pci_intr_machdep.c revision 1.41
1 1.41 maxv /* $NetBSD: pci_intr_machdep.c,v 1.41 2017/07/28 14:26:50 maxv Exp $ */ 2 1.1 bouyer 3 1.1 bouyer /*- 4 1.13 ad * Copyright (c) 1997, 1998, 2009 The NetBSD Foundation, Inc. 5 1.1 bouyer * All rights reserved. 6 1.1 bouyer * 7 1.1 bouyer * This code is derived from software contributed to The NetBSD Foundation 8 1.1 bouyer * by Jason R. Thorpe of the Numerical Aerospace Simulation Facility, 9 1.1 bouyer * NASA Ames Research Center. 10 1.1 bouyer * 11 1.1 bouyer * Redistribution and use in source and binary forms, with or without 12 1.1 bouyer * modification, are permitted provided that the following conditions 13 1.1 bouyer * are met: 14 1.1 bouyer * 1. Redistributions of source code must retain the above copyright 15 1.1 bouyer * notice, this list of conditions and the following disclaimer. 16 1.1 bouyer * 2. Redistributions in binary form must reproduce the above copyright 17 1.1 bouyer * notice, this list of conditions and the following disclaimer in the 18 1.1 bouyer * documentation and/or other materials provided with the distribution. 19 1.1 bouyer * 20 1.1 bouyer * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 21 1.1 bouyer * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 22 1.1 bouyer * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 23 1.1 bouyer * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 24 1.1 bouyer * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 25 1.1 bouyer * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 26 1.1 bouyer * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 27 1.1 bouyer * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 28 1.1 bouyer * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 29 1.1 bouyer * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 30 1.1 bouyer * POSSIBILITY OF SUCH DAMAGE. 31 1.1 bouyer */ 32 1.1 bouyer 33 1.1 bouyer /* 34 1.1 bouyer * Copyright (c) 1996 Christopher G. Demetriou. All rights reserved. 35 1.1 bouyer * Copyright (c) 1994 Charles M. Hannum. All rights reserved. 36 1.1 bouyer * 37 1.1 bouyer * Redistribution and use in source and binary forms, with or without 38 1.1 bouyer * modification, are permitted provided that the following conditions 39 1.1 bouyer * are met: 40 1.1 bouyer * 1. Redistributions of source code must retain the above copyright 41 1.1 bouyer * notice, this list of conditions and the following disclaimer. 42 1.1 bouyer * 2. Redistributions in binary form must reproduce the above copyright 43 1.1 bouyer * notice, this list of conditions and the following disclaimer in the 44 1.1 bouyer * documentation and/or other materials provided with the distribution. 45 1.1 bouyer * 3. All advertising materials mentioning features or use of this software 46 1.1 bouyer * must display the following acknowledgement: 47 1.1 bouyer * This product includes software developed by Charles M. Hannum. 48 1.1 bouyer * 4. The name of the author may not be used to endorse or promote products 49 1.1 bouyer * derived from this software without specific prior written permission. 50 1.1 bouyer * 51 1.1 bouyer * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 52 1.1 bouyer * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 53 1.1 bouyer * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 54 1.1 bouyer * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 55 1.1 bouyer * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 56 1.1 bouyer * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 57 1.1 bouyer * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 58 1.1 bouyer * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 59 1.1 bouyer * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 60 1.1 bouyer * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 61 1.1 bouyer */ 62 1.1 bouyer 63 1.1 bouyer /* 64 1.1 bouyer * Machine-specific functions for PCI autoconfiguration. 65 1.1 bouyer * 66 1.1 bouyer * On PCs, there are two methods of generating PCI configuration cycles. 67 1.1 bouyer * We try to detect the appropriate mechanism for this machine and set 68 1.1 bouyer * up a few function pointers to access the correct method directly. 69 1.1 bouyer * 70 1.1 bouyer * The configuration method can be hard-coded in the config file by 71 1.1 bouyer * using `options PCI_CONF_MODE=N', where `N' is the configuration mode 72 1.1 bouyer * as defined section 3.6.4.1, `Generating Configuration Cycles'. 73 1.1 bouyer */ 74 1.1 bouyer 75 1.1 bouyer #include <sys/cdefs.h> 76 1.41 maxv __KERNEL_RCSID(0, "$NetBSD: pci_intr_machdep.c,v 1.41 2017/07/28 14:26:50 maxv Exp $"); 77 1.1 bouyer 78 1.1 bouyer #include <sys/types.h> 79 1.1 bouyer #include <sys/param.h> 80 1.1 bouyer #include <sys/time.h> 81 1.1 bouyer #include <sys/systm.h> 82 1.28 knakahar #include <sys/cpu.h> 83 1.1 bouyer #include <sys/errno.h> 84 1.1 bouyer #include <sys/device.h> 85 1.7 ad #include <sys/intr.h> 86 1.28 knakahar #include <sys/kmem.h> 87 1.1 bouyer 88 1.1 bouyer #include <dev/pci/pcivar.h> 89 1.1 bouyer 90 1.1 bouyer #include "ioapic.h" 91 1.1 bouyer #include "eisa.h" 92 1.14 jmcneill #include "acpica.h" 93 1.1 bouyer #include "opt_mpbios.h" 94 1.2 christos #include "opt_acpi.h" 95 1.1 bouyer 96 1.26 dyoung #include <machine/i82489reg.h> 97 1.26 dyoung 98 1.14 jmcneill #if NIOAPIC > 0 || NACPICA > 0 99 1.22 dyoung #include <machine/i82093reg.h> 100 1.1 bouyer #include <machine/i82093var.h> 101 1.2 christos #include <machine/mpconfig.h> 102 1.1 bouyer #include <machine/mpbiosvar.h> 103 1.1 bouyer #include <machine/pic.h> 104 1.31 knakahar #include <x86/pci/pci_msi_machdep.h> 105 1.1 bouyer #endif 106 1.1 bouyer 107 1.1 bouyer #ifdef MPBIOS 108 1.1 bouyer #include <machine/mpbiosvar.h> 109 1.1 bouyer #endif 110 1.1 bouyer 111 1.14 jmcneill #if NACPICA > 0 112 1.1 bouyer #include <machine/mpacpi.h> 113 1.1 bouyer #endif 114 1.1 bouyer 115 1.1 bouyer int 116 1.19 dyoung pci_intr_map(const struct pci_attach_args *pa, pci_intr_handle_t *ihp) 117 1.1 bouyer { 118 1.29 knakahar pci_intr_pin_t pin = pa->pa_intrpin; 119 1.29 knakahar pci_intr_line_t line = pa->pa_intrline; 120 1.23 dyoung pci_chipset_tag_t ipc, pc = pa->pa_pc; 121 1.14 jmcneill #if NIOAPIC > 0 || NACPICA > 0 122 1.29 knakahar pci_intr_pin_t rawpin = pa->pa_rawintrpin; 123 1.1 bouyer int bus, dev, func; 124 1.1 bouyer #endif 125 1.1 bouyer 126 1.23 dyoung for (ipc = pc; ipc != NULL; ipc = ipc->pc_super) { 127 1.23 dyoung if ((ipc->pc_present & PCI_OVERRIDE_INTR_MAP) == 0) 128 1.23 dyoung continue; 129 1.23 dyoung return (*ipc->pc_ov->ov_intr_map)(ipc->pc_ctx, pa, ihp); 130 1.16 dyoung } 131 1.15 dyoung 132 1.1 bouyer if (pin == 0) { 133 1.1 bouyer /* No IRQ used. */ 134 1.1 bouyer goto bad; 135 1.1 bouyer } 136 1.1 bouyer 137 1.2 christos *ihp = 0; 138 1.2 christos 139 1.1 bouyer if (pin > PCI_INTERRUPT_PIN_MAX) { 140 1.13 ad aprint_normal("pci_intr_map: bad interrupt pin %d\n", pin); 141 1.1 bouyer goto bad; 142 1.1 bouyer } 143 1.1 bouyer 144 1.14 jmcneill #if NIOAPIC > 0 || NACPICA > 0 145 1.24 yamt KASSERT(rawpin >= PCI_INTERRUPT_PIN_A); 146 1.24 yamt KASSERT(rawpin <= PCI_INTERRUPT_PIN_D); 147 1.1 bouyer pci_decompose_tag(pc, pa->pa_tag, &bus, &dev, &func); 148 1.1 bouyer if (mp_busses != NULL) { 149 1.25 yamt /* 150 1.25 yamt * Note: PCI_INTERRUPT_PIN_A == 1 where intr_find_mpmapping 151 1.25 yamt * wants pci bus_pin encoding which uses INT_A == 0. 152 1.25 yamt */ 153 1.24 yamt if (intr_find_mpmapping(bus, 154 1.24 yamt (dev << 2) | (rawpin - PCI_INTERRUPT_PIN_A), ihp) == 0) { 155 1.24 yamt if (APIC_IRQ_LEGACY_IRQ(*ihp) == 0) 156 1.2 christos *ihp |= line; 157 1.1 bouyer return 0; 158 1.1 bouyer } 159 1.1 bouyer /* 160 1.1 bouyer * No explicit PCI mapping found. This is not fatal, 161 1.1 bouyer * we'll try the ISA (or possibly EISA) mappings next. 162 1.1 bouyer */ 163 1.1 bouyer } 164 1.1 bouyer #endif 165 1.1 bouyer 166 1.1 bouyer /* 167 1.1 bouyer * Section 6.2.4, `Miscellaneous Functions', says that 255 means 168 1.1 bouyer * `unknown' or `no connection' on a PC. We assume that a device with 169 1.1 bouyer * `no connection' either doesn't have an interrupt (in which case the 170 1.1 bouyer * pin number should be 0, and would have been noticed above), or 171 1.1 bouyer * wasn't configured by the BIOS (in which case we punt, since there's 172 1.1 bouyer * no real way we can know how the interrupt lines are mapped in the 173 1.1 bouyer * hardware). 174 1.1 bouyer * 175 1.1 bouyer * XXX 176 1.1 bouyer * Since IRQ 0 is only used by the clock, and we can't actually be sure 177 1.1 bouyer * that the BIOS did its job, we also recognize that as meaning that 178 1.1 bouyer * the BIOS has not configured the device. 179 1.1 bouyer */ 180 1.1 bouyer if (line == 0 || line == X86_PCI_INTERRUPT_LINE_NO_CONNECTION) { 181 1.13 ad aprint_normal("pci_intr_map: no mapping for pin %c (line=%02x)\n", 182 1.1 bouyer '@' + pin, line); 183 1.1 bouyer goto bad; 184 1.1 bouyer } else { 185 1.1 bouyer if (line >= NUM_LEGACY_IRQS) { 186 1.13 ad aprint_normal("pci_intr_map: bad interrupt line %d\n", line); 187 1.1 bouyer goto bad; 188 1.1 bouyer } 189 1.1 bouyer if (line == 2) { 190 1.13 ad aprint_normal("pci_intr_map: changed line 2 to line 9\n"); 191 1.1 bouyer line = 9; 192 1.1 bouyer } 193 1.1 bouyer } 194 1.14 jmcneill #if NIOAPIC > 0 || NACPICA > 0 195 1.1 bouyer if (mp_busses != NULL) { 196 1.1 bouyer if (intr_find_mpmapping(mp_isa_bus, line, ihp) == 0) { 197 1.2 christos if ((*ihp & 0xff) == 0) 198 1.2 christos *ihp |= line; 199 1.1 bouyer return 0; 200 1.1 bouyer } 201 1.1 bouyer #if NEISA > 0 202 1.1 bouyer if (intr_find_mpmapping(mp_eisa_bus, line, ihp) == 0) { 203 1.2 christos if ((*ihp & 0xff) == 0) 204 1.2 christos *ihp |= line; 205 1.1 bouyer return 0; 206 1.1 bouyer } 207 1.1 bouyer #endif 208 1.13 ad aprint_normal("pci_intr_map: bus %d dev %d func %d pin %d; line %d\n", 209 1.1 bouyer bus, dev, func, pin, line); 210 1.13 ad aprint_normal("pci_intr_map: no MP mapping found\n"); 211 1.1 bouyer } 212 1.1 bouyer #endif 213 1.1 bouyer 214 1.1 bouyer *ihp = line; 215 1.1 bouyer return 0; 216 1.1 bouyer 217 1.1 bouyer bad: 218 1.1 bouyer *ihp = -1; 219 1.1 bouyer return 1; 220 1.1 bouyer } 221 1.1 bouyer 222 1.1 bouyer const char * 223 1.27 christos pci_intr_string(pci_chipset_tag_t pc, pci_intr_handle_t ih, char *buf, 224 1.27 christos size_t len) 225 1.1 bouyer { 226 1.23 dyoung pci_chipset_tag_t ipc; 227 1.17 dyoung 228 1.23 dyoung for (ipc = pc; ipc != NULL; ipc = ipc->pc_super) { 229 1.23 dyoung if ((ipc->pc_present & PCI_OVERRIDE_INTR_STRING) == 0) 230 1.23 dyoung continue; 231 1.27 christos return (*ipc->pc_ov->ov_intr_string)(ipc->pc_ctx, pc, ih, 232 1.27 christos buf, len); 233 1.16 dyoung } 234 1.15 dyoung 235 1.33 knakahar if (INT_VIA_MSI(ih)) 236 1.33 knakahar return x86_pci_msi_string(pc, ih, buf, len); 237 1.33 knakahar 238 1.27 christos return intr_string(ih & ~MPSAFE_MASK, buf, len); 239 1.1 bouyer } 240 1.1 bouyer 241 1.1 bouyer 242 1.1 bouyer const struct evcnt * 243 1.6 christos pci_intr_evcnt(pci_chipset_tag_t pc, pci_intr_handle_t ih) 244 1.1 bouyer { 245 1.23 dyoung pci_chipset_tag_t ipc; 246 1.1 bouyer 247 1.23 dyoung for (ipc = pc; ipc != NULL; ipc = ipc->pc_super) { 248 1.23 dyoung if ((ipc->pc_present & PCI_OVERRIDE_INTR_EVCNT) == 0) 249 1.23 dyoung continue; 250 1.23 dyoung return (*ipc->pc_ov->ov_intr_evcnt)(ipc->pc_ctx, pc, ih); 251 1.16 dyoung } 252 1.15 dyoung 253 1.1 bouyer /* XXX for now, no evcnt parent reported */ 254 1.1 bouyer return NULL; 255 1.1 bouyer } 256 1.1 bouyer 257 1.11 ad int 258 1.11 ad pci_intr_setattr(pci_chipset_tag_t pc, pci_intr_handle_t *ih, 259 1.11 ad int attr, uint64_t data) 260 1.11 ad { 261 1.11 ad 262 1.11 ad switch (attr) { 263 1.11 ad case PCI_INTR_MPSAFE: 264 1.11 ad if (data) { 265 1.11 ad *ih |= MPSAFE_MASK; 266 1.11 ad } else { 267 1.11 ad *ih &= ~MPSAFE_MASK; 268 1.11 ad } 269 1.11 ad /* XXX Set live if already mapped. */ 270 1.11 ad return 0; 271 1.11 ad default: 272 1.11 ad return ENODEV; 273 1.11 ad } 274 1.11 ad } 275 1.11 ad 276 1.39 knakahar static void * 277 1.39 knakahar pci_intr_establish_xname_internal(pci_chipset_tag_t pc, pci_intr_handle_t ih, 278 1.37 knakahar int level, int (*func)(void *), void *arg, const char *xname) 279 1.1 bouyer { 280 1.1 bouyer int pin, irq; 281 1.1 bouyer struct pic *pic; 282 1.12 drochner #if NIOAPIC > 0 283 1.12 drochner struct ioapic_softc *ioapic; 284 1.12 drochner #endif 285 1.11 ad bool mpsafe; 286 1.23 dyoung pci_chipset_tag_t ipc; 287 1.1 bouyer 288 1.23 dyoung for (ipc = pc; ipc != NULL; ipc = ipc->pc_super) { 289 1.23 dyoung if ((ipc->pc_present & PCI_OVERRIDE_INTR_ESTABLISH) == 0) 290 1.23 dyoung continue; 291 1.23 dyoung return (*ipc->pc_ov->ov_intr_establish)(ipc->pc_ctx, 292 1.23 dyoung pc, ih, level, func, arg); 293 1.16 dyoung } 294 1.15 dyoung 295 1.31 knakahar if (INT_VIA_MSI(ih)) { 296 1.31 knakahar if (MSI_INT_IS_MSIX(ih)) 297 1.37 knakahar return x86_pci_msix_establish(pc, ih, level, func, arg, 298 1.37 knakahar xname); 299 1.31 knakahar else 300 1.37 knakahar return x86_pci_msi_establish(pc, ih, level, func, arg, 301 1.37 knakahar xname); 302 1.31 knakahar } 303 1.31 knakahar 304 1.1 bouyer pic = &i8259_pic; 305 1.29 knakahar pin = irq = APIC_IRQ_LEGACY_IRQ(ih); 306 1.11 ad mpsafe = ((ih & MPSAFE_MASK) != 0); 307 1.1 bouyer 308 1.1 bouyer #if NIOAPIC > 0 309 1.1 bouyer if (ih & APIC_INT_VIA_APIC) { 310 1.12 drochner ioapic = ioapic_find(APIC_IRQ_APIC(ih)); 311 1.12 drochner if (ioapic == NULL) { 312 1.13 ad aprint_normal("pci_intr_establish: bad ioapic %d\n", 313 1.1 bouyer APIC_IRQ_APIC(ih)); 314 1.1 bouyer return NULL; 315 1.1 bouyer } 316 1.12 drochner pic = &ioapic->sc_pic; 317 1.1 bouyer pin = APIC_IRQ_PIN(ih); 318 1.1 bouyer irq = APIC_IRQ_LEGACY_IRQ(ih); 319 1.1 bouyer if (irq < 0 || irq >= NUM_LEGACY_IRQS) 320 1.1 bouyer irq = -1; 321 1.1 bouyer } 322 1.1 bouyer #endif 323 1.1 bouyer 324 1.37 knakahar return intr_establish_xname(irq, pic, pin, IST_LEVEL, level, func, arg, 325 1.37 knakahar mpsafe, xname); 326 1.37 knakahar } 327 1.37 knakahar 328 1.37 knakahar void * 329 1.37 knakahar pci_intr_establish(pci_chipset_tag_t pc, pci_intr_handle_t ih, 330 1.37 knakahar int level, int (*func)(void *), void *arg) 331 1.37 knakahar { 332 1.37 knakahar 333 1.39 knakahar return pci_intr_establish_xname_internal(pc, ih, level, func, arg, "unknown"); 334 1.39 knakahar } 335 1.39 knakahar 336 1.39 knakahar #ifdef __HAVE_PCI_MSI_MSIX 337 1.39 knakahar void * 338 1.39 knakahar pci_intr_establish_xname(pci_chipset_tag_t pc, pci_intr_handle_t ih, 339 1.39 knakahar int level, int (*func)(void *), void *arg, const char *xname) 340 1.39 knakahar { 341 1.39 knakahar 342 1.39 knakahar return pci_intr_establish_xname_internal(pc, ih, level, func, arg, xname); 343 1.1 bouyer } 344 1.39 knakahar #endif 345 1.39 knakahar 346 1.1 bouyer 347 1.1 bouyer void 348 1.6 christos pci_intr_disestablish(pci_chipset_tag_t pc, void *cookie) 349 1.1 bouyer { 350 1.23 dyoung pci_chipset_tag_t ipc; 351 1.1 bouyer 352 1.23 dyoung for (ipc = pc; ipc != NULL; ipc = ipc->pc_super) { 353 1.23 dyoung if ((ipc->pc_present & PCI_OVERRIDE_INTR_DISESTABLISH) == 0) 354 1.23 dyoung continue; 355 1.23 dyoung (*ipc->pc_ov->ov_intr_disestablish)(ipc->pc_ctx, pc, cookie); 356 1.23 dyoung return; 357 1.15 dyoung } 358 1.15 dyoung 359 1.31 knakahar /* MSI/MSI-X processing is switched in intr_disestablish(). */ 360 1.1 bouyer intr_disestablish(cookie); 361 1.1 bouyer } 362 1.20 drochner 363 1.20 drochner #if NIOAPIC > 0 364 1.39 knakahar #ifdef __HAVE_PCI_MSI_MSIX 365 1.34 knakahar pci_intr_type_t 366 1.38 knakahar pci_intr_type(pci_chipset_tag_t pc, pci_intr_handle_t ih) 367 1.34 knakahar { 368 1.34 knakahar 369 1.34 knakahar if (INT_VIA_MSI(ih)) { 370 1.34 knakahar if (MSI_INT_IS_MSIX(ih)) 371 1.34 knakahar return PCI_INTR_TYPE_MSIX; 372 1.34 knakahar else 373 1.34 knakahar return PCI_INTR_TYPE_MSI; 374 1.34 knakahar } else { 375 1.34 knakahar return PCI_INTR_TYPE_INTX; 376 1.34 knakahar } 377 1.34 knakahar } 378 1.34 knakahar 379 1.32 knakahar static void 380 1.32 knakahar x86_pci_intx_release(pci_chipset_tag_t pc, pci_intr_handle_t *pih) 381 1.32 knakahar { 382 1.32 knakahar char intrstr_buf[INTRIDBUF]; 383 1.32 knakahar const char *intrstr; 384 1.32 knakahar 385 1.32 knakahar intrstr = pci_intr_string(NULL, *pih, intrstr_buf, sizeof(intrstr_buf)); 386 1.32 knakahar mutex_enter(&cpu_lock); 387 1.32 knakahar intr_free_io_intrsource(intrstr); 388 1.32 knakahar mutex_exit(&cpu_lock); 389 1.32 knakahar 390 1.32 knakahar kmem_free(pih, sizeof(*pih)); 391 1.32 knakahar } 392 1.32 knakahar 393 1.30 knakahar int 394 1.30 knakahar pci_intx_alloc(const struct pci_attach_args *pa, pci_intr_handle_t **pih) 395 1.20 drochner { 396 1.30 knakahar struct intrsource *isp; 397 1.30 knakahar pci_intr_handle_t *handle; 398 1.30 knakahar int error; 399 1.30 knakahar char intrstr_buf[INTRIDBUF]; 400 1.30 knakahar const char *intrstr; 401 1.30 knakahar 402 1.30 knakahar handle = kmem_zalloc(sizeof(*handle), KM_SLEEP); 403 1.30 knakahar if (pci_intr_map(pa, handle) != 0) { 404 1.30 knakahar aprint_normal("cannot set up pci_intr_handle_t\n"); 405 1.30 knakahar error = EINVAL; 406 1.30 knakahar goto error; 407 1.30 knakahar } 408 1.30 knakahar 409 1.30 knakahar intrstr = pci_intr_string(pa->pa_pc, *handle, 410 1.30 knakahar intrstr_buf, sizeof(intrstr_buf)); 411 1.30 knakahar mutex_enter(&cpu_lock); 412 1.30 knakahar isp = intr_allocate_io_intrsource(intrstr); 413 1.30 knakahar mutex_exit(&cpu_lock); 414 1.30 knakahar if (isp == NULL) { 415 1.30 knakahar aprint_normal("can't allocate io_intersource\n"); 416 1.30 knakahar error = ENOMEM; 417 1.30 knakahar goto error; 418 1.30 knakahar } 419 1.20 drochner 420 1.30 knakahar *pih = handle; 421 1.30 knakahar return 0; 422 1.20 drochner 423 1.30 knakahar error: 424 1.30 knakahar kmem_free(handle, sizeof(*handle)); 425 1.30 knakahar return error; 426 1.20 drochner } 427 1.20 drochner 428 1.34 knakahar /* 429 1.34 knakahar * Interrupt handler allocation utility. This function calls each allocation 430 1.34 knakahar * function as specified by arguments. 431 1.34 knakahar * Currently callee functions are pci_intx_alloc(), pci_msi_alloc_exact(), 432 1.34 knakahar * and pci_msix_alloc_exact(). 433 1.34 knakahar * pa : pci_attach_args 434 1.34 knakahar * ihps : interrupt handlers 435 1.34 knakahar * counts : The array of number of required interrupt handlers. 436 1.34 knakahar * It is overwritten by allocated the number of handlers. 437 1.34 knakahar * CAUTION: The size of counts[] must be PCI_INTR_TYPE_SIZE. 438 1.34 knakahar * max_type : "max" type of using interrupts. See below. 439 1.34 knakahar * e.g. 440 1.34 knakahar * If you want to use 5 MSI-X, 1 MSI, or INTx, you use "counts" as 441 1.34 knakahar * int counts[PCI_INTR_TYPE_SIZE]; 442 1.34 knakahar * counts[PCI_INTR_TYPE_MSIX] = 5; 443 1.34 knakahar * counts[PCI_INTR_TYPE_MSI] = 1; 444 1.34 knakahar * counts[PCI_INTR_TYPE_INTX] = 1; 445 1.34 knakahar * error = pci_intr_alloc(pa, ihps, counts, PCI_INTR_TYPE_MSIX); 446 1.34 knakahar * 447 1.34 knakahar * If you want to use hardware max number MSI-X or 1 MSI, 448 1.34 knakahar * and not to use INTx, you use "counts" as 449 1.34 knakahar * int counts[PCI_INTR_TYPE_SIZE]; 450 1.34 knakahar * counts[PCI_INTR_TYPE_MSIX] = -1; 451 1.34 knakahar * counts[PCI_INTR_TYPE_MSI] = 1; 452 1.34 knakahar * counts[PCI_INTR_TYPE_INTX] = 0; 453 1.34 knakahar * error = pci_intr_alloc(pa, ihps, counts, PCI_INTR_TYPE_MSIX); 454 1.34 knakahar * 455 1.34 knakahar * If you want to use 3 MSI or INTx, you can use "counts" as 456 1.34 knakahar * int counts[PCI_INTR_TYPE_SIZE]; 457 1.34 knakahar * counts[PCI_INTR_TYPE_MSI] = 3; 458 1.34 knakahar * counts[PCI_INTR_TYPE_INTX] = 1; 459 1.34 knakahar * error = pci_intr_alloc(pa, ihps, counts, PCI_INTR_TYPE_MSI); 460 1.34 knakahar * 461 1.34 knakahar * If you want to use 1 MSI or INTx (probably most general usage), 462 1.34 knakahar * you can simply use this API like 463 1.34 knakahar * below 464 1.34 knakahar * error = pci_intr_alloc(pa, ihps, NULL, 0); 465 1.34 knakahar * ^ ignored 466 1.34 knakahar */ 467 1.34 knakahar int 468 1.34 knakahar pci_intr_alloc(const struct pci_attach_args *pa, pci_intr_handle_t **ihps, 469 1.34 knakahar int *counts, pci_intr_type_t max_type) 470 1.34 knakahar { 471 1.34 knakahar int error; 472 1.34 knakahar int intx_count, msi_count, msix_count; 473 1.34 knakahar 474 1.34 knakahar intx_count = msi_count = msix_count = 0; 475 1.34 knakahar if (counts == NULL) { /* simple pattern */ 476 1.34 knakahar msi_count = 1; 477 1.34 knakahar intx_count = 1; 478 1.34 knakahar } else { 479 1.34 knakahar switch(max_type) { 480 1.34 knakahar case PCI_INTR_TYPE_MSIX: 481 1.34 knakahar msix_count = counts[PCI_INTR_TYPE_MSIX]; 482 1.34 knakahar /* FALLTHROUGH */ 483 1.34 knakahar case PCI_INTR_TYPE_MSI: 484 1.34 knakahar msi_count = counts[PCI_INTR_TYPE_MSI]; 485 1.34 knakahar /* FALLTHROUGH */ 486 1.34 knakahar case PCI_INTR_TYPE_INTX: 487 1.34 knakahar intx_count = counts[PCI_INTR_TYPE_INTX]; 488 1.34 knakahar break; 489 1.34 knakahar default: 490 1.34 knakahar return EINVAL; 491 1.34 knakahar } 492 1.34 knakahar } 493 1.34 knakahar 494 1.35 knakahar if (counts != NULL) 495 1.35 knakahar memset(counts, 0, sizeof(counts[0]) * PCI_INTR_TYPE_SIZE); 496 1.34 knakahar error = EINVAL; 497 1.34 knakahar 498 1.34 knakahar /* try MSI-X */ 499 1.34 knakahar if (msix_count == -1) /* use hardware max */ 500 1.36 msaitoh msix_count = pci_msix_count(pa->pa_pc, pa->pa_tag); 501 1.34 knakahar if (msix_count > 0) { 502 1.34 knakahar error = pci_msix_alloc_exact(pa, ihps, msix_count); 503 1.34 knakahar if (error == 0) { 504 1.35 knakahar KASSERTMSG(counts != NULL, 505 1.35 knakahar "If MSI-X is used, counts must not be NULL."); 506 1.34 knakahar counts[PCI_INTR_TYPE_MSIX] = msix_count; 507 1.34 knakahar goto out; 508 1.34 knakahar } 509 1.34 knakahar } 510 1.34 knakahar 511 1.34 knakahar /* try MSI */ 512 1.34 knakahar if (msi_count == -1) /* use hardware max */ 513 1.36 msaitoh msi_count = pci_msi_count(pa->pa_pc, pa->pa_tag); 514 1.34 knakahar if (msi_count > 0) { 515 1.34 knakahar error = pci_msi_alloc_exact(pa, ihps, msi_count); 516 1.34 knakahar if (error == 0) { 517 1.35 knakahar if (counts != NULL) 518 1.34 knakahar counts[PCI_INTR_TYPE_MSI] = msi_count; 519 1.35 knakahar goto out; 520 1.34 knakahar } 521 1.34 knakahar } 522 1.34 knakahar 523 1.34 knakahar /* try INTx */ 524 1.34 knakahar if (intx_count != 0) { /* The number of INTx is always 1. */ 525 1.34 knakahar error = pci_intx_alloc(pa, ihps); 526 1.34 knakahar if (error == 0) { 527 1.34 knakahar if (counts != NULL) 528 1.34 knakahar counts[PCI_INTR_TYPE_INTX] = 1; 529 1.34 knakahar } 530 1.34 knakahar } 531 1.34 knakahar 532 1.34 knakahar out: 533 1.34 knakahar return error; 534 1.34 knakahar } 535 1.34 knakahar 536 1.31 knakahar void 537 1.31 knakahar pci_intr_release(pci_chipset_tag_t pc, pci_intr_handle_t *pih, int count) 538 1.31 knakahar { 539 1.31 knakahar if (pih == NULL) 540 1.31 knakahar return; 541 1.31 knakahar 542 1.31 knakahar if (INT_VIA_MSI(*pih)) { 543 1.31 knakahar if (MSI_INT_IS_MSIX(*pih)) 544 1.31 knakahar return x86_pci_msix_release(pc, pih, count); 545 1.31 knakahar else 546 1.31 knakahar return x86_pci_msi_release(pc, pih, count); 547 1.31 knakahar } else { 548 1.31 knakahar KASSERT(count == 1); 549 1.31 knakahar return x86_pci_intx_release(pc, pih); 550 1.31 knakahar } 551 1.31 knakahar 552 1.31 knakahar } 553 1.39 knakahar #endif /* __HAVE_PCI_MSI_MSIX */ 554 1.39 knakahar #endif /* NIOAPIC > 0 */ 555
Indexes created Wed Oct 15 07:09:58 GMT 2025