track which address we map where, we don't * NEED to know this. We made sure in amiga_init.c (by scanning all available * Zorro devices) to have enough kva-space available, so there is no extra * range check done here. */ void * zbusmap(void *pa, u_int size) { #if defined(__m68k__) static vaddr_t nextkva = 0; vaddr_t kva; if (nextkva == 0) nextkva = ZBUSADDR; if (nextkva > ZBUSADDR + ZBUSAVAIL) return 0; /* size better be an integral multiple of the page size... */ kva = nextkva; nextkva += size; if (nextkva > ZBUSADDR + ZBUSAVAIL) panic("allocating too much Zorro I/O address space"); physaccess((void *)kva, (void *)pa, size, PG_RW|PG_CI); return((void *)kva); #else /* * XXX we use direct constant mapping */ return(pa); #endif }