pci_subr.c revision 1.92.2.4
1 1.92.2.2 tls /* $NetBSD: pci_subr.c,v 1.92.2.4 2017/12/03 11:37:08 jdolecek Exp $ */ 2 1.3 cgd 3 1.1 mycroft /* 4 1.22 thorpej * Copyright (c) 1997 Zubin D. Dittia. All rights reserved. 5 1.40 cgd * Copyright (c) 1995, 1996, 1998, 2000 6 1.26 cgd * Christopher G. Demetriou. All rights reserved. 7 1.30 mycroft * Copyright (c) 1994 Charles M. Hannum. All rights reserved. 8 1.1 mycroft * 9 1.1 mycroft * Redistribution and use in source and binary forms, with or without 10 1.1 mycroft * modification, are permitted provided that the following conditions 11 1.1 mycroft * are met: 12 1.1 mycroft * 1. Redistributions of source code must retain the above copyright 13 1.1 mycroft * notice, this list of conditions and the following disclaimer. 14 1.1 mycroft * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 mycroft * notice, this list of conditions and the following disclaimer in the 16 1.1 mycroft * documentation and/or other materials provided with the distribution. 17 1.1 mycroft * 3. All advertising materials mentioning features or use of this software 18 1.1 mycroft * must display the following acknowledgement: 19 1.30 mycroft * This product includes software developed by Charles M. Hannum. 20 1.1 mycroft * 4. The name of the author may not be used to endorse or promote products 21 1.1 mycroft * derived from this software without specific prior written permission. 22 1.1 mycroft * 23 1.1 mycroft * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 24 1.1 mycroft * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 25 1.1 mycroft * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 26 1.1 mycroft * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 27 1.1 mycroft * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 28 1.1 mycroft * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 29 1.1 mycroft * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 30 1.1 mycroft * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 31 1.1 mycroft * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 32 1.1 mycroft * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 33 1.1 mycroft */ 34 1.1 mycroft 35 1.1 mycroft /* 36 1.10 cgd * PCI autoconfiguration support functions. 37 1.45 thorpej * 38 1.45 thorpej * Note: This file is also built into a userland library (libpci). 39 1.45 thorpej * Pay attention to this when you make modifications. 40 1.1 mycroft */ 41 1.47 lukem 42 1.47 lukem #include <sys/cdefs.h> 43 1.92.2.2 tls __KERNEL_RCSID(0, "$NetBSD: pci_subr.c,v 1.92.2.4 2017/12/03 11:37:08 jdolecek Exp $"); 44 1.21 enami 45 1.45 thorpej #ifdef _KERNEL_OPT 46 1.35 cgd #include "opt_pci.h" 47 1.45 thorpej #endif 48 1.1 mycroft 49 1.1 mycroft #include <sys/param.h> 50 1.1 mycroft 51 1.45 thorpej #ifdef _KERNEL 52 1.62 simonb #include <sys/systm.h> 53 1.73 ad #include <sys/intr.h> 54 1.80 pgoyette #include <sys/module.h> 55 1.45 thorpej #else 56 1.45 thorpej #include <pci.h> 57 1.92.2.4 jdolecek #include <stdarg.h> 58 1.72 joerg #include <stdbool.h> 59 1.46 enami #include <stdio.h> 60 1.92.2.4 jdolecek #include <stdlib.h> 61 1.92.2.3 tls #include <string.h> 62 1.45 thorpej #endif 63 1.24 thorpej 64 1.10 cgd #include <dev/pci/pcireg.h> 65 1.45 thorpej #ifdef _KERNEL 66 1.7 cgd #include <dev/pci/pcivar.h> 67 1.92.2.4 jdolecek #else 68 1.92.2.4 jdolecek #include <dev/pci/pci_verbose.h> 69 1.92.2.4 jdolecek #include <dev/pci/pcidevs.h> 70 1.92.2.4 jdolecek #include <dev/pci/pcidevs_data.h> 71 1.10 cgd #endif 72 1.10 cgd 73 1.92.2.4 jdolecek static int pci_conf_find_cap(const pcireg_t *, int, unsigned int, int *); 74 1.92.2.4 jdolecek static void pci_conf_print_pcie_power(uint8_t, unsigned int); 75 1.92.2.4 jdolecek 76 1.10 cgd /* 77 1.10 cgd * Descriptions of known PCI classes and subclasses. 78 1.10 cgd * 79 1.10 cgd * Subclasses are described in the same way as classes, but have a 80 1.10 cgd * NULL subclass pointer. 81 1.10 cgd */ 82 1.10 cgd struct pci_class { 83 1.44 thorpej const char *name; 84 1.91 matt u_int val; /* as wide as pci_{,sub}class_t */ 85 1.42 jdolecek const struct pci_class *subclasses; 86 1.10 cgd }; 87 1.10 cgd 88 1.92.2.3 tls /* 89 1.92.2.3 tls * Class 0x00. 90 1.92.2.3 tls * Before rev. 2.0. 91 1.92.2.3 tls */ 92 1.61 thorpej static const struct pci_class pci_subclass_prehistoric[] = { 93 1.65 christos { "miscellaneous", PCI_SUBCLASS_PREHISTORIC_MISC, NULL, }, 94 1.65 christos { "VGA", PCI_SUBCLASS_PREHISTORIC_VGA, NULL, }, 95 1.65 christos { NULL, 0, NULL, }, 96 1.10 cgd }; 97 1.10 cgd 98 1.92.2.3 tls /* 99 1.92.2.3 tls * Class 0x01. 100 1.92.2.4 jdolecek * Mass storage controller 101 1.92.2.3 tls */ 102 1.92.2.3 tls 103 1.92.2.3 tls /* ATA programming interface */ 104 1.92.2.3 tls static const struct pci_class pci_interface_ata[] = { 105 1.92.2.3 tls { "with single DMA", PCI_INTERFACE_ATA_SINGLEDMA, NULL, }, 106 1.92.2.3 tls { "with chained DMA", PCI_INTERFACE_ATA_CHAINEDDMA, NULL, }, 107 1.92.2.3 tls { NULL, 0, NULL, }, 108 1.92.2.3 tls }; 109 1.92.2.3 tls 110 1.92.2.3 tls /* SATA programming interface */ 111 1.92.2.3 tls static const struct pci_class pci_interface_sata[] = { 112 1.92.2.4 jdolecek { "vendor specific", PCI_INTERFACE_SATA_VND, NULL, }, 113 1.92.2.3 tls { "AHCI 1.0", PCI_INTERFACE_SATA_AHCI10, NULL, }, 114 1.92.2.4 jdolecek { "Serial Storage Bus Interface", PCI_INTERFACE_SATA_SSBI, NULL, }, 115 1.92.2.4 jdolecek { NULL, 0, NULL, }, 116 1.92.2.4 jdolecek }; 117 1.92.2.4 jdolecek 118 1.92.2.4 jdolecek /* Flash programming interface */ 119 1.92.2.4 jdolecek static const struct pci_class pci_interface_nvm[] = { 120 1.92.2.4 jdolecek { "vendor specific", PCI_INTERFACE_NVM_VND, NULL, }, 121 1.92.2.4 jdolecek { "NVMHCI 1.0", PCI_INTERFACE_NVM_NVMHCI10, NULL, }, 122 1.92.2.4 jdolecek { "NVMe", PCI_INTERFACE_NVM_NVME, NULL, }, 123 1.92.2.3 tls { NULL, 0, NULL, }, 124 1.92.2.3 tls }; 125 1.92.2.3 tls 126 1.92.2.3 tls /* Subclasses */ 127 1.61 thorpej static const struct pci_class pci_subclass_mass_storage[] = { 128 1.65 christos { "SCSI", PCI_SUBCLASS_MASS_STORAGE_SCSI, NULL, }, 129 1.65 christos { "IDE", PCI_SUBCLASS_MASS_STORAGE_IDE, NULL, }, 130 1.65 christos { "floppy", PCI_SUBCLASS_MASS_STORAGE_FLOPPY, NULL, }, 131 1.65 christos { "IPI", PCI_SUBCLASS_MASS_STORAGE_IPI, NULL, }, 132 1.65 christos { "RAID", PCI_SUBCLASS_MASS_STORAGE_RAID, NULL, }, 133 1.92.2.3 tls { "ATA", PCI_SUBCLASS_MASS_STORAGE_ATA, 134 1.92.2.3 tls pci_interface_ata, }, 135 1.92.2.3 tls { "SATA", PCI_SUBCLASS_MASS_STORAGE_SATA, 136 1.92.2.3 tls pci_interface_sata, }, 137 1.65 christos { "SAS", PCI_SUBCLASS_MASS_STORAGE_SAS, NULL, }, 138 1.92.2.4 jdolecek { "Flash", PCI_SUBCLASS_MASS_STORAGE_NVM, 139 1.92.2.4 jdolecek pci_interface_nvm, }, 140 1.65 christos { "miscellaneous", PCI_SUBCLASS_MASS_STORAGE_MISC, NULL, }, 141 1.65 christos { NULL, 0, NULL, }, 142 1.10 cgd }; 143 1.10 cgd 144 1.92.2.3 tls /* 145 1.92.2.3 tls * Class 0x02. 146 1.92.2.3 tls * Network controller. 147 1.92.2.3 tls */ 148 1.61 thorpej static const struct pci_class pci_subclass_network[] = { 149 1.65 christos { "ethernet", PCI_SUBCLASS_NETWORK_ETHERNET, NULL, }, 150 1.65 christos { "token ring", PCI_SUBCLASS_NETWORK_TOKENRING, NULL, }, 151 1.65 christos { "FDDI", PCI_SUBCLASS_NETWORK_FDDI, NULL, }, 152 1.65 christos { "ATM", PCI_SUBCLASS_NETWORK_ATM, NULL, }, 153 1.65 christos { "ISDN", PCI_SUBCLASS_NETWORK_ISDN, NULL, }, 154 1.65 christos { "WorldFip", PCI_SUBCLASS_NETWORK_WORLDFIP, NULL, }, 155 1.65 christos { "PCMIG Multi Computing", PCI_SUBCLASS_NETWORK_PCIMGMULTICOMP, NULL, }, 156 1.65 christos { "miscellaneous", PCI_SUBCLASS_NETWORK_MISC, NULL, }, 157 1.65 christos { NULL, 0, NULL, }, 158 1.10 cgd }; 159 1.10 cgd 160 1.92.2.3 tls /* 161 1.92.2.3 tls * Class 0x03. 162 1.92.2.3 tls * Display controller. 163 1.92.2.3 tls */ 164 1.92.2.3 tls 165 1.92.2.3 tls /* VGA programming interface */ 166 1.92.2.3 tls static const struct pci_class pci_interface_vga[] = { 167 1.92.2.3 tls { "", PCI_INTERFACE_VGA_VGA, NULL, }, 168 1.92.2.3 tls { "8514-compat", PCI_INTERFACE_VGA_8514, NULL, }, 169 1.92.2.3 tls { NULL, 0, NULL, }, 170 1.92.2.3 tls }; 171 1.92.2.3 tls /* Subclasses */ 172 1.61 thorpej static const struct pci_class pci_subclass_display[] = { 173 1.92.2.3 tls { "VGA", PCI_SUBCLASS_DISPLAY_VGA, pci_interface_vga,}, 174 1.65 christos { "XGA", PCI_SUBCLASS_DISPLAY_XGA, NULL, }, 175 1.65 christos { "3D", PCI_SUBCLASS_DISPLAY_3D, NULL, }, 176 1.65 christos { "miscellaneous", PCI_SUBCLASS_DISPLAY_MISC, NULL, }, 177 1.65 christos { NULL, 0, NULL, }, 178 1.10 cgd }; 179 1.10 cgd 180 1.92.2.3 tls /* 181 1.92.2.3 tls * Class 0x04. 182 1.92.2.3 tls * Multimedia device. 183 1.92.2.3 tls */ 184 1.61 thorpej static const struct pci_class pci_subclass_multimedia[] = { 185 1.65 christos { "video", PCI_SUBCLASS_MULTIMEDIA_VIDEO, NULL, }, 186 1.65 christos { "audio", PCI_SUBCLASS_MULTIMEDIA_AUDIO, NULL, }, 187 1.65 christos { "telephony", PCI_SUBCLASS_MULTIMEDIA_TELEPHONY, NULL,}, 188 1.92.2.4 jdolecek { "mixed mode", PCI_SUBCLASS_MULTIMEDIA_HDAUDIO, NULL, }, 189 1.65 christos { "miscellaneous", PCI_SUBCLASS_MULTIMEDIA_MISC, NULL, }, 190 1.65 christos { NULL, 0, NULL, }, 191 1.10 cgd }; 192 1.10 cgd 193 1.92.2.3 tls /* 194 1.92.2.3 tls * Class 0x05. 195 1.92.2.3 tls * Memory controller. 196 1.92.2.3 tls */ 197 1.61 thorpej static const struct pci_class pci_subclass_memory[] = { 198 1.65 christos { "RAM", PCI_SUBCLASS_MEMORY_RAM, NULL, }, 199 1.65 christos { "flash", PCI_SUBCLASS_MEMORY_FLASH, NULL, }, 200 1.65 christos { "miscellaneous", PCI_SUBCLASS_MEMORY_MISC, NULL, }, 201 1.65 christos { NULL, 0, NULL, }, 202 1.10 cgd }; 203 1.10 cgd 204 1.92.2.3 tls /* 205 1.92.2.3 tls * Class 0x06. 206 1.92.2.3 tls * Bridge device. 207 1.92.2.3 tls */ 208 1.92.2.3 tls 209 1.92.2.3 tls /* PCI bridge programming interface */ 210 1.92.2.3 tls static const struct pci_class pci_interface_pcibridge[] = { 211 1.92.2.3 tls { "", PCI_INTERFACE_BRIDGE_PCI_PCI, NULL, }, 212 1.92.2.3 tls { "subtractive decode", PCI_INTERFACE_BRIDGE_PCI_SUBDEC, NULL, }, 213 1.92.2.3 tls { NULL, 0, NULL, }, 214 1.92.2.3 tls }; 215 1.92.2.3 tls 216 1.92.2.4 jdolecek /* Semi-transparent PCI-to-PCI bridge programming interface */ 217 1.92.2.3 tls static const struct pci_class pci_interface_stpci[] = { 218 1.92.2.3 tls { "primary side facing host", PCI_INTERFACE_STPCI_PRIMARY, NULL, }, 219 1.92.2.3 tls { "secondary side facing host", PCI_INTERFACE_STPCI_SECONDARY, NULL, }, 220 1.92.2.3 tls { NULL, 0, NULL, }, 221 1.92.2.3 tls }; 222 1.92.2.3 tls 223 1.92.2.4 jdolecek /* Advanced Switching programming interface */ 224 1.92.2.4 jdolecek static const struct pci_class pci_interface_advsw[] = { 225 1.92.2.4 jdolecek { "custom interface", PCI_INTERFACE_ADVSW_CUSTOM, NULL, }, 226 1.92.2.4 jdolecek { "ASI-SIG", PCI_INTERFACE_ADVSW_ASISIG, NULL, }, 227 1.92.2.4 jdolecek { NULL, 0, NULL, }, 228 1.92.2.4 jdolecek }; 229 1.92.2.4 jdolecek 230 1.92.2.3 tls /* Subclasses */ 231 1.61 thorpej static const struct pci_class pci_subclass_bridge[] = { 232 1.65 christos { "host", PCI_SUBCLASS_BRIDGE_HOST, NULL, }, 233 1.65 christos { "ISA", PCI_SUBCLASS_BRIDGE_ISA, NULL, }, 234 1.65 christos { "EISA", PCI_SUBCLASS_BRIDGE_EISA, NULL, }, 235 1.65 christos { "MicroChannel", PCI_SUBCLASS_BRIDGE_MC, NULL, }, 236 1.92.2.3 tls { "PCI", PCI_SUBCLASS_BRIDGE_PCI, 237 1.92.2.3 tls pci_interface_pcibridge, }, 238 1.65 christos { "PCMCIA", PCI_SUBCLASS_BRIDGE_PCMCIA, NULL, }, 239 1.65 christos { "NuBus", PCI_SUBCLASS_BRIDGE_NUBUS, NULL, }, 240 1.65 christos { "CardBus", PCI_SUBCLASS_BRIDGE_CARDBUS, NULL, }, 241 1.65 christos { "RACEway", PCI_SUBCLASS_BRIDGE_RACEWAY, NULL, }, 242 1.92.2.3 tls { "Semi-transparent PCI", PCI_SUBCLASS_BRIDGE_STPCI, 243 1.92.2.3 tls pci_interface_stpci, }, 244 1.65 christos { "InfiniBand", PCI_SUBCLASS_BRIDGE_INFINIBAND, NULL, }, 245 1.92.2.4 jdolecek { "advanced switching", PCI_SUBCLASS_BRIDGE_ADVSW, 246 1.92.2.4 jdolecek pci_interface_advsw, }, 247 1.65 christos { "miscellaneous", PCI_SUBCLASS_BRIDGE_MISC, NULL, }, 248 1.65 christos { NULL, 0, NULL, }, 249 1.10 cgd }; 250 1.10 cgd 251 1.92.2.3 tls /* 252 1.92.2.3 tls * Class 0x07. 253 1.92.2.3 tls * Simple communications controller. 254 1.92.2.3 tls */ 255 1.92.2.3 tls 256 1.92.2.3 tls /* Serial controller programming interface */ 257 1.92.2.3 tls static const struct pci_class pci_interface_serial[] = { 258 1.92.2.4 jdolecek { "generic XT-compat", PCI_INTERFACE_SERIAL_XT, NULL, }, 259 1.92.2.3 tls { "16450-compat", PCI_INTERFACE_SERIAL_16450, NULL, }, 260 1.92.2.3 tls { "16550-compat", PCI_INTERFACE_SERIAL_16550, NULL, }, 261 1.92.2.3 tls { "16650-compat", PCI_INTERFACE_SERIAL_16650, NULL, }, 262 1.92.2.3 tls { "16750-compat", PCI_INTERFACE_SERIAL_16750, NULL, }, 263 1.92.2.3 tls { "16850-compat", PCI_INTERFACE_SERIAL_16850, NULL, }, 264 1.92.2.3 tls { "16950-compat", PCI_INTERFACE_SERIAL_16950, NULL, }, 265 1.92.2.3 tls { NULL, 0, NULL, }, 266 1.92.2.3 tls }; 267 1.92.2.3 tls 268 1.92.2.3 tls /* Parallel controller programming interface */ 269 1.92.2.3 tls static const struct pci_class pci_interface_parallel[] = { 270 1.92.2.3 tls { "", PCI_INTERFACE_PARALLEL, NULL,}, 271 1.92.2.3 tls { "bi-directional", PCI_INTERFACE_PARALLEL_BIDIRECTIONAL, NULL,}, 272 1.92.2.3 tls { "ECP 1.X-compat", PCI_INTERFACE_PARALLEL_ECP1X, NULL,}, 273 1.92.2.4 jdolecek { "IEEE1284 controller", PCI_INTERFACE_PARALLEL_IEEE1284_CNTRL, NULL,}, 274 1.92.2.4 jdolecek { "IEEE1284 target", PCI_INTERFACE_PARALLEL_IEEE1284_TGT, NULL,}, 275 1.92.2.3 tls { NULL, 0, NULL,}, 276 1.92.2.3 tls }; 277 1.92.2.3 tls 278 1.92.2.3 tls /* Modem programming interface */ 279 1.92.2.3 tls static const struct pci_class pci_interface_modem[] = { 280 1.92.2.3 tls { "", PCI_INTERFACE_MODEM, NULL,}, 281 1.92.2.3 tls { "Hayes&16450-compat", PCI_INTERFACE_MODEM_HAYES16450, NULL,}, 282 1.92.2.3 tls { "Hayes&16550-compat", PCI_INTERFACE_MODEM_HAYES16550, NULL,}, 283 1.92.2.3 tls { "Hayes&16650-compat", PCI_INTERFACE_MODEM_HAYES16650, NULL,}, 284 1.92.2.3 tls { "Hayes&16750-compat", PCI_INTERFACE_MODEM_HAYES16750, NULL,}, 285 1.92.2.3 tls { NULL, 0, NULL,}, 286 1.92.2.3 tls }; 287 1.92.2.3 tls 288 1.92.2.3 tls /* Subclasses */ 289 1.61 thorpej static const struct pci_class pci_subclass_communications[] = { 290 1.92.2.3 tls { "serial", PCI_SUBCLASS_COMMUNICATIONS_SERIAL, 291 1.92.2.3 tls pci_interface_serial, }, 292 1.92.2.3 tls { "parallel", PCI_SUBCLASS_COMMUNICATIONS_PARALLEL, 293 1.92.2.3 tls pci_interface_parallel, }, 294 1.92.2.3 tls { "multi-port serial", PCI_SUBCLASS_COMMUNICATIONS_MPSERIAL, NULL,}, 295 1.92.2.3 tls { "modem", PCI_SUBCLASS_COMMUNICATIONS_MODEM, 296 1.92.2.3 tls pci_interface_modem, }, 297 1.92.2.3 tls { "GPIB", PCI_SUBCLASS_COMMUNICATIONS_GPIB, NULL,}, 298 1.92.2.3 tls { "smartcard", PCI_SUBCLASS_COMMUNICATIONS_SMARTCARD, NULL,}, 299 1.92.2.3 tls { "miscellaneous", PCI_SUBCLASS_COMMUNICATIONS_MISC, NULL,}, 300 1.92.2.3 tls { NULL, 0, NULL,}, 301 1.20 cgd }; 302 1.20 cgd 303 1.92.2.3 tls /* 304 1.92.2.3 tls * Class 0x08. 305 1.92.2.3 tls * Base system peripheral. 306 1.92.2.3 tls */ 307 1.92.2.3 tls 308 1.92.2.3 tls /* PIC programming interface */ 309 1.92.2.3 tls static const struct pci_class pci_interface_pic[] = { 310 1.92.2.4 jdolecek { "generic 8259", PCI_INTERFACE_PIC_8259, NULL, }, 311 1.92.2.3 tls { "ISA PIC", PCI_INTERFACE_PIC_ISA, NULL, }, 312 1.92.2.3 tls { "EISA PIC", PCI_INTERFACE_PIC_EISA, NULL, }, 313 1.92.2.3 tls { "IO APIC", PCI_INTERFACE_PIC_IOAPIC, NULL, }, 314 1.92.2.3 tls { "IO(x) APIC", PCI_INTERFACE_PIC_IOXAPIC, NULL, }, 315 1.92.2.3 tls { NULL, 0, NULL, }, 316 1.92.2.3 tls }; 317 1.92.2.3 tls 318 1.92.2.3 tls /* DMA programming interface */ 319 1.92.2.3 tls static const struct pci_class pci_interface_dma[] = { 320 1.92.2.4 jdolecek { "generic 8237", PCI_INTERFACE_DMA_8237, NULL, }, 321 1.92.2.3 tls { "ISA", PCI_INTERFACE_DMA_ISA, NULL, }, 322 1.92.2.3 tls { "EISA", PCI_INTERFACE_DMA_EISA, NULL, }, 323 1.92.2.3 tls { NULL, 0, NULL, }, 324 1.92.2.3 tls }; 325 1.92.2.3 tls 326 1.92.2.3 tls /* Timer programming interface */ 327 1.92.2.3 tls static const struct pci_class pci_interface_tmr[] = { 328 1.92.2.4 jdolecek { "generic 8254", PCI_INTERFACE_TIMER_8254, NULL, }, 329 1.92.2.3 tls { "ISA", PCI_INTERFACE_TIMER_ISA, NULL, }, 330 1.92.2.3 tls { "EISA", PCI_INTERFACE_TIMER_EISA, NULL, }, 331 1.92.2.4 jdolecek { "HPET", PCI_INTERFACE_TIMER_HPET, NULL, }, 332 1.92.2.3 tls { NULL, 0, NULL, }, 333 1.92.2.3 tls }; 334 1.92.2.3 tls 335 1.92.2.3 tls /* RTC programming interface */ 336 1.92.2.3 tls static const struct pci_class pci_interface_rtc[] = { 337 1.92.2.3 tls { "generic", PCI_INTERFACE_RTC_GENERIC, NULL, }, 338 1.92.2.3 tls { "ISA", PCI_INTERFACE_RTC_ISA, NULL, }, 339 1.92.2.3 tls { NULL, 0, NULL, }, 340 1.92.2.3 tls }; 341 1.92.2.3 tls 342 1.92.2.3 tls /* Subclasses */ 343 1.61 thorpej static const struct pci_class pci_subclass_system[] = { 344 1.92.2.3 tls { "interrupt", PCI_SUBCLASS_SYSTEM_PIC, pci_interface_pic,}, 345 1.92.2.3 tls { "DMA", PCI_SUBCLASS_SYSTEM_DMA, pci_interface_dma,}, 346 1.92.2.3 tls { "timer", PCI_SUBCLASS_SYSTEM_TIMER, pci_interface_tmr,}, 347 1.92.2.3 tls { "RTC", PCI_SUBCLASS_SYSTEM_RTC, pci_interface_rtc,}, 348 1.65 christos { "PCI Hot-Plug", PCI_SUBCLASS_SYSTEM_PCIHOTPLUG, NULL, }, 349 1.65 christos { "SD Host Controller", PCI_SUBCLASS_SYSTEM_SDHC, NULL, }, 350 1.92.2.3 tls { "IOMMU", PCI_SUBCLASS_SYSTEM_IOMMU, NULL, }, 351 1.92.2.3 tls { "Root Complex Event Collector", PCI_SUBCLASS_SYSTEM_RCEC, NULL, }, 352 1.65 christos { "miscellaneous", PCI_SUBCLASS_SYSTEM_MISC, NULL, }, 353 1.65 christos { NULL, 0, NULL, }, 354 1.20 cgd }; 355 1.20 cgd 356 1.92.2.3 tls /* 357 1.92.2.3 tls * Class 0x09. 358 1.92.2.3 tls * Input device. 359 1.92.2.3 tls */ 360 1.92.2.3 tls 361 1.92.2.3 tls /* Gameport programming interface */ 362 1.92.2.3 tls static const struct pci_class pci_interface_game[] = { 363 1.92.2.3 tls { "generic", PCI_INTERFACE_GAMEPORT_GENERIC, NULL, }, 364 1.92.2.3 tls { "legacy", PCI_INTERFACE_GAMEPORT_LEGACY, NULL, }, 365 1.92.2.3 tls { NULL, 0, NULL, }, 366 1.92.2.3 tls }; 367 1.92.2.3 tls 368 1.92.2.3 tls /* Subclasses */ 369 1.61 thorpej static const struct pci_class pci_subclass_input[] = { 370 1.65 christos { "keyboard", PCI_SUBCLASS_INPUT_KEYBOARD, NULL, }, 371 1.65 christos { "digitizer", PCI_SUBCLASS_INPUT_DIGITIZER, NULL, }, 372 1.65 christos { "mouse", PCI_SUBCLASS_INPUT_MOUSE, NULL, }, 373 1.65 christos { "scanner", PCI_SUBCLASS_INPUT_SCANNER, NULL, }, 374 1.92.2.3 tls { "game port", PCI_SUBCLASS_INPUT_GAMEPORT, 375 1.92.2.3 tls pci_interface_game, }, 376 1.65 christos { "miscellaneous", PCI_SUBCLASS_INPUT_MISC, NULL, }, 377 1.65 christos { NULL, 0, NULL, }, 378 1.20 cgd }; 379 1.20 cgd 380 1.92.2.3 tls /* 381 1.92.2.3 tls * Class 0x0a. 382 1.92.2.3 tls * Docking station. 383 1.92.2.3 tls */ 384 1.61 thorpej static const struct pci_class pci_subclass_dock[] = { 385 1.65 christos { "generic", PCI_SUBCLASS_DOCK_GENERIC, NULL, }, 386 1.65 christos { "miscellaneous", PCI_SUBCLASS_DOCK_MISC, NULL, }, 387 1.65 christos { NULL, 0, NULL, }, 388 1.20 cgd }; 389 1.20 cgd 390 1.92.2.3 tls /* 391 1.92.2.3 tls * Class 0x0b. 392 1.92.2.3 tls * Processor. 393 1.92.2.3 tls */ 394 1.61 thorpej static const struct pci_class pci_subclass_processor[] = { 395 1.65 christos { "386", PCI_SUBCLASS_PROCESSOR_386, NULL, }, 396 1.65 christos { "486", PCI_SUBCLASS_PROCESSOR_486, NULL, }, 397 1.65 christos { "Pentium", PCI_SUBCLASS_PROCESSOR_PENTIUM, NULL, }, 398 1.65 christos { "Alpha", PCI_SUBCLASS_PROCESSOR_ALPHA, NULL, }, 399 1.65 christos { "PowerPC", PCI_SUBCLASS_PROCESSOR_POWERPC, NULL, }, 400 1.65 christos { "MIPS", PCI_SUBCLASS_PROCESSOR_MIPS, NULL, }, 401 1.65 christos { "Co-processor", PCI_SUBCLASS_PROCESSOR_COPROC, NULL, }, 402 1.92.2.4 jdolecek { "miscellaneous", PCI_SUBCLASS_PROCESSOR_MISC, NULL, }, 403 1.65 christos { NULL, 0, NULL, }, 404 1.20 cgd }; 405 1.20 cgd 406 1.92.2.3 tls /* 407 1.92.2.3 tls * Class 0x0c. 408 1.92.2.3 tls * Serial bus controller. 409 1.92.2.3 tls */ 410 1.92.2.3 tls 411 1.92.2.3 tls /* IEEE1394 programming interface */ 412 1.92.2.3 tls static const struct pci_class pci_interface_ieee1394[] = { 413 1.92.2.3 tls { "Firewire", PCI_INTERFACE_IEEE1394_FIREWIRE, NULL,}, 414 1.92.2.3 tls { "OpenHCI", PCI_INTERFACE_IEEE1394_OPENHCI, NULL,}, 415 1.92.2.3 tls { NULL, 0, NULL,}, 416 1.92.2.3 tls }; 417 1.92.2.3 tls 418 1.92.2.3 tls /* USB programming interface */ 419 1.92.2.3 tls static const struct pci_class pci_interface_usb[] = { 420 1.92.2.3 tls { "UHCI", PCI_INTERFACE_USB_UHCI, NULL, }, 421 1.92.2.3 tls { "OHCI", PCI_INTERFACE_USB_OHCI, NULL, }, 422 1.92.2.3 tls { "EHCI", PCI_INTERFACE_USB_EHCI, NULL, }, 423 1.92.2.3 tls { "xHCI", PCI_INTERFACE_USB_XHCI, NULL, }, 424 1.92.2.3 tls { "other HC", PCI_INTERFACE_USB_OTHERHC, NULL, }, 425 1.92.2.3 tls { "device", PCI_INTERFACE_USB_DEVICE, NULL, }, 426 1.92.2.3 tls { NULL, 0, NULL, }, 427 1.92.2.3 tls }; 428 1.92.2.3 tls 429 1.92.2.3 tls /* IPMI programming interface */ 430 1.92.2.3 tls static const struct pci_class pci_interface_ipmi[] = { 431 1.92.2.3 tls { "SMIC", PCI_INTERFACE_IPMI_SMIC, NULL,}, 432 1.92.2.3 tls { "keyboard", PCI_INTERFACE_IPMI_KBD, NULL,}, 433 1.92.2.3 tls { "block transfer", PCI_INTERFACE_IPMI_BLOCKXFER, NULL,}, 434 1.92.2.3 tls { NULL, 0, NULL,}, 435 1.92.2.3 tls }; 436 1.92.2.3 tls 437 1.92.2.3 tls /* Subclasses */ 438 1.61 thorpej static const struct pci_class pci_subclass_serialbus[] = { 439 1.92.2.3 tls { "IEEE1394", PCI_SUBCLASS_SERIALBUS_FIREWIRE, 440 1.92.2.3 tls pci_interface_ieee1394, }, 441 1.65 christos { "ACCESS.bus", PCI_SUBCLASS_SERIALBUS_ACCESS, NULL, }, 442 1.65 christos { "SSA", PCI_SUBCLASS_SERIALBUS_SSA, NULL, }, 443 1.92.2.3 tls { "USB", PCI_SUBCLASS_SERIALBUS_USB, 444 1.92.2.3 tls pci_interface_usb, }, 445 1.32 cgd /* XXX Fiber Channel/_FIBRECHANNEL */ 446 1.65 christos { "Fiber Channel", PCI_SUBCLASS_SERIALBUS_FIBER, NULL, }, 447 1.65 christos { "SMBus", PCI_SUBCLASS_SERIALBUS_SMBUS, NULL, }, 448 1.65 christos { "InfiniBand", PCI_SUBCLASS_SERIALBUS_INFINIBAND, NULL,}, 449 1.92.2.3 tls { "IPMI", PCI_SUBCLASS_SERIALBUS_IPMI, 450 1.92.2.3 tls pci_interface_ipmi, }, 451 1.65 christos { "SERCOS", PCI_SUBCLASS_SERIALBUS_SERCOS, NULL, }, 452 1.65 christos { "CANbus", PCI_SUBCLASS_SERIALBUS_CANBUS, NULL, }, 453 1.92.2.3 tls { "miscellaneous", PCI_SUBCLASS_SERIALBUS_MISC, NULL, }, 454 1.65 christos { NULL, 0, NULL, }, 455 1.32 cgd }; 456 1.32 cgd 457 1.92.2.3 tls /* 458 1.92.2.3 tls * Class 0x0d. 459 1.92.2.3 tls * Wireless Controller. 460 1.92.2.3 tls */ 461 1.61 thorpej static const struct pci_class pci_subclass_wireless[] = { 462 1.65 christos { "IrDA", PCI_SUBCLASS_WIRELESS_IRDA, NULL, }, 463 1.92.2.4 jdolecek { "Consumer IR",/*XXX*/ PCI_SUBCLASS_WIRELESS_CONSUMERIR, NULL, }, 464 1.65 christos { "RF", PCI_SUBCLASS_WIRELESS_RF, NULL, }, 465 1.65 christos { "bluetooth", PCI_SUBCLASS_WIRELESS_BLUETOOTH, NULL, }, 466 1.65 christos { "broadband", PCI_SUBCLASS_WIRELESS_BROADBAND, NULL, }, 467 1.65 christos { "802.11a (5 GHz)", PCI_SUBCLASS_WIRELESS_802_11A, NULL, }, 468 1.65 christos { "802.11b (2.4 GHz)", PCI_SUBCLASS_WIRELESS_802_11B, NULL, }, 469 1.65 christos { "miscellaneous", PCI_SUBCLASS_WIRELESS_MISC, NULL, }, 470 1.65 christos { NULL, 0, NULL, }, 471 1.32 cgd }; 472 1.32 cgd 473 1.92.2.3 tls /* 474 1.92.2.3 tls * Class 0x0e. 475 1.92.2.3 tls * Intelligent IO controller. 476 1.92.2.3 tls */ 477 1.92.2.3 tls 478 1.92.2.3 tls /* Intelligent IO programming interface */ 479 1.92.2.3 tls static const struct pci_class pci_interface_i2o[] = { 480 1.92.2.3 tls { "FIFO at offset 0x40", PCI_INTERFACE_I2O_FIFOAT40, NULL,}, 481 1.92.2.3 tls { NULL, 0, NULL,}, 482 1.92.2.3 tls }; 483 1.92.2.3 tls 484 1.92.2.3 tls /* Subclasses */ 485 1.61 thorpej static const struct pci_class pci_subclass_i2o[] = { 486 1.92.2.3 tls { "standard", PCI_SUBCLASS_I2O_STANDARD, pci_interface_i2o,}, 487 1.92.2.3 tls { "miscellaneous", PCI_SUBCLASS_I2O_MISC, NULL, }, 488 1.65 christos { NULL, 0, NULL, }, 489 1.32 cgd }; 490 1.32 cgd 491 1.92.2.3 tls /* 492 1.92.2.3 tls * Class 0x0f. 493 1.92.2.3 tls * Satellite communication controller. 494 1.92.2.3 tls */ 495 1.61 thorpej static const struct pci_class pci_subclass_satcom[] = { 496 1.65 christos { "TV", PCI_SUBCLASS_SATCOM_TV, NULL, }, 497 1.65 christos { "audio", PCI_SUBCLASS_SATCOM_AUDIO, NULL, }, 498 1.65 christos { "voice", PCI_SUBCLASS_SATCOM_VOICE, NULL, }, 499 1.65 christos { "data", PCI_SUBCLASS_SATCOM_DATA, NULL, }, 500 1.92.2.3 tls { "miscellaneous", PCI_SUBCLASS_SATCOM_MISC, NULL, }, 501 1.65 christos { NULL, 0, NULL, }, 502 1.32 cgd }; 503 1.32 cgd 504 1.92.2.3 tls /* 505 1.92.2.3 tls * Class 0x10. 506 1.92.2.3 tls * Encryption/Decryption controller. 507 1.92.2.3 tls */ 508 1.61 thorpej static const struct pci_class pci_subclass_crypto[] = { 509 1.65 christos { "network/computing", PCI_SUBCLASS_CRYPTO_NETCOMP, NULL, }, 510 1.65 christos { "entertainment", PCI_SUBCLASS_CRYPTO_ENTERTAINMENT, NULL,}, 511 1.65 christos { "miscellaneous", PCI_SUBCLASS_CRYPTO_MISC, NULL, }, 512 1.65 christos { NULL, 0, NULL, }, 513 1.32 cgd }; 514 1.32 cgd 515 1.92.2.3 tls /* 516 1.92.2.3 tls * Class 0x11. 517 1.92.2.3 tls * Data aquuisition and signal processing controller. 518 1.92.2.3 tls */ 519 1.61 thorpej static const struct pci_class pci_subclass_dasp[] = { 520 1.65 christos { "DPIO", PCI_SUBCLASS_DASP_DPIO, NULL, }, 521 1.92.2.4 jdolecek { "performance counters", PCI_SUBCLASS_DASP_TIMEFREQ, NULL, }, 522 1.65 christos { "synchronization", PCI_SUBCLASS_DASP_SYNC, NULL, }, 523 1.65 christos { "management", PCI_SUBCLASS_DASP_MGMT, NULL, }, 524 1.65 christos { "miscellaneous", PCI_SUBCLASS_DASP_MISC, NULL, }, 525 1.65 christos { NULL, 0, NULL, }, 526 1.20 cgd }; 527 1.20 cgd 528 1.92.2.3 tls /* List of classes */ 529 1.92.2.4 jdolecek static const struct pci_class pci_classes[] = { 530 1.10 cgd { "prehistoric", PCI_CLASS_PREHISTORIC, 531 1.10 cgd pci_subclass_prehistoric, }, 532 1.10 cgd { "mass storage", PCI_CLASS_MASS_STORAGE, 533 1.10 cgd pci_subclass_mass_storage, }, 534 1.10 cgd { "network", PCI_CLASS_NETWORK, 535 1.10 cgd pci_subclass_network, }, 536 1.10 cgd { "display", PCI_CLASS_DISPLAY, 537 1.11 cgd pci_subclass_display, }, 538 1.10 cgd { "multimedia", PCI_CLASS_MULTIMEDIA, 539 1.10 cgd pci_subclass_multimedia, }, 540 1.10 cgd { "memory", PCI_CLASS_MEMORY, 541 1.10 cgd pci_subclass_memory, }, 542 1.10 cgd { "bridge", PCI_CLASS_BRIDGE, 543 1.10 cgd pci_subclass_bridge, }, 544 1.20 cgd { "communications", PCI_CLASS_COMMUNICATIONS, 545 1.20 cgd pci_subclass_communications, }, 546 1.20 cgd { "system", PCI_CLASS_SYSTEM, 547 1.20 cgd pci_subclass_system, }, 548 1.20 cgd { "input", PCI_CLASS_INPUT, 549 1.20 cgd pci_subclass_input, }, 550 1.20 cgd { "dock", PCI_CLASS_DOCK, 551 1.20 cgd pci_subclass_dock, }, 552 1.20 cgd { "processor", PCI_CLASS_PROCESSOR, 553 1.20 cgd pci_subclass_processor, }, 554 1.20 cgd { "serial bus", PCI_CLASS_SERIALBUS, 555 1.20 cgd pci_subclass_serialbus, }, 556 1.32 cgd { "wireless", PCI_CLASS_WIRELESS, 557 1.32 cgd pci_subclass_wireless, }, 558 1.32 cgd { "I2O", PCI_CLASS_I2O, 559 1.32 cgd pci_subclass_i2o, }, 560 1.32 cgd { "satellite comm", PCI_CLASS_SATCOM, 561 1.32 cgd pci_subclass_satcom, }, 562 1.32 cgd { "crypto", PCI_CLASS_CRYPTO, 563 1.32 cgd pci_subclass_crypto, }, 564 1.32 cgd { "DASP", PCI_CLASS_DASP, 565 1.32 cgd pci_subclass_dasp, }, 566 1.92.2.4 jdolecek { "processing accelerators", PCI_CLASS_ACCEL, 567 1.92.2.4 jdolecek NULL, }, 568 1.92.2.4 jdolecek { "non-essential instrumentation", PCI_CLASS_INSTRUMENT, 569 1.92.2.4 jdolecek NULL, }, 570 1.10 cgd { "undefined", PCI_CLASS_UNDEFINED, 571 1.65 christos NULL, }, 572 1.65 christos { NULL, 0, 573 1.65 christos NULL, }, 574 1.10 cgd }; 575 1.10 cgd 576 1.92.2.4 jdolecek DEV_VERBOSE_DEFINE(pci); 577 1.59 mycroft 578 1.80 pgoyette /* 579 1.92.2.4 jdolecek * Append a formatted string to dest without writing more than len 580 1.92.2.4 jdolecek * characters (including the trailing NUL character). dest and len 581 1.92.2.4 jdolecek * are updated for use in subsequent calls to snappendf(). 582 1.92.2.4 jdolecek * 583 1.92.2.4 jdolecek * Returns 0 on success, a negative value if vnsprintf() fails, or 584 1.92.2.4 jdolecek * a positive value if the dest buffer would have overflowed. 585 1.80 pgoyette */ 586 1.80 pgoyette 587 1.92.2.4 jdolecek static int __printflike(3,4) 588 1.92.2.4 jdolecek snappendf(char **dest, size_t *len, const char * restrict fmt, ...) 589 1.83 pgoyette { 590 1.92.2.4 jdolecek va_list ap; 591 1.92.2.4 jdolecek int count; 592 1.92.2.3 tls 593 1.92.2.4 jdolecek va_start(ap, fmt); 594 1.92.2.4 jdolecek count = vsnprintf(*dest, *len, fmt, ap); 595 1.92.2.4 jdolecek va_end(ap); 596 1.92.2.4 jdolecek 597 1.92.2.4 jdolecek /* Let vsnprintf() errors bubble up to caller */ 598 1.92.2.4 jdolecek if (count < 0 || *len == 0) 599 1.92.2.4 jdolecek return count; 600 1.92.2.4 jdolecek 601 1.92.2.4 jdolecek /* Handle overflow */ 602 1.92.2.4 jdolecek if ((size_t)count >= *len) { 603 1.92.2.4 jdolecek *dest += *len - 1; 604 1.92.2.4 jdolecek *len = 1; 605 1.92.2.4 jdolecek return 1; 606 1.92.2.4 jdolecek } 607 1.92.2.4 jdolecek 608 1.92.2.4 jdolecek /* Update dest & len to point at trailing NUL */ 609 1.92.2.4 jdolecek *dest += count; 610 1.92.2.4 jdolecek *len -= count; 611 1.92.2.4 jdolecek 612 1.92.2.4 jdolecek return 0; 613 1.80 pgoyette } 614 1.10 cgd 615 1.10 cgd void 616 1.58 itojun pci_devinfo(pcireg_t id_reg, pcireg_t class_reg, int showclass, char *cp, 617 1.58 itojun size_t l) 618 1.10 cgd { 619 1.10 cgd pci_class_t class; 620 1.10 cgd pci_subclass_t subclass; 621 1.10 cgd pci_interface_t interface; 622 1.10 cgd pci_revision_t revision; 623 1.92.2.4 jdolecek char vendor[PCI_VENDORSTR_LEN], product[PCI_PRODUCTSTR_LEN]; 624 1.92.2.3 tls const struct pci_class *classp, *subclassp, *interfacep; 625 1.10 cgd 626 1.10 cgd class = PCI_CLASS(class_reg); 627 1.10 cgd subclass = PCI_SUBCLASS(class_reg); 628 1.10 cgd interface = PCI_INTERFACE(class_reg); 629 1.10 cgd revision = PCI_REVISION(class_reg); 630 1.10 cgd 631 1.92.2.4 jdolecek pci_findvendor(vendor, sizeof(vendor), PCI_VENDOR(id_reg)); 632 1.92.2.4 jdolecek pci_findproduct(product, sizeof(product), PCI_VENDOR(id_reg), 633 1.92.2.4 jdolecek PCI_PRODUCT(id_reg)); 634 1.10 cgd 635 1.92.2.4 jdolecek classp = pci_classes; 636 1.10 cgd while (classp->name != NULL) { 637 1.10 cgd if (class == classp->val) 638 1.10 cgd break; 639 1.10 cgd classp++; 640 1.10 cgd } 641 1.10 cgd 642 1.10 cgd subclassp = (classp->name != NULL) ? classp->subclasses : NULL; 643 1.10 cgd while (subclassp && subclassp->name != NULL) { 644 1.10 cgd if (subclass == subclassp->val) 645 1.10 cgd break; 646 1.10 cgd subclassp++; 647 1.10 cgd } 648 1.10 cgd 649 1.92.2.3 tls interfacep = (subclassp && subclassp->name != NULL) ? 650 1.92.2.3 tls subclassp->subclasses : NULL; 651 1.92.2.3 tls while (interfacep && interfacep->name != NULL) { 652 1.92.2.3 tls if (interface == interfacep->val) 653 1.92.2.3 tls break; 654 1.92.2.3 tls interfacep++; 655 1.92.2.3 tls } 656 1.92.2.3 tls 657 1.92.2.4 jdolecek (void)snappendf(&cp, &l, "%s %s", vendor, product); 658 1.13 cgd if (showclass) { 659 1.92.2.4 jdolecek (void)snappendf(&cp, &l, " ("); 660 1.13 cgd if (classp->name == NULL) 661 1.92.2.4 jdolecek (void)snappendf(&cp, &l, 662 1.92.2.4 jdolecek "class 0x%02x, subclass 0x%02x", 663 1.92.2.4 jdolecek class, subclass); 664 1.13 cgd else { 665 1.13 cgd if (subclassp == NULL || subclassp->name == NULL) 666 1.92.2.4 jdolecek (void)snappendf(&cp, &l, 667 1.78 drochner "%s, subclass 0x%02x", 668 1.20 cgd classp->name, subclass); 669 1.13 cgd else 670 1.92.2.4 jdolecek (void)snappendf(&cp, &l, "%s %s", 671 1.20 cgd subclassp->name, classp->name); 672 1.13 cgd } 673 1.92.2.3 tls if ((interfacep == NULL) || (interfacep->name == NULL)) { 674 1.92.2.3 tls if (interface != 0) 675 1.92.2.4 jdolecek (void)snappendf(&cp, &l, ", interface 0x%02x", 676 1.92.2.4 jdolecek interface); 677 1.92.2.3 tls } else if (strncmp(interfacep->name, "", 1) != 0) 678 1.92.2.4 jdolecek (void)snappendf(&cp, &l, ", %s", interfacep->name); 679 1.20 cgd if (revision != 0) 680 1.92.2.4 jdolecek (void)snappendf(&cp, &l, ", revision 0x%02x", revision); 681 1.92.2.4 jdolecek (void)snappendf(&cp, &l, ")"); 682 1.13 cgd } 683 1.22 thorpej } 684 1.22 thorpej 685 1.89 drochner #ifdef _KERNEL 686 1.89 drochner void 687 1.90 drochner pci_aprint_devinfo_fancy(const struct pci_attach_args *pa, const char *naive, 688 1.90 drochner const char *known, int addrev) 689 1.89 drochner { 690 1.89 drochner char devinfo[256]; 691 1.89 drochner 692 1.90 drochner if (known) { 693 1.90 drochner aprint_normal(": %s", known); 694 1.90 drochner if (addrev) 695 1.90 drochner aprint_normal(" (rev. 0x%02x)", 696 1.90 drochner PCI_REVISION(pa->pa_class)); 697 1.90 drochner aprint_normal("\n"); 698 1.90 drochner } else { 699 1.90 drochner pci_devinfo(pa->pa_id, pa->pa_class, 0, 700 1.90 drochner devinfo, sizeof(devinfo)); 701 1.90 drochner aprint_normal(": %s (rev. 0x%02x)\n", devinfo, 702 1.90 drochner PCI_REVISION(pa->pa_class)); 703 1.90 drochner } 704 1.90 drochner if (naive) 705 1.90 drochner aprint_naive(": %s\n", naive); 706 1.90 drochner else 707 1.90 drochner aprint_naive("\n"); 708 1.89 drochner } 709 1.89 drochner #endif 710 1.89 drochner 711 1.22 thorpej /* 712 1.22 thorpej * Print out most of the PCI configuration registers. Typically used 713 1.22 thorpej * in a device attach routine like this: 714 1.22 thorpej * 715 1.22 thorpej * #ifdef MYDEV_DEBUG 716 1.92.2.1 tls * printf("%s: ", device_xname(sc->sc_dev)); 717 1.43 enami * pci_conf_print(pa->pa_pc, pa->pa_tag, NULL); 718 1.22 thorpej * #endif 719 1.22 thorpej */ 720 1.26 cgd 721 1.26 cgd #define i2o(i) ((i) * 4) 722 1.26 cgd #define o2i(o) ((o) / 4) 723 1.92.2.3 tls #define onoff2(str, rval, bit, onstr, offstr) \ 724 1.92.2.3 tls printf(" %s: %s\n", (str), ((rval) & (bit)) ? onstr : offstr); 725 1.92.2.3 tls #define onoff(str, rval, bit) onoff2(str, rval, bit, "on", "off") 726 1.26 cgd 727 1.26 cgd static void 728 1.45 thorpej pci_conf_print_common( 729 1.45 thorpej #ifdef _KERNEL 730 1.71 christos pci_chipset_tag_t pc, pcitag_t tag, 731 1.45 thorpej #endif 732 1.45 thorpej const pcireg_t *regs) 733 1.22 thorpej { 734 1.92.2.4 jdolecek pci_class_t class; 735 1.92.2.4 jdolecek pci_subclass_t subclass; 736 1.92.2.4 jdolecek pci_interface_t interface; 737 1.92.2.4 jdolecek pci_revision_t revision; 738 1.92.2.4 jdolecek char vendor[PCI_VENDORSTR_LEN], product[PCI_PRODUCTSTR_LEN]; 739 1.92.2.4 jdolecek const struct pci_class *classp, *subclassp, *interfacep; 740 1.59 mycroft const char *name; 741 1.26 cgd pcireg_t rval; 742 1.92.2.3 tls unsigned int num; 743 1.22 thorpej 744 1.92.2.4 jdolecek rval = regs[o2i(PCI_CLASS_REG)]; 745 1.92.2.4 jdolecek class = PCI_CLASS(rval); 746 1.92.2.4 jdolecek subclass = PCI_SUBCLASS(rval); 747 1.92.2.4 jdolecek interface = PCI_INTERFACE(rval); 748 1.92.2.4 jdolecek revision = PCI_REVISION(rval); 749 1.92.2.4 jdolecek 750 1.26 cgd rval = regs[o2i(PCI_ID_REG)]; 751 1.92.2.4 jdolecek name = pci_findvendor(vendor, sizeof(vendor), PCI_VENDOR(rval)); 752 1.59 mycroft if (name) 753 1.59 mycroft printf(" Vendor Name: %s (0x%04x)\n", name, 754 1.26 cgd PCI_VENDOR(rval)); 755 1.22 thorpej else 756 1.26 cgd printf(" Vendor ID: 0x%04x\n", PCI_VENDOR(rval)); 757 1.92.2.4 jdolecek name = pci_findproduct(product, sizeof(product), PCI_VENDOR(rval), 758 1.92.2.4 jdolecek PCI_PRODUCT(rval)); 759 1.59 mycroft if (name) 760 1.59 mycroft printf(" Device Name: %s (0x%04x)\n", name, 761 1.26 cgd PCI_PRODUCT(rval)); 762 1.22 thorpej else 763 1.26 cgd printf(" Device ID: 0x%04x\n", PCI_PRODUCT(rval)); 764 1.22 thorpej 765 1.26 cgd rval = regs[o2i(PCI_COMMAND_STATUS_REG)]; 766 1.23 drochner 767 1.26 cgd printf(" Command register: 0x%04x\n", rval & 0xffff); 768 1.92.2.3 tls onoff("I/O space accesses", rval, PCI_COMMAND_IO_ENABLE); 769 1.92.2.3 tls onoff("Memory space accesses", rval, PCI_COMMAND_MEM_ENABLE); 770 1.92.2.3 tls onoff("Bus mastering", rval, PCI_COMMAND_MASTER_ENABLE); 771 1.92.2.3 tls onoff("Special cycles", rval, PCI_COMMAND_SPECIAL_ENABLE); 772 1.92.2.3 tls onoff("MWI transactions", rval, PCI_COMMAND_INVALIDATE_ENABLE); 773 1.92.2.3 tls onoff("Palette snooping", rval, PCI_COMMAND_PALETTE_ENABLE); 774 1.92.2.3 tls onoff("Parity error checking", rval, PCI_COMMAND_PARITY_ENABLE); 775 1.92.2.3 tls onoff("Address/data stepping", rval, PCI_COMMAND_STEPPING_ENABLE); 776 1.92.2.3 tls onoff("System error (SERR)", rval, PCI_COMMAND_SERR_ENABLE); 777 1.92.2.3 tls onoff("Fast back-to-back transactions", rval, 778 1.92.2.3 tls PCI_COMMAND_BACKTOBACK_ENABLE); 779 1.92.2.3 tls onoff("Interrupt disable", rval, PCI_COMMAND_INTERRUPT_DISABLE); 780 1.26 cgd 781 1.26 cgd printf(" Status register: 0x%04x\n", (rval >> 16) & 0xffff); 782 1.92.2.4 jdolecek onoff("Immediate Readiness", rval, PCI_STATUS_IMMD_READNESS); 783 1.92.2.3 tls onoff2("Interrupt status", rval, PCI_STATUS_INT_STATUS, "active", 784 1.92.2.3 tls "inactive"); 785 1.92.2.3 tls onoff("Capability List support", rval, PCI_STATUS_CAPLIST_SUPPORT); 786 1.92.2.3 tls onoff("66 MHz capable", rval, PCI_STATUS_66MHZ_SUPPORT); 787 1.92.2.3 tls onoff("User Definable Features (UDF) support", rval, 788 1.92.2.3 tls PCI_STATUS_UDF_SUPPORT); 789 1.92.2.3 tls onoff("Fast back-to-back capable", rval, 790 1.92.2.3 tls PCI_STATUS_BACKTOBACK_SUPPORT); 791 1.92.2.3 tls onoff("Data parity error detected", rval, PCI_STATUS_PARITY_ERROR); 792 1.22 thorpej 793 1.26 cgd printf(" DEVSEL timing: "); 794 1.22 thorpej switch (rval & PCI_STATUS_DEVSEL_MASK) { 795 1.22 thorpej case PCI_STATUS_DEVSEL_FAST: 796 1.22 thorpej printf("fast"); 797 1.22 thorpej break; 798 1.22 thorpej case PCI_STATUS_DEVSEL_MEDIUM: 799 1.22 thorpej printf("medium"); 800 1.22 thorpej break; 801 1.22 thorpej case PCI_STATUS_DEVSEL_SLOW: 802 1.22 thorpej printf("slow"); 803 1.22 thorpej break; 804 1.26 cgd default: 805 1.26 cgd printf("unknown/reserved"); /* XXX */ 806 1.26 cgd break; 807 1.22 thorpej } 808 1.92.2.4 jdolecek printf(" (0x%x)\n", __SHIFTOUT(rval, PCI_STATUS_DEVSEL_MASK)); 809 1.22 thorpej 810 1.92.2.3 tls onoff("Slave signaled Target Abort", rval, 811 1.92.2.3 tls PCI_STATUS_TARGET_TARGET_ABORT); 812 1.92.2.3 tls onoff("Master received Target Abort", rval, 813 1.92.2.3 tls PCI_STATUS_MASTER_TARGET_ABORT); 814 1.92.2.3 tls onoff("Master received Master Abort", rval, PCI_STATUS_MASTER_ABORT); 815 1.92.2.3 tls onoff("Asserted System Error (SERR)", rval, PCI_STATUS_SPECIAL_ERROR); 816 1.92.2.3 tls onoff("Parity error detected", rval, PCI_STATUS_PARITY_DETECT); 817 1.22 thorpej 818 1.26 cgd rval = regs[o2i(PCI_CLASS_REG)]; 819 1.92.2.4 jdolecek for (classp = pci_classes; classp->name != NULL; classp++) { 820 1.92.2.4 jdolecek if (class == classp->val) 821 1.22 thorpej break; 822 1.22 thorpej } 823 1.92.2.4 jdolecek 824 1.92.2.4 jdolecek /* 825 1.92.2.4 jdolecek * ECN: Change Root Complex Event Collector Class Code 826 1.92.2.4 jdolecek * Old RCEC has subclass 0x06. It's the same as IOMMU. Read the type 827 1.92.2.4 jdolecek * in PCIe extend capability to know whether it's RCEC or IOMMU. 828 1.92.2.4 jdolecek */ 829 1.92.2.4 jdolecek if ((class == PCI_CLASS_SYSTEM) 830 1.92.2.4 jdolecek && (subclass == PCI_SUBCLASS_SYSTEM_IOMMU)) { 831 1.92.2.4 jdolecek int pcie_capoff; 832 1.92.2.4 jdolecek pcireg_t reg; 833 1.92.2.4 jdolecek 834 1.92.2.4 jdolecek if (pci_conf_find_cap(regs, PCI_CAPLISTPTR_REG, 835 1.92.2.4 jdolecek PCI_CAP_PCIEXPRESS, &pcie_capoff)) { 836 1.92.2.4 jdolecek reg = regs[o2i(pcie_capoff + PCIE_XCAP)]; 837 1.92.2.4 jdolecek if (PCIE_XCAP_TYPE(reg) == PCIE_XCAP_TYPE_ROOT_EVNTC) 838 1.92.2.4 jdolecek subclass = PCI_SUBCLASS_SYSTEM_RCEC; 839 1.92.2.4 jdolecek } 840 1.92.2.4 jdolecek } 841 1.22 thorpej subclassp = (classp->name != NULL) ? classp->subclasses : NULL; 842 1.22 thorpej while (subclassp && subclassp->name != NULL) { 843 1.92.2.4 jdolecek if (subclass == subclassp->val) 844 1.22 thorpej break; 845 1.22 thorpej subclassp++; 846 1.22 thorpej } 847 1.92.2.4 jdolecek 848 1.92.2.4 jdolecek interfacep = (subclassp && subclassp->name != NULL) ? 849 1.92.2.4 jdolecek subclassp->subclasses : NULL; 850 1.92.2.4 jdolecek while (interfacep && interfacep->name != NULL) { 851 1.92.2.4 jdolecek if (interface == interfacep->val) 852 1.92.2.4 jdolecek break; 853 1.92.2.4 jdolecek interfacep++; 854 1.22 thorpej } 855 1.92.2.4 jdolecek 856 1.92.2.4 jdolecek if (classp->name != NULL) 857 1.92.2.4 jdolecek printf(" Class Name: %s (0x%02x)\n", classp->name, class); 858 1.92.2.4 jdolecek else 859 1.92.2.4 jdolecek printf(" Class ID: 0x%02x\n", class); 860 1.92.2.4 jdolecek if (subclassp != NULL && subclassp->name != NULL) 861 1.92.2.4 jdolecek printf(" Subclass Name: %s (0x%02x)\n", 862 1.92.2.4 jdolecek subclassp->name, PCI_SUBCLASS(rval)); 863 1.92.2.4 jdolecek else 864 1.92.2.4 jdolecek printf(" Subclass ID: 0x%02x\n", PCI_SUBCLASS(rval)); 865 1.92.2.4 jdolecek if ((interfacep != NULL) && (interfacep->name != NULL) 866 1.92.2.4 jdolecek && (strncmp(interfacep->name, "", 1) != 0)) 867 1.92.2.4 jdolecek printf(" Interface Name: %s (0x%02x)\n", 868 1.92.2.4 jdolecek interfacep->name, interface); 869 1.92.2.4 jdolecek else 870 1.92.2.4 jdolecek printf(" Interface: 0x%02x\n", interface); 871 1.92.2.4 jdolecek printf(" Revision ID: 0x%02x\n", revision); 872 1.22 thorpej 873 1.26 cgd rval = regs[o2i(PCI_BHLC_REG)]; 874 1.26 cgd printf(" BIST: 0x%02x\n", PCI_BIST(rval)); 875 1.26 cgd printf(" Header Type: 0x%02x%s (0x%02x)\n", PCI_HDRTYPE_TYPE(rval), 876 1.26 cgd PCI_HDRTYPE_MULTIFN(rval) ? "+multifunction" : "", 877 1.26 cgd PCI_HDRTYPE(rval)); 878 1.26 cgd printf(" Latency Timer: 0x%02x\n", PCI_LATTIMER(rval)); 879 1.92.2.3 tls num = PCI_CACHELINE(rval); 880 1.92.2.3 tls printf(" Cache Line Size: %ubytes (0x%02x)\n", num * 4, num); 881 1.26 cgd } 882 1.22 thorpej 883 1.37 nathanw static int 884 1.45 thorpej pci_conf_print_bar( 885 1.45 thorpej #ifdef _KERNEL 886 1.45 thorpej pci_chipset_tag_t pc, pcitag_t tag, 887 1.45 thorpej #endif 888 1.92.2.4 jdolecek const pcireg_t *regs, int reg, const char *name) 889 1.26 cgd { 890 1.45 thorpej int width; 891 1.45 thorpej pcireg_t rval, rval64h; 892 1.92.2.4 jdolecek bool ioen, memen; 893 1.45 thorpej #ifdef _KERNEL 894 1.92.2.4 jdolecek pcireg_t mask, mask64h = 0; 895 1.45 thorpej #endif 896 1.45 thorpej 897 1.92.2.4 jdolecek rval = regs[o2i(PCI_COMMAND_STATUS_REG)]; 898 1.92.2.4 jdolecek ioen = rval & PCI_COMMAND_IO_ENABLE; 899 1.92.2.4 jdolecek memen = rval & PCI_COMMAND_MEM_ENABLE; 900 1.22 thorpej 901 1.92.2.4 jdolecek width = 4; 902 1.27 cgd /* 903 1.27 cgd * Section 6.2.5.1, `Address Maps', tells us that: 904 1.27 cgd * 905 1.27 cgd * 1) The builtin software should have already mapped the 906 1.27 cgd * device in a reasonable way. 907 1.27 cgd * 908 1.27 cgd * 2) A device which wants 2^n bytes of memory will hardwire 909 1.27 cgd * the bottom n bits of the address to 0. As recommended, 910 1.27 cgd * we write all 1s and see what we get back. 911 1.27 cgd */ 912 1.45 thorpej 913 1.27 cgd rval = regs[o2i(reg)]; 914 1.45 thorpej if (PCI_MAPREG_TYPE(rval) == PCI_MAPREG_TYPE_MEM && 915 1.45 thorpej PCI_MAPREG_MEM_TYPE(rval) == PCI_MAPREG_MEM_TYPE_64BIT) { 916 1.45 thorpej rval64h = regs[o2i(reg + 4)]; 917 1.45 thorpej width = 8; 918 1.45 thorpej } else 919 1.45 thorpej rval64h = 0; 920 1.45 thorpej 921 1.45 thorpej #ifdef _KERNEL 922 1.92.2.4 jdolecek if (rval != 0 && memen) { 923 1.92.2.4 jdolecek int s; 924 1.92.2.4 jdolecek 925 1.24 thorpej /* 926 1.27 cgd * The following sequence seems to make some devices 927 1.27 cgd * (e.g. host bus bridges, which don't normally 928 1.27 cgd * have their space mapped) very unhappy, to 929 1.27 cgd * the point of crashing the system. 930 1.24 thorpej * 931 1.27 cgd * Therefore, if the mapping register is zero to 932 1.27 cgd * start out with, don't bother trying. 933 1.24 thorpej */ 934 1.27 cgd s = splhigh(); 935 1.27 cgd pci_conf_write(pc, tag, reg, 0xffffffff); 936 1.27 cgd mask = pci_conf_read(pc, tag, reg); 937 1.27 cgd pci_conf_write(pc, tag, reg, rval); 938 1.37 nathanw if (PCI_MAPREG_TYPE(rval) == PCI_MAPREG_TYPE_MEM && 939 1.37 nathanw PCI_MAPREG_MEM_TYPE(rval) == PCI_MAPREG_MEM_TYPE_64BIT) { 940 1.37 nathanw pci_conf_write(pc, tag, reg + 4, 0xffffffff); 941 1.37 nathanw mask64h = pci_conf_read(pc, tag, reg + 4); 942 1.37 nathanw pci_conf_write(pc, tag, reg + 4, rval64h); 943 1.92.2.4 jdolecek } 944 1.27 cgd splx(s); 945 1.27 cgd } else 946 1.54 scw mask = mask64h = 0; 947 1.45 thorpej #endif /* _KERNEL */ 948 1.27 cgd 949 1.28 cgd printf(" Base address register at 0x%02x", reg); 950 1.28 cgd if (name) 951 1.28 cgd printf(" (%s)", name); 952 1.28 cgd printf("\n "); 953 1.27 cgd if (rval == 0) { 954 1.92.2.4 jdolecek printf("not implemented\n"); 955 1.37 nathanw return width; 956 1.60 perry } 957 1.28 cgd printf("type: "); 958 1.28 cgd if (PCI_MAPREG_TYPE(rval) == PCI_MAPREG_TYPE_MEM) { 959 1.34 drochner const char *type, *prefetch; 960 1.27 cgd 961 1.27 cgd switch (PCI_MAPREG_MEM_TYPE(rval)) { 962 1.27 cgd case PCI_MAPREG_MEM_TYPE_32BIT: 963 1.27 cgd type = "32-bit"; 964 1.27 cgd break; 965 1.27 cgd case PCI_MAPREG_MEM_TYPE_32BIT_1M: 966 1.27 cgd type = "32-bit-1M"; 967 1.27 cgd break; 968 1.27 cgd case PCI_MAPREG_MEM_TYPE_64BIT: 969 1.27 cgd type = "64-bit"; 970 1.27 cgd break; 971 1.27 cgd default: 972 1.27 cgd type = "unknown (XXX)"; 973 1.27 cgd break; 974 1.22 thorpej } 975 1.34 drochner if (PCI_MAPREG_MEM_PREFETCHABLE(rval)) 976 1.34 drochner prefetch = ""; 977 1.27 cgd else 978 1.34 drochner prefetch = "non"; 979 1.34 drochner printf("%s %sprefetchable memory\n", type, prefetch); 980 1.37 nathanw switch (PCI_MAPREG_MEM_TYPE(rval)) { 981 1.37 nathanw case PCI_MAPREG_MEM_TYPE_64BIT: 982 1.92.2.4 jdolecek printf(" base: 0x%016llx", 983 1.37 nathanw PCI_MAPREG_MEM64_ADDR( 984 1.38 cgd ((((long long) rval64h) << 32) | rval))); 985 1.92.2.4 jdolecek if (!memen) 986 1.92.2.4 jdolecek printf(", disabled"); 987 1.38 cgd printf("\n"); 988 1.92.2.4 jdolecek #ifdef _KERNEL 989 1.92.2.4 jdolecek printf(" size: 0x%016llx\n", 990 1.92.2.4 jdolecek PCI_MAPREG_MEM64_SIZE( 991 1.92.2.4 jdolecek ((((long long) mask64h) << 32) | mask))); 992 1.92.2.4 jdolecek #endif 993 1.37 nathanw break; 994 1.37 nathanw case PCI_MAPREG_MEM_TYPE_32BIT: 995 1.37 nathanw case PCI_MAPREG_MEM_TYPE_32BIT_1M: 996 1.37 nathanw default: 997 1.92.2.4 jdolecek printf(" base: 0x%08x", 998 1.38 cgd PCI_MAPREG_MEM_ADDR(rval)); 999 1.92.2.4 jdolecek if (!memen) 1000 1.92.2.4 jdolecek printf(", disabled"); 1001 1.38 cgd printf("\n"); 1002 1.92.2.4 jdolecek #ifdef _KERNEL 1003 1.92.2.4 jdolecek printf(" size: 0x%08x\n", 1004 1.92.2.4 jdolecek PCI_MAPREG_MEM_SIZE(mask)); 1005 1.92.2.4 jdolecek #endif 1006 1.37 nathanw break; 1007 1.37 nathanw } 1008 1.27 cgd } else { 1009 1.45 thorpej #ifdef _KERNEL 1010 1.92.2.4 jdolecek if (ioen) 1011 1.38 cgd printf("%d-bit ", mask & ~0x0000ffff ? 32 : 16); 1012 1.92.2.4 jdolecek #endif 1013 1.92.2.4 jdolecek printf("I/O\n"); 1014 1.92.2.4 jdolecek printf(" base: 0x%08x", PCI_MAPREG_IO_ADDR(rval)); 1015 1.92.2.4 jdolecek if (!ioen) 1016 1.92.2.4 jdolecek printf(", disabled"); 1017 1.38 cgd printf("\n"); 1018 1.92.2.4 jdolecek #ifdef _KERNEL 1019 1.92.2.4 jdolecek printf(" size: 0x%08x\n", PCI_MAPREG_IO_SIZE(mask)); 1020 1.92.2.4 jdolecek #endif 1021 1.22 thorpej } 1022 1.37 nathanw 1023 1.37 nathanw return width; 1024 1.27 cgd } 1025 1.28 cgd 1026 1.28 cgd static void 1027 1.44 thorpej pci_conf_print_regs(const pcireg_t *regs, int first, int pastlast) 1028 1.28 cgd { 1029 1.28 cgd int off, needaddr, neednl; 1030 1.28 cgd 1031 1.28 cgd needaddr = 1; 1032 1.28 cgd neednl = 0; 1033 1.28 cgd for (off = first; off < pastlast; off += 4) { 1034 1.28 cgd if ((off % 16) == 0 || needaddr) { 1035 1.28 cgd printf(" 0x%02x:", off); 1036 1.28 cgd needaddr = 0; 1037 1.28 cgd } 1038 1.28 cgd printf(" 0x%08x", regs[o2i(off)]); 1039 1.28 cgd neednl = 1; 1040 1.28 cgd if ((off % 16) == 12) { 1041 1.28 cgd printf("\n"); 1042 1.28 cgd neednl = 0; 1043 1.28 cgd } 1044 1.28 cgd } 1045 1.28 cgd if (neednl) 1046 1.28 cgd printf("\n"); 1047 1.28 cgd } 1048 1.28 cgd 1049 1.92.2.3 tls static const char * 1050 1.92.2.4 jdolecek pci_conf_print_agp_calcycle(uint8_t cal) 1051 1.92.2.4 jdolecek { 1052 1.92.2.4 jdolecek 1053 1.92.2.4 jdolecek switch (cal) { 1054 1.92.2.4 jdolecek case 0x0: 1055 1.92.2.4 jdolecek return "4ms"; 1056 1.92.2.4 jdolecek case 0x1: 1057 1.92.2.4 jdolecek return "16ms"; 1058 1.92.2.4 jdolecek case 0x2: 1059 1.92.2.4 jdolecek return "64ms"; 1060 1.92.2.4 jdolecek case 0x3: 1061 1.92.2.4 jdolecek return "256ms"; 1062 1.92.2.4 jdolecek case 0x7: 1063 1.92.2.4 jdolecek return "Calibration Cycle Not Needed"; 1064 1.92.2.4 jdolecek default: 1065 1.92.2.4 jdolecek return "(reserved)"; 1066 1.92.2.4 jdolecek } 1067 1.92.2.4 jdolecek } 1068 1.92.2.4 jdolecek 1069 1.92.2.4 jdolecek static void 1070 1.92.2.4 jdolecek pci_conf_print_agp_datarate(pcireg_t reg, bool isagp3) 1071 1.92.2.4 jdolecek { 1072 1.92.2.4 jdolecek if (isagp3) { 1073 1.92.2.4 jdolecek /* AGP 3.0 */ 1074 1.92.2.4 jdolecek if (reg & AGP_MODE_V3_RATE_4x) 1075 1.92.2.4 jdolecek printf("x4"); 1076 1.92.2.4 jdolecek if (reg & AGP_MODE_V3_RATE_8x) 1077 1.92.2.4 jdolecek printf("x8"); 1078 1.92.2.4 jdolecek } else { 1079 1.92.2.4 jdolecek /* AGP 2.0 */ 1080 1.92.2.4 jdolecek if (reg & AGP_MODE_V2_RATE_1x) 1081 1.92.2.4 jdolecek printf("x1"); 1082 1.92.2.4 jdolecek if (reg & AGP_MODE_V2_RATE_2x) 1083 1.92.2.4 jdolecek printf("x2"); 1084 1.92.2.4 jdolecek if (reg & AGP_MODE_V2_RATE_4x) 1085 1.92.2.4 jdolecek printf("x4"); 1086 1.92.2.4 jdolecek } 1087 1.92.2.4 jdolecek printf("\n"); 1088 1.92.2.4 jdolecek } 1089 1.92.2.4 jdolecek 1090 1.92.2.4 jdolecek static void 1091 1.92.2.4 jdolecek pci_conf_print_agp_cap(const pcireg_t *regs, int capoff) 1092 1.92.2.4 jdolecek { 1093 1.92.2.4 jdolecek pcireg_t rval; 1094 1.92.2.4 jdolecek bool isagp3; 1095 1.92.2.4 jdolecek 1096 1.92.2.4 jdolecek printf("\n AGP Capabilities Register\n"); 1097 1.92.2.4 jdolecek 1098 1.92.2.4 jdolecek rval = regs[o2i(capoff)]; 1099 1.92.2.4 jdolecek printf(" Revision: %d.%d\n", 1100 1.92.2.4 jdolecek PCI_CAP_AGP_MAJOR(rval), PCI_CAP_AGP_MINOR(rval)); 1101 1.92.2.4 jdolecek 1102 1.92.2.4 jdolecek rval = regs[o2i(capoff + PCI_AGP_STATUS)]; 1103 1.92.2.4 jdolecek printf(" Status register: 0x%04x\n", rval); 1104 1.92.2.4 jdolecek printf(" RQ: %d\n", 1105 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(rval, AGP_MODE_RQ) + 1); 1106 1.92.2.4 jdolecek printf(" ARQSZ: %d\n", 1107 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(rval, AGP_MODE_ARQSZ)); 1108 1.92.2.4 jdolecek printf(" CAL cycle: %s\n", 1109 1.92.2.4 jdolecek pci_conf_print_agp_calcycle(__SHIFTOUT(rval, AGP_MODE_CAL))); 1110 1.92.2.4 jdolecek onoff("SBA", rval, AGP_MODE_SBA); 1111 1.92.2.4 jdolecek onoff("htrans#", rval, AGP_MODE_HTRANS); 1112 1.92.2.4 jdolecek onoff("Over 4G", rval, AGP_MODE_4G); 1113 1.92.2.4 jdolecek onoff("Fast Write", rval, AGP_MODE_FW); 1114 1.92.2.4 jdolecek onoff("AGP 3.0 Mode", rval, AGP_MODE_MODE_3); 1115 1.92.2.4 jdolecek isagp3 = rval & AGP_MODE_MODE_3; 1116 1.92.2.4 jdolecek printf(" Data Rate Support: "); 1117 1.92.2.4 jdolecek pci_conf_print_agp_datarate(rval, isagp3); 1118 1.92.2.4 jdolecek 1119 1.92.2.4 jdolecek rval = regs[o2i(capoff + PCI_AGP_COMMAND)]; 1120 1.92.2.4 jdolecek printf(" Command register: 0x%08x\n", rval); 1121 1.92.2.4 jdolecek printf(" PRQ: %d\n", 1122 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(rval, AGP_MODE_RQ) + 1); 1123 1.92.2.4 jdolecek printf(" PARQSZ: %d\n", 1124 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(rval, AGP_MODE_ARQSZ)); 1125 1.92.2.4 jdolecek printf(" PCAL cycle: %s\n", 1126 1.92.2.4 jdolecek pci_conf_print_agp_calcycle(__SHIFTOUT(rval, AGP_MODE_CAL))); 1127 1.92.2.4 jdolecek onoff("SBA", rval, AGP_MODE_SBA); 1128 1.92.2.4 jdolecek onoff("AGP", rval, AGP_MODE_AGP); 1129 1.92.2.4 jdolecek onoff("Over 4G", rval, AGP_MODE_4G); 1130 1.92.2.4 jdolecek onoff("Fast Write", rval, AGP_MODE_FW); 1131 1.92.2.4 jdolecek if (isagp3) { 1132 1.92.2.4 jdolecek printf(" Data Rate Enable: "); 1133 1.92.2.4 jdolecek /* 1134 1.92.2.4 jdolecek * The Data Rate Enable bits are used only on 3.0 and the 1135 1.92.2.4 jdolecek * Command register has no AGP_MODE_MODE_3 bit, so pass the 1136 1.92.2.4 jdolecek * flag to print correctly. 1137 1.92.2.4 jdolecek */ 1138 1.92.2.4 jdolecek pci_conf_print_agp_datarate(rval, isagp3); 1139 1.92.2.4 jdolecek } 1140 1.92.2.4 jdolecek } 1141 1.92.2.4 jdolecek 1142 1.92.2.4 jdolecek static const char * 1143 1.92.2.3 tls pci_conf_print_pcipm_cap_aux(uint16_t caps) 1144 1.92.2.3 tls { 1145 1.92.2.3 tls 1146 1.92.2.3 tls switch ((caps >> 6) & 7) { 1147 1.92.2.3 tls case 0: return "self-powered"; 1148 1.92.2.3 tls case 1: return "55 mA"; 1149 1.92.2.3 tls case 2: return "100 mA"; 1150 1.92.2.3 tls case 3: return "160 mA"; 1151 1.92.2.3 tls case 4: return "220 mA"; 1152 1.92.2.3 tls case 5: return "270 mA"; 1153 1.92.2.3 tls case 6: return "320 mA"; 1154 1.92.2.3 tls case 7: 1155 1.92.2.3 tls default: return "375 mA"; 1156 1.92.2.3 tls } 1157 1.92.2.3 tls } 1158 1.92.2.3 tls 1159 1.92.2.3 tls static const char * 1160 1.92.2.3 tls pci_conf_print_pcipm_cap_pmrev(uint8_t val) 1161 1.92.2.3 tls { 1162 1.92.2.3 tls static const char unk[] = "unknown"; 1163 1.92.2.3 tls static const char *pmrev[8] = { 1164 1.92.2.3 tls unk, "1.0", "1.1", "1.2", unk, unk, unk, unk 1165 1.92.2.3 tls }; 1166 1.92.2.3 tls if (val > 7) 1167 1.92.2.3 tls return unk; 1168 1.92.2.3 tls return pmrev[val]; 1169 1.92.2.3 tls } 1170 1.92.2.3 tls 1171 1.27 cgd static void 1172 1.92.2.3 tls pci_conf_print_pcipm_cap(const pcireg_t *regs, int capoff) 1173 1.27 cgd { 1174 1.92.2.3 tls uint16_t caps, pmcsr; 1175 1.92.2.3 tls pcireg_t reg; 1176 1.27 cgd 1177 1.92.2.3 tls caps = regs[o2i(capoff)] >> PCI_PMCR_SHIFT; 1178 1.92.2.3 tls reg = regs[o2i(capoff + PCI_PMCSR)]; 1179 1.92.2.3 tls pmcsr = reg & 0xffff; 1180 1.92.2.3 tls 1181 1.92.2.3 tls printf("\n PCI Power Management Capabilities Register\n"); 1182 1.92.2.3 tls 1183 1.92.2.3 tls printf(" Capabilities register: 0x%04x\n", caps); 1184 1.92.2.3 tls printf(" Version: %s\n", 1185 1.92.2.3 tls pci_conf_print_pcipm_cap_pmrev(caps & PCI_PMCR_VERSION_MASK)); 1186 1.92.2.3 tls onoff("PME# clock", caps, PCI_PMCR_PME_CLOCK); 1187 1.92.2.3 tls onoff("Device specific initialization", caps, PCI_PMCR_DSI); 1188 1.92.2.3 tls printf(" 3.3V auxiliary current: %s\n", 1189 1.92.2.3 tls pci_conf_print_pcipm_cap_aux(caps)); 1190 1.92.2.3 tls onoff("D1 power management state support", caps, PCI_PMCR_D1SUPP); 1191 1.92.2.3 tls onoff("D2 power management state support", caps, PCI_PMCR_D2SUPP); 1192 1.92.2.3 tls onoff("PME# support D0", caps, PCI_PMCR_PME_D0); 1193 1.92.2.3 tls onoff("PME# support D1", caps, PCI_PMCR_PME_D1); 1194 1.92.2.3 tls onoff("PME# support D2", caps, PCI_PMCR_PME_D2); 1195 1.92.2.3 tls onoff("PME# support D3 hot", caps, PCI_PMCR_PME_D3HOT); 1196 1.92.2.3 tls onoff("PME# support D3 cold", caps, PCI_PMCR_PME_D3COLD); 1197 1.92.2.3 tls 1198 1.92.2.3 tls printf(" Control/status register: 0x%04x\n", pmcsr); 1199 1.92.2.3 tls printf(" Power state: D%d\n", pmcsr & PCI_PMCSR_STATE_MASK); 1200 1.92.2.3 tls onoff("PCI Express reserved", (pmcsr >> 2), 1); 1201 1.92.2.3 tls onoff("No soft reset", pmcsr, PCI_PMCSR_NO_SOFTRST); 1202 1.92.2.3 tls printf(" PME# assertion: %sabled\n", 1203 1.92.2.3 tls (pmcsr & PCI_PMCSR_PME_EN) ? "en" : "dis"); 1204 1.92.2.4 jdolecek printf(" Data Select: %d\n", 1205 1.92.2.4 jdolecek __SHIFTOUT(pmcsr, PCI_PMCSR_DATASEL_MASK)); 1206 1.92.2.4 jdolecek printf(" Data Scale: %d\n", 1207 1.92.2.4 jdolecek __SHIFTOUT(pmcsr, PCI_PMCSR_DATASCL_MASK)); 1208 1.92.2.3 tls onoff("PME# status", pmcsr, PCI_PMCSR_PME_STS); 1209 1.92.2.3 tls printf(" Bridge Support Extensions register: 0x%02x\n", 1210 1.92.2.3 tls (reg >> 16) & 0xff); 1211 1.92.2.3 tls onoff("B2/B3 support", reg, PCI_PMCSR_B2B3_SUPPORT); 1212 1.92.2.3 tls onoff("Bus Power/Clock Control Enable", reg, PCI_PMCSR_BPCC_EN); 1213 1.92.2.4 jdolecek printf(" Data register: 0x%02x\n", __SHIFTOUT(reg, PCI_PMCSR_DATA)); 1214 1.92.2.3 tls 1215 1.92.2.3 tls } 1216 1.92.2.3 tls 1217 1.92.2.3 tls /* XXX pci_conf_print_vpd_cap */ 1218 1.92.2.3 tls /* XXX pci_conf_print_slotid_cap */ 1219 1.92.2.3 tls 1220 1.92.2.3 tls static void 1221 1.92.2.3 tls pci_conf_print_msi_cap(const pcireg_t *regs, int capoff) 1222 1.92.2.3 tls { 1223 1.92.2.3 tls uint32_t ctl, mmc, mme; 1224 1.92.2.3 tls 1225 1.92.2.3 tls regs += o2i(capoff); 1226 1.92.2.3 tls ctl = *regs++; 1227 1.92.2.3 tls mmc = __SHIFTOUT(ctl, PCI_MSI_CTL_MMC_MASK); 1228 1.92.2.3 tls mme = __SHIFTOUT(ctl, PCI_MSI_CTL_MME_MASK); 1229 1.92.2.3 tls 1230 1.92.2.3 tls printf("\n PCI Message Signaled Interrupt\n"); 1231 1.92.2.3 tls 1232 1.92.2.3 tls printf(" Message Control register: 0x%04x\n", ctl >> 16); 1233 1.92.2.3 tls onoff("MSI Enabled", ctl, PCI_MSI_CTL_MSI_ENABLE); 1234 1.92.2.3 tls printf(" Multiple Message Capable: %s (%d vector%s)\n", 1235 1.92.2.3 tls mmc > 0 ? "yes" : "no", 1 << mmc, mmc > 0 ? "s" : ""); 1236 1.92.2.3 tls printf(" Multiple Message Enabled: %s (%d vector%s)\n", 1237 1.92.2.3 tls mme > 0 ? "on" : "off", 1 << mme, mme > 0 ? "s" : ""); 1238 1.92.2.3 tls onoff("64 Bit Address Capable", ctl, PCI_MSI_CTL_64BIT_ADDR); 1239 1.92.2.3 tls onoff("Per-Vector Masking Capable", ctl, PCI_MSI_CTL_PERVEC_MASK); 1240 1.92.2.4 jdolecek onoff("Extended Message Data Capable", ctl, PCI_MSI_CTL_EXTMDATA_CAP); 1241 1.92.2.4 jdolecek onoff("Extended Message Data Enable", ctl, PCI_MSI_CTL_EXTMDATA_EN); 1242 1.92.2.3 tls printf(" Message Address %sregister: 0x%08x\n", 1243 1.92.2.3 tls ctl & PCI_MSI_CTL_64BIT_ADDR ? "(lower) " : "", *regs++); 1244 1.92.2.3 tls if (ctl & PCI_MSI_CTL_64BIT_ADDR) { 1245 1.92.2.3 tls printf(" Message Address %sregister: 0x%08x\n", 1246 1.92.2.3 tls "(upper) ", *regs++); 1247 1.92.2.3 tls } 1248 1.92.2.4 jdolecek printf(" Message Data register: "); 1249 1.92.2.4 jdolecek if (ctl & PCI_MSI_CTL_EXTMDATA_CAP) 1250 1.92.2.4 jdolecek printf("0x%08x\n", *regs); 1251 1.92.2.4 jdolecek else 1252 1.92.2.4 jdolecek printf("0x%04x\n", *regs & 0xffff); 1253 1.92.2.4 jdolecek regs++; 1254 1.92.2.3 tls if (ctl & PCI_MSI_CTL_PERVEC_MASK) { 1255 1.92.2.3 tls printf(" Vector Mask register: 0x%08x\n", *regs++); 1256 1.92.2.3 tls printf(" Vector Pending register: 0x%08x\n", *regs++); 1257 1.45 thorpej } 1258 1.92.2.3 tls } 1259 1.22 thorpej 1260 1.92.2.3 tls /* XXX pci_conf_print_cpci_hostwap_cap */ 1261 1.22 thorpej 1262 1.92.2.3 tls /* 1263 1.92.2.3 tls * For both command register and status register. 1264 1.92.2.3 tls * The argument "idx" is index number (0 to 7). 1265 1.92.2.3 tls */ 1266 1.92.2.3 tls static int 1267 1.92.2.3 tls pcix_split_trans(unsigned int idx) 1268 1.92.2.3 tls { 1269 1.92.2.3 tls static int table[8] = { 1270 1.92.2.3 tls 1, 2, 3, 4, 8, 12, 16, 32 1271 1.92.2.3 tls }; 1272 1.26 cgd 1273 1.92.2.3 tls if (idx >= __arraycount(table)) 1274 1.92.2.3 tls return -1; 1275 1.92.2.3 tls return table[idx]; 1276 1.92.2.3 tls } 1277 1.33 kleink 1278 1.92.2.3 tls static void 1279 1.92.2.4 jdolecek pci_conf_print_pcix_cap_2ndbusmode(int num) 1280 1.92.2.4 jdolecek { 1281 1.92.2.4 jdolecek const char *maxfreq, *maxperiod; 1282 1.92.2.4 jdolecek 1283 1.92.2.4 jdolecek printf(" Mode: "); 1284 1.92.2.4 jdolecek if (num <= 0x07) 1285 1.92.2.4 jdolecek printf("PCI-X Mode 1\n"); 1286 1.92.2.4 jdolecek else if (num <= 0x0b) 1287 1.92.2.4 jdolecek printf("PCI-X 266 (Mode 2)\n"); 1288 1.92.2.4 jdolecek else 1289 1.92.2.4 jdolecek printf("PCI-X 533 (Mode 2)\n"); 1290 1.92.2.4 jdolecek 1291 1.92.2.4 jdolecek printf(" Error protection: %s\n", (num <= 3) ? "parity" : "ECC"); 1292 1.92.2.4 jdolecek switch (num & 0x03) { 1293 1.92.2.4 jdolecek default: 1294 1.92.2.4 jdolecek case 0: 1295 1.92.2.4 jdolecek maxfreq = "N/A"; 1296 1.92.2.4 jdolecek maxperiod = "N/A"; 1297 1.92.2.4 jdolecek break; 1298 1.92.2.4 jdolecek case 1: 1299 1.92.2.4 jdolecek maxfreq = "66MHz"; 1300 1.92.2.4 jdolecek maxperiod = "15ns"; 1301 1.92.2.4 jdolecek break; 1302 1.92.2.4 jdolecek case 2: 1303 1.92.2.4 jdolecek maxfreq = "100MHz"; 1304 1.92.2.4 jdolecek maxperiod = "10ns"; 1305 1.92.2.4 jdolecek break; 1306 1.92.2.4 jdolecek case 3: 1307 1.92.2.4 jdolecek maxfreq = "133MHz"; 1308 1.92.2.4 jdolecek maxperiod = "7.5ns"; 1309 1.92.2.4 jdolecek break; 1310 1.92.2.4 jdolecek } 1311 1.92.2.4 jdolecek printf(" Max Clock Freq: %s\n", maxfreq); 1312 1.92.2.4 jdolecek printf(" Min Clock Period: %s\n", maxperiod); 1313 1.92.2.4 jdolecek } 1314 1.92.2.4 jdolecek 1315 1.92.2.4 jdolecek static void 1316 1.92.2.3 tls pci_conf_print_pcix_cap(const pcireg_t *regs, int capoff) 1317 1.92.2.3 tls { 1318 1.92.2.3 tls pcireg_t reg; 1319 1.92.2.3 tls int isbridge; 1320 1.92.2.3 tls int i; 1321 1.33 kleink 1322 1.92.2.3 tls isbridge = (PCI_HDRTYPE_TYPE(regs[o2i(PCI_BHLC_REG)]) 1323 1.92.2.3 tls & PCI_HDRTYPE_PPB) != 0 ? 1 : 0; 1324 1.92.2.3 tls printf("\n PCI-X %s Capabilities Register\n", 1325 1.92.2.3 tls isbridge ? "Bridge" : "Non-bridge"); 1326 1.26 cgd 1327 1.92.2.3 tls reg = regs[o2i(capoff)]; 1328 1.92.2.3 tls if (isbridge != 0) { 1329 1.92.2.3 tls printf(" Secondary status register: 0x%04x\n", 1330 1.92.2.3 tls (reg & 0xffff0000) >> 16); 1331 1.92.2.3 tls onoff("64bit device", reg, PCIX_STATUS_64BIT); 1332 1.92.2.3 tls onoff("133MHz capable", reg, PCIX_STATUS_133); 1333 1.92.2.3 tls onoff("Split completion discarded", reg, PCIX_STATUS_SPLDISC); 1334 1.92.2.3 tls onoff("Unexpected split completion", reg, PCIX_STATUS_SPLUNEX); 1335 1.92.2.3 tls onoff("Split completion overrun", reg, PCIX_BRIDGE_ST_SPLOVRN); 1336 1.92.2.3 tls onoff("Split request delayed", reg, PCIX_BRIDGE_ST_SPLRQDL); 1337 1.92.2.4 jdolecek pci_conf_print_pcix_cap_2ndbusmode( 1338 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIX_BRIDGE_2NDST_CLKF)); 1339 1.92.2.3 tls printf(" Version: 0x%x\n", 1340 1.92.2.3 tls (reg & PCIX_BRIDGE_2NDST_VER_MASK) 1341 1.92.2.3 tls >> PCIX_BRIDGE_2NDST_VER_SHIFT); 1342 1.92.2.3 tls onoff("266MHz capable", reg, PCIX_BRIDGE_ST_266); 1343 1.92.2.3 tls onoff("533MHz capable", reg, PCIX_BRIDGE_ST_533); 1344 1.92.2.3 tls } else { 1345 1.92.2.3 tls printf(" Command register: 0x%04x\n", 1346 1.92.2.3 tls (reg & 0xffff0000) >> 16); 1347 1.92.2.3 tls onoff("Data Parity Error Recovery", reg, 1348 1.92.2.3 tls PCIX_CMD_PERR_RECOVER); 1349 1.92.2.3 tls onoff("Enable Relaxed Ordering", reg, PCIX_CMD_RELAXED_ORDER); 1350 1.92.2.3 tls printf(" Maximum Burst Read Count: %u\n", 1351 1.92.2.3 tls PCIX_CMD_BYTECNT(reg)); 1352 1.92.2.3 tls printf(" Maximum Split Transactions: %d\n", 1353 1.92.2.3 tls pcix_split_trans((reg & PCIX_CMD_SPLTRANS_MASK) 1354 1.92.2.3 tls >> PCIX_CMD_SPLTRANS_SHIFT)); 1355 1.92.2.3 tls } 1356 1.92.2.3 tls reg = regs[o2i(capoff+PCIX_STATUS)]; /* Or PCIX_BRIDGE_PRI_STATUS */ 1357 1.92.2.3 tls printf(" %sStatus register: 0x%08x\n", 1358 1.92.2.3 tls isbridge ? "Bridge " : "", reg); 1359 1.92.2.3 tls printf(" Function: %d\n", PCIX_STATUS_FN(reg)); 1360 1.92.2.3 tls printf(" Device: %d\n", PCIX_STATUS_DEV(reg)); 1361 1.92.2.3 tls printf(" Bus: %d\n", PCIX_STATUS_BUS(reg)); 1362 1.92.2.3 tls onoff("64bit device", reg, PCIX_STATUS_64BIT); 1363 1.92.2.3 tls onoff("133MHz capable", reg, PCIX_STATUS_133); 1364 1.92.2.3 tls onoff("Split completion discarded", reg, PCIX_STATUS_SPLDISC); 1365 1.92.2.3 tls onoff("Unexpected split completion", reg, PCIX_STATUS_SPLUNEX); 1366 1.92.2.3 tls if (isbridge != 0) { 1367 1.92.2.3 tls onoff("Split completion overrun", reg, PCIX_BRIDGE_ST_SPLOVRN); 1368 1.92.2.3 tls onoff("Split request delayed", reg, PCIX_BRIDGE_ST_SPLRQDL); 1369 1.92.2.3 tls } else { 1370 1.92.2.3 tls onoff2("Device Complexity", reg, PCIX_STATUS_DEVCPLX, 1371 1.92.2.3 tls "bridge device", "simple device"); 1372 1.92.2.3 tls printf(" Designed max memory read byte count: %d\n", 1373 1.92.2.3 tls 512 << ((reg & PCIX_STATUS_MAXB_MASK) 1374 1.92.2.3 tls >> PCIX_STATUS_MAXB_SHIFT)); 1375 1.92.2.3 tls printf(" Designed max outstanding split transaction: %d\n", 1376 1.92.2.3 tls pcix_split_trans((reg & PCIX_STATUS_MAXST_MASK) 1377 1.92.2.3 tls >> PCIX_STATUS_MAXST_SHIFT)); 1378 1.92.2.3 tls printf(" MAX cumulative Read Size: %u\n", 1379 1.92.2.3 tls 8 << ((reg & 0x1c000000) >> PCIX_STATUS_MAXRS_SHIFT)); 1380 1.92.2.3 tls onoff("Received split completion error", reg, 1381 1.92.2.3 tls PCIX_STATUS_SCERR); 1382 1.22 thorpej } 1383 1.92.2.3 tls onoff("266MHz capable", reg, PCIX_STATUS_266); 1384 1.92.2.3 tls onoff("533MHz capable", reg, PCIX_STATUS_533); 1385 1.92.2.3 tls 1386 1.92.2.3 tls if (isbridge == 0) 1387 1.92.2.3 tls return; 1388 1.92.2.3 tls 1389 1.92.2.3 tls /* Only for bridge */ 1390 1.92.2.3 tls for (i = 0; i < 2; i++) { 1391 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCIX_BRIDGE_UP_STCR + (4 * i))]; 1392 1.92.2.3 tls printf(" %s split transaction control register: 0x%08x\n", 1393 1.92.2.3 tls (i == 0) ? "Upstream" : "Downstream", reg); 1394 1.92.2.3 tls printf(" Capacity: %d\n", reg & PCIX_BRIDGE_STCAP); 1395 1.92.2.3 tls printf(" Commitment Limit: %d\n", 1396 1.92.2.3 tls (reg & PCIX_BRIDGE_STCLIM) >> PCIX_BRIDGE_STCLIM_SHIFT); 1397 1.92.2.3 tls } 1398 1.92.2.3 tls } 1399 1.92.2.3 tls 1400 1.92.2.4 jdolecek /* pci_conf_print_ht_slave_cap */ 1401 1.92.2.4 jdolecek /* pci_conf_print_ht_host_cap */ 1402 1.92.2.4 jdolecek /* pci_conf_print_ht_switch_cap */ 1403 1.92.2.4 jdolecek /* pci_conf_print_ht_intr_cap */ 1404 1.92.2.4 jdolecek /* pci_conf_print_ht_revid_cap */ 1405 1.92.2.4 jdolecek /* pci_conf_print_ht_unitid_cap */ 1406 1.92.2.4 jdolecek /* pci_conf_print_ht_extcnf_cap */ 1407 1.92.2.4 jdolecek /* pci_conf_print_ht_addrmap_cap */ 1408 1.92.2.4 jdolecek /* pci_conf_print_ht_msimap_cap */ 1409 1.92.2.4 jdolecek 1410 1.92.2.4 jdolecek static void 1411 1.92.2.4 jdolecek pci_conf_print_ht_msimap_cap(const pcireg_t *regs, int capoff) 1412 1.92.2.4 jdolecek { 1413 1.92.2.4 jdolecek pcireg_t val; 1414 1.92.2.4 jdolecek uint32_t lo, hi; 1415 1.92.2.4 jdolecek 1416 1.92.2.4 jdolecek /* 1417 1.92.2.4 jdolecek * Print the rest of the command register bits. Others are 1418 1.92.2.4 jdolecek * printed in pci_conf_print_ht_cap(). 1419 1.92.2.4 jdolecek */ 1420 1.92.2.4 jdolecek val = regs[o2i(capoff + PCI_HT_CMD)]; 1421 1.92.2.4 jdolecek onoff("Enable", val, PCI_HT_MSI_ENABLED); 1422 1.92.2.4 jdolecek onoff("Fixed", val, PCI_HT_MSI_FIXED); 1423 1.92.2.4 jdolecek 1424 1.92.2.4 jdolecek lo = regs[o2i(capoff + PCI_HT_MSI_ADDR_LO)]; 1425 1.92.2.4 jdolecek hi = regs[o2i(capoff + PCI_HT_MSI_ADDR_HI)]; 1426 1.92.2.4 jdolecek printf(" Address Low register: 0x%08x\n", lo); 1427 1.92.2.4 jdolecek printf(" Address high register: 0x%08x\n", hi); 1428 1.92.2.4 jdolecek printf(" Address: 0x%016" PRIx64 "\n", 1429 1.92.2.4 jdolecek (uint64_t)hi << 32 | (lo & PCI_HT_MSI_ADDR_LO_MASK)); 1430 1.92.2.4 jdolecek } 1431 1.92.2.4 jdolecek 1432 1.92.2.4 jdolecek /* pci_conf_print_ht_droute_cap */ 1433 1.92.2.4 jdolecek /* pci_conf_print_ht_vcset_cap */ 1434 1.92.2.4 jdolecek /* pci_conf_print_ht_retry_cap */ 1435 1.92.2.4 jdolecek /* pci_conf_print_ht_x86enc_cap */ 1436 1.92.2.4 jdolecek /* pci_conf_print_ht_gen3_cap */ 1437 1.92.2.4 jdolecek /* pci_conf_print_ht_fle_cap */ 1438 1.92.2.4 jdolecek /* pci_conf_print_ht_pm_cap */ 1439 1.92.2.4 jdolecek /* pci_conf_print_ht_hnc_cap */ 1440 1.92.2.4 jdolecek 1441 1.92.2.4 jdolecek static const struct ht_types { 1442 1.92.2.4 jdolecek pcireg_t cap; 1443 1.92.2.4 jdolecek const char *name; 1444 1.92.2.4 jdolecek void (*printfunc)(const pcireg_t *, int); 1445 1.92.2.4 jdolecek } ht_captab[] = { 1446 1.92.2.4 jdolecek {PCI_HT_CAP_SLAVE, "Slave or Primary Interface", NULL }, 1447 1.92.2.4 jdolecek {PCI_HT_CAP_HOST, "Host or Secondary Interface", NULL }, 1448 1.92.2.4 jdolecek {PCI_HT_CAP_SWITCH, "Switch", NULL }, 1449 1.92.2.4 jdolecek {PCI_HT_CAP_INTERRUPT, "Interrupt Discovery and Configuration", NULL}, 1450 1.92.2.4 jdolecek {PCI_HT_CAP_REVID, "Revision ID", NULL }, 1451 1.92.2.4 jdolecek {PCI_HT_CAP_UNITID_CLUMP, "UnitID Clumping", NULL }, 1452 1.92.2.4 jdolecek {PCI_HT_CAP_EXTCNFSPACE, "Extended Configuration Space Access", NULL }, 1453 1.92.2.4 jdolecek {PCI_HT_CAP_ADDRMAP, "Address Mapping", NULL }, 1454 1.92.2.4 jdolecek {PCI_HT_CAP_MSIMAP, "MSI Mapping", pci_conf_print_ht_msimap_cap }, 1455 1.92.2.4 jdolecek {PCI_HT_CAP_DIRECTROUTE, "Direct Route", NULL }, 1456 1.92.2.4 jdolecek {PCI_HT_CAP_VCSET, "VCSet", NULL }, 1457 1.92.2.4 jdolecek {PCI_HT_CAP_RETRYMODE, "Retry Mode", NULL }, 1458 1.92.2.4 jdolecek {PCI_HT_CAP_X86ENCODE, "X86 Encoding", NULL }, 1459 1.92.2.4 jdolecek {PCI_HT_CAP_GEN3, "Gen3", NULL }, 1460 1.92.2.4 jdolecek {PCI_HT_CAP_FLE, "Function-Level Extension", NULL }, 1461 1.92.2.4 jdolecek {PCI_HT_CAP_PM, "Power Management", NULL }, 1462 1.92.2.4 jdolecek {PCI_HT_CAP_HIGHNODECNT, "High Node Count", NULL }, 1463 1.92.2.4 jdolecek }; 1464 1.92.2.4 jdolecek 1465 1.92.2.4 jdolecek static void 1466 1.92.2.4 jdolecek pci_conf_print_ht_cap(const pcireg_t *regs, int capoff) 1467 1.92.2.4 jdolecek { 1468 1.92.2.4 jdolecek pcireg_t val, foundcap; 1469 1.92.2.4 jdolecek unsigned int off; 1470 1.92.2.4 jdolecek 1471 1.92.2.4 jdolecek val = regs[o2i(capoff + PCI_HT_CMD)]; 1472 1.92.2.4 jdolecek 1473 1.92.2.4 jdolecek printf("\n HyperTransport Capability Register at 0x%02x\n", capoff); 1474 1.92.2.4 jdolecek 1475 1.92.2.4 jdolecek printf(" Command register: 0x%04x\n", val >> 16); 1476 1.92.2.4 jdolecek foundcap = PCI_HT_CAP(val); 1477 1.92.2.4 jdolecek for (off = 0; off < __arraycount(ht_captab); off++) { 1478 1.92.2.4 jdolecek if (ht_captab[off].cap == foundcap) 1479 1.92.2.4 jdolecek break; 1480 1.92.2.4 jdolecek } 1481 1.92.2.4 jdolecek printf(" Capability Type: 0x%02x ", foundcap); 1482 1.92.2.4 jdolecek if (off >= __arraycount(ht_captab)) { 1483 1.92.2.4 jdolecek printf("(unknown)\n"); 1484 1.92.2.4 jdolecek return; 1485 1.92.2.4 jdolecek } 1486 1.92.2.4 jdolecek printf("(%s)\n", ht_captab[off].name); 1487 1.92.2.4 jdolecek if (ht_captab[off].printfunc != NULL) 1488 1.92.2.4 jdolecek ht_captab[off].printfunc(regs, capoff); 1489 1.92.2.4 jdolecek } 1490 1.92.2.3 tls 1491 1.92.2.3 tls static void 1492 1.92.2.3 tls pci_conf_print_vendspec_cap(const pcireg_t *regs, int capoff) 1493 1.92.2.3 tls { 1494 1.92.2.3 tls uint16_t caps; 1495 1.92.2.3 tls 1496 1.92.2.3 tls caps = regs[o2i(capoff)] >> PCI_VENDORSPECIFIC_SHIFT; 1497 1.92.2.3 tls 1498 1.92.2.3 tls printf("\n PCI Vendor Specific Capabilities Register\n"); 1499 1.92.2.3 tls printf(" Capabilities length: 0x%02x\n", caps & 0xff); 1500 1.92.2.3 tls } 1501 1.92.2.3 tls 1502 1.92.2.3 tls static void 1503 1.92.2.3 tls pci_conf_print_debugport_cap(const pcireg_t *regs, int capoff) 1504 1.92.2.3 tls { 1505 1.92.2.3 tls pcireg_t val; 1506 1.92.2.3 tls 1507 1.92.2.3 tls val = regs[o2i(capoff + PCI_DEBUG_BASER)]; 1508 1.92.2.3 tls 1509 1.92.2.3 tls printf("\n Debugport Capability Register\n"); 1510 1.92.2.3 tls printf(" Debug base Register: 0x%04x\n", 1511 1.92.2.3 tls val >> PCI_DEBUG_BASER_SHIFT); 1512 1.92.2.3 tls printf(" port offset: 0x%04x\n", 1513 1.92.2.3 tls (val & PCI_DEBUG_PORTOFF_MASK) >> PCI_DEBUG_PORTOFF_SHIFT); 1514 1.92.2.3 tls printf(" BAR number: %u\n", 1515 1.92.2.3 tls (val & PCI_DEBUG_BARNUM_MASK) >> PCI_DEBUG_BARNUM_SHIFT); 1516 1.51 drochner } 1517 1.51 drochner 1518 1.92.2.3 tls /* XXX pci_conf_print_cpci_rsrcctl_cap */ 1519 1.92.2.3 tls /* XXX pci_conf_print_hotplug_cap */ 1520 1.92.2.3 tls 1521 1.92.2.3 tls static void 1522 1.92.2.3 tls pci_conf_print_subsystem_cap(const pcireg_t *regs, int capoff) 1523 1.92.2.3 tls { 1524 1.92.2.3 tls pcireg_t reg; 1525 1.92.2.3 tls 1526 1.92.2.3 tls reg = regs[o2i(capoff + PCI_CAP_SUBSYS_ID)]; 1527 1.92.2.3 tls 1528 1.92.2.3 tls printf("\n Subsystem ID Capability Register\n"); 1529 1.92.2.3 tls printf(" Subsystem ID : 0x%08x\n", reg); 1530 1.92.2.3 tls } 1531 1.92.2.3 tls 1532 1.92.2.3 tls /* XXX pci_conf_print_agp8_cap */ 1533 1.92.2.4 jdolecek static void 1534 1.92.2.4 jdolecek pci_conf_print_secure_cap(const pcireg_t *regs, int capoff) 1535 1.92.2.4 jdolecek { 1536 1.92.2.4 jdolecek pcireg_t reg, reg2, val; 1537 1.92.2.4 jdolecek bool havemisc1; 1538 1.92.2.4 jdolecek 1539 1.92.2.4 jdolecek printf("\n Secure Capability Register\n"); 1540 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_SECURE_CAP)]; 1541 1.92.2.4 jdolecek printf(" Capability Register: 0x%04x\n", reg >> 16); 1542 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_SECURE_CAP_TYPE); 1543 1.92.2.4 jdolecek printf(" Capability block type: "); 1544 1.92.2.4 jdolecek /* I know IOMMU Only */ 1545 1.92.2.4 jdolecek if (val == PCI_SECURE_CAP_TYPE_IOMMU) 1546 1.92.2.4 jdolecek printf("IOMMU\n"); 1547 1.92.2.4 jdolecek else { 1548 1.92.2.4 jdolecek printf("0x%x(unknown)\n", val); 1549 1.92.2.4 jdolecek return; 1550 1.92.2.4 jdolecek } 1551 1.92.2.4 jdolecek 1552 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_SECURE_CAP_REV); 1553 1.92.2.4 jdolecek printf(" Capability revision: 0x%02x ", val); 1554 1.92.2.4 jdolecek if (val == PCI_SECURE_CAP_REV_IOMMU) 1555 1.92.2.4 jdolecek printf("(IOMMU)\n"); 1556 1.92.2.4 jdolecek else { 1557 1.92.2.4 jdolecek printf("(unknown)\n"); 1558 1.92.2.4 jdolecek return; 1559 1.92.2.4 jdolecek } 1560 1.92.2.4 jdolecek onoff("IOTLB support", reg, PCI_SECURE_CAP_IOTLBSUP); 1561 1.92.2.4 jdolecek onoff("HyperTransport tunnel translation support", reg, 1562 1.92.2.4 jdolecek PCI_SECURE_CAP_HTTUNNEL); 1563 1.92.2.4 jdolecek onoff("Not present table entries cached", reg, PCI_SECURE_CAP_NPCACHE); 1564 1.92.2.4 jdolecek onoff("IOMMU Extended Feature Register support", reg, 1565 1.92.2.4 jdolecek PCI_SECURE_CAP_EFRSUP); 1566 1.92.2.4 jdolecek onoff("IOMMU Miscellaneous Information Register 1", reg, 1567 1.92.2.4 jdolecek PCI_SECURE_CAP_EXT); 1568 1.92.2.4 jdolecek havemisc1 = reg & PCI_SECURE_CAP_EXT; 1569 1.92.2.4 jdolecek 1570 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_SECURE_IOMMU_BAL)]; 1571 1.92.2.4 jdolecek printf(" Base Address Low Register: 0x%08x\n", reg); 1572 1.92.2.4 jdolecek onoff("Enable", reg, PCI_SECURE_IOMMU_BAL_EN); 1573 1.92.2.4 jdolecek reg2 = regs[o2i(capoff + PCI_SECURE_IOMMU_BAH)]; 1574 1.92.2.4 jdolecek printf(" Base Address High Register: 0x%08x\n", reg2); 1575 1.92.2.4 jdolecek printf(" Base Address : 0x%016" PRIx64 "\n", 1576 1.92.2.4 jdolecek ((uint64_t)reg2 << 32) 1577 1.92.2.4 jdolecek | (reg & (PCI_SECURE_IOMMU_BAL_H | PCI_SECURE_IOMMU_BAL_L))); 1578 1.92.2.4 jdolecek 1579 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_SECURE_IOMMU_RANGE)]; 1580 1.92.2.4 jdolecek printf(" IOMMU Range Register: 0x%08x\n", reg); 1581 1.92.2.4 jdolecek printf(" HyperTransport UnitID: 0x%02x\n", 1582 1.92.2.4 jdolecek (uint32_t)__SHIFTOUT(reg, PCI_SECURE_IOMMU_RANGE_UNITID)); 1583 1.92.2.4 jdolecek onoff("Range valid", reg, PCI_SECURE_IOMMU_RANGE_RNGVALID); 1584 1.92.2.4 jdolecek printf(" Device range bus number: 0x%02x\n", 1585 1.92.2.4 jdolecek (uint32_t)__SHIFTOUT(reg, PCI_SECURE_IOMMU_RANGE_BUSNUM)); 1586 1.92.2.4 jdolecek printf(" First device: 0x%04x\n", 1587 1.92.2.4 jdolecek (uint32_t)__SHIFTOUT(reg, PCI_SECURE_IOMMU_RANGE_FIRSTDEV)); 1588 1.92.2.4 jdolecek printf(" Last device: 0x%04x\n", 1589 1.92.2.4 jdolecek (uint32_t)__SHIFTOUT(reg, PCI_SECURE_IOMMU_RANGE_LASTDEV)); 1590 1.92.2.4 jdolecek 1591 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_SECURE_IOMMU_MISC0)]; 1592 1.92.2.4 jdolecek printf(" Miscellaneous Information Register 0: 0x%08x\n", reg); 1593 1.92.2.4 jdolecek printf(" MSI Message number: 0x%02x\n", 1594 1.92.2.4 jdolecek (uint32_t)__SHIFTOUT(reg, PCI_SECURE_IOMMU_MISC0_MSINUM)); 1595 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_SECURE_IOMMU_MISC0_GVASIZE); 1596 1.92.2.4 jdolecek printf(" Guest Virtual Address size: "); 1597 1.92.2.4 jdolecek if (val == PCI_SECURE_IOMMU_MISC0_GVASIZE_48B) 1598 1.92.2.4 jdolecek printf("48bits\n"); 1599 1.92.2.4 jdolecek else 1600 1.92.2.4 jdolecek printf("0x%x(unknown)\n", val); 1601 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_SECURE_IOMMU_MISC0_PASIZE); 1602 1.92.2.4 jdolecek printf(" Physical Address size: %dbits\n", val); 1603 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_SECURE_IOMMU_MISC0_VASIZE); 1604 1.92.2.4 jdolecek printf(" Virtual Address size: %dbits\n", val); 1605 1.92.2.4 jdolecek onoff("ATS response address range reserved", reg, 1606 1.92.2.4 jdolecek PCI_SECURE_IOMMU_MISC0_ATSRESV); 1607 1.92.2.4 jdolecek printf(" Peripheral Page Request MSI Message number: 0x%02x\n", 1608 1.92.2.4 jdolecek (uint32_t)__SHIFTOUT(reg, PCI_SECURE_IOMMU_MISC0_MISNPPR)); 1609 1.92.2.4 jdolecek 1610 1.92.2.4 jdolecek if (!havemisc1) 1611 1.92.2.4 jdolecek return; 1612 1.92.2.4 jdolecek 1613 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_SECURE_IOMMU_MISC1)]; 1614 1.92.2.4 jdolecek printf(" Miscellaneous Information Register 1: 0x%08x\n", reg); 1615 1.92.2.4 jdolecek printf(" MSI Message number (GA): 0x%02x\n", 1616 1.92.2.4 jdolecek (uint32_t)__SHIFTOUT(reg, PCI_SECURE_IOMMU_MISC1_MSINUM)); 1617 1.92.2.4 jdolecek } 1618 1.92.2.3 tls 1619 1.51 drochner static void 1620 1.92.2.2 tls pci_print_pcie_L0s_latency(uint32_t val) 1621 1.92.2.2 tls { 1622 1.92.2.2 tls 1623 1.92.2.2 tls switch (val) { 1624 1.92.2.2 tls case 0x0: 1625 1.92.2.2 tls printf("Less than 64ns\n"); 1626 1.92.2.2 tls break; 1627 1.92.2.2 tls case 0x1: 1628 1.92.2.2 tls case 0x2: 1629 1.92.2.2 tls case 0x3: 1630 1.92.2.2 tls printf("%dns to less than %dns\n", 32 << val, 32 << (val + 1)); 1631 1.92.2.2 tls break; 1632 1.92.2.2 tls case 0x4: 1633 1.92.2.2 tls printf("512ns to less than 1us\n"); 1634 1.92.2.2 tls break; 1635 1.92.2.2 tls case 0x5: 1636 1.92.2.2 tls printf("1us to less than 2us\n"); 1637 1.92.2.2 tls break; 1638 1.92.2.2 tls case 0x6: 1639 1.92.2.2 tls printf("2us - 4us\n"); 1640 1.92.2.2 tls break; 1641 1.92.2.2 tls case 0x7: 1642 1.92.2.2 tls printf("More than 4us\n"); 1643 1.92.2.2 tls break; 1644 1.92.2.2 tls } 1645 1.92.2.2 tls } 1646 1.92.2.2 tls 1647 1.92.2.2 tls static void 1648 1.92.2.2 tls pci_print_pcie_L1_latency(uint32_t val) 1649 1.92.2.2 tls { 1650 1.92.2.2 tls 1651 1.92.2.2 tls switch (val) { 1652 1.92.2.2 tls case 0x0: 1653 1.92.2.2 tls printf("Less than 1us\n"); 1654 1.92.2.2 tls break; 1655 1.92.2.2 tls case 0x6: 1656 1.92.2.2 tls printf("32us - 64us\n"); 1657 1.92.2.2 tls break; 1658 1.92.2.2 tls case 0x7: 1659 1.92.2.2 tls printf("More than 64us\n"); 1660 1.92.2.2 tls break; 1661 1.92.2.2 tls default: 1662 1.92.2.2 tls printf("%dus to less than %dus\n", 1 << (val - 1), 1 << val); 1663 1.92.2.2 tls break; 1664 1.92.2.2 tls } 1665 1.92.2.2 tls } 1666 1.92.2.2 tls 1667 1.92.2.2 tls static void 1668 1.92.2.2 tls pci_print_pcie_compl_timeout(uint32_t val) 1669 1.92.2.2 tls { 1670 1.92.2.2 tls 1671 1.92.2.2 tls switch (val) { 1672 1.92.2.2 tls case 0x0: 1673 1.92.2.2 tls printf("50us to 50ms\n"); 1674 1.92.2.2 tls break; 1675 1.92.2.2 tls case 0x5: 1676 1.92.2.2 tls printf("16ms to 55ms\n"); 1677 1.92.2.2 tls break; 1678 1.92.2.2 tls case 0x6: 1679 1.92.2.2 tls printf("65ms to 210ms\n"); 1680 1.92.2.2 tls break; 1681 1.92.2.2 tls case 0x9: 1682 1.92.2.2 tls printf("260ms to 900ms\n"); 1683 1.92.2.2 tls break; 1684 1.92.2.2 tls case 0xa: 1685 1.92.2.2 tls printf("1s to 3.5s\n"); 1686 1.92.2.2 tls break; 1687 1.92.2.2 tls default: 1688 1.92.2.2 tls printf("unknown %u value\n", val); 1689 1.92.2.2 tls break; 1690 1.92.2.2 tls } 1691 1.92.2.2 tls } 1692 1.92.2.2 tls 1693 1.92.2.4 jdolecek static const char * const pcie_linkspeeds[] = {"2.5", "5.0", "8.0"}; 1694 1.92.2.4 jdolecek 1695 1.92.2.4 jdolecek /* 1696 1.92.2.4 jdolecek * Print link speed. This function is used for the following register bits: 1697 1.92.2.4 jdolecek * Maximum Link Speed in LCAP 1698 1.92.2.4 jdolecek * Current Link Speed in LCSR 1699 1.92.2.4 jdolecek * Target Link Speed in LCSR2 1700 1.92.2.4 jdolecek * All of above bitfield's values start from 1. 1701 1.92.2.4 jdolecek * For LCSR2, 0 is allowed for a device which supports 2.5GT/s only (and 1702 1.92.2.4 jdolecek * this check also works for devices which compliant to versions of the base 1703 1.92.2.4 jdolecek * specification prior to 3.0. 1704 1.92.2.4 jdolecek */ 1705 1.92.2.4 jdolecek static void 1706 1.92.2.4 jdolecek pci_print_pcie_linkspeed(int regnum, pcireg_t val) 1707 1.92.2.4 jdolecek { 1708 1.92.2.4 jdolecek 1709 1.92.2.4 jdolecek if ((regnum == PCIE_LCSR2) && (val == 0)) 1710 1.92.2.4 jdolecek printf("2.5GT/s\n"); 1711 1.92.2.4 jdolecek else if ((val < 1) || (val > __arraycount(pcie_linkspeeds))) 1712 1.92.2.4 jdolecek printf("unknown value (%u)\n", val); 1713 1.92.2.4 jdolecek else 1714 1.92.2.4 jdolecek printf("%sGT/s\n", pcie_linkspeeds[val - 1]); 1715 1.92.2.4 jdolecek } 1716 1.92.2.4 jdolecek 1717 1.92.2.4 jdolecek /* 1718 1.92.2.4 jdolecek * Print link speed "vector". 1719 1.92.2.4 jdolecek * This function is used for the following register bits: 1720 1.92.2.4 jdolecek * Supported Link Speeds Vector in LCAP2 1721 1.92.2.4 jdolecek * Lower SKP OS Generation Supported Speed Vector in LCAP2 1722 1.92.2.4 jdolecek * Lower SKP OS Reception Supported Speed Vector in LCAP2 1723 1.92.2.4 jdolecek * Enable Lower SKP OS Generation Vector in LCTL3 1724 1.92.2.4 jdolecek * All of above bitfield's values start from 0. 1725 1.92.2.4 jdolecek */ 1726 1.92.2.4 jdolecek static void 1727 1.92.2.4 jdolecek pci_print_pcie_linkspeedvector(pcireg_t val) 1728 1.92.2.4 jdolecek { 1729 1.92.2.4 jdolecek unsigned int i; 1730 1.92.2.4 jdolecek 1731 1.92.2.4 jdolecek /* Start from 0 */ 1732 1.92.2.4 jdolecek for (i = 0; i < 16; i++) 1733 1.92.2.4 jdolecek if (((val >> i) & 0x01) != 0) { 1734 1.92.2.4 jdolecek if (i >= __arraycount(pcie_linkspeeds)) 1735 1.92.2.4 jdolecek printf(" unknown vector (0x%x)", 1 << i); 1736 1.92.2.4 jdolecek else 1737 1.92.2.4 jdolecek printf(" %sGT/s", pcie_linkspeeds[i]); 1738 1.92.2.4 jdolecek } 1739 1.92.2.4 jdolecek } 1740 1.92.2.4 jdolecek 1741 1.92.2.4 jdolecek static void 1742 1.92.2.4 jdolecek pci_print_pcie_link_deemphasis(pcireg_t val) 1743 1.92.2.4 jdolecek { 1744 1.92.2.4 jdolecek switch (val) { 1745 1.92.2.4 jdolecek case 0: 1746 1.92.2.4 jdolecek printf("-6dB"); 1747 1.92.2.4 jdolecek break; 1748 1.92.2.4 jdolecek case 1: 1749 1.92.2.4 jdolecek printf("-3.5dB"); 1750 1.92.2.4 jdolecek break; 1751 1.92.2.4 jdolecek default: 1752 1.92.2.4 jdolecek printf("(reserved value)"); 1753 1.92.2.4 jdolecek } 1754 1.92.2.4 jdolecek } 1755 1.92.2.4 jdolecek 1756 1.92.2.2 tls static void 1757 1.72 joerg pci_conf_print_pcie_cap(const pcireg_t *regs, int capoff) 1758 1.72 joerg { 1759 1.92.2.2 tls pcireg_t reg; /* for each register */ 1760 1.92.2.2 tls pcireg_t val; /* for each bitfield */ 1761 1.92.2.4 jdolecek bool check_link = true; 1762 1.72 joerg bool check_slot = false; 1763 1.92.2.2 tls bool check_rootport = false; 1764 1.92.2.4 jdolecek bool check_upstreamport = false; 1765 1.92.2.2 tls unsigned int pciever; 1766 1.92.2.4 jdolecek unsigned int i; 1767 1.72 joerg 1768 1.72 joerg printf("\n PCI Express Capabilities Register\n"); 1769 1.92.2.2 tls /* Capability Register */ 1770 1.92.2.2 tls reg = regs[o2i(capoff)]; 1771 1.92.2.4 jdolecek printf(" Capability register: 0x%04x\n", reg >> 16); 1772 1.92.2.2 tls pciever = (unsigned int)((reg & 0x000f0000) >> 16); 1773 1.92.2.2 tls printf(" Capability version: %u\n", pciever); 1774 1.92.2.2 tls printf(" Device type: "); 1775 1.92.2.2 tls switch ((reg & 0x00f00000) >> 20) { 1776 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_PCIE_DEV: /* 0x0 */ 1777 1.72 joerg printf("PCI Express Endpoint device\n"); 1778 1.92.2.4 jdolecek check_upstreamport = true; 1779 1.72 joerg break; 1780 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_PCI_DEV: /* 0x1 */ 1781 1.75 jmcneill printf("Legacy PCI Express Endpoint device\n"); 1782 1.92.2.4 jdolecek check_upstreamport = true; 1783 1.72 joerg break; 1784 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_ROOT: /* 0x4 */ 1785 1.72 joerg printf("Root Port of PCI Express Root Complex\n"); 1786 1.72 joerg check_slot = true; 1787 1.92.2.2 tls check_rootport = true; 1788 1.72 joerg break; 1789 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_UP: /* 0x5 */ 1790 1.72 joerg printf("Upstream Port of PCI Express Switch\n"); 1791 1.92.2.4 jdolecek check_upstreamport = true; 1792 1.72 joerg break; 1793 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_DOWN: /* 0x6 */ 1794 1.72 joerg printf("Downstream Port of PCI Express Switch\n"); 1795 1.72 joerg check_slot = true; 1796 1.92.2.2 tls check_rootport = true; 1797 1.72 joerg break; 1798 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_PCIE2PCI: /* 0x7 */ 1799 1.72 joerg printf("PCI Express to PCI/PCI-X Bridge\n"); 1800 1.92.2.4 jdolecek check_upstreamport = true; 1801 1.72 joerg break; 1802 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_PCI2PCIE: /* 0x8 */ 1803 1.72 joerg printf("PCI/PCI-X to PCI Express Bridge\n"); 1804 1.92.2.4 jdolecek /* Upstream port is not PCIe */ 1805 1.92.2.4 jdolecek check_slot = true; 1806 1.72 joerg break; 1807 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_ROOT_INTEP: /* 0x9 */ 1808 1.92.2.2 tls printf("Root Complex Integrated Endpoint\n"); 1809 1.92.2.4 jdolecek check_link = false; 1810 1.92.2.2 tls break; 1811 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_ROOT_EVNTC: /* 0xa */ 1812 1.92.2.2 tls printf("Root Complex Event Collector\n"); 1813 1.92.2.4 jdolecek check_link = false; 1814 1.92.2.4 jdolecek check_rootport = true; 1815 1.92.2.2 tls break; 1816 1.72 joerg default: 1817 1.72 joerg printf("unknown\n"); 1818 1.72 joerg break; 1819 1.72 joerg } 1820 1.92.2.4 jdolecek onoff("Slot implemented", reg, PCIE_XCAP_SI); 1821 1.92.2.4 jdolecek printf(" Interrupt Message Number: 0x%02x\n", 1822 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCIE_XCAP_IRQ)); 1823 1.92.2.2 tls 1824 1.92.2.2 tls /* Device Capability Register */ 1825 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_DCAP)]; 1826 1.92.2.2 tls printf(" Device Capabilities Register: 0x%08x\n", reg); 1827 1.92.2.2 tls printf(" Max Payload Size Supported: %u bytes max\n", 1828 1.92.2.3 tls 128 << (unsigned int)(reg & PCIE_DCAP_MAX_PAYLOAD)); 1829 1.92.2.2 tls printf(" Phantom Functions Supported: "); 1830 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_DCAP_PHANTOM_FUNCS)) { 1831 1.92.2.2 tls case 0x0: 1832 1.92.2.2 tls printf("not available\n"); 1833 1.92.2.2 tls break; 1834 1.92.2.2 tls case 0x1: 1835 1.92.2.2 tls printf("MSB\n"); 1836 1.92.2.2 tls break; 1837 1.92.2.2 tls case 0x2: 1838 1.92.2.2 tls printf("two MSB\n"); 1839 1.92.2.2 tls break; 1840 1.92.2.2 tls case 0x3: 1841 1.92.2.2 tls printf("All three bits\n"); 1842 1.92.2.2 tls break; 1843 1.86 matt } 1844 1.92.2.2 tls printf(" Extended Tag Field Supported: %dbit\n", 1845 1.92.2.2 tls (reg & PCIE_DCAP_EXT_TAG_FIELD) == 0 ? 5 : 8); 1846 1.92.2.2 tls printf(" Endpoint L0 Acceptable Latency: "); 1847 1.92.2.4 jdolecek pci_print_pcie_L0s_latency(__SHIFTOUT(reg, PCIE_DCAP_L0S_LATENCY)); 1848 1.92.2.2 tls printf(" Endpoint L1 Acceptable Latency: "); 1849 1.92.2.4 jdolecek pci_print_pcie_L1_latency(__SHIFTOUT(reg, PCIE_DCAP_L1_LATENCY)); 1850 1.92.2.3 tls onoff("Attention Button Present", reg, PCIE_DCAP_ATTN_BUTTON); 1851 1.92.2.3 tls onoff("Attention Indicator Present", reg, PCIE_DCAP_ATTN_IND); 1852 1.92.2.3 tls onoff("Power Indicator Present", reg, PCIE_DCAP_PWR_IND); 1853 1.92.2.3 tls onoff("Role-Based Error Report", reg, PCIE_DCAP_ROLE_ERR_RPT); 1854 1.92.2.4 jdolecek if (check_upstreamport) { 1855 1.92.2.4 jdolecek printf(" Captured Slot Power Limit: "); 1856 1.92.2.4 jdolecek pci_conf_print_pcie_power( 1857 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_DCAP_SLOT_PWR_LIM_VAL), 1858 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_DCAP_SLOT_PWR_LIM_SCALE)); 1859 1.92.2.4 jdolecek } 1860 1.92.2.3 tls onoff("Function-Level Reset Capability", reg, PCIE_DCAP_FLR); 1861 1.92.2.2 tls 1862 1.92.2.2 tls /* Device Control Register */ 1863 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_DCSR)]; 1864 1.92.2.2 tls printf(" Device Control Register: 0x%04x\n", reg & 0xffff); 1865 1.92.2.3 tls onoff("Correctable Error Reporting Enable", reg, 1866 1.92.2.3 tls PCIE_DCSR_ENA_COR_ERR); 1867 1.92.2.3 tls onoff("Non Fatal Error Reporting Enable", reg, PCIE_DCSR_ENA_NFER); 1868 1.92.2.3 tls onoff("Fatal Error Reporting Enable", reg, PCIE_DCSR_ENA_FER); 1869 1.92.2.3 tls onoff("Unsupported Request Reporting Enable", reg, PCIE_DCSR_ENA_URR); 1870 1.92.2.3 tls onoff("Enable Relaxed Ordering", reg, PCIE_DCSR_ENA_RELAX_ORD); 1871 1.92.2.2 tls printf(" Max Payload Size: %d byte\n", 1872 1.92.2.4 jdolecek 128 << __SHIFTOUT(reg, PCIE_DCSR_MAX_PAYLOAD)); 1873 1.92.2.3 tls onoff("Extended Tag Field Enable", reg, PCIE_DCSR_EXT_TAG_FIELD); 1874 1.92.2.3 tls onoff("Phantom Functions Enable", reg, PCIE_DCSR_PHANTOM_FUNCS); 1875 1.92.2.3 tls onoff("Aux Power PM Enable", reg, PCIE_DCSR_AUX_POWER_PM); 1876 1.92.2.3 tls onoff("Enable No Snoop", reg, PCIE_DCSR_ENA_NO_SNOOP); 1877 1.92.2.2 tls printf(" Max Read Request Size: %d byte\n", 1878 1.92.2.4 jdolecek 128 << __SHIFTOUT(reg, PCIE_DCSR_MAX_READ_REQ)); 1879 1.92.2.2 tls 1880 1.92.2.2 tls /* Device Status Register */ 1881 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_DCSR)]; 1882 1.92.2.2 tls printf(" Device Status Register: 0x%04x\n", reg >> 16); 1883 1.92.2.3 tls onoff("Correctable Error Detected", reg, PCIE_DCSR_CED); 1884 1.92.2.3 tls onoff("Non Fatal Error Detected", reg, PCIE_DCSR_NFED); 1885 1.92.2.3 tls onoff("Fatal Error Detected", reg, PCIE_DCSR_FED); 1886 1.92.2.3 tls onoff("Unsupported Request Detected", reg, PCIE_DCSR_URD); 1887 1.92.2.3 tls onoff("Aux Power Detected", reg, PCIE_DCSR_AUX_PWR); 1888 1.92.2.3 tls onoff("Transaction Pending", reg, PCIE_DCSR_TRANSACTION_PND); 1889 1.92.2.4 jdolecek onoff("Emergency Power Reduction Detected", reg, PCIE_DCSR_EMGPWRREDD); 1890 1.92.2.2 tls 1891 1.92.2.2 tls if (check_link) { 1892 1.92.2.2 tls /* Link Capability Register */ 1893 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_LCAP)]; 1894 1.92.2.2 tls printf(" Link Capabilities Register: 0x%08x\n", reg); 1895 1.92.2.2 tls printf(" Maximum Link Speed: "); 1896 1.92.2.4 jdolecek pci_print_pcie_linkspeed(PCIE_LCAP, reg & PCIE_LCAP_MAX_SPEED); 1897 1.92.2.2 tls printf(" Maximum Link Width: x%u lanes\n", 1898 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCIE_LCAP_MAX_WIDTH)); 1899 1.92.2.2 tls printf(" Active State PM Support: "); 1900 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_LCAP_ASPM)) { 1901 1.92.2.4 jdolecek case 0x0: 1902 1.92.2.4 jdolecek printf("No ASPM support\n"); 1903 1.92.2.4 jdolecek break; 1904 1.92.2.2 tls case 0x1: 1905 1.92.2.4 jdolecek printf("L0s supported\n"); 1906 1.92.2.4 jdolecek break; 1907 1.92.2.4 jdolecek case 0x2: 1908 1.92.2.4 jdolecek printf("L1 supported\n"); 1909 1.92.2.2 tls break; 1910 1.92.2.2 tls case 0x3: 1911 1.92.2.2 tls printf("L0s and L1 supported\n"); 1912 1.92.2.2 tls break; 1913 1.92.2.2 tls } 1914 1.92.2.2 tls printf(" L0 Exit Latency: "); 1915 1.92.2.4 jdolecek pci_print_pcie_L0s_latency(__SHIFTOUT(reg,PCIE_LCAP_L0S_EXIT)); 1916 1.92.2.2 tls printf(" L1 Exit Latency: "); 1917 1.92.2.4 jdolecek pci_print_pcie_L1_latency(__SHIFTOUT(reg, PCIE_LCAP_L1_EXIT)); 1918 1.92.2.4 jdolecek printf(" Port Number: %u\n", 1919 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCIE_LCAP_PORT)); 1920 1.92.2.3 tls onoff("Clock Power Management", reg, PCIE_LCAP_CLOCK_PM); 1921 1.92.2.3 tls onoff("Surprise Down Error Report", reg, 1922 1.92.2.3 tls PCIE_LCAP_SURPRISE_DOWN); 1923 1.92.2.3 tls onoff("Data Link Layer Link Active", reg, PCIE_LCAP_DL_ACTIVE); 1924 1.92.2.3 tls onoff("Link BW Notification Capable", reg, 1925 1.92.2.3 tls PCIE_LCAP_LINK_BW_NOTIFY); 1926 1.92.2.3 tls onoff("ASPM Optionally Compliance", reg, 1927 1.92.2.3 tls PCIE_LCAP_ASPM_COMPLIANCE); 1928 1.92.2.2 tls 1929 1.92.2.2 tls /* Link Control Register */ 1930 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_LCSR)]; 1931 1.92.2.2 tls printf(" Link Control Register: 0x%04x\n", reg & 0xffff); 1932 1.92.2.2 tls printf(" Active State PM Control: "); 1933 1.92.2.4 jdolecek switch (reg & (PCIE_LCSR_ASPM_L1 | PCIE_LCSR_ASPM_L0S)) { 1934 1.92.2.2 tls case 0: 1935 1.92.2.2 tls printf("disabled\n"); 1936 1.92.2.2 tls break; 1937 1.92.2.2 tls case 1: 1938 1.92.2.2 tls printf("L0s Entry Enabled\n"); 1939 1.92.2.2 tls break; 1940 1.92.2.2 tls case 2: 1941 1.92.2.2 tls printf("L1 Entry Enabled\n"); 1942 1.92.2.2 tls break; 1943 1.92.2.2 tls case 3: 1944 1.92.2.2 tls printf("L0s and L1 Entry Enabled\n"); 1945 1.92.2.2 tls break; 1946 1.92.2.2 tls } 1947 1.92.2.3 tls onoff2("Read Completion Boundary Control", reg, PCIE_LCSR_RCB, 1948 1.92.2.3 tls "128bytes", "64bytes"); 1949 1.92.2.3 tls onoff("Link Disable", reg, PCIE_LCSR_LINK_DIS); 1950 1.92.2.3 tls onoff("Retrain Link", reg, PCIE_LCSR_RETRAIN); 1951 1.92.2.3 tls onoff("Common Clock Configuration", reg, PCIE_LCSR_COMCLKCFG); 1952 1.92.2.3 tls onoff("Extended Synch", reg, PCIE_LCSR_EXTNDSYNC); 1953 1.92.2.3 tls onoff("Enable Clock Power Management", reg, PCIE_LCSR_ENCLKPM); 1954 1.92.2.4 jdolecek onoff("Hardware Autonomous Width Disable", reg,PCIE_LCSR_HAWD); 1955 1.92.2.3 tls onoff("Link Bandwidth Management Interrupt Enable", reg, 1956 1.92.2.3 tls PCIE_LCSR_LBMIE); 1957 1.92.2.3 tls onoff("Link Autonomous Bandwidth Interrupt Enable", reg, 1958 1.92.2.3 tls PCIE_LCSR_LABIE); 1959 1.92.2.4 jdolecek printf(" DRS Signaling Control: "); 1960 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_LCSR_DRSSGNL)) { 1961 1.92.2.4 jdolecek case 0: 1962 1.92.2.4 jdolecek printf("not reported\n"); 1963 1.92.2.4 jdolecek break; 1964 1.92.2.4 jdolecek case 1: 1965 1.92.2.4 jdolecek printf("Interrupt Enabled\n"); 1966 1.92.2.4 jdolecek break; 1967 1.92.2.4 jdolecek case 2: 1968 1.92.2.4 jdolecek printf("DRS to FRS Signaling Enabled\n"); 1969 1.92.2.4 jdolecek break; 1970 1.92.2.4 jdolecek default: 1971 1.92.2.4 jdolecek printf("reserved\n"); 1972 1.92.2.4 jdolecek break; 1973 1.92.2.4 jdolecek } 1974 1.92.2.2 tls 1975 1.92.2.2 tls /* Link Status Register */ 1976 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_LCSR)]; 1977 1.92.2.2 tls printf(" Link Status Register: 0x%04x\n", reg >> 16); 1978 1.92.2.2 tls printf(" Negotiated Link Speed: "); 1979 1.92.2.4 jdolecek pci_print_pcie_linkspeed(PCIE_LCSR, 1980 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_LCSR_LINKSPEED)); 1981 1.92.2.2 tls printf(" Negotiated Link Width: x%u lanes\n", 1982 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCIE_LCSR_NLW)); 1983 1.92.2.3 tls onoff("Training Error", reg, PCIE_LCSR_LINKTRAIN_ERR); 1984 1.92.2.3 tls onoff("Link Training", reg, PCIE_LCSR_LINKTRAIN); 1985 1.92.2.3 tls onoff("Slot Clock Configuration", reg, PCIE_LCSR_SLOTCLKCFG); 1986 1.92.2.3 tls onoff("Data Link Layer Link Active", reg, PCIE_LCSR_DLACTIVE); 1987 1.92.2.3 tls onoff("Link Bandwidth Management Status", reg, 1988 1.92.2.3 tls PCIE_LCSR_LINK_BW_MGMT); 1989 1.92.2.3 tls onoff("Link Autonomous Bandwidth Status", reg, 1990 1.92.2.3 tls PCIE_LCSR_LINK_AUTO_BW); 1991 1.92.2.2 tls } 1992 1.92.2.2 tls 1993 1.92.2.2 tls if (check_slot == true) { 1994 1.92.2.4 jdolecek pcireg_t slcap; 1995 1.92.2.4 jdolecek 1996 1.92.2.2 tls /* Slot Capability Register */ 1997 1.92.2.4 jdolecek slcap = reg = regs[o2i(capoff + PCIE_SLCAP)]; 1998 1.92.2.4 jdolecek printf(" Slot Capability Register: 0x%08x\n", reg); 1999 1.92.2.3 tls onoff("Attention Button Present", reg, PCIE_SLCAP_ABP); 2000 1.92.2.3 tls onoff("Power Controller Present", reg, PCIE_SLCAP_PCP); 2001 1.92.2.3 tls onoff("MRL Sensor Present", reg, PCIE_SLCAP_MSP); 2002 1.92.2.3 tls onoff("Attention Indicator Present", reg, PCIE_SLCAP_AIP); 2003 1.92.2.3 tls onoff("Power Indicator Present", reg, PCIE_SLCAP_PIP); 2004 1.92.2.3 tls onoff("Hot-Plug Surprise", reg, PCIE_SLCAP_HPS); 2005 1.92.2.3 tls onoff("Hot-Plug Capable", reg, PCIE_SLCAP_HPC); 2006 1.92.2.4 jdolecek printf(" Slot Power Limit Value: "); 2007 1.92.2.4 jdolecek pci_conf_print_pcie_power(__SHIFTOUT(reg, PCIE_SLCAP_SPLV), 2008 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_SLCAP_SPLS)); 2009 1.92.2.3 tls onoff("Electromechanical Interlock Present", reg, 2010 1.92.2.3 tls PCIE_SLCAP_EIP); 2011 1.92.2.3 tls onoff("No Command Completed Support", reg, PCIE_SLCAP_NCCS); 2012 1.92.2.2 tls printf(" Physical Slot Number: %d\n", 2013 1.92.2.2 tls (unsigned int)(reg & PCIE_SLCAP_PSN) >> 19); 2014 1.92.2.2 tls 2015 1.92.2.2 tls /* Slot Control Register */ 2016 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_SLCSR)]; 2017 1.92.2.4 jdolecek printf(" Slot Control Register: 0x%04x\n", reg & 0xffff); 2018 1.92.2.3 tls onoff("Attention Button Pressed Enabled", reg, PCIE_SLCSR_ABE); 2019 1.92.2.3 tls onoff("Power Fault Detected Enabled", reg, PCIE_SLCSR_PFE); 2020 1.92.2.3 tls onoff("MRL Sensor Changed Enabled", reg, PCIE_SLCSR_MSE); 2021 1.92.2.4 jdolecek onoff("Presence Detect Changed Enabled", reg, PCIE_SLCSR_PDE); 2022 1.92.2.3 tls onoff("Command Completed Interrupt Enabled", reg, 2023 1.92.2.3 tls PCIE_SLCSR_CCE); 2024 1.92.2.3 tls onoff("Hot-Plug Interrupt Enabled", reg, PCIE_SLCSR_HPE); 2025 1.92.2.4 jdolecek /* 2026 1.92.2.4 jdolecek * For Attention Indicator Control and Power Indicator Control, 2027 1.92.2.4 jdolecek * it's allowed to be a read only value 0 if corresponding 2028 1.92.2.4 jdolecek * capability register bit is 0. 2029 1.92.2.4 jdolecek */ 2030 1.92.2.4 jdolecek if (slcap & PCIE_SLCAP_AIP) { 2031 1.92.2.4 jdolecek printf(" Attention Indicator Control: "); 2032 1.92.2.4 jdolecek switch ((reg & PCIE_SLCSR_AIC) >> 6) { 2033 1.92.2.4 jdolecek case 0x0: 2034 1.92.2.4 jdolecek printf("reserved\n"); 2035 1.92.2.4 jdolecek break; 2036 1.92.2.4 jdolecek case PCIE_SLCSR_IND_ON: 2037 1.92.2.4 jdolecek printf("on\n"); 2038 1.92.2.4 jdolecek break; 2039 1.92.2.4 jdolecek case PCIE_SLCSR_IND_BLINK: 2040 1.92.2.4 jdolecek printf("blink\n"); 2041 1.92.2.4 jdolecek break; 2042 1.92.2.4 jdolecek case PCIE_SLCSR_IND_OFF: 2043 1.92.2.4 jdolecek printf("off\n"); 2044 1.92.2.4 jdolecek break; 2045 1.92.2.4 jdolecek } 2046 1.72 joerg } 2047 1.92.2.4 jdolecek if (slcap & PCIE_SLCAP_PIP) { 2048 1.92.2.4 jdolecek printf(" Power Indicator Control: "); 2049 1.92.2.4 jdolecek switch ((reg & PCIE_SLCSR_PIC) >> 8) { 2050 1.92.2.4 jdolecek case 0x0: 2051 1.92.2.4 jdolecek printf("reserved\n"); 2052 1.92.2.4 jdolecek break; 2053 1.92.2.4 jdolecek case PCIE_SLCSR_IND_ON: 2054 1.92.2.4 jdolecek printf("on\n"); 2055 1.92.2.4 jdolecek break; 2056 1.92.2.4 jdolecek case PCIE_SLCSR_IND_BLINK: 2057 1.92.2.4 jdolecek printf("blink\n"); 2058 1.92.2.4 jdolecek break; 2059 1.92.2.4 jdolecek case PCIE_SLCSR_IND_OFF: 2060 1.92.2.4 jdolecek printf("off\n"); 2061 1.92.2.4 jdolecek break; 2062 1.92.2.4 jdolecek } 2063 1.72 joerg } 2064 1.92.2.4 jdolecek printf(" Power Controller Control: Power %s\n", 2065 1.92.2.4 jdolecek reg & PCIE_SLCSR_PCC ? "off" : "on"); 2066 1.92.2.3 tls onoff("Electromechanical Interlock Control", 2067 1.92.2.3 tls reg, PCIE_SLCSR_EIC); 2068 1.92.2.3 tls onoff("Data Link Layer State Changed Enable", reg, 2069 1.92.2.3 tls PCIE_SLCSR_DLLSCE); 2070 1.92.2.4 jdolecek onoff("Auto Slot Power Limit Disable", reg, 2071 1.92.2.4 jdolecek PCIE_SLCSR_AUTOSPLDIS); 2072 1.92.2.2 tls 2073 1.92.2.2 tls /* Slot Status Register */ 2074 1.92.2.4 jdolecek printf(" Slot Status Register: 0x%04x\n", reg >> 16); 2075 1.92.2.3 tls onoff("Attention Button Pressed", reg, PCIE_SLCSR_ABP); 2076 1.92.2.3 tls onoff("Power Fault Detected", reg, PCIE_SLCSR_PFD); 2077 1.92.2.3 tls onoff("MRL Sensor Changed", reg, PCIE_SLCSR_MSC); 2078 1.92.2.4 jdolecek onoff("Presence Detect Changed", reg, PCIE_SLCSR_PDC); 2079 1.92.2.3 tls onoff("Command Completed", reg, PCIE_SLCSR_CC); 2080 1.92.2.3 tls onoff("MRL Open", reg, PCIE_SLCSR_MS); 2081 1.92.2.3 tls onoff("Card Present in slot", reg, PCIE_SLCSR_PDS); 2082 1.92.2.3 tls onoff("Electromechanical Interlock engaged", reg, 2083 1.92.2.3 tls PCIE_SLCSR_EIS); 2084 1.92.2.3 tls onoff("Data Link Layer State Changed", reg, PCIE_SLCSR_LACS); 2085 1.92.2.2 tls } 2086 1.92.2.2 tls 2087 1.92.2.2 tls if (check_rootport == true) { 2088 1.92.2.2 tls /* Root Control Register */ 2089 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_RCR)]; 2090 1.92.2.4 jdolecek printf(" Root Control Register: 0x%04x\n", reg & 0xffff); 2091 1.92.2.3 tls onoff("SERR on Correctable Error Enable", reg, 2092 1.92.2.3 tls PCIE_RCR_SERR_CER); 2093 1.92.2.3 tls onoff("SERR on Non-Fatal Error Enable", reg, 2094 1.92.2.3 tls PCIE_RCR_SERR_NFER); 2095 1.92.2.3 tls onoff("SERR on Fatal Error Enable", reg, PCIE_RCR_SERR_FER); 2096 1.92.2.3 tls onoff("PME Interrupt Enable", reg, PCIE_RCR_PME_IE); 2097 1.92.2.3 tls onoff("CRS Software Visibility Enable", reg, PCIE_RCR_CRS_SVE); 2098 1.92.2.2 tls 2099 1.92.2.2 tls /* Root Capability Register */ 2100 1.92.2.4 jdolecek printf(" Root Capability Register: 0x%04x\n", 2101 1.92.2.2 tls reg >> 16); 2102 1.92.2.4 jdolecek onoff("CRS Software Visibility", reg, PCIE_RCR_CRS_SV); 2103 1.92.2.2 tls 2104 1.92.2.2 tls /* Root Status Register */ 2105 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_RSR)]; 2106 1.92.2.4 jdolecek printf(" Root Status Register: 0x%08x\n", reg); 2107 1.92.2.4 jdolecek printf(" PME Requester ID: 0x%04x\n", 2108 1.92.2.2 tls (unsigned int)(reg & PCIE_RSR_PME_REQESTER)); 2109 1.92.2.3 tls onoff("PME was asserted", reg, PCIE_RSR_PME_STAT); 2110 1.92.2.3 tls onoff("another PME is pending", reg, PCIE_RSR_PME_PEND); 2111 1.92.2.2 tls } 2112 1.92.2.2 tls 2113 1.92.2.2 tls /* PCIe DW9 to DW14 is for PCIe 2.0 and newer */ 2114 1.92.2.2 tls if (pciever < 2) 2115 1.92.2.2 tls return; 2116 1.92.2.2 tls 2117 1.92.2.2 tls /* Device Capabilities 2 */ 2118 1.92.2.2 tls reg = regs[o2i(capoff + PCIE_DCAP2)]; 2119 1.92.2.2 tls printf(" Device Capabilities 2: 0x%08x\n", reg); 2120 1.92.2.4 jdolecek printf(" Completion Timeout Ranges Supported: "); 2121 1.92.2.4 jdolecek val = reg & PCIE_DCAP2_COMPT_RANGE; 2122 1.92.2.4 jdolecek switch (val) { 2123 1.92.2.4 jdolecek case 0: 2124 1.92.2.4 jdolecek printf("not supported\n"); 2125 1.92.2.4 jdolecek break; 2126 1.92.2.4 jdolecek default: 2127 1.92.2.4 jdolecek for (i = 0; i <= 3; i++) { 2128 1.92.2.4 jdolecek if (((val >> i) & 0x01) != 0) 2129 1.92.2.4 jdolecek printf("%c", 'A' + i); 2130 1.92.2.4 jdolecek } 2131 1.92.2.4 jdolecek printf("\n"); 2132 1.92.2.4 jdolecek } 2133 1.92.2.4 jdolecek onoff("Completion Timeout Disable Supported", reg, 2134 1.92.2.3 tls PCIE_DCAP2_COMPT_DIS); 2135 1.92.2.3 tls onoff("ARI Forwarding Supported", reg, PCIE_DCAP2_ARI_FWD); 2136 1.92.2.3 tls onoff("AtomicOp Routing Supported", reg, PCIE_DCAP2_ATOM_ROUT); 2137 1.92.2.3 tls onoff("32bit AtomicOp Completer Supported", reg, PCIE_DCAP2_32ATOM); 2138 1.92.2.3 tls onoff("64bit AtomicOp Completer Supported", reg, PCIE_DCAP2_64ATOM); 2139 1.92.2.3 tls onoff("128-bit CAS Completer Supported", reg, PCIE_DCAP2_128CAS); 2140 1.92.2.3 tls onoff("No RO-enabled PR-PR passing", reg, PCIE_DCAP2_NO_ROPR_PASS); 2141 1.92.2.3 tls onoff("LTR Mechanism Supported", reg, PCIE_DCAP2_LTR_MEC); 2142 1.92.2.4 jdolecek printf(" TPH Completer Supported: "); 2143 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_DCAP2_TPH_COMP)) { 2144 1.92.2.4 jdolecek case 0: 2145 1.92.2.4 jdolecek printf("Not supported\n"); 2146 1.92.2.4 jdolecek break; 2147 1.92.2.4 jdolecek case 1: 2148 1.92.2.4 jdolecek printf("TPH\n"); 2149 1.92.2.4 jdolecek break; 2150 1.92.2.4 jdolecek case 3: 2151 1.92.2.4 jdolecek printf("TPH and Extended TPH\n"); 2152 1.92.2.4 jdolecek break; 2153 1.92.2.4 jdolecek default: 2154 1.92.2.4 jdolecek printf("(reserved value)\n"); 2155 1.92.2.4 jdolecek break; 2156 1.92.2.4 jdolecek 2157 1.92.2.4 jdolecek } 2158 1.92.2.4 jdolecek printf(" LN System CLS: "); 2159 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_DCAP2_LNSYSCLS)) { 2160 1.92.2.4 jdolecek case 0x0: 2161 1.92.2.4 jdolecek printf("Not supported or not in effect\n"); 2162 1.92.2.4 jdolecek break; 2163 1.92.2.4 jdolecek case 0x1: 2164 1.92.2.4 jdolecek printf("64byte cachelines in effect\n"); 2165 1.92.2.4 jdolecek break; 2166 1.92.2.4 jdolecek case 0x2: 2167 1.92.2.4 jdolecek printf("128byte cachelines in effect\n"); 2168 1.92.2.4 jdolecek break; 2169 1.92.2.4 jdolecek case 0x3: 2170 1.92.2.4 jdolecek printf("Reserved\n"); 2171 1.92.2.4 jdolecek break; 2172 1.92.2.4 jdolecek } 2173 1.92.2.2 tls printf(" OBFF Supported: "); 2174 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_DCAP2_OBFF)) { 2175 1.92.2.4 jdolecek case 0x0: 2176 1.92.2.4 jdolecek printf("Not supported\n"); 2177 1.92.2.4 jdolecek break; 2178 1.92.2.4 jdolecek case 0x1: 2179 1.92.2.4 jdolecek printf("Message only\n"); 2180 1.92.2.4 jdolecek break; 2181 1.92.2.4 jdolecek case 0x2: 2182 1.92.2.4 jdolecek printf("WAKE# only\n"); 2183 1.92.2.4 jdolecek break; 2184 1.92.2.4 jdolecek case 0x3: 2185 1.92.2.4 jdolecek printf("Both\n"); 2186 1.92.2.4 jdolecek break; 2187 1.92.2.4 jdolecek } 2188 1.92.2.4 jdolecek onoff("Extended Fmt Field Supported", reg, PCIE_DCAP2_EXTFMT_FLD); 2189 1.92.2.4 jdolecek onoff("End-End TLP Prefix Supported", reg, PCIE_DCAP2_EETLP_PREF); 2190 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCIE_DCAP2_MAX_EETLP); 2191 1.92.2.4 jdolecek printf(" Max End-End TLP Prefixes: %u\n", (val == 0) ? 4 : val); 2192 1.92.2.4 jdolecek printf(" Emergency Power Reduction Supported: "); 2193 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_DCAP2_EMGPWRRED)) { 2194 1.92.2.2 tls case 0x0: 2195 1.92.2.2 tls printf("Not supported\n"); 2196 1.92.2.2 tls break; 2197 1.92.2.4 jdolecek case 0x1: 2198 1.92.2.4 jdolecek printf("Device Specific mechanism\n"); 2199 1.92.2.4 jdolecek break; 2200 1.92.2.4 jdolecek case 0x2: 2201 1.92.2.4 jdolecek printf("Form Factor spec or Device Specific mechanism\n"); 2202 1.92.2.4 jdolecek break; 2203 1.92.2.4 jdolecek case 0x3: 2204 1.92.2.4 jdolecek printf("Reserved\n"); 2205 1.92.2.4 jdolecek break; 2206 1.92.2.4 jdolecek } 2207 1.92.2.4 jdolecek onoff("Emergency Power Reduction Initialization Required", reg, 2208 1.92.2.4 jdolecek PCIE_DCAP2_EMGPWRRED_INI); 2209 1.92.2.4 jdolecek onoff("FRS Supported", reg, PCIE_DCAP2_FRS); 2210 1.92.2.4 jdolecek 2211 1.92.2.4 jdolecek /* Device Control 2 */ 2212 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCIE_DCSR2)]; 2213 1.92.2.4 jdolecek printf(" Device Control 2: 0x%04x\n", reg & 0xffff); 2214 1.92.2.4 jdolecek printf(" Completion Timeout Value: "); 2215 1.92.2.4 jdolecek pci_print_pcie_compl_timeout(reg & PCIE_DCSR2_COMPT_VAL); 2216 1.92.2.4 jdolecek onoff("Completion Timeout Disabled", reg, PCIE_DCSR2_COMPT_DIS); 2217 1.92.2.4 jdolecek onoff("ARI Forwarding Enabled", reg, PCIE_DCSR2_ARI_FWD); 2218 1.92.2.4 jdolecek onoff("AtomicOp Requester Enabled", reg, PCIE_DCSR2_ATOM_REQ); 2219 1.92.2.4 jdolecek onoff("AtomicOp Egress Blocking", reg, PCIE_DCSR2_ATOM_EBLK); 2220 1.92.2.4 jdolecek onoff("IDO Request Enabled", reg, PCIE_DCSR2_IDO_REQ); 2221 1.92.2.4 jdolecek onoff("IDO Completion Enabled", reg, PCIE_DCSR2_IDO_COMP); 2222 1.92.2.4 jdolecek onoff("LTR Mechanism Enabled", reg, PCIE_DCSR2_LTR_MEC); 2223 1.92.2.4 jdolecek onoff("Emergency Power Reduction Request", reg, 2224 1.92.2.4 jdolecek PCIE_DCSR2_EMGPWRRED_REQ); 2225 1.92.2.4 jdolecek printf(" OBFF: "); 2226 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_DCSR2_OBFF_EN)) { 2227 1.92.2.4 jdolecek case 0x0: 2228 1.92.2.4 jdolecek printf("Disabled\n"); 2229 1.92.2.4 jdolecek break; 2230 1.92.2.4 jdolecek case 0x1: 2231 1.92.2.4 jdolecek printf("Enabled with Message Signaling Variation A\n"); 2232 1.92.2.4 jdolecek break; 2233 1.92.2.4 jdolecek case 0x2: 2234 1.92.2.4 jdolecek printf("Enabled with Message Signaling Variation B\n"); 2235 1.92.2.4 jdolecek break; 2236 1.92.2.4 jdolecek case 0x3: 2237 1.92.2.4 jdolecek printf("Enabled using WAKE# signaling\n"); 2238 1.92.2.4 jdolecek break; 2239 1.92.2.4 jdolecek } 2240 1.92.2.4 jdolecek onoff("End-End TLP Prefix Blocking on", reg, PCIE_DCSR2_EETLP); 2241 1.92.2.4 jdolecek 2242 1.92.2.4 jdolecek if (check_link) { 2243 1.92.2.4 jdolecek bool drs_supported = false; 2244 1.92.2.4 jdolecek 2245 1.92.2.4 jdolecek /* Link Capability 2 */ 2246 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCIE_LCAP2)]; 2247 1.92.2.4 jdolecek /* If the vector is 0, LCAP2 is not implemented */ 2248 1.92.2.4 jdolecek if ((reg & PCIE_LCAP2_SUP_LNKSV) != 0) { 2249 1.92.2.4 jdolecek printf(" Link Capabilities 2: 0x%08x\n", reg); 2250 1.92.2.4 jdolecek printf(" Supported Link Speeds Vector:"); 2251 1.92.2.4 jdolecek pci_print_pcie_linkspeedvector( 2252 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_LCAP2_SUP_LNKSV)); 2253 1.92.2.4 jdolecek printf("\n"); 2254 1.92.2.4 jdolecek onoff("Crosslink Supported", reg, PCIE_LCAP2_CROSSLNK); 2255 1.92.2.4 jdolecek printf(" " 2256 1.92.2.4 jdolecek "Lower SKP OS Generation Supported Speed Vector:"); 2257 1.92.2.4 jdolecek pci_print_pcie_linkspeedvector( 2258 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_LCAP2_LOWSKPOS_GENSUPPSV)); 2259 1.92.2.4 jdolecek printf("\n"); 2260 1.92.2.4 jdolecek printf(" " 2261 1.92.2.4 jdolecek "Lower SKP OS Reception Supported Speed Vector:"); 2262 1.92.2.4 jdolecek pci_print_pcie_linkspeedvector( 2263 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_LCAP2_LOWSKPOS_RECSUPPSV)); 2264 1.92.2.4 jdolecek printf("\n"); 2265 1.92.2.4 jdolecek onoff("DRS Supported", reg, PCIE_LCAP2_DRS); 2266 1.92.2.4 jdolecek drs_supported = (reg & PCIE_LCAP2_DRS) ? true : false; 2267 1.92.2.4 jdolecek } 2268 1.92.2.4 jdolecek 2269 1.92.2.4 jdolecek /* Link Control 2 */ 2270 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCIE_LCSR2)]; 2271 1.92.2.4 jdolecek /* If the vector is 0, LCAP2 is not implemented */ 2272 1.92.2.4 jdolecek printf(" Link Control 2: 0x%04x\n", reg & 0xffff); 2273 1.92.2.4 jdolecek printf(" Target Link Speed: "); 2274 1.92.2.4 jdolecek pci_print_pcie_linkspeed(PCIE_LCSR2, 2275 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_LCSR2_TGT_LSPEED)); 2276 1.92.2.4 jdolecek onoff("Enter Compliance Enabled", reg, PCIE_LCSR2_ENT_COMPL); 2277 1.92.2.4 jdolecek onoff("HW Autonomous Speed Disabled", reg, 2278 1.92.2.4 jdolecek PCIE_LCSR2_HW_AS_DIS); 2279 1.92.2.4 jdolecek printf(" Selectable De-emphasis: "); 2280 1.92.2.4 jdolecek pci_print_pcie_link_deemphasis( 2281 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_LCSR2_SEL_DEEMP)); 2282 1.92.2.4 jdolecek printf("\n"); 2283 1.92.2.4 jdolecek printf(" Transmit Margin: %u\n", 2284 1.92.2.4 jdolecek (unsigned int)(reg & PCIE_LCSR2_TX_MARGIN) >> 7); 2285 1.92.2.4 jdolecek onoff("Enter Modified Compliance", reg, PCIE_LCSR2_EN_MCOMP); 2286 1.92.2.4 jdolecek onoff("Compliance SOS", reg, PCIE_LCSR2_COMP_SOS); 2287 1.92.2.4 jdolecek printf(" Compliance Present/De-emphasis: "); 2288 1.92.2.4 jdolecek pci_print_pcie_link_deemphasis( 2289 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_LCSR2_COMP_DEEMP)); 2290 1.92.2.4 jdolecek printf("\n"); 2291 1.92.2.4 jdolecek 2292 1.92.2.4 jdolecek /* Link Status 2 */ 2293 1.92.2.4 jdolecek printf(" Link Status 2: 0x%04x\n", (reg >> 16) & 0xffff); 2294 1.92.2.4 jdolecek printf(" Current De-emphasis Level: "); 2295 1.92.2.4 jdolecek pci_print_pcie_link_deemphasis( 2296 1.92.2.4 jdolecek __SHIFTOUT(reg, PCIE_LCSR2_DEEMP_LVL)); 2297 1.92.2.4 jdolecek printf("\n"); 2298 1.92.2.4 jdolecek onoff("Equalization Complete", reg, PCIE_LCSR2_EQ_COMPL); 2299 1.92.2.4 jdolecek onoff("Equalization Phase 1 Successful", reg, 2300 1.92.2.4 jdolecek PCIE_LCSR2_EQP1_SUC); 2301 1.92.2.4 jdolecek onoff("Equalization Phase 2 Successful", reg, 2302 1.92.2.4 jdolecek PCIE_LCSR2_EQP2_SUC); 2303 1.92.2.4 jdolecek onoff("Equalization Phase 3 Successful", reg, 2304 1.92.2.4 jdolecek PCIE_LCSR2_EQP3_SUC); 2305 1.92.2.4 jdolecek onoff("Link Equalization Request", reg, PCIE_LCSR2_LNKEQ_REQ); 2306 1.92.2.4 jdolecek onoff("Retimer Presence Detected", reg, PCIE_LCSR2_RETIMERPD); 2307 1.92.2.4 jdolecek if (drs_supported) { 2308 1.92.2.4 jdolecek printf(" Downstream Component Presence: "); 2309 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCIE_LCSR2_DSCOMPN)) { 2310 1.92.2.4 jdolecek case PCIE_DSCOMPN_DOWN_NOTDETERM: 2311 1.92.2.4 jdolecek printf("Link Down - Presence Not" 2312 1.92.2.4 jdolecek " Determined\n"); 2313 1.92.2.4 jdolecek break; 2314 1.92.2.4 jdolecek case PCIE_DSCOMPN_DOWN_NOTPRES: 2315 1.92.2.4 jdolecek printf("Link Down - Component Not Present\n"); 2316 1.92.2.4 jdolecek break; 2317 1.92.2.4 jdolecek case PCIE_DSCOMPN_DOWN_PRES: 2318 1.92.2.4 jdolecek printf("Link Down - Component Present\n"); 2319 1.92.2.4 jdolecek break; 2320 1.92.2.4 jdolecek case PCIE_DSCOMPN_UP_PRES: 2321 1.92.2.4 jdolecek printf("Link Up - Component Present\n"); 2322 1.92.2.4 jdolecek break; 2323 1.92.2.4 jdolecek case PCIE_DSCOMPN_UP_PRES_DRS: 2324 1.92.2.4 jdolecek printf("Link Up - Component Present and DRS" 2325 1.92.2.4 jdolecek " received\n"); 2326 1.92.2.4 jdolecek break; 2327 1.92.2.4 jdolecek default: 2328 1.92.2.4 jdolecek printf("reserved\n"); 2329 1.92.2.4 jdolecek break; 2330 1.92.2.4 jdolecek } 2331 1.92.2.4 jdolecek onoff("DRS Message Received", reg, PCIE_LCSR2_DRSRCV); 2332 1.92.2.4 jdolecek } 2333 1.92.2.4 jdolecek } 2334 1.92.2.4 jdolecek 2335 1.92.2.4 jdolecek /* Slot Capability 2 */ 2336 1.92.2.4 jdolecek /* Slot Control 2 */ 2337 1.92.2.4 jdolecek /* Slot Status 2 */ 2338 1.92.2.4 jdolecek } 2339 1.92.2.4 jdolecek 2340 1.92.2.4 jdolecek static void 2341 1.92.2.4 jdolecek pci_conf_print_msix_cap(const pcireg_t *regs, int capoff) 2342 1.92.2.4 jdolecek { 2343 1.92.2.4 jdolecek pcireg_t reg; 2344 1.92.2.4 jdolecek 2345 1.92.2.4 jdolecek printf("\n MSI-X Capability Register\n"); 2346 1.92.2.4 jdolecek 2347 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_MSIX_CTL)]; 2348 1.92.2.4 jdolecek printf(" Message Control register: 0x%04x\n", 2349 1.92.2.4 jdolecek (reg >> 16) & 0xff); 2350 1.92.2.4 jdolecek printf(" Table Size: %d\n",PCI_MSIX_CTL_TBLSIZE(reg)); 2351 1.92.2.4 jdolecek onoff("Function Mask", reg, PCI_MSIX_CTL_FUNCMASK); 2352 1.92.2.4 jdolecek onoff("MSI-X Enable", reg, PCI_MSIX_CTL_ENABLE); 2353 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_MSIX_TBLOFFSET)]; 2354 1.92.2.4 jdolecek printf(" Table offset register: 0x%08x\n", reg); 2355 1.92.2.4 jdolecek printf(" Table offset: 0x%08x\n", 2356 1.92.2.4 jdolecek (pcireg_t)(reg & PCI_MSIX_TBLOFFSET_MASK)); 2357 1.92.2.4 jdolecek printf(" BIR: 0x%x\n", (pcireg_t)(reg & PCI_MSIX_TBLBIR_MASK)); 2358 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_MSIX_PBAOFFSET)]; 2359 1.92.2.4 jdolecek printf(" Pending bit array register: 0x%08x\n", reg); 2360 1.92.2.4 jdolecek printf(" Pending bit array offset: 0x%08x\n", 2361 1.92.2.4 jdolecek (pcireg_t)(reg & PCI_MSIX_PBAOFFSET_MASK)); 2362 1.92.2.4 jdolecek printf(" BIR: 0x%x\n", (pcireg_t)(reg & PCI_MSIX_PBABIR_MASK)); 2363 1.92.2.4 jdolecek } 2364 1.92.2.4 jdolecek 2365 1.92.2.4 jdolecek static void 2366 1.92.2.4 jdolecek pci_conf_print_sata_cap(const pcireg_t *regs, int capoff) 2367 1.92.2.4 jdolecek { 2368 1.92.2.4 jdolecek pcireg_t reg; 2369 1.92.2.4 jdolecek 2370 1.92.2.4 jdolecek printf("\n Serial ATA Capability Register\n"); 2371 1.92.2.4 jdolecek 2372 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_SATA_REV)]; 2373 1.92.2.4 jdolecek printf(" Revision register: 0x%04x\n", (reg >> 16) & 0xff); 2374 1.92.2.4 jdolecek printf(" Revision: %u.%u\n", 2375 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_SATA_REV_MAJOR), 2376 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_SATA_REV_MINOR)); 2377 1.92.2.4 jdolecek 2378 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_SATA_BAR)]; 2379 1.92.2.4 jdolecek 2380 1.92.2.4 jdolecek printf(" BAR Register: 0x%08x\n", reg); 2381 1.92.2.4 jdolecek printf(" Register location: "); 2382 1.92.2.4 jdolecek if ((reg & PCI_SATA_BAR_SPEC) == PCI_SATA_BAR_INCONF) 2383 1.92.2.4 jdolecek printf("in config space\n"); 2384 1.92.2.4 jdolecek else { 2385 1.92.2.4 jdolecek printf("BAR %d\n", (int)PCI_SATA_BAR_NUM(reg)); 2386 1.92.2.4 jdolecek printf(" BAR offset: 0x%08x\n", 2387 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_SATA_BAR_OFFSET) * 4); 2388 1.92.2.4 jdolecek } 2389 1.92.2.4 jdolecek } 2390 1.92.2.4 jdolecek 2391 1.92.2.4 jdolecek static void 2392 1.92.2.4 jdolecek pci_conf_print_pciaf_cap(const pcireg_t *regs, int capoff) 2393 1.92.2.4 jdolecek { 2394 1.92.2.4 jdolecek pcireg_t reg; 2395 1.92.2.4 jdolecek 2396 1.92.2.4 jdolecek printf("\n Advanced Features Capability Register\n"); 2397 1.92.2.4 jdolecek 2398 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_AFCAPR)]; 2399 1.92.2.4 jdolecek printf(" AF Capabilities register: 0x%02x\n", (reg >> 24) & 0xff); 2400 1.92.2.4 jdolecek printf(" AF Structure Length: 0x%02x\n", 2401 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_AF_LENGTH)); 2402 1.92.2.4 jdolecek onoff("Transaction Pending", reg, PCI_AF_TP_CAP); 2403 1.92.2.4 jdolecek onoff("Function Level Reset", reg, PCI_AF_FLR_CAP); 2404 1.92.2.4 jdolecek reg = regs[o2i(capoff + PCI_AFCSR)]; 2405 1.92.2.4 jdolecek printf(" AF Control register: 0x%02x\n", reg & 0xff); 2406 1.92.2.4 jdolecek /* 2407 1.92.2.4 jdolecek * Only PCI_AFCR_INITIATE_FLR is a member of the AF control register 2408 1.92.2.4 jdolecek * and it's always 0 on read 2409 1.92.2.4 jdolecek */ 2410 1.92.2.4 jdolecek printf(" AF Status register: 0x%02x\n", (reg >> 8) & 0xff); 2411 1.92.2.4 jdolecek onoff("Transaction Pending", reg, PCI_AFSR_TP); 2412 1.92.2.4 jdolecek } 2413 1.92.2.4 jdolecek 2414 1.92.2.4 jdolecek /* XXX pci_conf_print_ea_cap */ 2415 1.92.2.4 jdolecek /* XXX pci_conf_print_fpb_cap */ 2416 1.92.2.4 jdolecek 2417 1.92.2.4 jdolecek static struct { 2418 1.92.2.4 jdolecek pcireg_t cap; 2419 1.92.2.4 jdolecek const char *name; 2420 1.92.2.4 jdolecek void (*printfunc)(const pcireg_t *, int); 2421 1.92.2.4 jdolecek } pci_captab[] = { 2422 1.92.2.4 jdolecek { PCI_CAP_RESERVED0, "reserved", NULL }, 2423 1.92.2.4 jdolecek { PCI_CAP_PWRMGMT, "Power Management", pci_conf_print_pcipm_cap }, 2424 1.92.2.4 jdolecek { PCI_CAP_AGP, "AGP", pci_conf_print_agp_cap }, 2425 1.92.2.4 jdolecek { PCI_CAP_VPD, "VPD", NULL }, 2426 1.92.2.4 jdolecek { PCI_CAP_SLOTID, "SlotID", NULL }, 2427 1.92.2.4 jdolecek { PCI_CAP_MSI, "MSI", pci_conf_print_msi_cap }, 2428 1.92.2.4 jdolecek { PCI_CAP_CPCI_HOTSWAP, "CompactPCI Hot-swapping", NULL }, 2429 1.92.2.4 jdolecek { PCI_CAP_PCIX, "PCI-X", pci_conf_print_pcix_cap }, 2430 1.92.2.4 jdolecek { PCI_CAP_LDT, "HyperTransport", pci_conf_print_ht_cap }, 2431 1.92.2.4 jdolecek { PCI_CAP_VENDSPEC, "Vendor-specific", 2432 1.92.2.4 jdolecek pci_conf_print_vendspec_cap }, 2433 1.92.2.4 jdolecek { PCI_CAP_DEBUGPORT, "Debug Port", pci_conf_print_debugport_cap }, 2434 1.92.2.4 jdolecek { PCI_CAP_CPCI_RSRCCTL, "CompactPCI Resource Control", NULL }, 2435 1.92.2.4 jdolecek { PCI_CAP_HOTPLUG, "Hot-Plug", NULL }, 2436 1.92.2.4 jdolecek { PCI_CAP_SUBVENDOR, "Subsystem vendor ID", 2437 1.92.2.4 jdolecek pci_conf_print_subsystem_cap }, 2438 1.92.2.4 jdolecek { PCI_CAP_AGP8, "AGP 8x", NULL }, 2439 1.92.2.4 jdolecek { PCI_CAP_SECURE, "Secure Device", pci_conf_print_secure_cap }, 2440 1.92.2.4 jdolecek { PCI_CAP_PCIEXPRESS, "PCI Express", pci_conf_print_pcie_cap }, 2441 1.92.2.4 jdolecek { PCI_CAP_MSIX, "MSI-X", pci_conf_print_msix_cap }, 2442 1.92.2.4 jdolecek { PCI_CAP_SATA, "SATA", pci_conf_print_sata_cap }, 2443 1.92.2.4 jdolecek { PCI_CAP_PCIAF, "Advanced Features", pci_conf_print_pciaf_cap}, 2444 1.92.2.4 jdolecek { PCI_CAP_EA, "Enhanced Allocation", NULL }, 2445 1.92.2.4 jdolecek { PCI_CAP_FPB, "Flattening Portal Bridge", NULL } 2446 1.92.2.4 jdolecek }; 2447 1.92.2.4 jdolecek 2448 1.92.2.4 jdolecek static int 2449 1.92.2.4 jdolecek pci_conf_find_cap(const pcireg_t *regs, int capoff, unsigned int capid, 2450 1.92.2.4 jdolecek int *offsetp) 2451 1.92.2.4 jdolecek { 2452 1.92.2.4 jdolecek pcireg_t rval; 2453 1.92.2.4 jdolecek int off; 2454 1.92.2.4 jdolecek 2455 1.92.2.4 jdolecek for (off = PCI_CAPLIST_PTR(regs[o2i(capoff)]); 2456 1.92.2.4 jdolecek off != 0; off = PCI_CAPLIST_NEXT(rval)) { 2457 1.92.2.4 jdolecek rval = regs[o2i(off)]; 2458 1.92.2.4 jdolecek if (capid == PCI_CAPLIST_CAP(rval)) { 2459 1.92.2.4 jdolecek if (offsetp != NULL) 2460 1.92.2.4 jdolecek *offsetp = off; 2461 1.92.2.4 jdolecek return 1; 2462 1.92.2.4 jdolecek } 2463 1.92.2.4 jdolecek } 2464 1.92.2.4 jdolecek return 0; 2465 1.92.2.4 jdolecek } 2466 1.92.2.4 jdolecek 2467 1.92.2.4 jdolecek static void 2468 1.92.2.4 jdolecek pci_conf_print_caplist( 2469 1.92.2.4 jdolecek #ifdef _KERNEL 2470 1.92.2.4 jdolecek pci_chipset_tag_t pc, pcitag_t tag, 2471 1.92.2.4 jdolecek #endif 2472 1.92.2.4 jdolecek const pcireg_t *regs, int capoff) 2473 1.92.2.4 jdolecek { 2474 1.92.2.4 jdolecek int off; 2475 1.92.2.4 jdolecek pcireg_t foundcap; 2476 1.92.2.4 jdolecek pcireg_t rval; 2477 1.92.2.4 jdolecek bool foundtable[__arraycount(pci_captab)]; 2478 1.92.2.4 jdolecek unsigned int i; 2479 1.92.2.4 jdolecek 2480 1.92.2.4 jdolecek /* Clear table */ 2481 1.92.2.4 jdolecek for (i = 0; i < __arraycount(pci_captab); i++) 2482 1.92.2.4 jdolecek foundtable[i] = false; 2483 1.92.2.4 jdolecek 2484 1.92.2.4 jdolecek /* Print capability register's offset and the type first */ 2485 1.92.2.4 jdolecek for (off = PCI_CAPLIST_PTR(regs[o2i(capoff)]); 2486 1.92.2.4 jdolecek off != 0; off = PCI_CAPLIST_NEXT(regs[o2i(off)])) { 2487 1.92.2.4 jdolecek rval = regs[o2i(off)]; 2488 1.92.2.4 jdolecek printf(" Capability register at 0x%02x\n", off); 2489 1.92.2.4 jdolecek 2490 1.92.2.4 jdolecek printf(" type: 0x%02x (", PCI_CAPLIST_CAP(rval)); 2491 1.92.2.4 jdolecek foundcap = PCI_CAPLIST_CAP(rval); 2492 1.92.2.4 jdolecek if (foundcap < __arraycount(pci_captab)) { 2493 1.92.2.4 jdolecek printf("%s)\n", pci_captab[foundcap].name); 2494 1.92.2.4 jdolecek /* Mark as found */ 2495 1.92.2.4 jdolecek foundtable[foundcap] = true; 2496 1.92.2.4 jdolecek } else 2497 1.92.2.4 jdolecek printf("unknown)\n"); 2498 1.92.2.4 jdolecek } 2499 1.92.2.4 jdolecek 2500 1.92.2.4 jdolecek /* 2501 1.92.2.4 jdolecek * And then, print the detail of each capability registers 2502 1.92.2.4 jdolecek * in capability value's order. 2503 1.92.2.4 jdolecek */ 2504 1.92.2.4 jdolecek for (i = 0; i < __arraycount(pci_captab); i++) { 2505 1.92.2.4 jdolecek if (foundtable[i] == false) 2506 1.92.2.4 jdolecek continue; 2507 1.92.2.4 jdolecek 2508 1.92.2.4 jdolecek /* 2509 1.92.2.4 jdolecek * The type was found. Search capability list again and 2510 1.92.2.4 jdolecek * print all capabilities that the capabiliy type is 2511 1.92.2.4 jdolecek * the same. This is required because some capabilities 2512 1.92.2.4 jdolecek * appear multiple times (e.g. HyperTransport capability). 2513 1.92.2.4 jdolecek */ 2514 1.92.2.4 jdolecek #if 0 2515 1.92.2.4 jdolecek if (pci_conf_find_cap(regs, capoff, i, &off)) { 2516 1.92.2.4 jdolecek rval = regs[o2i(off)]; 2517 1.92.2.4 jdolecek if (pci_captab[i].printfunc != NULL) 2518 1.92.2.4 jdolecek pci_captab[i].printfunc(regs, off); 2519 1.92.2.4 jdolecek } 2520 1.92.2.4 jdolecek #else 2521 1.92.2.4 jdolecek for (off = PCI_CAPLIST_PTR(regs[o2i(capoff)]); 2522 1.92.2.4 jdolecek off != 0; off = PCI_CAPLIST_NEXT(regs[o2i(off)])) { 2523 1.92.2.4 jdolecek rval = regs[o2i(off)]; 2524 1.92.2.4 jdolecek if ((PCI_CAPLIST_CAP(rval) == i) 2525 1.92.2.4 jdolecek && (pci_captab[i].printfunc != NULL)) 2526 1.92.2.4 jdolecek pci_captab[i].printfunc(regs, off); 2527 1.92.2.4 jdolecek } 2528 1.92.2.4 jdolecek #endif 2529 1.92.2.4 jdolecek } 2530 1.92.2.4 jdolecek } 2531 1.92.2.4 jdolecek 2532 1.92.2.4 jdolecek /* Extended Capability */ 2533 1.92.2.4 jdolecek 2534 1.92.2.4 jdolecek static void 2535 1.92.2.4 jdolecek pci_conf_print_aer_cap_uc(pcireg_t reg) 2536 1.92.2.4 jdolecek { 2537 1.92.2.4 jdolecek 2538 1.92.2.4 jdolecek onoff("Undefined", reg, PCI_AER_UC_UNDEFINED); 2539 1.92.2.4 jdolecek onoff("Data Link Protocol Error", reg, PCI_AER_UC_DL_PROTOCOL_ERROR); 2540 1.92.2.4 jdolecek onoff("Surprise Down Error", reg, PCI_AER_UC_SURPRISE_DOWN_ERROR); 2541 1.92.2.4 jdolecek onoff("Poisoned TLP Received", reg, PCI_AER_UC_POISONED_TLP); 2542 1.92.2.4 jdolecek onoff("Flow Control Protocol Error", reg, PCI_AER_UC_FC_PROTOCOL_ERROR); 2543 1.92.2.4 jdolecek onoff("Completion Timeout", reg, PCI_AER_UC_COMPLETION_TIMEOUT); 2544 1.92.2.4 jdolecek onoff("Completer Abort", reg, PCI_AER_UC_COMPLETER_ABORT); 2545 1.92.2.4 jdolecek onoff("Unexpected Completion", reg, PCI_AER_UC_UNEXPECTED_COMPLETION); 2546 1.92.2.4 jdolecek onoff("Receiver Overflow", reg, PCI_AER_UC_RECEIVER_OVERFLOW); 2547 1.92.2.4 jdolecek onoff("Malformed TLP", reg, PCI_AER_UC_MALFORMED_TLP); 2548 1.92.2.4 jdolecek onoff("ECRC Error", reg, PCI_AER_UC_ECRC_ERROR); 2549 1.92.2.4 jdolecek onoff("Unsupported Request Error", reg, 2550 1.92.2.4 jdolecek PCI_AER_UC_UNSUPPORTED_REQUEST_ERROR); 2551 1.92.2.4 jdolecek onoff("ACS Violation", reg, PCI_AER_UC_ACS_VIOLATION); 2552 1.92.2.4 jdolecek onoff("Uncorrectable Internal Error", reg, PCI_AER_UC_INTERNAL_ERROR); 2553 1.92.2.4 jdolecek onoff("MC Blocked TLP", reg, PCI_AER_UC_MC_BLOCKED_TLP); 2554 1.92.2.4 jdolecek onoff("AtomicOp Egress BLK", reg, PCI_AER_UC_ATOMIC_OP_EGRESS_BLOCKED); 2555 1.92.2.4 jdolecek onoff("TLP Prefix Blocked Error", reg, 2556 1.92.2.4 jdolecek PCI_AER_UC_TLP_PREFIX_BLOCKED_ERROR); 2557 1.92.2.4 jdolecek onoff("Poisoned TLP Egress Blocked", reg, 2558 1.92.2.4 jdolecek PCI_AER_UC_POISONTLP_EGRESS_BLOCKED); 2559 1.92.2.4 jdolecek } 2560 1.92.2.4 jdolecek 2561 1.92.2.4 jdolecek static void 2562 1.92.2.4 jdolecek pci_conf_print_aer_cap_cor(pcireg_t reg) 2563 1.92.2.4 jdolecek { 2564 1.92.2.4 jdolecek 2565 1.92.2.4 jdolecek onoff("Receiver Error", reg, PCI_AER_COR_RECEIVER_ERROR); 2566 1.92.2.4 jdolecek onoff("Bad TLP", reg, PCI_AER_COR_BAD_TLP); 2567 1.92.2.4 jdolecek onoff("Bad DLLP", reg, PCI_AER_COR_BAD_DLLP); 2568 1.92.2.4 jdolecek onoff("REPLAY_NUM Rollover", reg, PCI_AER_COR_REPLAY_NUM_ROLLOVER); 2569 1.92.2.4 jdolecek onoff("Replay Timer Timeout", reg, PCI_AER_COR_REPLAY_TIMER_TIMEOUT); 2570 1.92.2.4 jdolecek onoff("Advisory Non-Fatal Error", reg, PCI_AER_COR_ADVISORY_NF_ERROR); 2571 1.92.2.4 jdolecek onoff("Corrected Internal Error", reg, PCI_AER_COR_INTERNAL_ERROR); 2572 1.92.2.4 jdolecek onoff("Header Log Overflow", reg, PCI_AER_COR_HEADER_LOG_OVERFLOW); 2573 1.92.2.4 jdolecek } 2574 1.92.2.4 jdolecek 2575 1.92.2.4 jdolecek static void 2576 1.92.2.4 jdolecek pci_conf_print_aer_cap_control(pcireg_t reg, bool *tlp_prefix_log) 2577 1.92.2.4 jdolecek { 2578 1.92.2.4 jdolecek 2579 1.92.2.4 jdolecek printf(" First Error Pointer: 0x%04x\n", 2580 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_AER_FIRST_ERROR_PTR)); 2581 1.92.2.4 jdolecek onoff("ECRC Generation Capable", reg, PCI_AER_ECRC_GEN_CAPABLE); 2582 1.92.2.4 jdolecek onoff("ECRC Generation Enable", reg, PCI_AER_ECRC_GEN_ENABLE); 2583 1.92.2.4 jdolecek onoff("ECRC Check Capable", reg, PCI_AER_ECRC_CHECK_CAPABLE); 2584 1.92.2.4 jdolecek onoff("ECRC Check Enable", reg, PCI_AER_ECRC_CHECK_ENABLE); 2585 1.92.2.4 jdolecek onoff("Multiple Header Recording Capable", reg, 2586 1.92.2.4 jdolecek PCI_AER_MULT_HDR_CAPABLE); 2587 1.92.2.4 jdolecek onoff("Multiple Header Recording Enable", reg,PCI_AER_MULT_HDR_ENABLE); 2588 1.92.2.4 jdolecek onoff("Completion Timeout Prefix/Header Log Capable", reg, 2589 1.92.2.4 jdolecek PCI_AER_COMPTOUTPRFXHDRLOG_CAP); 2590 1.92.2.4 jdolecek 2591 1.92.2.4 jdolecek /* This bit is RsvdP if the End-End TLP Prefix Supported bit is Clear */ 2592 1.92.2.4 jdolecek if (!tlp_prefix_log) 2593 1.92.2.4 jdolecek return; 2594 1.92.2.4 jdolecek onoff("TLP Prefix Log Present", reg, PCI_AER_TLP_PREFIX_LOG_PRESENT); 2595 1.92.2.4 jdolecek *tlp_prefix_log = (reg & PCI_AER_TLP_PREFIX_LOG_PRESENT) ? true : false; 2596 1.92.2.4 jdolecek } 2597 1.92.2.4 jdolecek 2598 1.92.2.4 jdolecek static void 2599 1.92.2.4 jdolecek pci_conf_print_aer_cap_rooterr_cmd(pcireg_t reg) 2600 1.92.2.4 jdolecek { 2601 1.92.2.4 jdolecek 2602 1.92.2.4 jdolecek onoff("Correctable Error Reporting Enable", reg, 2603 1.92.2.4 jdolecek PCI_AER_ROOTERR_COR_ENABLE); 2604 1.92.2.4 jdolecek onoff("Non-Fatal Error Reporting Enable", reg, 2605 1.92.2.4 jdolecek PCI_AER_ROOTERR_NF_ENABLE); 2606 1.92.2.4 jdolecek onoff("Fatal Error Reporting Enable", reg, PCI_AER_ROOTERR_F_ENABLE); 2607 1.92.2.4 jdolecek } 2608 1.92.2.4 jdolecek 2609 1.92.2.4 jdolecek static void 2610 1.92.2.4 jdolecek pci_conf_print_aer_cap_rooterr_status(pcireg_t reg) 2611 1.92.2.4 jdolecek { 2612 1.92.2.4 jdolecek 2613 1.92.2.4 jdolecek onoff("ERR_COR Received", reg, PCI_AER_ROOTERR_COR_ERR); 2614 1.92.2.4 jdolecek onoff("Multiple ERR_COR Received", reg, PCI_AER_ROOTERR_MULTI_COR_ERR); 2615 1.92.2.4 jdolecek onoff("ERR_FATAL/NONFATAL_ERR Received", reg, PCI_AER_ROOTERR_UC_ERR); 2616 1.92.2.4 jdolecek onoff("Multiple ERR_FATAL/NONFATAL_ERR Received", reg, 2617 1.92.2.4 jdolecek PCI_AER_ROOTERR_MULTI_UC_ERR); 2618 1.92.2.4 jdolecek onoff("First Uncorrectable Fatal", reg,PCI_AER_ROOTERR_FIRST_UC_FATAL); 2619 1.92.2.4 jdolecek onoff("Non-Fatal Error Messages Received", reg,PCI_AER_ROOTERR_NF_ERR); 2620 1.92.2.4 jdolecek onoff("Fatal Error Messages Received", reg, PCI_AER_ROOTERR_F_ERR); 2621 1.92.2.4 jdolecek printf(" Advanced Error Interrupt Message Number: 0x%02x\n", 2622 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_AER_ROOTERR_INT_MESSAGE)); 2623 1.92.2.4 jdolecek } 2624 1.92.2.4 jdolecek 2625 1.92.2.4 jdolecek static void 2626 1.92.2.4 jdolecek pci_conf_print_aer_cap_errsrc_id(pcireg_t reg) 2627 1.92.2.4 jdolecek { 2628 1.92.2.4 jdolecek 2629 1.92.2.4 jdolecek printf(" Correctable Source ID: 0x%04x\n", 2630 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_AER_ERRSRC_ID_ERR_COR)); 2631 1.92.2.4 jdolecek printf(" ERR_FATAL/NONFATAL Source ID: 0x%04x\n", 2632 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_AER_ERRSRC_ID_ERR_UC)); 2633 1.92.2.4 jdolecek } 2634 1.92.2.4 jdolecek 2635 1.92.2.4 jdolecek static void 2636 1.92.2.4 jdolecek pci_conf_print_aer_cap(const pcireg_t *regs, int capoff, int extcapoff) 2637 1.92.2.4 jdolecek { 2638 1.92.2.4 jdolecek pcireg_t reg; 2639 1.92.2.4 jdolecek int pcie_capoff; 2640 1.92.2.4 jdolecek int pcie_devtype = -1; 2641 1.92.2.4 jdolecek bool tlp_prefix_log = false; 2642 1.92.2.4 jdolecek 2643 1.92.2.4 jdolecek if (pci_conf_find_cap(regs, capoff, PCI_CAP_PCIEXPRESS, &pcie_capoff)) { 2644 1.92.2.4 jdolecek reg = regs[o2i(pcie_capoff)]; 2645 1.92.2.4 jdolecek pcie_devtype = PCIE_XCAP_TYPE(reg); 2646 1.92.2.4 jdolecek /* PCIe DW9 to DW14 is for PCIe 2.0 and newer */ 2647 1.92.2.4 jdolecek if (__SHIFTOUT(reg, PCIE_XCAP_VER_MASK) >= 2) { 2648 1.92.2.4 jdolecek reg = regs[o2i(pcie_capoff + PCIE_DCAP2)]; 2649 1.92.2.4 jdolecek /* End-End TLP Prefix Supported */ 2650 1.92.2.4 jdolecek if (reg & PCIE_DCAP2_EETLP_PREF) { 2651 1.92.2.4 jdolecek tlp_prefix_log = true; 2652 1.92.2.4 jdolecek } 2653 1.92.2.4 jdolecek } 2654 1.92.2.4 jdolecek } 2655 1.92.2.4 jdolecek 2656 1.92.2.4 jdolecek printf("\n Advanced Error Reporting Register\n"); 2657 1.92.2.4 jdolecek 2658 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_UC_STATUS)]; 2659 1.92.2.4 jdolecek printf(" Uncorrectable Error Status register: 0x%08x\n", reg); 2660 1.92.2.4 jdolecek pci_conf_print_aer_cap_uc(reg); 2661 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_UC_MASK)]; 2662 1.92.2.4 jdolecek printf(" Uncorrectable Error Mask register: 0x%08x\n", reg); 2663 1.92.2.4 jdolecek pci_conf_print_aer_cap_uc(reg); 2664 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_UC_SEVERITY)]; 2665 1.92.2.4 jdolecek printf(" Uncorrectable Error Severity register: 0x%08x\n", reg); 2666 1.92.2.4 jdolecek pci_conf_print_aer_cap_uc(reg); 2667 1.92.2.4 jdolecek 2668 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_COR_STATUS)]; 2669 1.92.2.4 jdolecek printf(" Correctable Error Status register: 0x%08x\n", reg); 2670 1.92.2.4 jdolecek pci_conf_print_aer_cap_cor(reg); 2671 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_COR_MASK)]; 2672 1.92.2.4 jdolecek printf(" Correctable Error Mask register: 0x%08x\n", reg); 2673 1.92.2.4 jdolecek pci_conf_print_aer_cap_cor(reg); 2674 1.92.2.4 jdolecek 2675 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_CAP_CONTROL)]; 2676 1.92.2.4 jdolecek printf(" Advanced Error Capabilities and Control register: 0x%08x\n", 2677 1.92.2.4 jdolecek reg); 2678 1.92.2.4 jdolecek pci_conf_print_aer_cap_control(reg, &tlp_prefix_log); 2679 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_HEADER_LOG)]; 2680 1.92.2.4 jdolecek printf(" Header Log register:\n"); 2681 1.92.2.4 jdolecek pci_conf_print_regs(regs, extcapoff + PCI_AER_HEADER_LOG, 2682 1.92.2.4 jdolecek extcapoff + PCI_AER_ROOTERR_CMD); 2683 1.92.2.4 jdolecek 2684 1.92.2.4 jdolecek switch (pcie_devtype) { 2685 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_ROOT: /* Root Port of PCI Express Root Complex */ 2686 1.92.2.4 jdolecek case PCIE_XCAP_TYPE_ROOT_EVNTC: /* Root Complex Event Collector */ 2687 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_ROOTERR_CMD)]; 2688 1.92.2.4 jdolecek printf(" Root Error Command register: 0x%08x\n", reg); 2689 1.92.2.4 jdolecek pci_conf_print_aer_cap_rooterr_cmd(reg); 2690 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_ROOTERR_STATUS)]; 2691 1.92.2.4 jdolecek printf(" Root Error Status register: 0x%08x\n", reg); 2692 1.92.2.4 jdolecek pci_conf_print_aer_cap_rooterr_status(reg); 2693 1.92.2.4 jdolecek 2694 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_ERRSRC_ID)]; 2695 1.92.2.4 jdolecek printf(" Error Source Identification register: 0x%08x\n", 2696 1.92.2.4 jdolecek reg); 2697 1.92.2.4 jdolecek pci_conf_print_aer_cap_errsrc_id(reg); 2698 1.92.2.4 jdolecek break; 2699 1.92.2.4 jdolecek } 2700 1.92.2.4 jdolecek 2701 1.92.2.4 jdolecek if (tlp_prefix_log) { 2702 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_AER_TLP_PREFIX_LOG)]; 2703 1.92.2.4 jdolecek printf(" TLP Prefix Log register: 0x%08x\n", reg); 2704 1.92.2.4 jdolecek } 2705 1.92.2.4 jdolecek } 2706 1.92.2.4 jdolecek 2707 1.92.2.4 jdolecek static void 2708 1.92.2.4 jdolecek pci_conf_print_vc_cap_arbtab(const pcireg_t *regs, int off, const char *name, 2709 1.92.2.4 jdolecek pcireg_t parbsel, int parbsize) 2710 1.92.2.4 jdolecek { 2711 1.92.2.4 jdolecek pcireg_t reg; 2712 1.92.2.4 jdolecek int num = 16 << parbsel; 2713 1.92.2.4 jdolecek int num_per_reg = sizeof(pcireg_t) / parbsize; 2714 1.92.2.4 jdolecek int i, j; 2715 1.92.2.4 jdolecek 2716 1.92.2.4 jdolecek /* First, dump the table */ 2717 1.92.2.4 jdolecek for (i = 0; i < num; i += num_per_reg) { 2718 1.92.2.4 jdolecek reg = regs[o2i(off + i / num_per_reg)]; 2719 1.92.2.4 jdolecek printf(" %s Arbitration Table: 0x%08x\n", name, reg); 2720 1.92.2.4 jdolecek } 2721 1.92.2.4 jdolecek /* And then, decode each entry */ 2722 1.92.2.4 jdolecek for (i = 0; i < num; i += num_per_reg) { 2723 1.92.2.4 jdolecek reg = regs[o2i(off + i / num_per_reg)]; 2724 1.92.2.4 jdolecek for (j = 0; j < num_per_reg; j++) 2725 1.92.2.4 jdolecek printf(" Phase[%d]: %d\n", j, reg); 2726 1.92.2.4 jdolecek } 2727 1.92.2.4 jdolecek } 2728 1.92.2.4 jdolecek 2729 1.92.2.4 jdolecek static void 2730 1.92.2.4 jdolecek pci_conf_print_vc_cap(const pcireg_t *regs, int capoff, int extcapoff) 2731 1.92.2.4 jdolecek { 2732 1.92.2.4 jdolecek pcireg_t reg, n; 2733 1.92.2.4 jdolecek int parbtab, parbsize; 2734 1.92.2.4 jdolecek pcireg_t parbsel; 2735 1.92.2.4 jdolecek int varbtab, varbsize; 2736 1.92.2.4 jdolecek pcireg_t varbsel; 2737 1.92.2.4 jdolecek int i, count; 2738 1.92.2.4 jdolecek 2739 1.92.2.4 jdolecek printf("\n Virtual Channel Register\n"); 2740 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_VC_CAP1)]; 2741 1.92.2.4 jdolecek printf(" Port VC Capability register 1: 0x%08x\n", reg); 2742 1.92.2.4 jdolecek count = __SHIFTOUT(reg, PCI_VC_CAP1_EXT_COUNT); 2743 1.92.2.4 jdolecek printf(" Extended VC Count: %d\n", count); 2744 1.92.2.4 jdolecek n = __SHIFTOUT(reg, PCI_VC_CAP1_LOWPRI_EXT_COUNT); 2745 1.92.2.4 jdolecek printf(" Low Priority Extended VC Count: %u\n", n); 2746 1.92.2.4 jdolecek n = __SHIFTOUT(reg, PCI_VC_CAP1_REFCLK); 2747 1.92.2.4 jdolecek printf(" Reference Clock: %s\n", 2748 1.92.2.4 jdolecek (n == PCI_VC_CAP1_REFCLK_100NS) ? "100ns" : "unknown"); 2749 1.92.2.4 jdolecek parbsize = 1 << __SHIFTOUT(reg, PCI_VC_CAP1_PORT_ARB_TABLE_SIZE); 2750 1.92.2.4 jdolecek printf(" Port Arbitration Table Entry Size: %dbit\n", parbsize); 2751 1.92.2.4 jdolecek 2752 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_VC_CAP2)]; 2753 1.92.2.4 jdolecek printf(" Port VC Capability register 2: 0x%08x\n", reg); 2754 1.92.2.4 jdolecek onoff("Hardware fixed arbitration scheme", 2755 1.92.2.4 jdolecek reg, PCI_VC_CAP2_ARB_CAP_HW_FIXED_SCHEME); 2756 1.92.2.4 jdolecek onoff("WRR arbitration with 32 phases", 2757 1.92.2.4 jdolecek reg, PCI_VC_CAP2_ARB_CAP_WRR_32); 2758 1.92.2.4 jdolecek onoff("WRR arbitration with 64 phases", 2759 1.92.2.4 jdolecek reg, PCI_VC_CAP2_ARB_CAP_WRR_64); 2760 1.92.2.4 jdolecek onoff("WRR arbitration with 128 phases", 2761 1.92.2.4 jdolecek reg, PCI_VC_CAP2_ARB_CAP_WRR_128); 2762 1.92.2.4 jdolecek varbtab = __SHIFTOUT(reg, PCI_VC_CAP2_ARB_TABLE_OFFSET); 2763 1.92.2.4 jdolecek printf(" VC Arbitration Table Offset: 0x%x\n", varbtab); 2764 1.92.2.4 jdolecek 2765 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_VC_CONTROL)] & 0xffff; 2766 1.92.2.4 jdolecek printf(" Port VC Control register: 0x%04x\n", reg); 2767 1.92.2.4 jdolecek varbsel = __SHIFTOUT(reg, PCI_VC_CONTROL_VC_ARB_SELECT); 2768 1.92.2.4 jdolecek printf(" VC Arbitration Select: 0x%x\n", varbsel); 2769 1.92.2.4 jdolecek 2770 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_VC_STATUS)] >> 16; 2771 1.92.2.4 jdolecek printf(" Port VC Status register: 0x%04x\n", reg); 2772 1.92.2.4 jdolecek onoff("VC Arbitration Table Status", 2773 1.92.2.4 jdolecek reg, PCI_VC_STATUS_LOAD_VC_ARB_TABLE); 2774 1.92.2.4 jdolecek 2775 1.92.2.4 jdolecek for (i = 0; i < count + 1; i++) { 2776 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_VC_RESOURCE_CAP(i))]; 2777 1.92.2.4 jdolecek printf(" VC number %d\n", i); 2778 1.92.2.4 jdolecek printf(" VC Resource Capability Register: 0x%08x\n", reg); 2779 1.92.2.4 jdolecek onoff(" Non-configurable Hardware fixed arbitration scheme", 2780 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_CAP_PORT_ARB_CAP_HW_FIXED_SCHEME); 2781 1.92.2.4 jdolecek onoff(" WRR arbitration with 32 phases", 2782 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_CAP_PORT_ARB_CAP_WRR_32); 2783 1.92.2.4 jdolecek onoff(" WRR arbitration with 64 phases", 2784 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_CAP_PORT_ARB_CAP_WRR_64); 2785 1.92.2.4 jdolecek onoff(" WRR arbitration with 128 phases", 2786 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_CAP_PORT_ARB_CAP_WRR_128); 2787 1.92.2.4 jdolecek onoff(" Time-based WRR arbitration with 128 phases", 2788 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_CAP_PORT_ARB_CAP_TWRR_128); 2789 1.92.2.4 jdolecek onoff(" WRR arbitration with 256 phases", 2790 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_CAP_PORT_ARB_CAP_WRR_256); 2791 1.92.2.4 jdolecek onoff(" Advanced Packet Switching", 2792 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_CAP_ADV_PKT_SWITCH); 2793 1.92.2.4 jdolecek onoff(" Reject Snoop Transaction", 2794 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_CAP_REJCT_SNOOP_TRANS); 2795 1.92.2.4 jdolecek n = __SHIFTOUT(reg, PCI_VC_RESOURCE_CAP_MAX_TIME_SLOTS) + 1; 2796 1.92.2.4 jdolecek printf(" Maximum Time Slots: %d\n", n); 2797 1.92.2.4 jdolecek parbtab = reg >> PCI_VC_RESOURCE_CAP_PORT_ARB_TABLE_OFFSET_S; 2798 1.92.2.4 jdolecek printf(" Port Arbitration Table offset: 0x%02x\n", 2799 1.92.2.4 jdolecek parbtab); 2800 1.92.2.4 jdolecek 2801 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_VC_RESOURCE_CTL(i))]; 2802 1.92.2.4 jdolecek printf(" VC Resource Control Register: 0x%08x\n", reg); 2803 1.92.2.4 jdolecek printf(" TC/VC Map: 0x%02x\n", 2804 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_VC_RESOURCE_CTL_TCVC_MAP)); 2805 1.92.2.4 jdolecek /* 2806 1.92.2.4 jdolecek * The load Port Arbitration Table bit is used to update 2807 1.92.2.4 jdolecek * the Port Arbitration logic and it's always 0 on read, so 2808 1.92.2.4 jdolecek * we don't print it. 2809 1.92.2.4 jdolecek */ 2810 1.92.2.4 jdolecek parbsel = __SHIFTOUT(reg, PCI_VC_RESOURCE_CTL_PORT_ARB_SELECT); 2811 1.92.2.4 jdolecek printf(" Port Arbitration Select: 0x%x\n", parbsel); 2812 1.92.2.4 jdolecek n = __SHIFTOUT(reg, PCI_VC_RESOURCE_CTL_VC_ID); 2813 1.92.2.4 jdolecek printf(" VC ID: %d\n", n); 2814 1.92.2.4 jdolecek onoff(" VC Enable", reg, PCI_VC_RESOURCE_CTL_VC_ENABLE); 2815 1.92.2.4 jdolecek 2816 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_VC_RESOURCE_STA(i))] >> 16; 2817 1.92.2.4 jdolecek printf(" VC Resource Status Register: 0x%08x\n", reg); 2818 1.92.2.4 jdolecek onoff(" Port Arbitration Table Status", 2819 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_STA_PORT_ARB_TABLE); 2820 1.92.2.4 jdolecek onoff(" VC Negotiation Pending", 2821 1.92.2.4 jdolecek reg, PCI_VC_RESOURCE_STA_VC_NEG_PENDING); 2822 1.92.2.4 jdolecek 2823 1.92.2.4 jdolecek if ((parbtab != 0) && (parbsel != 0)) 2824 1.92.2.4 jdolecek pci_conf_print_vc_cap_arbtab(regs, extcapoff + parbtab, 2825 1.92.2.4 jdolecek "Port", parbsel, parbsize); 2826 1.92.2.4 jdolecek } 2827 1.92.2.4 jdolecek 2828 1.92.2.4 jdolecek varbsize = 8; 2829 1.92.2.4 jdolecek if ((varbtab != 0) && (varbsel != 0)) 2830 1.92.2.4 jdolecek pci_conf_print_vc_cap_arbtab(regs, extcapoff + varbtab, 2831 1.92.2.4 jdolecek " VC", varbsel, varbsize); 2832 1.92.2.4 jdolecek } 2833 1.92.2.4 jdolecek 2834 1.92.2.4 jdolecek /* 2835 1.92.2.4 jdolecek * Print Power limit. This encoding is the same among the following registers: 2836 1.92.2.4 jdolecek * - The Captured Slot Power Limit in the PCIe Device Capability Register. 2837 1.92.2.4 jdolecek * - The Slot Power Limit in the PCIe Slot Capability Register. 2838 1.92.2.4 jdolecek * - The Base Power in the Data register of Power Budgeting capability. 2839 1.92.2.4 jdolecek */ 2840 1.92.2.4 jdolecek static void 2841 1.92.2.4 jdolecek pci_conf_print_pcie_power(uint8_t base, unsigned int scale) 2842 1.92.2.4 jdolecek { 2843 1.92.2.4 jdolecek unsigned int sdiv = 1; 2844 1.92.2.4 jdolecek 2845 1.92.2.4 jdolecek if ((scale == 0) && (base > 0xef)) { 2846 1.92.2.4 jdolecek const char *s; 2847 1.92.2.4 jdolecek 2848 1.92.2.4 jdolecek switch (base) { 2849 1.92.2.4 jdolecek case 0xf0: 2850 1.92.2.4 jdolecek s = "239W < x <= 250W"; 2851 1.92.2.4 jdolecek break; 2852 1.92.2.4 jdolecek case 0xf1: 2853 1.92.2.4 jdolecek s = "250W < x <= 275W"; 2854 1.92.2.4 jdolecek break; 2855 1.92.2.4 jdolecek case 0xf2: 2856 1.92.2.4 jdolecek s = "275W < x <= 300W"; 2857 1.92.2.4 jdolecek break; 2858 1.92.2.4 jdolecek default: 2859 1.92.2.4 jdolecek s = "reserved for above 300W"; 2860 1.92.2.4 jdolecek break; 2861 1.92.2.4 jdolecek } 2862 1.92.2.4 jdolecek printf("%s\n", s); 2863 1.92.2.4 jdolecek return; 2864 1.92.2.4 jdolecek } 2865 1.92.2.4 jdolecek 2866 1.92.2.4 jdolecek for (unsigned int i = scale; i > 0; i--) 2867 1.92.2.4 jdolecek sdiv *= 10; 2868 1.92.2.4 jdolecek 2869 1.92.2.4 jdolecek printf("%u", base / sdiv); 2870 1.92.2.4 jdolecek 2871 1.92.2.4 jdolecek if (scale != 0) { 2872 1.92.2.4 jdolecek printf(".%u", base % sdiv); 2873 1.92.2.4 jdolecek } 2874 1.92.2.4 jdolecek printf ("W\n"); 2875 1.92.2.4 jdolecek return; 2876 1.92.2.4 jdolecek } 2877 1.92.2.4 jdolecek 2878 1.92.2.4 jdolecek static const char * 2879 1.92.2.4 jdolecek pci_conf_print_pwrbdgt_type(uint8_t reg) 2880 1.92.2.4 jdolecek { 2881 1.92.2.4 jdolecek 2882 1.92.2.4 jdolecek switch (reg) { 2883 1.92.2.4 jdolecek case 0x00: 2884 1.92.2.4 jdolecek return "PME Aux"; 2885 1.92.2.4 jdolecek case 0x01: 2886 1.92.2.4 jdolecek return "Auxilary"; 2887 1.92.2.4 jdolecek case 0x02: 2888 1.92.2.4 jdolecek return "Idle"; 2889 1.92.2.4 jdolecek case 0x03: 2890 1.92.2.4 jdolecek return "Sustained"; 2891 1.92.2.4 jdolecek case 0x04: 2892 1.92.2.4 jdolecek return "Sustained (Emergency Power Reduction)"; 2893 1.92.2.4 jdolecek case 0x05: 2894 1.92.2.4 jdolecek return "Maximum (Emergency Power Reduction)"; 2895 1.92.2.4 jdolecek case 0x07: 2896 1.92.2.4 jdolecek return "Maximum"; 2897 1.92.2.4 jdolecek default: 2898 1.92.2.4 jdolecek return "Unknown"; 2899 1.92.2.4 jdolecek } 2900 1.92.2.4 jdolecek } 2901 1.92.2.4 jdolecek 2902 1.92.2.4 jdolecek static const char * 2903 1.92.2.4 jdolecek pci_conf_print_pwrbdgt_pwrrail(uint8_t reg) 2904 1.92.2.4 jdolecek { 2905 1.92.2.4 jdolecek 2906 1.92.2.4 jdolecek switch (reg) { 2907 1.92.2.4 jdolecek case 0x00: 2908 1.92.2.4 jdolecek return "Power(12V)"; 2909 1.92.2.4 jdolecek case 0x01: 2910 1.92.2.4 jdolecek return "Power(3.3V)"; 2911 1.92.2.4 jdolecek case 0x02: 2912 1.92.2.4 jdolecek return "Power(1.5V or 1.8V)"; 2913 1.92.2.4 jdolecek case 0x07: 2914 1.92.2.4 jdolecek return "Thermal"; 2915 1.92.2.4 jdolecek default: 2916 1.92.2.4 jdolecek return "Unknown"; 2917 1.92.2.4 jdolecek } 2918 1.92.2.4 jdolecek } 2919 1.92.2.4 jdolecek 2920 1.92.2.4 jdolecek static void 2921 1.92.2.4 jdolecek pci_conf_print_pwrbdgt_cap(const pcireg_t *regs, int capoff, int extcapoff) 2922 1.92.2.4 jdolecek { 2923 1.92.2.4 jdolecek pcireg_t reg; 2924 1.92.2.4 jdolecek 2925 1.92.2.4 jdolecek printf("\n Power Budgeting\n"); 2926 1.92.2.4 jdolecek 2927 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PWRBDGT_DSEL)]; 2928 1.92.2.4 jdolecek printf(" Data Select register: 0x%08x\n", reg); 2929 1.92.2.4 jdolecek 2930 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PWRBDGT_DATA)]; 2931 1.92.2.4 jdolecek printf(" Data register: 0x%08x\n", reg); 2932 1.92.2.4 jdolecek printf(" Base Power: "); 2933 1.92.2.4 jdolecek pci_conf_print_pcie_power( 2934 1.92.2.4 jdolecek __SHIFTOUT(reg, PCI_PWRBDGT_DATA_BASEPWR), 2935 1.92.2.4 jdolecek __SHIFTOUT(reg, PCI_PWRBDGT_DATA_SCALE)); 2936 1.92.2.4 jdolecek printf(" PM Sub State: 0x%hhx\n", 2937 1.92.2.4 jdolecek (uint8_t)__SHIFTOUT(reg, PCI_PWRBDGT_PM_SUBSTAT)); 2938 1.92.2.4 jdolecek printf(" PM State: D%u\n", 2939 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_PWRBDGT_PM_STAT)); 2940 1.92.2.4 jdolecek printf(" Type: %s\n", 2941 1.92.2.4 jdolecek pci_conf_print_pwrbdgt_type( 2942 1.92.2.4 jdolecek (uint8_t)(__SHIFTOUT(reg, PCI_PWRBDGT_TYPE)))); 2943 1.92.2.4 jdolecek printf(" Power Rail: %s\n", 2944 1.92.2.4 jdolecek pci_conf_print_pwrbdgt_pwrrail( 2945 1.92.2.4 jdolecek (uint8_t)(__SHIFTOUT(reg, PCI_PWRBDGT_PWRRAIL)))); 2946 1.92.2.4 jdolecek 2947 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PWRBDGT_CAP)]; 2948 1.92.2.4 jdolecek printf(" Power Budget Capability register: 0x%08x\n", reg); 2949 1.92.2.4 jdolecek onoff("System Allocated", 2950 1.92.2.4 jdolecek reg, PCI_PWRBDGT_CAP_SYSALLOC); 2951 1.92.2.4 jdolecek } 2952 1.92.2.4 jdolecek 2953 1.92.2.4 jdolecek static const char * 2954 1.92.2.4 jdolecek pci_conf_print_rclink_dcl_cap_elmtype(unsigned char type) 2955 1.92.2.4 jdolecek { 2956 1.92.2.4 jdolecek 2957 1.92.2.4 jdolecek switch (type) { 2958 1.92.2.4 jdolecek case 0x00: 2959 1.92.2.4 jdolecek return "Configuration Space Element"; 2960 1.92.2.4 jdolecek case 0x01: 2961 1.92.2.4 jdolecek return "System Egress Port or internal sink (memory)"; 2962 1.92.2.4 jdolecek case 0x02: 2963 1.92.2.4 jdolecek return "Internal Root Complex Link"; 2964 1.92.2.4 jdolecek default: 2965 1.92.2.4 jdolecek return "Unknown"; 2966 1.92.2.4 jdolecek } 2967 1.92.2.4 jdolecek } 2968 1.92.2.4 jdolecek 2969 1.92.2.4 jdolecek static void 2970 1.92.2.4 jdolecek pci_conf_print_rclink_dcl_cap(const pcireg_t *regs, int capoff, int extcapoff) 2971 1.92.2.4 jdolecek { 2972 1.92.2.4 jdolecek pcireg_t reg; 2973 1.92.2.4 jdolecek unsigned char nent, linktype; 2974 1.92.2.4 jdolecek int i; 2975 1.92.2.4 jdolecek 2976 1.92.2.4 jdolecek printf("\n Root Complex Link Declaration\n"); 2977 1.92.2.4 jdolecek 2978 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_RCLINK_DCL_ESDESC)]; 2979 1.92.2.4 jdolecek printf(" Element Self Description Register: 0x%08x\n", reg); 2980 1.92.2.4 jdolecek printf(" Element Type: %s\n", 2981 1.92.2.4 jdolecek pci_conf_print_rclink_dcl_cap_elmtype((unsigned char)reg)); 2982 1.92.2.4 jdolecek nent = __SHIFTOUT(reg, PCI_RCLINK_DCL_ESDESC_NUMLINKENT); 2983 1.92.2.4 jdolecek printf(" Number of Link Entries: %hhu\n", nent); 2984 1.92.2.4 jdolecek printf(" Component ID: %hhu\n", 2985 1.92.2.4 jdolecek (uint8_t)__SHIFTOUT(reg, PCI_RCLINK_DCL_ESDESC_COMPID)); 2986 1.92.2.4 jdolecek printf(" Port Number: %hhu\n", 2987 1.92.2.4 jdolecek (uint8_t)__SHIFTOUT(reg, PCI_RCLINK_DCL_ESDESC_PORTNUM)); 2988 1.92.2.4 jdolecek for (i = 0; i < nent; i++) { 2989 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_RCLINK_DCL_LINKDESC(i))]; 2990 1.92.2.4 jdolecek printf(" Link Entry %d:\n", i + 1); 2991 1.92.2.4 jdolecek printf(" Link Description Register: 0x%08x\n", reg); 2992 1.92.2.4 jdolecek onoff(" Link Valid", reg,PCI_RCLINK_DCL_LINKDESC_LVALID); 2993 1.92.2.4 jdolecek linktype = reg & PCI_RCLINK_DCL_LINKDESC_LTYPE; 2994 1.92.2.4 jdolecek onoff2(" Link Type", reg, PCI_RCLINK_DCL_LINKDESC_LTYPE, 2995 1.92.2.4 jdolecek "Configuration Space", "Memory-Mapped Space"); 2996 1.92.2.4 jdolecek onoff(" Associated RCRB Header", reg, 2997 1.92.2.4 jdolecek PCI_RCLINK_DCL_LINKDESC_ARCRBH); 2998 1.92.2.4 jdolecek printf(" Target Component ID: %hhu\n", 2999 1.92.2.4 jdolecek (unsigned char)__SHIFTOUT(reg, 3000 1.92.2.4 jdolecek PCI_RCLINK_DCL_LINKDESC_TCOMPID)); 3001 1.92.2.4 jdolecek printf(" Target Port Number: %hhu\n", 3002 1.92.2.4 jdolecek (unsigned char)__SHIFTOUT(reg, 3003 1.92.2.4 jdolecek PCI_RCLINK_DCL_LINKDESC_TPNUM)); 3004 1.92.2.4 jdolecek 3005 1.92.2.4 jdolecek if (linktype == 0) { 3006 1.92.2.4 jdolecek /* Memory-Mapped Space */ 3007 1.92.2.4 jdolecek reg = regs[o2i(extcapoff 3008 1.92.2.4 jdolecek + PCI_RCLINK_DCL_LINKADDR_LT0_LO(i))]; 3009 1.92.2.4 jdolecek printf(" Link Address Low Register: 0x%08x\n", 3010 1.92.2.4 jdolecek reg); 3011 1.92.2.4 jdolecek reg = regs[o2i(extcapoff 3012 1.92.2.4 jdolecek + PCI_RCLINK_DCL_LINKADDR_LT0_HI(i))]; 3013 1.92.2.4 jdolecek printf(" Link Address High Register: 0x%08x\n", 3014 1.92.2.4 jdolecek reg); 3015 1.92.2.4 jdolecek } else { 3016 1.92.2.4 jdolecek unsigned int nb; 3017 1.92.2.4 jdolecek pcireg_t lo, hi; 3018 1.92.2.4 jdolecek 3019 1.92.2.4 jdolecek /* Configuration Space */ 3020 1.92.2.4 jdolecek lo = regs[o2i(extcapoff 3021 1.92.2.4 jdolecek + PCI_RCLINK_DCL_LINKADDR_LT1_LO(i))]; 3022 1.92.2.4 jdolecek printf(" Configuration Space Low Register: " 3023 1.92.2.4 jdolecek "0x%08x\n", lo); 3024 1.92.2.4 jdolecek hi = regs[o2i(extcapoff 3025 1.92.2.4 jdolecek + PCI_RCLINK_DCL_LINKADDR_LT1_HI(i))]; 3026 1.92.2.4 jdolecek printf(" Configuration Space High Register: " 3027 1.92.2.4 jdolecek "0x%08x\n", hi); 3028 1.92.2.4 jdolecek nb = __SHIFTOUT(lo, PCI_RCLINK_DCL_LINKADDR_LT1_N); 3029 1.92.2.4 jdolecek printf(" N: %u\n", nb); 3030 1.92.2.4 jdolecek printf(" Func: %hhu\n", 3031 1.92.2.4 jdolecek (unsigned char)__SHIFTOUT(lo, 3032 1.92.2.4 jdolecek PCI_RCLINK_DCL_LINKADDR_LT1_FUNC)); 3033 1.92.2.4 jdolecek printf(" Dev: %hhu\n", 3034 1.92.2.4 jdolecek (unsigned char)__SHIFTOUT(lo, 3035 1.92.2.4 jdolecek PCI_RCLINK_DCL_LINKADDR_LT1_DEV)); 3036 1.92.2.4 jdolecek printf(" Bus: %hhu\n", 3037 1.92.2.4 jdolecek (unsigned char)__SHIFTOUT(lo, 3038 1.92.2.4 jdolecek PCI_RCLINK_DCL_LINKADDR_LT1_BUS(nb))); 3039 1.92.2.4 jdolecek lo &= PCI_RCLINK_DCL_LINKADDR_LT1_BAL(i); 3040 1.92.2.4 jdolecek printf(" Configuration Space Base Address: " 3041 1.92.2.4 jdolecek "0x%016" PRIx64 "\n", ((uint64_t)hi << 32) + lo); 3042 1.92.2.4 jdolecek } 3043 1.92.2.4 jdolecek } 3044 1.92.2.4 jdolecek } 3045 1.92.2.4 jdolecek 3046 1.92.2.4 jdolecek /* XXX pci_conf_print_rclink_ctl_cap */ 3047 1.92.2.4 jdolecek 3048 1.92.2.4 jdolecek static void 3049 1.92.2.4 jdolecek pci_conf_print_rcec_assoc_cap(const pcireg_t *regs, int capoff, int extcapoff) 3050 1.92.2.4 jdolecek { 3051 1.92.2.4 jdolecek pcireg_t reg; 3052 1.92.2.4 jdolecek 3053 1.92.2.4 jdolecek printf("\n Root Complex Event Collector Association\n"); 3054 1.92.2.4 jdolecek 3055 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_RCEC_ASSOC_ASSOCBITMAP)]; 3056 1.92.2.4 jdolecek printf(" Association Bitmap for Root Complex Integrated Devices:" 3057 1.92.2.4 jdolecek " 0x%08x\n", reg); 3058 1.92.2.4 jdolecek } 3059 1.92.2.4 jdolecek 3060 1.92.2.4 jdolecek /* XXX pci_conf_print_mfvc_cap */ 3061 1.92.2.4 jdolecek /* XXX pci_conf_print_vc2_cap */ 3062 1.92.2.4 jdolecek /* XXX pci_conf_print_rcrb_cap */ 3063 1.92.2.4 jdolecek /* XXX pci_conf_print_vendor_cap */ 3064 1.92.2.4 jdolecek /* XXX pci_conf_print_cac_cap */ 3065 1.92.2.4 jdolecek 3066 1.92.2.4 jdolecek static void 3067 1.92.2.4 jdolecek pci_conf_print_acs_cap(const pcireg_t *regs, int capoff, int extcapoff) 3068 1.92.2.4 jdolecek { 3069 1.92.2.4 jdolecek pcireg_t reg, cap, ctl; 3070 1.92.2.4 jdolecek unsigned int size, i; 3071 1.92.2.4 jdolecek 3072 1.92.2.4 jdolecek printf("\n Access Control Services\n"); 3073 1.92.2.4 jdolecek 3074 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_ACS_CAP)]; 3075 1.92.2.4 jdolecek cap = reg & 0xffff; 3076 1.92.2.4 jdolecek ctl = reg >> 16; 3077 1.92.2.4 jdolecek printf(" ACS Capability register: 0x%08x\n", cap); 3078 1.92.2.4 jdolecek onoff("ACS Source Validation", cap, PCI_ACS_CAP_V); 3079 1.92.2.4 jdolecek onoff("ACS Transaction Blocking", cap, PCI_ACS_CAP_B); 3080 1.92.2.4 jdolecek onoff("ACS P2P Request Redirect", cap, PCI_ACS_CAP_R); 3081 1.92.2.4 jdolecek onoff("ACS P2P Completion Redirect", cap, PCI_ACS_CAP_C); 3082 1.92.2.4 jdolecek onoff("ACS Upstream Forwarding", cap, PCI_ACS_CAP_U); 3083 1.92.2.4 jdolecek onoff("ACS Egress Control", cap, PCI_ACS_CAP_E); 3084 1.92.2.4 jdolecek onoff("ACS Direct Translated P2P", cap, PCI_ACS_CAP_T); 3085 1.92.2.4 jdolecek size = __SHIFTOUT(cap, PCI_ACS_CAP_ECVSIZE); 3086 1.92.2.4 jdolecek if (size == 0) 3087 1.92.2.4 jdolecek size = 256; 3088 1.92.2.4 jdolecek printf(" Egress Control Vector Size: %u\n", size); 3089 1.92.2.4 jdolecek printf(" ACS Control register: 0x%08x\n", ctl); 3090 1.92.2.4 jdolecek onoff("ACS Source Validation Enable", ctl, PCI_ACS_CTL_V); 3091 1.92.2.4 jdolecek onoff("ACS Transaction Blocking Enable", ctl, PCI_ACS_CTL_B); 3092 1.92.2.4 jdolecek onoff("ACS P2P Request Redirect Enable", ctl, PCI_ACS_CTL_R); 3093 1.92.2.4 jdolecek onoff("ACS P2P Completion Redirect Enable", ctl, PCI_ACS_CTL_C); 3094 1.92.2.4 jdolecek onoff("ACS Upstream Forwarding Enable", ctl, PCI_ACS_CTL_U); 3095 1.92.2.4 jdolecek onoff("ACS Egress Control Enable", ctl, PCI_ACS_CTL_E); 3096 1.92.2.4 jdolecek onoff("ACS Direct Translated P2P Enable", ctl, PCI_ACS_CTL_T); 3097 1.92.2.4 jdolecek 3098 1.92.2.4 jdolecek /* 3099 1.92.2.4 jdolecek * If the P2P Egress Control Capability bit is 0, ignore the Egress 3100 1.92.2.4 jdolecek * Control vector. 3101 1.92.2.4 jdolecek */ 3102 1.92.2.4 jdolecek if ((cap & PCI_ACS_CAP_E) == 0) 3103 1.92.2.4 jdolecek return; 3104 1.92.2.4 jdolecek for (i = 0; i < size; i += 32) 3105 1.92.2.4 jdolecek printf(" Egress Control Vector [%u..%u]: 0x%08x\n", i + 31, 3106 1.92.2.4 jdolecek i, regs[o2i(extcapoff + PCI_ACS_ECV + (i / 32) * 4 )]); 3107 1.92.2.4 jdolecek } 3108 1.92.2.4 jdolecek 3109 1.92.2.4 jdolecek static void 3110 1.92.2.4 jdolecek pci_conf_print_ari_cap(const pcireg_t *regs, int capoff, int extcapoff) 3111 1.92.2.4 jdolecek { 3112 1.92.2.4 jdolecek pcireg_t reg, cap, ctl; 3113 1.92.2.4 jdolecek 3114 1.92.2.4 jdolecek printf("\n Alternative Routing-ID Interpretation Register\n"); 3115 1.92.2.4 jdolecek 3116 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_ARI_CAP)]; 3117 1.92.2.4 jdolecek cap = reg & 0xffff; 3118 1.92.2.4 jdolecek ctl = reg >> 16; 3119 1.92.2.4 jdolecek printf(" Capability register: 0x%08x\n", cap); 3120 1.92.2.4 jdolecek onoff("MVFC Function Groups Capability", reg, PCI_ARI_CAP_M); 3121 1.92.2.4 jdolecek onoff("ACS Function Groups Capability", reg, PCI_ARI_CAP_A); 3122 1.92.2.4 jdolecek printf(" Next Function Number: %u\n", 3123 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_ARI_CAP_NXTFN)); 3124 1.92.2.4 jdolecek printf(" Control register: 0x%08x\n", ctl); 3125 1.92.2.4 jdolecek onoff("MVFC Function Groups Enable", reg, PCI_ARI_CTL_M); 3126 1.92.2.4 jdolecek onoff("ACS Function Groups Enable", reg, PCI_ARI_CTL_A); 3127 1.92.2.4 jdolecek printf(" Function Group: %u\n", 3128 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_ARI_CTL_FUNCGRP)); 3129 1.92.2.4 jdolecek } 3130 1.92.2.4 jdolecek 3131 1.92.2.4 jdolecek static void 3132 1.92.2.4 jdolecek pci_conf_print_ats_cap(const pcireg_t *regs, int capoff, int extcapoff) 3133 1.92.2.4 jdolecek { 3134 1.92.2.4 jdolecek pcireg_t reg, cap, ctl; 3135 1.92.2.4 jdolecek unsigned int num; 3136 1.92.2.4 jdolecek 3137 1.92.2.4 jdolecek printf("\n Address Translation Services\n"); 3138 1.92.2.4 jdolecek 3139 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_ARI_CAP)]; 3140 1.92.2.4 jdolecek cap = reg & 0xffff; 3141 1.92.2.4 jdolecek ctl = reg >> 16; 3142 1.92.2.4 jdolecek printf(" Capability register: 0x%04x\n", cap); 3143 1.92.2.4 jdolecek num = __SHIFTOUT(reg, PCI_ATS_CAP_INVQDEPTH); 3144 1.92.2.4 jdolecek if (num == 0) 3145 1.92.2.4 jdolecek num = 32; 3146 1.92.2.4 jdolecek printf(" Invalidate Queue Depth: %u\n", num); 3147 1.92.2.4 jdolecek onoff("Page Aligned Request", reg, PCI_ATS_CAP_PALIGNREQ); 3148 1.92.2.4 jdolecek onoff("Global Invalidate", reg, PCI_ATS_CAP_GLOBALINVL); 3149 1.92.2.4 jdolecek 3150 1.92.2.4 jdolecek printf(" Control register: 0x%04x\n", ctl); 3151 1.92.2.4 jdolecek printf(" Smallest Translation Unit: %u\n", 3152 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_ATS_CTL_STU)); 3153 1.92.2.4 jdolecek onoff("Enable", reg, PCI_ATS_CTL_EN); 3154 1.92.2.4 jdolecek } 3155 1.92.2.4 jdolecek 3156 1.92.2.4 jdolecek static void 3157 1.92.2.4 jdolecek pci_conf_print_sernum_cap(const pcireg_t *regs, int capoff, int extcapoff) 3158 1.92.2.4 jdolecek { 3159 1.92.2.4 jdolecek pcireg_t lo, hi; 3160 1.92.2.4 jdolecek 3161 1.92.2.4 jdolecek printf("\n Device Serial Number Register\n"); 3162 1.92.2.4 jdolecek 3163 1.92.2.4 jdolecek lo = regs[o2i(extcapoff + PCI_SERIAL_LOW)]; 3164 1.92.2.4 jdolecek hi = regs[o2i(extcapoff + PCI_SERIAL_HIGH)]; 3165 1.92.2.4 jdolecek printf(" Serial Number: %02x-%02x-%02x-%02x-%02x-%02x-%02x-%02x\n", 3166 1.92.2.4 jdolecek hi >> 24, (hi >> 16) & 0xff, (hi >> 8) & 0xff, hi & 0xff, 3167 1.92.2.4 jdolecek lo >> 24, (lo >> 16) & 0xff, (lo >> 8) & 0xff, lo & 0xff); 3168 1.92.2.4 jdolecek } 3169 1.92.2.4 jdolecek 3170 1.92.2.4 jdolecek static void 3171 1.92.2.4 jdolecek pci_conf_print_sriov_cap(const pcireg_t *regs, int capoff, int extcapoff) 3172 1.92.2.4 jdolecek { 3173 1.92.2.4 jdolecek char buf[sizeof("99999 MB")]; 3174 1.92.2.4 jdolecek pcireg_t reg; 3175 1.92.2.4 jdolecek pcireg_t total_vfs; 3176 1.92.2.4 jdolecek int i; 3177 1.92.2.4 jdolecek bool first; 3178 1.92.2.4 jdolecek 3179 1.92.2.4 jdolecek printf("\n Single Root IO Virtualization Register\n"); 3180 1.92.2.4 jdolecek 3181 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_CAP)]; 3182 1.92.2.4 jdolecek printf(" Capabilities register: 0x%08x\n", reg); 3183 1.92.2.4 jdolecek onoff("VF Migration Capable", reg, PCI_SRIOV_CAP_VF_MIGRATION); 3184 1.92.2.4 jdolecek onoff("ARI Capable Hierarchy Preserved", reg, 3185 1.92.2.4 jdolecek PCI_SRIOV_CAP_ARI_CAP_HIER_PRESERVED); 3186 1.92.2.4 jdolecek if (reg & PCI_SRIOV_CAP_VF_MIGRATION) { 3187 1.92.2.4 jdolecek printf(" VF Migration Interrupt Message Number: 0x%03x\n", 3188 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, 3189 1.92.2.4 jdolecek PCI_SRIOV_CAP_VF_MIGRATION_INTMSG_N)); 3190 1.92.2.4 jdolecek } 3191 1.92.2.4 jdolecek 3192 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_CTL)] & 0xffff; 3193 1.92.2.4 jdolecek printf(" Control register: 0x%04x\n", reg); 3194 1.92.2.4 jdolecek onoff("VF Enable", reg, PCI_SRIOV_CTL_VF_ENABLE); 3195 1.92.2.4 jdolecek onoff("VF Migration Enable", reg, PCI_SRIOV_CTL_VF_MIGRATION_SUPPORT); 3196 1.92.2.4 jdolecek onoff("VF Migration Interrupt Enable", reg, 3197 1.92.2.4 jdolecek PCI_SRIOV_CTL_VF_MIGRATION_INT_ENABLE); 3198 1.92.2.4 jdolecek onoff("VF Memory Space Enable", reg, PCI_SRIOV_CTL_VF_MSE); 3199 1.92.2.4 jdolecek onoff("ARI Capable Hierarchy", reg, PCI_SRIOV_CTL_ARI_CAP_HIER); 3200 1.92.2.4 jdolecek 3201 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_STA)] >> 16; 3202 1.92.2.4 jdolecek printf(" Status register: 0x%04x\n", reg); 3203 1.92.2.4 jdolecek onoff("VF Migration Status", reg, PCI_SRIOV_STA_VF_MIGRATION); 3204 1.92.2.4 jdolecek 3205 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_INITIAL_VFS)] & 0xffff; 3206 1.92.2.4 jdolecek printf(" InitialVFs register: 0x%04x\n", reg); 3207 1.92.2.4 jdolecek total_vfs = reg = regs[o2i(extcapoff + PCI_SRIOV_TOTAL_VFS)] >> 16; 3208 1.92.2.4 jdolecek printf(" TotalVFs register: 0x%04x\n", reg); 3209 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_NUM_VFS)] & 0xffff; 3210 1.92.2.4 jdolecek printf(" NumVFs register: 0x%04x\n", reg); 3211 1.92.2.4 jdolecek 3212 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_FUNC_DEP_LINK)] >> 16; 3213 1.92.2.4 jdolecek printf(" Function Dependency Link register: 0x%04x\n", reg); 3214 1.92.2.4 jdolecek 3215 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_VF_OFF)] & 0xffff; 3216 1.92.2.4 jdolecek printf(" First VF Offset register: 0x%04x\n", reg); 3217 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_VF_STRIDE)] >> 16; 3218 1.92.2.4 jdolecek printf(" VF Stride register: 0x%04x\n", reg); 3219 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_VF_DID)] >> 16; 3220 1.92.2.4 jdolecek printf(" Device ID: 0x%04x\n", reg); 3221 1.92.2.4 jdolecek 3222 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_PAGE_CAP)]; 3223 1.92.2.4 jdolecek printf(" Supported Page Sizes register: 0x%08x\n", reg); 3224 1.92.2.4 jdolecek printf(" Supported Page Size:"); 3225 1.92.2.4 jdolecek for (i = 0, first = true; i < 32; i++) { 3226 1.92.2.4 jdolecek if (reg & __BIT(i)) { 3227 1.92.2.4 jdolecek #ifdef _KERNEL 3228 1.92.2.4 jdolecek format_bytes(buf, sizeof(buf), 1LL << (i + 12)); 3229 1.92.2.4 jdolecek #else 3230 1.92.2.4 jdolecek humanize_number(buf, sizeof(buf), 1LL << (i + 12), "B", 3231 1.92.2.4 jdolecek HN_AUTOSCALE, 0); 3232 1.92.2.4 jdolecek #endif 3233 1.92.2.4 jdolecek printf("%s %s", first ? "" : ",", buf); 3234 1.92.2.4 jdolecek first = false; 3235 1.92.2.4 jdolecek } 3236 1.92.2.4 jdolecek } 3237 1.92.2.4 jdolecek printf("\n"); 3238 1.92.2.4 jdolecek 3239 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_PAGE_SIZE)]; 3240 1.92.2.4 jdolecek printf(" System Page Sizes register: 0x%08x\n", reg); 3241 1.92.2.4 jdolecek printf(" Page Size: "); 3242 1.92.2.4 jdolecek if (reg != 0) { 3243 1.92.2.4 jdolecek int bitpos = ffs(reg) -1; 3244 1.92.2.4 jdolecek 3245 1.92.2.4 jdolecek /* Assume only one bit is set. */ 3246 1.92.2.4 jdolecek #ifdef _KERNEL 3247 1.92.2.4 jdolecek format_bytes(buf, sizeof(buf), 1LL << (bitpos + 12)); 3248 1.92.2.4 jdolecek #else 3249 1.92.2.4 jdolecek humanize_number(buf, sizeof(buf), 1LL << (bitpos + 12), 3250 1.92.2.4 jdolecek "B", HN_AUTOSCALE, 0); 3251 1.92.2.4 jdolecek #endif 3252 1.92.2.4 jdolecek printf("%s", buf); 3253 1.92.2.4 jdolecek } else { 3254 1.92.2.4 jdolecek printf("unknown"); 3255 1.92.2.4 jdolecek } 3256 1.92.2.4 jdolecek printf("\n"); 3257 1.92.2.4 jdolecek 3258 1.92.2.4 jdolecek for (i = 0; i < 6; i++) { 3259 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_BAR(i))]; 3260 1.92.2.4 jdolecek printf(" VF BAR%d register: 0x%08x\n", i, reg); 3261 1.92.2.4 jdolecek } 3262 1.92.2.4 jdolecek 3263 1.92.2.4 jdolecek if (total_vfs > 0) { 3264 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SRIOV_VF_MIG_STA_AR)]; 3265 1.92.2.4 jdolecek printf(" VF Migration State Array Offset register: 0x%08x\n", 3266 1.92.2.4 jdolecek reg); 3267 1.92.2.4 jdolecek printf(" VF Migration State Offset: 0x%08x\n", 3268 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_SRIOV_VF_MIG_STA_OFFSET)); 3269 1.92.2.4 jdolecek i = __SHIFTOUT(reg, PCI_SRIOV_VF_MIG_STA_BIR); 3270 1.92.2.4 jdolecek printf(" VF Migration State BIR: "); 3271 1.92.2.4 jdolecek if (i >= 0 && i <= 5) { 3272 1.92.2.4 jdolecek printf("BAR%d", i); 3273 1.92.2.4 jdolecek } else { 3274 1.92.2.4 jdolecek printf("unknown BAR (%d)", i); 3275 1.92.2.4 jdolecek } 3276 1.92.2.4 jdolecek printf("\n"); 3277 1.92.2.4 jdolecek } 3278 1.92.2.4 jdolecek } 3279 1.92.2.4 jdolecek 3280 1.92.2.4 jdolecek /* XXX pci_conf_print_mriov_cap */ 3281 1.92.2.4 jdolecek 3282 1.92.2.4 jdolecek static void 3283 1.92.2.4 jdolecek pci_conf_print_multicast_cap(const pcireg_t *regs, int capoff, int extcapoff) 3284 1.92.2.4 jdolecek { 3285 1.92.2.4 jdolecek pcireg_t reg, cap, ctl; 3286 1.92.2.4 jdolecek pcireg_t regl, regh; 3287 1.92.2.4 jdolecek uint64_t addr; 3288 1.92.2.4 jdolecek int n; 3289 1.92.2.4 jdolecek 3290 1.92.2.4 jdolecek printf("\n Multicast\n"); 3291 1.92.2.4 jdolecek 3292 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_MCAST_CTL)]; 3293 1.92.2.4 jdolecek cap = reg & 0xffff; 3294 1.92.2.4 jdolecek ctl = reg >> 16; 3295 1.92.2.4 jdolecek printf(" Capability Register: 0x%04x\n", cap); 3296 1.92.2.4 jdolecek printf(" Max Group: %u\n", 3297 1.92.2.4 jdolecek (pcireg_t)(reg & PCI_MCAST_CAP_MAXGRP) + 1); 3298 1.92.2.4 jdolecek 3299 1.92.2.4 jdolecek /* Endpoint Only */ 3300 1.92.2.4 jdolecek n = __SHIFTOUT(reg, PCI_MCAST_CAP_WINSIZEREQ); 3301 1.92.2.4 jdolecek if (n > 0) 3302 1.92.2.4 jdolecek printf(" Windw Size Requested: %d\n", 1 << (n - 1)); 3303 1.92.2.4 jdolecek 3304 1.92.2.4 jdolecek onoff("ECRC Regeneration Supported", reg, PCI_MCAST_CAP_ECRCREGEN); 3305 1.92.2.4 jdolecek 3306 1.92.2.4 jdolecek printf(" Control Register: 0x%04x\n", ctl); 3307 1.92.2.4 jdolecek printf(" Num Group: %u\n", 3308 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_MCAST_CTL_NUMGRP) + 1); 3309 1.92.2.4 jdolecek onoff("Enable", reg, PCI_MCAST_CTL_ENA); 3310 1.92.2.4 jdolecek 3311 1.92.2.4 jdolecek regl = regs[o2i(extcapoff + PCI_MCAST_BARL)]; 3312 1.92.2.4 jdolecek regh = regs[o2i(extcapoff + PCI_MCAST_BARH)]; 3313 1.92.2.4 jdolecek printf(" Base Address Register 0: 0x%08x\n", regl); 3314 1.92.2.4 jdolecek printf(" Base Address Register 1: 0x%08x\n", regh); 3315 1.92.2.4 jdolecek printf(" Index Position: %u\n", 3316 1.92.2.4 jdolecek (unsigned int)(regl & PCI_MCAST_BARL_INDPOS)); 3317 1.92.2.4 jdolecek addr = ((uint64_t)regh << 32) | (regl & PCI_MCAST_BARL_ADDR); 3318 1.92.2.4 jdolecek printf(" Base Address: 0x%016" PRIx64 "\n", addr); 3319 1.92.2.4 jdolecek 3320 1.92.2.4 jdolecek regl = regs[o2i(extcapoff + PCI_MCAST_RECVL)]; 3321 1.92.2.4 jdolecek regh = regs[o2i(extcapoff + PCI_MCAST_RECVH)]; 3322 1.92.2.4 jdolecek printf(" Receive Register 0: 0x%08x\n", regl); 3323 1.92.2.4 jdolecek printf(" Receive Register 1: 0x%08x\n", regh); 3324 1.92.2.4 jdolecek 3325 1.92.2.4 jdolecek regl = regs[o2i(extcapoff + PCI_MCAST_BLOCKALLL)]; 3326 1.92.2.4 jdolecek regh = regs[o2i(extcapoff + PCI_MCAST_BLOCKALLH)]; 3327 1.92.2.4 jdolecek printf(" Block All Register 0: 0x%08x\n", regl); 3328 1.92.2.4 jdolecek printf(" Block All Register 1: 0x%08x\n", regh); 3329 1.92.2.4 jdolecek 3330 1.92.2.4 jdolecek regl = regs[o2i(extcapoff + PCI_MCAST_BLOCKUNTRNSL)]; 3331 1.92.2.4 jdolecek regh = regs[o2i(extcapoff + PCI_MCAST_BLOCKUNTRNSH)]; 3332 1.92.2.4 jdolecek printf(" Block Untranslated Register 0: 0x%08x\n", regl); 3333 1.92.2.4 jdolecek printf(" Block Untranslated Register 1: 0x%08x\n", regh); 3334 1.92.2.4 jdolecek 3335 1.92.2.4 jdolecek regl = regs[o2i(extcapoff + PCI_MCAST_OVERLAYL)]; 3336 1.92.2.4 jdolecek regh = regs[o2i(extcapoff + PCI_MCAST_OVERLAYH)]; 3337 1.92.2.4 jdolecek printf(" Overlay BAR 0: 0x%08x\n", regl); 3338 1.92.2.4 jdolecek printf(" Overlay BAR 1: 0x%08x\n", regh); 3339 1.92.2.4 jdolecek 3340 1.92.2.4 jdolecek n = regl & PCI_MCAST_OVERLAYL_SIZE; 3341 1.92.2.4 jdolecek printf(" Overlay Size: "); 3342 1.92.2.4 jdolecek if (n >= 6) 3343 1.92.2.4 jdolecek printf("%d\n", n); 3344 1.92.2.4 jdolecek else 3345 1.92.2.4 jdolecek printf("off\n"); 3346 1.92.2.4 jdolecek addr = ((uint64_t)regh << 32) | (regl & PCI_MCAST_OVERLAYL_ADDR); 3347 1.92.2.4 jdolecek printf(" Overlay BAR: 0x%016" PRIx64 "\n", addr); 3348 1.92.2.4 jdolecek } 3349 1.92.2.4 jdolecek 3350 1.92.2.4 jdolecek static void 3351 1.92.2.4 jdolecek pci_conf_print_page_req_cap(const pcireg_t *regs, int capoff, int extcapoff) 3352 1.92.2.4 jdolecek { 3353 1.92.2.4 jdolecek pcireg_t reg, ctl, sta; 3354 1.92.2.4 jdolecek 3355 1.92.2.4 jdolecek printf("\n Page Request\n"); 3356 1.92.2.4 jdolecek 3357 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PAGE_REQ_CTL)]; 3358 1.92.2.4 jdolecek ctl = reg & 0xffff; 3359 1.92.2.4 jdolecek sta = reg >> 16; 3360 1.92.2.4 jdolecek printf(" Control Register: 0x%04x\n", ctl); 3361 1.92.2.4 jdolecek onoff("Enalbe", reg, PCI_PAGE_REQ_CTL_E); 3362 1.92.2.4 jdolecek onoff("Reset", reg, PCI_PAGE_REQ_CTL_R); 3363 1.92.2.4 jdolecek 3364 1.92.2.4 jdolecek printf(" Status Register: 0x%04x\n", sta); 3365 1.92.2.4 jdolecek onoff("Response Failure", reg, PCI_PAGE_REQ_STA_RF); 3366 1.92.2.4 jdolecek onoff("Unexpected Page Request Group Index", reg, 3367 1.92.2.4 jdolecek PCI_PAGE_REQ_STA_UPRGI); 3368 1.92.2.4 jdolecek onoff("Stopped", reg, PCI_PAGE_REQ_STA_S); 3369 1.92.2.4 jdolecek onoff("PRG Response PASID Required", reg, PCI_PAGE_REQ_STA_PASIDR); 3370 1.92.2.4 jdolecek 3371 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PAGE_REQ_OUTSTCAPA)]; 3372 1.92.2.4 jdolecek printf(" Outstanding Page Request Capacity: %u\n", reg); 3373 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PAGE_REQ_OUTSTALLOC)]; 3374 1.92.2.4 jdolecek printf(" Outstanding Page Request Allocation: %u\n", reg); 3375 1.92.2.4 jdolecek } 3376 1.92.2.4 jdolecek 3377 1.92.2.4 jdolecek /* XXX pci_conf_print_amd_cap */ 3378 1.92.2.4 jdolecek 3379 1.92.2.4 jdolecek #define MEM_PBUFSIZE sizeof("999GB") 3380 1.92.2.4 jdolecek 3381 1.92.2.4 jdolecek static void 3382 1.92.2.4 jdolecek pci_conf_print_resizbar_cap(const pcireg_t *regs, int capoff, int extcapoff) 3383 1.92.2.4 jdolecek { 3384 1.92.2.4 jdolecek pcireg_t cap, ctl; 3385 1.92.2.4 jdolecek unsigned int bars, i, n; 3386 1.92.2.4 jdolecek char pbuf[MEM_PBUFSIZE]; 3387 1.92.2.4 jdolecek 3388 1.92.2.4 jdolecek printf("\n Resizable BAR\n"); 3389 1.92.2.4 jdolecek 3390 1.92.2.4 jdolecek /* Get Number of Resizable BARs */ 3391 1.92.2.4 jdolecek ctl = regs[o2i(extcapoff + PCI_RESIZBAR_CTL(0))]; 3392 1.92.2.4 jdolecek bars = __SHIFTOUT(ctl, PCI_RESIZBAR_CTL_NUMBAR); 3393 1.92.2.4 jdolecek printf(" Number of Resizable BARs: "); 3394 1.92.2.4 jdolecek if (bars <= 6) 3395 1.92.2.4 jdolecek printf("%u\n", bars); 3396 1.92.2.4 jdolecek else { 3397 1.92.2.4 jdolecek printf("incorrect (%u)\n", bars); 3398 1.92.2.4 jdolecek return; 3399 1.92.2.4 jdolecek } 3400 1.92.2.4 jdolecek 3401 1.92.2.4 jdolecek for (n = 0; n < 6; n++) { 3402 1.92.2.4 jdolecek cap = regs[o2i(extcapoff + PCI_RESIZBAR_CAP(n))]; 3403 1.92.2.4 jdolecek printf(" Capability register(%u): 0x%08x\n", n, cap); 3404 1.92.2.4 jdolecek if ((cap & PCI_RESIZBAR_CAP_SIZEMASK) == 0) 3405 1.92.2.4 jdolecek continue; /* Not Used */ 3406 1.92.2.4 jdolecek printf(" Acceptable BAR sizes:"); 3407 1.92.2.4 jdolecek for (i = 4; i <= 23; i++) { 3408 1.92.2.4 jdolecek if ((cap & (1 << i)) != 0) { 3409 1.92.2.4 jdolecek humanize_number(pbuf, MEM_PBUFSIZE, 3410 1.92.2.4 jdolecek (int64_t)1024 * 1024 << (i - 4), "B", 3411 1.92.2.4 jdolecek #ifdef _KERNEL 3412 1.92.2.4 jdolecek 1); 3413 1.92.2.4 jdolecek #else 3414 1.92.2.4 jdolecek HN_AUTOSCALE, HN_NOSPACE); 3415 1.92.2.4 jdolecek #endif 3416 1.92.2.4 jdolecek printf(" %s", pbuf); 3417 1.92.2.4 jdolecek } 3418 1.92.2.4 jdolecek } 3419 1.92.2.4 jdolecek printf("\n"); 3420 1.92.2.4 jdolecek 3421 1.92.2.4 jdolecek ctl = regs[o2i(extcapoff + PCI_RESIZBAR_CTL(n))]; 3422 1.92.2.4 jdolecek printf(" Control register(%u): 0x%08x\n", n, ctl); 3423 1.92.2.4 jdolecek printf(" BAR Index: %u\n", 3424 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(ctl, PCI_RESIZBAR_CTL_BARIDX)); 3425 1.92.2.4 jdolecek humanize_number(pbuf, MEM_PBUFSIZE, 3426 1.92.2.4 jdolecek (int64_t)1024 * 1024 3427 1.92.2.4 jdolecek << __SHIFTOUT(ctl, PCI_RESIZBAR_CTL_BARSIZ), 3428 1.92.2.4 jdolecek "B", 3429 1.92.2.4 jdolecek #ifdef _KERNEL 3430 1.92.2.4 jdolecek 1); 3431 1.92.2.4 jdolecek #else 3432 1.92.2.4 jdolecek HN_AUTOSCALE, HN_NOSPACE); 3433 1.92.2.4 jdolecek #endif 3434 1.92.2.4 jdolecek printf(" BAR Size: %s\n", pbuf); 3435 1.92.2.4 jdolecek } 3436 1.92.2.4 jdolecek } 3437 1.92.2.4 jdolecek 3438 1.92.2.4 jdolecek static void 3439 1.92.2.4 jdolecek pci_conf_print_dpa_cap(const pcireg_t *regs, int capoff, int extcapoff) 3440 1.92.2.4 jdolecek { 3441 1.92.2.4 jdolecek pcireg_t reg; 3442 1.92.2.4 jdolecek unsigned int substmax, i; 3443 1.92.2.4 jdolecek 3444 1.92.2.4 jdolecek printf("\n Dynamic Power Allocation\n"); 3445 1.92.2.4 jdolecek 3446 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPA_CAP)]; 3447 1.92.2.4 jdolecek printf(" Capability register: 0x%08x\n", reg); 3448 1.92.2.4 jdolecek substmax = __SHIFTOUT(reg, PCI_DPA_CAP_SUBSTMAX); 3449 1.92.2.4 jdolecek printf(" Substate Max: %u\n", substmax); 3450 1.92.2.4 jdolecek printf(" Transition Latency Unit: "); 3451 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCI_DPA_CAP_TLUINT)) { 3452 1.92.2.4 jdolecek case 0: 3453 1.92.2.4 jdolecek printf("1ms\n"); 3454 1.92.2.4 jdolecek break; 3455 1.92.2.4 jdolecek case 1: 3456 1.92.2.4 jdolecek printf("10ms\n"); 3457 1.92.2.4 jdolecek break; 3458 1.92.2.4 jdolecek case 2: 3459 1.92.2.4 jdolecek printf("100ms\n"); 3460 1.92.2.4 jdolecek break; 3461 1.92.2.4 jdolecek default: 3462 1.92.2.4 jdolecek printf("reserved\n"); 3463 1.92.2.4 jdolecek break; 3464 1.92.2.4 jdolecek } 3465 1.92.2.4 jdolecek printf(" Power Allocation Scale: "); 3466 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCI_DPA_CAP_PAS)) { 3467 1.92.2.4 jdolecek case 0: 3468 1.92.2.4 jdolecek printf("10.0x\n"); 3469 1.92.2.4 jdolecek break; 3470 1.92.2.4 jdolecek case 1: 3471 1.92.2.4 jdolecek printf("1.0x\n"); 3472 1.92.2.4 jdolecek break; 3473 1.92.2.4 jdolecek case 2: 3474 1.92.2.4 jdolecek printf("0.1x\n"); 3475 1.92.2.4 jdolecek break; 3476 1.92.2.4 jdolecek case 3: 3477 1.92.2.4 jdolecek printf("0.01x\n"); 3478 1.92.2.4 jdolecek break; 3479 1.92.2.4 jdolecek } 3480 1.92.2.4 jdolecek printf(" Transition Latency Value 0: %u\n", 3481 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_DPA_CAP_XLCY0)); 3482 1.92.2.4 jdolecek printf(" Transition Latency Value 1: %u\n", 3483 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_DPA_CAP_XLCY1)); 3484 1.92.2.4 jdolecek 3485 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPA_LATIND)]; 3486 1.92.2.4 jdolecek printf(" Latency Indicatior register: 0x%08x\n", reg); 3487 1.92.2.4 jdolecek 3488 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPA_CS)]; 3489 1.92.2.4 jdolecek printf(" Status register: 0x%04x\n", reg & 0xffff); 3490 1.92.2.4 jdolecek printf(" Substate Status: 0x%02x\n", 3491 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_DPA_CS_SUBSTSTAT)); 3492 1.92.2.4 jdolecek onoff("Substate Control Enabled", reg, PCI_DPA_CS_SUBSTCTLEN); 3493 1.92.2.4 jdolecek printf(" Control register: 0x%04x\n", reg >> 16); 3494 1.92.2.4 jdolecek printf(" Substate Control: 0x%02x\n", 3495 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_DPA_CS_SUBSTCTL)); 3496 1.92.2.4 jdolecek 3497 1.92.2.4 jdolecek for (i = 0; i <= substmax; i++) 3498 1.92.2.4 jdolecek printf(" Substate Power Allocation register %d: 0x%02x\n", 3499 1.92.2.4 jdolecek i, (regs[PCI_DPA_PWRALLOC + (i / 4)] >> (i % 4) & 0xff)); 3500 1.92.2.4 jdolecek } 3501 1.92.2.4 jdolecek 3502 1.92.2.4 jdolecek static const char * 3503 1.92.2.4 jdolecek pci_conf_print_tph_req_cap_sttabloc(uint8_t val) 3504 1.92.2.4 jdolecek { 3505 1.92.2.4 jdolecek 3506 1.92.2.4 jdolecek switch (val) { 3507 1.92.2.4 jdolecek case PCI_TPH_REQ_STTBLLOC_NONE: 3508 1.92.2.4 jdolecek return "Not Present"; 3509 1.92.2.4 jdolecek case PCI_TPH_REQ_STTBLLOC_TPHREQ: 3510 1.92.2.4 jdolecek return "in the TPH Requester Capability Structure"; 3511 1.92.2.4 jdolecek case PCI_TPH_REQ_STTBLLOC_MSIX: 3512 1.92.2.4 jdolecek return "in the MSI-X Table"; 3513 1.92.2.4 jdolecek default: 3514 1.92.2.4 jdolecek return "Unknown"; 3515 1.92.2.4 jdolecek } 3516 1.92.2.4 jdolecek } 3517 1.92.2.4 jdolecek 3518 1.92.2.4 jdolecek static void 3519 1.92.2.4 jdolecek pci_conf_print_tph_req_cap(const pcireg_t *regs, int capoff, int extcapoff) 3520 1.92.2.4 jdolecek { 3521 1.92.2.4 jdolecek pcireg_t reg; 3522 1.92.2.4 jdolecek int size, i, j; 3523 1.92.2.4 jdolecek uint8_t sttbloc; 3524 1.92.2.4 jdolecek 3525 1.92.2.4 jdolecek printf("\n TPH Requester Extended Capability\n"); 3526 1.92.2.4 jdolecek 3527 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_TPH_REQ_CAP)]; 3528 1.92.2.4 jdolecek printf(" TPH Requester Capabililty register: 0x%08x\n", reg); 3529 1.92.2.4 jdolecek onoff("No ST Mode Supported", reg, PCI_TPH_REQ_CAP_NOST); 3530 1.92.2.4 jdolecek onoff("Interrupt Vector Mode Supported", reg, PCI_TPH_REQ_CAP_INTVEC); 3531 1.92.2.4 jdolecek onoff("Device Specific Mode Supported", reg, PCI_TPH_REQ_CAP_DEVSPEC); 3532 1.92.2.4 jdolecek onoff("Extend TPH Reqester Supported", reg, PCI_TPH_REQ_CAP_XTPHREQ); 3533 1.92.2.4 jdolecek sttbloc = __SHIFTOUT(reg, PCI_TPH_REQ_CAP_STTBLLOC); 3534 1.92.2.4 jdolecek printf(" ST Table Location: %s\n", 3535 1.92.2.4 jdolecek pci_conf_print_tph_req_cap_sttabloc(sttbloc)); 3536 1.92.2.4 jdolecek size = __SHIFTOUT(reg, PCI_TPH_REQ_CAP_STTBLSIZ) + 1; 3537 1.92.2.4 jdolecek printf(" ST Table Size: %d\n", size); 3538 1.92.2.4 jdolecek 3539 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_TPH_REQ_CTL)]; 3540 1.92.2.4 jdolecek printf(" TPH Requester Control register: 0x%08x\n", reg); 3541 1.92.2.4 jdolecek printf(" ST Mode Select: "); 3542 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCI_TPH_REQ_CTL_STSEL)) { 3543 1.92.2.4 jdolecek case PCI_TPH_REQ_CTL_STSEL_NO: 3544 1.92.2.4 jdolecek printf("No ST Mode\n"); 3545 1.92.2.4 jdolecek break; 3546 1.92.2.4 jdolecek case PCI_TPH_REQ_CTL_STSEL_IV: 3547 1.92.2.4 jdolecek printf("Interrupt Vector Mode\n"); 3548 1.92.2.4 jdolecek break; 3549 1.92.2.4 jdolecek case PCI_TPH_REQ_CTL_STSEL_DS: 3550 1.92.2.4 jdolecek printf("Device Specific Mode\n"); 3551 1.92.2.4 jdolecek break; 3552 1.92.2.4 jdolecek default: 3553 1.92.2.4 jdolecek printf("(reserved vaule)\n"); 3554 1.92.2.4 jdolecek break; 3555 1.92.2.4 jdolecek } 3556 1.92.2.4 jdolecek printf(" TPH Requester Enable: "); 3557 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCI_TPH_REQ_CTL_TPHREQEN)) { 3558 1.92.2.4 jdolecek case PCI_TPH_REQ_CTL_TPHREQEN_NO: /* 0x0 */ 3559 1.92.2.4 jdolecek printf("Not permitted\n"); 3560 1.92.2.4 jdolecek break; 3561 1.92.2.4 jdolecek case PCI_TPH_REQ_CTL_TPHREQEN_TPH: 3562 1.92.2.4 jdolecek printf("TPH and not Extended TPH\n"); 3563 1.92.2.4 jdolecek break; 3564 1.92.2.4 jdolecek case PCI_TPH_REQ_CTL_TPHREQEN_ETPH: 3565 1.92.2.4 jdolecek printf("TPH and Extended TPH"); 3566 1.92.2.4 jdolecek break; 3567 1.92.2.4 jdolecek default: 3568 1.92.2.4 jdolecek printf("(reserved vaule)\n"); 3569 1.92.2.4 jdolecek break; 3570 1.92.2.4 jdolecek } 3571 1.92.2.4 jdolecek 3572 1.92.2.4 jdolecek if (sttbloc != PCI_TPH_REQ_STTBLLOC_TPHREQ) 3573 1.92.2.4 jdolecek return; 3574 1.92.2.4 jdolecek 3575 1.92.2.4 jdolecek for (i = 0; i < size ; i += 2) { 3576 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_TPH_REQ_STTBL + i / 2)]; 3577 1.92.2.4 jdolecek for (j = 0; j < 2 ; j++) { 3578 1.92.2.4 jdolecek uint32_t entry = reg; 3579 1.92.2.4 jdolecek 3580 1.92.2.4 jdolecek if (j != 0) 3581 1.92.2.4 jdolecek entry >>= 16; 3582 1.92.2.4 jdolecek entry &= 0xffff; 3583 1.92.2.4 jdolecek printf(" TPH ST Table Entry (%d): 0x%04"PRIx32"\n", 3584 1.92.2.4 jdolecek i + j, entry); 3585 1.92.2.4 jdolecek } 3586 1.92.2.4 jdolecek } 3587 1.92.2.4 jdolecek } 3588 1.92.2.4 jdolecek 3589 1.92.2.4 jdolecek static void 3590 1.92.2.4 jdolecek pci_conf_print_ltr_cap(const pcireg_t *regs, int capoff, int extcapoff) 3591 1.92.2.4 jdolecek { 3592 1.92.2.4 jdolecek pcireg_t reg; 3593 1.92.2.4 jdolecek 3594 1.92.2.4 jdolecek printf("\n Latency Tolerance Reporting\n"); 3595 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_LTR_MAXSNOOPLAT)]; 3596 1.92.2.4 jdolecek printf(" Max Snoop Latency Register: 0x%04x\n", reg & 0xffff); 3597 1.92.2.4 jdolecek printf(" Max Snoop Latency: %juns\n", 3598 1.92.2.4 jdolecek (uintmax_t)(__SHIFTOUT(reg, PCI_LTR_MAXSNOOPLAT_VAL) 3599 1.92.2.4 jdolecek * PCI_LTR_SCALETONS(__SHIFTOUT(reg, PCI_LTR_MAXSNOOPLAT_SCALE)))); 3600 1.92.2.4 jdolecek printf(" Max No-Snoop Latency Register: 0x%04x\n", reg >> 16); 3601 1.92.2.4 jdolecek printf(" Max No-Snoop Latency: %juns\n", 3602 1.92.2.4 jdolecek (uintmax_t)(__SHIFTOUT(reg, PCI_LTR_MAXNOSNOOPLAT_VAL) 3603 1.92.2.4 jdolecek * PCI_LTR_SCALETONS(__SHIFTOUT(reg, PCI_LTR_MAXNOSNOOPLAT_SCALE)))); 3604 1.92.2.4 jdolecek } 3605 1.92.2.4 jdolecek 3606 1.92.2.4 jdolecek static void 3607 1.92.2.4 jdolecek pci_conf_print_sec_pcie_cap(const pcireg_t *regs, int capoff, int extcapoff) 3608 1.92.2.4 jdolecek { 3609 1.92.2.4 jdolecek int pcie_capoff; 3610 1.92.2.4 jdolecek pcireg_t reg; 3611 1.92.2.4 jdolecek int i, maxlinkwidth; 3612 1.92.2.4 jdolecek 3613 1.92.2.4 jdolecek printf("\n Secondary PCI Express Register\n"); 3614 1.92.2.4 jdolecek 3615 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SECPCIE_LCTL3)]; 3616 1.92.2.4 jdolecek printf(" Link Control 3 register: 0x%08x\n", reg); 3617 1.92.2.4 jdolecek onoff("Perform Equalization", reg, PCI_SECPCIE_LCTL3_PERFEQ); 3618 1.92.2.4 jdolecek onoff("Link Equalization Request Interrupt Enable", 3619 1.92.2.4 jdolecek reg, PCI_SECPCIE_LCTL3_LINKEQREQ_IE); 3620 1.92.2.4 jdolecek printf(" Enable Lower SKP OS Generation Vector:"); 3621 1.92.2.4 jdolecek pci_print_pcie_linkspeedvector( 3622 1.92.2.4 jdolecek __SHIFTOUT(reg, PCI_SECPCIE_LCTL3_ELSKPOSGENV)); 3623 1.92.2.4 jdolecek printf("\n"); 3624 1.92.2.4 jdolecek 3625 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SECPCIE_LANEERR_STA)]; 3626 1.92.2.4 jdolecek printf(" Lane Error Status register: 0x%08x\n", reg); 3627 1.92.2.4 jdolecek 3628 1.92.2.4 jdolecek /* Get Max Link Width */ 3629 1.92.2.4 jdolecek if (pci_conf_find_cap(regs, capoff, PCI_CAP_PCIEXPRESS, &pcie_capoff)){ 3630 1.92.2.4 jdolecek reg = regs[o2i(pcie_capoff + PCIE_LCAP)]; 3631 1.92.2.4 jdolecek maxlinkwidth = __SHIFTOUT(reg, PCIE_LCAP_MAX_WIDTH); 3632 1.92.2.4 jdolecek } else { 3633 1.92.2.4 jdolecek printf("error: falied to get PCIe capablity\n"); 3634 1.92.2.4 jdolecek return; 3635 1.92.2.4 jdolecek } 3636 1.92.2.4 jdolecek for (i = 0; i < maxlinkwidth; i++) { 3637 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_SECPCIE_EQCTL(i))]; 3638 1.92.2.4 jdolecek if (i % 2 != 0) 3639 1.92.2.4 jdolecek reg >>= 16; 3640 1.92.2.4 jdolecek else 3641 1.92.2.4 jdolecek reg &= 0xffff; 3642 1.92.2.4 jdolecek printf(" Equalization Control Register (Link %d): 0x%04x\n", 3643 1.92.2.4 jdolecek i, reg); 3644 1.92.2.4 jdolecek printf(" Downstream Port Transmit Preset: 0x%x\n", 3645 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, 3646 1.92.2.4 jdolecek PCI_SECPCIE_EQCTL_DP_XMIT_PRESET)); 3647 1.92.2.4 jdolecek printf(" Downstream Port Receive Hint: 0x%x\n", 3648 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_SECPCIE_EQCTL_DP_RCV_HINT)); 3649 1.92.2.4 jdolecek printf(" Upstream Port Transmit Preset: 0x%x\n", 3650 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, 3651 1.92.2.4 jdolecek PCI_SECPCIE_EQCTL_UP_XMIT_PRESET)); 3652 1.92.2.4 jdolecek printf(" Upstream Port Receive Hint: 0x%x\n", 3653 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(reg, PCI_SECPCIE_EQCTL_UP_RCV_HINT)); 3654 1.92.2.4 jdolecek } 3655 1.92.2.4 jdolecek } 3656 1.92.2.4 jdolecek 3657 1.92.2.4 jdolecek /* XXX pci_conf_print_pmux_cap */ 3658 1.92.2.4 jdolecek 3659 1.92.2.4 jdolecek static void 3660 1.92.2.4 jdolecek pci_conf_print_pasid_cap(const pcireg_t *regs, int capoff, int extcapoff) 3661 1.92.2.4 jdolecek { 3662 1.92.2.4 jdolecek pcireg_t reg, cap, ctl; 3663 1.92.2.4 jdolecek unsigned int num; 3664 1.92.2.4 jdolecek 3665 1.92.2.4 jdolecek printf("\n Process Address Space ID\n"); 3666 1.92.2.4 jdolecek 3667 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PASID_CAP)]; 3668 1.92.2.4 jdolecek cap = reg & 0xffff; 3669 1.92.2.4 jdolecek ctl = reg >> 16; 3670 1.92.2.4 jdolecek printf(" PASID Capability Register: 0x%04x\n", cap); 3671 1.92.2.4 jdolecek onoff("Execute Permission Supported", reg, PCI_PASID_CAP_XPERM); 3672 1.92.2.4 jdolecek onoff("Privileged Mode Supported", reg, PCI_PASID_CAP_PRIVMODE); 3673 1.92.2.4 jdolecek num = (1 << __SHIFTOUT(reg, PCI_PASID_CAP_MAXPASIDW)) - 1; 3674 1.92.2.4 jdolecek printf(" Max PASID Width: %u\n", num); 3675 1.92.2.4 jdolecek 3676 1.92.2.4 jdolecek printf(" PASID Control Register: 0x%04x\n", ctl); 3677 1.92.2.4 jdolecek onoff("PASID Enable", reg, PCI_PASID_CTL_PASID_EN); 3678 1.92.2.4 jdolecek onoff("Execute Permission Enable", reg, PCI_PASID_CTL_XPERM_EN); 3679 1.92.2.4 jdolecek onoff("Privileged Mode Enable", reg, PCI_PASID_CTL_PRIVMODE_EN); 3680 1.92.2.4 jdolecek } 3681 1.92.2.4 jdolecek 3682 1.92.2.4 jdolecek static void 3683 1.92.2.4 jdolecek pci_conf_print_lnr_cap(const pcireg_t *regs, int capoff, int extcapoff) 3684 1.92.2.4 jdolecek { 3685 1.92.2.4 jdolecek pcireg_t reg, cap, ctl; 3686 1.92.2.4 jdolecek unsigned int num; 3687 1.92.2.4 jdolecek 3688 1.92.2.4 jdolecek printf("\n LN Requester\n"); 3689 1.92.2.4 jdolecek 3690 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_LNR_CAP)]; 3691 1.92.2.4 jdolecek cap = reg & 0xffff; 3692 1.92.2.4 jdolecek ctl = reg >> 16; 3693 1.92.2.4 jdolecek printf(" LNR Capability register: 0x%04x\n", cap); 3694 1.92.2.4 jdolecek onoff("LNR-64 Supported", reg, PCI_LNR_CAP_64); 3695 1.92.2.4 jdolecek onoff("LNR-128 Supported", reg, PCI_LNR_CAP_128); 3696 1.92.2.4 jdolecek num = 1 << __SHIFTOUT(reg, PCI_LNR_CAP_REGISTMAX); 3697 1.92.2.4 jdolecek printf(" LNR Registration MAX: %u\n", num); 3698 1.92.2.4 jdolecek 3699 1.92.2.4 jdolecek printf(" LNR Control register: 0x%04x\n", ctl); 3700 1.92.2.4 jdolecek onoff("LNR Enable", reg, PCI_LNR_CTL_EN); 3701 1.92.2.4 jdolecek onoff("LNR CLS", reg, PCI_LNR_CTL_CLS); 3702 1.92.2.4 jdolecek num = 1 << __SHIFTOUT(reg, PCI_LNR_CTL_REGISTLIM); 3703 1.92.2.4 jdolecek printf(" LNR Registration Limit: %u\n", num); 3704 1.92.2.4 jdolecek } 3705 1.92.2.4 jdolecek 3706 1.92.2.4 jdolecek static void 3707 1.92.2.4 jdolecek pci_conf_print_dpc_pio(pcireg_t r) 3708 1.92.2.4 jdolecek { 3709 1.92.2.4 jdolecek onoff("Cfg Request received UR Completion", r,PCI_DPC_RPPIO_CFGUR_CPL); 3710 1.92.2.4 jdolecek onoff("Cfg Request received CA Completion", r,PCI_DPC_RPPIO_CFGCA_CPL); 3711 1.92.2.4 jdolecek onoff("Cfg Request Completion Timeout", r, PCI_DPC_RPPIO_CFG_CTO); 3712 1.92.2.4 jdolecek onoff("I/O Request received UR Completion", r, PCI_DPC_RPPIO_IOUR_CPL); 3713 1.92.2.4 jdolecek onoff("I/O Request received CA Completion", r, PCI_DPC_RPPIO_IOCA_CPL); 3714 1.92.2.4 jdolecek onoff("I/O Request Completion Timeout", r, PCI_DPC_RPPIO_IO_CTO); 3715 1.92.2.4 jdolecek onoff("Mem Request received UR Completion", r,PCI_DPC_RPPIO_MEMUR_CPL); 3716 1.92.2.4 jdolecek onoff("Mem Request received CA Completion", r,PCI_DPC_RPPIO_MEMCA_CPL); 3717 1.92.2.4 jdolecek onoff("Mem Request Completion Timeout", r, PCI_DPC_RPPIO_MEM_CTO); 3718 1.92.2.4 jdolecek } 3719 1.92.2.4 jdolecek 3720 1.92.2.4 jdolecek static void 3721 1.92.2.4 jdolecek pci_conf_print_dpc_cap(const pcireg_t *regs, int capoff, int extcapoff) 3722 1.92.2.4 jdolecek { 3723 1.92.2.4 jdolecek pcireg_t reg, cap, ctl, stat, errsrc; 3724 1.92.2.4 jdolecek const char *trigstr; 3725 1.92.2.4 jdolecek bool rpext; 3726 1.92.2.4 jdolecek 3727 1.92.2.4 jdolecek printf("\n Downstream Port Containment\n"); 3728 1.92.2.4 jdolecek 3729 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPC_CCR)]; 3730 1.92.2.4 jdolecek cap = reg & 0xffff; 3731 1.92.2.4 jdolecek ctl = reg >> 16; 3732 1.92.2.4 jdolecek rpext = (reg & PCI_DPCCAP_RPEXT) ? true : false; 3733 1.92.2.4 jdolecek printf(" DPC Capability register: 0x%04x\n", cap); 3734 1.92.2.4 jdolecek printf(" DPC Interrupt Message Number: %02x\n", 3735 1.92.2.4 jdolecek (unsigned int)(cap & PCI_DPCCAP_IMSGN)); 3736 1.92.2.4 jdolecek onoff("RP Extensions for DPC", reg, PCI_DPCCAP_RPEXT); 3737 1.92.2.4 jdolecek onoff("Poisoned TLP Egress Blocking Supported", reg, 3738 1.92.2.4 jdolecek PCI_DPCCAP_POISONTLPEB); 3739 1.92.2.4 jdolecek onoff("DPC Software Triggering Supported", reg, PCI_DPCCAP_SWTRIG); 3740 1.92.2.4 jdolecek printf(" RP PIO Log Size: %u\n", 3741 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_DPCCAP_RPPIOLOGSZ)); 3742 1.92.2.4 jdolecek onoff("DL_Active ERR_COR Signaling Supported", reg, 3743 1.92.2.4 jdolecek PCI_DPCCAP_DLACTECORS); 3744 1.92.2.4 jdolecek printf(" DPC Control register: 0x%04x\n", ctl); 3745 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCI_DPCCTL_TIRGEN)) { 3746 1.92.2.4 jdolecek case 0: 3747 1.92.2.4 jdolecek trigstr = "disabled"; 3748 1.92.2.4 jdolecek break; 3749 1.92.2.4 jdolecek case 1: 3750 1.92.2.4 jdolecek trigstr = "enabled(ERR_FATAL)"; 3751 1.92.2.2 tls break; 3752 1.92.2.4 jdolecek case 2: 3753 1.92.2.4 jdolecek trigstr = "enabled(ERR_NONFATAL or ERR_FATAL)"; 3754 1.92.2.2 tls break; 3755 1.92.2.4 jdolecek default: 3756 1.92.2.4 jdolecek trigstr = "(reserverd)"; 3757 1.92.2.2 tls break; 3758 1.92.2.2 tls } 3759 1.92.2.4 jdolecek printf(" DPC Trigger Enable: %s\n", trigstr); 3760 1.92.2.4 jdolecek printf(" DPC Completion Control: %s Completion Status\n", 3761 1.92.2.4 jdolecek (reg & PCI_DPCCTL_COMPCTL) 3762 1.92.2.4 jdolecek ? "Unsupported Request(UR)" : "Completer Abort(CA)"); 3763 1.92.2.4 jdolecek onoff("DPC Interrupt Enable", reg, PCI_DPCCTL_IE); 3764 1.92.2.4 jdolecek onoff("DPC ERR_COR Enable", reg, PCI_DPCCTL_ERRCOREN); 3765 1.92.2.4 jdolecek onoff("Poisoned TLP Egress Blocking Enable", reg, 3766 1.92.2.4 jdolecek PCI_DPCCTL_POISONTLPEB); 3767 1.92.2.4 jdolecek onoff("DPC Software Trigger", reg, PCI_DPCCTL_SWTRIG); 3768 1.92.2.4 jdolecek onoff("DL_Active ERR_COR Enable", reg, PCI_DPCCTL_DLACTECOR); 3769 1.92.2.4 jdolecek 3770 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPC_STATESID)]; 3771 1.92.2.4 jdolecek stat = reg & 0xffff; 3772 1.92.2.4 jdolecek errsrc = reg >> 16; 3773 1.92.2.4 jdolecek printf(" DPC Status register: 0x%04x\n", stat); 3774 1.92.2.4 jdolecek onoff("DPC Trigger Status", reg, PCI_DPCSTAT_TSTAT); 3775 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCI_DPCSTAT_TREASON)) { 3776 1.92.2.4 jdolecek case 0: 3777 1.92.2.4 jdolecek trigstr = "an unmasked uncorrectable error"; 3778 1.92.2.2 tls break; 3779 1.92.2.4 jdolecek case 1: 3780 1.92.2.4 jdolecek trigstr = "receiving an ERR_NONFATAL"; 3781 1.92.2.2 tls break; 3782 1.92.2.4 jdolecek case 2: 3783 1.92.2.4 jdolecek trigstr = "receiving an ERR_FATAL"; 3784 1.92.2.2 tls break; 3785 1.92.2.4 jdolecek case 3: 3786 1.92.2.4 jdolecek trigstr = "DPC Trigger Reason Extension field"; 3787 1.92.2.2 tls break; 3788 1.72 joerg } 3789 1.92.2.4 jdolecek printf(" DPC Trigger Reason: Due to %s\n", trigstr); 3790 1.92.2.4 jdolecek onoff("DPC Interrupt Status", reg, PCI_DPCSTAT_ISTAT); 3791 1.92.2.4 jdolecek if (rpext) 3792 1.92.2.4 jdolecek onoff("DPC RP Busy", reg, PCI_DPCSTAT_RPBUSY); 3793 1.92.2.4 jdolecek switch (__SHIFTOUT(reg, PCI_DPCSTAT_TREASON)) { 3794 1.92.2.4 jdolecek case 0: 3795 1.92.2.4 jdolecek trigstr = "Due to RP PIO error"; 3796 1.92.2.4 jdolecek break; 3797 1.92.2.4 jdolecek case 1: 3798 1.92.2.4 jdolecek trigstr = "Due to the DPC Software trigger bit"; 3799 1.92.2.4 jdolecek break; 3800 1.92.2.4 jdolecek default: 3801 1.92.2.4 jdolecek trigstr = "(reserved)"; 3802 1.92.2.4 jdolecek break; 3803 1.92.2.4 jdolecek } 3804 1.92.2.4 jdolecek printf(" DPC Trigger Reason Extension: %s\n", trigstr); 3805 1.92.2.4 jdolecek if (rpext) 3806 1.92.2.4 jdolecek printf(" RP PIO First Error Pointer: %02x\n", 3807 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_DPCSTAT_RPPIOFEP)); 3808 1.92.2.4 jdolecek printf(" DPC Error Source ID register: 0x%04x\n", errsrc); 3809 1.92.2.2 tls 3810 1.92.2.4 jdolecek if (!rpext) 3811 1.92.2.4 jdolecek return; 3812 1.92.2.4 jdolecek /* 3813 1.92.2.4 jdolecek * All of the following registers are implemented by a device which has 3814 1.92.2.4 jdolecek * RP Extensions for DPC 3815 1.92.2.4 jdolecek */ 3816 1.92.2.2 tls 3817 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPC_RPPIO_STAT)]; 3818 1.92.2.4 jdolecek printf(" RP PIO Status Register: 0x%04x\n", reg); 3819 1.92.2.4 jdolecek pci_conf_print_dpc_pio(reg); 3820 1.92.2.4 jdolecek 3821 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPC_RPPIO_MASK)]; 3822 1.92.2.4 jdolecek printf(" RP PIO Mask Register: 0x%04x\n", reg); 3823 1.92.2.4 jdolecek pci_conf_print_dpc_pio(reg); 3824 1.92.2.4 jdolecek 3825 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPC_RPPIO_SEVE)]; 3826 1.92.2.4 jdolecek printf(" RP PIO Severity Register: 0x%04x\n", reg); 3827 1.92.2.4 jdolecek pci_conf_print_dpc_pio(reg); 3828 1.92.2.4 jdolecek 3829 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPC_RPPIO_SYSERR)]; 3830 1.92.2.4 jdolecek printf(" RP PIO SysError Register: 0x%04x\n", reg); 3831 1.92.2.4 jdolecek pci_conf_print_dpc_pio(reg); 3832 1.92.2.4 jdolecek 3833 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_DPC_RPPIO_EXCPT)]; 3834 1.92.2.4 jdolecek printf(" RP PIO Exception Register: 0x%04x\n", reg); 3835 1.92.2.4 jdolecek pci_conf_print_dpc_pio(reg); 3836 1.92.2.4 jdolecek 3837 1.92.2.4 jdolecek printf(" RP PIO Header Log Register: start from 0x%03x\n", 3838 1.92.2.4 jdolecek extcapoff + PCI_DPC_RPPIO_HLOG); 3839 1.92.2.4 jdolecek printf(" RP PIO ImpSpec Log Register: start from 0x%03x\n", 3840 1.92.2.4 jdolecek extcapoff + PCI_DPC_RPPIO_IMPSLOG); 3841 1.92.2.4 jdolecek printf(" RP PIO TPL Prefix Log Register: start from 0x%03x\n", 3842 1.92.2.4 jdolecek extcapoff + PCI_DPC_RPPIO_TLPPLOG); 3843 1.92.2.4 jdolecek } 3844 1.92.2.2 tls 3845 1.92.2.2 tls 3846 1.92.2.4 jdolecek static int 3847 1.92.2.4 jdolecek pci_conf_l1pm_cap_tposcale(unsigned char scale) 3848 1.92.2.4 jdolecek { 3849 1.92.2.4 jdolecek 3850 1.92.2.4 jdolecek /* Return scale in us */ 3851 1.92.2.4 jdolecek switch (scale) { 3852 1.92.2.4 jdolecek case 0x0: 3853 1.92.2.4 jdolecek return 2; 3854 1.92.2.4 jdolecek case 0x1: 3855 1.92.2.4 jdolecek return 10; 3856 1.92.2.4 jdolecek case 0x2: 3857 1.92.2.4 jdolecek return 100; 3858 1.92.2.4 jdolecek default: 3859 1.92.2.4 jdolecek return -1; 3860 1.92.2.4 jdolecek } 3861 1.72 joerg } 3862 1.72 joerg 3863 1.77 jmcneill static void 3864 1.92.2.4 jdolecek pci_conf_print_l1pm_cap(const pcireg_t *regs, int capoff, int extcapoff) 3865 1.77 jmcneill { 3866 1.92.2.3 tls pcireg_t reg; 3867 1.92.2.4 jdolecek int scale, val; 3868 1.77 jmcneill 3869 1.92.2.4 jdolecek printf("\n L1 PM Substates\n"); 3870 1.77 jmcneill 3871 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_L1PM_CAP)]; 3872 1.92.2.4 jdolecek printf(" L1 PM Substates Capability register: 0x%08x\n", reg); 3873 1.92.2.4 jdolecek onoff("PCI-PM L1.2 Supported", reg, PCI_L1PM_CAP_PCIPM12); 3874 1.92.2.4 jdolecek onoff("PCI-PM L1.1 Supported", reg, PCI_L1PM_CAP_PCIPM11); 3875 1.92.2.4 jdolecek onoff("ASPM L1.2 Supported", reg, PCI_L1PM_CAP_ASPM12); 3876 1.92.2.4 jdolecek onoff("ASPM L1.1 Supported", reg, PCI_L1PM_CAP_ASPM11); 3877 1.92.2.4 jdolecek onoff("L1 PM Substates Supported", reg, PCI_L1PM_CAP_L1PM); 3878 1.92.2.4 jdolecek printf(" Port Common Mode Restore Time: %uus\n", 3879 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_L1PM_CAP_PCMRT)); 3880 1.92.2.4 jdolecek scale = pci_conf_l1pm_cap_tposcale( 3881 1.92.2.4 jdolecek __SHIFTOUT(reg, PCI_L1PM_CAP_PTPOSCALE)); 3882 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_L1PM_CAP_PTPOVAL); 3883 1.92.2.4 jdolecek printf(" Port T_POWER_ON: "); 3884 1.92.2.4 jdolecek if (scale == -1) 3885 1.92.2.4 jdolecek printf("unknown\n"); 3886 1.92.2.4 jdolecek else 3887 1.92.2.4 jdolecek printf("%dus\n", val * scale); 3888 1.92.2.4 jdolecek 3889 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_L1PM_CTL1)]; 3890 1.92.2.4 jdolecek printf(" L1 PM Substates Control register 1: 0x%08x\n", reg); 3891 1.92.2.4 jdolecek onoff("PCI-PM L1.2 Enable", reg, PCI_L1PM_CTL1_PCIPM12_EN); 3892 1.92.2.4 jdolecek onoff("PCI-PM L1.1 Enable", reg, PCI_L1PM_CTL1_PCIPM11_EN); 3893 1.92.2.4 jdolecek onoff("ASPM L1.2 Enable", reg, PCI_L1PM_CTL1_ASPM12_EN); 3894 1.92.2.4 jdolecek onoff("ASPM L1.1 Enable", reg, PCI_L1PM_CTL1_ASPM11_EN); 3895 1.92.2.4 jdolecek printf(" Common Mode Restore Time: %uus\n", 3896 1.92.2.4 jdolecek (unsigned int)__SHIFTOUT(reg, PCI_L1PM_CTL1_CMRT)); 3897 1.92.2.4 jdolecek scale = PCI_LTR_SCALETONS(__SHIFTOUT(reg, PCI_L1PM_CTL1_LTRTHSCALE)); 3898 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_L1PM_CTL1_LTRTHVAL); 3899 1.92.2.4 jdolecek printf(" LTR L1.2 THRESHOLD: %dus\n", val * scale); 3900 1.92.2.4 jdolecek 3901 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_L1PM_CTL2)]; 3902 1.92.2.4 jdolecek printf(" L1 PM Substates Control register 2: 0x%08x\n", reg); 3903 1.92.2.4 jdolecek scale = pci_conf_l1pm_cap_tposcale( 3904 1.92.2.4 jdolecek __SHIFTOUT(reg, PCI_L1PM_CTL2_TPOSCALE)); 3905 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_L1PM_CTL2_TPOVAL); 3906 1.92.2.4 jdolecek printf(" T_POWER_ON: "); 3907 1.92.2.4 jdolecek if (scale == -1) 3908 1.92.2.4 jdolecek printf("unknown\n"); 3909 1.92.2.4 jdolecek else 3910 1.92.2.4 jdolecek printf("%dus\n", val * scale); 3911 1.77 jmcneill } 3912 1.77 jmcneill 3913 1.72 joerg static void 3914 1.92.2.4 jdolecek pci_conf_print_ptm_cap(const pcireg_t *regs, int capoff, int extcapoff) 3915 1.86 matt { 3916 1.92.2.3 tls pcireg_t reg; 3917 1.92.2.4 jdolecek uint32_t val; 3918 1.86 matt 3919 1.92.2.4 jdolecek printf("\n Precision Time Management\n"); 3920 1.86 matt 3921 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PTM_CAP)]; 3922 1.92.2.4 jdolecek printf(" PTM Capability register: 0x%08x\n", reg); 3923 1.92.2.4 jdolecek onoff("PTM Requester Capable", reg, PCI_PTM_CAP_REQ); 3924 1.92.2.4 jdolecek onoff("PTM Responder Capable", reg, PCI_PTM_CAP_RESP); 3925 1.92.2.4 jdolecek onoff("PTM Root Capable", reg, PCI_PTM_CAP_ROOT); 3926 1.92.2.4 jdolecek printf(" Local Clock Granularity: "); 3927 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_PTM_CAP_LCLCLKGRNL); 3928 1.92.2.4 jdolecek switch (val) { 3929 1.92.2.4 jdolecek case 0: 3930 1.92.2.4 jdolecek printf("Not implemented\n"); 3931 1.92.2.4 jdolecek break; 3932 1.92.2.4 jdolecek case 0xffff: 3933 1.92.2.4 jdolecek printf("> 254ns\n"); 3934 1.92.2.4 jdolecek break; 3935 1.92.2.4 jdolecek default: 3936 1.92.2.4 jdolecek printf("%uns\n", val); 3937 1.92.2.4 jdolecek break; 3938 1.92.2.4 jdolecek } 3939 1.92.2.4 jdolecek 3940 1.92.2.4 jdolecek reg = regs[o2i(extcapoff + PCI_PTM_CTL)]; 3941 1.92.2.4 jdolecek printf(" PTM Control register: 0x%08x\n", reg); 3942 1.92.2.4 jdolecek onoff("PTM Enable", reg, PCI_PTM_CTL_EN); 3943 1.92.2.4 jdolecek onoff("Root Select", reg, PCI_PTM_CTL_ROOTSEL); 3944 1.92.2.4 jdolecek printf(" Effective Granularity: "); 3945 1.92.2.4 jdolecek val = __SHIFTOUT(reg, PCI_PTM_CTL_EFCTGRNL); 3946 1.92.2.4 jdolecek switch (val) { 3947 1.92.2.4 jdolecek case 0: 3948 1.92.2.4 jdolecek printf("Unknown\n"); 3949 1.92.2.4 jdolecek break; 3950 1.92.2.4 jdolecek case 0xffff: 3951 1.92.2.4 jdolecek printf("> 254ns\n"); 3952 1.92.2.4 jdolecek break; 3953 1.92.2.4 jdolecek default: 3954 1.92.2.4 jdolecek printf("%uns\n", val); 3955 1.92.2.4 jdolecek break; 3956 1.92.2.4 jdolecek } 3957 1.92.2.4 jdolecek } 3958 1.92.2.4 jdolecek 3959 1.92.2.4 jdolecek /* XXX pci_conf_print_mpcie_cap */ 3960 1.92.2.4 jdolecek /* XXX pci_conf_print_frsq_cap */ 3961 1.92.2.4 jdolecek /* XXX pci_conf_print_rtr_cap */ 3962 1.92.2.4 jdolecek /* XXX pci_conf_print_desigvndsp_cap */ 3963 1.92.2.4 jdolecek /* XXX pci_conf_print_vf_resizbar_cap */ 3964 1.92.2.4 jdolecek /* XXX pci_conf_print_hierarchyid_cap */ 3965 1.92.2.4 jdolecek /* XXX pci_conf_print_npem_cap */ 3966 1.92.2.4 jdolecek 3967 1.92.2.4 jdolecek #undef MS 3968 1.92.2.4 jdolecek #undef SM 3969 1.92.2.4 jdolecek #undef RW 3970 1.92.2.4 jdolecek 3971 1.92.2.4 jdolecek static struct { 3972 1.92.2.4 jdolecek pcireg_t cap; 3973 1.92.2.4 jdolecek const char *name; 3974 1.92.2.4 jdolecek void (*printfunc)(const pcireg_t *, int, int); 3975 1.92.2.4 jdolecek } pci_extcaptab[] = { 3976 1.92.2.4 jdolecek { 0, "reserved", 3977 1.92.2.4 jdolecek NULL }, 3978 1.92.2.4 jdolecek { PCI_EXTCAP_AER, "Advanced Error Reporting", 3979 1.92.2.4 jdolecek pci_conf_print_aer_cap }, 3980 1.92.2.4 jdolecek { PCI_EXTCAP_VC, "Virtual Channel", 3981 1.92.2.4 jdolecek pci_conf_print_vc_cap }, 3982 1.92.2.4 jdolecek { PCI_EXTCAP_SERNUM, "Device Serial Number", 3983 1.92.2.4 jdolecek pci_conf_print_sernum_cap }, 3984 1.92.2.4 jdolecek { PCI_EXTCAP_PWRBDGT, "Power Budgeting", 3985 1.92.2.4 jdolecek pci_conf_print_pwrbdgt_cap }, 3986 1.92.2.4 jdolecek { PCI_EXTCAP_RCLINK_DCL,"Root Complex Link Declaration", 3987 1.92.2.4 jdolecek pci_conf_print_rclink_dcl_cap }, 3988 1.92.2.4 jdolecek { PCI_EXTCAP_RCLINK_CTL,"Root Complex Internal Link Control", 3989 1.92.2.4 jdolecek NULL }, 3990 1.92.2.4 jdolecek { PCI_EXTCAP_RCEC_ASSOC,"Root Complex Event Collector Association", 3991 1.92.2.4 jdolecek pci_conf_print_rcec_assoc_cap }, 3992 1.92.2.4 jdolecek { PCI_EXTCAP_MFVC, "Multi-Function Virtual Channel", 3993 1.92.2.4 jdolecek NULL }, 3994 1.92.2.4 jdolecek { PCI_EXTCAP_VC2, "Virtual Channel", 3995 1.92.2.4 jdolecek NULL }, 3996 1.92.2.4 jdolecek { PCI_EXTCAP_RCRB, "RCRB Header", 3997 1.92.2.4 jdolecek NULL }, 3998 1.92.2.4 jdolecek { PCI_EXTCAP_VENDOR, "Vendor Unique", 3999 1.92.2.4 jdolecek NULL }, 4000 1.92.2.4 jdolecek { PCI_EXTCAP_CAC, "Configuration Access Correction", 4001 1.92.2.4 jdolecek NULL }, 4002 1.92.2.4 jdolecek { PCI_EXTCAP_ACS, "Access Control Services", 4003 1.92.2.4 jdolecek pci_conf_print_acs_cap }, 4004 1.92.2.4 jdolecek { PCI_EXTCAP_ARI, "Alternative Routing-ID Interpretation", 4005 1.92.2.4 jdolecek pci_conf_print_ari_cap }, 4006 1.92.2.4 jdolecek { PCI_EXTCAP_ATS, "Address Translation Services", 4007 1.92.2.4 jdolecek pci_conf_print_ats_cap }, 4008 1.92.2.4 jdolecek { PCI_EXTCAP_SRIOV, "Single Root IO Virtualization", 4009 1.92.2.4 jdolecek pci_conf_print_sriov_cap }, 4010 1.92.2.4 jdolecek { PCI_EXTCAP_MRIOV, "Multiple Root IO Virtualization", 4011 1.92.2.4 jdolecek NULL }, 4012 1.92.2.4 jdolecek { PCI_EXTCAP_MCAST, "Multicast", 4013 1.92.2.4 jdolecek pci_conf_print_multicast_cap }, 4014 1.92.2.4 jdolecek { PCI_EXTCAP_PAGE_REQ, "Page Request", 4015 1.92.2.4 jdolecek pci_conf_print_page_req_cap }, 4016 1.92.2.4 jdolecek { PCI_EXTCAP_AMD, "Reserved for AMD", 4017 1.92.2.4 jdolecek NULL }, 4018 1.92.2.4 jdolecek { PCI_EXTCAP_RESIZBAR, "Resizable BAR", 4019 1.92.2.4 jdolecek pci_conf_print_resizbar_cap }, 4020 1.92.2.4 jdolecek { PCI_EXTCAP_DPA, "Dynamic Power Allocation", 4021 1.92.2.4 jdolecek pci_conf_print_dpa_cap }, 4022 1.92.2.4 jdolecek { PCI_EXTCAP_TPH_REQ, "TPH Requester", 4023 1.92.2.4 jdolecek pci_conf_print_tph_req_cap }, 4024 1.92.2.4 jdolecek { PCI_EXTCAP_LTR, "Latency Tolerance Reporting", 4025 1.92.2.4 jdolecek pci_conf_print_ltr_cap }, 4026 1.92.2.4 jdolecek { PCI_EXTCAP_SEC_PCIE, "Secondary PCI Express", 4027 1.92.2.4 jdolecek pci_conf_print_sec_pcie_cap }, 4028 1.92.2.4 jdolecek { PCI_EXTCAP_PMUX, "Protocol Multiplexing", 4029 1.92.2.4 jdolecek NULL }, 4030 1.92.2.4 jdolecek { PCI_EXTCAP_PASID, "Process Address Space ID", 4031 1.92.2.4 jdolecek pci_conf_print_pasid_cap }, 4032 1.92.2.4 jdolecek { PCI_EXTCAP_LNR, "LN Requester", 4033 1.92.2.4 jdolecek pci_conf_print_lnr_cap }, 4034 1.92.2.4 jdolecek { PCI_EXTCAP_DPC, "Downstream Port Containment", 4035 1.92.2.4 jdolecek pci_conf_print_dpc_cap }, 4036 1.92.2.4 jdolecek { PCI_EXTCAP_L1PM, "L1 PM Substates", 4037 1.92.2.4 jdolecek pci_conf_print_l1pm_cap }, 4038 1.92.2.4 jdolecek { PCI_EXTCAP_PTM, "Precision Time Management", 4039 1.92.2.4 jdolecek pci_conf_print_ptm_cap }, 4040 1.92.2.4 jdolecek { PCI_EXTCAP_MPCIE, "M-PCIe", 4041 1.92.2.4 jdolecek NULL }, 4042 1.92.2.4 jdolecek { PCI_EXTCAP_FRSQ, "Function Reading Status Queueing", 4043 1.92.2.4 jdolecek NULL }, 4044 1.92.2.4 jdolecek { PCI_EXTCAP_RTR, "Readiness Time Reporting", 4045 1.92.2.4 jdolecek NULL }, 4046 1.92.2.4 jdolecek { PCI_EXTCAP_DESIGVNDSP, "Designated Vendor-Specific", 4047 1.92.2.4 jdolecek NULL }, 4048 1.92.2.4 jdolecek { PCI_EXTCAP_VF_RESIZBAR, "VF Resizable BARs", 4049 1.92.2.4 jdolecek NULL }, 4050 1.92.2.4 jdolecek { PCI_EXTCAP_HIERARCHYID, "Hierarchy ID", 4051 1.92.2.4 jdolecek NULL }, 4052 1.92.2.4 jdolecek { PCI_EXTCAP_NPEM, "Native PCIe Enclosure Management", 4053 1.92.2.4 jdolecek NULL }, 4054 1.92.2.4 jdolecek }; 4055 1.92.2.4 jdolecek 4056 1.92.2.4 jdolecek static int 4057 1.92.2.4 jdolecek pci_conf_find_extcap(const pcireg_t *regs, int capoff, unsigned int capid, 4058 1.92.2.4 jdolecek int *offsetp) 4059 1.92.2.4 jdolecek { 4060 1.92.2.4 jdolecek int off; 4061 1.92.2.4 jdolecek pcireg_t rval; 4062 1.92.2.4 jdolecek 4063 1.92.2.4 jdolecek for (off = PCI_EXTCAPLIST_BASE; 4064 1.92.2.4 jdolecek off != 0; 4065 1.92.2.4 jdolecek off = PCI_EXTCAPLIST_NEXT(rval)) { 4066 1.92.2.4 jdolecek rval = regs[o2i(off)]; 4067 1.92.2.4 jdolecek if (capid == PCI_EXTCAPLIST_CAP(rval)) { 4068 1.92.2.4 jdolecek if (offsetp != NULL) 4069 1.92.2.4 jdolecek *offsetp = off; 4070 1.92.2.4 jdolecek return 1; 4071 1.92.2.4 jdolecek } 4072 1.92.2.4 jdolecek } 4073 1.92.2.4 jdolecek return 0; 4074 1.86 matt } 4075 1.92.2.3 tls 4076 1.86 matt static void 4077 1.92.2.4 jdolecek pci_conf_print_extcaplist( 4078 1.51 drochner #ifdef _KERNEL 4079 1.71 christos pci_chipset_tag_t pc, pcitag_t tag, 4080 1.51 drochner #endif 4081 1.52 drochner const pcireg_t *regs, int capoff) 4082 1.51 drochner { 4083 1.51 drochner int off; 4084 1.92.2.4 jdolecek pcireg_t foundcap; 4085 1.51 drochner pcireg_t rval; 4086 1.92.2.4 jdolecek bool foundtable[__arraycount(pci_extcaptab)]; 4087 1.92.2.4 jdolecek unsigned int i; 4088 1.33 kleink 4089 1.92.2.4 jdolecek /* Check Extended capability structure */ 4090 1.92.2.4 jdolecek off = PCI_EXTCAPLIST_BASE; 4091 1.92.2.4 jdolecek rval = regs[o2i(off)]; 4092 1.92.2.4 jdolecek if (rval == 0xffffffff || rval == 0) 4093 1.92.2.4 jdolecek return; 4094 1.51 drochner 4095 1.92.2.4 jdolecek /* Clear table */ 4096 1.92.2.4 jdolecek for (i = 0; i < __arraycount(pci_extcaptab); i++) 4097 1.92.2.4 jdolecek foundtable[i] = false; 4098 1.92.2.4 jdolecek 4099 1.92.2.4 jdolecek /* Print extended capability register's offset and the type first */ 4100 1.92.2.4 jdolecek for (;;) { 4101 1.92.2.4 jdolecek printf(" Extended Capability Register at 0x%02x\n", off); 4102 1.92.2.4 jdolecek 4103 1.92.2.4 jdolecek foundcap = PCI_EXTCAPLIST_CAP(rval); 4104 1.92.2.4 jdolecek printf(" type: 0x%04x (", foundcap); 4105 1.92.2.4 jdolecek if (foundcap < __arraycount(pci_extcaptab)) { 4106 1.92.2.4 jdolecek printf("%s)\n", pci_extcaptab[foundcap].name); 4107 1.92.2.4 jdolecek /* Mark as found */ 4108 1.92.2.4 jdolecek foundtable[foundcap] = true; 4109 1.92.2.4 jdolecek } else 4110 1.92.2.4 jdolecek printf("unknown)\n"); 4111 1.92.2.4 jdolecek printf(" version: %d\n", PCI_EXTCAPLIST_VERSION(rval)); 4112 1.92.2.4 jdolecek 4113 1.92.2.4 jdolecek off = PCI_EXTCAPLIST_NEXT(rval); 4114 1.92.2.4 jdolecek if (off == 0) 4115 1.87 msaitoh break; 4116 1.92.2.4 jdolecek else if (off <= PCI_CONF_SIZE) { 4117 1.92.2.4 jdolecek printf(" next pointer: 0x%03x (incorrect)\n", off); 4118 1.92.2.4 jdolecek return; 4119 1.33 kleink } 4120 1.92.2.4 jdolecek rval = regs[o2i(off)]; 4121 1.92.2.4 jdolecek } 4122 1.92.2.4 jdolecek 4123 1.92.2.4 jdolecek /* 4124 1.92.2.4 jdolecek * And then, print the detail of each capability registers 4125 1.92.2.4 jdolecek * in capability value's order. 4126 1.92.2.4 jdolecek */ 4127 1.92.2.4 jdolecek for (i = 0; i < __arraycount(pci_extcaptab); i++) { 4128 1.92.2.4 jdolecek if (foundtable[i] == false) 4129 1.92.2.4 jdolecek continue; 4130 1.92.2.4 jdolecek 4131 1.92.2.4 jdolecek /* 4132 1.92.2.4 jdolecek * The type was found. Search capability list again and 4133 1.92.2.4 jdolecek * print all capabilities that the capabiliy type is 4134 1.92.2.4 jdolecek * the same. 4135 1.92.2.4 jdolecek */ 4136 1.92.2.4 jdolecek if (pci_conf_find_extcap(regs, capoff, i, &off) == 0) 4137 1.92.2.4 jdolecek continue; 4138 1.92.2.4 jdolecek rval = regs[o2i(off)]; 4139 1.92.2.4 jdolecek if ((PCI_EXTCAPLIST_VERSION(rval) <= 0) 4140 1.92.2.4 jdolecek || (pci_extcaptab[i].printfunc == NULL)) 4141 1.92.2.4 jdolecek continue; 4142 1.92.2.4 jdolecek 4143 1.92.2.4 jdolecek pci_extcaptab[i].printfunc(regs, capoff, off); 4144 1.92.2.4 jdolecek 4145 1.33 kleink } 4146 1.26 cgd } 4147 1.26 cgd 4148 1.79 dyoung /* Print the Secondary Status Register. */ 4149 1.79 dyoung static void 4150 1.79 dyoung pci_conf_print_ssr(pcireg_t rval) 4151 1.79 dyoung { 4152 1.79 dyoung pcireg_t devsel; 4153 1.79 dyoung 4154 1.79 dyoung printf(" Secondary status register: 0x%04x\n", rval); /* XXX bits */ 4155 1.92.2.3 tls onoff("66 MHz capable", rval, __BIT(5)); 4156 1.92.2.3 tls onoff("User Definable Features (UDF) support", rval, __BIT(6)); 4157 1.92.2.3 tls onoff("Fast back-to-back capable", rval, __BIT(7)); 4158 1.92.2.3 tls onoff("Data parity error detected", rval, __BIT(8)); 4159 1.79 dyoung 4160 1.79 dyoung printf(" DEVSEL timing: "); 4161 1.79 dyoung devsel = __SHIFTOUT(rval, __BITS(10, 9)); 4162 1.79 dyoung switch (devsel) { 4163 1.79 dyoung case 0: 4164 1.79 dyoung printf("fast"); 4165 1.79 dyoung break; 4166 1.79 dyoung case 1: 4167 1.79 dyoung printf("medium"); 4168 1.79 dyoung break; 4169 1.79 dyoung case 2: 4170 1.79 dyoung printf("slow"); 4171 1.79 dyoung break; 4172 1.79 dyoung default: 4173 1.79 dyoung printf("unknown/reserved"); /* XXX */ 4174 1.79 dyoung break; 4175 1.79 dyoung } 4176 1.79 dyoung printf(" (0x%x)\n", devsel); 4177 1.79 dyoung 4178 1.92.2.3 tls onoff("Signalled target abort", rval, __BIT(11)); 4179 1.92.2.3 tls onoff("Received target abort", rval, __BIT(12)); 4180 1.92.2.3 tls onoff("Received master abort", rval, __BIT(13)); 4181 1.92.2.3 tls onoff("Received system error", rval, __BIT(14)); 4182 1.92.2.3 tls onoff("Detected parity error", rval, __BIT(15)); 4183 1.92.2.3 tls } 4184 1.92.2.3 tls 4185 1.92.2.3 tls static void 4186 1.92.2.3 tls pci_conf_print_type0( 4187 1.92.2.3 tls #ifdef _KERNEL 4188 1.92.2.3 tls pci_chipset_tag_t pc, pcitag_t tag, 4189 1.92.2.3 tls #endif 4190 1.92.2.4 jdolecek const pcireg_t *regs) 4191 1.92.2.3 tls { 4192 1.92.2.3 tls int off, width; 4193 1.92.2.3 tls pcireg_t rval; 4194 1.92.2.4 jdolecek const char *str; 4195 1.92.2.3 tls 4196 1.92.2.3 tls for (off = PCI_MAPREG_START; off < PCI_MAPREG_END; off += width) { 4197 1.92.2.3 tls #ifdef _KERNEL 4198 1.92.2.4 jdolecek width = pci_conf_print_bar(pc, tag, regs, off, NULL); 4199 1.92.2.3 tls #else 4200 1.92.2.3 tls width = pci_conf_print_bar(regs, off, NULL); 4201 1.92.2.3 tls #endif 4202 1.92.2.3 tls } 4203 1.92.2.3 tls 4204 1.92.2.4 jdolecek printf(" Cardbus CIS Pointer: 0x%08x\n", 4205 1.92.2.4 jdolecek regs[o2i(PCI_CARDBUS_CIS_REG)]); 4206 1.92.2.3 tls 4207 1.92.2.3 tls rval = regs[o2i(PCI_SUBSYS_ID_REG)]; 4208 1.92.2.3 tls printf(" Subsystem vendor ID: 0x%04x\n", PCI_VENDOR(rval)); 4209 1.92.2.3 tls printf(" Subsystem ID: 0x%04x\n", PCI_PRODUCT(rval)); 4210 1.92.2.3 tls 4211 1.92.2.4 jdolecek rval = regs[o2i(PCI_MAPREG_ROM)]; 4212 1.92.2.4 jdolecek printf(" Expansion ROM Base Address Register: 0x%08x\n", rval); 4213 1.92.2.4 jdolecek printf(" base: 0x%08x\n", (uint32_t)PCI_MAPREG_ROM_ADDR(rval)); 4214 1.92.2.4 jdolecek onoff("Expansion ROM Enable", rval, PCI_MAPREG_ROM_ENABLE); 4215 1.92.2.4 jdolecek printf(" Validation Status: "); 4216 1.92.2.4 jdolecek switch (__SHIFTOUT(rval, PCI_MAPREG_ROM_VALID_STAT)) { 4217 1.92.2.4 jdolecek case PCI_MAPREG_ROM_VSTAT_NOTSUPP: 4218 1.92.2.4 jdolecek str = "Validation not supported"; 4219 1.92.2.4 jdolecek break; 4220 1.92.2.4 jdolecek case PCI_MAPREG_ROM_VSTAT_INPROG: 4221 1.92.2.4 jdolecek str = "Validation in Progress"; 4222 1.92.2.4 jdolecek break; 4223 1.92.2.4 jdolecek case PCI_MAPREG_ROM_VSTAT_VPASS: 4224 1.92.2.4 jdolecek str = "Validation Pass. " 4225 1.92.2.4 jdolecek "Valid contents, trust test was not performed"; 4226 1.92.2.4 jdolecek break; 4227 1.92.2.4 jdolecek case PCI_MAPREG_ROM_VSTAT_VPASSTRUST: 4228 1.92.2.4 jdolecek str = "Validation Pass. Valid and trusted contents"; 4229 1.92.2.4 jdolecek break; 4230 1.92.2.4 jdolecek case PCI_MAPREG_ROM_VSTAT_VFAIL: 4231 1.92.2.4 jdolecek str = "Validation Fail. Invalid contents"; 4232 1.92.2.4 jdolecek break; 4233 1.92.2.4 jdolecek case PCI_MAPREG_ROM_VSTAT_VFAILUNTRUST: 4234 1.92.2.4 jdolecek str = "Validation Fail. Valid but untrusted contents"; 4235 1.92.2.4 jdolecek break; 4236 1.92.2.4 jdolecek case PCI_MAPREG_ROM_VSTAT_WPASS: 4237 1.92.2.4 jdolecek str = "Warning Pass. Validation passed with warning. " 4238 1.92.2.4 jdolecek "Valid contents, trust test was not performed"; 4239 1.92.2.4 jdolecek break; 4240 1.92.2.4 jdolecek case PCI_MAPREG_ROM_VSTAT_WPASSTRUST: 4241 1.92.2.4 jdolecek str = "Warning Pass. Validation passed with warning. " 4242 1.92.2.4 jdolecek "Valid and trusted contents"; 4243 1.92.2.4 jdolecek break; 4244 1.92.2.4 jdolecek } 4245 1.92.2.4 jdolecek printf("%s\n", str); 4246 1.92.2.4 jdolecek printf(" Validation Details: 0x%x\n", 4247 1.92.2.4 jdolecek (uint32_t)__SHIFTOUT(rval, PCI_MAPREG_ROM_VALID_DETAIL)); 4248 1.92.2.3 tls 4249 1.92.2.3 tls if (regs[o2i(PCI_COMMAND_STATUS_REG)] & PCI_STATUS_CAPLIST_SUPPORT) 4250 1.92.2.3 tls printf(" Capability list pointer: 0x%02x\n", 4251 1.92.2.3 tls PCI_CAPLIST_PTR(regs[o2i(PCI_CAPLISTPTR_REG)])); 4252 1.92.2.3 tls else 4253 1.92.2.3 tls printf(" Reserved @ 0x34: 0x%08x\n", regs[o2i(0x34)]); 4254 1.92.2.3 tls 4255 1.92.2.3 tls printf(" Reserved @ 0x38: 0x%08x\n", regs[o2i(0x38)]); 4256 1.92.2.3 tls 4257 1.92.2.3 tls rval = regs[o2i(PCI_INTERRUPT_REG)]; 4258 1.92.2.4 jdolecek printf(" Maximum Latency: 0x%02x\n", PCI_MAX_LAT(rval)); 4259 1.92.2.4 jdolecek printf(" Minimum Grant: 0x%02x\n", PCI_MIN_GNT(rval)); 4260 1.92.2.3 tls printf(" Interrupt pin: 0x%02x ", PCI_INTERRUPT_PIN(rval)); 4261 1.92.2.3 tls switch (PCI_INTERRUPT_PIN(rval)) { 4262 1.92.2.3 tls case PCI_INTERRUPT_PIN_NONE: 4263 1.92.2.3 tls printf("(none)"); 4264 1.92.2.3 tls break; 4265 1.92.2.3 tls case PCI_INTERRUPT_PIN_A: 4266 1.92.2.3 tls printf("(pin A)"); 4267 1.92.2.3 tls break; 4268 1.92.2.3 tls case PCI_INTERRUPT_PIN_B: 4269 1.92.2.3 tls printf("(pin B)"); 4270 1.92.2.3 tls break; 4271 1.92.2.3 tls case PCI_INTERRUPT_PIN_C: 4272 1.92.2.3 tls printf("(pin C)"); 4273 1.92.2.3 tls break; 4274 1.92.2.3 tls case PCI_INTERRUPT_PIN_D: 4275 1.92.2.3 tls printf("(pin D)"); 4276 1.92.2.3 tls break; 4277 1.92.2.3 tls default: 4278 1.92.2.3 tls printf("(? ? ?)"); 4279 1.92.2.3 tls break; 4280 1.92.2.3 tls } 4281 1.92.2.3 tls printf("\n"); 4282 1.92.2.3 tls printf(" Interrupt line: 0x%02x\n", PCI_INTERRUPT_LINE(rval)); 4283 1.79 dyoung } 4284 1.79 dyoung 4285 1.27 cgd static void 4286 1.45 thorpej pci_conf_print_type1( 4287 1.45 thorpej #ifdef _KERNEL 4288 1.45 thorpej pci_chipset_tag_t pc, pcitag_t tag, 4289 1.45 thorpej #endif 4290 1.92.2.4 jdolecek const pcireg_t *regs) 4291 1.27 cgd { 4292 1.37 nathanw int off, width; 4293 1.27 cgd pcireg_t rval; 4294 1.92.2.3 tls uint32_t base, limit; 4295 1.92.2.3 tls uint32_t base_h, limit_h; 4296 1.92.2.3 tls uint64_t pbase, plimit; 4297 1.92.2.3 tls int use_upper; 4298 1.27 cgd 4299 1.27 cgd /* 4300 1.27 cgd * This layout was cribbed from the TI PCI2030 PCI-to-PCI 4301 1.27 cgd * Bridge chip documentation, and may not be correct with 4302 1.27 cgd * respect to various standards. (XXX) 4303 1.27 cgd */ 4304 1.27 cgd 4305 1.45 thorpej for (off = 0x10; off < 0x18; off += width) { 4306 1.45 thorpej #ifdef _KERNEL 4307 1.92.2.4 jdolecek width = pci_conf_print_bar(pc, tag, regs, off, NULL); 4308 1.45 thorpej #else 4309 1.45 thorpej width = pci_conf_print_bar(regs, off, NULL); 4310 1.45 thorpej #endif 4311 1.45 thorpej } 4312 1.27 cgd 4313 1.92.2.3 tls rval = regs[o2i(PCI_BRIDGE_BUS_REG)]; 4314 1.27 cgd printf(" Primary bus number: 0x%02x\n", 4315 1.92.2.3 tls PCI_BRIDGE_BUS_PRIMARY(rval)); 4316 1.27 cgd printf(" Secondary bus number: 0x%02x\n", 4317 1.92.2.3 tls PCI_BRIDGE_BUS_SECONDARY(rval)); 4318 1.27 cgd printf(" Subordinate bus number: 0x%02x\n", 4319 1.92.2.3 tls PCI_BRIDGE_BUS_SUBORDINATE(rval)); 4320 1.27 cgd printf(" Secondary bus latency timer: 0x%02x\n", 4321 1.92.2.3 tls PCI_BRIDGE_BUS_SEC_LATTIMER(rval)); 4322 1.27 cgd 4323 1.92.2.3 tls rval = regs[o2i(PCI_BRIDGE_STATIO_REG)]; 4324 1.92.2.3 tls pci_conf_print_ssr(__SHIFTOUT(rval, __BITS(31, 16))); 4325 1.27 cgd 4326 1.92.2.3 tls /* I/O region */ 4327 1.27 cgd printf(" I/O region:\n"); 4328 1.92.2.3 tls printf(" base register: 0x%02x\n", (rval >> 0) & 0xff); 4329 1.92.2.3 tls printf(" limit register: 0x%02x\n", (rval >> 8) & 0xff); 4330 1.92.2.3 tls if (PCI_BRIDGE_IO_32BITS(rval)) 4331 1.92.2.3 tls use_upper = 1; 4332 1.92.2.3 tls else 4333 1.92.2.3 tls use_upper = 0; 4334 1.92.2.3 tls onoff("32bit I/O", rval, use_upper); 4335 1.92.2.3 tls base = (rval & PCI_BRIDGE_STATIO_IOBASE_MASK) << 8; 4336 1.92.2.3 tls limit = ((rval >> PCI_BRIDGE_STATIO_IOLIMIT_SHIFT) 4337 1.92.2.3 tls & PCI_BRIDGE_STATIO_IOLIMIT_MASK) << 8; 4338 1.92.2.3 tls limit |= 0x00000fff; 4339 1.92.2.3 tls 4340 1.92.2.3 tls rval = regs[o2i(PCI_BRIDGE_IOHIGH_REG)]; 4341 1.92.2.3 tls base_h = (rval >> 0) & 0xffff; 4342 1.92.2.3 tls limit_h = (rval >> 16) & 0xffff; 4343 1.92.2.3 tls printf(" base upper 16 bits register: 0x%04x\n", base_h); 4344 1.92.2.3 tls printf(" limit upper 16 bits register: 0x%04x\n", limit_h); 4345 1.92.2.3 tls 4346 1.92.2.3 tls if (use_upper == 1) { 4347 1.92.2.3 tls base |= base_h << 16; 4348 1.92.2.3 tls limit |= limit_h << 16; 4349 1.92.2.3 tls } 4350 1.92.2.3 tls if (base < limit) { 4351 1.92.2.3 tls if (use_upper == 1) 4352 1.92.2.4 jdolecek printf(" range: 0x%08x-0x%08x\n", base, limit); 4353 1.92.2.3 tls else 4354 1.92.2.4 jdolecek printf(" range: 0x%04x-0x%04x\n", base, limit); 4355 1.92.2.3 tls } else 4356 1.92.2.3 tls printf(" range: not set\n"); 4357 1.27 cgd 4358 1.92.2.3 tls /* Non-prefetchable memory region */ 4359 1.92.2.3 tls rval = regs[o2i(PCI_BRIDGE_MEMORY_REG)]; 4360 1.27 cgd printf(" Memory region:\n"); 4361 1.27 cgd printf(" base register: 0x%04x\n", 4362 1.92.2.3 tls (rval >> 0) & 0xffff); 4363 1.27 cgd printf(" limit register: 0x%04x\n", 4364 1.92.2.3 tls (rval >> 16) & 0xffff); 4365 1.92.2.3 tls base = ((rval >> PCI_BRIDGE_MEMORY_BASE_SHIFT) 4366 1.92.2.3 tls & PCI_BRIDGE_MEMORY_BASE_MASK) << 20; 4367 1.92.2.3 tls limit = (((rval >> PCI_BRIDGE_MEMORY_LIMIT_SHIFT) 4368 1.92.2.3 tls & PCI_BRIDGE_MEMORY_LIMIT_MASK) << 20) | 0x000fffff; 4369 1.92.2.3 tls if (base < limit) 4370 1.92.2.4 jdolecek printf(" range: 0x%08x-0x%08x\n", base, limit); 4371 1.92.2.3 tls else 4372 1.92.2.4 jdolecek printf(" range: not set\n"); 4373 1.27 cgd 4374 1.92.2.3 tls /* Prefetchable memory region */ 4375 1.92.2.3 tls rval = regs[o2i(PCI_BRIDGE_PREFETCHMEM_REG)]; 4376 1.27 cgd printf(" Prefetchable memory region:\n"); 4377 1.27 cgd printf(" base register: 0x%04x\n", 4378 1.92.2.3 tls (rval >> 0) & 0xffff); 4379 1.27 cgd printf(" limit register: 0x%04x\n", 4380 1.92.2.3 tls (rval >> 16) & 0xffff); 4381 1.92.2.3 tls base_h = regs[o2i(PCI_BRIDGE_PREFETCHBASE32_REG)]; 4382 1.92.2.3 tls limit_h = regs[o2i(PCI_BRIDGE_PREFETCHLIMIT32_REG)]; 4383 1.92.2.3 tls printf(" base upper 32 bits register: 0x%08x\n", 4384 1.92.2.3 tls base_h); 4385 1.92.2.3 tls printf(" limit upper 32 bits register: 0x%08x\n", 4386 1.92.2.3 tls limit_h); 4387 1.92.2.3 tls if (PCI_BRIDGE_PREFETCHMEM_64BITS(rval)) 4388 1.92.2.3 tls use_upper = 1; 4389 1.92.2.3 tls else 4390 1.92.2.3 tls use_upper = 0; 4391 1.92.2.3 tls onoff("64bit memory address", rval, use_upper); 4392 1.92.2.3 tls pbase = ((rval >> PCI_BRIDGE_PREFETCHMEM_BASE_SHIFT) 4393 1.92.2.3 tls & PCI_BRIDGE_PREFETCHMEM_BASE_MASK) << 20; 4394 1.92.2.3 tls plimit = (((rval >> PCI_BRIDGE_PREFETCHMEM_LIMIT_SHIFT) 4395 1.92.2.3 tls & PCI_BRIDGE_PREFETCHMEM_LIMIT_MASK) << 20) | 0x000fffff; 4396 1.92.2.3 tls if (use_upper == 1) { 4397 1.92.2.3 tls pbase |= (uint64_t)base_h << 32; 4398 1.92.2.3 tls plimit |= (uint64_t)limit_h << 32; 4399 1.92.2.3 tls } 4400 1.92.2.3 tls if (pbase < plimit) { 4401 1.92.2.3 tls if (use_upper == 1) 4402 1.92.2.4 jdolecek printf(" range: 0x%016" PRIx64 "-0x%016" PRIx64 4403 1.92.2.3 tls "\n", pbase, plimit); 4404 1.92.2.3 tls else 4405 1.92.2.4 jdolecek printf(" range: 0x%08x-0x%08x\n", 4406 1.92.2.3 tls (uint32_t)pbase, (uint32_t)plimit); 4407 1.92.2.3 tls } else 4408 1.92.2.4 jdolecek printf(" range: not set\n"); 4409 1.27 cgd 4410 1.53 drochner if (regs[o2i(PCI_COMMAND_STATUS_REG)] & PCI_STATUS_CAPLIST_SUPPORT) 4411 1.53 drochner printf(" Capability list pointer: 0x%02x\n", 4412 1.53 drochner PCI_CAPLIST_PTR(regs[o2i(PCI_CAPLISTPTR_REG)])); 4413 1.53 drochner else 4414 1.53 drochner printf(" Reserved @ 0x34: 0x%08x\n", regs[o2i(0x34)]); 4415 1.53 drochner 4416 1.27 cgd /* XXX */ 4417 1.27 cgd printf(" Expansion ROM Base Address: 0x%08x\n", regs[o2i(0x38)]); 4418 1.27 cgd 4419 1.92.2.3 tls rval = regs[o2i(PCI_INTERRUPT_REG)]; 4420 1.27 cgd printf(" Interrupt line: 0x%02x\n", 4421 1.92.2.3 tls (rval >> 0) & 0xff); 4422 1.27 cgd printf(" Interrupt pin: 0x%02x ", 4423 1.92.2.3 tls (rval >> 8) & 0xff); 4424 1.92.2.3 tls switch ((rval >> 8) & 0xff) { 4425 1.27 cgd case PCI_INTERRUPT_PIN_NONE: 4426 1.27 cgd printf("(none)"); 4427 1.27 cgd break; 4428 1.27 cgd case PCI_INTERRUPT_PIN_A: 4429 1.27 cgd printf("(pin A)"); 4430 1.27 cgd break; 4431 1.27 cgd case PCI_INTERRUPT_PIN_B: 4432 1.27 cgd printf("(pin B)"); 4433 1.27 cgd break; 4434 1.27 cgd case PCI_INTERRUPT_PIN_C: 4435 1.27 cgd printf("(pin C)"); 4436 1.27 cgd break; 4437 1.27 cgd case PCI_INTERRUPT_PIN_D: 4438 1.27 cgd printf("(pin D)"); 4439 1.27 cgd break; 4440 1.27 cgd default: 4441 1.36 mrg printf("(? ? ?)"); 4442 1.27 cgd break; 4443 1.27 cgd } 4444 1.27 cgd printf("\n"); 4445 1.92.2.3 tls rval = (regs[o2i(PCI_BRIDGE_CONTROL_REG)] >> PCI_BRIDGE_CONTROL_SHIFT) 4446 1.92.2.3 tls & PCI_BRIDGE_CONTROL_MASK; 4447 1.27 cgd printf(" Bridge control register: 0x%04x\n", rval); /* XXX bits */ 4448 1.92.2.4 jdolecek onoff("Parity error response", rval, PCI_BRIDGE_CONTROL_PERE); 4449 1.92.2.4 jdolecek onoff("Secondary SERR forwarding", rval, PCI_BRIDGE_CONTROL_SERR); 4450 1.92.2.4 jdolecek onoff("ISA enable", rval, PCI_BRIDGE_CONTROL_ISA); 4451 1.92.2.4 jdolecek onoff("VGA enable", rval, PCI_BRIDGE_CONTROL_VGA); 4452 1.92.2.4 jdolecek onoff("Master abort reporting", rval, PCI_BRIDGE_CONTROL_MABRT); 4453 1.92.2.4 jdolecek onoff("Secondary bus reset", rval, PCI_BRIDGE_CONTROL_SECBR); 4454 1.92.2.4 jdolecek onoff("Fast back-to-back capable", rval,PCI_BRIDGE_CONTROL_SECFASTB2B); 4455 1.27 cgd } 4456 1.27 cgd 4457 1.27 cgd static void 4458 1.45 thorpej pci_conf_print_type2( 4459 1.45 thorpej #ifdef _KERNEL 4460 1.45 thorpej pci_chipset_tag_t pc, pcitag_t tag, 4461 1.45 thorpej #endif 4462 1.92.2.4 jdolecek const pcireg_t *regs) 4463 1.27 cgd { 4464 1.27 cgd pcireg_t rval; 4465 1.27 cgd 4466 1.27 cgd /* 4467 1.27 cgd * XXX these need to be printed in more detail, need to be 4468 1.27 cgd * XXX checked against specs/docs, etc. 4469 1.27 cgd * 4470 1.79 dyoung * This layout was cribbed from the TI PCI1420 PCI-to-CardBus 4471 1.27 cgd * controller chip documentation, and may not be correct with 4472 1.27 cgd * respect to various standards. (XXX) 4473 1.27 cgd */ 4474 1.27 cgd 4475 1.45 thorpej #ifdef _KERNEL 4476 1.28 cgd pci_conf_print_bar(pc, tag, regs, 0x10, 4477 1.92.2.4 jdolecek "CardBus socket/ExCA registers"); 4478 1.45 thorpej #else 4479 1.45 thorpej pci_conf_print_bar(regs, 0x10, "CardBus socket/ExCA registers"); 4480 1.45 thorpej #endif 4481 1.27 cgd 4482 1.92.2.3 tls /* Capability list pointer and secondary status register */ 4483 1.92.2.3 tls rval = regs[o2i(PCI_CARDBUS_CAPLISTPTR_REG)]; 4484 1.53 drochner if (regs[o2i(PCI_COMMAND_STATUS_REG)] & PCI_STATUS_CAPLIST_SUPPORT) 4485 1.53 drochner printf(" Capability list pointer: 0x%02x\n", 4486 1.92.2.3 tls PCI_CAPLIST_PTR(rval)); 4487 1.53 drochner else 4488 1.92.2.4 jdolecek printf(" Reserved @ 0x14: 0x%04x\n", 4489 1.92.2.4 jdolecek (pcireg_t)__SHIFTOUT(rval, __BITS(15, 0))); 4490 1.92.2.3 tls pci_conf_print_ssr(__SHIFTOUT(rval, __BITS(31, 16))); 4491 1.27 cgd 4492 1.92.2.3 tls rval = regs[o2i(PCI_BRIDGE_BUS_REG)]; 4493 1.27 cgd printf(" PCI bus number: 0x%02x\n", 4494 1.92.2.3 tls (rval >> 0) & 0xff); 4495 1.27 cgd printf(" CardBus bus number: 0x%02x\n", 4496 1.92.2.3 tls (rval >> 8) & 0xff); 4497 1.27 cgd printf(" Subordinate bus number: 0x%02x\n", 4498 1.92.2.3 tls (rval >> 16) & 0xff); 4499 1.27 cgd printf(" CardBus latency timer: 0x%02x\n", 4500 1.92.2.3 tls (rval >> 24) & 0xff); 4501 1.27 cgd 4502 1.27 cgd /* XXX Print more prettily */ 4503 1.27 cgd printf(" CardBus memory region 0:\n"); 4504 1.27 cgd printf(" base register: 0x%08x\n", regs[o2i(0x1c)]); 4505 1.27 cgd printf(" limit register: 0x%08x\n", regs[o2i(0x20)]); 4506 1.27 cgd printf(" CardBus memory region 1:\n"); 4507 1.27 cgd printf(" base register: 0x%08x\n", regs[o2i(0x24)]); 4508 1.27 cgd printf(" limit register: 0x%08x\n", regs[o2i(0x28)]); 4509 1.27 cgd printf(" CardBus I/O region 0:\n"); 4510 1.27 cgd printf(" base register: 0x%08x\n", regs[o2i(0x2c)]); 4511 1.27 cgd printf(" limit register: 0x%08x\n", regs[o2i(0x30)]); 4512 1.27 cgd printf(" CardBus I/O region 1:\n"); 4513 1.27 cgd printf(" base register: 0x%08x\n", regs[o2i(0x34)]); 4514 1.27 cgd printf(" limit register: 0x%08x\n", regs[o2i(0x38)]); 4515 1.27 cgd 4516 1.92.2.3 tls rval = regs[o2i(PCI_INTERRUPT_REG)]; 4517 1.27 cgd printf(" Interrupt line: 0x%02x\n", 4518 1.92.2.3 tls (rval >> 0) & 0xff); 4519 1.27 cgd printf(" Interrupt pin: 0x%02x ", 4520 1.92.2.3 tls (rval >> 8) & 0xff); 4521 1.92.2.3 tls switch ((rval >> 8) & 0xff) { 4522 1.27 cgd case PCI_INTERRUPT_PIN_NONE: 4523 1.27 cgd printf("(none)"); 4524 1.27 cgd break; 4525 1.27 cgd case PCI_INTERRUPT_PIN_A: 4526 1.27 cgd printf("(pin A)"); 4527 1.27 cgd break; 4528 1.27 cgd case PCI_INTERRUPT_PIN_B: 4529 1.27 cgd printf("(pin B)"); 4530 1.27 cgd break; 4531 1.27 cgd case PCI_INTERRUPT_PIN_C: 4532 1.27 cgd printf("(pin C)"); 4533 1.27 cgd break; 4534 1.27 cgd case PCI_INTERRUPT_PIN_D: 4535 1.27 cgd printf("(pin D)"); 4536 1.27 cgd break; 4537 1.27 cgd default: 4538 1.36 mrg printf("(? ? ?)"); 4539 1.27 cgd break; 4540 1.27 cgd } 4541 1.27 cgd printf("\n"); 4542 1.92.2.4 jdolecek rval = (regs[o2i(PCI_BRIDGE_CONTROL_REG)] >> 16) & 0xffff; 4543 1.27 cgd printf(" Bridge control register: 0x%04x\n", rval); 4544 1.92.2.3 tls onoff("Parity error response", rval, __BIT(0)); 4545 1.92.2.3 tls onoff("SERR# enable", rval, __BIT(1)); 4546 1.92.2.3 tls onoff("ISA enable", rval, __BIT(2)); 4547 1.92.2.3 tls onoff("VGA enable", rval, __BIT(3)); 4548 1.92.2.3 tls onoff("Master abort mode", rval, __BIT(5)); 4549 1.92.2.3 tls onoff("Secondary (CardBus) bus reset", rval, __BIT(6)); 4550 1.92.2.3 tls onoff("Functional interrupts routed by ExCA registers", rval, 4551 1.92.2.3 tls __BIT(7)); 4552 1.92.2.3 tls onoff("Memory window 0 prefetchable", rval, __BIT(8)); 4553 1.92.2.3 tls onoff("Memory window 1 prefetchable", rval, __BIT(9)); 4554 1.92.2.3 tls onoff("Write posting enable", rval, __BIT(10)); 4555 1.28 cgd 4556 1.28 cgd rval = regs[o2i(0x40)]; 4557 1.28 cgd printf(" Subsystem vendor ID: 0x%04x\n", PCI_VENDOR(rval)); 4558 1.28 cgd printf(" Subsystem ID: 0x%04x\n", PCI_PRODUCT(rval)); 4559 1.28 cgd 4560 1.45 thorpej #ifdef _KERNEL 4561 1.92.2.4 jdolecek pci_conf_print_bar(pc, tag, regs, 0x44, "legacy-mode registers"); 4562 1.45 thorpej #else 4563 1.45 thorpej pci_conf_print_bar(regs, 0x44, "legacy-mode registers"); 4564 1.45 thorpej #endif 4565 1.27 cgd } 4566 1.27 cgd 4567 1.26 cgd void 4568 1.45 thorpej pci_conf_print( 4569 1.45 thorpej #ifdef _KERNEL 4570 1.45 thorpej pci_chipset_tag_t pc, pcitag_t tag, 4571 1.45 thorpej void (*printfn)(pci_chipset_tag_t, pcitag_t, const pcireg_t *) 4572 1.45 thorpej #else 4573 1.45 thorpej int pcifd, u_int bus, u_int dev, u_int func 4574 1.45 thorpej #endif 4575 1.45 thorpej ) 4576 1.26 cgd { 4577 1.92.2.4 jdolecek pcireg_t regs[o2i(PCI_EXTCONF_SIZE)]; 4578 1.52 drochner int off, capoff, endoff, hdrtype; 4579 1.92.2.4 jdolecek const char *type_name; 4580 1.45 thorpej #ifdef _KERNEL 4581 1.92.2.4 jdolecek void (*type_printfn)(pci_chipset_tag_t, pcitag_t, const pcireg_t *); 4582 1.45 thorpej #else 4583 1.92.2.4 jdolecek void (*type_printfn)(const pcireg_t *); 4584 1.45 thorpej #endif 4585 1.26 cgd 4586 1.26 cgd printf("PCI configuration registers:\n"); 4587 1.26 cgd 4588 1.92.2.4 jdolecek for (off = 0; off < PCI_EXTCONF_SIZE; off += 4) { 4589 1.45 thorpej #ifdef _KERNEL 4590 1.26 cgd regs[o2i(off)] = pci_conf_read(pc, tag, off); 4591 1.45 thorpej #else 4592 1.45 thorpej if (pcibus_conf_read(pcifd, bus, dev, func, off, 4593 1.45 thorpej ®s[o2i(off)]) == -1) 4594 1.45 thorpej regs[o2i(off)] = 0; 4595 1.45 thorpej #endif 4596 1.45 thorpej } 4597 1.26 cgd 4598 1.26 cgd /* common header */ 4599 1.26 cgd printf(" Common header:\n"); 4600 1.28 cgd pci_conf_print_regs(regs, 0, 16); 4601 1.28 cgd 4602 1.26 cgd printf("\n"); 4603 1.45 thorpej #ifdef _KERNEL 4604 1.26 cgd pci_conf_print_common(pc, tag, regs); 4605 1.45 thorpej #else 4606 1.45 thorpej pci_conf_print_common(regs); 4607 1.45 thorpej #endif 4608 1.26 cgd printf("\n"); 4609 1.26 cgd 4610 1.26 cgd /* type-dependent header */ 4611 1.26 cgd hdrtype = PCI_HDRTYPE_TYPE(regs[o2i(PCI_BHLC_REG)]); 4612 1.26 cgd switch (hdrtype) { /* XXX make a table, eventually */ 4613 1.26 cgd case 0: 4614 1.27 cgd /* Standard device header */ 4615 1.92.2.4 jdolecek type_name = "\"normal\" device"; 4616 1.92.2.4 jdolecek type_printfn = &pci_conf_print_type0; 4617 1.52 drochner capoff = PCI_CAPLISTPTR_REG; 4618 1.28 cgd endoff = 64; 4619 1.27 cgd break; 4620 1.27 cgd case 1: 4621 1.27 cgd /* PCI-PCI bridge header */ 4622 1.92.2.4 jdolecek type_name = "PCI-PCI bridge"; 4623 1.92.2.4 jdolecek type_printfn = &pci_conf_print_type1; 4624 1.52 drochner capoff = PCI_CAPLISTPTR_REG; 4625 1.28 cgd endoff = 64; 4626 1.26 cgd break; 4627 1.27 cgd case 2: 4628 1.27 cgd /* PCI-CardBus bridge header */ 4629 1.92.2.4 jdolecek type_name = "PCI-CardBus bridge"; 4630 1.92.2.4 jdolecek type_printfn = &pci_conf_print_type2; 4631 1.52 drochner capoff = PCI_CARDBUS_CAPLISTPTR_REG; 4632 1.28 cgd endoff = 72; 4633 1.27 cgd break; 4634 1.26 cgd default: 4635 1.92.2.4 jdolecek type_name = NULL; 4636 1.92.2.4 jdolecek type_printfn = 0; 4637 1.52 drochner capoff = -1; 4638 1.28 cgd endoff = 64; 4639 1.28 cgd break; 4640 1.26 cgd } 4641 1.27 cgd printf(" Type %d ", hdrtype); 4642 1.92.2.4 jdolecek if (type_name != NULL) 4643 1.92.2.4 jdolecek printf("(%s) ", type_name); 4644 1.27 cgd printf("header:\n"); 4645 1.28 cgd pci_conf_print_regs(regs, 16, endoff); 4646 1.27 cgd printf("\n"); 4647 1.92.2.4 jdolecek if (type_printfn) { 4648 1.45 thorpej #ifdef _KERNEL 4649 1.92.2.4 jdolecek (*type_printfn)(pc, tag, regs); 4650 1.45 thorpej #else 4651 1.92.2.4 jdolecek (*type_printfn)(regs); 4652 1.45 thorpej #endif 4653 1.45 thorpej } else 4654 1.26 cgd printf(" Don't know how to pretty-print type %d header.\n", 4655 1.26 cgd hdrtype); 4656 1.26 cgd printf("\n"); 4657 1.51 drochner 4658 1.55 jdolecek /* capability list, if present */ 4659 1.52 drochner if ((regs[o2i(PCI_COMMAND_STATUS_REG)] & PCI_STATUS_CAPLIST_SUPPORT) 4660 1.52 drochner && (capoff > 0)) { 4661 1.51 drochner #ifdef _KERNEL 4662 1.52 drochner pci_conf_print_caplist(pc, tag, regs, capoff); 4663 1.51 drochner #else 4664 1.52 drochner pci_conf_print_caplist(regs, capoff); 4665 1.51 drochner #endif 4666 1.51 drochner printf("\n"); 4667 1.51 drochner } 4668 1.26 cgd 4669 1.26 cgd /* device-dependent header */ 4670 1.26 cgd printf(" Device-dependent header:\n"); 4671 1.92.2.4 jdolecek pci_conf_print_regs(regs, endoff, PCI_CONF_SIZE); 4672 1.26 cgd printf("\n"); 4673 1.49 nathanw #ifdef _KERNEL 4674 1.26 cgd if (printfn) 4675 1.26 cgd (*printfn)(pc, tag, regs); 4676 1.26 cgd else 4677 1.26 cgd printf(" Don't know how to pretty-print device-dependent header.\n"); 4678 1.26 cgd printf("\n"); 4679 1.45 thorpej #endif /* _KERNEL */ 4680 1.92.2.4 jdolecek 4681 1.92.2.4 jdolecek if (regs[o2i(PCI_EXTCAPLIST_BASE)] == 0xffffffff || 4682 1.92.2.4 jdolecek regs[o2i(PCI_EXTCAPLIST_BASE)] == 0) 4683 1.92.2.4 jdolecek return; 4684 1.92.2.4 jdolecek 4685 1.92.2.4 jdolecek #ifdef _KERNEL 4686 1.92.2.4 jdolecek pci_conf_print_extcaplist(pc, tag, regs, capoff); 4687 1.92.2.4 jdolecek #else 4688 1.92.2.4 jdolecek pci_conf_print_extcaplist(regs, capoff); 4689 1.92.2.4 jdolecek #endif 4690 1.92.2.4 jdolecek printf("\n"); 4691 1.92.2.4 jdolecek 4692 1.92.2.4 jdolecek /* Extended Configuration Space, if present */ 4693 1.92.2.4 jdolecek printf(" Extended Configuration Space:\n"); 4694 1.92.2.4 jdolecek pci_conf_print_regs(regs, PCI_EXTCAPLIST_BASE, PCI_EXTCONF_SIZE); 4695 1.1 mycroft } 4696
Indexes created Tue Sep 30 17:09:57 GMT 2025