/* $NetBSD: ofisa.c,v 1.7 2001/06/19 13:42:18 wiz Exp $ */ /* * Copyright 1997, 1998 * Digital Equipment Corporation. All rights reserved. * * This software is furnished under license and may be used and * copied only in accordance with the following terms and conditions. * Subject to these conditions, you may download, copy, install, * use, modify and distribute this software in source and/or binary * form. No title or ownership is transferred hereby. * * 1) Any source code used, modified or distributed must reproduce * and retain this copyright notice and list of conditions as * they appear in the source file. * * 2) No right is granted to use any trade name, trademark, or logo of * Digital Equipment Corporation. Neither the "Digital Equipment * Corporation" name nor any trademark or logo of Digital Equipment * Corporation may be used to endorse or promote products derived * from this software without the prior written permission of * Digital Equipment Corporation. * * 3) This software is provided "AS-IS" and any express or implied * warranties, including but not limited to, any implied warranties * of merchantability, fitness for a particular purpose, or * non-infringement are disclaimed. In no event shall DIGITAL be * liable for any damages whatsoever, and in particular, DIGITAL * shall not be liable for special, indirect, consequential, or * incidental damages or damages for lost profits, loss of * revenue or loss of use, whether such damages arise in contract, * negligence, tort, under statute, in equity, at law or otherwise, * even if advised of the possibility of such damage. */ #include #include #include #include #include #include #include #include #include #include "isadma.h" #define OFW_MAX_STACK_BUF_SIZE 256 static int ofisamatch __P((struct device *, struct cfdata *, void *)); static void ofisaattach __P((struct device *, struct device *, void *)); struct cfattach ofisa_ca = { sizeof(struct device), ofisamatch, ofisaattach }; extern struct cfdriver ofisa_cd; static int ofisaprint __P((void *, const char *)); static int ofisaprint(aux, pnp) void *aux; const char *pnp; { struct ofbus_attach_args *oba = aux; char name[64]; (void)of_packagename(oba->oba_phandle, name, sizeof name); if (pnp) printf("%s at %s", name, pnp); else printf(" (%s)", name); return UNCONF; } int ofisamatch(parent, cf, aux) struct device *parent; struct cfdata *cf; void *aux; { struct ofbus_attach_args *oba = aux; const char *compatible_strings[] = { "pnpPNP,a00", NULL }; int rv = 0; if (of_compatible(oba->oba_phandle, compatible_strings) != -1) rv = 5; #ifdef _OFISA_MD_MATCH if (!rv) rv = ofisa_md_match(parent, cf, aux); #endif return (rv); } void ofisaattach(parent, self, aux) struct device *parent, *self; void *aux; { struct ofbus_attach_args *oba = aux; struct isabus_attach_args iba; struct ofisa_attach_args aa; int child; if (ofisa_get_isabus_data(oba->oba_phandle, &iba) < 0) { printf(": couldn't get essential bus data\n"); return; } printf("\n"); #if NISADMA > 0 /* * Initialize our DMA state. */ isa_dmainit(iba.iba_ic, iba.iba_iot, iba.iba_dmat, self); #endif for (child = OF_child(oba->oba_phandle); child; child = OF_peer(child)) { if (ofisa_ignore_child(oba->oba_phandle, child)) continue; bzero(&aa, sizeof aa); aa.oba.oba_busname = "ofw"; /* XXX */ aa.oba.oba_phandle = child; aa.iot = iba.iba_iot; aa.memt = iba.iba_memt; aa.dmat = iba.iba_dmat; aa.ic = iba.iba_ic; config_found(self, &aa, ofisaprint); } } int ofisa_reg_count(phandle) int phandle; { int len; len = OF_getproplen(phandle, "reg"); /* nonexistent or obviously malformed "reg" property */ if (len < 0 || (len % 12) != 0) return (-1); return (len / 12); } int ofisa_reg_get(phandle, descp, ndescs) int phandle; struct ofisa_reg_desc *descp; int ndescs; { char *buf, *bp; int i, proplen, allocated, rv; i = ofisa_reg_count(phandle); if (i < 0) return (-1); proplen = i * 12; ndescs = min(ndescs, i); i = ndescs * 12; if (i > OFW_MAX_STACK_BUF_SIZE) { buf = malloc(i, M_TEMP, M_WAITOK); allocated = 1; } else { buf = alloca(i); allocated = 0; } if (OF_getprop(phandle, "reg", buf, i) != proplen) { rv = -1; goto out; } for (i = 0, bp = buf; i < ndescs; i++, bp += 12) { if (of_decode_int(&bp[0]) & 1) descp[i].type = OFISA_REG_TYPE_IO; else descp[i].type = OFISA_REG_TYPE_MEM; descp[i].addr = of_decode_int(&bp[4]); descp[i].len = of_decode_int(&bp[8]); } rv = i; /* number of descriptors processed (== ndescs) */ out: if (allocated) free(buf, M_TEMP); return (rv); } void ofisa_reg_print(descp, ndescs) struct ofisa_reg_desc *descp; int ndescs; { int i; if (ndescs == 0) { printf("none"); return; } for (i = 0; i < ndescs; i++) { printf("%s%s 0x%lx/%ld", i ? ", " : "", descp[i].type == OFISA_REG_TYPE_IO ? "io" : "mem", (long)descp[i].addr, (long)descp[i].len); } } int ofisa_intr_count(phandle) int phandle; { int len; len = OF_getproplen(phandle, "interrupts"); /* nonexistent or obviously malformed "reg" property */ if (len < 0 || (len % 8) != 0) return (-1); return (len / 8); } int ofisa_intr_get(phandle, descp, ndescs) int phandle; struct ofisa_intr_desc *descp; int ndescs; { char *buf, *bp; int i, proplen, allocated, rv; i = ofisa_intr_count(phandle); if (i < 0) return (-1); proplen = i * 8; ndescs = min(ndescs, i); i = ndescs * 8; if (i > OFW_MAX_STACK_BUF_SIZE) { buf = malloc(i, M_TEMP, M_WAITOK); allocated = 1; } else { buf = alloca(i); allocated = 0; } if (OF_getprop(phandle, "interrupts", buf, i) != proplen) { rv = -1; goto out; } for (i = 0, bp = buf; i < ndescs; i++, bp += 8) { descp[i].irq = of_decode_int(&bp[0]); switch (of_decode_int(&bp[4])) { case 0: case 1: descp[i].share = IST_LEVEL; break; case 2: case 3: descp[i].share = IST_EDGE; break; #ifdef DIAGNOSTIC default: /* Dunno what to do, so fail. */ printf("ofisa_intr_get: unknown intrerrupt type %d\n", of_decode_int(&bp[4])); rv = -1; goto out; #endif } } rv = i; /* number of descriptors processed (== ndescs) */ out: if (allocated) free(buf, M_TEMP); return (rv); } void ofisa_intr_print(descp, ndescs) struct ofisa_intr_desc *descp; int ndescs; { int i; if (ndescs == 0) { printf("none"); return; } for (i = 0; i < ndescs; i++) { printf("%s%d (%s)", i ? ", " : "", descp[i].irq, descp[i].share == IST_LEVEL ? "level" : "edge"); } } int ofisa_dma_count(phandle) int phandle; { int len; len = OF_getproplen(phandle, "dma"); /* nonexistent or obviously malformed "reg" property */ if (len < 0 || (len % 20) != 0) return (-1); return (len / 20); } int ofisa_dma_get(phandle, descp, ndescs) int phandle; struct ofisa_dma_desc *descp; int ndescs; { char *buf, *bp; int i, proplen, allocated, rv; i = ofisa_dma_count(phandle); if (i < 0) return (-1); proplen = i * 20; ndescs = min(ndescs, i); i = ndescs * 20; if (i > OFW_MAX_STACK_BUF_SIZE) { buf = malloc(i, M_TEMP, M_WAITOK); allocated = 1; } else { buf = alloca(i); allocated = 0; } if (OF_getprop(phandle, "dma", buf, i) != proplen) { rv = -1; goto out; } for (i = 0, bp = buf; i < ndescs; i++, bp += 20) { descp[i].drq = of_decode_int(&bp[0]); descp[i].mode = of_decode_int(&bp[4]); descp[i].width = of_decode_int(&bp[8]); descp[i].countwidth = of_decode_int(&bp[12]); descp[i].busmaster = of_decode_int(&bp[16]); } rv = i; /* number of descriptors processed (== ndescs) */ out: if (allocated) free(buf, M_TEMP); return (rv); } void ofisa_dma_print(descp, ndescs) struct ofisa_dma_desc *descp; int ndescs; { char unkmode[16]; const char *modestr; int i; if (ndescs == 0) { printf("none"); return; } for (i = 0; i < ndescs; i++) { switch (descp[i].mode) { case OFISA_DMA_MODE_COMPAT: modestr = "compat"; break; case OFISA_DMA_MODE_A: modestr = "A"; break; case OFISA_DMA_MODE_B: modestr = "B"; break; case OFISA_DMA_MODE_F: modestr = "F"; break; case OFISA_DMA_MODE_C: modestr = "C"; break; default: sprintf(unkmode, "??? (%d)", descp[i].mode); modestr = unkmode; break; } printf("%s%d %s mode %d-bit (%d-bit count)%s", i ? ", " : "", descp[i].drq, modestr, descp[i].width, descp[i].countwidth, descp[i].busmaster ? " busmaster" : ""); } }