pciconf.c revision 1.7
1 1.7 thorpej /* $NetBSD: pciconf.c,v 1.7 2001/08/28 15:13:48 thorpej Exp $ */ 2 1.1 briggs 3 1.1 briggs /* 4 1.1 briggs * Copyright 2001 Wasabi Systems, Inc. 5 1.1 briggs * All rights reserved. 6 1.1 briggs * 7 1.1 briggs * Written by Allen Briggs for Wasabi Systems, Inc. 8 1.1 briggs * 9 1.1 briggs * Redistribution and use in source and binary forms, with or without 10 1.1 briggs * modification, are permitted provided that the following conditions 11 1.1 briggs * are met: 12 1.1 briggs * 1. Redistributions of source code must retain the above copyright 13 1.1 briggs * notice, this list of conditions and the following disclaimer. 14 1.1 briggs * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 briggs * notice, this list of conditions and the following disclaimer in the 16 1.1 briggs * documentation and/or other materials provided with the distribution. 17 1.1 briggs * 3. All advertising materials mentioning features or use of this software 18 1.1 briggs * must display the following acknowledgement: 19 1.1 briggs * This product includes software developed for the NetBSD Project by 20 1.1 briggs * Wasabi Systems, Inc. 21 1.1 briggs * 4. The name of Wasabi Systems, Inc. may not be used to endorse 22 1.1 briggs * or promote products derived from this software without specific prior 23 1.1 briggs * written permission. 24 1.1 briggs * 25 1.1 briggs * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 26 1.1 briggs * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 27 1.1 briggs * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 28 1.1 briggs * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 29 1.1 briggs * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 30 1.1 briggs * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 31 1.1 briggs * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 32 1.1 briggs * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 33 1.1 briggs * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 34 1.1 briggs * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 35 1.1 briggs * POSSIBILITY OF SUCH DAMAGE. 36 1.1 briggs */ 37 1.1 briggs /* 38 1.1 briggs * Derived in part from code from PMON/2000 (http://pmon.groupbsd.org/). 39 1.1 briggs */ 40 1.1 briggs 41 1.2 briggs /* 42 1.2 briggs * To do: 43 1.7 thorpej * - Do this in 2 passes, with an MD hook to control the behavior: 44 1.7 thorpej * (1) Configure the bus (possibly including expansion 45 1.7 thorpej * ROMs. 46 1.7 thorpej * (2) Another pass to disable expansion ROMs if they're 47 1.7 thorpej * mapped (since you're not supposed to leave them 48 1.7 thorpej * mapped when you're not using them). 49 1.7 thorpej * This would facilitate MD code executing the expansion ROMs 50 1.7 thorpej * if necessary (possibly with an x86 emulator) to configure 51 1.7 thorpej * devices (e.g. VGA cards). 52 1.2 briggs * - Deal with "anything can be hot-plugged" -- i.e., carry configuration 53 1.2 briggs * information around & be able to reconfigure on the fly. 54 1.2 briggs * - Deal with segments (See IA64 System Abstraction Layer) 55 1.2 briggs * - Deal with subtractive bridges (& non-spec positive/subtractive decode) 56 1.2 briggs * - Deal with ISA/VGA/VGA palette snooping 57 1.2 briggs * - Deal with device capabilities on bridges 58 1.2 briggs * - Worry about changing a bridge to/from transparency. 59 1.2 briggs */ 60 1.2 briggs 61 1.1 briggs #include "opt_pci.h" 62 1.1 briggs 63 1.1 briggs #include <sys/param.h> 64 1.1 briggs #include <sys/extent.h> 65 1.1 briggs #include <sys/queue.h> 66 1.1 briggs #include <sys/systm.h> 67 1.1 briggs #include <sys/malloc.h> 68 1.1 briggs 69 1.1 briggs #include <dev/pci/pcivar.h> 70 1.1 briggs #include <dev/pci/pciconf.h> 71 1.1 briggs #include <dev/pci/pcidevs.h> 72 1.1 briggs 73 1.1 briggs int pci_conf_debug = 0; 74 1.1 briggs 75 1.1 briggs #if !defined(MIN) 76 1.1 briggs #define MIN(a,b) (((a)<(b))?(a):(b)) 77 1.1 briggs #define MAX(a,b) (((a)>(b))?(a):(b)) 78 1.1 briggs #endif 79 1.1 briggs 80 1.1 briggs /* per-bus constants. */ 81 1.1 briggs #define MAX_CONF_DEV 8 /* Arbitrary */ 82 1.1 briggs #define MAX_CONF_MEM (3 * MAX_CONF_DEV) /* Avg. 3 per device -- Arb. */ 83 1.1 briggs #define MAX_CONF_IO (1 * MAX_CONF_DEV) /* Avg. 1 per device -- Arb. */ 84 1.1 briggs 85 1.1 briggs #define PCI_BUSNO_SPACING (1 << 5) 86 1.1 briggs 87 1.1 briggs struct _s_pciconf_bus_t; /* Forward declaration */ 88 1.1 briggs 89 1.1 briggs typedef struct _s_pciconf_dev_t { 90 1.1 briggs int ipin; 91 1.1 briggs int iline; 92 1.1 briggs int min_gnt; 93 1.1 briggs int max_lat; 94 1.2 briggs int enable; 95 1.1 briggs pcitag_t tag; 96 1.1 briggs pci_chipset_tag_t pc; 97 1.1 briggs struct _s_pciconf_bus_t *ppb; /* I am really a bridge */ 98 1.1 briggs } pciconf_dev_t; 99 1.1 briggs 100 1.1 briggs typedef struct _s_pciconf_win_t { 101 1.1 briggs pciconf_dev_t *dev; 102 1.1 briggs int reg; /* 0 for busses */ 103 1.1 briggs int align; 104 1.1 briggs int prefetch; 105 1.1 briggs u_int64_t size; 106 1.1 briggs u_int64_t address; 107 1.1 briggs } pciconf_win_t; 108 1.1 briggs 109 1.1 briggs typedef struct _s_pciconf_bus_t { 110 1.1 briggs int busno; 111 1.1 briggs int next_busno; 112 1.1 briggs int last_busno; 113 1.1 briggs int busno_spacing; 114 1.1 briggs int max_mingnt; 115 1.1 briggs int min_maxlat; 116 1.1 briggs int prefetch; 117 1.1 briggs int fast_b2b; 118 1.1 briggs int freq_66; 119 1.1 briggs int def_ltim; 120 1.1 briggs int max_ltim; 121 1.1 briggs int bandwidth_used; 122 1.1 briggs int swiz; 123 1.2 briggs int io_32bit; 124 1.2 briggs int pmem_64bit; 125 1.1 briggs 126 1.1 briggs int ndevs; 127 1.1 briggs pciconf_dev_t device[MAX_CONF_DEV]; 128 1.1 briggs 129 1.1 briggs /* These should be sorted in order of decreasing size */ 130 1.1 briggs int nmemwin; 131 1.1 briggs pciconf_win_t pcimemwin[MAX_CONF_MEM]; 132 1.1 briggs int niowin; 133 1.1 briggs pciconf_win_t pciiowin[MAX_CONF_IO]; 134 1.1 briggs 135 1.1 briggs bus_size_t io_total; 136 1.1 briggs bus_size_t mem_total; 137 1.1 briggs bus_size_t pmem_total; 138 1.1 briggs 139 1.1 briggs struct extent *ioext; 140 1.1 briggs struct extent *memext; 141 1.1 briggs struct extent *pmemext; 142 1.1 briggs 143 1.1 briggs pci_chipset_tag_t pc; 144 1.1 briggs struct _s_pciconf_bus_t *parent_bus; 145 1.1 briggs } pciconf_bus_t; 146 1.1 briggs 147 1.1 briggs static int probe_bus(pciconf_bus_t *); 148 1.1 briggs static void alloc_busno(pciconf_bus_t *, pciconf_bus_t *); 149 1.4 simonb static int pci_do_device_query(pciconf_bus_t *, pcitag_t, int, int, int); 150 1.1 briggs static int setup_iowins(pciconf_bus_t *); 151 1.1 briggs static int setup_memwins(pciconf_bus_t *); 152 1.1 briggs static int configure_bridge(pciconf_dev_t *); 153 1.1 briggs static int configure_bus(pciconf_bus_t *); 154 1.1 briggs static u_int64_t pci_allocate_range(struct extent *, u_int64_t, int); 155 1.1 briggs static pciconf_win_t *get_io_desc(pciconf_bus_t *, bus_size_t); 156 1.1 briggs static pciconf_win_t *get_mem_desc(pciconf_bus_t *, bus_size_t); 157 1.1 briggs static pciconf_bus_t *query_bus(pciconf_bus_t *, pciconf_dev_t *, int); 158 1.1 briggs 159 1.1 briggs static void print_tag(pci_chipset_tag_t, pcitag_t); 160 1.1 briggs 161 1.1 briggs static void 162 1.1 briggs print_tag(pci_chipset_tag_t pc, pcitag_t tag) 163 1.1 briggs { 164 1.1 briggs int bus, dev, func; 165 1.1 briggs 166 1.1 briggs pci_decompose_tag(pc, tag, &bus, &dev, &func); 167 1.1 briggs printf("PCI: bus %d, device %d, function %d: ", bus, dev, func); 168 1.1 briggs } 169 1.1 briggs 170 1.1 briggs /************************************************************************/ 171 1.1 briggs /************************************************************************/ 172 1.1 briggs /*********************** Bus probing routines ***********************/ 173 1.1 briggs /************************************************************************/ 174 1.1 briggs /************************************************************************/ 175 1.1 briggs static pciconf_win_t * 176 1.1 briggs get_io_desc(pciconf_bus_t *pb, bus_size_t size) 177 1.1 briggs { 178 1.1 briggs int i, n; 179 1.1 briggs 180 1.1 briggs n = pb->niowin; 181 1.1 briggs for (i=n; i > 0 && size > pb->pciiowin[i-1].size; i--) 182 1.1 briggs pb->pciiowin[i] = pb->pciiowin[i-1]; /* struct copy */ 183 1.1 briggs return &pb->pciiowin[i]; 184 1.1 briggs } 185 1.1 briggs 186 1.1 briggs static pciconf_win_t * 187 1.1 briggs get_mem_desc(pciconf_bus_t *pb, bus_size_t size) 188 1.1 briggs { 189 1.1 briggs int i, n; 190 1.1 briggs 191 1.1 briggs n = pb->nmemwin; 192 1.1 briggs for (i=n; i > 0 && size > pb->pcimemwin[i-1].size; i--) 193 1.1 briggs pb->pcimemwin[i] = pb->pcimemwin[i-1]; /* struct copy */ 194 1.1 briggs return &pb->pcimemwin[i]; 195 1.1 briggs } 196 1.1 briggs 197 1.1 briggs /* 198 1.1 briggs * Set up bus common stuff, then loop over devices & functions. 199 1.1 briggs * If we find something, call pci_do_device_query()). 200 1.1 briggs */ 201 1.1 briggs static int 202 1.1 briggs probe_bus(pciconf_bus_t *pb) 203 1.1 briggs { 204 1.1 briggs int device, maxdevs; 205 1.1 briggs 206 1.1 briggs maxdevs = pci_bus_maxdevs(pb->pc, pb->busno); 207 1.1 briggs pb->ndevs = 0; 208 1.1 briggs pb->niowin = 0; 209 1.1 briggs pb->nmemwin = 0; 210 1.1 briggs pb->freq_66 = 1; 211 1.1 briggs pb->fast_b2b = 1; 212 1.1 briggs pb->prefetch = 1; 213 1.1 briggs pb->max_mingnt = 0; /* we are looking for the maximum */ 214 1.1 briggs pb->min_maxlat = 0x100; /* we are looking for the minimum */ 215 1.1 briggs pb->bandwidth_used = 0; 216 1.4 simonb 217 1.1 briggs for (device=0; device < maxdevs; device++) { 218 1.1 briggs pcitag_t tag; 219 1.1 briggs pcireg_t id, bhlcr; 220 1.1 briggs int function, nfunction; 221 1.4 simonb int confmode; 222 1.1 briggs 223 1.1 briggs tag = pci_make_tag(pb->pc, pb->busno, device, 0); 224 1.1 briggs if (pci_conf_debug) { 225 1.1 briggs print_tag(pb->pc, tag); 226 1.5 thorpej printf("probing with tag 0x%lx.\n", (u_long) tag); 227 1.1 briggs } 228 1.1 briggs id = pci_conf_read(pb->pc, tag, PCI_ID_REG); 229 1.1 briggs 230 1.4 simonb if (pci_conf_debug) { 231 1.4 simonb printf("id=%x: Vendor=%x, Product=%x\n", 232 1.4 simonb id, PCI_VENDOR(id),PCI_PRODUCT(id)); 233 1.4 simonb } 234 1.1 briggs /* Invalid vendor ID value? */ 235 1.1 briggs if (PCI_VENDOR(id) == PCI_VENDOR_INVALID) 236 1.1 briggs continue; 237 1.1 briggs 238 1.1 briggs bhlcr = pci_conf_read(pb->pc, tag, PCI_BHLC_REG); 239 1.1 briggs nfunction = PCI_HDRTYPE_MULTIFN(bhlcr) ? 8 : 1; 240 1.1 briggs for (function = 0 ; function < nfunction ; function++) { 241 1.1 briggs tag = pci_make_tag(pb->pc, pb->busno, device, function); 242 1.1 briggs id = pci_conf_read(pb->pc, tag, PCI_ID_REG); 243 1.1 briggs if (PCI_VENDOR(id) == PCI_VENDOR_INVALID) 244 1.1 briggs continue; 245 1.1 briggs if (pb->ndevs+1 < MAX_CONF_DEV) { 246 1.1 briggs if (pci_conf_debug) { 247 1.1 briggs print_tag(pb->pc, tag); 248 1.3 thorpej printf("Found dev 0x%04x 0x%04x -- " 249 1.3 thorpej "really probing.\n", 250 1.3 thorpej PCI_VENDOR(id), PCI_PRODUCT(id)); 251 1.1 briggs } 252 1.4 simonb #ifdef __HAVE_PCI_CONF_HOOK 253 1.4 simonb confmode = pci_conf_hook(pb->pc, pb->busno, 254 1.4 simonb device, function, id); 255 1.4 simonb if (confmode == 0) 256 1.4 simonb continue; 257 1.4 simonb #else 258 1.6 thorpej /* 259 1.6 thorpej * Don't enable expansion ROMS -- some cards 260 1.6 thorpej * share address decoders between the EXPROM 261 1.6 thorpej * and PCI memory space, and enabling the ROM 262 1.6 thorpej * when not needed will cause all sorts of 263 1.6 thorpej * lossage. 264 1.6 thorpej */ 265 1.6 thorpej confmode = PCI_CONF_ALL & ~PCI_CONF_MAP_ROM; 266 1.4 simonb #endif 267 1.1 briggs if (pci_do_device_query(pb, tag, device, 268 1.4 simonb function, confmode)) 269 1.1 briggs return -1; 270 1.1 briggs pb->ndevs++; 271 1.1 briggs } 272 1.1 briggs } 273 1.1 briggs } 274 1.1 briggs return 0; 275 1.1 briggs } 276 1.1 briggs 277 1.1 briggs static void 278 1.1 briggs alloc_busno(pciconf_bus_t *parent, pciconf_bus_t *pb) 279 1.1 briggs { 280 1.1 briggs pb->busno = parent->next_busno; 281 1.1 briggs if (parent->next_busno + parent->busno_spacing > parent->last_busno) 282 1.1 briggs panic("Too many PCI busses on bus %d", parent->busno); 283 1.1 briggs parent->next_busno = parent->next_busno + parent->busno_spacing; 284 1.1 briggs pb->next_busno = pb->busno+1; 285 1.1 briggs pb->busno_spacing = parent->busno_spacing >> 1; 286 1.1 briggs if (!pb->busno_spacing) 287 1.1 briggs panic("PCI busses nested too deep."); 288 1.1 briggs pb->last_busno = parent->next_busno - 1; 289 1.1 briggs } 290 1.1 briggs 291 1.1 briggs static pciconf_bus_t * 292 1.1 briggs query_bus(pciconf_bus_t *parent, pciconf_dev_t *pd, int dev) 293 1.1 briggs { 294 1.1 briggs pciconf_bus_t *pb; 295 1.2 briggs pcireg_t busreg, io, pmem; 296 1.1 briggs pciconf_win_t *pi, *pm; 297 1.1 briggs 298 1.1 briggs pb = malloc (sizeof (pciconf_bus_t), M_DEVBUF, M_NOWAIT); 299 1.1 briggs if (!pb) 300 1.1 briggs panic("Unable to allocate memory for PCI configuration."); 301 1.1 briggs 302 1.1 briggs pb->parent_bus = parent; 303 1.1 briggs alloc_busno(parent, pb); 304 1.1 briggs if (pci_conf_debug) 305 1.1 briggs printf("PCI bus bridge covers busses %d-%d\n", 306 1.1 briggs pb->busno, pb->last_busno); 307 1.1 briggs 308 1.1 briggs busreg = parent->busno << PCI_BRIDGE_BUS_PRIMARY_SHIFT; 309 1.1 briggs busreg |= pb->busno << PCI_BRIDGE_BUS_SECONDARY_SHIFT; 310 1.1 briggs busreg |= pb->last_busno << PCI_BRIDGE_BUS_SUBORDINATE_SHIFT; 311 1.1 briggs pci_conf_write(pb->pc, pd->tag, PCI_BRIDGE_BUS_REG, busreg); 312 1.1 briggs 313 1.1 briggs pb->swiz = parent->swiz + dev; 314 1.1 briggs 315 1.1 briggs pb->ioext = NULL; 316 1.1 briggs pb->memext = NULL; 317 1.1 briggs pb->pmemext = NULL; 318 1.1 briggs pb->pc = parent->pc; 319 1.1 briggs pb->io_total = pb->mem_total = pb->pmem_total = 0; 320 1.1 briggs 321 1.2 briggs pb->io_32bit = 0; 322 1.2 briggs if (parent->io_32bit) { 323 1.2 briggs io = pci_conf_read(pb->pc, pd->tag, PCI_BRIDGE_STATIO_REG); 324 1.2 briggs if (PCI_BRIDGE_IO_32BITS(io)) { 325 1.2 briggs pb->io_32bit = 1; 326 1.2 briggs } 327 1.2 briggs } 328 1.2 briggs 329 1.2 briggs pb->pmem_64bit = 0; 330 1.2 briggs if (parent->pmem_64bit) { 331 1.2 briggs pmem = pci_conf_read(pb->pc, pd->tag, 332 1.2 briggs PCI_BRIDGE_PREFETCHMEM_REG); 333 1.2 briggs if (PCI_BRIDGE_PREFETCHMEM_64BITS(pmem)) { 334 1.2 briggs pb->pmem_64bit = 1; 335 1.2 briggs } 336 1.2 briggs } 337 1.2 briggs 338 1.1 briggs if (probe_bus(pb)) { 339 1.1 briggs printf("Failed to probe bus %d\n", pb->busno); 340 1.1 briggs goto err; 341 1.1 briggs } 342 1.1 briggs 343 1.1 briggs if (pb->io_total > 0) { 344 1.1 briggs if (parent->niowin >= MAX_CONF_IO) { 345 1.1 briggs printf("pciconf: too many I/O windows"); 346 1.1 briggs goto err; 347 1.1 briggs } 348 1.1 briggs pb->io_total |= 0xfff; /* Round up */ 349 1.1 briggs pi = get_io_desc(parent, pb->io_total); 350 1.1 briggs pi->dev = pd; 351 1.1 briggs pi->reg = 0; 352 1.1 briggs pi->size = pb->io_total; 353 1.1 briggs pi->align = 0x1000; /* 4K alignment */ 354 1.1 briggs pi->prefetch = 0; 355 1.1 briggs parent->niowin++; 356 1.1 briggs parent->io_total += pb->io_total; 357 1.1 briggs } 358 1.1 briggs 359 1.1 briggs if (pb->mem_total > 0) { 360 1.1 briggs if (parent->nmemwin >= MAX_CONF_MEM) { 361 1.1 briggs printf("pciconf: too many MEM windows"); 362 1.1 briggs goto err; 363 1.1 briggs } 364 1.1 briggs pb->mem_total |= 0xfffff; /* Round up */ 365 1.1 briggs pm = get_mem_desc(parent, pb->mem_total); 366 1.1 briggs pm->dev = pd; 367 1.1 briggs pm->reg = 0; 368 1.1 briggs pm->size = pb->mem_total; 369 1.1 briggs pm->align = 0x100000; /* 1M alignment */ 370 1.1 briggs pm->prefetch = 0; 371 1.1 briggs parent->nmemwin++; 372 1.1 briggs parent->mem_total += pb->mem_total; 373 1.1 briggs } 374 1.1 briggs 375 1.1 briggs if (pb->pmem_total > 0) { 376 1.1 briggs if (parent->nmemwin >= MAX_CONF_MEM) { 377 1.1 briggs printf("pciconf: too many MEM windows"); 378 1.1 briggs goto err; 379 1.1 briggs } 380 1.1 briggs pb->pmem_total |= 0xfffff; /* Round up */ 381 1.1 briggs pm = get_mem_desc(parent, pb->pmem_total); 382 1.1 briggs pm->dev = pd; 383 1.1 briggs pm->reg = 0; 384 1.1 briggs pm->size = pb->pmem_total; 385 1.1 briggs pm->align = 0x100000; /* 1M alignment */ 386 1.1 briggs pm->prefetch = 1; 387 1.1 briggs parent->nmemwin++; 388 1.1 briggs parent->pmem_total += pb->pmem_total; 389 1.1 briggs } 390 1.1 briggs 391 1.1 briggs return pb; 392 1.1 briggs err: 393 1.1 briggs free(pb, M_DEVBUF); 394 1.1 briggs return NULL; 395 1.1 briggs } 396 1.1 briggs 397 1.1 briggs static int 398 1.4 simonb pci_do_device_query(pciconf_bus_t *pb, pcitag_t tag, int dev, int func, int mode) 399 1.1 briggs { 400 1.1 briggs pciconf_dev_t *pd; 401 1.1 briggs pciconf_win_t *pi, *pm; 402 1.1 briggs pcireg_t class, cmd, icr, bar, mask, bar64, mask64; 403 1.1 briggs u_int64_t size; 404 1.1 briggs int br, width; 405 1.1 briggs 406 1.1 briggs pd = &pb->device[pb->ndevs]; 407 1.1 briggs pd->pc = pb->pc; 408 1.1 briggs pd->tag = tag; 409 1.1 briggs pd->ppb = NULL; 410 1.4 simonb pd->enable = mode; 411 1.1 briggs 412 1.1 briggs class = pci_conf_read(pb->pc, tag, PCI_CLASS_REG); 413 1.1 briggs 414 1.1 briggs cmd = pci_conf_read(pb->pc, tag, PCI_COMMAND_STATUS_REG); 415 1.1 briggs 416 1.1 briggs if (PCI_CLASS(class) != PCI_CLASS_BRIDGE) { 417 1.1 briggs cmd &= ~(PCI_COMMAND_MASTER_ENABLE | 418 1.1 briggs PCI_COMMAND_IO_ENABLE | PCI_COMMAND_MEM_ENABLE); 419 1.1 briggs pci_conf_write(pb->pc, tag, PCI_COMMAND_STATUS_REG, cmd); 420 1.3 thorpej } else if (pci_conf_debug) { 421 1.3 thorpej print_tag(pb->pc, tag); 422 1.3 thorpej printf("device is a bridge; not clearing enables\n"); 423 1.1 briggs } 424 1.1 briggs 425 1.1 briggs if ((cmd & PCI_STATUS_BACKTOBACK_SUPPORT) == 0) 426 1.1 briggs pb->fast_b2b = 0; 427 1.1 briggs 428 1.1 briggs if ((cmd & PCI_STATUS_66MHZ_SUPPORT) == 0) 429 1.1 briggs pb->freq_66 = 0; 430 1.1 briggs 431 1.1 briggs if ( (PCI_CLASS(class) == PCI_CLASS_BRIDGE) 432 1.1 briggs && (PCI_SUBCLASS(class) == PCI_SUBCLASS_BRIDGE_PCI)) { 433 1.1 briggs pd->ppb = query_bus(pb, pd, dev); 434 1.1 briggs if (pd->ppb == NULL) 435 1.1 briggs return -1; 436 1.1 briggs return 0; 437 1.1 briggs } 438 1.1 briggs 439 1.1 briggs icr = pci_conf_read(pb->pc, tag, PCI_INTERRUPT_REG); 440 1.1 briggs pd->ipin = PCI_INTERRUPT_PIN(icr); 441 1.1 briggs pd->iline = PCI_INTERRUPT_LINE(icr); 442 1.1 briggs pd->min_gnt = PCI_MIN_GNT(icr); 443 1.1 briggs pd->max_lat = PCI_MAX_LAT(icr); 444 1.1 briggs if (pd->iline || pd->ipin) { 445 1.1 briggs pci_conf_interrupt(pb->pc, pb->busno, dev, func, pb->swiz, 446 1.1 briggs &pd->iline); 447 1.1 briggs icr &= ~(PCI_INTERRUPT_LINE_MASK << PCI_INTERRUPT_LINE_SHIFT); 448 1.1 briggs icr |= (pd->iline << PCI_INTERRUPT_LINE_SHIFT); 449 1.1 briggs pci_conf_write(pb->pc, tag, PCI_INTERRUPT_REG, icr); 450 1.1 briggs } 451 1.1 briggs 452 1.1 briggs if (pd->min_gnt != 0 || pd->max_lat != 0) { 453 1.1 briggs if (pd->min_gnt != 0 && pd->min_gnt > pb->max_mingnt) 454 1.1 briggs pb->max_mingnt = pd->min_gnt; 455 1.1 briggs 456 1.1 briggs if (pd->max_lat != 0 && pd->max_lat < pb->min_maxlat) 457 1.1 briggs pb->min_maxlat = pd->max_lat; 458 1.1 briggs 459 1.1 briggs pb->bandwidth_used += pd->min_gnt * 4000000 / 460 1.1 briggs (pd->min_gnt + pd->max_lat); 461 1.1 briggs } 462 1.1 briggs 463 1.1 briggs width = 4; 464 1.1 briggs for (br = PCI_MAPREG_START; br < PCI_MAPREG_END; br += width) { 465 1.3 thorpej #if 0 466 1.1 briggs if (PCI_CLASS(class) == PCI_CLASS_MASS_STORAGE && 467 1.1 briggs PCI_SUBCLASS(class) == PCI_SUBCLASS_MASS_STORAGE_IDE) { 468 1.1 briggs break; 469 1.1 briggs } 470 1.3 thorpej #endif 471 1.1 briggs bar = pci_conf_read(pb->pc, tag, br); 472 1.3 thorpej pci_conf_write(pb->pc, tag, br, 0xffffffff); 473 1.1 briggs mask = pci_conf_read(pb->pc, tag, br); 474 1.1 briggs pci_conf_write(pb->pc, tag, br, bar); 475 1.1 briggs width = 4; 476 1.1 briggs 477 1.3 thorpej if (PCI_MAPREG_TYPE(mask) == PCI_MAPREG_TYPE_IO) { 478 1.3 thorpej /* Upper 16 bits must be one. */ 479 1.3 thorpej /* XXXJRT -- is this really true? */ 480 1.3 thorpej mask |= 0xffff0000; 481 1.3 thorpej 482 1.3 thorpej size = PCI_MAPREG_IO_SIZE(mask); 483 1.3 thorpej if (size == 0) { 484 1.3 thorpej if (pci_conf_debug) { 485 1.3 thorpej print_tag(pb->pc, tag); 486 1.3 thorpej printf("I/O BAR 0x%x is void\n", br); 487 1.3 thorpej } 488 1.3 thorpej continue; 489 1.3 thorpej } 490 1.1 briggs 491 1.1 briggs if (pb->niowin >= MAX_CONF_IO) { 492 1.1 briggs printf("pciconf: too many I/O windows"); 493 1.1 briggs return -1; 494 1.1 briggs } 495 1.1 briggs 496 1.1 briggs pi = get_io_desc(pb, size); 497 1.1 briggs pi->dev = pd; 498 1.1 briggs pi->reg = br; 499 1.1 briggs pi->size = (u_int64_t) size; 500 1.1 briggs pi->align = 4; 501 1.1 briggs pi->prefetch = 0; 502 1.1 briggs if (pci_conf_debug) { 503 1.1 briggs print_tag(pb->pc, tag); 504 1.3 thorpej printf("Register 0x%x, I/O size %llu\n", 505 1.1 briggs br, pi->size); 506 1.1 briggs } 507 1.1 briggs pb->niowin++; 508 1.1 briggs pb->io_total += size; 509 1.4 simonb } else if ((mode & PCI_CONF_MAP_MEM) 510 1.4 simonb && (PCI_MAPREG_TYPE(mask) == PCI_MAPREG_TYPE_MEM)) { 511 1.1 briggs switch (PCI_MAPREG_MEM_TYPE(mask)) { 512 1.1 briggs case PCI_MAPREG_MEM_TYPE_32BIT: 513 1.1 briggs case PCI_MAPREG_MEM_TYPE_32BIT_1M: 514 1.1 briggs size = (u_int64_t) PCI_MAPREG_MEM_SIZE(mask); 515 1.1 briggs break; 516 1.1 briggs case PCI_MAPREG_MEM_TYPE_64BIT: 517 1.1 briggs bar64 = pci_conf_read(pb->pc, tag, br + 4); 518 1.1 briggs pci_conf_write(pb->pc, tag, br + 4, 0xffffffff); 519 1.1 briggs mask64 = pci_conf_read(pb->pc, tag, br + 4); 520 1.1 briggs pci_conf_write(pb->pc, tag, br + 4, bar64); 521 1.1 briggs size = (u_int64_t) PCI_MAPREG_MEM64_SIZE( 522 1.1 briggs (((u_int64_t) mask64) << 32) | mask); 523 1.1 briggs width = 8; 524 1.1 briggs continue; 525 1.1 briggs default: 526 1.1 briggs print_tag(pb->pc, tag); 527 1.1 briggs printf("reserved mapping type 0x%x\n", 528 1.1 briggs PCI_MAPREG_MEM_TYPE(mask)); 529 1.1 briggs continue; 530 1.1 briggs } 531 1.1 briggs 532 1.3 thorpej if (size == 0) { 533 1.3 thorpej if (pci_conf_debug) { 534 1.3 thorpej print_tag(pb->pc, tag); 535 1.3 thorpej printf("MEM%d BAR 0x%x is void\n", 536 1.3 thorpej PCI_MAPREG_MEM_TYPE(mask) == 537 1.3 thorpej PCI_MAPREG_MEM_TYPE_64BIT ? 538 1.3 thorpej 64 : 32, br); 539 1.3 thorpej } 540 1.3 thorpej continue; 541 1.3 thorpej } 542 1.3 thorpej 543 1.1 briggs if (pb->nmemwin >= MAX_CONF_MEM) { 544 1.1 briggs printf("pciconf: too many memory windows"); 545 1.1 briggs return -1; 546 1.1 briggs } 547 1.1 briggs 548 1.1 briggs pm = get_mem_desc(pb, size); 549 1.1 briggs pm->dev = pd; 550 1.1 briggs pm->reg = br; 551 1.1 briggs pm->size = size; 552 1.1 briggs pm->align = 4; 553 1.1 briggs pm->prefetch = PCI_MAPREG_MEM_PREFETCHABLE(mask); 554 1.1 briggs if (pci_conf_debug) { 555 1.1 briggs print_tag(pb->pc, tag); 556 1.3 thorpej printf("Register 0x%x, memory size %llu\n", 557 1.1 briggs br, pm->size); 558 1.1 briggs } 559 1.1 briggs pb->nmemwin++; 560 1.1 briggs if (pm->prefetch) { 561 1.1 briggs pb->pmem_total += size; 562 1.1 briggs } else { 563 1.1 briggs pb->mem_total += size; 564 1.1 briggs } 565 1.1 briggs } 566 1.1 briggs } 567 1.1 briggs 568 1.4 simonb if (mode & PCI_CONF_MAP_ROM) { 569 1.4 simonb bar = pci_conf_read(pb->pc, tag, PCI_MAPREG_ROM); 570 1.4 simonb pci_conf_write(pb->pc, tag, PCI_MAPREG_ROM, 0xfffffffe); 571 1.4 simonb mask = pci_conf_read(pb->pc, tag, PCI_MAPREG_ROM); 572 1.4 simonb pci_conf_write(pb->pc, tag, PCI_MAPREG_ROM, bar); 573 1.4 simonb 574 1.4 simonb if (mask != 0 && mask != 0xffffffff) { 575 1.4 simonb if (pb->nmemwin >= MAX_CONF_MEM) { 576 1.4 simonb printf("pciconf: too many memory windows"); 577 1.4 simonb return -1; 578 1.4 simonb } 579 1.4 simonb size = (u_int64_t) PCI_MAPREG_MEM_SIZE(mask); 580 1.1 briggs 581 1.4 simonb pm = get_mem_desc(pb, size); 582 1.4 simonb pm->dev = pd; 583 1.4 simonb pm->reg = PCI_MAPREG_ROM; 584 1.4 simonb pm->size = size; 585 1.4 simonb pm->align = 4; 586 1.4 simonb pm->prefetch = 1; 587 1.4 simonb if (pci_conf_debug) { 588 1.4 simonb print_tag(pb->pc, tag); 589 1.4 simonb printf("Expansion ROM memory size %llu\n", pm->size); 590 1.4 simonb } 591 1.4 simonb pb->nmemwin++; 592 1.4 simonb pb->pmem_total += size; 593 1.1 briggs } 594 1.1 briggs } 595 1.1 briggs 596 1.1 briggs return 0; 597 1.1 briggs } 598 1.1 briggs 599 1.1 briggs /************************************************************************/ 600 1.1 briggs /************************************************************************/ 601 1.1 briggs /******************** Bus configuration routines ********************/ 602 1.1 briggs /************************************************************************/ 603 1.1 briggs /************************************************************************/ 604 1.1 briggs static u_int64_t 605 1.1 briggs pci_allocate_range(struct extent *ex, u_int64_t amt, int align) 606 1.1 briggs { 607 1.1 briggs int r; 608 1.1 briggs u_long addr; 609 1.1 briggs 610 1.1 briggs r = extent_alloc(ex, amt, align, 0, EX_NOWAIT, &addr); 611 1.1 briggs if (r) { 612 1.1 briggs addr = (u_long) -1; 613 1.4 simonb printf("extent_alloc(%p, %llu, %d) returned %d\n", 614 1.4 simonb ex, amt, align, r); 615 1.4 simonb extent_print(ex); 616 1.1 briggs } 617 1.1 briggs return (pcireg_t) addr; 618 1.1 briggs } 619 1.1 briggs 620 1.1 briggs static int 621 1.1 briggs setup_iowins(pciconf_bus_t *pb) 622 1.1 briggs { 623 1.1 briggs pciconf_win_t *pi; 624 1.1 briggs pciconf_dev_t *pd; 625 1.1 briggs 626 1.1 briggs for (pi=pb->pciiowin; pi < &pb->pciiowin[pb->niowin] ; pi++) { 627 1.1 briggs if (pi->size == 0) 628 1.1 briggs continue; 629 1.1 briggs 630 1.1 briggs pd = pi->dev; 631 1.1 briggs pi->address = pci_allocate_range(pb->ioext, pi->size, 632 1.1 briggs pi->align); 633 1.1 briggs if (pi->address == -1) { 634 1.1 briggs print_tag(pd->pc, pd->tag); 635 1.1 briggs printf("Failed to allocate PCI I/O space (%llu req)\n", 636 1.1 briggs pi->size); 637 1.1 briggs return -1; 638 1.1 briggs } 639 1.2 briggs if (!pb->io_32bit && pi->address > 0xFFFF) { 640 1.2 briggs pi->address = 0; 641 1.2 briggs pd->enable = 0; 642 1.2 briggs } 643 1.1 briggs if (pd->ppb && pi->reg == 0) { 644 1.1 briggs pd->ppb->ioext = extent_create("pciconf", pi->address, 645 1.1 briggs pi->address + pi->size, M_DEVBUF, NULL, 0, 646 1.1 briggs EX_NOWAIT); 647 1.1 briggs if (pd->ppb->ioext == NULL) { 648 1.1 briggs print_tag(pd->pc, pd->tag); 649 1.1 briggs printf("Failed to alloc I/O ext. for bus %d\n", 650 1.1 briggs pd->ppb->busno); 651 1.1 briggs return -1; 652 1.1 briggs } 653 1.1 briggs continue; 654 1.1 briggs } 655 1.1 briggs if (pci_conf_debug) { 656 1.1 briggs print_tag(pd->pc, pd->tag); 657 1.1 briggs printf("Putting %llu I/O bytes @ %#llx (reg %x)\n", 658 1.1 briggs pi->size, pi->address, pi->reg); 659 1.1 briggs } 660 1.1 briggs pci_conf_write(pd->pc, pd->tag, pi->reg, 661 1.1 briggs PCI_MAPREG_IO_ADDR(pi->address) | PCI_MAPREG_TYPE_IO); 662 1.1 briggs } 663 1.1 briggs return 0; 664 1.1 briggs } 665 1.1 briggs 666 1.1 briggs static int 667 1.1 briggs setup_memwins(pciconf_bus_t *pb) 668 1.1 briggs { 669 1.1 briggs pciconf_win_t *pm; 670 1.1 briggs pciconf_dev_t *pd; 671 1.1 briggs pcireg_t base; 672 1.1 briggs struct extent *ex; 673 1.1 briggs 674 1.1 briggs for (pm=pb->pcimemwin; pm < &pb->pcimemwin[pb->nmemwin] ; pm++) { 675 1.1 briggs if (pm->size == 0) 676 1.1 briggs continue; 677 1.1 briggs 678 1.1 briggs pd = pm->dev; 679 1.1 briggs ex = (pm->prefetch) ? pb->pmemext : pb->memext; 680 1.1 briggs pm->address = pci_allocate_range(ex, pm->size, pm->align); 681 1.1 briggs if (pm->address == -1) { 682 1.1 briggs print_tag(pd->pc, pd->tag); 683 1.1 briggs printf( 684 1.1 briggs "Failed to allocate PCI memory space (%llu req)\n", 685 1.1 briggs pm->size); 686 1.1 briggs return -1; 687 1.1 briggs } 688 1.1 briggs if (pd->ppb && pm->reg == 0) { 689 1.1 briggs ex = extent_create("pciconf", pm->address, 690 1.1 briggs pm->address + pm->size, M_DEVBUF, NULL, 0, 691 1.1 briggs EX_NOWAIT); 692 1.1 briggs if (ex == NULL) { 693 1.1 briggs print_tag(pd->pc, pd->tag); 694 1.1 briggs printf("Failed to alloc MEM ext. for bus %d\n", 695 1.1 briggs pd->ppb->busno); 696 1.1 briggs return -1; 697 1.1 briggs } 698 1.1 briggs if (pm->prefetch) { 699 1.1 briggs pd->ppb->pmemext = ex; 700 1.1 briggs } else { 701 1.1 briggs pd->ppb->memext = ex; 702 1.1 briggs } 703 1.1 briggs continue; 704 1.1 briggs } 705 1.2 briggs if (pm->prefetch && !pb->pmem_64bit && 706 1.2 briggs pm->address > 0xFFFFFFFFULL) { 707 1.2 briggs pm->address = 0; 708 1.2 briggs pd->enable = 0; 709 1.2 briggs } 710 1.1 briggs if (pm->reg != PCI_MAPREG_ROM) { 711 1.1 briggs if (pci_conf_debug) { 712 1.1 briggs print_tag(pd->pc, pd->tag); 713 1.1 briggs printf( 714 1.1 briggs "Putting %llu MEM bytes @ %#llx (reg %x)\n", 715 1.1 briggs pm->size, pm->address, pm->reg); 716 1.1 briggs } 717 1.1 briggs base = pci_conf_read(pd->pc, pd->tag, pm->reg); 718 1.1 briggs base = PCI_MAPREG_MEM_ADDR(pm->address) | 719 1.1 briggs PCI_MAPREG_MEM_TYPE(base); 720 1.1 briggs pci_conf_write(pd->pc, pd->tag, pm->reg, base); 721 1.1 briggs if (PCI_MAPREG_MEM_TYPE(base) == 722 1.1 briggs PCI_MAPREG_MEM_TYPE_64BIT) { 723 1.1 briggs base = (pcireg_t) 724 1.1 briggs (PCI_MAPREG_MEM64_ADDR(pm->address) >> 32); 725 1.1 briggs pci_conf_write(pd->pc, pd->tag, pm->reg + 4, 726 1.1 briggs base); 727 1.1 briggs } 728 1.1 briggs } 729 1.1 briggs } 730 1.1 briggs for (pm=pb->pcimemwin; pm < &pb->pcimemwin[pb->nmemwin] ; pm++) { 731 1.1 briggs if (pm->reg == PCI_MAPREG_ROM && pm->address != -1) { 732 1.1 briggs pd = pm->dev; 733 1.1 briggs if (pci_conf_debug) { 734 1.1 briggs print_tag(pd->pc, pd->tag); 735 1.1 briggs printf( 736 1.1 briggs "Putting %llu ROM bytes @ %#llx (reg %x)\n", 737 1.1 briggs pm->size, pm->address, pm->reg); 738 1.1 briggs } 739 1.1 briggs base = ((pcireg_t) pm->address) | PCI_MAPREG_TYPE_ROM; 740 1.1 briggs pci_conf_write(pd->pc, pd->tag, pm->reg, base); 741 1.1 briggs } 742 1.1 briggs } 743 1.1 briggs return 0; 744 1.1 briggs } 745 1.1 briggs 746 1.1 briggs /* 747 1.1 briggs * Configure I/O, memory, and prefetcable memory spaces, then make 748 1.1 briggs * a call to configure_bus(). 749 1.1 briggs */ 750 1.1 briggs static int 751 1.1 briggs configure_bridge(pciconf_dev_t *pd) 752 1.1 briggs { 753 1.1 briggs unsigned long io_base, io_limit, mem_base, mem_limit; 754 1.1 briggs pciconf_bus_t *pb; 755 1.1 briggs pcireg_t io, iohigh, mem, cmd; 756 1.1 briggs int rv; 757 1.1 briggs 758 1.1 briggs pb = pd->ppb; 759 1.1 briggs /* Configure I/O base & limit*/ 760 1.1 briggs if (pb->ioext) { 761 1.1 briggs io_base = pb->ioext->ex_start; 762 1.1 briggs io_limit = pb->ioext->ex_end; 763 1.2 briggs } else { 764 1.2 briggs io_base = 0x1000; /* 4K */ 765 1.2 briggs io_limit = 0x0000; 766 1.1 briggs } 767 1.2 briggs if (pb->io_32bit) { 768 1.2 briggs iohigh = 769 1.2 briggs ((io_base >> 16) << PCI_BRIDGE_IOHIGH_BASE_SHIFT) | 770 1.2 briggs ((io_limit >> 16) << PCI_BRIDGE_IOHIGH_LIMIT_SHIFT); 771 1.2 briggs } else { 772 1.2 briggs if (io_limit > 0xFFFF) { 773 1.2 briggs printf("Bus %d bridge does not support 32-bit I/O. ", 774 1.2 briggs pb->busno); 775 1.2 briggs printf("Disabling I/O accesses\n"); 776 1.2 briggs io_base = 0x1000; /* 4K */ 777 1.2 briggs io_limit = 0x0000; 778 1.2 briggs } 779 1.2 briggs iohigh = 0; 780 1.2 briggs } 781 1.2 briggs io &= (PCI_BRIDGE_STATIO_STATUS_MASK << 782 1.2 briggs PCI_BRIDGE_STATIO_STATUS_SHIFT); 783 1.2 briggs io |= (((io_base >> 8) & PCI_BRIDGE_STATIO_IOBASE_MASK) 784 1.2 briggs << PCI_BRIDGE_STATIO_IOBASE_SHIFT); 785 1.2 briggs io |= (((io_limit >> 8) & PCI_BRIDGE_STATIO_IOLIMIT_MASK) 786 1.2 briggs << PCI_BRIDGE_STATIO_IOLIMIT_SHIFT); 787 1.2 briggs pci_conf_write(pb->pc, pd->tag, PCI_BRIDGE_STATIO_REG, io); 788 1.2 briggs pci_conf_write(pb->pc, pd->tag, PCI_BRIDGE_IOHIGH_REG, iohigh); 789 1.1 briggs 790 1.1 briggs /* Configure mem base & limit */ 791 1.1 briggs if (pb->memext) { 792 1.1 briggs mem_base = pb->memext->ex_start; 793 1.1 briggs mem_limit = pb->memext->ex_end; 794 1.2 briggs } else { 795 1.2 briggs mem_base = 0x100000; /* 1M */ 796 1.2 briggs mem_limit = 0x000000; 797 1.1 briggs } 798 1.2 briggs if (mem_limit > 0xFFFFFFFFULL) { 799 1.2 briggs printf("Bus %d bridge MEM range out of range. ", pb->busno); 800 1.2 briggs printf("Disabling MEM accesses\n"); 801 1.2 briggs mem_base = 0x100000; /* 1M */ 802 1.2 briggs mem_limit = 0x000000; 803 1.2 briggs } 804 1.2 briggs mem = (((mem_base >> 20) & PCI_BRIDGE_MEMORY_BASE_MASK) 805 1.2 briggs << PCI_BRIDGE_MEMORY_BASE_SHIFT); 806 1.2 briggs mem |= (((mem_limit >> 20) & PCI_BRIDGE_MEMORY_LIMIT_MASK) 807 1.2 briggs << PCI_BRIDGE_MEMORY_LIMIT_SHIFT); 808 1.2 briggs pci_conf_write(pb->pc, pd->tag, PCI_BRIDGE_MEMORY_REG, mem); 809 1.1 briggs 810 1.1 briggs /* Configure prefetchable mem base & limit */ 811 1.1 briggs if (pb->pmemext) { 812 1.1 briggs mem_base = pb->pmemext->ex_start; 813 1.1 briggs mem_limit = pb->pmemext->ex_end; 814 1.2 briggs } else { 815 1.2 briggs mem_base = 0x100000; /* 1M */ 816 1.2 briggs mem_limit = 0x000000; 817 1.1 briggs } 818 1.2 briggs mem = pci_conf_read(pb->pc, pd->tag, PCI_BRIDGE_PREFETCHMEM_REG); 819 1.2 briggs if (!PCI_BRIDGE_PREFETCHMEM_64BITS(mem) && mem_limit > 0xFFFFFFFFULL) { 820 1.2 briggs printf("Bus %d bridge does not support 64-bit PMEM. ", 821 1.2 briggs pb->busno); 822 1.2 briggs printf("Disabling prefetchable-MEM accesses\n"); 823 1.2 briggs mem_base = 0x100000; /* 1M */ 824 1.2 briggs mem_limit = 0x000000; 825 1.2 briggs } 826 1.2 briggs mem = (((mem_base >> 20) & PCI_BRIDGE_PREFETCHMEM_BASE_MASK) 827 1.2 briggs << PCI_BRIDGE_PREFETCHMEM_BASE_SHIFT); 828 1.2 briggs mem |= (((mem_limit >> 20) & PCI_BRIDGE_PREFETCHMEM_LIMIT_MASK) 829 1.2 briggs << PCI_BRIDGE_PREFETCHMEM_LIMIT_SHIFT); 830 1.2 briggs pci_conf_write(pb->pc, pd->tag, PCI_BRIDGE_PREFETCHMEM_REG, mem); 831 1.2 briggs /* 832 1.2 briggs * XXX -- 64-bit systems need a lot more than just this... 833 1.2 briggs */ 834 1.2 briggs if (sizeof(u_long) > 4) { 835 1.2 briggs mem_base = (int64_t) mem_base >> 32; 836 1.2 briggs mem_limit = (int64_t) mem_limit >> 32; 837 1.2 briggs } 838 1.2 briggs pci_conf_write(pb->pc, pd->tag, PCI_BRIDGE_PREFETCHBASE32_REG, 839 1.2 briggs mem_base & 0xffffffff); 840 1.2 briggs pci_conf_write(pb->pc, pd->tag, PCI_BRIDGE_PREFETCHLIMIT32_REG, 841 1.2 briggs mem_limit & 0xffffffff); 842 1.1 briggs 843 1.1 briggs rv = configure_bus(pb); 844 1.1 briggs 845 1.1 briggs if (pb->ioext) 846 1.1 briggs extent_destroy(pb->ioext); 847 1.1 briggs if (pb->memext) 848 1.1 briggs extent_destroy(pb->memext); 849 1.1 briggs if (pb->pmemext) 850 1.1 briggs extent_destroy(pb->pmemext); 851 1.1 briggs if (rv == 0) { 852 1.1 briggs cmd = pci_conf_read(pd->pc, pd->tag, PCI_BRIDGE_CONTROL_REG); 853 1.1 briggs cmd &= PCI_BRIDGE_CONTROL_MASK; 854 1.1 briggs cmd |= (PCI_BRIDGE_CONTROL_PERE | PCI_BRIDGE_CONTROL_SERR) 855 1.1 briggs << PCI_BRIDGE_CONTROL_SHIFT; 856 1.1 briggs if (pb->fast_b2b) { 857 1.1 briggs cmd |= PCI_BRIDGE_CONTROL_SECFASTB2B 858 1.1 briggs << PCI_BRIDGE_CONTROL_SHIFT; 859 1.1 briggs } 860 1.1 briggs pci_conf_write(pd->pc, pd->tag, PCI_BRIDGE_CONTROL_REG, cmd); 861 1.1 briggs cmd = pci_conf_read(pd->pc, pd->tag, PCI_COMMAND_STATUS_REG); 862 1.1 briggs cmd |= PCI_COMMAND_IO_ENABLE | PCI_COMMAND_MEM_ENABLE; 863 1.1 briggs pci_conf_write(pd->pc, pd->tag, PCI_COMMAND_STATUS_REG, cmd); 864 1.1 briggs } 865 1.1 briggs 866 1.1 briggs return rv; 867 1.1 briggs } 868 1.1 briggs 869 1.1 briggs /* 870 1.1 briggs * Calculate latency values, allocate I/O and MEM segments, then set them 871 1.1 briggs * up. If a PCI-PCI bridge is found, configure the bridge separately, 872 1.1 briggs * which will cause a recursive call back here. 873 1.1 briggs */ 874 1.1 briggs static int 875 1.1 briggs configure_bus(pciconf_bus_t *pb) 876 1.1 briggs { 877 1.1 briggs pciconf_dev_t *pd; 878 1.1 briggs int def_ltim, max_ltim, band; 879 1.1 briggs 880 1.1 briggs /* MIN_GNT assumes a clock rate of 33MHz */ 881 1.1 briggs max_ltim = pb->max_mingnt * 33 / 4; /* cvt to cycle count */ 882 1.1 briggs band = 40000000; /* 0.25us cycles/sec */ 883 1.1 briggs if (band < pb->bandwidth_used) { 884 1.1 briggs printf("PCI bus %d: Warning: Total bandwidth exceeded!?\n", 885 1.1 briggs pb->busno); 886 1.1 briggs def_ltim = -1; 887 1.1 briggs } else { 888 1.1 briggs def_ltim = (band - pb->bandwidth_used) / pb->ndevs; 889 1.1 briggs if (def_ltim > pb->min_maxlat) 890 1.1 briggs def_ltim = pb->min_maxlat; 891 1.1 briggs def_ltim = def_ltim * 33 / 4; 892 1.1 briggs } 893 1.1 briggs def_ltim = (def_ltim + 7) & ~7; 894 1.1 briggs max_ltim = (max_ltim + 7) & ~7; 895 1.1 briggs 896 1.1 briggs pb->def_ltim = MIN( def_ltim, 255 ); 897 1.1 briggs pb->max_ltim = MIN( MAX(max_ltim, def_ltim ), 255 ); 898 1.1 briggs 899 1.1 briggs /* 900 1.1 briggs * Now we have what we need to initialize the devices. 901 1.1 briggs * It would probably be better if we could allocate all of these 902 1.1 briggs * for all busses at once, but "not right now". First, get a list 903 1.1 briggs * of free memory ranges from the m.d. system. 904 1.1 briggs */ 905 1.1 briggs if (setup_iowins(pb) || setup_memwins(pb)) { 906 1.1 briggs printf("PCI bus configuration failed: "); 907 1.1 briggs printf("unable to assign all I/O and memory ranges."); 908 1.1 briggs return -1; 909 1.1 briggs } 910 1.1 briggs 911 1.1 briggs /* 912 1.1 briggs * Configure the latency for the devices, and enable them. 913 1.1 briggs */ 914 1.1 briggs for (pd=pb->device ; pd < &pb->device[pb->ndevs] ; pd++) { 915 1.1 briggs pcireg_t cmd, class, misc; 916 1.1 briggs int ltim; 917 1.1 briggs 918 1.1 briggs if (pci_conf_debug) { 919 1.1 briggs print_tag(pd->pc, pd->tag); 920 1.1 briggs printf("Configuring device.\n"); 921 1.1 briggs } 922 1.1 briggs class = pci_conf_read(pd->pc, pd->tag, PCI_CLASS_REG); 923 1.1 briggs misc = pci_conf_read(pd->pc, pd->tag, PCI_BHLC_REG); 924 1.1 briggs cmd = pci_conf_read(pd->pc, pd->tag, PCI_COMMAND_STATUS_REG); 925 1.1 briggs cmd |= PCI_COMMAND_MASTER_ENABLE 926 1.1 briggs | PCI_COMMAND_SERR_ENABLE 927 1.1 briggs | PCI_COMMAND_PARITY_ENABLE; 928 1.1 briggs if (pb->fast_b2b) 929 1.1 briggs cmd |= PCI_COMMAND_BACKTOBACK_ENABLE; 930 1.1 briggs if (PCI_CLASS(class) != PCI_CLASS_BRIDGE || 931 1.1 briggs PCI_SUBCLASS(class) != PCI_SUBCLASS_BRIDGE_PCI) { 932 1.1 briggs cmd |= PCI_COMMAND_IO_ENABLE | PCI_COMMAND_MEM_ENABLE; 933 1.1 briggs ltim = pd->min_gnt * 33 / 4; 934 1.1 briggs ltim = MIN (MAX (pb->def_ltim, ltim), pb->max_ltim); 935 1.1 briggs } else { 936 1.1 briggs ltim = MIN (pb->def_ltim, pb->max_ltim); 937 1.1 briggs } 938 1.2 briggs if (!pd->enable) { 939 1.2 briggs print_tag(pd->pc, pd->tag); 940 1.2 briggs printf("Disabled due to lack of resources.\n"); 941 1.2 briggs cmd &= ~(PCI_COMMAND_MASTER_ENABLE | 942 1.2 briggs PCI_COMMAND_IO_ENABLE | PCI_COMMAND_MEM_ENABLE); 943 1.2 briggs } 944 1.1 briggs pci_conf_write(pd->pc, pd->tag, PCI_COMMAND_STATUS_REG, cmd); 945 1.1 briggs 946 1.1 briggs misc = (misc & ~(PCI_LATTIMER_MASK << PCI_LATTIMER_SHIFT)) 947 1.1 briggs | ((ltim & 0xff) << PCI_LATTIMER_SHIFT); 948 1.1 briggs pci_conf_write(pd->pc, pd->tag, PCI_BHLC_REG, misc); 949 1.1 briggs 950 1.1 briggs if (pd->ppb) { 951 1.1 briggs if (configure_bridge(pd) < 0) 952 1.1 briggs return -1; 953 1.1 briggs continue; 954 1.1 briggs } 955 1.1 briggs } 956 1.1 briggs 957 1.1 briggs if (pci_conf_debug) { 958 1.1 briggs printf("PCI bus %d configured\n", pb->busno); 959 1.1 briggs } 960 1.1 briggs 961 1.1 briggs return 0; 962 1.1 briggs } 963 1.1 briggs 964 1.1 briggs /* 965 1.1 briggs * Let's configure the PCI bus. 966 1.1 briggs * This consists of basically scanning for all existing devices, 967 1.1 briggs * identifying their needs, and then making another pass over them 968 1.1 briggs * to set: 969 1.1 briggs * 1. I/O addresses 970 1.1 briggs * 2. Memory addresses (Prefetchable and not) 971 1.1 briggs * 3. PCI command register 972 1.1 briggs * 4. The latency part of the PCI BHLC (BIST (Built-In Self Test), 973 1.1 briggs * Header type, Latency timer, Cache line size) register 974 1.1 briggs * 975 1.1 briggs * The command register is set to enable fast back-to-back transactions 976 1.1 briggs * if the host bridge says it can handle it. We also configure 977 1.1 briggs * Master Enable, SERR enable, parity enable, and (if this is not a 978 1.1 briggs * PCI-PCI bridge) the I/O and Memory spaces. Apparently some devices 979 1.1 briggs * will not report some I/O space. 980 1.1 briggs * 981 1.1 briggs * The latency is computed to be a "fair share" of the bus bandwidth. 982 1.1 briggs * The bus bandwidth variable is initialized to the number of PCI cycles 983 1.1 briggs * in one second. The number of cycles taken for one transaction by each 984 1.1 briggs * device (MAX_LAT + MIN_GNT) is then subtracted from the bandwidth. 985 1.1 briggs * Care is taken to ensure that the latency timer won't be set such that 986 1.1 briggs * it would exceed the critical time for any device. 987 1.1 briggs * 988 1.1 briggs * This is complicated somewhat due to the presence of bridges. PCI-PCI 989 1.1 briggs * bridges are probed and configured recursively. 990 1.1 briggs */ 991 1.1 briggs int 992 1.1 briggs pci_configure_bus(pci_chipset_tag_t pc, struct extent *ioext, 993 1.1 briggs struct extent *memext, struct extent *pmemext) 994 1.1 briggs { 995 1.1 briggs pciconf_bus_t *pb; 996 1.1 briggs int rv; 997 1.1 briggs 998 1.1 briggs pb = malloc (sizeof (pciconf_bus_t), M_DEVBUF, M_NOWAIT); 999 1.1 briggs pb->busno = 0; 1000 1.1 briggs pb->busno_spacing = PCI_BUSNO_SPACING; 1001 1.1 briggs pb->next_busno = pb->busno + 1; 1002 1.1 briggs pb->last_busno = 255; 1003 1.1 briggs pb->parent_bus = NULL; 1004 1.1 briggs pb->swiz = 0; 1005 1.2 briggs pb->io_32bit = 1; 1006 1.2 briggs pb->pmem_64bit = 0; 1007 1.1 briggs pb->ioext = ioext; 1008 1.1 briggs pb->memext = memext; 1009 1.1 briggs if (pmemext == NULL) { 1010 1.1 briggs pb->pmemext = memext; 1011 1.1 briggs } else { 1012 1.1 briggs pb->pmemext = pmemext; 1013 1.1 briggs } 1014 1.1 briggs pb->pc = pc; 1015 1.1 briggs pb->io_total = pb->mem_total = pb->pmem_total = 0; 1016 1.1 briggs 1017 1.1 briggs rv = probe_bus(pb); 1018 1.1 briggs if (rv == 0) { 1019 1.1 briggs rv = configure_bus(pb); 1020 1.1 briggs } 1021 1.1 briggs 1022 1.1 briggs /* 1023 1.1 briggs * All done! 1024 1.1 briggs */ 1025 1.1 briggs free(pb, M_DEVBUF); 1026 1.1 briggs return rv; 1027 1.1 briggs } 1028
Indexes created Mon Sep 22 10:09:38 GMT 2025