pciide.c revision 1.11
1 1.11 bouyer /* $NetBSD: pciide.c,v 1.11 1998/10/19 12:24:33 bouyer Exp $ */ 2 1.1 cgd 3 1.1 cgd /* 4 1.1 cgd * Copyright (c) 1996, 1998 Christopher G. Demetriou. All rights reserved. 5 1.1 cgd * 6 1.1 cgd * Redistribution and use in source and binary forms, with or without 7 1.1 cgd * modification, are permitted provided that the following conditions 8 1.1 cgd * are met: 9 1.1 cgd * 1. Redistributions of source code must retain the above copyright 10 1.1 cgd * notice, this list of conditions and the following disclaimer. 11 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 cgd * notice, this list of conditions and the following disclaimer in the 13 1.1 cgd * documentation and/or other materials provided with the distribution. 14 1.1 cgd * 3. All advertising materials mentioning features or use of this software 15 1.1 cgd * must display the following acknowledgement: 16 1.1 cgd * This product includes software developed by Christopher G. Demetriou 17 1.1 cgd * for the NetBSD Project. 18 1.1 cgd * 4. The name of the author may not be used to endorse or promote products 19 1.1 cgd * derived from this software without specific prior written permission 20 1.1 cgd * 21 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 22 1.1 cgd * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 23 1.1 cgd * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 24 1.1 cgd * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 25 1.1 cgd * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 26 1.1 cgd * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 27 1.1 cgd * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 28 1.1 cgd * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 29 1.1 cgd * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 30 1.1 cgd * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 31 1.1 cgd */ 32 1.1 cgd 33 1.1 cgd /* 34 1.1 cgd * PCI IDE controller driver. 35 1.1 cgd * 36 1.1 cgd * Author: Christopher G. Demetriou, March 2, 1998 (derived from NetBSD 37 1.1 cgd * sys/dev/pci/ppb.c, revision 1.16). 38 1.1 cgd * 39 1.2 cgd * See "PCI IDE Controller Specification, Revision 1.0 3/4/94" and 40 1.2 cgd * "Programming Interface for Bus Master IDE Controller, Revision 1.0 41 1.2 cgd * 5/16/94" from the PCI SIG. 42 1.1 cgd * 43 1.1 cgd */ 44 1.1 cgd 45 1.9 bouyer #define DEBUG_DMA 0x01 46 1.9 bouyer #define DEBUG_XFERS 0x02 47 1.9 bouyer #define DEBUG_FUNCS 0x08 48 1.9 bouyer #define DEBUG_PROBE 0x10 49 1.9 bouyer #ifdef WDCDEBUG 50 1.9 bouyer int wdcdebug_pciide_mask = DEBUG_PROBE; 51 1.9 bouyer #define WDCDEBUG_PRINT(args, level) \ 52 1.9 bouyer if (wdcdebug_pciide_mask & (level)) printf args 53 1.9 bouyer #else 54 1.9 bouyer #define WDCDEBUG_PRINT(args, level) 55 1.9 bouyer #endif 56 1.1 cgd #include <sys/param.h> 57 1.1 cgd #include <sys/systm.h> 58 1.1 cgd #include <sys/device.h> 59 1.9 bouyer #include <sys/malloc.h> 60 1.9 bouyer 61 1.9 bouyer #include <vm/vm.h> 62 1.9 bouyer #include <vm/vm_param.h> 63 1.9 bouyer #include <vm/vm_kern.h> 64 1.1 cgd 65 1.1 cgd #include <dev/pci/pcireg.h> 66 1.1 cgd #include <dev/pci/pcivar.h> 67 1.9 bouyer #include <dev/pci/pcidevs.h> 68 1.1 cgd #include <dev/pci/pciidereg.h> 69 1.1 cgd #include <dev/pci/pciidevar.h> 70 1.9 bouyer #include <dev/pci/pciide_piix_reg.h> 71 1.9 bouyer #include <dev/pci/pciide_apollo_reg.h> 72 1.9 bouyer #include <dev/pci/pciide_cmd_reg.h> 73 1.9 bouyer #include <dev/ata/atavar.h> 74 1.6 cgd #include <dev/ic/wdcreg.h> 75 1.9 bouyer #include <dev/ic/wdcvar.h> 76 1.1 cgd 77 1.1 cgd struct pciide_softc { 78 1.9 bouyer struct wdc_softc sc_wdcdev; /* common wdc definitions */ 79 1.1 cgd 80 1.1 cgd void *sc_pci_ih; /* PCI interrupt handle */ 81 1.5 cgd int sc_dma_ok; /* bus-master DMA info */ 82 1.2 cgd bus_space_tag_t sc_dma_iot; 83 1.2 cgd bus_space_handle_t sc_dma_ioh; 84 1.9 bouyer bus_dma_tag_t sc_dmat; 85 1.9 bouyer /* Chip description */ 86 1.9 bouyer const struct pciide_product_desc *sc_pp; 87 1.9 bouyer /* common definitions */ 88 1.9 bouyer struct channel_softc wdc_channels[PCIIDE_NUM_CHANNELS]; 89 1.9 bouyer /* internal bookkeeping */ 90 1.1 cgd struct pciide_channel { /* per-channel data */ 91 1.5 cgd int hw_ok; /* hardware mapped & OK? */ 92 1.1 cgd int compat; /* is it compat? */ 93 1.1 cgd void *ih; /* compat or pci handle */ 94 1.9 bouyer /* DMA tables and DMA map for xfer, for each drive */ 95 1.9 bouyer struct pciide_dma_maps { 96 1.9 bouyer bus_dmamap_t dmamap_table; 97 1.9 bouyer struct idedma_table *dma_table; 98 1.9 bouyer bus_dmamap_t dmamap_xfer; 99 1.9 bouyer } dma_maps[2]; 100 1.9 bouyer } pciide_channels[PCIIDE_NUM_CHANNELS]; 101 1.9 bouyer }; 102 1.9 bouyer 103 1.9 bouyer void default_setup_cap __P((struct pciide_softc*)); 104 1.9 bouyer void default_setup_chip __P((struct pciide_softc*, 105 1.9 bouyer pci_chipset_tag_t, pcitag_t)); 106 1.9 bouyer const char *default_channel_probe __P((struct pciide_softc *, 107 1.9 bouyer struct pci_attach_args *, int)); 108 1.9 bouyer int default_channel_disable __P((struct pciide_softc *, 109 1.9 bouyer struct pci_attach_args *, int)); 110 1.9 bouyer 111 1.9 bouyer 112 1.9 bouyer void piix_setup_cap __P((struct pciide_softc*)); 113 1.9 bouyer void piix_setup_chip __P((struct pciide_softc*, 114 1.9 bouyer pci_chipset_tag_t, pcitag_t)); 115 1.9 bouyer void piix3_4_setup_chip __P((struct pciide_softc*, 116 1.9 bouyer pci_chipset_tag_t, pcitag_t)); 117 1.9 bouyer const char *piix_channel_probe __P((struct pciide_softc *, 118 1.9 bouyer struct pci_attach_args *, int)); 119 1.9 bouyer int piix_channel_disable __P((struct pciide_softc *, 120 1.9 bouyer struct pci_attach_args *, int)); 121 1.9 bouyer static u_int32_t piix_setup_idetim_timings __P((u_int8_t, u_int8_t, u_int8_t)); 122 1.9 bouyer static u_int32_t piix_setup_idetim_drvs __P((struct ata_drive_datas*)); 123 1.9 bouyer static u_int32_t piix_setup_sidetim_timings __P((u_int8_t, u_int8_t, u_int8_t)); 124 1.9 bouyer 125 1.9 bouyer void apollo_setup_cap __P((struct pciide_softc*)); 126 1.9 bouyer void apollo_setup_chip __P((struct pciide_softc*, 127 1.9 bouyer pci_chipset_tag_t, pcitag_t)); 128 1.9 bouyer const char *apollo_channel_probe __P((struct pciide_softc *, 129 1.9 bouyer struct pci_attach_args *, int)); 130 1.9 bouyer int apollo_channel_disable __P((struct pciide_softc *, 131 1.9 bouyer struct pci_attach_args *, int)); 132 1.9 bouyer 133 1.9 bouyer const char *cmd_channel_probe __P((struct pciide_softc *, 134 1.9 bouyer struct pci_attach_args *, int)); 135 1.9 bouyer int cmd_channel_disable __P((struct pciide_softc *, 136 1.9 bouyer struct pci_attach_args *, int)); 137 1.9 bouyer 138 1.9 bouyer int pciide_dma_table_setup __P((struct pciide_softc*, int, int)); 139 1.9 bouyer int pciide_dma_init __P((void*, int, int, void *, size_t, int)); 140 1.9 bouyer void pciide_dma_start __P((void*, int, int, int)); 141 1.9 bouyer int pciide_dma_finish __P((void*, int, int, int)); 142 1.9 bouyer 143 1.9 bouyer struct pciide_product_desc { 144 1.9 bouyer u_int32_t ide_product; 145 1.9 bouyer int ide_flags; 146 1.9 bouyer const char *ide_name; 147 1.9 bouyer /* init controller's capabilities for drives probe */ 148 1.9 bouyer void (*setup_cap) __P((struct pciide_softc*)); 149 1.9 bouyer /* init controller after drives probe */ 150 1.9 bouyer void (*setup_chip) __P((struct pciide_softc*, pci_chipset_tag_t, pcitag_t)); 151 1.9 bouyer /* Probe for compat channel enabled/disabled */ 152 1.9 bouyer const char * (*channel_probe) __P((struct pciide_softc *, 153 1.9 bouyer struct pci_attach_args *, int)); 154 1.9 bouyer int (*channel_disable) __P((struct pciide_softc *, 155 1.9 bouyer struct pci_attach_args *, int)); 156 1.9 bouyer }; 157 1.9 bouyer 158 1.9 bouyer /* Flags for ide_flags */ 159 1.9 bouyer #define CMD_PCI064x_IOEN 0x01 /* CMD-style PCI_COMMAND_IO_ENABLE */ 160 1.9 bouyer #define ONE_QUEUE 0x02 /* device need serialised access */ 161 1.9 bouyer 162 1.9 bouyer /* Default product description for devices not known from this controller */ 163 1.9 bouyer const struct pciide_product_desc default_product_desc = { 164 1.9 bouyer 0, 165 1.9 bouyer 0, 166 1.9 bouyer "Generic PCI IDE controller", 167 1.9 bouyer default_setup_cap, 168 1.9 bouyer default_setup_chip, 169 1.9 bouyer default_channel_probe, 170 1.9 bouyer default_channel_disable 171 1.9 bouyer }; 172 1.1 cgd 173 1.9 bouyer 174 1.9 bouyer const struct pciide_product_desc pciide_intel_products[] = { 175 1.9 bouyer { PCI_PRODUCT_INTEL_82092AA, 176 1.9 bouyer 0, 177 1.9 bouyer "Intel 82092AA IDE controller", 178 1.9 bouyer default_setup_cap, 179 1.9 bouyer default_setup_chip, 180 1.9 bouyer default_channel_probe, 181 1.9 bouyer default_channel_disable 182 1.9 bouyer }, 183 1.9 bouyer { PCI_PRODUCT_INTEL_82371FB_IDE, 184 1.9 bouyer 0, 185 1.9 bouyer "Intel 82371FB IDE controller (PIIX)", 186 1.9 bouyer piix_setup_cap, 187 1.9 bouyer piix_setup_chip, 188 1.9 bouyer piix_channel_probe, 189 1.9 bouyer piix_channel_disable 190 1.9 bouyer }, 191 1.9 bouyer { PCI_PRODUCT_INTEL_82371SB_IDE, 192 1.9 bouyer 0, 193 1.9 bouyer "Intel 82371SB IDE Interface (PIIX3)", 194 1.9 bouyer piix_setup_cap, 195 1.9 bouyer piix3_4_setup_chip, 196 1.9 bouyer piix_channel_probe, 197 1.9 bouyer piix_channel_disable 198 1.9 bouyer }, 199 1.9 bouyer { PCI_PRODUCT_INTEL_82371AB_IDE, 200 1.9 bouyer 0, 201 1.9 bouyer "Intel 82371AB IDE controller (PIIX4)", 202 1.9 bouyer piix_setup_cap, 203 1.9 bouyer piix3_4_setup_chip, 204 1.9 bouyer piix_channel_probe, 205 1.9 bouyer piix_channel_disable 206 1.9 bouyer }, 207 1.9 bouyer { 0, 208 1.9 bouyer 0, 209 1.9 bouyer NULL, 210 1.9 bouyer } 211 1.9 bouyer }; 212 1.9 bouyer const struct pciide_product_desc pciide_cmd_products[] = { 213 1.9 bouyer { PCI_PRODUCT_CMDTECH_640, 214 1.9 bouyer ONE_QUEUE | CMD_PCI064x_IOEN, 215 1.9 bouyer "CMD Technology PCI0640", 216 1.9 bouyer default_setup_cap, 217 1.9 bouyer default_setup_chip, 218 1.9 bouyer cmd_channel_probe, 219 1.9 bouyer cmd_channel_disable 220 1.9 bouyer }, 221 1.9 bouyer { 0, 222 1.9 bouyer 0, 223 1.9 bouyer NULL, 224 1.9 bouyer } 225 1.9 bouyer }; 226 1.9 bouyer 227 1.9 bouyer const struct pciide_product_desc pciide_via_products[] = { 228 1.9 bouyer { PCI_PRODUCT_VIATECH_VT82C586_IDE, 229 1.9 bouyer 0, 230 1.11 bouyer "VIA Technologies VT82C586 (Apollo VP) IDE Controller", 231 1.11 bouyer apollo_setup_cap, 232 1.11 bouyer apollo_setup_chip, 233 1.11 bouyer apollo_channel_probe, 234 1.11 bouyer apollo_channel_disable 235 1.11 bouyer }, 236 1.11 bouyer { PCI_PRODUCT_VIATECH_VT82C586A_IDE, 237 1.11 bouyer 0, 238 1.11 bouyer "VIA Technologies VT82C586A IDE Controller", 239 1.9 bouyer apollo_setup_cap, 240 1.9 bouyer apollo_setup_chip, 241 1.9 bouyer apollo_channel_probe, 242 1.9 bouyer apollo_channel_disable 243 1.9 bouyer }, 244 1.9 bouyer { 0, 245 1.9 bouyer 0, 246 1.9 bouyer NULL, 247 1.9 bouyer } 248 1.9 bouyer }; 249 1.9 bouyer 250 1.9 bouyer struct pciide_vendor_desc { 251 1.9 bouyer u_int32_t ide_vendor; 252 1.9 bouyer const struct pciide_product_desc *ide_products; 253 1.9 bouyer }; 254 1.9 bouyer 255 1.9 bouyer const struct pciide_vendor_desc pciide_vendors[] = { 256 1.9 bouyer { PCI_VENDOR_INTEL, pciide_intel_products }, 257 1.9 bouyer { PCI_VENDOR_CMDTECH, pciide_cmd_products }, 258 1.9 bouyer { PCI_VENDOR_VIATECH, pciide_via_products }, 259 1.9 bouyer { 0, NULL } 260 1.1 cgd }; 261 1.1 cgd 262 1.9 bouyer 263 1.1 cgd #define PCIIDE_CHANNEL_NAME(chan) ((chan) == 0 ? "primary" : "secondary") 264 1.1 cgd 265 1.1 cgd int pciide_match __P((struct device *, struct cfdata *, void *)); 266 1.1 cgd void pciide_attach __P((struct device *, struct device *, void *)); 267 1.1 cgd 268 1.1 cgd struct cfattach pciide_ca = { 269 1.1 cgd sizeof(struct pciide_softc), pciide_match, pciide_attach 270 1.1 cgd }; 271 1.1 cgd 272 1.5 cgd int pciide_map_channel_compat __P((struct pciide_softc *, 273 1.5 cgd struct pci_attach_args *, int)); 274 1.5 cgd int pciide_map_channel_native __P((struct pciide_softc *, 275 1.5 cgd struct pci_attach_args *, int)); 276 1.5 cgd int pciide_print __P((void *, const char *pnp)); 277 1.1 cgd int pciide_compat_intr __P((void *)); 278 1.1 cgd int pciide_pci_intr __P((void *)); 279 1.9 bouyer const struct pciide_product_desc* pciide_lookup_product __P((u_int32_t)); 280 1.1 cgd 281 1.9 bouyer const struct pciide_product_desc* 282 1.9 bouyer pciide_lookup_product(id) 283 1.9 bouyer u_int32_t id; 284 1.9 bouyer { 285 1.9 bouyer const struct pciide_product_desc *pp; 286 1.9 bouyer const struct pciide_vendor_desc *vp; 287 1.9 bouyer 288 1.9 bouyer for (vp = pciide_vendors; vp->ide_products != NULL; vp++) 289 1.9 bouyer if (PCI_VENDOR(id) == vp->ide_vendor) 290 1.9 bouyer break; 291 1.9 bouyer 292 1.9 bouyer if ((pp = vp->ide_products) == NULL) 293 1.9 bouyer return NULL; 294 1.9 bouyer 295 1.9 bouyer for (; pp->ide_name != NULL; pp++) 296 1.9 bouyer if (PCI_PRODUCT(id) == pp->ide_product) 297 1.9 bouyer break; 298 1.9 bouyer 299 1.9 bouyer if (pp->ide_name == NULL) 300 1.9 bouyer return NULL; 301 1.9 bouyer return pp; 302 1.9 bouyer } 303 1.6 cgd 304 1.1 cgd int 305 1.1 cgd pciide_match(parent, match, aux) 306 1.1 cgd struct device *parent; 307 1.1 cgd struct cfdata *match; 308 1.1 cgd void *aux; 309 1.1 cgd { 310 1.1 cgd struct pci_attach_args *pa = aux; 311 1.1 cgd 312 1.1 cgd /* 313 1.1 cgd * Check the ID register to see that it's a PCI IDE controller. 314 1.1 cgd * If it is, we assume that we can deal with it; it _should_ 315 1.1 cgd * work in a standardized way... 316 1.1 cgd */ 317 1.1 cgd if (PCI_CLASS(pa->pa_class) == PCI_CLASS_MASS_STORAGE && 318 1.1 cgd PCI_SUBCLASS(pa->pa_class) == PCI_SUBCLASS_MASS_STORAGE_IDE) { 319 1.1 cgd return (1); 320 1.1 cgd } 321 1.1 cgd 322 1.1 cgd return (0); 323 1.1 cgd } 324 1.1 cgd 325 1.1 cgd void 326 1.1 cgd pciide_attach(parent, self, aux) 327 1.1 cgd struct device *parent, *self; 328 1.1 cgd void *aux; 329 1.1 cgd { 330 1.1 cgd struct pci_attach_args *pa = aux; 331 1.1 cgd pci_chipset_tag_t pc = pa->pa_pc; 332 1.9 bouyer pcitag_t tag = pa->pa_tag; 333 1.1 cgd struct pciide_softc *sc = (struct pciide_softc *)self; 334 1.1 cgd struct pciide_channel *cp; 335 1.1 cgd pcireg_t class, interface, csr; 336 1.1 cgd pci_intr_handle_t intrhandle; 337 1.1 cgd const char *intrstr; 338 1.1 cgd char devinfo[256]; 339 1.1 cgd int i; 340 1.1 cgd 341 1.9 bouyer sc->sc_pp = pciide_lookup_product(pa->pa_id); 342 1.9 bouyer if (sc->sc_pp == NULL) { 343 1.9 bouyer sc->sc_pp = &default_product_desc; 344 1.9 bouyer pci_devinfo(pa->pa_id, pa->pa_class, 0, devinfo); 345 1.9 bouyer printf(": %s (rev. 0x%02x)\n", devinfo, 346 1.9 bouyer PCI_REVISION(pa->pa_class)); 347 1.9 bouyer } else { 348 1.9 bouyer printf(": %s\n", sc->sc_pp->ide_name); 349 1.9 bouyer } 350 1.1 cgd 351 1.1 cgd if ((pa->pa_flags & PCI_FLAGS_IO_ENABLED) == 0) { 352 1.9 bouyer csr = pci_conf_read(pc, tag, PCI_COMMAND_STATUS_REG); 353 1.9 bouyer /* 354 1.9 bouyer * For a CMD PCI064x, the use of PCI_COMMAND_IO_ENABLE 355 1.9 bouyer * and base adresses registers can be disabled at 356 1.9 bouyer * hardware level. In this case, the device is wired 357 1.9 bouyer * in compat mode and its first channel is always enabled, 358 1.9 bouyer * but we can't rely on PCI_COMMAND_IO_ENABLE. 359 1.9 bouyer * In fact, it seems that the first channel of the CMD PCI0640 360 1.9 bouyer * can't be disabled. 361 1.9 bouyer */ 362 1.11 bouyer #ifndef PCIIDE_CMD064x_DISABLE 363 1.9 bouyer if ((sc->sc_pp->ide_flags & CMD_PCI064x_IOEN) == 0) { 364 1.11 bouyer #else 365 1.11 bouyer if (1) { 366 1.11 bouyer #endif 367 1.9 bouyer printf("%s: device disabled (at %s)\n", 368 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 369 1.9 bouyer (csr & PCI_COMMAND_IO_ENABLE) == 0 ? 370 1.9 bouyer "device" : "bridge"); 371 1.9 bouyer return; 372 1.9 bouyer } 373 1.1 cgd } 374 1.1 cgd 375 1.9 bouyer class = pci_conf_read(pc, tag, PCI_CLASS_REG); 376 1.1 cgd interface = PCI_INTERFACE(class); 377 1.1 cgd 378 1.1 cgd /* 379 1.9 bouyer * Set up PCI interrupt only if at last one channel is in native mode. 380 1.9 bouyer * At last one device (CMD PCI0640) has a default value of 14, which 381 1.9 bouyer * will be mapped even if both channels are in compat-only mode. 382 1.1 cgd */ 383 1.9 bouyer if (interface & (PCIIDE_INTERFACE_PCI(0) | PCIIDE_INTERFACE_PCI(1))) { 384 1.9 bouyer if (pci_intr_map(pa->pa_pc, pa->pa_intrtag, pa->pa_intrpin, 385 1.9 bouyer pa->pa_intrline, &intrhandle) != 0) { 386 1.9 bouyer printf("%s: couldn't map native-PCI interrupt\n", 387 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname); 388 1.1 cgd } else { 389 1.9 bouyer intrstr = pci_intr_string(pa->pa_pc, intrhandle); 390 1.9 bouyer sc->sc_pci_ih = pci_intr_establish(pa->pa_pc, 391 1.9 bouyer intrhandle, IPL_BIO, pciide_pci_intr, sc); 392 1.9 bouyer if (sc->sc_pci_ih != NULL) { 393 1.9 bouyer printf("%s: using %s for native-PCI " 394 1.9 bouyer "interrupt\n", 395 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 396 1.9 bouyer intrstr ? intrstr : "unknown interrupt"); 397 1.9 bouyer } else { 398 1.9 bouyer printf("%s: couldn't establish native-PCI " 399 1.9 bouyer "interrupt", 400 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname); 401 1.9 bouyer if (intrstr != NULL) 402 1.9 bouyer printf(" at %s", intrstr); 403 1.9 bouyer printf("\n"); 404 1.9 bouyer } 405 1.1 cgd } 406 1.1 cgd } 407 1.1 cgd 408 1.2 cgd /* 409 1.2 cgd * Map DMA registers, if DMA is supported. 410 1.2 cgd * 411 1.5 cgd * Note that sc_dma_ok is the right variable to test to see if 412 1.9 bouyer * DMA can be done. If the interface doesn't support DMA, 413 1.9 bouyer * sc_dma_ok will never be non-zero. If the DMA regs couldn't 414 1.5 cgd * be mapped, it'll be zero. I.e., sc_dma_ok will only be 415 1.5 cgd * non-zero if the interface supports DMA and the registers 416 1.5 cgd * could be mapped. 417 1.4 cgd * 418 1.4 cgd * XXX Note that despite the fact that the Bus Master IDE specs 419 1.4 cgd * XXX say that "The bus master IDE functoin uses 16 bytes of IO 420 1.4 cgd * XXX space," some controllers (at least the United 421 1.4 cgd * XXX Microelectronics UM8886BF) place it in memory space. 422 1.4 cgd * XXX eventually, we should probably read the register and check 423 1.4 cgd * XXX which type it is. Either that or 'quirk' certain devices. 424 1.2 cgd */ 425 1.2 cgd if (interface & PCIIDE_INTERFACE_BUS_MASTER_DMA) { 426 1.9 bouyer printf("%s: bus-master DMA support present", 427 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname); 428 1.11 bouyer if (sc->sc_pp == &default_product_desc) { 429 1.11 bouyer printf(", but unused (no driver support)"); 430 1.11 bouyer sc->sc_dma_ok = 0; 431 1.9 bouyer } else { 432 1.11 bouyer sc->sc_dma_ok = (pci_mapreg_map(pa, 433 1.11 bouyer PCIIDE_REG_BUS_MASTER_DMA, PCI_MAPREG_TYPE_IO, 0, 434 1.11 bouyer &sc->sc_dma_iot, &sc->sc_dma_ioh, NULL, NULL) == 0); 435 1.11 bouyer sc->sc_dmat = pa->pa_dmat; 436 1.11 bouyer if (sc->sc_dma_ok == 0) { 437 1.11 bouyer printf(", but unused (couldn't map registers)"); 438 1.11 bouyer } else { 439 1.11 bouyer sc->sc_wdcdev.dma_arg = sc; 440 1.11 bouyer sc->sc_wdcdev.dma_init = pciide_dma_init; 441 1.11 bouyer sc->sc_wdcdev.dma_start = pciide_dma_start; 442 1.11 bouyer sc->sc_wdcdev.dma_finish = pciide_dma_finish; 443 1.11 bouyer } 444 1.9 bouyer } 445 1.9 bouyer printf("\n"); 446 1.1 cgd } 447 1.9 bouyer sc->sc_pp->setup_cap(sc); 448 1.9 bouyer sc->sc_wdcdev.channels = sc->wdc_channels; 449 1.9 bouyer sc->sc_wdcdev.nchannels = PCIIDE_NUM_CHANNELS; 450 1.9 bouyer sc->sc_wdcdev.cap |= WDC_CAPABILITY_DATA16; 451 1.1 cgd 452 1.1 cgd for (i = 0; i < PCIIDE_NUM_CHANNELS; i++) { 453 1.9 bouyer cp = &sc->pciide_channels[i]; 454 1.2 cgd 455 1.9 bouyer sc->wdc_channels[i].channel = i; 456 1.9 bouyer sc->wdc_channels[i].wdc = &sc->sc_wdcdev; 457 1.9 bouyer if (i > 0 && (sc->sc_pp->ide_flags & ONE_QUEUE)) { 458 1.9 bouyer sc->wdc_channels[i].ch_queue = 459 1.9 bouyer sc->wdc_channels[0].ch_queue; 460 1.9 bouyer } else { 461 1.9 bouyer sc->wdc_channels[i].ch_queue = 462 1.9 bouyer malloc(sizeof(struct channel_queue), M_DEVBUF, 463 1.9 bouyer M_NOWAIT); 464 1.9 bouyer } 465 1.9 bouyer if (sc->wdc_channels[i].ch_queue == NULL) { 466 1.9 bouyer printf("%s %s channel: " 467 1.9 bouyer "can't allocate memory for command queue", 468 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 469 1.9 bouyer PCIIDE_CHANNEL_NAME(i)); 470 1.9 bouyer continue; 471 1.9 bouyer } 472 1.2 cgd printf("%s: %s channel %s to %s mode\n", 473 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 474 1.9 bouyer PCIIDE_CHANNEL_NAME(i), 475 1.2 cgd (interface & PCIIDE_INTERFACE_SETTABLE(i)) ? 476 1.2 cgd "configured" : "wired", 477 1.2 cgd (interface & PCIIDE_INTERFACE_PCI(i)) ? "native-PCI" : 478 1.2 cgd "compatibility"); 479 1.1 cgd 480 1.9 bouyer /* 481 1.9 bouyer * pciide_map_channel_native() and pciide_map_channel_compat() 482 1.9 bouyer * will also call wdcattach. Eventually the channel will be 483 1.9 bouyer * disabled if there's no drive present 484 1.9 bouyer */ 485 1.5 cgd if (interface & PCIIDE_INTERFACE_PCI(i)) 486 1.5 cgd cp->hw_ok = pciide_map_channel_native(sc, pa, i); 487 1.5 cgd else 488 1.5 cgd cp->hw_ok = pciide_map_channel_compat(sc, pa, i); 489 1.2 cgd 490 1.5 cgd } 491 1.9 bouyer sc->sc_pp->setup_chip(sc, pc, tag); 492 1.9 bouyer WDCDEBUG_PRINT(("pciide: command/status register=%x\n", 493 1.9 bouyer pci_conf_read(pc, tag, PCI_COMMAND_STATUS_REG)), DEBUG_PROBE); 494 1.5 cgd } 495 1.5 cgd 496 1.5 cgd int 497 1.5 cgd pciide_map_channel_compat(sc, pa, chan) 498 1.5 cgd struct pciide_softc *sc; 499 1.5 cgd struct pci_attach_args *pa; 500 1.5 cgd int chan; 501 1.5 cgd { 502 1.9 bouyer struct pciide_channel *cp = &sc->pciide_channels[chan]; 503 1.9 bouyer struct channel_softc *wdc_cp = &sc->wdc_channels[chan]; 504 1.6 cgd const char *probe_fail_reason; 505 1.5 cgd int rv = 1; 506 1.5 cgd 507 1.5 cgd cp->compat = 1; 508 1.5 cgd 509 1.9 bouyer wdc_cp->cmd_iot = pa->pa_iot; 510 1.9 bouyer if (bus_space_map(wdc_cp->cmd_iot, PCIIDE_COMPAT_CMD_BASE(chan), 511 1.9 bouyer PCIIDE_COMPAT_CMD_SIZE, 0, &wdc_cp->cmd_ioh) != 0) { 512 1.5 cgd printf("%s: couldn't map %s channel cmd regs\n", 513 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 514 1.9 bouyer PCIIDE_CHANNEL_NAME(chan)); 515 1.5 cgd rv = 0; 516 1.5 cgd } 517 1.5 cgd 518 1.9 bouyer wdc_cp->ctl_iot = pa->pa_iot; 519 1.9 bouyer if (bus_space_map(wdc_cp->ctl_iot, PCIIDE_COMPAT_CTL_BASE(chan), 520 1.9 bouyer PCIIDE_COMPAT_CTL_SIZE, 0, &wdc_cp->ctl_ioh) != 0) { 521 1.5 cgd printf("%s: couldn't map %s channel ctl regs\n", 522 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 523 1.9 bouyer PCIIDE_CHANNEL_NAME(chan)); 524 1.5 cgd rv = 0; 525 1.5 cgd } 526 1.5 cgd 527 1.5 cgd /* 528 1.5 cgd * If we weren't able to map the device successfully, 529 1.5 cgd * we just give up now. Something else has already 530 1.5 cgd * occupied those ports, indicating that the device has 531 1.5 cgd * (probably) been completely disabled (by some nonstandard 532 1.5 cgd * mechanism). 533 1.5 cgd * 534 1.5 cgd * XXX If we successfully map some ports, but not others, 535 1.5 cgd * XXX it might make sense to unmap the ones that we mapped. 536 1.5 cgd */ 537 1.5 cgd if (rv == 0) 538 1.5 cgd goto out; 539 1.5 cgd 540 1.5 cgd /* 541 1.9 bouyer * If we were able to map the device successfully, check if 542 1.9 bouyer * the channel is enabled. For "known" device, a chip-specific 543 1.9 bouyer * routine will be used (which read the rigth PCI register). 544 1.9 bouyer * For unknow device, a generic routine using "standart" wdc probe 545 1.9 bouyer * will try to guess it. 546 1.5 cgd * 547 1.9 bouyer * If the channel has been disabled, other devices are free to use 548 1.5 cgd * its ports. 549 1.5 cgd */ 550 1.9 bouyer probe_fail_reason = sc->sc_pp->channel_probe(sc, pa, chan); 551 1.6 cgd if (probe_fail_reason != NULL) { 552 1.9 bouyer printf("%s: %s channel ignored (%s)\n", 553 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 554 1.6 cgd PCIIDE_CHANNEL_NAME(chan), probe_fail_reason); 555 1.5 cgd rv = 0; 556 1.5 cgd 557 1.9 bouyer bus_space_unmap(wdc_cp->cmd_iot, wdc_cp->cmd_ioh, 558 1.5 cgd PCIIDE_COMPAT_CMD_SIZE); 559 1.9 bouyer bus_space_unmap(wdc_cp->ctl_iot, wdc_cp->ctl_ioh, 560 1.5 cgd PCIIDE_COMPAT_CTL_SIZE); 561 1.5 cgd 562 1.5 cgd goto out; 563 1.5 cgd } 564 1.9 bouyer wdc_cp->data32iot = wdc_cp->cmd_iot; 565 1.9 bouyer wdc_cp->data32ioh = wdc_cp->cmd_ioh; 566 1.9 bouyer wdcattach(&sc->wdc_channels[chan]); 567 1.9 bouyer /* 568 1.9 bouyer * If drive not present, try to disable the channel and 569 1.9 bouyer * free the resources. 570 1.9 bouyer */ 571 1.9 bouyer if ((sc->wdc_channels[chan].ch_drive[0].drive_flags & DRIVE) == 0 && 572 1.9 bouyer (sc->wdc_channels[chan].ch_drive[1].drive_flags & DRIVE) == 0) { 573 1.9 bouyer if (sc->sc_pp->channel_disable(sc, pa, chan)) { 574 1.9 bouyer printf("%s: disabling %s channel (no drives)\n", 575 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 576 1.9 bouyer PCIIDE_CHANNEL_NAME(chan)); 577 1.9 bouyer bus_space_unmap(wdc_cp->cmd_iot, wdc_cp->cmd_ioh, 578 1.9 bouyer PCIIDE_COMPAT_CMD_SIZE); 579 1.9 bouyer bus_space_unmap(wdc_cp->ctl_iot, wdc_cp->ctl_ioh, 580 1.9 bouyer PCIIDE_COMPAT_CTL_SIZE); 581 1.9 bouyer rv = 0; 582 1.9 bouyer goto out; 583 1.9 bouyer } 584 1.9 bouyer } 585 1.5 cgd 586 1.5 cgd /* 587 1.5 cgd * If we're here, we were able to map the device successfully 588 1.5 cgd * and it really looks like there's a controller there. 589 1.5 cgd * 590 1.5 cgd * Unless those conditions are true, we don't map the 591 1.5 cgd * compatibility interrupt. The spec indicates that if a 592 1.5 cgd * channel is configured for compatibility mode and the PCI 593 1.5 cgd * device's I/O space is enabled, the channel will be enabled. 594 1.5 cgd * Hoewver, some devices seem to be able to disable invididual 595 1.5 cgd * compatibility channels (via non-standard mechanisms). If 596 1.5 cgd * the channel is disabled, the interrupt line can (probably) 597 1.5 cgd * be used by other devices (and may be assigned to other 598 1.5 cgd * devices by the BIOS). If we mapped the interrupt we might 599 1.5 cgd * conflict with another interrupt assignment. 600 1.5 cgd */ 601 1.9 bouyer cp->ih = pciide_machdep_compat_intr_establish(&sc->sc_wdcdev.sc_dev, 602 1.9 bouyer pa, chan, pciide_compat_intr, wdc_cp); 603 1.5 cgd if (cp->ih == NULL) { 604 1.5 cgd printf("%s: no compatibility interrupt for use by %s channel\n", 605 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 606 1.9 bouyer PCIIDE_CHANNEL_NAME(chan)); 607 1.5 cgd rv = 0; 608 1.5 cgd } 609 1.5 cgd 610 1.5 cgd out: 611 1.5 cgd return (rv); 612 1.5 cgd } 613 1.5 cgd 614 1.9 bouyer int 615 1.9 bouyer pciide_map_channel_native(sc, pa, chan) 616 1.9 bouyer struct pciide_softc *sc; 617 1.9 bouyer struct pci_attach_args *pa; 618 1.9 bouyer int chan; 619 1.9 bouyer { 620 1.9 bouyer struct pciide_channel *cp = &sc->pciide_channels[chan]; 621 1.9 bouyer struct channel_softc *wdc_cp = &sc->wdc_channels[chan]; 622 1.9 bouyer int rv = 1; 623 1.9 bouyer 624 1.9 bouyer cp->compat = 0; 625 1.9 bouyer 626 1.9 bouyer if (pci_mapreg_map(pa, PCIIDE_REG_CMD_BASE(chan), PCI_MAPREG_TYPE_IO, 627 1.9 bouyer 0, &wdc_cp->cmd_iot, &wdc_cp->cmd_ioh, NULL, NULL) != 0) { 628 1.9 bouyer printf("%s: couldn't map %s channel cmd regs\n", 629 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 630 1.9 bouyer PCIIDE_CHANNEL_NAME(chan)); 631 1.9 bouyer rv = 0; 632 1.9 bouyer } 633 1.9 bouyer 634 1.9 bouyer if (pci_mapreg_map(pa, PCIIDE_REG_CTL_BASE(chan), PCI_MAPREG_TYPE_IO, 635 1.9 bouyer 0, &wdc_cp->ctl_iot, &wdc_cp->ctl_ioh, NULL, NULL) != 0) { 636 1.9 bouyer printf("%s: couldn't map %s channel ctl regs\n", 637 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 638 1.9 bouyer PCIIDE_CHANNEL_NAME(chan)); 639 1.9 bouyer rv = 0; 640 1.9 bouyer } 641 1.9 bouyer 642 1.9 bouyer if ((cp->ih = sc->sc_pci_ih) == NULL) { 643 1.9 bouyer printf("%s: no native-PCI interrupt for use by %s channel\n", 644 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 645 1.9 bouyer PCIIDE_CHANNEL_NAME(chan)); 646 1.9 bouyer rv = 0; 647 1.9 bouyer } 648 1.9 bouyer wdc_cp->data32iot = wdc_cp->cmd_iot; 649 1.9 bouyer wdc_cp->data32ioh = wdc_cp->cmd_ioh; 650 1.9 bouyer if (rv) { 651 1.9 bouyer wdcattach(&sc->wdc_channels[chan]); 652 1.9 bouyer /* 653 1.9 bouyer * If drive not present, try to disable the channel and 654 1.9 bouyer * free the resources. 655 1.9 bouyer */ 656 1.9 bouyer /* XXX How do we unmap regs mapped with pci_mapreg_map ?*/ 657 1.9 bouyer #if 0 658 1.9 bouyer if ((sc->wdc_channels[chan].ch_drive[0].drive_flags & DRIVE) 659 1.9 bouyer == 0 && 660 1.9 bouyer (sc->wdc_channels[chan].ch_drive[1].drive_flags & DRIVE) 661 1.9 bouyer == 0) { 662 1.9 bouyer if (sc->sc_pp->channel_disable(sc, pa, chan)) { 663 1.9 bouyer printf("%s: disabling %s channel (no drives)\n", 664 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 665 1.9 bouyer PCIIDE_CHANNEL_NAME(chan)); 666 1.9 bouyer pci_mapreg_map(xxx); 667 1.9 bouyer rv = 0; 668 1.9 bouyer } 669 1.9 bouyer } 670 1.9 bouyer #endif 671 1.9 bouyer } 672 1.9 bouyer return (rv); 673 1.9 bouyer } 674 1.9 bouyer 675 1.9 bouyer int 676 1.9 bouyer pciide_compat_intr(arg) 677 1.9 bouyer void *arg; 678 1.9 bouyer { 679 1.9 bouyer struct channel_softc *wdc_cp = arg; 680 1.9 bouyer 681 1.9 bouyer #ifdef DIAGNOSTIC 682 1.9 bouyer struct pciide_softc *sc = (struct pciide_softc*)wdc_cp->wdc; 683 1.9 bouyer struct pciide_channel *cp = &sc->pciide_channels[wdc_cp->channel]; 684 1.9 bouyer /* should only be called for a compat channel */ 685 1.9 bouyer if (cp->compat == 0) 686 1.9 bouyer panic("pciide compat intr called for non-compat chan %p\n", cp); 687 1.9 bouyer #endif 688 1.9 bouyer return (wdcintr(wdc_cp)); 689 1.9 bouyer } 690 1.9 bouyer 691 1.9 bouyer int 692 1.9 bouyer pciide_pci_intr(arg) 693 1.9 bouyer void *arg; 694 1.9 bouyer { 695 1.9 bouyer struct pciide_softc *sc = arg; 696 1.9 bouyer struct pciide_channel *cp; 697 1.9 bouyer struct channel_softc *wdc_cp; 698 1.9 bouyer int i, rv, crv; 699 1.9 bouyer 700 1.9 bouyer rv = 0; 701 1.9 bouyer for (i = 0; i < PCIIDE_NUM_CHANNELS; i++) { 702 1.9 bouyer cp = &sc->pciide_channels[i]; 703 1.9 bouyer wdc_cp = &sc->wdc_channels[i]; 704 1.9 bouyer 705 1.9 bouyer /* If a compat channel skip. */ 706 1.9 bouyer if (cp->compat) 707 1.9 bouyer continue; 708 1.9 bouyer /* if this channel not waiting for intr, skip */ 709 1.9 bouyer if ((wdc_cp->ch_flags & WDCF_IRQ_WAIT) == 0) 710 1.9 bouyer continue; 711 1.9 bouyer 712 1.9 bouyer crv = wdcintr(wdc_cp); 713 1.9 bouyer if (crv == 0) 714 1.9 bouyer ; /* leave rv alone */ 715 1.9 bouyer else if (crv == 1) 716 1.9 bouyer rv = 1; /* claim the intr */ 717 1.9 bouyer else if (rv == 0) /* crv should be -1 in this case */ 718 1.9 bouyer rv = crv; /* if we've done no better, take it */ 719 1.9 bouyer } 720 1.9 bouyer return (rv); 721 1.9 bouyer } 722 1.9 bouyer 723 1.9 bouyer void 724 1.9 bouyer default_setup_cap(sc) 725 1.9 bouyer struct pciide_softc *sc; 726 1.9 bouyer { 727 1.9 bouyer sc->sc_wdcdev.pio_mode = 0; 728 1.9 bouyer sc->sc_wdcdev.dma_mode = 0; 729 1.9 bouyer } 730 1.9 bouyer 731 1.9 bouyer void 732 1.9 bouyer default_setup_chip(sc, pc, tag) 733 1.9 bouyer struct pciide_softc *sc; 734 1.9 bouyer pci_chipset_tag_t pc; 735 1.9 bouyer pcitag_t tag; 736 1.9 bouyer { 737 1.9 bouyer int channel, drive, idedma_ctl; 738 1.9 bouyer struct channel_softc *chp; 739 1.9 bouyer struct ata_drive_datas *drvp; 740 1.9 bouyer 741 1.9 bouyer if (sc->sc_dma_ok == 0) 742 1.9 bouyer return; /* nothing to do */ 743 1.9 bouyer 744 1.9 bouyer /* Allocate DMA maps */ 745 1.9 bouyer for (channel = 0; channel < PCIIDE_NUM_CHANNELS; channel++) { 746 1.9 bouyer idedma_ctl = 0; 747 1.9 bouyer chp = &sc->wdc_channels[channel]; 748 1.9 bouyer for (drive = 0; drive < 2; drive++) { 749 1.9 bouyer drvp = &chp->ch_drive[drive]; 750 1.9 bouyer /* If no drive, skip */ 751 1.9 bouyer if ((drvp->drive_flags & DRIVE) == 0) 752 1.9 bouyer continue; 753 1.9 bouyer if ((drvp->drive_flags & DRIVE_DMA) == 0) 754 1.9 bouyer continue; 755 1.9 bouyer if (pciide_dma_table_setup(sc, channel, drive) != 0) { 756 1.9 bouyer /* Abort DMA setup */ 757 1.9 bouyer printf("%s:%d:%d: can't allocate DMA maps, " 758 1.9 bouyer "using PIO transferts\n", 759 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 760 1.9 bouyer channel, drive); 761 1.9 bouyer drvp->drive_flags &= ~DRIVE_DMA; 762 1.9 bouyer } 763 1.9 bouyer printf("%s:%d:%d: using DMA mode %d\n", 764 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 765 1.9 bouyer channel, drive, 766 1.9 bouyer drvp->DMA_mode); 767 1.9 bouyer idedma_ctl |= IDEDMA_CTL_DRV_DMA(drive); 768 1.9 bouyer } 769 1.9 bouyer if (idedma_ctl != 0) { 770 1.9 bouyer /* Add software bits in status register */ 771 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 772 1.9 bouyer IDEDMA_CTL + (IDEDMA_SCH_OFFSET * channel), 773 1.9 bouyer idedma_ctl); 774 1.9 bouyer } 775 1.9 bouyer } 776 1.9 bouyer 777 1.9 bouyer } 778 1.9 bouyer 779 1.6 cgd const char * 780 1.9 bouyer default_channel_probe(sc, pa, chan) 781 1.5 cgd struct pciide_softc *sc; 782 1.5 cgd struct pci_attach_args *pa; 783 1.5 cgd { 784 1.6 cgd pcireg_t csr; 785 1.6 cgd const char *failreason = NULL; 786 1.6 cgd 787 1.6 cgd /* 788 1.6 cgd * Check to see if something appears to be there. 789 1.6 cgd */ 790 1.9 bouyer if (!wdcprobe(&sc->wdc_channels[chan])) { 791 1.6 cgd failreason = "not responding; disabled or no drives?"; 792 1.6 cgd goto out; 793 1.6 cgd } 794 1.5 cgd 795 1.5 cgd /* 796 1.6 cgd * Now, make sure it's actually attributable to this PCI IDE 797 1.6 cgd * channel by trying to access the channel again while the 798 1.6 cgd * PCI IDE controller's I/O space is disabled. (If the 799 1.6 cgd * channel no longer appears to be there, it belongs to 800 1.6 cgd * this controller.) YUCK! 801 1.5 cgd */ 802 1.6 cgd csr = pci_conf_read(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG); 803 1.6 cgd pci_conf_write(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG, 804 1.6 cgd csr & ~PCI_COMMAND_IO_ENABLE); 805 1.9 bouyer if (wdcprobe(&sc->wdc_channels[chan])) 806 1.6 cgd failreason = "other hardware responding at addresses"; 807 1.6 cgd pci_conf_write(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG, csr); 808 1.6 cgd 809 1.6 cgd out: 810 1.6 cgd return (failreason); 811 1.6 cgd } 812 1.6 cgd 813 1.9 bouyer int 814 1.9 bouyer default_channel_disable(sc, pa, chan) 815 1.9 bouyer struct pciide_softc *sc; 816 1.9 bouyer struct pci_attach_args *pa; 817 1.9 bouyer { 818 1.9 bouyer /* don't know how to disable a channel */ 819 1.9 bouyer return 0; 820 1.9 bouyer } 821 1.9 bouyer 822 1.9 bouyer void 823 1.9 bouyer piix_setup_cap(sc) 824 1.9 bouyer struct pciide_softc *sc; 825 1.9 bouyer { 826 1.9 bouyer if (sc->sc_pp->ide_product == PCI_PRODUCT_INTEL_82371AB_IDE) 827 1.9 bouyer sc->sc_wdcdev.cap |= WDC_CAPABILITY_UDMA; 828 1.9 bouyer sc->sc_wdcdev.cap |= WDC_CAPABILITY_DATA32 | WDC_CAPABILITY_MODE | 829 1.9 bouyer WDC_CAPABILITY_DMA; 830 1.9 bouyer sc->sc_wdcdev.pio_mode = 4; 831 1.9 bouyer sc->sc_wdcdev.dma_mode = 2; 832 1.9 bouyer } 833 1.9 bouyer 834 1.9 bouyer void 835 1.9 bouyer piix_setup_chip(sc, pc, tag) 836 1.9 bouyer struct pciide_softc *sc; 837 1.9 bouyer pci_chipset_tag_t pc; 838 1.9 bouyer pcitag_t tag; 839 1.9 bouyer { 840 1.9 bouyer struct channel_softc *chp; 841 1.9 bouyer u_int8_t mode[2]; 842 1.9 bouyer u_int8_t channel, drive; 843 1.9 bouyer u_int32_t oidetim, idetim, sidetim, idedma_ctl; 844 1.9 bouyer struct ata_drive_datas *drvp; 845 1.9 bouyer 846 1.9 bouyer oidetim = pci_conf_read(pc, tag, PIIX_IDETIM); 847 1.9 bouyer idetim = sidetim = 0; 848 1.9 bouyer 849 1.9 bouyer WDCDEBUG_PRINT(("piix_setup_chip: old idetim=0x%x, sidetim=0x%x\n", 850 1.9 bouyer oidetim, 851 1.9 bouyer pci_conf_read(pc, tag, PIIX_SIDETIM)), DEBUG_PROBE); 852 1.9 bouyer 853 1.9 bouyer for (channel = 0; channel < PCIIDE_NUM_CHANNELS; channel++) { 854 1.9 bouyer chp = &sc->wdc_channels[channel]; 855 1.9 bouyer drvp = chp->ch_drive; 856 1.9 bouyer idedma_ctl = 0; 857 1.9 bouyer /* If channel disabled, no need to go further */ 858 1.9 bouyer if ((PIIX_IDETIM_READ(oidetim, channel) & PIIX_IDETIM_IDE) == 0) 859 1.9 bouyer continue; 860 1.9 bouyer /* set up new idetim: Enable IDE registers decode */ 861 1.9 bouyer idetim = PIIX_IDETIM_SET(idetim, PIIX_IDETIM_IDE, 862 1.9 bouyer channel); 863 1.9 bouyer 864 1.9 bouyer /* setup DMA if needed */ 865 1.9 bouyer for (drive = 0; drive < 2; drive++) { 866 1.9 bouyer if (drvp[drive].drive_flags & DRIVE_DMA && 867 1.9 bouyer pciide_dma_table_setup(sc, channel, drive) != 0) { 868 1.9 bouyer drvp[drive].drive_flags &= ~DRIVE_DMA; 869 1.9 bouyer } 870 1.9 bouyer } 871 1.9 bouyer 872 1.9 bouyer /* 873 1.9 bouyer * Here we have to mess up with drives mode: PIIX can't have 874 1.9 bouyer * different timings for master and slave drives. 875 1.9 bouyer * We need to find the best combination. 876 1.9 bouyer */ 877 1.9 bouyer 878 1.9 bouyer /* If both drives supports DMA, takes the lower mode */ 879 1.9 bouyer if ((drvp[0].drive_flags & DRIVE_DMA) && 880 1.9 bouyer (drvp[1].drive_flags & DRIVE_DMA)) { 881 1.9 bouyer mode[0] = mode[1] = 882 1.9 bouyer min(drvp[0].DMA_mode, drvp[1].DMA_mode); 883 1.9 bouyer drvp[0].DMA_mode = mode[0]; 884 1.9 bouyer goto ok; 885 1.9 bouyer } 886 1.9 bouyer /* 887 1.9 bouyer * If only one drive supports DMA, use its mode, and 888 1.9 bouyer * put the other one in PIO mode 0 if mode not compatible 889 1.9 bouyer */ 890 1.9 bouyer if (drvp[0].drive_flags & DRIVE_DMA) { 891 1.9 bouyer mode[0] = drvp[0].DMA_mode; 892 1.9 bouyer mode[1] = drvp[1].PIO_mode; 893 1.9 bouyer if (piix_isp_pio[mode[1]] != piix_isp_dma[mode[0]] || 894 1.9 bouyer piix_rtc_pio[mode[1]] != piix_rtc_dma[mode[0]]) 895 1.9 bouyer mode[1] = 0; 896 1.9 bouyer goto ok; 897 1.9 bouyer } 898 1.9 bouyer if (drvp[1].drive_flags & DRIVE_DMA) { 899 1.9 bouyer mode[1] = drvp[1].DMA_mode; 900 1.9 bouyer mode[0] = drvp[0].PIO_mode; 901 1.9 bouyer if (piix_isp_pio[mode[0]] != piix_isp_dma[mode[1]] || 902 1.9 bouyer piix_rtc_pio[mode[0]] != piix_rtc_dma[mode[1]]) 903 1.9 bouyer mode[0] = 0; 904 1.9 bouyer goto ok; 905 1.9 bouyer } 906 1.9 bouyer /* 907 1.9 bouyer * If both drives are not DMA, takes the lower mode, unless 908 1.9 bouyer * one of them is PIO mode < 2 909 1.9 bouyer */ 910 1.9 bouyer if (drvp[0].PIO_mode < 2) { 911 1.9 bouyer mode[0] = 0; 912 1.9 bouyer mode[1] = drvp[1].PIO_mode; 913 1.9 bouyer } else if (drvp[1].PIO_mode < 2) { 914 1.9 bouyer mode[1] = 0; 915 1.9 bouyer mode[0] = drvp[0].PIO_mode; 916 1.9 bouyer } else { 917 1.9 bouyer mode[0] = mode[1] = 918 1.9 bouyer min(drvp[1].PIO_mode, drvp[0].PIO_mode); 919 1.9 bouyer } 920 1.9 bouyer ok: /* The modes are setup */ 921 1.9 bouyer for (drive = 0; drive < 2; drive++) { 922 1.9 bouyer if (drvp[drive].drive_flags & DRIVE_DMA) { 923 1.9 bouyer drvp[drive].DMA_mode = mode[drive]; 924 1.9 bouyer idetim |= piix_setup_idetim_timings( 925 1.9 bouyer mode[drive], 1, channel); 926 1.9 bouyer goto end; 927 1.9 bouyer } else 928 1.9 bouyer drvp[drive].PIO_mode = mode[drive]; 929 1.9 bouyer } 930 1.9 bouyer /* If we are there, none of the drives are DMA */ 931 1.9 bouyer if (mode[0] >= 2) 932 1.9 bouyer idetim |= piix_setup_idetim_timings( 933 1.9 bouyer mode[0], 0, channel); 934 1.9 bouyer else 935 1.9 bouyer idetim |= piix_setup_idetim_timings( 936 1.9 bouyer mode[1], 0, channel); 937 1.9 bouyer end: /* 938 1.9 bouyer * timing mode is now set up in the controller. Enable 939 1.9 bouyer * it per-drive 940 1.9 bouyer */ 941 1.9 bouyer for (drive = 0; drive < 2; drive++) { 942 1.9 bouyer /* If no drive, skip */ 943 1.9 bouyer if ((drvp[drive].drive_flags & DRIVE) == 0) 944 1.9 bouyer continue; 945 1.9 bouyer idetim |= piix_setup_idetim_drvs(&drvp[drive]); 946 1.9 bouyer printf("%s(%s:%d:%d): using PIO mode %d", 947 1.9 bouyer drvp[drive].drv_softc->dv_xname, 948 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 949 1.9 bouyer channel, drive, drvp[drive].PIO_mode); 950 1.9 bouyer if (drvp[drive].drive_flags & DRIVE_DMA) { 951 1.9 bouyer idedma_ctl |= IDEDMA_CTL_DRV_DMA(drive); 952 1.9 bouyer printf(", DMA mode %d", drvp[drive].DMA_mode); 953 1.9 bouyer } 954 1.9 bouyer printf("\n"); 955 1.9 bouyer } 956 1.9 bouyer if (idedma_ctl != 0) { 957 1.9 bouyer /* Add software bits in status register */ 958 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 959 1.9 bouyer IDEDMA_CTL + (IDEDMA_SCH_OFFSET * channel), 960 1.9 bouyer idedma_ctl); 961 1.9 bouyer } 962 1.9 bouyer } 963 1.9 bouyer WDCDEBUG_PRINT(("piix_setup_chip: idetim=0x%x, sidetim=0x%x\n", 964 1.9 bouyer idetim, sidetim), DEBUG_PROBE); 965 1.9 bouyer pci_conf_write(pc, tag, PIIX_IDETIM, idetim); 966 1.9 bouyer pci_conf_write(pc, tag, PIIX_SIDETIM, sidetim); 967 1.9 bouyer } 968 1.9 bouyer 969 1.9 bouyer void 970 1.9 bouyer piix3_4_setup_chip(sc, pc, tag) 971 1.9 bouyer struct pciide_softc *sc; 972 1.9 bouyer pci_chipset_tag_t pc; 973 1.9 bouyer pcitag_t tag; 974 1.8 drochner { 975 1.9 bouyer int channel, drive; 976 1.9 bouyer struct channel_softc *chp; 977 1.9 bouyer struct ata_drive_datas *drvp; 978 1.9 bouyer u_int32_t oidetim, idetim, sidetim, udmareg, idedma_ctl; 979 1.9 bouyer 980 1.9 bouyer idetim = sidetim = udmareg = 0; 981 1.9 bouyer oidetim = pci_conf_read(pc, tag, PIIX_IDETIM); 982 1.9 bouyer 983 1.9 bouyer WDCDEBUG_PRINT(("piix3_4_setup_chip: old idetim=0x%x, sidetim=0x%x", 984 1.9 bouyer oidetim, 985 1.9 bouyer pci_conf_read(pc, tag, PIIX_SIDETIM)), DEBUG_PROBE); 986 1.9 bouyer if (sc->sc_wdcdev.cap & WDC_CAPABILITY_UDMA) { 987 1.9 bouyer WDCDEBUG_PRINT((", udamreg 0x%x", 988 1.9 bouyer pci_conf_read(pc, tag, PIIX_UDMAREG)), 989 1.9 bouyer DEBUG_PROBE); 990 1.9 bouyer } 991 1.9 bouyer WDCDEBUG_PRINT(("\n"), DEBUG_PROBE); 992 1.9 bouyer 993 1.9 bouyer for (channel = 0; channel < PCIIDE_NUM_CHANNELS; channel++) { 994 1.9 bouyer chp = &sc->wdc_channels[channel]; 995 1.9 bouyer idedma_ctl = 0; 996 1.9 bouyer /* If channel disabled, no need to go further */ 997 1.9 bouyer if ((PIIX_IDETIM_READ(oidetim, channel) & PIIX_IDETIM_IDE) == 0) 998 1.9 bouyer continue; 999 1.9 bouyer /* set up new idetim: Enable IDE registers decode */ 1000 1.9 bouyer idetim = PIIX_IDETIM_SET(idetim, PIIX_IDETIM_IDE, 1001 1.9 bouyer channel); 1002 1.9 bouyer for (drive = 0; drive < 2; drive++) { 1003 1.9 bouyer drvp = &chp->ch_drive[drive]; 1004 1.9 bouyer /* If no drive, skip */ 1005 1.9 bouyer if ((drvp->drive_flags & DRIVE) == 0) 1006 1.9 bouyer continue; 1007 1.9 bouyer /* add timing values, setup DMA if needed */ 1008 1.9 bouyer if (((drvp->drive_flags & DRIVE_DMA) == 0 && 1009 1.9 bouyer (drvp->drive_flags & DRIVE_UDMA) == 0) || 1010 1.9 bouyer sc->sc_dma_ok == 0) { 1011 1.9 bouyer drvp->drive_flags &= ~(DRIVE_DMA | DRIVE_UDMA); 1012 1.9 bouyer goto pio; 1013 1.9 bouyer } 1014 1.9 bouyer if (pciide_dma_table_setup(sc, channel, drive) != 0) { 1015 1.9 bouyer /* Abort DMA setup */ 1016 1.9 bouyer drvp->drive_flags &= ~(DRIVE_DMA | DRIVE_UDMA); 1017 1.9 bouyer goto pio; 1018 1.9 bouyer } 1019 1.9 bouyer if ((chp->wdc->cap & WDC_CAPABILITY_UDMA) && 1020 1.9 bouyer (drvp->drive_flags & DRIVE_UDMA)) { 1021 1.9 bouyer /* use Ultra/DMA */ 1022 1.9 bouyer drvp->drive_flags &= ~DRIVE_DMA; 1023 1.9 bouyer udmareg |= PIIX_UDMACTL_DRV_EN( 1024 1.9 bouyer channel, drive); 1025 1.9 bouyer udmareg |= PIIX_UDMATIM_SET( 1026 1.9 bouyer piix4_sct_udma[drvp->UDMA_mode], 1027 1.9 bouyer channel, drive); 1028 1.9 bouyer } else { 1029 1.9 bouyer /* use Multiword DMA */ 1030 1.9 bouyer drvp->drive_flags &= ~DRIVE_UDMA; 1031 1.9 bouyer if (drive == 0) { 1032 1.9 bouyer idetim |= piix_setup_idetim_timings( 1033 1.9 bouyer drvp->DMA_mode, 1, channel); 1034 1.9 bouyer } else { 1035 1.9 bouyer sidetim |= piix_setup_sidetim_timings( 1036 1.9 bouyer drvp->DMA_mode, 1, channel); 1037 1.9 bouyer idetim =PIIX_IDETIM_SET(idetim, 1038 1.9 bouyer PIIX_IDETIM_SITRE, channel); 1039 1.9 bouyer } 1040 1.9 bouyer } 1041 1.9 bouyer idedma_ctl |= IDEDMA_CTL_DRV_DMA(drive); 1042 1.9 bouyer 1043 1.9 bouyer pio: /* use PIO mode */ 1044 1.9 bouyer idetim |= piix_setup_idetim_drvs(drvp); 1045 1.9 bouyer if (drive == 0) { 1046 1.9 bouyer idetim |= piix_setup_idetim_timings( 1047 1.9 bouyer drvp->PIO_mode, 0, channel); 1048 1.9 bouyer } else { 1049 1.9 bouyer sidetim |= piix_setup_sidetim_timings( 1050 1.9 bouyer drvp->PIO_mode, 0, channel); 1051 1.9 bouyer idetim =PIIX_IDETIM_SET(idetim, 1052 1.9 bouyer PIIX_IDETIM_SITRE, channel); 1053 1.9 bouyer } 1054 1.9 bouyer printf("%s(%s:%d:%d): using PIO mode %d", 1055 1.9 bouyer drvp->drv_softc->dv_xname, 1056 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 1057 1.9 bouyer channel, drive, drvp->PIO_mode); 1058 1.10 bouyer if (drvp->drive_flags & DRIVE_DMA) 1059 1.9 bouyer printf(", DMA mode %d", drvp->DMA_mode); 1060 1.9 bouyer if (drvp->drive_flags & DRIVE_UDMA) 1061 1.9 bouyer printf(", UDMA mode %d", drvp->UDMA_mode); 1062 1.9 bouyer printf("\n"); 1063 1.9 bouyer } 1064 1.9 bouyer if (idedma_ctl != 0) { 1065 1.9 bouyer /* Add software bits in status register */ 1066 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1067 1.9 bouyer IDEDMA_CTL + (IDEDMA_SCH_OFFSET * channel), 1068 1.9 bouyer idedma_ctl); 1069 1.9 bouyer } 1070 1.9 bouyer } 1071 1.8 drochner 1072 1.9 bouyer WDCDEBUG_PRINT(("piix3_4_setup_chip: idetim=0x%x, sidetim=0x%x", 1073 1.9 bouyer idetim, sidetim), DEBUG_PROBE); 1074 1.9 bouyer if (sc->sc_wdcdev.cap & WDC_CAPABILITY_UDMA) { 1075 1.9 bouyer WDCDEBUG_PRINT((", udmareg=0x%x", udmareg), DEBUG_PROBE); 1076 1.9 bouyer pci_conf_write(pc, tag, PIIX_UDMAREG, udmareg); 1077 1.9 bouyer } 1078 1.9 bouyer WDCDEBUG_PRINT(("\n"), DEBUG_PROBE); 1079 1.9 bouyer pci_conf_write(pc, tag, PIIX_IDETIM, idetim); 1080 1.9 bouyer pci_conf_write(pc, tag, PIIX_SIDETIM, sidetim); 1081 1.9 bouyer } 1082 1.8 drochner 1083 1.9 bouyer /* setup ISP and RTC fields, based on mode */ 1084 1.9 bouyer static u_int32_t 1085 1.9 bouyer piix_setup_idetim_timings(mode, dma, channel) 1086 1.9 bouyer u_int8_t mode; 1087 1.9 bouyer u_int8_t dma; 1088 1.9 bouyer u_int8_t channel; 1089 1.9 bouyer { 1090 1.9 bouyer 1091 1.9 bouyer if (dma) 1092 1.9 bouyer return PIIX_IDETIM_SET(0, 1093 1.9 bouyer PIIX_IDETIM_ISP_SET(piix_isp_dma[mode]) | 1094 1.9 bouyer PIIX_IDETIM_RTC_SET(piix_rtc_dma[mode]), 1095 1.9 bouyer channel); 1096 1.9 bouyer else 1097 1.9 bouyer return PIIX_IDETIM_SET(0, 1098 1.9 bouyer PIIX_IDETIM_ISP_SET(piix_isp_pio[mode]) | 1099 1.9 bouyer PIIX_IDETIM_RTC_SET(piix_rtc_pio[mode]), 1100 1.9 bouyer channel); 1101 1.8 drochner } 1102 1.8 drochner 1103 1.9 bouyer /* setup DTE, PPE, IE and TIME field based on PIO mode */ 1104 1.9 bouyer static u_int32_t 1105 1.9 bouyer piix_setup_idetim_drvs(drvp) 1106 1.9 bouyer struct ata_drive_datas *drvp; 1107 1.6 cgd { 1108 1.9 bouyer u_int32_t ret = 0; 1109 1.9 bouyer struct channel_softc *chp = drvp->chnl_softc; 1110 1.9 bouyer u_int8_t channel = chp->channel; 1111 1.9 bouyer u_int8_t drive = drvp->drive; 1112 1.9 bouyer 1113 1.9 bouyer /* 1114 1.9 bouyer * If drive is using UDMA, timings setups are independant 1115 1.9 bouyer * So just check DMA and PIO here. 1116 1.9 bouyer */ 1117 1.9 bouyer if (drvp->drive_flags & DRIVE_DMA) { 1118 1.9 bouyer /* if mode = DMA mode 0, use compatible timings */ 1119 1.9 bouyer if ((drvp->drive_flags & DRIVE_DMA) && 1120 1.9 bouyer drvp->DMA_mode == 0) { 1121 1.9 bouyer drvp->PIO_mode = 0; 1122 1.9 bouyer return ret; 1123 1.9 bouyer } 1124 1.9 bouyer ret = PIIX_IDETIM_SET(ret, PIIX_IDETIM_TIME(drive), channel); 1125 1.9 bouyer /* 1126 1.9 bouyer * PIO and DMA timings are the same, use fast timings for PIO 1127 1.9 bouyer * too, else use compat timings. 1128 1.9 bouyer */ 1129 1.9 bouyer if ((piix_isp_pio[drvp->PIO_mode] != 1130 1.9 bouyer piix_isp_dma[drvp->DMA_mode]) || 1131 1.9 bouyer (piix_rtc_pio[drvp->PIO_mode] != 1132 1.9 bouyer piix_rtc_dma[drvp->DMA_mode])) 1133 1.9 bouyer drvp->PIO_mode = 0; 1134 1.9 bouyer /* if PIO mode <= 2, use compat timings for PIO */ 1135 1.9 bouyer if (drvp->PIO_mode <= 2) { 1136 1.9 bouyer ret = PIIX_IDETIM_SET(ret, PIIX_IDETIM_DTE(drive), 1137 1.9 bouyer channel); 1138 1.9 bouyer return ret; 1139 1.9 bouyer } 1140 1.9 bouyer } 1141 1.6 cgd 1142 1.6 cgd /* 1143 1.9 bouyer * Now setup PIO modes. If mode < 2, use compat timings. 1144 1.9 bouyer * Else enable fast timings. Enable IORDY and prefetch/post 1145 1.9 bouyer * if PIO mode >= 3. 1146 1.6 cgd */ 1147 1.6 cgd 1148 1.9 bouyer if (drvp->PIO_mode < 2) 1149 1.9 bouyer return ret; 1150 1.9 bouyer 1151 1.9 bouyer ret = PIIX_IDETIM_SET(ret, PIIX_IDETIM_TIME(drive), channel); 1152 1.9 bouyer if (drvp->PIO_mode >= 3) { 1153 1.9 bouyer ret = PIIX_IDETIM_SET(ret, PIIX_IDETIM_IE(drive), channel); 1154 1.9 bouyer ret = PIIX_IDETIM_SET(ret, PIIX_IDETIM_PPE(drive), channel); 1155 1.9 bouyer } 1156 1.9 bouyer return ret; 1157 1.9 bouyer } 1158 1.9 bouyer 1159 1.9 bouyer /* setup values in SIDETIM registers, based on mode */ 1160 1.9 bouyer static u_int32_t 1161 1.9 bouyer piix_setup_sidetim_timings(mode, dma, channel) 1162 1.9 bouyer u_int8_t mode; 1163 1.9 bouyer u_int8_t dma; 1164 1.9 bouyer u_int8_t channel; 1165 1.9 bouyer { 1166 1.9 bouyer if (dma) 1167 1.9 bouyer return PIIX_SIDETIM_ISP_SET(piix_isp_dma[mode], channel) | 1168 1.9 bouyer PIIX_SIDETIM_RTC_SET(piix_rtc_dma[mode], channel); 1169 1.9 bouyer else 1170 1.9 bouyer return PIIX_SIDETIM_ISP_SET(piix_isp_pio[mode], channel) | 1171 1.9 bouyer PIIX_SIDETIM_RTC_SET(piix_rtc_pio[mode], channel); 1172 1.9 bouyer } 1173 1.9 bouyer 1174 1.9 bouyer const char* 1175 1.9 bouyer piix_channel_probe(sc, pa, chan) 1176 1.9 bouyer struct pciide_softc *sc; 1177 1.9 bouyer struct pci_attach_args *pa; 1178 1.9 bouyer int chan; 1179 1.9 bouyer { 1180 1.9 bouyer u_int32_t idetim = pci_conf_read(pa->pa_pc, pa->pa_tag, PIIX_IDETIM); 1181 1.9 bouyer 1182 1.9 bouyer if (PIIX_IDETIM_READ(idetim, chan) & PIIX_IDETIM_IDE) 1183 1.9 bouyer return NULL; 1184 1.9 bouyer else 1185 1.9 bouyer return "disabled"; 1186 1.9 bouyer } 1187 1.9 bouyer 1188 1.9 bouyer int 1189 1.9 bouyer piix_channel_disable(sc, pa, chan) 1190 1.9 bouyer struct pciide_softc *sc; 1191 1.9 bouyer struct pci_attach_args *pa; 1192 1.9 bouyer { 1193 1.9 bouyer u_int32_t idetim = pci_conf_read(pa->pa_pc, pa->pa_tag, PIIX_IDETIM); 1194 1.9 bouyer idetim = PIIX_IDETIM_CLEAR(idetim, PIIX_IDETIM_IDE, chan); 1195 1.9 bouyer pci_conf_write(pa->pa_pc, pa->pa_tag, PIIX_IDETIM, idetim); 1196 1.9 bouyer return 1; 1197 1.9 bouyer } 1198 1.9 bouyer 1199 1.9 bouyer void 1200 1.9 bouyer apollo_setup_cap(sc) 1201 1.9 bouyer struct pciide_softc *sc; 1202 1.9 bouyer { 1203 1.11 bouyer if (sc->sc_pp->ide_product == PCI_PRODUCT_VIATECH_VT82C586A_IDE) 1204 1.9 bouyer sc->sc_wdcdev.cap |= WDC_CAPABILITY_UDMA; 1205 1.9 bouyer sc->sc_wdcdev.cap |= WDC_CAPABILITY_DATA32 | WDC_CAPABILITY_MODE | 1206 1.9 bouyer WDC_CAPABILITY_DMA; 1207 1.9 bouyer sc->sc_wdcdev.pio_mode = 4; 1208 1.9 bouyer sc->sc_wdcdev.dma_mode = 2; 1209 1.9 bouyer 1210 1.9 bouyer } 1211 1.9 bouyer void 1212 1.9 bouyer apollo_setup_chip(sc, pc, tag) 1213 1.9 bouyer struct pciide_softc *sc; 1214 1.9 bouyer pci_chipset_tag_t pc; 1215 1.9 bouyer pcitag_t tag; 1216 1.9 bouyer { 1217 1.9 bouyer u_int32_t udmatim_reg, datatim_reg; 1218 1.9 bouyer u_int8_t idedma_ctl; 1219 1.9 bouyer int mode; 1220 1.9 bouyer int channel, drive; 1221 1.9 bouyer struct channel_softc *chp; 1222 1.9 bouyer struct ata_drive_datas *drvp; 1223 1.9 bouyer 1224 1.9 bouyer WDCDEBUG_PRINT(("apollo_setup_chip: old APO_IDECONF=0x%x, " 1225 1.9 bouyer "APO_CTLMISC=0x%x, APO_DATATIM=0x%x, APO_UDMA=0x%x\n", 1226 1.9 bouyer pci_conf_read(pc, tag, APO_IDECONF), 1227 1.9 bouyer pci_conf_read(pc, tag, APO_CTLMISC), 1228 1.9 bouyer pci_conf_read(pc, tag, APO_DATATIM), 1229 1.9 bouyer pci_conf_read(pc, tag, APO_UDMA)), 1230 1.9 bouyer DEBUG_PROBE); 1231 1.9 bouyer 1232 1.9 bouyer datatim_reg = 0; 1233 1.9 bouyer udmatim_reg = 0; 1234 1.9 bouyer for (channel = 0; channel < PCIIDE_NUM_CHANNELS; channel++) { 1235 1.9 bouyer chp = &sc->wdc_channels[channel]; 1236 1.9 bouyer idedma_ctl = 0; 1237 1.9 bouyer for (drive = 0; drive < 2; drive++) { 1238 1.9 bouyer drvp = &chp->ch_drive[drive]; 1239 1.9 bouyer /* If no drive, skip */ 1240 1.9 bouyer if ((drvp->drive_flags & DRIVE) == 0) 1241 1.9 bouyer continue; 1242 1.9 bouyer /* add timing values, setup DMA if needed */ 1243 1.9 bouyer if (((drvp->drive_flags & DRIVE_DMA) == 0 && 1244 1.9 bouyer (drvp->drive_flags & DRIVE_UDMA) == 0) || 1245 1.9 bouyer sc->sc_dma_ok == 0) { 1246 1.9 bouyer drvp->drive_flags &= ~(DRIVE_DMA | DRIVE_UDMA); 1247 1.9 bouyer mode = drvp->PIO_mode; 1248 1.9 bouyer goto pio; 1249 1.9 bouyer } 1250 1.9 bouyer if (pciide_dma_table_setup(sc, channel, drive) != 0) { 1251 1.9 bouyer /* Abort DMA setup */ 1252 1.9 bouyer drvp->drive_flags &= ~(DRIVE_DMA | DRIVE_UDMA); 1253 1.9 bouyer mode = drvp->PIO_mode; 1254 1.9 bouyer goto pio; 1255 1.9 bouyer } 1256 1.9 bouyer if ((chp->wdc->cap & WDC_CAPABILITY_UDMA) && 1257 1.9 bouyer (drvp->drive_flags & DRIVE_UDMA)) { 1258 1.9 bouyer /* use Ultra/DMA */ 1259 1.9 bouyer drvp->drive_flags &= ~DRIVE_DMA; 1260 1.9 bouyer udmatim_reg |= APO_UDMA_EN(channel, drive) | 1261 1.9 bouyer APO_UDMA_EN_MTH(channel, drive) | 1262 1.9 bouyer APO_UDMA_TIME(channel, drive, 1263 1.9 bouyer apollo_udma_tim[drvp->UDMA_mode]); 1264 1.9 bouyer /* can use PIO timings, MW DMA unused */ 1265 1.9 bouyer mode = drvp->PIO_mode; 1266 1.9 bouyer } else { 1267 1.9 bouyer /* use Multiword DMA */ 1268 1.9 bouyer drvp->drive_flags &= ~DRIVE_UDMA; 1269 1.9 bouyer /* mode = min(pio, dma+2) */ 1270 1.9 bouyer if (drvp->PIO_mode <= (drvp->DMA_mode +2)) 1271 1.9 bouyer mode = drvp->PIO_mode; 1272 1.8 drochner else 1273 1.9 bouyer mode = drvp->DMA_mode; 1274 1.8 drochner } 1275 1.9 bouyer idedma_ctl |= IDEDMA_CTL_DRV_DMA(drive); 1276 1.9 bouyer 1277 1.9 bouyer pio: /* setup PIO mode */ 1278 1.9 bouyer datatim_reg |= 1279 1.9 bouyer APO_DATATIM_PULSE(channel, drive, 1280 1.9 bouyer apollo_pio_set[mode]) | 1281 1.9 bouyer APO_DATATIM_RECOV(channel, drive, 1282 1.9 bouyer apollo_pio_rec[mode]); 1283 1.9 bouyer drvp->PIO_mode = mode; 1284 1.9 bouyer drvp->DMA_mode = mode + 2; 1285 1.9 bouyer printf("%s(%s:%d:%d): using PIO mode %d", 1286 1.9 bouyer drvp->drv_softc->dv_xname, 1287 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, 1288 1.9 bouyer channel, drive, drvp->PIO_mode); 1289 1.9 bouyer if (drvp[drive].drive_flags & DRIVE_DMA) 1290 1.9 bouyer printf(", DMA mode %d", drvp->DMA_mode); 1291 1.9 bouyer if (drvp->drive_flags & DRIVE_UDMA) 1292 1.9 bouyer printf(", UDMA mode %d", drvp->UDMA_mode); 1293 1.9 bouyer printf("\n"); 1294 1.8 drochner } 1295 1.9 bouyer if (idedma_ctl != 0) { 1296 1.9 bouyer /* Add software bits in status register */ 1297 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1298 1.9 bouyer IDEDMA_CTL + (IDEDMA_SCH_OFFSET * channel), 1299 1.9 bouyer idedma_ctl); 1300 1.8 drochner } 1301 1.9 bouyer } 1302 1.9 bouyer WDCDEBUG_PRINT(("apollo_setup_chip: APO_DATATIM=0x%x, APO_UDMA=0x%x\n", 1303 1.9 bouyer datatim_reg, udmatim_reg), DEBUG_PROBE); 1304 1.9 bouyer pci_conf_write(pc, tag, APO_DATATIM, datatim_reg); 1305 1.9 bouyer pci_conf_write(pc, tag, APO_UDMA, udmatim_reg); 1306 1.9 bouyer } 1307 1.6 cgd 1308 1.9 bouyer const char* 1309 1.9 bouyer apollo_channel_probe(sc, pa, chan) 1310 1.9 bouyer struct pciide_softc *sc; 1311 1.9 bouyer struct pci_attach_args *pa; 1312 1.9 bouyer int chan; 1313 1.9 bouyer { 1314 1.6 cgd 1315 1.9 bouyer u_int32_t ideconf = pci_conf_read(pa->pa_pc, pa->pa_tag, APO_IDECONF); 1316 1.6 cgd 1317 1.9 bouyer if (ideconf & APO_IDECONF_EN(chan)) 1318 1.9 bouyer return NULL; 1319 1.9 bouyer else 1320 1.9 bouyer return "disabled"; 1321 1.9 bouyer 1322 1.5 cgd } 1323 1.5 cgd 1324 1.5 cgd int 1325 1.9 bouyer apollo_channel_disable(sc, pa, chan) 1326 1.9 bouyer struct pciide_softc *sc; 1327 1.9 bouyer struct pci_attach_args *pa; 1328 1.9 bouyer { 1329 1.9 bouyer u_int32_t ideconf = pci_conf_read(pa->pa_pc, pa->pa_tag, APO_IDECONF); 1330 1.9 bouyer ideconf &= ~APO_IDECONF_EN(chan); 1331 1.9 bouyer pci_conf_write(pa->pa_pc, pa->pa_tag, APO_IDECONF, ideconf); 1332 1.9 bouyer return 1; 1333 1.9 bouyer } 1334 1.9 bouyer 1335 1.9 bouyer const char* 1336 1.9 bouyer cmd_channel_probe(sc, pa, chan) 1337 1.5 cgd struct pciide_softc *sc; 1338 1.5 cgd struct pci_attach_args *pa; 1339 1.5 cgd int chan; 1340 1.5 cgd { 1341 1.5 cgd 1342 1.9 bouyer /* 1343 1.9 bouyer * with a CMD PCI64x, if we get here, the first channel is enabled: 1344 1.9 bouyer * there's no way to disable the first channel without disabling 1345 1.9 bouyer * the whole device 1346 1.9 bouyer */ 1347 1.9 bouyer if (chan == 0) 1348 1.9 bouyer return NULL; 1349 1.5 cgd 1350 1.9 bouyer /* Second channel is enabled if CMD_CONF_2PORT is set */ 1351 1.9 bouyer if ((pci_conf_read(pa->pa_pc, pa->pa_tag, CMD_CONF_CTRL0) & 1352 1.9 bouyer CMD_CONF_2PORT) == 0) 1353 1.9 bouyer return "disabled"; 1354 1.5 cgd 1355 1.9 bouyer return NULL; 1356 1.9 bouyer } 1357 1.5 cgd 1358 1.9 bouyer int 1359 1.9 bouyer cmd_channel_disable(sc, pa, chan) 1360 1.9 bouyer struct pciide_softc *sc; 1361 1.9 bouyer struct pci_attach_args *pa; 1362 1.9 bouyer { 1363 1.9 bouyer u_int32_t ctrl0; 1364 1.9 bouyer /* with a CMD PCI64x, the first channel is always enabled */ 1365 1.9 bouyer if (chan == 0) 1366 1.9 bouyer return 0; 1367 1.9 bouyer ctrl0 = pci_conf_read(pa->pa_pc, pa->pa_tag, CMD_CONF_CTRL0); 1368 1.9 bouyer ctrl0 &= ~CMD_CONF_2PORT; 1369 1.9 bouyer pci_conf_write(pa->pa_pc, pa->pa_tag, CMD_CONF_CTRL0, ctrl0); 1370 1.9 bouyer return 1; 1371 1.1 cgd } 1372 1.1 cgd 1373 1.1 cgd int 1374 1.9 bouyer pciide_dma_table_setup(sc, channel, drive) 1375 1.9 bouyer struct pciide_softc *sc; 1376 1.9 bouyer int channel, drive; 1377 1.1 cgd { 1378 1.9 bouyer bus_dma_segment_t seg; 1379 1.9 bouyer int error, rseg; 1380 1.9 bouyer const bus_size_t dma_table_size = 1381 1.9 bouyer sizeof(struct idedma_table) * NIDEDMA_TABLES; 1382 1.9 bouyer struct pciide_dma_maps *dma_maps = 1383 1.9 bouyer &sc->pciide_channels[channel].dma_maps[drive]; 1384 1.9 bouyer 1385 1.9 bouyer /* Allocate memory for the DMA tables and map it */ 1386 1.9 bouyer if ((error = bus_dmamem_alloc(sc->sc_dmat, dma_table_size, 1387 1.9 bouyer IDEDMA_TBL_ALIGN, IDEDMA_TBL_ALIGN, &seg, 1, &rseg, 1388 1.9 bouyer BUS_DMA_NOWAIT)) != 0) { 1389 1.9 bouyer printf("%s:%d: unable to allocate table DMA for " 1390 1.9 bouyer "drive %d, error=%d\n", sc->sc_wdcdev.sc_dev.dv_xname, 1391 1.9 bouyer channel, drive, error); 1392 1.9 bouyer return error; 1393 1.9 bouyer } 1394 1.9 bouyer if ((error = bus_dmamem_map(sc->sc_dmat, &seg, rseg, 1395 1.9 bouyer dma_table_size, 1396 1.9 bouyer (caddr_t *)&dma_maps->dma_table, 1397 1.9 bouyer BUS_DMA_NOWAIT|BUS_DMA_COHERENT)) != 0) { 1398 1.9 bouyer printf("%s:%d: unable to map table DMA for" 1399 1.9 bouyer "drive %d, error=%d\n", sc->sc_wdcdev.sc_dev.dv_xname, 1400 1.9 bouyer channel, drive, error); 1401 1.9 bouyer return error; 1402 1.9 bouyer } 1403 1.9 bouyer WDCDEBUG_PRINT(("pciide_dma_table_setup: table at %p len %ld, " 1404 1.9 bouyer "phy 0x%lx\n", dma_maps->dma_table, dma_table_size, 1405 1.9 bouyer seg.ds_addr), DEBUG_PROBE); 1406 1.9 bouyer 1407 1.9 bouyer /* Create and load table DMA map for this disk */ 1408 1.9 bouyer if ((error = bus_dmamap_create(sc->sc_dmat, dma_table_size, 1409 1.9 bouyer 1, dma_table_size, IDEDMA_TBL_ALIGN, BUS_DMA_NOWAIT, 1410 1.9 bouyer &dma_maps->dmamap_table)) != 0) { 1411 1.9 bouyer printf("%s:%d: unable to create table DMA map for " 1412 1.9 bouyer "drive %d, error=%d\n", sc->sc_wdcdev.sc_dev.dv_xname, 1413 1.9 bouyer channel, drive, error); 1414 1.9 bouyer return error; 1415 1.9 bouyer } 1416 1.9 bouyer if ((error = bus_dmamap_load(sc->sc_dmat, 1417 1.9 bouyer dma_maps->dmamap_table, 1418 1.9 bouyer dma_maps->dma_table, 1419 1.9 bouyer dma_table_size, NULL, BUS_DMA_NOWAIT)) != 0) { 1420 1.9 bouyer printf("%s:%d: unable to load table DMA map for " 1421 1.9 bouyer "drive %d, error=%d\n", sc->sc_wdcdev.sc_dev.dv_xname, 1422 1.9 bouyer channel, drive, error); 1423 1.9 bouyer return error; 1424 1.9 bouyer } 1425 1.9 bouyer WDCDEBUG_PRINT(("pciide_dma_table_setup: phy addr of table 0x%lx\n", 1426 1.9 bouyer dma_maps->dmamap_table->dm_segs[0].ds_addr), DEBUG_PROBE); 1427 1.9 bouyer /* Create a xfer DMA map for this drive */ 1428 1.9 bouyer if ((error = bus_dmamap_create(sc->sc_dmat, IDEDMA_BYTE_COUNT_MAX, 1429 1.9 bouyer NIDEDMA_TABLES, IDEDMA_BYTE_COUNT_MAX, IDEDMA_BYTE_COUNT_ALIGN, 1430 1.9 bouyer BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, 1431 1.9 bouyer &dma_maps->dmamap_xfer)) != 0) { 1432 1.9 bouyer printf("%s:%d: unable to create xfer DMA map for " 1433 1.9 bouyer "drive %d, error=%d\n", sc->sc_wdcdev.sc_dev.dv_xname, 1434 1.9 bouyer channel, drive, error); 1435 1.9 bouyer return error; 1436 1.9 bouyer } 1437 1.9 bouyer return 0; 1438 1.1 cgd } 1439 1.1 cgd 1440 1.1 cgd int 1441 1.9 bouyer pciide_dma_init(v, channel, drive, databuf, datalen, flags) 1442 1.9 bouyer void *v; 1443 1.9 bouyer int channel, drive; 1444 1.9 bouyer void *databuf; 1445 1.9 bouyer size_t datalen; 1446 1.9 bouyer int flags; 1447 1.1 cgd { 1448 1.9 bouyer struct pciide_softc *sc = v; 1449 1.9 bouyer int error, seg; 1450 1.9 bouyer struct pciide_dma_maps *dma_maps = 1451 1.9 bouyer &sc->pciide_channels[channel].dma_maps[drive]; 1452 1.9 bouyer 1453 1.9 bouyer error = bus_dmamap_load(sc->sc_dmat, 1454 1.9 bouyer dma_maps->dmamap_xfer, 1455 1.9 bouyer databuf, datalen, NULL, BUS_DMA_NOWAIT); 1456 1.9 bouyer if (error) { 1457 1.9 bouyer printf("%s:%d: unable to load xfer DMA map for" 1458 1.9 bouyer "drive %d, error=%d\n", sc->sc_wdcdev.sc_dev.dv_xname, 1459 1.9 bouyer channel, drive, error); 1460 1.9 bouyer return error; 1461 1.9 bouyer } 1462 1.9 bouyer 1463 1.9 bouyer bus_dmamap_sync(sc->sc_dmat, dma_maps->dmamap_xfer, 0, 1464 1.9 bouyer dma_maps->dmamap_xfer->dm_mapsize, 1465 1.9 bouyer (flags & WDC_DMA_READ) ? 1466 1.9 bouyer BUS_DMASYNC_PREREAD : BUS_DMASYNC_PREWRITE); 1467 1.9 bouyer 1468 1.9 bouyer WDCDEBUG_PRINT(("pciide_dma_init: %d segs for %p len %d (phy 0x%x)\n", 1469 1.9 bouyer dma_maps->dmamap_xfer->dm_nsegs, databuf, datalen, 1470 1.9 bouyer vtophys(databuf)), DEBUG_DMA|DEBUG_XFERS); 1471 1.9 bouyer for (seg = 0; seg < dma_maps->dmamap_xfer->dm_nsegs; seg++) { 1472 1.9 bouyer #ifdef DIAGNOSTIC 1473 1.9 bouyer /* A segment must not cross a 64k boundary */ 1474 1.9 bouyer { 1475 1.9 bouyer u_long phys = dma_maps->dmamap_xfer->dm_segs[seg].ds_addr; 1476 1.9 bouyer u_long len = dma_maps->dmamap_xfer->dm_segs[seg].ds_len; 1477 1.9 bouyer if ((phys & ~IDEDMA_BYTE_COUNT_MASK) != 1478 1.9 bouyer ((phys + len - 1) & ~IDEDMA_BYTE_COUNT_MASK)) { 1479 1.9 bouyer printf("pciide_dma: segment %d physical addr 0x%lx" 1480 1.9 bouyer " len 0x%lx not properly aligned\n", 1481 1.9 bouyer seg, phys, len); 1482 1.9 bouyer panic("pciide_dma: buf align"); 1483 1.9 bouyer } 1484 1.9 bouyer } 1485 1.9 bouyer #endif 1486 1.9 bouyer dma_maps->dma_table[seg].base_addr = 1487 1.9 bouyer dma_maps->dmamap_xfer->dm_segs[seg].ds_addr; 1488 1.9 bouyer dma_maps->dma_table[seg].byte_count = 1489 1.9 bouyer dma_maps->dmamap_xfer->dm_segs[seg].ds_len & 1490 1.9 bouyer IDEDMA_BYTE_COUNT_MASK; 1491 1.9 bouyer WDCDEBUG_PRINT(("\t seg %d len %d addr 0x%x\n", 1492 1.9 bouyer seg, dma_maps->dma_table[seg].byte_count, 1493 1.9 bouyer dma_maps->dma_table[seg].base_addr), DEBUG_DMA); 1494 1.9 bouyer 1495 1.9 bouyer } 1496 1.9 bouyer dma_maps->dma_table[dma_maps->dmamap_xfer->dm_nsegs -1].byte_count |= 1497 1.9 bouyer IDEDMA_BYTE_COUNT_EOT; 1498 1.1 cgd 1499 1.9 bouyer bus_dmamap_sync(sc->sc_dmat, dma_maps->dmamap_table, 0, 1500 1.9 bouyer dma_maps->dmamap_table->dm_mapsize, 1501 1.9 bouyer BUS_DMASYNC_PREWRITE); 1502 1.9 bouyer 1503 1.9 bouyer /* Maps are ready. Start DMA function */ 1504 1.1 cgd #ifdef DIAGNOSTIC 1505 1.9 bouyer if (dma_maps->dmamap_table->dm_segs[0].ds_addr & ~IDEDMA_TBL_MASK) { 1506 1.9 bouyer printf("pciide_dma_init: addr 0x%lx not properly aligned\n", 1507 1.9 bouyer dma_maps->dmamap_table->dm_segs[0].ds_addr); 1508 1.9 bouyer panic("pciide_dma_init: table align"); 1509 1.9 bouyer } 1510 1.1 cgd #endif 1511 1.1 cgd 1512 1.9 bouyer WDCDEBUG_PRINT(("phy addr of table at %p = 0x%lx len %ld (%d segs, " 1513 1.9 bouyer "phys 0x%x)\n", 1514 1.9 bouyer dma_maps->dma_table, 1515 1.9 bouyer dma_maps->dmamap_table->dm_segs[0].ds_addr, 1516 1.9 bouyer dma_maps->dmamap_table->dm_segs[0].ds_len, 1517 1.9 bouyer dma_maps->dmamap_table->dm_nsegs, 1518 1.9 bouyer vtophys(dma_maps->dma_table)), DEBUG_DMA); 1519 1.9 bouyer /* Clear status bits */ 1520 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1521 1.9 bouyer IDEDMA_CTL + IDEDMA_SCH_OFFSET * channel, 1522 1.9 bouyer bus_space_read_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1523 1.9 bouyer IDEDMA_CTL + IDEDMA_SCH_OFFSET * channel)); 1524 1.9 bouyer /* Write table addr */ 1525 1.9 bouyer bus_space_write_4(sc->sc_dma_iot, sc->sc_dma_ioh, 1526 1.9 bouyer IDEDMA_TBL + IDEDMA_SCH_OFFSET * channel, 1527 1.9 bouyer dma_maps->dmamap_table->dm_segs[0].ds_addr); 1528 1.9 bouyer /* set read/write */ 1529 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1530 1.9 bouyer IDEDMA_CMD + IDEDMA_SCH_OFFSET * channel, 1531 1.9 bouyer (flags & WDC_DMA_READ) ? IDEDMA_CMD_WRITE: 0); 1532 1.9 bouyer return 0; 1533 1.9 bouyer } 1534 1.9 bouyer 1535 1.9 bouyer void 1536 1.9 bouyer pciide_dma_start(v, channel, drive, flags) 1537 1.9 bouyer void *v; 1538 1.9 bouyer int channel, drive, flags; 1539 1.9 bouyer { 1540 1.9 bouyer struct pciide_softc *sc = v; 1541 1.9 bouyer 1542 1.9 bouyer WDCDEBUG_PRINT(("pciide_dma_start\n"),DEBUG_XFERS); 1543 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1544 1.9 bouyer IDEDMA_CMD + IDEDMA_SCH_OFFSET * channel, 1545 1.9 bouyer bus_space_read_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1546 1.9 bouyer IDEDMA_CMD + IDEDMA_SCH_OFFSET * channel) | IDEDMA_CMD_START); 1547 1.1 cgd } 1548 1.1 cgd 1549 1.1 cgd int 1550 1.9 bouyer pciide_dma_finish(v, channel, drive, flags) 1551 1.9 bouyer void *v; 1552 1.9 bouyer int channel, drive; 1553 1.9 bouyer int flags; 1554 1.1 cgd { 1555 1.9 bouyer struct pciide_softc *sc = v; 1556 1.9 bouyer u_int8_t status; 1557 1.9 bouyer struct pciide_dma_maps *dma_maps = 1558 1.9 bouyer &sc->pciide_channels[channel].dma_maps[drive]; 1559 1.9 bouyer 1560 1.9 bouyer /* Unload the map of the data buffer */ 1561 1.9 bouyer bus_dmamap_sync(sc->sc_dmat, dma_maps->dmamap_xfer, 0, 1562 1.9 bouyer dma_maps->dmamap_xfer->dm_mapsize, 1563 1.9 bouyer (flags & WDC_DMA_READ) ? 1564 1.9 bouyer BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE); 1565 1.9 bouyer bus_dmamap_unload(sc->sc_dmat, dma_maps->dmamap_xfer); 1566 1.9 bouyer 1567 1.9 bouyer status = bus_space_read_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1568 1.9 bouyer IDEDMA_CTL + IDEDMA_SCH_OFFSET * channel); 1569 1.9 bouyer WDCDEBUG_PRINT(("pciide_dma_finish: status 0x%x\n", status), 1570 1.9 bouyer DEBUG_XFERS); 1571 1.9 bouyer 1572 1.9 bouyer /* stop DMA channel */ 1573 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1574 1.9 bouyer IDEDMA_CMD + IDEDMA_SCH_OFFSET * channel, 1575 1.9 bouyer bus_space_read_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1576 1.9 bouyer IDEDMA_CMD + IDEDMA_SCH_OFFSET * channel) & ~IDEDMA_CMD_START); 1577 1.9 bouyer 1578 1.9 bouyer /* Clear status bits */ 1579 1.9 bouyer bus_space_write_1(sc->sc_dma_iot, sc->sc_dma_ioh, 1580 1.9 bouyer IDEDMA_CTL + IDEDMA_SCH_OFFSET * channel, 1581 1.9 bouyer status); 1582 1.9 bouyer 1583 1.9 bouyer if ((status & IDEDMA_CTL_ERR) != 0) { 1584 1.9 bouyer printf("%s:%d:%d: Bus-Master DMA error: status=0x%x\n", 1585 1.9 bouyer sc->sc_wdcdev.sc_dev.dv_xname, channel, drive, status); 1586 1.9 bouyer return -1; 1587 1.9 bouyer } 1588 1.1 cgd 1589 1.9 bouyer if ((flags & WDC_DMA_POLL) == 0 && (status & IDEDMA_CTL_INTR) == 0) { 1590 1.9 bouyer printf("%s:%d:%d: Bus-Master DMA error: missing interrupt, " 1591 1.9 bouyer "status=0x%x\n", sc->sc_wdcdev.sc_dev.dv_xname, channel, 1592 1.9 bouyer drive, status); 1593 1.9 bouyer return -1; 1594 1.9 bouyer } 1595 1.1 cgd 1596 1.9 bouyer if ((status & IDEDMA_CTL_ACT) != 0) { 1597 1.9 bouyer /* data underrun, may be a valid condition for ATAPI */ 1598 1.9 bouyer return 1; 1599 1.9 bouyer } 1600 1.1 cgd 1601 1.9 bouyer return 0; 1602 1.1 cgd } 1603
Indexes created Mon Sep 22 10:09:38 GMT 2025