/* * Copyright (c) 1980 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 /*static char sccsid[] = "from: @(#)mkglue.c 5.10 (Berkeley) 1/15/91";*/ static char rcsid[] = "$Id: mkglue.c,v 1.8 1994/02/22 23:32:50 mycroft Exp $"; #endif /* not lint */ /* * Make the bus adaptor interrupt glue files. */ #include #include "config.h" #include "y.tab.h" #include /* * Create the UNIBUS interrupt vector glue file. */ ubglue() { register FILE *fp, *gp; register struct device *dp, *mp; fp = fopen(path("ubglue.s"), "w"); if (fp == 0) { perror(path("ubglue.s")); exit(1); } gp = fopen(path("ubvec.s"), "w"); if (gp == 0) { perror(path("ubvec.s")); exit(1); } for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (mp != 0 && mp != (struct device *)-1 && !eq(mp->d_name, "mba")) { struct idlst *id, *id2; for (id = dp->d_vec; id; id = id->id_next) { for (id2 = dp->d_vec; id2; id2 = id2->id_next) { if (id2 == id) { dump_ubavec(fp, id->id, dp->d_unit); break; } if (!strcmp(id->id, id2->id)) break; } } } } dump_std(fp, gp); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (mp != 0 && mp != (struct device *)-1 && !eq(mp->d_name, "mba")) { struct idlst *id, *id2; for (id = dp->d_vec; id; id = id->id_next) { for (id2 = dp->d_vec; id2; id2 = id2->id_next) { if (id2 == id) { dump_intname(fp, id->id, dp->d_unit); break; } if (!strcmp(id->id, id2->id)) break; } } } } dump_ctrs(fp); (void) fclose(fp); (void) fclose(gp); } static int cntcnt = 0; /* number of interrupt counters allocated */ /* * Print a UNIBUS interrupt vector. */ dump_ubavec(fp, vector, number) register FILE *fp; char *vector; int number; { char nbuf[80]; register char *v = nbuf; (void) sprintf(v, "%s%d", vector, number); fprintf(fp, "\t.globl\t_X%s\n\t.align\t2\n_X%s:\n\tpushr\t$0x3f\n", v, v); fprintf(fp, "\tincl\t_fltintrcnt+(4*%d)\n", cntcnt++); if (strncmp(vector, "dzx", 3) == 0) fprintf(fp, "\tmovl\t$%d,r0\n\tjmp\tdzdma\n\n", number); else if (strncmp(vector, "dpx", 3) == 0) fprintf(fp, "\tmovl\t$%d,r0\n\tjmp\tdpxdma\n\n", number); else if (strncmp(vector, "dpr", 3) == 0) fprintf(fp, "\tmovl\t$%d,r0\n\tjmp\tdprdma\n\n", number); else { if (strncmp(vector, "uur", 3) == 0) { fprintf(fp, "#ifdef UUDMA\n"); fprintf(fp, "\tmovl\t$%d,r0\n\tjsb\tuudma\n", number); fprintf(fp, "#endif\n"); } fprintf(fp, "\tpushl\t$%d\n", number); fprintf(fp, "\tcalls\t$1,_%s\n\tpopr\t$0x3f\n", vector); fprintf(fp, "\tincl\t_cnt+V_INTR\n\trei\n\n"); } } /* * Create the VERSAbus interrupt vector glue file. */ vbglue() { register FILE *fp, *gp; register struct device *dp, *mp; fp = fopen(path("vbglue.s"), "w"); if (fp == 0) { perror(path("vbglue.s")); exit(1); } gp = fopen(path("vbvec.s"), "w"); if (gp == 0) { perror(path("vbvec.s")); exit(1); } for (dp = dtab; dp != 0; dp = dp->d_next) { struct idlst *id, *id2; mp = dp->d_conn; if (mp == 0 || mp == (struct device *)-1 || eq(mp->d_name, "mba")) continue; for (id = dp->d_vec; id; id = id->id_next) for (id2 = dp->d_vec; id2; id2 = id2->id_next) { if (id == id2) { dump_vbavec(fp, id->id, dp->d_unit); break; } if (eq(id->id, id2->id)) break; } } dump_std(fp, gp); for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (mp != 0 && mp != (struct device *)-1 && !eq(mp->d_name, "mba")) { struct idlst *id, *id2; for (id = dp->d_vec; id; id = id->id_next) { for (id2 = dp->d_vec; id2; id2 = id2->id_next) { if (id2 == id) { dump_intname(fp, id->id, dp->d_unit); break; } if (eq(id->id, id2->id)) break; } } } } dump_ctrs(fp); (void) fclose(fp); (void) fclose(gp); } /* * Print a VERSAbus interrupt vector */ dump_vbavec(fp, vector, number) register FILE *fp; char *vector; int number; { char nbuf[80]; register char *v = nbuf; (void) sprintf(v, "%s%d", vector, number); fprintf(fp, "SCBVEC(%s):\n", v); fprintf(fp, "\tCHECK_SFE(4)\n"); fprintf(fp, "\tSAVE_FPSTAT(4)\n"); fprintf(fp, "\tPUSHR\n"); fprintf(fp, "\tincl\t_fltintrcnt+(4*%d)\n", cntcnt++); fprintf(fp, "\tpushl\t$%d\n", number); fprintf(fp, "\tcallf\t$8,_%s\n", vector); fprintf(fp, "\tincl\t_cnt+V_INTR\n"); fprintf(fp, "\tPOPR\n"); fprintf(fp, "\tREST_FPSTAT\n"); fprintf(fp, "\trei\n\n"); } /* * HP9000/300 interrupts are auto-vectored. * Code is hardwired in locore.s */ hpglue() {} /* * so are AMIGA interrupts */ amigaglue() {} static char *vaxinames[] = { "clock", "cnr", "cnx", "tur", "tux", "mba0", "mba1", "mba2", "mba3", "uba0", "uba1", "uba2", "uba3" }; static char *tahoeinames[] = { "clock", "cnr", "cnx", "rmtr", "rmtx", "buserr", }; static struct stdintrs { char **si_names; /* list of standard interrupt names */ int si_n; /* number of such names */ } stdintrs[] = { { vaxinames, sizeof (vaxinames) / sizeof (vaxinames[0]) }, { tahoeinames, (sizeof (tahoeinames) / sizeof (tahoeinames[0])) } }; /* * Start the interrupt name table with the names * of the standard vectors not directly associated * with a bus. Also, dump the defines needed to * reference the associated counters into a separate * file which is prepended to locore.s. */ dump_std(fp, gp) register FILE *fp, *gp; { register struct stdintrs *si = &stdintrs[machine-1]; register char **cpp; register int i; fprintf(fp, "\n\t.globl\t_intrnames\n"); fprintf(fp, "\n\t.globl\t_eintrnames\n"); fprintf(fp, "\t.data\n"); fprintf(fp, "_intrnames:\n"); cpp = si->si_names; for (i = 0; i < si->si_n; i++) { register char *cp, *tp; char buf[80]; cp = *cpp; if (cp[0] == 'i' && cp[1] == 'n' && cp[2] == 't') { cp += 3; if (*cp == 'r') cp++; } for (tp = buf; *cp; cp++) if (islower(*cp)) *tp++ = toupper(*cp); else *tp++ = *cp; *tp = '\0'; fprintf(gp, "#define\tI_%s\t%d\n", buf, i*sizeof (long)); fprintf(fp, "\t.asciz\t\"%s\"\n", *cpp); cpp++; } } dump_intname(fp, vector, number) register FILE *fp; char *vector; int number; { register char *cp = vector; fprintf(fp, "\t.asciz\t\""); /* * Skip any "int" or "intr" in the name. */ while (*cp) if (cp[0] == 'i' && cp[1] == 'n' && cp[2] == 't') { cp += 3; if (*cp == 'r') cp++; } else { putc(*cp, fp); cp++; } fprintf(fp, "%d\"\n", number); } /* * Reserve space for the interrupt counters. */ dump_ctrs(fp) register FILE *fp; { struct stdintrs *si = &stdintrs[machine-1]; fprintf(fp, "_eintrnames:\n"); fprintf(fp, "\n\t.globl\t_intrcnt\n"); fprintf(fp, "\n\t.globl\t_eintrcnt\n"); fprintf(fp, "\t.align 2\n"); fprintf(fp, "_intrcnt:\n"); fprintf(fp, "\t.space\t4 * %d\n", si->si_n); fprintf(fp, "_fltintrcnt:\n"); fprintf(fp, "\t.space\t4 * %d\n", cntcnt); fprintf(fp, "_eintrcnt:\n\n"); fprintf(fp, "\t.text\n"); } /* * Create the ISA interrupt vector glue file. */ vector() { register FILE *fp, *gp; register struct device *dp, *mp; int count; fp = fopen(path("vector.h"), "w"); if (fp == 0) { perror(path("vector.h")); exit(1); } fprintf(fp, "\ /*\n\ * AT/386\n\ * Macros for interrupt vector routines\n\ * Generated by config program\n\ */\n\ \n"); fprintf(fp, "\ #define BUILD_VECTORS \\\n\ BUILD_VECTOR(clk, 0,0,0, _clockmask, _clockintr,1,1, al);\\\n"); count=1; for (dp = dtab; dp != 0; dp = dp->d_next) { mp = dp->d_conn; if (mp != 0 && /* mp != (struct device *)-1 &&*/ eq(mp->d_name, "isa")) { struct idlst *id, *id2; for (id = dp->d_vec; id; id = id->id_next) { for (id2 = dp->d_vec; id2; id2 = id2->id_next) { if (id2 == id) { build_vector(fp, dp, id, count); count++; if (!strcmp(id->id, id2->id)) break; } } } } } fprintf(fp, "\n\n#define NR_REAL_INT_HANDLERS %d\n", count); (void) fclose(fp); } build_vector(fp, dp, id, offset) register FILE *fp; register struct device *dp; struct idlst *id; int offset; { fprintf(fp, "\tBUILD_%sVECTOR(%s%d, %d,%d,%d", strcmp(dp->d_name, "sio") == 0 ? "FAST_" : "", dp->d_name, dp->d_unit, dp->d_unit, dp->d_irq, offset); if (eq(dp->d_mask, "null")) fprintf(fp, ", _%s%dmask,", dp->d_name, dp->d_unit); else fprintf(fp, ", _%smask, ", dp->d_mask); fprintf(fp, " _%s,%d,1", id->id, 1 + dp->d_irq / 8); if (dp->d_irq < 8) fprintf(fp, ", al"); else fprintf(fp, "_AND_2, ah"); fprintf(fp, ");\\\n"); }