scoop.c revision 1.5
1 1.5 cegger /* $NetBSD: scoop.c,v 1.5 2008/06/13 13:58:21 cegger Exp $ */ 2 1.1 ober /* $OpenBSD: zaurus_scoop.c,v 1.12 2005/11/17 05:26:31 uwe Exp $ */ 3 1.1 ober 4 1.1 ober /* 5 1.1 ober * Copyright (c) 2005 Uwe Stuehler <uwe (at) bsdx.de> 6 1.1 ober * 7 1.1 ober * Permission to use, copy, modify, and distribute this software for any 8 1.1 ober * purpose with or without fee is hereby granted, provided that the above 9 1.1 ober * copyright notice and this permission notice appear in all copies. 10 1.1 ober * 11 1.1 ober * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 12 1.1 ober * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 13 1.1 ober * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 14 1.1 ober * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 15 1.1 ober * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 16 1.1 ober * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 17 1.1 ober * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 18 1.1 ober */ 19 1.1 ober 20 1.1 ober #include <sys/cdefs.h> 21 1.5 cegger __KERNEL_RCSID(0, "$NetBSD: scoop.c,v 1.5 2008/06/13 13:58:21 cegger Exp $"); 22 1.1 ober 23 1.1 ober #include <sys/param.h> 24 1.1 ober #include <sys/systm.h> 25 1.1 ober #include <sys/device.h> 26 1.1 ober #include <sys/conf.h> 27 1.1 ober #include <sys/gpio.h> 28 1.1 ober 29 1.1 ober #include <machine/bus.h> 30 1.1 ober 31 1.1 ober #include <arm/xscale/pxa2x0var.h> 32 1.1 ober 33 1.1 ober #include <zaurus/zaurus/zaurus_reg.h> 34 1.1 ober #include <zaurus/zaurus/zaurus_var.h> 35 1.1 ober 36 1.1 ober #include <zaurus/dev/scoopreg.h> 37 1.1 ober #include <zaurus/dev/scoopvar.h> 38 1.1 ober 39 1.1 ober #include "ioconf.h" 40 1.1 ober 41 1.1 ober struct scoop_softc { 42 1.2 peter struct device sc_dev; 43 1.2 peter 44 1.2 peter bus_space_tag_t sc_iot; 45 1.2 peter bus_space_handle_t sc_ioh; 46 1.2 peter 47 1.2 peter uint16_t sc_gpwr; /* GPIO state before suspend */ 48 1.1 ober }; 49 1.1 ober 50 1.1 ober static int scoopmatch(struct device *, struct cfdata *, void *); 51 1.1 ober static void scoopattach(struct device *, struct device *, void *); 52 1.1 ober 53 1.1 ober CFATTACH_DECL(scoop, sizeof(struct scoop_softc), 54 1.1 ober scoopmatch, scoopattach, NULL, NULL); 55 1.1 ober 56 1.2 peter #if 0 57 1.2 peter static int scoop_gpio_pin_read(struct scoop_softc *sc, int); 58 1.2 peter #endif 59 1.2 peter static void scoop_gpio_pin_write(struct scoop_softc *sc, int, int); 60 1.2 peter static void scoop_gpio_pin_ctl(struct scoop_softc *sc, int, int); 61 1.1 ober 62 1.3 nonaka enum scoop_card { 63 1.3 nonaka SD_CARD, 64 1.3 nonaka CF_CARD /* socket 0 (external) */ 65 1.3 nonaka }; 66 1.3 nonaka 67 1.3 nonaka static void scoop0_set_card_power(enum scoop_card card, int new_cpr); 68 1.3 nonaka 69 1.1 ober static int 70 1.1 ober scoopmatch(struct device *parent, struct cfdata *cf, void *aux) 71 1.1 ober { 72 1.1 ober 73 1.1 ober /* 74 1.1 ober * Only C3000-like models are known to have two SCOOPs. 75 1.1 ober */ 76 1.1 ober if (ZAURUS_ISC3000) 77 1.1 ober return (cf->cf_unit < 2); 78 1.1 ober return (cf->cf_unit == 0); 79 1.1 ober } 80 1.1 ober 81 1.1 ober static void 82 1.1 ober scoopattach(struct device *parent, struct device *self, void *aux) 83 1.1 ober { 84 1.1 ober struct pxaip_attach_args *pxa = (struct pxaip_attach_args *)aux; 85 1.1 ober struct scoop_softc *sc = (struct scoop_softc *)self; 86 1.1 ober bus_addr_t addr; 87 1.1 ober bus_size_t size; 88 1.1 ober 89 1.1 ober sc->sc_iot = pxa->pxa_iot; 90 1.1 ober 91 1.1 ober if (pxa->pxa_addr != -1) 92 1.1 ober addr = pxa->pxa_addr; 93 1.1 ober else if (sc->sc_dev.dv_unit == 0) 94 1.1 ober addr = C3000_SCOOP0_BASE; 95 1.1 ober else 96 1.1 ober addr = C3000_SCOOP1_BASE; 97 1.1 ober 98 1.1 ober size = pxa->pxa_size < SCOOP_SIZE ? SCOOP_SIZE : pxa->pxa_size; 99 1.1 ober 100 1.1 ober if (bus_space_map(sc->sc_iot, addr, size, 0, &sc->sc_ioh) != 0) { 101 1.1 ober printf(": failed to map %s\n", sc->sc_dev.dv_xname); 102 1.1 ober return; 103 1.1 ober } 104 1.1 ober 105 1.1 ober if (ZAURUS_ISC3000 && sc->sc_dev.dv_unit == 1) { 106 1.1 ober scoop_gpio_pin_ctl(sc, SCOOP1_AKIN_PULLUP, GPIO_PIN_OUTPUT); 107 1.1 ober scoop_gpio_pin_write(sc, SCOOP1_AKIN_PULLUP, GPIO_PIN_LOW); 108 1.1 ober } else if (!ZAURUS_ISC3000) { 109 1.1 ober scoop_gpio_pin_ctl(sc, SCOOP0_AKIN_PULLUP, GPIO_PIN_OUTPUT); 110 1.1 ober scoop_gpio_pin_write(sc, SCOOP0_AKIN_PULLUP, GPIO_PIN_LOW); 111 1.1 ober } 112 1.1 ober 113 1.1 ober printf(": PCMCIA/GPIO controller\n"); 114 1.1 ober } 115 1.1 ober 116 1.2 peter #if 0 117 1.2 peter static int 118 1.1 ober scoop_gpio_pin_read(struct scoop_softc *sc, int pin) 119 1.1 ober { 120 1.1 ober uint16_t bit = (1 << pin); 121 1.1 ober uint16_t rv; 122 1.1 ober 123 1.1 ober rv = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR); 124 1.2 peter return (rv & bit) ? 1 : 0; 125 1.1 ober } 126 1.2 peter #endif 127 1.1 ober 128 1.2 peter static void 129 1.1 ober scoop_gpio_pin_write(struct scoop_softc *sc, int pin, int level) 130 1.1 ober { 131 1.1 ober uint16_t bit = (1 << pin); 132 1.1 ober uint16_t rv; 133 1.1 ober 134 1.1 ober rv = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR); 135 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR, 136 1.2 peter (level == GPIO_PIN_LOW) ? (rv & ~bit) : (rv | bit)); 137 1.1 ober } 138 1.1 ober 139 1.2 peter static void 140 1.1 ober scoop_gpio_pin_ctl(struct scoop_softc *sc, int pin, int flags) 141 1.1 ober { 142 1.1 ober uint16_t bit = (1 << pin); 143 1.1 ober uint16_t rv; 144 1.1 ober 145 1.1 ober rv = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPCR); 146 1.1 ober switch (flags & (GPIO_PIN_INPUT|GPIO_PIN_OUTPUT)) { 147 1.1 ober case GPIO_PIN_INPUT: 148 1.1 ober rv &= ~bit; 149 1.1 ober break; 150 1.1 ober case GPIO_PIN_OUTPUT: 151 1.1 ober rv |= bit; 152 1.1 ober break; 153 1.1 ober } 154 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPCR, rv); 155 1.1 ober } 156 1.1 ober 157 1.1 ober /* 158 1.1 ober * Turn the LCD background light and contrast signal on or off. 159 1.1 ober */ 160 1.1 ober void 161 1.1 ober scoop_set_backlight(int on, int cont) 162 1.1 ober { 163 1.5 cegger struct scoop_softc *sc; 164 1.5 cegger #if 0 165 1.5 cegger struct scoop_softc *sc0; 166 1.5 cegger 167 1.5 cegger sc0 = device_lookup_private(&scoop_cd, 0); 168 1.5 cegger #endif 169 1.1 ober 170 1.5 cegger sc = device_lookup_private(&scoop_cd, 1); 171 1.5 cegger if (sc != NULL) { 172 1.1 ober /* C3000 */ 173 1.5 cegger scoop_gpio_pin_write(sc, 174 1.1 ober SCOOP1_BACKLIGHT_CONT, !cont); 175 1.5 cegger scoop_gpio_pin_write(sc, 176 1.1 ober SCOOP1_BACKLIGHT_ON, on); 177 1.1 ober } 178 1.1 ober #if 0 179 1.5 cegger else if (sc0 != NULL) { 180 1.5 cegger scoop_gpio_pin_write(sc0, 181 1.1 ober SCOOP0_BACKLIGHT_CONT, cont); 182 1.1 ober } 183 1.1 ober #endif 184 1.1 ober } 185 1.1 ober 186 1.1 ober /* 187 1.1 ober * Turn the infrared LED on or off (must be on while transmitting). 188 1.1 ober */ 189 1.1 ober void 190 1.1 ober scoop_set_irled(int on) 191 1.1 ober { 192 1.5 cegger struct scoop_softc *sc; 193 1.2 peter 194 1.5 cegger sc = device_lookup_private(&scoop_cd, 1); 195 1.5 cegger if (sc != NULL) { 196 1.1 ober /* IR_ON is inverted */ 197 1.5 cegger scoop_gpio_pin_write(sc, 198 1.1 ober SCOOP1_IR_ON, !on); 199 1.2 peter } 200 1.1 ober } 201 1.1 ober 202 1.1 ober /* 203 1.1 ober * Turn the green and orange LEDs on or off. If the orange LED is on, 204 1.1 ober * then it is wired to indicate if A/C is connected. The green LED has 205 1.1 ober * no such predefined function. 206 1.1 ober */ 207 1.1 ober void 208 1.1 ober scoop_led_set(int led, int on) 209 1.1 ober { 210 1.5 cegger struct scoop_softc *sc; 211 1.1 ober 212 1.5 cegger sc = device_lookup_private(&scoop_cd, 0); 213 1.5 cegger if (sc != NULL) { 214 1.1 ober if ((led & SCOOP_LED_GREEN) != 0) { 215 1.5 cegger scoop_gpio_pin_write(sc, 216 1.1 ober SCOOP0_LED_GREEN, on); 217 1.1 ober } 218 1.1 ober if (scoop_cd.cd_ndevs > 1 && (led & SCOOP_LED_ORANGE) != 0) { 219 1.5 cegger scoop_gpio_pin_write(sc, 220 1.1 ober SCOOP0_LED_ORANGE_C3000, on); 221 1.1 ober } 222 1.1 ober } 223 1.1 ober } 224 1.1 ober 225 1.1 ober /* 226 1.1 ober * Enable or disable the headphone output connection. 227 1.1 ober */ 228 1.1 ober void 229 1.1 ober scoop_set_headphone(int on) 230 1.1 ober { 231 1.5 cegger struct scoop_softc *sc; 232 1.1 ober 233 1.5 cegger sc = device_lookup_private(&scoop_cd, 0); 234 1.5 cegger if (sc == NULL) 235 1.1 ober return; 236 1.1 ober 237 1.5 cegger scoop_gpio_pin_ctl(sc, SCOOP0_MUTE_L, 238 1.1 ober GPIO_PIN_OUTPUT); 239 1.5 cegger scoop_gpio_pin_ctl(sc, SCOOP0_MUTE_R, 240 1.1 ober GPIO_PIN_OUTPUT); 241 1.1 ober 242 1.1 ober if (on) { 243 1.5 cegger scoop_gpio_pin_write(sc, SCOOP0_MUTE_L, 244 1.1 ober GPIO_PIN_HIGH); 245 1.5 cegger scoop_gpio_pin_write(sc, SCOOP0_MUTE_R, 246 1.1 ober GPIO_PIN_HIGH); 247 1.1 ober } else { 248 1.5 cegger scoop_gpio_pin_write(sc, SCOOP0_MUTE_L, 249 1.1 ober GPIO_PIN_LOW); 250 1.5 cegger scoop_gpio_pin_write(sc, SCOOP0_MUTE_R, 251 1.1 ober GPIO_PIN_LOW); 252 1.1 ober } 253 1.1 ober } 254 1.1 ober 255 1.1 ober /* 256 1.1 ober * Turn on pullup resistor while not reading the remote control. 257 1.1 ober */ 258 1.1 ober void 259 1.1 ober scoop_akin_pullup(int enable) 260 1.1 ober { 261 1.5 cegger struct scoop_softc *sc0; 262 1.5 cegger struct scoop_softc *sc1; 263 1.5 cegger 264 1.5 cegger sc0 = device_lookup_private(&scoop_cd, 0); 265 1.5 cegger sc1 = device_lookup_private(&scoop_cd, 1); 266 1.1 ober 267 1.5 cegger if (sc1 != NULL) { 268 1.5 cegger scoop_gpio_pin_write(sc1, 269 1.1 ober SCOOP1_AKIN_PULLUP, enable); 270 1.5 cegger } else if (sc0 != NULL) { 271 1.5 cegger scoop_gpio_pin_write(sc0, 272 1.1 ober SCOOP0_AKIN_PULLUP, enable); 273 1.1 ober } 274 1.1 ober } 275 1.1 ober 276 1.1 ober void 277 1.1 ober scoop_battery_temp_adc(int enable) 278 1.1 ober { 279 1.5 cegger struct scoop_softc *sc; 280 1.5 cegger 281 1.5 cegger sc = device_lookup_private(&scoop_cd, 0); 282 1.1 ober 283 1.5 cegger if (sc != NULL) { 284 1.5 cegger scoop_gpio_pin_write(sc, 285 1.1 ober SCOOP0_ADC_TEMP_ON_C3000, enable); 286 1.1 ober } 287 1.1 ober } 288 1.1 ober 289 1.1 ober void 290 1.1 ober scoop_charge_battery(int enable, int voltage_high) 291 1.1 ober { 292 1.5 cegger struct scoop_softc *sc; 293 1.5 cegger 294 1.5 cegger sc = device_lookup_private(&scoop_cd, 0); 295 1.1 ober 296 1.5 cegger if (sc != NULL) { 297 1.5 cegger scoop_gpio_pin_write(sc, 298 1.1 ober SCOOP0_JK_B_C3000, voltage_high); 299 1.5 cegger scoop_gpio_pin_write(sc, 300 1.1 ober SCOOP0_CHARGE_OFF_C3000, !enable); 301 1.1 ober } 302 1.1 ober } 303 1.1 ober 304 1.1 ober void 305 1.1 ober scoop_discharge_battery(int enable) 306 1.1 ober { 307 1.5 cegger struct scoop_softc *sc; 308 1.1 ober 309 1.5 cegger sc = device_lookup_private(&scoop_cd, 0); 310 1.5 cegger 311 1.5 cegger if (sc != NULL) { 312 1.5 cegger scoop_gpio_pin_write(sc, 313 1.1 ober SCOOP0_JK_A_C3000, enable); 314 1.1 ober } 315 1.1 ober } 316 1.1 ober 317 1.3 nonaka /* 318 1.3 nonaka * Enable or disable 3.3V power to the SD/MMC card slot. 319 1.3 nonaka */ 320 1.3 nonaka void 321 1.3 nonaka scoop_set_sdmmc_power(int on) 322 1.3 nonaka { 323 1.3 nonaka 324 1.3 nonaka scoop0_set_card_power(SD_CARD, on ? SCP_CPR_SD_3V : SCP_CPR_OFF); 325 1.3 nonaka } 326 1.3 nonaka 327 1.3 nonaka /* 328 1.3 nonaka * The Card Power Register of the first SCOOP unit controls the power 329 1.3 nonaka * for the first CompactFlash slot and the SD/MMC card slot as well. 330 1.3 nonaka */ 331 1.2 peter void 332 1.3 nonaka scoop0_set_card_power(enum scoop_card card, int new_cpr) 333 1.2 peter { 334 1.2 peter struct scoop_softc *sc; 335 1.2 peter bus_space_tag_t iot; 336 1.2 peter bus_space_handle_t ioh; 337 1.3 nonaka uint16_t cpr; 338 1.2 peter 339 1.5 cegger sc = device_lookup_private(&scoop_cd, 0); 340 1.5 cegger if (sc == NULL) 341 1.3 nonaka return; 342 1.2 peter 343 1.3 nonaka iot = sc->sc_iot; 344 1.3 nonaka ioh = sc->sc_ioh; 345 1.3 nonaka 346 1.3 nonaka cpr = bus_space_read_2(iot, ioh, SCOOP_CPR); 347 1.3 nonaka if (new_cpr & SCP_CPR_VOLTAGE_MSK) { 348 1.3 nonaka if (card == CF_CARD) 349 1.3 nonaka cpr |= SCP_CPR_5V; 350 1.3 nonaka else if (card == SD_CARD) 351 1.3 nonaka cpr |= SCP_CPR_SD_3V; 352 1.3 nonaka 353 1.3 nonaka scoop_gpio_pin_write(sc, SCOOP0_CF_POWER_C3000, 1); 354 1.3 nonaka if (!ISSET(cpr, SCP_CPR_5V) && !ISSET(cpr, SCP_CPR_SD_3V)) 355 1.3 nonaka delay(5000); 356 1.3 nonaka bus_space_write_2(iot, ioh, SCOOP_CPR, cpr | new_cpr); 357 1.3 nonaka } else { 358 1.3 nonaka if (card == CF_CARD) 359 1.3 nonaka cpr &= ~SCP_CPR_5V; 360 1.3 nonaka else if (card == SD_CARD) 361 1.3 nonaka cpr &= ~SCP_CPR_SD_3V; 362 1.3 nonaka 363 1.3 nonaka if (!ISSET(cpr, SCP_CPR_5V) && !ISSET(cpr, SCP_CPR_SD_3V)) { 364 1.3 nonaka bus_space_write_2(iot, ioh, SCOOP_CPR, SCP_CPR_OFF); 365 1.3 nonaka delay(1000); 366 1.3 nonaka scoop_gpio_pin_write(sc, SCOOP0_CF_POWER_C3000, 0); 367 1.3 nonaka } else 368 1.3 nonaka bus_space_write_2(iot, ioh, SCOOP_CPR, cpr | new_cpr); 369 1.2 peter } 370 1.2 peter } 371 1.2 peter 372 1.1 ober void 373 1.1 ober scoop_check_mcr(void) 374 1.1 ober { 375 1.5 cegger struct scoop_softc *sc0, *sc1, *sc; 376 1.1 ober uint16_t v; 377 1.1 ober 378 1.5 cegger sc0 = device_lookup_private(&scoop_cd, 0); 379 1.5 cegger sc1 = device_lookup_private(&scoop_cd, 1); 380 1.5 cegger 381 1.1 ober /* C3000 */ 382 1.5 cegger if (sc1 != NULL) { 383 1.5 cegger sc = sc0; 384 1.1 ober v = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_MCR); 385 1.1 ober if ((v & 0x100) == 0) { 386 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_MCR, 387 1.1 ober 0x0101); 388 1.1 ober } 389 1.1 ober 390 1.5 cegger sc = sc1; 391 1.1 ober v = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_MCR); 392 1.1 ober if ((v & 0x100) == 0) { 393 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_MCR, 394 1.1 ober 0x0101); 395 1.1 ober } 396 1.1 ober } 397 1.1 ober } 398 1.1 ober 399 1.1 ober void 400 1.1 ober scoop_suspend(void) 401 1.1 ober { 402 1.5 cegger struct scoop_softc *sc, *sc0, *sc1; 403 1.1 ober uint32_t rv; 404 1.1 ober 405 1.5 cegger sc0 = device_lookup_private(&scoop_cd, 0); 406 1.5 cegger sc1 = device_lookup_private(&scoop_cd, 1); 407 1.5 cegger 408 1.5 cegger if (sc0 != NULL) { 409 1.5 cegger sc = sc0; 410 1.1 ober sc->sc_gpwr = bus_space_read_2(sc->sc_iot, sc->sc_ioh, 411 1.1 ober SCOOP_GPWR); 412 1.1 ober /* C3000 */ 413 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR, 414 1.1 ober sc->sc_gpwr & ~((1<<SCOOP0_MUTE_L) | (1<<SCOOP0_MUTE_R) | 415 1.1 ober (1<<SCOOP0_JK_A_C3000) | (1<<SCOOP0_ADC_TEMP_ON_C3000) | 416 1.1 ober (1<<SCOOP0_LED_GREEN))); 417 1.1 ober } 418 1.1 ober 419 1.1 ober /* C3000 */ 420 1.5 cegger if (sc1 != NULL) { 421 1.5 cegger sc = sc1; 422 1.1 ober sc->sc_gpwr = bus_space_read_2(sc->sc_iot, sc->sc_ioh, 423 1.1 ober SCOOP_GPWR); 424 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR, 425 1.1 ober sc->sc_gpwr & ~((1<<SCOOP1_RESERVED_4) | 426 1.1 ober (1<<SCOOP1_RESERVED_5) | (1<<SCOOP1_RESERVED_6) | 427 1.1 ober (1<<SCOOP1_BACKLIGHT_CONT) | (1<<SCOOP1_BACKLIGHT_ON) | 428 1.1 ober (1<<SCOOP1_MIC_BIAS))); 429 1.1 ober rv = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR); 430 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR, 431 1.1 ober rv | ((1<<SCOOP1_IR_ON) | (1<<SCOOP1_RESERVED_3))); 432 1.1 ober } 433 1.1 ober } 434 1.1 ober 435 1.1 ober void 436 1.1 ober scoop_resume(void) 437 1.1 ober { 438 1.5 cegger struct scoop_softc *sc, *sc0, *sc1; 439 1.5 cegger 440 1.5 cegger sc0 = device_lookup_private(&scoop_cd, 0); 441 1.5 cegger sc1 = device_lookup_private(&scoop_cd, 1); 442 1.1 ober 443 1.5 cegger if (sc0 != NULL) { 444 1.5 cegger sc = sc0; 445 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR, 446 1.1 ober sc->sc_gpwr); 447 1.1 ober } 448 1.1 ober 449 1.5 cegger if (sc1 != NULL) { 450 1.5 cegger sc = sc1; 451 1.1 ober bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR, 452 1.1 ober sc->sc_gpwr); 453 1.1 ober } 454 1.1 ober } 455
Indexes created Tue Sep 23 20:09:58 GMT 2025