tc_3000_500.c revision 1.26
1 1.26 dsl /* $NetBSD: tc_3000_500.c,v 1.26 2009/03/14 14:45:54 dsl Exp $ */ 2 1.1 cgd 3 1.1 cgd /* 4 1.7 cgd * Copyright (c) 1994, 1995, 1996 Carnegie-Mellon University. 5 1.1 cgd * All rights reserved. 6 1.1 cgd * 7 1.1 cgd * Author: Chris G. Demetriou 8 1.1 cgd * 9 1.1 cgd * Permission to use, copy, modify and distribute this software and 10 1.1 cgd * its documentation is hereby granted, provided that both the copyright 11 1.1 cgd * notice and this permission notice appear in all copies of the 12 1.1 cgd * software, derivative works or modified versions, and any portions 13 1.1 cgd * thereof, and that both notices appear in supporting documentation. 14 1.1 cgd * 15 1.1 cgd * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 16 1.1 cgd * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND 17 1.1 cgd * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 18 1.1 cgd * 19 1.1 cgd * Carnegie Mellon requests users of this software to return to 20 1.1 cgd * 21 1.1 cgd * Software Distribution Coordinator or Software.Distribution (at) CS.CMU.EDU 22 1.1 cgd * School of Computer Science 23 1.1 cgd * Carnegie Mellon University 24 1.1 cgd * Pittsburgh PA 15213-3890 25 1.1 cgd * 26 1.1 cgd * any improvements or extensions that they make and grant Carnegie the 27 1.1 cgd * rights to redistribute these changes. 28 1.1 cgd */ 29 1.13 cgd 30 1.14 cgd #include <sys/cdefs.h> /* RCS ID & Copyright macro defns */ 31 1.14 cgd 32 1.26 dsl __KERNEL_RCSID(0, "$NetBSD: tc_3000_500.c,v 1.26 2009/03/14 14:45:54 dsl Exp $"); 33 1.1 cgd 34 1.1 cgd #include <sys/param.h> 35 1.8 cgd #include <sys/systm.h> 36 1.1 cgd #include <sys/device.h> 37 1.23 thorpej #include <sys/malloc.h> 38 1.1 cgd 39 1.1 cgd #include <machine/autoconf.h> 40 1.1 cgd #include <machine/pte.h> 41 1.16 briggs #include <machine/rpb.h> 42 1.1 cgd 43 1.3 cgd #include <dev/tc/tcvar.h> 44 1.3 cgd #include <alpha/tc/tc_conf.h> 45 1.1 cgd #include <alpha/tc/tc_3000_500.h> 46 1.17 briggs 47 1.19 drochner #include "wsdisplay.h" 48 1.17 briggs #include "sfb.h" 49 1.17 briggs 50 1.17 briggs #if NSFB > 0 51 1.26 dsl extern int sfb_cnattach(tc_addr_t); 52 1.17 briggs #endif 53 1.1 cgd 54 1.26 dsl void tc_3000_500_intr_setup(void); 55 1.26 dsl void tc_3000_500_intr_establish(struct device *, void *, 56 1.26 dsl tc_intrlevel_t, int (*)(void *), void *); 57 1.26 dsl void tc_3000_500_intr_disestablish(struct device *, void *); 58 1.26 dsl void tc_3000_500_iointr(void *, unsigned long); 59 1.1 cgd 60 1.26 dsl int tc_3000_500_intrnull(void *); 61 1.26 dsl int tc_3000_500_fb_cnattach(u_int64_t); 62 1.3 cgd 63 1.3 cgd #define C(x) ((void *)(u_long)x) 64 1.8 cgd #define KV(x) (ALPHA_PHYS_TO_K0SEG(x)) 65 1.3 cgd 66 1.3 cgd struct tc_slotdesc tc_3000_500_slots[] = { 67 1.3 cgd { KV(0x100000000), C(TC_3000_500_DEV_OPT0), }, /* 0 - opt slot 0 */ 68 1.3 cgd { KV(0x120000000), C(TC_3000_500_DEV_OPT1), }, /* 1 - opt slot 1 */ 69 1.3 cgd { KV(0x140000000), C(TC_3000_500_DEV_OPT2), }, /* 2 - opt slot 2 */ 70 1.3 cgd { KV(0x160000000), C(TC_3000_500_DEV_OPT3), }, /* 3 - opt slot 3 */ 71 1.3 cgd { KV(0x180000000), C(TC_3000_500_DEV_OPT4), }, /* 4 - opt slot 4 */ 72 1.3 cgd { KV(0x1a0000000), C(TC_3000_500_DEV_OPT5), }, /* 5 - opt slot 5 */ 73 1.3 cgd { KV(0x1c0000000), C(TC_3000_500_DEV_BOGUS), }, /* 6 - TCDS ASIC */ 74 1.3 cgd { KV(0x1e0000000), C(TC_3000_500_DEV_BOGUS), }, /* 7 - IOCTL ASIC */ 75 1.1 cgd }; 76 1.3 cgd int tc_3000_500_nslots = 77 1.3 cgd sizeof(tc_3000_500_slots) / sizeof(tc_3000_500_slots[0]); 78 1.1 cgd 79 1.12 cgd struct tc_builtin tc_3000_500_graphics_builtins[] = { 80 1.3 cgd { "FLAMG-IO", 7, 0x00000000, C(TC_3000_500_DEV_IOASIC), }, 81 1.3 cgd { "PMAGB-BA", 7, 0x02000000, C(TC_3000_500_DEV_CXTURBO), }, 82 1.3 cgd { "PMAZ-DS ", 6, 0x00000000, C(TC_3000_500_DEV_TCDS), }, 83 1.1 cgd }; 84 1.12 cgd int tc_3000_500_graphics_nbuiltins = sizeof(tc_3000_500_graphics_builtins) / 85 1.12 cgd sizeof(tc_3000_500_graphics_builtins[0]); 86 1.12 cgd 87 1.12 cgd struct tc_builtin tc_3000_500_nographics_builtins[] = { 88 1.12 cgd { "FLAMG-IO", 7, 0x00000000, C(TC_3000_500_DEV_IOASIC), }, 89 1.12 cgd { "PMAZ-DS ", 6, 0x00000000, C(TC_3000_500_DEV_TCDS), }, 90 1.12 cgd }; 91 1.12 cgd int tc_3000_500_nographics_nbuiltins = sizeof(tc_3000_500_nographics_builtins) / 92 1.12 cgd sizeof(tc_3000_500_nographics_builtins[0]); 93 1.1 cgd 94 1.3 cgd u_int32_t tc_3000_500_intrbits[TC_3000_500_NCOOKIES] = { 95 1.3 cgd TC_3000_500_IR_OPT0, 96 1.3 cgd TC_3000_500_IR_OPT1, 97 1.3 cgd TC_3000_500_IR_OPT2, 98 1.3 cgd TC_3000_500_IR_OPT3, 99 1.3 cgd TC_3000_500_IR_OPT4, 100 1.3 cgd TC_3000_500_IR_OPT5, 101 1.3 cgd TC_3000_500_IR_TCDS, 102 1.3 cgd TC_3000_500_IR_IOASIC, 103 1.3 cgd TC_3000_500_IR_CXTURBO, 104 1.1 cgd }; 105 1.1 cgd 106 1.3 cgd struct tcintr { 107 1.26 dsl int (*tci_func)(void *); 108 1.3 cgd void *tci_arg; 109 1.23 thorpej struct evcnt tci_evcnt; 110 1.3 cgd } tc_3000_500_intr[TC_3000_500_NCOOKIES]; 111 1.1 cgd 112 1.5 cgd u_int32_t tc_3000_500_imask; /* intrs we want to ignore; mirrors IMR. */ 113 1.5 cgd 114 1.1 cgd void 115 1.1 cgd tc_3000_500_intr_setup() 116 1.1 cgd { 117 1.23 thorpej char *cp; 118 1.3 cgd u_long i; 119 1.1 cgd 120 1.3 cgd /* 121 1.4 cgd * Disable all slot interrupts. Note that this cannot 122 1.4 cgd * actually disable CXTurbo, TCDS, and IOASIC interrupts. 123 1.3 cgd */ 124 1.5 cgd tc_3000_500_imask = *(volatile u_int32_t *)TC_3000_500_IMR_READ; 125 1.3 cgd for (i = 0; i < TC_3000_500_NCOOKIES; i++) 126 1.5 cgd tc_3000_500_imask |= tc_3000_500_intrbits[i]; 127 1.5 cgd *(volatile u_int32_t *)TC_3000_500_IMR_WRITE = tc_3000_500_imask; 128 1.3 cgd tc_mb(); 129 1.1 cgd 130 1.3 cgd /* 131 1.3 cgd * Set up interrupt handlers. 132 1.1 cgd */ 133 1.3 cgd for (i = 0; i < TC_3000_500_NCOOKIES; i++) { 134 1.3 cgd tc_3000_500_intr[i].tci_func = tc_3000_500_intrnull; 135 1.3 cgd tc_3000_500_intr[i].tci_arg = (void *)i; 136 1.23 thorpej 137 1.23 thorpej cp = malloc(12, M_DEVBUF, M_NOWAIT); 138 1.23 thorpej if (cp == NULL) 139 1.23 thorpej panic("tc_3000_500_intr_setup"); 140 1.23 thorpej sprintf(cp, "slot %lu", i); 141 1.23 thorpej evcnt_attach_dynamic(&tc_3000_500_intr[i].tci_evcnt, 142 1.23 thorpej EVCNT_TYPE_INTR, NULL, "tc", cp); 143 1.3 cgd } 144 1.22 cgd } 145 1.22 cgd 146 1.22 cgd const struct evcnt * 147 1.22 cgd tc_3000_500_intr_evcnt(tcadev, cookie) 148 1.22 cgd struct device *tcadev; 149 1.22 cgd void *cookie; 150 1.22 cgd { 151 1.23 thorpej u_long dev = (u_long)cookie; 152 1.23 thorpej 153 1.23 thorpej #ifdef DIAGNOSTIC 154 1.23 thorpej /* XXX bounds-check cookie. */ 155 1.23 thorpej #endif 156 1.22 cgd 157 1.23 thorpej return (&tc_3000_500_intr[dev].tci_evcnt); 158 1.1 cgd } 159 1.1 cgd 160 1.1 cgd void 161 1.3 cgd tc_3000_500_intr_establish(tcadev, cookie, level, func, arg) 162 1.3 cgd struct device *tcadev; 163 1.3 cgd void *cookie, *arg; 164 1.3 cgd tc_intrlevel_t level; 165 1.26 dsl int (*func)(void *); 166 1.1 cgd { 167 1.3 cgd u_long dev = (u_long)cookie; 168 1.1 cgd 169 1.1 cgd #ifdef DIAGNOSTIC 170 1.3 cgd /* XXX bounds-check cookie. */ 171 1.1 cgd #endif 172 1.1 cgd 173 1.3 cgd if (tc_3000_500_intr[dev].tci_func != tc_3000_500_intrnull) 174 1.18 thorpej panic("tc_3000_500_intr_establish: cookie %lu twice", dev); 175 1.1 cgd 176 1.3 cgd tc_3000_500_intr[dev].tci_func = func; 177 1.3 cgd tc_3000_500_intr[dev].tci_arg = arg; 178 1.1 cgd 179 1.5 cgd tc_3000_500_imask &= ~tc_3000_500_intrbits[dev]; 180 1.5 cgd *(volatile u_int32_t *)TC_3000_500_IMR_WRITE = tc_3000_500_imask; 181 1.3 cgd tc_mb(); 182 1.1 cgd } 183 1.1 cgd 184 1.1 cgd void 185 1.3 cgd tc_3000_500_intr_disestablish(tcadev, cookie) 186 1.3 cgd struct device *tcadev; 187 1.3 cgd void *cookie; 188 1.1 cgd { 189 1.3 cgd u_long dev = (u_long)cookie; 190 1.1 cgd 191 1.1 cgd #ifdef DIAGNOSTIC 192 1.3 cgd /* XXX bounds-check cookie. */ 193 1.1 cgd #endif 194 1.1 cgd 195 1.3 cgd if (tc_3000_500_intr[dev].tci_func == tc_3000_500_intrnull) 196 1.18 thorpej panic("tc_3000_500_intr_disestablish: cookie %lu bad intr", 197 1.1 cgd dev); 198 1.1 cgd 199 1.5 cgd tc_3000_500_imask |= tc_3000_500_intrbits[dev]; 200 1.5 cgd *(volatile u_int32_t *)TC_3000_500_IMR_WRITE = tc_3000_500_imask; 201 1.3 cgd tc_mb(); 202 1.3 cgd 203 1.3 cgd tc_3000_500_intr[dev].tci_func = tc_3000_500_intrnull; 204 1.3 cgd tc_3000_500_intr[dev].tci_arg = (void *)dev; 205 1.3 cgd } 206 1.3 cgd 207 1.3 cgd int 208 1.3 cgd tc_3000_500_intrnull(val) 209 1.3 cgd void *val; 210 1.3 cgd { 211 1.1 cgd 212 1.25 provos panic("tc_3000_500_intrnull: uncaught TC intr for cookie %ld", 213 1.3 cgd (u_long)val); 214 1.1 cgd } 215 1.1 cgd 216 1.1 cgd void 217 1.24 thorpej tc_3000_500_iointr(arg, vec) 218 1.24 thorpej void *arg; 219 1.9 cgd unsigned long vec; 220 1.1 cgd { 221 1.5 cgd u_int32_t ir; 222 1.1 cgd int ifound; 223 1.1 cgd 224 1.1 cgd #ifdef DIAGNOSTIC 225 1.1 cgd int s; 226 1.1 cgd if (vec != 0x800) 227 1.9 cgd panic("INVALID ASSUMPTION: vec 0x%lx, not 0x800", vec); 228 1.1 cgd s = splhigh(); 229 1.8 cgd if (s != ALPHA_PSL_IPL_IO) 230 1.8 cgd panic("INVALID ASSUMPTION: IPL %d, not %d", s, 231 1.8 cgd ALPHA_PSL_IPL_IO); 232 1.1 cgd splx(s); 233 1.1 cgd #endif 234 1.1 cgd 235 1.1 cgd do { 236 1.3 cgd tc_syncbus(); 237 1.5 cgd ir = *(volatile u_int32_t *)TC_3000_500_IR_CLEAR; 238 1.4 cgd 239 1.4 cgd /* Ignore interrupts that we haven't enabled. */ 240 1.5 cgd ir &= ~(tc_3000_500_imask & 0x1ff); 241 1.1 cgd 242 1.1 cgd ifound = 0; 243 1.6 cgd 244 1.23 thorpej #define INCRINTRCNT(slot) tc_3000_500_intr[slot].tci_evcnt.ev_count++ 245 1.6 cgd 246 1.3 cgd #define CHECKINTR(slot) \ 247 1.3 cgd if (ir & tc_3000_500_intrbits[slot]) { \ 248 1.1 cgd ifound = 1; \ 249 1.6 cgd INCRINTRCNT(slot); \ 250 1.3 cgd (*tc_3000_500_intr[slot].tci_func) \ 251 1.3 cgd (tc_3000_500_intr[slot].tci_arg); \ 252 1.1 cgd } 253 1.1 cgd /* Do them in order of priority; highest slot # first. */ 254 1.3 cgd CHECKINTR(TC_3000_500_DEV_CXTURBO); 255 1.3 cgd CHECKINTR(TC_3000_500_DEV_IOASIC); 256 1.3 cgd CHECKINTR(TC_3000_500_DEV_TCDS); 257 1.3 cgd CHECKINTR(TC_3000_500_DEV_OPT5); 258 1.3 cgd CHECKINTR(TC_3000_500_DEV_OPT4); 259 1.3 cgd CHECKINTR(TC_3000_500_DEV_OPT3); 260 1.3 cgd CHECKINTR(TC_3000_500_DEV_OPT2); 261 1.3 cgd CHECKINTR(TC_3000_500_DEV_OPT1); 262 1.3 cgd CHECKINTR(TC_3000_500_DEV_OPT0); 263 1.1 cgd #undef CHECKINTR 264 1.1 cgd 265 1.1 cgd #ifdef DIAGNOSTIC 266 1.1 cgd #define PRINTINTR(msg, bits) \ 267 1.1 cgd if (ir & bits) \ 268 1.11 christos printf(msg); 269 1.1 cgd PRINTINTR("Second error occurred\n", TC_3000_500_IR_ERR2); 270 1.1 cgd PRINTINTR("DMA buffer error\n", TC_3000_500_IR_DMABE); 271 1.1 cgd PRINTINTR("DMA cross 2K boundary\n", TC_3000_500_IR_DMA2K); 272 1.1 cgd PRINTINTR("TC reset in progress\n", TC_3000_500_IR_TCRESET); 273 1.1 cgd PRINTINTR("TC parity error\n", TC_3000_500_IR_TCPAR); 274 1.1 cgd PRINTINTR("DMA tag error\n", TC_3000_500_IR_DMATAG); 275 1.1 cgd PRINTINTR("Single-bit error\n", TC_3000_500_IR_DMASBE); 276 1.1 cgd PRINTINTR("Double-bit error\n", TC_3000_500_IR_DMADBE); 277 1.1 cgd PRINTINTR("TC I/O timeout\n", TC_3000_500_IR_TCTIMEOUT); 278 1.1 cgd PRINTINTR("DMA block too long\n", TC_3000_500_IR_DMABLOCK); 279 1.1 cgd PRINTINTR("Invalid I/O address\n", TC_3000_500_IR_IOADDR); 280 1.1 cgd PRINTINTR("DMA scatter/gather invalid\n", TC_3000_500_IR_DMASG); 281 1.1 cgd PRINTINTR("Scatter/gather parity error\n", 282 1.1 cgd TC_3000_500_IR_SGPAR); 283 1.1 cgd #undef PRINTINTR 284 1.1 cgd #endif 285 1.1 cgd } while (ifound); 286 1.16 briggs } 287 1.16 briggs 288 1.19 drochner #if NWSDISPLAY > 0 289 1.16 briggs /* 290 1.16 briggs * tc_3000_500_fb_cnattach -- 291 1.16 briggs * Attempt to map the CTB output device to a slot and attach the 292 1.16 briggs * framebuffer as the output side of the console. 293 1.16 briggs */ 294 1.16 briggs int 295 1.16 briggs tc_3000_500_fb_cnattach(turbo_slot) 296 1.16 briggs u_int64_t turbo_slot; 297 1.16 briggs { 298 1.16 briggs u_int32_t output_slot; 299 1.16 briggs 300 1.16 briggs output_slot = turbo_slot & 0xffffffff; 301 1.16 briggs 302 1.16 briggs if (output_slot >= tc_3000_500_nslots) { 303 1.20 drochner return EINVAL; 304 1.16 briggs } 305 1.16 briggs 306 1.16 briggs if (hwrpb->rpb_variation & SV_GRAPHICS) { 307 1.16 briggs if (output_slot == 0) { 308 1.17 briggs #if NSFB > 0 309 1.16 briggs sfb_cnattach(KV(0x1e0000000) + 0x02000000); 310 1.20 drochner return 0; 311 1.17 briggs #else 312 1.20 drochner return ENXIO; 313 1.17 briggs #endif 314 1.16 briggs } 315 1.16 briggs } else { 316 1.16 briggs /* 317 1.16 briggs * Slots 0-2 in the tc_3000_500_slots array are only 318 1.16 briggs * on the 500 models that also have the CXTurbo 319 1.16 briggs * (500/800/900) and a total of 6 TC slots. For the 320 1.16 briggs * 400/600/700, slots 0-2 are in table locations 3-5, so 321 1.16 briggs * offset the CTB slot by 3 to get the address in our table. 322 1.16 briggs */ 323 1.16 briggs output_slot += 3; 324 1.16 briggs } 325 1.16 briggs return tc_fb_cnattach(tc_3000_500_slots[output_slot-1].tcs_addr); 326 1.1 cgd } 327 1.19 drochner #endif /* NWSDISPLAY */ 328 1.1 cgd 329 1.8 cgd #if 0 330 1.1 cgd /* 331 1.1 cgd * tc_3000_500_ioslot -- 332 1.1 cgd * Set the PBS bits for devices on the TC. 333 1.1 cgd */ 334 1.1 cgd void 335 1.1 cgd tc_3000_500_ioslot(slot, flags, set) 336 1.1 cgd u_int32_t slot, flags; 337 1.1 cgd int set; 338 1.1 cgd { 339 1.1 cgd volatile u_int32_t *iosp; 340 1.1 cgd u_int32_t ios; 341 1.1 cgd int s; 342 1.1 cgd 343 1.1 cgd iosp = (volatile u_int32_t *)TC_3000_500_IOSLOT; 344 1.1 cgd ios = *iosp; 345 1.1 cgd flags <<= (slot * 3); 346 1.1 cgd if (set) 347 1.1 cgd ios |= flags; 348 1.1 cgd else 349 1.1 cgd ios &= ~flags; 350 1.1 cgd s = splhigh(); 351 1.1 cgd *iosp = ios; 352 1.3 cgd tc_mb(); 353 1.1 cgd splx(s); 354 1.1 cgd } 355 1.8 cgd #endif 356
Indexes created Thu Oct 02 07:10:07 GMT 2025