/* * Copyright (c) 1980, 1993 * The 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. */ #ifndef lint #if 0 static char sccsid[] = "@(#)mkioconf.c 8.2 (Berkeley) 1/21/94"; #endif static const char rcsid[] = "$Id: mkioconf.c,v 1.47 1999/02/05 16:49:18 bde Exp $"; #endif /* not lint */ #include #include #include "y.tab.h" #include "config.h" /* * build the ioconf.c file */ char *qu(); char *intv(); char *wnum(); void pseudo_ioconf(); void comp_config __P((FILE *)); void scbus_devtab __P((FILE *, int *)); void isa_devtab __P((FILE *, char *, int *)); void isa_biotab __P((FILE *, char *)); void i386_ioconf __P((void)); void hp300_ioconf __P((void)); int hpbadslave __P((struct device *, struct device *)); void tahoe_ioconf __P((void)); void vax_ioconf __P((void)); #if MACHINE_VAX void vax_ioconf() { register struct device *dp, *mp, *np; register int uba_n, slave; FILE *fp; fp = fopen(path("ioconf.c"), "w"); if (fp == 0) err(1, "%s", path("ioconf.c")); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "\n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \n\n"); fprintf(fp, "\n"); fprintf(fp, "#define C (caddr_t)\n\n"); /* * First print the mba initialization structures */ if (seen_mba) { for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (mp == 0 || mp == TO_NEXUS || !eq(mp->d_name, "mba")) continue; fprintf(fp, "extern struct mba_driver %sdriver;\n", dp->d_name); } fprintf(fp, "\nstruct mba_device mbdinit[] = {\n"); fprintf(fp, "\t/* Device, Unit, Mba, Drive, Dk */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_unit == QUES || mp == 0 || mp == TO_NEXUS || !eq(mp->d_name, "mba")) continue; if (dp->d_addr) { printf("can't specify csr address on mba for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_vec != 0) { printf("can't specify vector for %s%d on mba\n", dp->d_name, dp->d_unit); continue; } if (dp->d_drive == UNKNOWN) { printf("drive not specified for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_slave != UNKNOWN) { printf("can't specify slave number for %s%d\n", dp->d_name, dp->d_unit); continue; } fprintf(fp, "\t{ &%sdriver, %d, %s,", dp->d_name, dp->d_unit, qu(mp->d_unit)); fprintf(fp, " %s, %d },\n", qu(dp->d_drive), dp->d_dk); } fprintf(fp, "\t0\n};\n\n"); /* * Print the mbsinit structure * Driver Controller Unit Slave */ fprintf(fp, "struct mba_slave mbsinit [] = {\n"); fprintf(fp, "\t/* Driver, Ctlr, Unit, Slave */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { /* * All slaves are connected to something which * is connected to the massbus. */ if ((mp = dp->d_conn) == 0 || mp == TO_NEXUS) continue; np = mp->d_conn; if (np == 0 || np == TO_NEXUS || !eq(np->d_name, "mba")) continue; fprintf(fp, "\t{ &%sdriver, %s", mp->d_name, qu(mp->d_unit)); fprintf(fp, ", %2d, %s },\n", dp->d_unit, qu(dp->d_slave)); } fprintf(fp, "\t0\n};\n\n"); } /* * Now generate interrupt vectors for the unibus */ for (dp = dtab; dp != 0; dp = dp->d_next) { if (dp->d_vec != 0) { struct idlst *ip; mp = dp->d_conn; if (mp == 0 || mp == TO_NEXUS || (!eq(mp->d_name, "uba") && !eq(mp->d_name, "bi"))) continue; fprintf(fp, "extern struct uba_driver %sdriver;\n", dp->d_name); fprintf(fp, "extern "); ip = dp->d_vec; for (;;) { fprintf(fp, "X%s%d()", ip->id, dp->d_unit); ip = ip->id_next; if (ip == 0) break; fprintf(fp, ", "); } fprintf(fp, ";\n"); fprintf(fp, "int\t (*%sint%d[])() = { ", dp->d_name, dp->d_unit); ip = dp->d_vec; for (;;) { fprintf(fp, "X%s%d", ip->id, dp->d_unit); ip = ip->id_next; if (ip == 0) break; fprintf(fp, ", "); } fprintf(fp, ", 0 } ;\n"); } } fprintf(fp, "\nstruct uba_ctlr ubminit[] = {\n"); fprintf(fp, "/*\t driver,\tctlr,\tubanum,\talive,\tintr,\taddr */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_type != CONTROLLER || mp == TO_NEXUS || mp == 0 || !eq(mp->d_name, "uba")) continue; if (dp->d_vec == 0) { printf("must specify vector for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_addr == 0) { printf("must specify csr address for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("drives need their own entries; dont "); printf("specify drive or slave for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_flags) { printf("controllers (e.g. %s%d) ", dp->d_name, dp->d_unit); printf("don't have flags, only devices do\n"); continue; } fprintf(fp, "\t{ &%sdriver,\t%d,\t%s,\t0,\t%sint%d, C 0%o },\n", dp->d_name, dp->d_unit, qu(mp->d_unit), dp->d_name, dp->d_unit, dp->d_addr); } fprintf(fp, "\t0\n};\n"); /* unibus devices */ fprintf(fp, "\nstruct uba_device ubdinit[] = {\n"); fprintf(fp, "\t/* driver, unit, ctlr, ubanum, slave, intr, addr, dk, flags*/\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_unit == QUES || dp->d_type != DEVICE || mp == 0 || mp == TO_NEXUS || mp->d_type == MASTER || eq(mp->d_name, "mba")) continue; np = mp->d_conn; if (np != 0 && np != TO_NEXUS && eq(np->d_name, "mba")) continue; np = 0; if (eq(mp->d_name, "uba")) { if (dp->d_vec == 0) { printf("must specify vector for device %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_addr == 0) { printf("must specify csr for device %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("drives/slaves can be specified "); printf("only for controllers, "); printf("not for device %s%d\n", dp->d_name, dp->d_unit); continue; } uba_n = mp->d_unit; slave = QUES; } else { if ((np = mp->d_conn) == 0) { printf("%s%d isn't connected to anything ", mp->d_name, mp->d_unit); printf(", so %s%d is unattached\n", dp->d_name, dp->d_unit); continue; } uba_n = np->d_unit; if (dp->d_drive == UNKNOWN) { printf("must specify ``drive number'' "); printf("for %s%d\n", dp->d_name, dp->d_unit); continue; } /* NOTE THAT ON THE UNIBUS ``drive'' IS STORED IN */ /* ``SLAVE'' AND WE DON'T WANT A SLAVE SPECIFIED */ if (dp->d_slave != UNKNOWN) { printf("slave numbers should be given only "); printf("for massbus tapes, not for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_vec != 0) { printf("interrupt vectors should not be "); printf("given for drive %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_addr != 0) { printf("csr addresses should be given only "); printf("on controllers, not on %s%d\n", dp->d_name, dp->d_unit); continue; } slave = dp->d_drive; } fprintf(fp, "\t{ &%sdriver, %2d, %s,", eq(mp->d_name, "uba") ? dp->d_name : mp->d_name, dp->d_unit, eq(mp->d_name, "uba") ? " -1" : qu(mp->d_unit)); fprintf(fp, " %s, %2d, %s, C 0%-6o, %d, 0x%x },\n", qu(uba_n), slave, intv(dp), dp->d_addr, dp->d_dk, dp->d_flags); } fprintf(fp, "\t0\n};\n"); pseudo_ioconf(fp); (void) fclose(fp); } #endif #if MACHINE_TAHOE void tahoe_ioconf() { register struct device *dp, *mp, *np; register int vba_n, slave; FILE *fp; fp = fopen(path("ioconf.c"), "w"); if (fp == 0) err(1, "%s", path("ioconf.c")); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "\n"); fprintf(fp, "#include \n"); fprintf(fp, "\n"); fprintf(fp, "#define C (caddr_t)\n\n"); /* * Now generate interrupt vectors for the versabus */ for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (mp == 0 || mp == TO_NEXUS || !eq(mp->d_name, "vba")) continue; if (dp->d_vec != 0) { struct idlst *ip; fprintf(fp, "extern struct vba_driver %sdriver;\n", dp->d_name); fprintf(fp, "extern "); ip = dp->d_vec; for (;;) { fprintf(fp, "X%s%d()", ip->id, dp->d_unit); ip = ip->id_next; if (ip == 0) break; fprintf(fp, ", "); } fprintf(fp, ";\n"); fprintf(fp, "int\t (*%sint%d[])() = { ", dp->d_name, dp->d_unit); ip = dp->d_vec; for (;;) { fprintf(fp, "X%s%d", ip->id, dp->d_unit); ip = ip->id_next; if (ip == 0) break; fprintf(fp, ", "); } fprintf(fp, ", 0 } ;\n"); } else if (dp->d_type == DRIVER) /* devices w/o interrupts */ fprintf(fp, "extern struct vba_driver %sdriver;\n", dp->d_name); } fprintf(fp, "\nstruct vba_ctlr vbminit[] = {\n"); fprintf(fp, "/*\t driver,\tctlr,\tvbanum,\talive,\tintr,\taddr */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_type != CONTROLLER || mp == TO_NEXUS || mp == 0 || !eq(mp->d_name, "vba")) continue; if (dp->d_vec == 0) { printf("must specify vector for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_addr == 0) { printf("must specify csr address for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("drives need their own entries; dont "); printf("specify drive or slave for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_flags) { printf("controllers (e.g. %s%d) ", dp->d_name, dp->d_unit); printf("don't have flags, only devices do\n"); continue; } fprintf(fp, "\t{ &%sdriver,\t%d,\t%s,\t0,\t%sint%d, C 0x%x },\n", dp->d_name, dp->d_unit, qu(mp->d_unit), dp->d_name, dp->d_unit, dp->d_addr); } fprintf(fp, "\t0\n};\n"); /* versabus devices */ fprintf(fp, "\nstruct vba_device vbdinit[] = {\n"); fprintf(fp, "\t/* driver, unit, ctlr, vbanum, slave, intr, addr, dk, flags*/\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_unit == QUES || dp->d_type != DEVICE || mp == 0 || mp == TO_NEXUS || mp->d_type == MASTER || eq(mp->d_name, "mba")) continue; np = mp->d_conn; if (np != 0 && np != TO_NEXUS && eq(np->d_name, "mba")) continue; np = 0; if (eq(mp->d_name, "vba")) { if (dp->d_vec == 0) printf( "Warning, no interrupt vector specified for device %s%d\n", dp->d_name, dp->d_unit); if (dp->d_addr == 0) { printf("must specify csr for device %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("drives/slaves can be specified "); printf("only for controllers, "); printf("not for device %s%d\n", dp->d_name, dp->d_unit); continue; } vba_n = mp->d_unit; slave = QUES; } else { if ((np = mp->d_conn) == 0) { printf("%s%d isn't connected to anything ", mp->d_name, mp->d_unit); printf(", so %s%d is unattached\n", dp->d_name, dp->d_unit); continue; } vba_n = np->d_unit; if (dp->d_drive == UNKNOWN) { printf("must specify ``drive number'' "); printf("for %s%d\n", dp->d_name, dp->d_unit); continue; } /* NOTE THAT ON THE UNIBUS ``drive'' IS STORED IN */ /* ``SLAVE'' AND WE DON'T WANT A SLAVE SPECIFIED */ if (dp->d_slave != UNKNOWN) { printf("slave numbers should be given only "); printf("for massbus tapes, not for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_vec != 0) { printf("interrupt vectors should not be "); printf("given for drive %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_addr != 0) { printf("csr addresses should be given only "); printf("on controllers, not on %s%d\n", dp->d_name, dp->d_unit); continue; } slave = dp->d_drive; } fprintf(fp, "\t{ &%sdriver, %2d, %s,", eq(mp->d_name, "vba") ? dp->d_name : mp->d_name, dp->d_unit, eq(mp->d_name, "vba") ? " -1" : qu(mp->d_unit)); fprintf(fp, " %s, %2d, %s, C 0x%-6x, %d, 0x%x },\n", qu(vba_n), slave, intv(dp), dp->d_addr, dp->d_dk, dp->d_flags); } fprintf(fp, "\t0\n};\n"); pseudo_ioconf(fp); (void) fclose(fp); } #endif #if MACHINE_HP300 || MACHINE_LUNA68K void hp300_ioconf() { register struct device *dp, *mp; register int hpib, slave; FILE *fp; fp = fopen(path("ioconf.c"), "w"); if (fp == 0) err(1, "%s", path("ioconf.c")); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "\n"); if (machine == MACHINE_HP300) fprintf(fp, "#include \n\n"); else fprintf(fp, "#include \n\n"); fprintf(fp, "\n"); fprintf(fp, "#define C (caddr_t)\n"); fprintf(fp, "#define D (struct driver *)\n\n"); /* * First print the hpib controller initialization structures */ for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_unit == QUES || mp == 0) continue; fprintf(fp, "extern struct driver %sdriver;\n", dp->d_name); } fprintf(fp, "\nstruct hp_ctlr hp_cinit[] = {\n"); fprintf(fp, "/*\tdriver,\t\tunit,\talive,\taddr,\tflags */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_unit == QUES || (dp->d_type != MASTER && dp->d_type != CONTROLLER)) continue; if (mp != TO_NEXUS) { printf("%s%s must be attached to an sc (nexus)\n", dp->d_name, wnum(dp->d_unit)); continue; } if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("can't specify drive/slave for %s%s\n", dp->d_name, wnum(dp->d_unit)); continue; } fprintf(fp, "\t{ &%sdriver,\t%d,\t0,\tC 0x%x,\t0x%x },\n", dp->d_name, dp->d_unit, dp->d_addr, dp->d_flags); } fprintf(fp, "\t0\n};\n"); /* devices */ fprintf(fp, "\nstruct hp_device hp_dinit[] = {\n"); fprintf(fp, "/*driver,\tcdriver,\tunit,\tctlr,\tslave,\taddr,\tdk,\tflags*/\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (mp == 0 || dp->d_type != DEVICE || hpbadslave(mp, dp)) continue; if (mp == TO_NEXUS) { if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("can't specify drive/slave for %s%s\n", dp->d_name, wnum(dp->d_unit)); continue; } slave = QUES; hpib = QUES; } else { if (dp->d_addr != 0) { printf("can't specify sc for device %s%s\n", dp->d_name, wnum(dp->d_unit)); continue; } if (mp->d_type == CONTROLLER) { if (dp->d_drive == UNKNOWN) { printf("must specify drive for %s%s\n", dp->d_name, wnum(dp->d_unit)); continue; } slave = dp->d_drive; } else { if (dp->d_slave == UNKNOWN) { printf("must specify slave for %s%s\n", dp->d_name, wnum(dp->d_unit)); continue; } slave = dp->d_slave; } hpib = mp->d_unit; } fprintf(fp, "{ &%sdriver,\t", dp->d_name); if (mp == TO_NEXUS) fprintf(fp, "D 0x0,\t"); else fprintf(fp, "&%sdriver,", mp->d_name); fprintf(fp, "\t%d,\t%d,\t%d,\tC 0x%x,\t%d,\t0x%x },\n", dp->d_unit, hpib, slave, dp->d_addr, dp->d_dk, dp->d_flags); } fprintf(fp, "0\n};\n"); pseudo_ioconf(fp); (void) fclose(fp); } #define ishpibdev(n) (eq(n,"rd") || eq(n,"ct") || eq(n,"mt") || eq(n,"ppi")) #define isscsidev(n) (eq(n,"sd") || eq(n,"st") || eq(n,"ac")) int hpbadslave(mp, dp) register struct device *dp, *mp; { if ((mp == TO_NEXUS && ishpibdev(dp->d_name)) || (mp != TO_NEXUS && eq(mp->d_name, "hpib") && !ishpibdev(dp->d_name))) { printf("%s%s must be attached to an hpib\n", dp->d_name, wnum(dp->d_unit)); return (1); } if ((mp == TO_NEXUS && isscsidev(dp->d_name)) || (mp != TO_NEXUS && eq(mp->d_name, "scsi") && !isscsidev(dp->d_name))) { printf("%s%s must be attached to a scsi\n", dp->d_name, wnum(dp->d_unit)); return (1); } return (0); } #endif #if MACHINE_I386 char *sirq(); void i386_ioconf() { register struct device *dp, *mp; int dev_id; FILE *fp; static char *old_d_name; int count; fp = fopen(path("ioconf.c.new"), "w"); if (fp == 0) err(1, "%s", path("ioconf.c.new")); fprintf(fp, "/*\n"); fprintf(fp, " * I/O configuration.\n"); fprintf(fp, " * DO NOT EDIT-- this file is automatically generated.\n"); fprintf(fp, " */\n"); fprintf(fp, "\n"); fprintf(fp, "#include \n"); fprintf(fp, "\n"); fprintf(fp, "#define C (caddr_t)\n"); /* * First print the isa initialization structures */ if (seen_isa) { int seen_wdc = 0, seen_fdc = 0; fprintf(fp, "\n"); fprintf(fp, "/*\n"); fprintf(fp, " * ISA devices.\n"); fprintf(fp, " */\n"); fprintf(fp, "\n"); fprintf(fp, "#include \n"); if (machine == MACHINE_I386) fprintf(fp, "#include \n"); else fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (mp == 0 || mp == TO_NEXUS || !eq(mp->d_name, "isa")) continue; if (old_d_name == NULL || !eq(dp->d_name, old_d_name)) { old_d_name = dp->d_name; fprintf(fp, "extern struct isa_driver %3sdriver;\n", old_d_name); } if (eq(dp->d_name, "wdc")) seen_wdc++; if (eq(dp->d_name, "fdc")) seen_fdc++; if ((dp->d_irq == 2) && (machine == MACHINE_I386)) { fprintf(stderr, "remapped irq 2 to irq 9, please update your config file\n"); dp->d_irq = 9; } } dev_id = 10; /* XXX must match mkglue.c */ isa_devtab(fp, "bio", &dev_id); if (seen_wdc) isa_biotab(fp, "wdc"); if (seen_fdc) isa_biotab(fp, "fdc"); isa_devtab(fp, "tty", &dev_id); isa_devtab(fp, "net", &dev_id); isa_devtab(fp, "cam", &dev_id); isa_devtab(fp, "ha", &dev_id); isa_devtab(fp, "null", &dev_id); } if (seen_scbus) scbus_devtab(fp, &dev_id); fprintf(fp, "\n"); fprintf(fp, "/*\n"); fprintf(fp, " * New bus architecture devices.\n"); fprintf(fp, " */\n"); fprintf(fp, "\n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "\n"); count = 0; fprintf(fp, "struct config_device devtab[] = {\n"); fprintf(fp, "/* name, unit, resource count, resources */\n"); fprintf(fp, "{ 0, 0, 0, 0 }\n"); fprintf(fp, "};\n"); fprintf(fp, "\n"); fprintf(fp, "int devtab_count = %d;\n", count); (void) fclose(fp); moveifchanged(path("ioconf.c.new"), path("ioconf.c")); } void isa_biotab(fp, table) FILE *fp; char *table; { register struct device *dp, *mp; fprintf(fp, "\n"); fprintf(fp, "struct isa_device isa_biotab_%s[] = {\n", table); fprintf(fp, "\ /* id driver iobase irq drq maddr msiz intr unit flags drive alive ri_flags reconfig enabled conflicts next */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_unit == QUES || mp == 0 || mp == TO_NEXUS || !eq(mp->d_name, table)) continue; fprintf(fp, "{ -1, &%3sdriver, ", mp->d_name); if (mp->d_port) fprintf(fp, " %8s,", mp->d_port); else if (mp->d_portn == -1) fprintf(fp, " %d,", mp->d_portn); else fprintf(fp, " 0x%04x,", mp->d_portn); fprintf(fp, "%6s, %2d, C 0x%05X, %5d, {0}, %3d, 0x%04X, %5d, 0, 0, 0, %6d, %8d, 0 },\n", sirq(mp->d_irq), mp->d_drq, mp->d_maddr, mp->d_msize, dp->d_unit, dp->d_flags, dp->d_drive, !dp->d_disabled, dp->d_conflicts); } fprintf(fp, "{ 0 }\n};\n"); } /* * Generized routine for isa bus device table, instead of repeating * all this 4 times, call this with the table argument. * * 4/26/93 rgrimes */ void isa_devtab(fp, table, dev_idp) FILE *fp; char *table; int *dev_idp; { register struct device *dp, *mp; fprintf(fp, "\n"); fprintf(fp, "struct isa_device isa_devtab_%s[] = {\n", table); fprintf(fp, "\ /* id driver iobase irq drq maddr msiz intr unit flags scsiid alive ri_flags reconfig enabled conflicts next */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { if (dp->d_unit == QUES || !eq(dp->d_mask, table)) continue; mp = dp->d_conn; if (mp == NULL || mp == TO_NEXUS || !eq(mp->d_name, "isa")) continue; fprintf(fp, "{ %2d, &%3sdriver,", (*dev_idp)++, dp->d_name); if (dp->d_port) fprintf(fp, " %8s,", dp->d_port); else if (dp->d_portn == -1) fprintf(fp, " %d,", dp->d_portn); else fprintf(fp, " 0x%04x,", dp->d_portn); fprintf(fp, "%6s, %2d, C 0x%05X, %5d, {0}, %3d, 0x%04X, 0, 0, 0, 0, %6d, %8d, 0 },\n", sirq(dp->d_irq), dp->d_drq, dp->d_maddr, dp->d_msize, dp->d_unit, dp->d_flags, !dp->d_disabled, dp->d_conflicts); } fprintf(fp, "{ 0 }\n};\n"); } static char * id(int unit) { char *s; switch(unit) { case UNKNOWN: s ="CAMCONF_UNSPEC"; break;; case QUES: s ="CAMCONF_ANY"; break; default: s = qu(unit); } return s; } static void id_put(fp, unit, s) FILE *fp; int unit; char *s; { fprintf(fp, "%s%s", id(unit), s); } /* XXX: dufault@hda.com: wiped out mkioconf.c locally: * All that nice "conflicting SCSI ID checking" is now * lost and should be put back in. */ void scbus_devtab(fp, dev_idp) FILE *fp; int *dev_idp; { register struct device *dp, *mp; fprintf(fp, "\n"); fprintf(fp, "/*\n"); fprintf(fp, " * CAM devices.\n"); fprintf(fp, " */\n"); fprintf(fp, "\n"); fprintf(fp, "#include \n"); fprintf(fp, "\n"); fprintf(fp, "struct cam_sim_config cam_sinit[] = {\n"); fprintf(fp, "/* pathid, sim name, sim unit, sim bus */\n"); /* XXX: Why do we always get an entry such as: * { '?', "ncr", '?', '?' }, */ for (dp = dtab; dp; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_type != CONTROLLER || mp == TO_NEXUS || mp == 0 || !eq(dp->d_name, "scbus")) { continue; } fprintf(fp, "{ %s, ", id(dp->d_unit)); fprintf(fp, "\"%s\", ", mp->d_name); fprintf(fp, "%s, ", id(mp->d_unit)); fprintf(fp, "%s },\n", id(dp->d_slave)); } fprintf(fp, "{ 0, 0, 0, 0 }\n"); fprintf(fp, "};\n"); fprintf(fp, "\n"); fprintf(fp, "struct cam_periph_config cam_pinit[] = {\n"); fprintf(fp, "/* periph name, periph unit, pathid, target, LUN, flags */\n"); for (dp = dtab; dp; dp = dp->d_next) { if (dp->d_type == CONTROLLER || dp->d_type == MASTER || dp->d_type == PSEUDO_DEVICE) continue; mp = dp->d_conn; if (mp == 0 || !eq(mp->d_name, "scbus")) { continue; } if (mp->d_conn == 0 && (dp->d_target != UNKNOWN && dp->d_target != QUES)) { fprintf(stderr, "Warning: %s%s is configured at ", dp->d_name, wnum(dp->d_unit)); fprintf(stderr, "%s%s which is not fixed at a single adapter.\n", mp->d_name, wnum(mp->d_unit)); } fprintf(fp, "{ "); fprintf(fp, "\"%s\", ", dp->d_name); id_put(fp, dp->d_unit, ", "); id_put(fp, mp->d_unit, ", "); id_put(fp, dp->d_target, ", "); id_put(fp, dp->d_lun, ", "); fprintf(fp, " 0x%x },\n", dp->d_flags); } fprintf(fp, "{ 0, 0, 0, 0, 0, 0 }\n"); fprintf(fp, "};\n"); } /* * XXX - there should be a general function to print devtabs instead of these * little pieces of it. */ char * sirq(num) { if (num == -1) return ("0"); sprintf(errbuf, "IRQ%d", num); return (errbuf); } #endif #if MACHINE_PMAX void pmax_ioconf() { register struct device *dp, *mp; FILE *fp; fp = fopen(path("ioconf.c"), "w"); if (fp == 0) err(1, "%s", path("ioconf.c")); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \n\n"); fprintf(fp, "#define C (char *)\n\n"); /* print controller initialization structures */ for (dp = dtab; dp != 0; dp = dp->d_next) { if (dp->d_type == PSEUDO_DEVICE) continue; fprintf(fp, "extern struct driver %sdriver;\n", dp->d_name); } fprintf(fp, "\nstruct pmax_ctlr pmax_cinit[] = {\n"); fprintf(fp, "/*\tdriver,\t\tunit,\taddr,\t\tpri,\tflags */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { if (dp->d_type != CONTROLLER && dp->d_type != MASTER) continue; if (dp->d_conn != TO_NEXUS) { printf("%s%s must be attached to a nexus (internal bus)\n", dp->d_name, wnum(dp->d_unit)); continue; } if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("can't specify drive/slave for %s%s\n", dp->d_name, wnum(dp->d_unit)); continue; } if (dp->d_unit == UNKNOWN || dp->d_unit == QUES) dp->d_unit = 0; fprintf(fp, "\t{ &%sdriver,\t%d,\tC 0x%x,\t%d,\t0x%x },\n", dp->d_name, dp->d_unit, dp->d_addr, dp->d_pri, dp->d_flags); } fprintf(fp, "\t0\n};\n"); /* print devices connected to other controllers */ fprintf(fp, "\nstruct scsi_device scsi_dinit[] = {\n"); fprintf(fp, "/*driver,\tcdriver,\tunit,\tctlr,\tdrive,\tslave,\tdk,\tflags*/\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { if (dp->d_type == CONTROLLER || dp->d_type == MASTER || dp->d_type == PSEUDO_DEVICE) continue; mp = dp->d_conn; if (mp == 0 || (!eq(mp->d_name, "asc") && !eq(mp->d_name, "sii"))) { printf("%s%s: devices must be attached to a SCSI (asc or sii) controller\n", dp->d_name, wnum(dp->d_unit)); continue; } if ((unsigned)dp->d_drive > 6) { printf("%s%s: SCSI drive must be in the range 0..6\n", dp->d_name, wnum(dp->d_unit)); continue; } /* may want to allow QUES later */ if ((unsigned)dp->d_slave > 7) { printf("%s%s: SCSI slave (LUN) must be in the range 0..7\n", dp->d_name, wnum(dp->d_unit)); continue; } fprintf(fp, "{ &%sdriver,\t&%sdriver,", dp->d_name, mp->d_name); fprintf(fp, "\t%d,\t%d,\t%d,\t%d,\t%d,\t0x%x },\n", dp->d_unit, mp->d_unit, dp->d_drive, dp->d_slave, dp->d_dk, dp->d_flags); } fprintf(fp, "0\n};\n"); pseudo_ioconf(fp); (void) fclose(fp); } #endif #if MACHINE_NEWS3400 int have_iop = 0; int have_hb = 0; int have_vme = 0; void news_ioconf() { register struct device *dp, *mp; register int slave; FILE *fp; fp = fopen(path("ioconf.c"), "w"); if (fp == 0) err(1, "%s", path("ioconf.c")); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \"iop.h\"\n"); fprintf(fp, "#include \"hb.h\"\n"); fprintf(fp, "\n"); fprintf(fp, "#if NIOP > 0\n"); fprintf(fp, "#include \n"); fprintf(fp, "#endif\n"); fprintf(fp, "#if NHB > 0\n"); fprintf(fp, "#include \n"); fprintf(fp, "#endif\n"); fprintf(fp, "\n"); fprintf(fp, "#define C (caddr_t)\n\n"); fprintf(fp, "\n"); /* BEGIN HB */ fprintf(fp, "#if NHB > 0\n"); /* * Now generate interrupt vectors for the HYPER-BUS */ for (dp = dtab; dp != 0; dp = dp->d_next) { if (dp->d_pri >= 0) { mp = dp->d_conn; if (mp == 0 || mp == TO_NEXUS || !eq(mp->d_name, "hb")) continue; fprintf(fp, "extern struct hb_driver %sdriver;\n", dp->d_name); have_hb++; } } /* * Now spew forth the hb_cinfo structure */ fprintf(fp, "\nstruct hb_ctlr hminit[] = {\n"); fprintf(fp, "/*\t driver,\tctlr,\talive,\taddr,\tintpri */\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if ((dp->d_type != MASTER && dp->d_type != CONTROLLER) || mp == TO_NEXUS || mp == 0 || !eq(mp->d_name, "hb")) continue; if (dp->d_pri < 0) { printf("must specify priority for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("drives need their own entries; "); printf("dont specify drive or slave for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_flags) { printf( "controllers (e.g. %s%d) don't have flags, only devices do\n", dp->d_name, dp->d_unit); continue; } fprintf(fp, "\t{ &%sdriver,\t%d,\t0,\tC 0x%x,\t%d },\n", dp->d_name, dp->d_unit, dp->d_addr, dp->d_pri); } fprintf(fp, "\t0\n};\n"); /* * Now we go for the hb_device stuff */ fprintf(fp, "\nstruct hb_device hdinit[] = {\n"); fprintf(fp, "\t/* driver, unit, ctlr, slave, addr, pri, dk, flags*/\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (dp->d_unit == QUES || dp->d_type != DEVICE || mp == 0 || mp == TO_NEXUS || /* mp->d_type == MASTER || */ eq(mp->d_name, "iop") || eq(mp->d_name, "vme")) continue; if (eq(mp->d_name, "hb")) { if (dp->d_pri < 0) { printf("must specify vector for device %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_drive != UNKNOWN || dp->d_slave != UNKNOWN) { printf("drives/slaves can be specified only "); printf("for controllers, not for device %s%d\n", dp->d_name, dp->d_unit); continue; } slave = QUES; } else { if (mp->d_conn == 0) { printf("%s%d isn't connected to anything, ", mp->d_name, mp->d_unit); printf("so %s%d is unattached\n", dp->d_name, dp->d_unit); continue; } if (dp->d_drive == UNKNOWN) { printf("must specify ``drive number'' for %s%d\n", dp->d_name, dp->d_unit); continue; } /* NOTE THAT ON THE IOP ``drive'' IS STORED IN */ /* ``SLAVE'' AND WE DON'T WANT A SLAVE SPECIFIED */ if (dp->d_slave != UNKNOWN) { printf("slave numbers should be given only "); printf("for massbus tapes, not for %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_pri >= 0) { printf("interrupt priority should not be "); printf("given for drive %s%d\n", dp->d_name, dp->d_unit); continue; } if (dp->d_addr != 0) { printf("csr addresses should be given only"); printf("on controllers, not on %s%d\n", dp->d_name, dp->d_unit); continue; } slave = dp->d_drive; } fprintf(fp, "\t{ &%sdriver, %2d, %s, %2d, C 0x%x, %d, %d, 0x%x },\n", eq(mp->d_name, "hb") ? dp->d_name : mp->d_name, dp->d_unit, eq(mp->d_name, "hb") ? " -1" : qu(mp->d_unit), slave, dp->d_addr, dp->d_pri, dp->d_dk, dp->d_flags); } fprintf(fp, "\t0\n};\n\n"); fprintf(fp, "#endif\n\n"); /* END HB */ pseudo_ioconf(fp); (void) fclose(fp); } #endif #if MACHINE_ALPHA static char * devstr(struct device *dp) { static char buf[100]; if (dp->d_unit >= 0) { sprintf(buf, "%s%d", dp->d_name, dp->d_unit); return buf; } else return dp->d_name; } static void write_device_resources(FILE *fp, struct device *dp) { int count = 0; fprintf(fp, "struct config_resource %s_resources[] = {\n", devstr(dp)); if (dp->d_conn) { fprintf(fp, "\t\"at\",\tRES_STRING,\t(long)\"%s\",\n", devstr(dp->d_conn)); count++; } if (dp->d_drive != -2) { fprintf(fp, "\t\"drive\",\tRES_INT,\t%d,\n", dp->d_drive); count++; } if (dp->d_target != -2) { fprintf(fp, "\t\"target\",\tRES_INT,\t%d,\n", dp->d_target); count++; } if (dp->d_lun != -2) { fprintf(fp, "\t\"lun\",\tRES_INT,\t%d,\n", dp->d_lun); count++; } if (dp->d_flags) { fprintf(fp, "\t\"flags\",\tRES_INT,\t0x%x,\n", dp->d_flags); count++; } if (dp->d_conflicts) { fprintf(fp, "\t\"conflicts\",\tRES_INT,\t%d,\n", dp->d_conflicts); count++; } if (dp->d_disabled) { fprintf(fp, "\t\"disabled\",\tRES_INT,\t%d,\n", dp->d_disabled); count++; } if (dp->d_port) { fprintf(fp, "\t\"port\",\tRES_INT,\t%s,\n", dp->d_port); count++; } if (dp->d_portn > 0) { fprintf(fp, "\t\"port\",\tRES_INT,\t0x%x,\n", dp->d_portn); count++; } if (dp->d_maddr > 0) { fprintf(fp, "\t\"maddr\",\tRES_INT,\t0x%x,\n", dp->d_maddr); count++; } if (dp->d_msize > 0) { fprintf(fp, "\t\"msize\",\tRES_INT,\t0x%x,\n", dp->d_msize); count++; } if (dp->d_drq > 0) { fprintf(fp, "\t\"drq\",\tRES_INT,\t%d,\n", dp->d_drq); count++; } if (dp->d_irq > 0) { fprintf(fp, "\t\"irq\",\tRES_INT,\t%d,\n", dp->d_irq); count++; } fprintf(fp, "};\n"); fprintf(fp, "#define %s_count %d\n", devstr(dp), count); } void alpha_ioconf() { register struct device *dp, *mp; FILE *fp; int dev_id = 10; int count; fp = fopen(path("ioconf.c.new"), "w"); if (fp == 0) err(1, "%s", path("ioconf.c")); fprintf(fp, "#include \n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \n\n"); fprintf(fp, "#include \n"); fprintf(fp, "#include \n\n"); fprintf(fp, "#define C (char *)\n\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { if (dp->d_type != CONTROLLER && dp->d_type != MASTER && dp->d_type != DEVICE) continue; write_device_resources(fp, dp); } count = 0; fprintf(fp, "struct config_device devtab[] = {\n"); for (dp = dtab; dp != 0; dp = dp->d_next) { char* n = devstr(dp); if (dp->d_type != CONTROLLER && dp->d_type != MASTER && dp->d_type != DEVICE) continue; fprintf(fp, "\t\"%s\",\t%d,\t%s_count,\t%s_resources,\n", dp->d_name, dp->d_unit, n, n); count++; } fprintf(fp, "};\n"); fprintf(fp, "int devtab_count = %d;\n", count); if (seen_scbus) scbus_devtab(fp, &dev_id); (void) fclose(fp); moveifchanged(path("ioconf.c.new"), path("ioconf.c")); } #endif char * intv(dev) register struct device *dev; { static char buf[20]; if (dev->d_vec == 0) return (" 0"); (void) sprintf(buf, "%sint%d", dev->d_name, dev->d_unit); return (buf); } char * qu(num) { if (num == QUES) return ("'?'"); if (num == UNKNOWN) return (" -1"); (void) sprintf(errbuf, "%3d", num); return (errbuf); } char * wnum(num) { if (num == QUES || num == UNKNOWN) return ("?"); (void) sprintf(errbuf, "%d", num); return (errbuf); } void pseudo_ioconf(fp) register FILE *fp; { register struct device *dp; (void)fprintf(fp, "\n#include \n\n"); for (dp = dtab; dp != NULL; dp = dp->d_next) if (dp->d_type == PSEUDO_DEVICE) (void)fprintf(fp, "extern void %sattach __P((int));\n", dp->d_name); /* * XXX concatonated disks are pseudo-devices but appear as DEVICEs * since they don't adhere to normal pseudo-device conventions * (i.e. one entry with total count in d_slave). */ if (seen_cd) (void)fprintf(fp, "extern void cdattach __P((int));\n"); /* XXX temporary for HP300, others */ (void)fprintf(fp, "\n#include /* XXX */\n"); (void)fprintf(fp, "#define etherattach (void (*)__P((int)))nullop\n"); (void)fprintf(fp, "#define iteattach (void (*) __P((int)))nullop\n"); (void)fprintf(fp, "\nstruct pdevinit pdevinit[] = {\n"); for (dp = dtab; dp != NULL; dp = dp->d_next) if (dp->d_type == PSEUDO_DEVICE) (void)fprintf(fp, "\t{ %sattach, %d },\n", dp->d_name, dp->d_slave > 0 ? dp->d_slave : 1); /* * XXX count up cds and put out an entry */ if (seen_cd) { struct file_list *fl; int cdmax = -1; for (fl = comp_list; fl != NULL; fl = fl->f_next) if (fl->f_type == COMPDEVICE && fl->f_compinfo > cdmax) cdmax = fl->f_compinfo; (void)fprintf(fp, "\t{ cdattach, %d },\n", cdmax+1); } (void)fprintf(fp, "\t{ 0, 0 }\n};\n"); if (seen_cd) comp_config(fp); } void comp_config(fp) FILE *fp; { register struct file_list *fl; register struct device *dp; fprintf(fp, "\n#include \n"); fprintf(fp, "\nstruct cddevice cddevice[] = {\n"); fprintf(fp, "/*\tunit\tileave\tflags\tdk\tdevs\t\t\t\t*/\n"); fl = comp_list; while (fl) { if (fl->f_type != COMPDEVICE) { fl = fl->f_next; continue; } for (dp = dtab; dp != 0; dp = dp->d_next) if (dp->d_type == DEVICE && eq(dp->d_name, fl->f_fn) && dp->d_unit == fl->f_compinfo) break; if (dp == 0) continue; fprintf(fp, "\t%d,\t%d,\t%d,\t%d,\t{", dp->d_unit, dp->d_pri < 0 ? 0 : dp->d_pri, dp->d_flags, 1); for (fl = fl->f_next; fl->f_type == COMPSPEC; fl = fl->f_next) fprintf(fp, " 0x%x,", fl->f_compdev); fprintf(fp, " NODEV },\n"); } fprintf(fp, "\t-1,\t0,\t0,\t0,\t{ 0 },\n};\n"); }