pxa2x0_gpio.c revision 1.10.2.2
1 1.10.2.2 yamt /* $NetBSD: pxa2x0_gpio.c,v 1.10.2.2 2009/08/19 18:46:00 yamt Exp $ */ 2 1.1 scw 3 1.1 scw /* 4 1.1 scw * Copyright 2003 Wasabi Systems, Inc. 5 1.1 scw * All rights reserved. 6 1.1 scw * 7 1.1 scw * Written by Steve C. Woodford for Wasabi Systems, Inc. 8 1.1 scw * 9 1.1 scw * Redistribution and use in source and binary forms, with or without 10 1.1 scw * modification, are permitted provided that the following conditions 11 1.1 scw * are met: 12 1.1 scw * 1. Redistributions of source code must retain the above copyright 13 1.1 scw * notice, this list of conditions and the following disclaimer. 14 1.1 scw * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 scw * notice, this list of conditions and the following disclaimer in the 16 1.1 scw * documentation and/or other materials provided with the distribution. 17 1.1 scw * 3. All advertising materials mentioning features or use of this software 18 1.1 scw * must display the following acknowledgement: 19 1.1 scw * This product includes software developed for the NetBSD Project by 20 1.1 scw * Wasabi Systems, Inc. 21 1.1 scw * 4. The name of Wasabi Systems, Inc. may not be used to endorse 22 1.1 scw * or promote products derived from this software without specific prior 23 1.1 scw * written permission. 24 1.1 scw * 25 1.1 scw * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 26 1.1 scw * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 27 1.1 scw * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 28 1.1 scw * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 29 1.1 scw * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 30 1.1 scw * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 31 1.1 scw * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 32 1.1 scw * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 33 1.1 scw * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 34 1.1 scw * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 35 1.1 scw * POSSIBILITY OF SUCH DAMAGE. 36 1.1 scw */ 37 1.2 lukem 38 1.2 lukem #include <sys/cdefs.h> 39 1.10.2.2 yamt __KERNEL_RCSID(0, "$NetBSD: pxa2x0_gpio.c,v 1.10.2.2 2009/08/19 18:46:00 yamt Exp $"); 40 1.1 scw 41 1.1 scw #include "opt_pxa2x0_gpio.h" 42 1.1 scw 43 1.1 scw #include <sys/param.h> 44 1.1 scw #include <sys/systm.h> 45 1.1 scw #include <sys/device.h> 46 1.1 scw #include <sys/malloc.h> 47 1.1 scw 48 1.1 scw #include <machine/intr.h> 49 1.1 scw #include <machine/bus.h> 50 1.1 scw 51 1.3 bsh #include <arm/xscale/pxa2x0cpu.h> 52 1.1 scw #include <arm/xscale/pxa2x0reg.h> 53 1.1 scw #include <arm/xscale/pxa2x0var.h> 54 1.1 scw #include <arm/xscale/pxa2x0_gpio.h> 55 1.1 scw 56 1.1 scw #include "locators.h" 57 1.1 scw 58 1.1 scw struct gpio_irq_handler { 59 1.6 ober struct gpio_irq_handler *gh_next; 60 1.1 scw int (*gh_func)(void *); 61 1.1 scw void *gh_arg; 62 1.1 scw int gh_spl; 63 1.1 scw u_int gh_gpio; 64 1.6 ober int gh_level; 65 1.1 scw }; 66 1.1 scw 67 1.1 scw struct pxagpio_softc { 68 1.1 scw struct device sc_dev; 69 1.1 scw bus_space_tag_t sc_bust; 70 1.1 scw bus_space_handle_t sc_bush; 71 1.3 bsh void *sc_irqcookie[4]; 72 1.3 bsh u_int32_t sc_mask[4]; 73 1.1 scw #ifdef PXAGPIO_HAS_GPION_INTRS 74 1.1 scw struct gpio_irq_handler *sc_handlers[GPIO_NPINS]; 75 1.1 scw #else 76 1.1 scw struct gpio_irq_handler *sc_handlers[2]; 77 1.1 scw #endif 78 1.1 scw }; 79 1.1 scw 80 1.1 scw static int pxagpio_match(struct device *, struct cfdata *, void *); 81 1.1 scw static void pxagpio_attach(struct device *, struct device *, void *); 82 1.1 scw 83 1.1 scw CFATTACH_DECL(pxagpio, sizeof(struct pxagpio_softc), 84 1.1 scw pxagpio_match, pxagpio_attach, NULL, NULL); 85 1.1 scw 86 1.1 scw static struct pxagpio_softc *pxagpio_softc; 87 1.1 scw static vaddr_t pxagpio_regs; 88 1.1 scw #define GPIO_BOOTSTRAP_REG(reg) \ 89 1.1 scw (*((volatile u_int32_t *)(pxagpio_regs + (reg)))) 90 1.1 scw 91 1.1 scw static int gpio_intr0(void *); 92 1.1 scw static int gpio_intr1(void *); 93 1.1 scw #ifdef PXAGPIO_HAS_GPION_INTRS 94 1.1 scw static int gpio_dispatch(struct pxagpio_softc *, int); 95 1.1 scw static int gpio_intrN(void *); 96 1.1 scw #endif 97 1.1 scw 98 1.5 perry static inline u_int32_t 99 1.1 scw pxagpio_reg_read(struct pxagpio_softc *sc, int reg) 100 1.1 scw { 101 1.1 scw if (__predict_true(sc != NULL)) 102 1.1 scw return (bus_space_read_4(sc->sc_bust, sc->sc_bush, reg)); 103 1.1 scw else 104 1.1 scw if (pxagpio_regs) 105 1.1 scw return (GPIO_BOOTSTRAP_REG(reg)); 106 1.1 scw panic("pxagpio_reg_read: not bootstrapped"); 107 1.1 scw } 108 1.1 scw 109 1.5 perry static inline void 110 1.1 scw pxagpio_reg_write(struct pxagpio_softc *sc, int reg, u_int32_t val) 111 1.1 scw { 112 1.1 scw if (__predict_true(sc != NULL)) 113 1.1 scw bus_space_write_4(sc->sc_bust, sc->sc_bush, reg, val); 114 1.1 scw else 115 1.1 scw if (pxagpio_regs) 116 1.1 scw GPIO_BOOTSTRAP_REG(reg) = val; 117 1.1 scw else 118 1.1 scw panic("pxagpio_reg_write: not bootstrapped"); 119 1.1 scw return; 120 1.1 scw } 121 1.1 scw 122 1.1 scw static int 123 1.1 scw pxagpio_match(struct device *parent, struct cfdata *cf, void *aux) 124 1.1 scw { 125 1.1 scw struct pxaip_attach_args *pxa = aux; 126 1.1 scw 127 1.1 scw if (pxagpio_softc != NULL || pxa->pxa_addr != PXA2X0_GPIO_BASE) 128 1.1 scw return (0); 129 1.1 scw 130 1.1 scw pxa->pxa_size = PXA2X0_GPIO_SIZE; 131 1.1 scw 132 1.1 scw return (1); 133 1.1 scw } 134 1.1 scw 135 1.7 peter static void 136 1.1 scw pxagpio_attach(struct device *parent, struct device *self, void *aux) 137 1.1 scw { 138 1.1 scw struct pxagpio_softc *sc = (struct pxagpio_softc *)self; 139 1.1 scw struct pxaip_attach_args *pxa = aux; 140 1.1 scw 141 1.1 scw sc->sc_bust = pxa->pxa_iot; 142 1.1 scw 143 1.1 scw aprint_normal(": GPIO Controller\n"); 144 1.1 scw 145 1.1 scw if (bus_space_map(sc->sc_bust, pxa->pxa_addr, pxa->pxa_size, 0, 146 1.1 scw &sc->sc_bush)) { 147 1.1 scw aprint_error("%s: Can't map registers!\n", sc->sc_dev.dv_xname); 148 1.1 scw return; 149 1.1 scw } 150 1.1 scw 151 1.3 bsh pxagpio_regs = (vaddr_t)bus_space_vaddr(sc->sc_bust, sc->sc_bush); 152 1.3 bsh 153 1.1 scw memset(sc->sc_handlers, 0, sizeof(sc->sc_handlers)); 154 1.1 scw 155 1.1 scw /* 156 1.1 scw * Disable all GPIO interrupts 157 1.1 scw */ 158 1.1 scw pxagpio_reg_write(sc, GPIO_GRER0, 0); 159 1.1 scw pxagpio_reg_write(sc, GPIO_GRER1, 0); 160 1.1 scw pxagpio_reg_write(sc, GPIO_GRER2, 0); 161 1.1 scw pxagpio_reg_write(sc, GPIO_GFER0, 0); 162 1.1 scw pxagpio_reg_write(sc, GPIO_GFER1, 0); 163 1.1 scw pxagpio_reg_write(sc, GPIO_GFER2, 0); 164 1.1 scw pxagpio_reg_write(sc, GPIO_GEDR0, ~0); 165 1.1 scw pxagpio_reg_write(sc, GPIO_GEDR1, ~0); 166 1.1 scw pxagpio_reg_write(sc, GPIO_GEDR2, ~0); 167 1.3 bsh #ifdef CPU_XSCALE_PXA270 168 1.3 bsh if (CPU_IS_PXA270) { 169 1.3 bsh pxagpio_reg_write(sc, GPIO_GRER3, 0); 170 1.3 bsh pxagpio_reg_write(sc, GPIO_GFER3, 0); 171 1.3 bsh pxagpio_reg_write(sc, GPIO_GEDR3, ~0); 172 1.3 bsh } 173 1.3 bsh #endif 174 1.1 scw 175 1.1 scw #ifdef PXAGPIO_HAS_GPION_INTRS 176 1.1 scw sc->sc_irqcookie[2] = pxa2x0_intr_establish(PXA2X0_INT_GPION, IPL_BIO, 177 1.1 scw gpio_intrN, sc); 178 1.1 scw if (sc->sc_irqcookie[2] == NULL) { 179 1.1 scw aprint_error("%s: failed to hook main GPIO interrupt\n", 180 1.1 scw sc->sc_dev.dv_xname); 181 1.1 scw return; 182 1.1 scw } 183 1.1 scw #endif 184 1.1 scw 185 1.1 scw sc->sc_irqcookie[0] = sc->sc_irqcookie[1] = NULL; 186 1.1 scw 187 1.1 scw pxagpio_softc = sc; 188 1.1 scw } 189 1.1 scw 190 1.1 scw void 191 1.1 scw pxa2x0_gpio_bootstrap(vaddr_t gpio_regs) 192 1.1 scw { 193 1.1 scw 194 1.1 scw pxagpio_regs = gpio_regs; 195 1.1 scw } 196 1.1 scw 197 1.1 scw void * 198 1.1 scw pxa2x0_gpio_intr_establish(u_int gpio, int level, int spl, int (*func)(void *), 199 1.1 scw void *arg) 200 1.1 scw { 201 1.1 scw struct pxagpio_softc *sc = pxagpio_softc; 202 1.1 scw struct gpio_irq_handler *gh; 203 1.1 scw u_int32_t bit, reg; 204 1.1 scw 205 1.1 scw #ifdef PXAGPIO_HAS_GPION_INTRS 206 1.1 scw if (gpio >= GPIO_NPINS) 207 1.1 scw panic("pxa2x0_gpio_intr_establish: bad pin number: %d", gpio); 208 1.1 scw #else 209 1.1 scw if (gpio > 1) 210 1.1 scw panic("pxa2x0_gpio_intr_establish: bad pin number: %d", gpio); 211 1.1 scw #endif 212 1.1 scw 213 1.1 scw if (!GPIO_IS_GPIO_IN(pxa2x0_gpio_get_function(gpio))) 214 1.1 scw panic("pxa2x0_gpio_intr_establish: Pin %d not GPIO_IN", gpio); 215 1.1 scw 216 1.1 scw switch (level) { 217 1.1 scw case IST_EDGE_FALLING: 218 1.1 scw case IST_EDGE_RISING: 219 1.1 scw case IST_EDGE_BOTH: 220 1.1 scw break; 221 1.1 scw 222 1.1 scw default: 223 1.1 scw panic("pxa2x0_gpio_intr_establish: bad level: %d", level); 224 1.1 scw break; 225 1.1 scw } 226 1.1 scw 227 1.1 scw if (sc->sc_handlers[gpio] != NULL) 228 1.1 scw panic("pxa2x0_gpio_intr_establish: illegal shared interrupt"); 229 1.1 scw 230 1.10.2.1 yamt gh = malloc(sizeof(struct gpio_irq_handler), M_DEVBUF, M_NOWAIT); 231 1.1 scw 232 1.1 scw gh->gh_func = func; 233 1.1 scw gh->gh_arg = arg; 234 1.1 scw gh->gh_spl = spl; 235 1.1 scw gh->gh_gpio = gpio; 236 1.6 ober gh->gh_level = level; 237 1.6 ober gh->gh_next = sc->sc_handlers[gpio]; 238 1.1 scw sc->sc_handlers[gpio] = gh; 239 1.1 scw 240 1.1 scw if (gpio == 0) { 241 1.1 scw KDASSERT(sc->sc_irqcookie[0] == NULL); 242 1.1 scw sc->sc_irqcookie[0] = pxa2x0_intr_establish(PXA2X0_INT_GPIO0, 243 1.1 scw spl, gpio_intr0, sc); 244 1.1 scw KDASSERT(sc->sc_irqcookie[0]); 245 1.1 scw } else 246 1.1 scw if (gpio == 1) { 247 1.1 scw KDASSERT(sc->sc_irqcookie[1] == NULL); 248 1.1 scw sc->sc_irqcookie[1] = pxa2x0_intr_establish(PXA2X0_INT_GPIO1, 249 1.1 scw spl, gpio_intr1, sc); 250 1.1 scw KDASSERT(sc->sc_irqcookie[1]); 251 1.1 scw } 252 1.1 scw 253 1.1 scw bit = GPIO_BIT(gpio); 254 1.1 scw sc->sc_mask[GPIO_BANK(gpio)] |= bit; 255 1.1 scw 256 1.1 scw switch (level) { 257 1.1 scw case IST_EDGE_FALLING: 258 1.1 scw reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GFER0, gpio)); 259 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GFER0, gpio), reg | bit); 260 1.1 scw break; 261 1.1 scw 262 1.1 scw case IST_EDGE_RISING: 263 1.1 scw reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GRER0, gpio)); 264 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GRER0, gpio), reg | bit); 265 1.1 scw break; 266 1.1 scw 267 1.1 scw case IST_EDGE_BOTH: 268 1.1 scw reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GFER0, gpio)); 269 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GFER0, gpio), reg | bit); 270 1.1 scw reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GRER0, gpio)); 271 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GRER0, gpio), reg | bit); 272 1.1 scw break; 273 1.1 scw } 274 1.1 scw 275 1.1 scw return (gh); 276 1.1 scw } 277 1.1 scw 278 1.1 scw void 279 1.1 scw pxa2x0_gpio_intr_disestablish(void *cookie) 280 1.1 scw { 281 1.1 scw struct pxagpio_softc *sc = pxagpio_softc; 282 1.1 scw struct gpio_irq_handler *gh = cookie; 283 1.1 scw u_int32_t bit, reg; 284 1.1 scw 285 1.1 scw bit = GPIO_BIT(gh->gh_gpio); 286 1.1 scw 287 1.1 scw reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GFER0, gh->gh_gpio)); 288 1.1 scw reg &= ~bit; 289 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GFER0, gh->gh_gpio), reg); 290 1.1 scw reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GRER0, gh->gh_gpio)); 291 1.1 scw reg &= ~bit; 292 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GRER0, gh->gh_gpio), reg); 293 1.1 scw 294 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GEDR0, gh->gh_gpio), bit); 295 1.1 scw 296 1.1 scw sc->sc_mask[GPIO_BANK(gh->gh_gpio)] &= ~bit; 297 1.1 scw sc->sc_handlers[gh->gh_gpio] = NULL; 298 1.1 scw 299 1.1 scw if (gh->gh_gpio == 0) { 300 1.1 scw #if 0 301 1.1 scw pxa2x0_intr_disestablish(sc->sc_irqcookie[0]); 302 1.1 scw sc->sc_irqcookie[0] = NULL; 303 1.1 scw #else 304 1.1 scw panic("pxa2x0_gpio_intr_disestablish: can't unhook GPIO#0"); 305 1.1 scw #endif 306 1.1 scw } else 307 1.1 scw if (gh->gh_gpio == 1) { 308 1.1 scw #if 0 309 1.1 scw pxa2x0_intr_disestablish(sc->sc_irqcookie[1]); 310 1.10 nonaka sc->sc_irqcookie[1] = NULL; 311 1.1 scw #else 312 1.10 nonaka panic("pxa2x0_gpio_intr_disestablish: can't unhook GPIO#1"); 313 1.1 scw #endif 314 1.1 scw } 315 1.1 scw 316 1.10.2.1 yamt free(gh, M_DEVBUF); 317 1.1 scw } 318 1.1 scw 319 1.1 scw static int 320 1.1 scw gpio_intr0(void *arg) 321 1.1 scw { 322 1.1 scw struct pxagpio_softc *sc = arg; 323 1.1 scw 324 1.1 scw #ifdef DIAGNOSTIC 325 1.1 scw if (sc->sc_handlers[0] == NULL) { 326 1.1 scw printf("%s: stray GPIO#0 edge interrupt\n", 327 1.1 scw sc->sc_dev.dv_xname); 328 1.1 scw return (0); 329 1.1 scw } 330 1.1 scw #endif 331 1.1 scw 332 1.1 scw bus_space_write_4(sc->sc_bust, sc->sc_bush, GPIO_REG(GPIO_GEDR0, 0), 333 1.1 scw GPIO_BIT(0)); 334 1.1 scw 335 1.1 scw return ((sc->sc_handlers[0]->gh_func)(sc->sc_handlers[0]->gh_arg)); 336 1.1 scw } 337 1.1 scw 338 1.1 scw static int 339 1.1 scw gpio_intr1(void *arg) 340 1.1 scw { 341 1.1 scw struct pxagpio_softc *sc = arg; 342 1.1 scw 343 1.1 scw #ifdef DIAGNOSTIC 344 1.1 scw if (sc->sc_handlers[1] == NULL) { 345 1.1 scw printf("%s: stray GPIO#1 edge interrupt\n", 346 1.1 scw sc->sc_dev.dv_xname); 347 1.1 scw return (0); 348 1.1 scw } 349 1.1 scw #endif 350 1.1 scw 351 1.1 scw bus_space_write_4(sc->sc_bust, sc->sc_bush, GPIO_REG(GPIO_GEDR0, 1), 352 1.1 scw GPIO_BIT(1)); 353 1.1 scw 354 1.1 scw return ((sc->sc_handlers[1]->gh_func)(sc->sc_handlers[1]->gh_arg)); 355 1.1 scw } 356 1.1 scw 357 1.1 scw #ifdef PXAGPIO_HAS_GPION_INTRS 358 1.1 scw static int 359 1.1 scw gpio_dispatch(struct pxagpio_softc *sc, int gpio_base) 360 1.1 scw { 361 1.1 scw struct gpio_irq_handler **ghp, *gh; 362 1.6 ober int i, s, nhandled, handled, pins; 363 1.1 scw u_int32_t gedr, mask; 364 1.1 scw int bank; 365 1.1 scw 366 1.1 scw /* Fetch bitmap of pending interrupts on this GPIO bank */ 367 1.1 scw gedr = pxagpio_reg_read(sc, GPIO_REG(GPIO_GEDR0, gpio_base)); 368 1.1 scw 369 1.1 scw /* Don't handle GPIO 0/1 here */ 370 1.1 scw if (gpio_base == 0) 371 1.1 scw gedr &= ~(GPIO_BIT(0) | GPIO_BIT(1)); 372 1.1 scw 373 1.1 scw /* Bail early if there are no pending interrupts in this bank */ 374 1.1 scw if (gedr == 0) 375 1.1 scw return (0); 376 1.1 scw 377 1.1 scw /* Acknowledge pending interrupts. */ 378 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GEDR0, gpio_base), gedr); 379 1.1 scw 380 1.1 scw bank = GPIO_BANK(gpio_base); 381 1.1 scw 382 1.1 scw /* 383 1.1 scw * We're only interested in those for which we have a handler 384 1.1 scw * registered 385 1.1 scw */ 386 1.1 scw #ifdef DEBUG 387 1.1 scw if ((gedr & sc->sc_mask[bank]) == 0) { 388 1.1 scw printf("%s: stray GPIO interrupt. Bank %d, GEDR 0x%08x, mask 0x%08x\n", 389 1.1 scw sc->sc_dev.dv_xname, bank, gedr, sc->sc_mask[bank]); 390 1.1 scw return (1); /* XXX: Pretend we dealt with it */ 391 1.1 scw } 392 1.1 scw #endif 393 1.1 scw 394 1.1 scw gedr &= sc->sc_mask[bank]; 395 1.1 scw ghp = &sc->sc_handlers[gpio_base]; 396 1.3 bsh if (CPU_IS_PXA270) 397 1.3 bsh pins = (gpio_base < 96) ? 32 : 25; 398 1.3 bsh else 399 1.3 bsh pins = (gpio_base < 64) ? 32 : 17; 400 1.1 scw handled = 0; 401 1.1 scw 402 1.1 scw for (i = 0, mask = 1; i < pins && gedr; i++, ghp++, mask <<= 1) { 403 1.1 scw if ((gedr & mask) == 0) 404 1.1 scw continue; 405 1.1 scw gedr &= ~mask; 406 1.1 scw 407 1.1 scw if ((gh = *ghp) == NULL) { 408 1.1 scw printf("%s: unhandled GPIO interrupt. GPIO#%d\n", 409 1.1 scw sc->sc_dev.dv_xname, gpio_base + i); 410 1.1 scw continue; 411 1.1 scw } 412 1.1 scw 413 1.1 scw s = _splraise(gh->gh_spl); 414 1.6 ober do { 415 1.6 ober nhandled = (gh->gh_func)(gh->gh_arg); 416 1.6 ober handled |= nhandled; 417 1.6 ober gh = gh->gh_next; 418 1.6 ober } while (gh != NULL); 419 1.1 scw splx(s); 420 1.1 scw } 421 1.1 scw 422 1.1 scw return (handled); 423 1.1 scw } 424 1.1 scw 425 1.1 scw static int 426 1.1 scw gpio_intrN(void *arg) 427 1.1 scw { 428 1.1 scw struct pxagpio_softc *sc = arg; 429 1.1 scw int handled; 430 1.1 scw 431 1.1 scw handled = gpio_dispatch(sc, 0); 432 1.1 scw handled |= gpio_dispatch(sc, 32); 433 1.1 scw handled |= gpio_dispatch(sc, 64); 434 1.3 bsh if (CPU_IS_PXA270) 435 1.3 bsh handled |= gpio_dispatch(sc, 96); 436 1.1 scw return (handled); 437 1.1 scw } 438 1.1 scw #endif /* PXAGPIO_HAS_GPION_INTRS */ 439 1.1 scw 440 1.1 scw u_int 441 1.1 scw pxa2x0_gpio_get_function(u_int gpio) 442 1.1 scw { 443 1.1 scw struct pxagpio_softc *sc = pxagpio_softc; 444 1.1 scw u_int32_t rv, io; 445 1.1 scw 446 1.1 scw KDASSERT(gpio < GPIO_NPINS); 447 1.1 scw 448 1.1 scw rv = pxagpio_reg_read(sc, GPIO_FN_REG(gpio)) >> GPIO_FN_SHIFT(gpio); 449 1.1 scw rv = GPIO_FN(rv); 450 1.1 scw 451 1.1 scw io = pxagpio_reg_read(sc, GPIO_REG(GPIO_GPDR0, gpio)); 452 1.1 scw if (io & GPIO_BIT(gpio)) 453 1.1 scw rv |= GPIO_OUT; 454 1.1 scw 455 1.1 scw io = pxagpio_reg_read(sc, GPIO_REG(GPIO_GPLR0, gpio)); 456 1.1 scw if (io & GPIO_BIT(gpio)) 457 1.1 scw rv |= GPIO_SET; 458 1.1 scw 459 1.1 scw return (rv); 460 1.1 scw } 461 1.1 scw 462 1.1 scw u_int 463 1.1 scw pxa2x0_gpio_set_function(u_int gpio, u_int fn) 464 1.1 scw { 465 1.1 scw struct pxagpio_softc *sc = pxagpio_softc; 466 1.1 scw u_int32_t rv, bit; 467 1.1 scw u_int oldfn; 468 1.1 scw 469 1.1 scw KDASSERT(gpio < GPIO_NPINS); 470 1.1 scw 471 1.1 scw oldfn = pxa2x0_gpio_get_function(gpio); 472 1.1 scw 473 1.1 scw if (GPIO_FN(fn) == GPIO_FN(oldfn) && 474 1.1 scw GPIO_FN_IS_OUT(fn) == GPIO_FN_IS_OUT(oldfn)) { 475 1.1 scw /* 476 1.1 scw * The pin's function is not changing. 477 1.1 scw * For Alternate Functions and GPIO input, we can just 478 1.1 scw * return now. 479 1.1 scw * For GPIO output pins, check the initial state is 480 1.1 scw * the same. 481 1.1 scw * 482 1.1 scw * Return 'fn' instead of 'oldfn' so the caller can 483 1.1 scw * reliably detect that we didn't change anything. 484 1.1 scw * (The initial state might be different for non- 485 1.1 scw * GPIO output pins). 486 1.1 scw */ 487 1.1 scw if (!GPIO_IS_GPIO_OUT(fn) || 488 1.1 scw GPIO_FN_IS_SET(fn) == GPIO_FN_IS_SET(oldfn)) 489 1.1 scw return (fn); 490 1.1 scw } 491 1.1 scw 492 1.1 scw /* 493 1.1 scw * See section 4.1.3.7 of the PXA2x0 Developer's Manual for 494 1.1 scw * the correct procedure for changing GPIO pin functions. 495 1.1 scw */ 496 1.1 scw 497 1.1 scw bit = GPIO_BIT(gpio); 498 1.1 scw 499 1.1 scw /* 500 1.1 scw * 1. Configure the correct set/clear state of the pin 501 1.1 scw */ 502 1.1 scw if (GPIO_FN_IS_SET(fn)) 503 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GPSR0, gpio), bit); 504 1.1 scw else 505 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GPCR0, gpio), bit); 506 1.1 scw 507 1.1 scw /* 508 1.1 scw * 2. Configure the pin as an input or output as appropriate 509 1.1 scw */ 510 1.1 scw rv = pxagpio_reg_read(sc, GPIO_REG(GPIO_GPDR0, gpio)) & ~bit; 511 1.1 scw if (GPIO_FN_IS_OUT(fn)) 512 1.1 scw rv |= bit; 513 1.1 scw pxagpio_reg_write(sc, GPIO_REG(GPIO_GPDR0, gpio), rv); 514 1.1 scw 515 1.1 scw /* 516 1.1 scw * 3. Configure the pin's function 517 1.1 scw */ 518 1.1 scw bit = GPIO_FN_MASK << GPIO_FN_SHIFT(gpio); 519 1.1 scw fn = GPIO_FN(fn) << GPIO_FN_SHIFT(gpio); 520 1.1 scw rv = pxagpio_reg_read(sc, GPIO_FN_REG(gpio)) & ~bit; 521 1.1 scw pxagpio_reg_write(sc, GPIO_FN_REG(gpio), rv | fn); 522 1.1 scw 523 1.1 scw return (oldfn); 524 1.1 scw } 525 1.6 ober 526 1.6 ober /* 527 1.6 ober * Quick function to read pin value 528 1.6 ober */ 529 1.6 ober int 530 1.6 ober pxa2x0_gpio_get_bit(u_int gpio) 531 1.6 ober { 532 1.6 ober struct pxagpio_softc *sc = pxagpio_softc; 533 1.6 ober int bit; 534 1.6 ober 535 1.6 ober bit = GPIO_BIT(gpio); 536 1.6 ober if (pxagpio_reg_read(sc, GPIO_REG(GPIO_GPLR0, gpio)) & bit) 537 1.6 ober return 1; 538 1.6 ober else 539 1.6 ober return 0; 540 1.6 ober } 541 1.6 ober 542 1.6 ober /* 543 1.6 ober * Quick function to set pin to 1 544 1.6 ober */ 545 1.6 ober void 546 1.6 ober pxa2x0_gpio_set_bit(u_int gpio) 547 1.6 ober { 548 1.6 ober struct pxagpio_softc *sc = pxagpio_softc; 549 1.6 ober int bit; 550 1.6 ober 551 1.6 ober bit = GPIO_BIT(gpio); 552 1.6 ober pxagpio_reg_write(sc, GPIO_REG(GPIO_GPSR0, gpio), bit); 553 1.6 ober } 554 1.6 ober 555 1.6 ober /* 556 1.6 ober * Quick function to set pin to 0 557 1.6 ober */ 558 1.6 ober void 559 1.6 ober pxa2x0_gpio_clear_bit(u_int gpio) 560 1.6 ober { 561 1.6 ober struct pxagpio_softc *sc = pxagpio_softc; 562 1.6 ober int bit; 563 1.6 ober 564 1.6 ober bit = GPIO_BIT(gpio); 565 1.6 ober pxagpio_reg_write(sc, GPIO_REG(GPIO_GPCR0, gpio), bit); 566 1.6 ober } 567 1.6 ober 568 1.6 ober /* 569 1.6 ober * Quick function to change pin direction 570 1.6 ober */ 571 1.6 ober void 572 1.6 ober pxa2x0_gpio_set_dir(u_int gpio, int dir) 573 1.6 ober { 574 1.6 ober struct pxagpio_softc *sc = pxagpio_softc; 575 1.6 ober int bit; 576 1.6 ober u_int32_t reg; 577 1.6 ober 578 1.6 ober bit = GPIO_BIT(gpio); 579 1.6 ober 580 1.6 ober reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GPDR0, gpio)) & ~bit; 581 1.6 ober if (GPIO_FN_IS_OUT(dir)) 582 1.6 ober reg |= bit; 583 1.6 ober pxagpio_reg_write(sc, GPIO_REG(GPIO_GPDR0, gpio), reg); 584 1.6 ober } 585 1.6 ober 586 1.6 ober /* 587 1.6 ober * Quick function to clear interrupt status on a pin 588 1.6 ober * GPIO pins may be toggle in an interrupt and we dont want 589 1.6 ober * extra spurious interrupts to occur. 590 1.6 ober * Suppose this causes a slight race if a key is pressed while 591 1.6 ober * the interrupt handler is running. (yes this is for the keyboard driver) 592 1.6 ober */ 593 1.6 ober void 594 1.6 ober pxa2x0_gpio_clear_intr(u_int gpio) 595 1.6 ober { 596 1.6 ober struct pxagpio_softc *sc = pxagpio_softc; 597 1.6 ober int bit; 598 1.6 ober 599 1.6 ober bit = GPIO_BIT(gpio); 600 1.6 ober pxagpio_reg_write(sc, GPIO_REG(GPIO_GEDR0, gpio), bit); 601 1.6 ober } 602 1.6 ober 603 1.6 ober /* 604 1.6 ober * Quick function to mask (disable) a GPIO interrupt 605 1.6 ober */ 606 1.6 ober void 607 1.6 ober pxa2x0_gpio_intr_mask(void *v) 608 1.6 ober { 609 1.6 ober struct gpio_irq_handler *gh = (struct gpio_irq_handler *)v; 610 1.6 ober 611 1.6 ober pxa2x0_gpio_set_intr_level(gh->gh_gpio, IPL_NONE); 612 1.6 ober } 613 1.6 ober 614 1.6 ober /* 615 1.6 ober * Quick function to unmask (enable) a GPIO interrupt 616 1.6 ober */ 617 1.6 ober void 618 1.6 ober pxa2x0_gpio_intr_unmask(void *v) 619 1.6 ober { 620 1.6 ober struct gpio_irq_handler *gh = (struct gpio_irq_handler *)v; 621 1.6 ober 622 1.6 ober pxa2x0_gpio_set_intr_level(gh->gh_gpio, gh->gh_level); 623 1.6 ober } 624 1.6 ober 625 1.6 ober /* 626 1.6 ober * Configure the edge sensitivity of interrupt pins 627 1.6 ober */ 628 1.6 ober void 629 1.6 ober pxa2x0_gpio_set_intr_level(u_int gpio, int level) 630 1.6 ober { 631 1.6 ober struct pxagpio_softc *sc = pxagpio_softc; 632 1.6 ober u_int32_t bit; 633 1.6 ober u_int32_t gfer; 634 1.6 ober u_int32_t grer; 635 1.6 ober int s; 636 1.6 ober 637 1.6 ober s = splhigh(); 638 1.6 ober 639 1.6 ober bit = GPIO_BIT(gpio); 640 1.6 ober gfer = pxagpio_reg_read(sc, GPIO_REG(GPIO_GFER0, gpio)); 641 1.6 ober grer = pxagpio_reg_read(sc, GPIO_REG(GPIO_GRER0, gpio)); 642 1.6 ober 643 1.6 ober switch (level) { 644 1.6 ober case IST_NONE: 645 1.6 ober gfer &= ~bit; 646 1.6 ober grer &= ~bit; 647 1.6 ober break; 648 1.6 ober case IST_EDGE_FALLING: 649 1.6 ober gfer |= bit; 650 1.6 ober grer &= ~bit; 651 1.6 ober break; 652 1.6 ober case IST_EDGE_RISING: 653 1.6 ober gfer &= ~bit; 654 1.6 ober grer |= bit; 655 1.6 ober break; 656 1.6 ober case IST_EDGE_BOTH: 657 1.6 ober gfer |= bit; 658 1.6 ober grer |= bit; 659 1.6 ober break; 660 1.6 ober default: 661 1.6 ober panic("pxa2x0_gpio_set_intr_level: bad level: %d", level); 662 1.6 ober break; 663 1.6 ober } 664 1.6 ober 665 1.6 ober pxagpio_reg_write(sc, GPIO_REG(GPIO_GFER0, gpio), gfer); 666 1.6 ober pxagpio_reg_write(sc, GPIO_REG(GPIO_GRER0, gpio), grer); 667 1.6 ober 668 1.6 ober splx(s); 669 1.6 ober } 670 1.8 kiyohara 671 1.8 kiyohara 672 1.8 kiyohara #if defined(CPU_XSCALE_PXA250) 673 1.8 kiyohara /* 674 1.8 kiyohara * Configurations of GPIO for PXA25x 675 1.8 kiyohara */ 676 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_com_btuart_gpioconf[] = { 677 1.8 kiyohara { 42, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* BTRXD */ 678 1.8 kiyohara { 43, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* BTTXD */ 679 1.8 kiyohara 680 1.8 kiyohara #if 0 /* optional */ 681 1.8 kiyohara { 44, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* BTCTS */ 682 1.8 kiyohara { 45, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* BTRTS */ 683 1.8 kiyohara #endif 684 1.8 kiyohara 685 1.8 kiyohara { -1 } 686 1.8 kiyohara }; 687 1.8 kiyohara 688 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_com_ffuart_gpioconf[] = { 689 1.8 kiyohara { 34, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFRXD */ 690 1.8 kiyohara 691 1.8 kiyohara #if 0 /* optional */ 692 1.8 kiyohara { 35, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* CTS */ 693 1.8 kiyohara { 36, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* DCD */ 694 1.8 kiyohara { 37, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* DSR */ 695 1.8 kiyohara { 38, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* RI */ 696 1.8 kiyohara #endif 697 1.8 kiyohara 698 1.8 kiyohara { 39, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* FFTXD */ 699 1.8 kiyohara 700 1.8 kiyohara #if 0 /* optional */ 701 1.8 kiyohara { 40, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* DTR */ 702 1.8 kiyohara { 41, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* RTS */ 703 1.8 kiyohara #endif 704 1.8 kiyohara 705 1.8 kiyohara { -1 } 706 1.8 kiyohara }; 707 1.8 kiyohara 708 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_com_hwuart_gpioconf[] = { 709 1.8 kiyohara #if 0 /* We can select and/or. */ 710 1.8 kiyohara { 42, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* HWRXD */ 711 1.8 kiyohara { 49, GPIO_CLR | GPIO_ALT_FN_2_IN }, /* HWRXD */ 712 1.8 kiyohara 713 1.8 kiyohara { 43, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* HWTXD */ 714 1.8 kiyohara { 48, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* HWTXD */ 715 1.8 kiyohara 716 1.8 kiyohara #if 0 /* optional */ 717 1.8 kiyohara { 44, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* HWCST */ 718 1.8 kiyohara { 51, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* HWCST */ 719 1.8 kiyohara 720 1.8 kiyohara { 45, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* HWRST */ 721 1.8 kiyohara { 52, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* HWRST */ 722 1.8 kiyohara #endif 723 1.8 kiyohara #endif 724 1.8 kiyohara 725 1.8 kiyohara { -1 } 726 1.8 kiyohara }; 727 1.8 kiyohara 728 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_com_stuart_gpioconf[] = { 729 1.8 kiyohara { 46, GPIO_CLR | GPIO_ALT_FN_2_IN }, /* RXD */ 730 1.8 kiyohara { 47, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* TXD */ 731 1.8 kiyohara { -1 } 732 1.8 kiyohara }; 733 1.8 kiyohara 734 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_i2c_gpioconf[] = { 735 1.8 kiyohara { -1 } 736 1.8 kiyohara }; 737 1.8 kiyohara 738 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_i2s_gpioconf[] = { 739 1.8 kiyohara { 28, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* BITCLK */ 740 1.8 kiyohara { 29, GPIO_CLR | GPIO_ALT_FN_2_IN }, /* SDATA_IN */ 741 1.8 kiyohara { 30, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* SDATA_OUT */ 742 1.8 kiyohara { 31, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* SYNC */ 743 1.8 kiyohara { 32, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* SYSCLK */ 744 1.8 kiyohara { -1 } 745 1.8 kiyohara }; 746 1.8 kiyohara 747 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_pcic_gpioconf[] = { 748 1.8 kiyohara { 48, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPOE */ 749 1.8 kiyohara { 49, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPWE */ 750 1.8 kiyohara { 50, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPIOR */ 751 1.8 kiyohara { 51, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPIOW */ 752 1.8 kiyohara 753 1.8 kiyohara #if 0 /* We can select and/or. */ 754 1.8 kiyohara { 52, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPCE1 */ 755 1.8 kiyohara { 53, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPCE2 */ 756 1.8 kiyohara #endif 757 1.8 kiyohara 758 1.8 kiyohara { 54, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* pSKTSEL */ 759 1.8 kiyohara { 55, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPREG */ 760 1.8 kiyohara { 56, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* nPWAIT */ 761 1.8 kiyohara { 57, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* nIOIS16 */ 762 1.8 kiyohara { -1 } 763 1.8 kiyohara }; 764 1.8 kiyohara 765 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_pxaacu_gpioconf[] = { 766 1.8 kiyohara { 28, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* BITCLK */ 767 1.8 kiyohara { 30, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* SDATA_OUT */ 768 1.8 kiyohara { 31, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* SYNC */ 769 1.8 kiyohara 770 1.8 kiyohara #if 0 /* We can select and/or. */ 771 1.8 kiyohara { 29, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* SDATA_IN0 */ 772 1.8 kiyohara { 32, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* SDATA_IN1 */ 773 1.8 kiyohara #endif 774 1.8 kiyohara 775 1.8 kiyohara { -1 } 776 1.8 kiyohara }; 777 1.8 kiyohara 778 1.8 kiyohara struct pxa2x0_gpioconf pxa25x_pxamci_gpioconf[] = { 779 1.8 kiyohara #if 0 /* We can select and/or. */ 780 1.8 kiyohara { 6, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* MMCCLK */ 781 1.8 kiyohara { 53, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* MMCCLK */ 782 1.8 kiyohara { 54, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* MMCCLK */ 783 1.8 kiyohara 784 1.8 kiyohara { 8, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* MMCCS0 */ 785 1.8 kiyohara { 34, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* MMCCS0 */ 786 1.8 kiyohara { 67, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* MMCCS0 */ 787 1.8 kiyohara 788 1.8 kiyohara { 9, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* MMCCS1 */ 789 1.8 kiyohara { 39, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* MMCCS1 */ 790 1.8 kiyohara { 68, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* MMCCS1 */ 791 1.8 kiyohara #endif 792 1.8 kiyohara 793 1.8 kiyohara { -1 } 794 1.8 kiyohara }; 795 1.8 kiyohara #endif 796 1.8 kiyohara 797 1.8 kiyohara #if defined(CPU_XSCALE_PXA270) 798 1.8 kiyohara /* 799 1.8 kiyohara * Configurations of GPIO for PXA27x 800 1.8 kiyohara */ 801 1.8 kiyohara struct pxa2x0_gpioconf pxa27x_com_btuart_gpioconf[] = { 802 1.8 kiyohara { 42, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* BTRXD */ 803 1.8 kiyohara { 43, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* BTTXD */ 804 1.8 kiyohara 805 1.8 kiyohara #if 0 /* optional */ 806 1.8 kiyohara { 44, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* BTCTS */ 807 1.8 kiyohara { 45, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* BTRTS */ 808 1.8 kiyohara #endif 809 1.8 kiyohara 810 1.8 kiyohara { -1 } 811 1.8 kiyohara }; 812 1.8 kiyohara 813 1.8 kiyohara struct pxa2x0_gpioconf pxa27x_com_ffuart_gpioconf[] = { 814 1.8 kiyohara #if 0 /* We can select and/or. */ 815 1.8 kiyohara { 16, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* FFTXD */ 816 1.8 kiyohara { 37, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* FFTXD */ 817 1.8 kiyohara { 39, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* FFTXD */ 818 1.8 kiyohara { 83, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* FFTXD */ 819 1.8 kiyohara { 99, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* FFTXD */ 820 1.8 kiyohara 821 1.8 kiyohara { 19, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* FFRXD */ 822 1.8 kiyohara { 33, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFRXD */ 823 1.8 kiyohara { 34, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFRXD */ 824 1.8 kiyohara { 41, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFRXD */ 825 1.8 kiyohara { 53, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFRXD */ 826 1.8 kiyohara { 85, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFRXD */ 827 1.8 kiyohara { 96, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* FFRXD */ 828 1.8 kiyohara { 102, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* FFRXD */ 829 1.8 kiyohara 830 1.8 kiyohara { 9, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* FFCTS */ 831 1.8 kiyohara { 26, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* FFCTS */ 832 1.8 kiyohara { 35, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFCTS */ 833 1.8 kiyohara { 100, GPIO_CLR | GPIO_ALT_FN_3_IN }, /* FFCTS */ 834 1.8 kiyohara 835 1.8 kiyohara { 27, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* FFRTS */ 836 1.8 kiyohara { 41, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* FFRTS */ 837 1.8 kiyohara { 83, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* FFRTS */ 838 1.8 kiyohara { 98, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* FFRTS */ 839 1.8 kiyohara 840 1.8 kiyohara { 40, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* FFDTR */ 841 1.8 kiyohara { 82, GPIO_CLR | GPIO_ALT_FN_3_OUT }, /* FFDTR */ 842 1.8 kiyohara 843 1.8 kiyohara { 36, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFDCD */ 844 1.8 kiyohara 845 1.8 kiyohara { 33, GPIO_CLR | GPIO_ALT_FN_2_IN }, /* FFDSR */ 846 1.8 kiyohara { 37, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFDSR */ 847 1.8 kiyohara 848 1.8 kiyohara { 38, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* FFRI */ 849 1.8 kiyohara #endif 850 1.8 kiyohara { -1 } 851 1.8 kiyohara }; 852 1.8 kiyohara 853 1.8 kiyohara struct pxa2x0_gpioconf pxa27x_com_stuart_gpioconf[] = { 854 1.8 kiyohara { 46, GPIO_CLR | GPIO_ALT_FN_2_IN }, /* STD_RXD */ 855 1.8 kiyohara { 47, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* STD_TXD */ 856 1.8 kiyohara { -1 } 857 1.8 kiyohara }; 858 1.8 kiyohara 859 1.8 kiyohara struct pxa2x0_gpioconf pxa27x_i2c_gpioconf[] = { 860 1.8 kiyohara { 117, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* SCL */ 861 1.8 kiyohara { 118, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* SDA */ 862 1.8 kiyohara { -1 } 863 1.8 kiyohara }; 864 1.8 kiyohara 865 1.8 kiyohara struct pxa2x0_gpioconf pxa27x_i2s_gpioconf[] = { 866 1.8 kiyohara { 28, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* I2S_BITCLK */ 867 1.8 kiyohara { 29, GPIO_CLR | GPIO_ALT_FN_2_IN }, /* I2S_SDATA_IN */ 868 1.8 kiyohara { 30, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* I2S_SDATA_OUT */ 869 1.8 kiyohara { 31, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* I2S_SYNC */ 870 1.8 kiyohara { 113, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* I2S_SYSCLK */ 871 1.8 kiyohara { -1 } 872 1.8 kiyohara }; 873 1.8 kiyohara 874 1.10.2.2 yamt struct pxa2x0_gpioconf pxa27x_ohci_gpioconf[] = { 875 1.10.2.2 yamt #if 0 /* We can select and/or. */ 876 1.10.2.2 yamt { 88, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* USBHPWR1 */ 877 1.10.2.2 yamt { 89, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* USBHPEN1 */ 878 1.10.2.2 yamt { 119, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* USBHPWR2 */ 879 1.10.2.2 yamt { 120, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* USBHPEN2 */ 880 1.10.2.2 yamt #endif 881 1.10.2.2 yamt { -1 } 882 1.10.2.2 yamt }; 883 1.10.2.2 yamt 884 1.8 kiyohara struct pxa2x0_gpioconf pxa27x_pcic_gpioconf[] = { 885 1.8 kiyohara { 48, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPOE */ 886 1.8 kiyohara { 49, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPWE */ 887 1.8 kiyohara { 50, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPIOR */ 888 1.8 kiyohara { 51, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPIOW */ 889 1.8 kiyohara { 55, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPREG */ 890 1.8 kiyohara { 56, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* nPWAIT */ 891 1.8 kiyohara { 57, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* nIOIS16 */ 892 1.8 kiyohara 893 1.8 kiyohara #if 0 /* We can select and/or. */ 894 1.8 kiyohara { 85, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* nPCE1 */ 895 1.8 kiyohara { 86, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* nPCE1 */ 896 1.8 kiyohara { 102, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* nPCE1 */ 897 1.8 kiyohara 898 1.8 kiyohara { 54, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* nPCE2 */ 899 1.8 kiyohara { 78, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* nPCE2 */ 900 1.8 kiyohara { 105, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* nPCE2 */ 901 1.10.2.2 yamt 902 1.10.2.2 yamt { 79, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* pSKTSEL */ 903 1.10.2.2 yamt { 104, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* pSKTSEL */ 904 1.8 kiyohara #endif 905 1.8 kiyohara 906 1.8 kiyohara { -1 } 907 1.8 kiyohara }; 908 1.8 kiyohara 909 1.8 kiyohara struct pxa2x0_gpioconf pxa27x_pxaacu_gpioconf[] = { 910 1.8 kiyohara { 28, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* BITCLK */ 911 1.8 kiyohara { 30, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* SDATA_OUT */ 912 1.8 kiyohara 913 1.8 kiyohara #if 0 /* We can select and/or. */ 914 1.8 kiyohara { 31, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* SYNC */ 915 1.8 kiyohara { 94, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* SYNC */ 916 1.8 kiyohara 917 1.8 kiyohara { 29, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* SDATA_IN0 */ 918 1.8 kiyohara { 116, GPIO_CLR | GPIO_ALT_FN_2_IN }, /* SDATA_IN0 */ 919 1.8 kiyohara 920 1.8 kiyohara { 32, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* SDATA_IN1 */ 921 1.8 kiyohara { 99, GPIO_CLR | GPIO_ALT_FN_2_IN }, /* SDATA_IN1 */ 922 1.8 kiyohara 923 1.8 kiyohara { 95, GPIO_CLR | GPIO_ALT_FN_1_OUT }, /* RESET_n */ 924 1.8 kiyohara { 113, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* RESET_n */ 925 1.8 kiyohara #endif 926 1.8 kiyohara 927 1.8 kiyohara { -1 } 928 1.8 kiyohara }; 929 1.8 kiyohara 930 1.8 kiyohara struct pxa2x0_gpioconf pxa27x_pxamci_gpioconf[] = { 931 1.8 kiyohara { 32, GPIO_CLR | GPIO_ALT_FN_2_OUT }, /* MMCLK */ 932 1.8 kiyohara { 92, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* MMDAT<0> */ 933 1.8 kiyohara { 109, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* MMDAT<1> */ 934 1.8 kiyohara { 110, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* MMDAT<2>/MMCCS<0> */ 935 1.8 kiyohara { 111, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* MMDAT<3>/MMCCS<1> */ 936 1.10.2.2 yamt { 112, GPIO_CLR | GPIO_ALT_FN_1_IN }, /* MMCMD */ 937 1.8 kiyohara 938 1.8 kiyohara { -1 } 939 1.8 kiyohara }; 940 1.8 kiyohara #endif 941 1.8 kiyohara 942 1.8 kiyohara void 943 1.8 kiyohara pxa2x0_gpio_config(struct pxa2x0_gpioconf **conflist) 944 1.8 kiyohara { 945 1.8 kiyohara int i, j; 946 1.8 kiyohara 947 1.8 kiyohara for (i = 0; conflist[i] != NULL; i++) 948 1.8 kiyohara for (j = 0; conflist[i][j].pin != -1; j++) 949 1.8 kiyohara pxa2x0_gpio_set_function(conflist[i][j].pin, 950 1.8 kiyohara conflist[i][j].value); 951 1.8 kiyohara } 952
Indexes created Tue Oct 21 08:09:48 GMT 2025