cuda.c revision 1.29.2.1
1 1.29.2.1 thorpej /* $NetBSD: cuda.c,v 1.29.2.1 2021/08/09 00:30:08 thorpej Exp $ */ 2 1.1 macallan 3 1.1 macallan /*- 4 1.1 macallan * Copyright (c) 2006 Michael Lorenz 5 1.1 macallan * All rights reserved. 6 1.1 macallan * 7 1.1 macallan * Redistribution and use in source and binary forms, with or without 8 1.1 macallan * modification, are permitted provided that the following conditions 9 1.1 macallan * are met: 10 1.1 macallan * 1. Redistributions of source code must retain the above copyright 11 1.1 macallan * notice, this list of conditions and the following disclaimer. 12 1.1 macallan * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 macallan * notice, this list of conditions and the following disclaimer in the 14 1.1 macallan * documentation and/or other materials provided with the distribution. 15 1.1 macallan * 16 1.1 macallan * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 17 1.1 macallan * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 18 1.1 macallan * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 19 1.1 macallan * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 20 1.1 macallan * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 21 1.1 macallan * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 22 1.1 macallan * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 23 1.1 macallan * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 24 1.1 macallan * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 25 1.1 macallan * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 26 1.1 macallan * POSSIBILITY OF SUCH DAMAGE. 27 1.1 macallan */ 28 1.1 macallan 29 1.1 macallan #include <sys/cdefs.h> 30 1.29.2.1 thorpej __KERNEL_RCSID(0, "$NetBSD: cuda.c,v 1.29.2.1 2021/08/09 00:30:08 thorpej Exp $"); 31 1.1 macallan 32 1.1 macallan #include <sys/param.h> 33 1.1 macallan #include <sys/systm.h> 34 1.1 macallan #include <sys/kernel.h> 35 1.1 macallan #include <sys/device.h> 36 1.1 macallan #include <sys/proc.h> 37 1.8 macallan #include <sys/mutex.h> 38 1.1 macallan 39 1.17 dyoung #include <sys/bus.h> 40 1.1 macallan #include <machine/autoconf.h> 41 1.4 garbled #include <machine/pio.h> 42 1.1 macallan #include <dev/clock_subr.h> 43 1.1 macallan #include <dev/i2c/i2cvar.h> 44 1.1 macallan 45 1.1 macallan #include <macppc/dev/viareg.h> 46 1.1 macallan #include <macppc/dev/cudavar.h> 47 1.1 macallan 48 1.1 macallan #include <dev/ofw/openfirm.h> 49 1.1 macallan #include <dev/adb/adbvar.h> 50 1.1 macallan #include "opt_cuda.h" 51 1.1 macallan 52 1.1 macallan #ifdef CUDA_DEBUG 53 1.1 macallan #define DPRINTF printf 54 1.1 macallan #else 55 1.1 macallan #define DPRINTF while (0) printf 56 1.1 macallan #endif 57 1.1 macallan 58 1.1 macallan #define CUDA_NOTREADY 0x1 /* has not been initialized yet */ 59 1.1 macallan #define CUDA_IDLE 0x2 /* the bus is currently idle */ 60 1.1 macallan #define CUDA_OUT 0x3 /* sending out a command */ 61 1.1 macallan #define CUDA_IN 0x4 /* receiving data */ 62 1.1 macallan #define CUDA_POLLING 0x5 /* polling - II only */ 63 1.1 macallan 64 1.8 macallan static void cuda_attach(device_t, device_t, void *); 65 1.8 macallan static int cuda_match(device_t, struct cfdata *, void *); 66 1.1 macallan static void cuda_autopoll(void *, int); 67 1.1 macallan 68 1.1 macallan static int cuda_intr(void *); 69 1.1 macallan 70 1.1 macallan typedef struct _cuda_handler { 71 1.1 macallan int (*handler)(void *, int, uint8_t *); 72 1.1 macallan void *cookie; 73 1.1 macallan } CudaHandler; 74 1.1 macallan 75 1.29.2.1 thorpej #define CUDA_MAX_I2C_DEVICES 2 76 1.29.2.1 thorpej 77 1.1 macallan struct cuda_softc { 78 1.8 macallan device_t sc_dev; 79 1.1 macallan void *sc_ih; 80 1.1 macallan CudaHandler sc_handlers[16]; 81 1.1 macallan struct todr_chip_handle sc_todr; 82 1.1 macallan struct adb_bus_accessops sc_adbops; 83 1.1 macallan struct i2c_controller sc_i2c; 84 1.1 macallan bus_space_tag_t sc_memt; 85 1.1 macallan bus_space_handle_t sc_memh; 86 1.29.2.1 thorpej 87 1.29.2.1 thorpej /* 88 1.29.2.1 thorpej * We provide our own i2c device enumeration method, so we 89 1.29.2.1 thorpej * need to provide our own devhandle_impl. 90 1.29.2.1 thorpej */ 91 1.29.2.1 thorpej struct devhandle_impl sc_devhandle_impl; 92 1.29.2.1 thorpej 93 1.29.2.1 thorpej struct { 94 1.29.2.1 thorpej const char *name; 95 1.29.2.1 thorpej const char *compatible; 96 1.29.2.1 thorpej i2c_addr_t addr; 97 1.29.2.1 thorpej } sc_i2c_devices[CUDA_MAX_I2C_DEVICES]; 98 1.29.2.1 thorpej int sc_ni2c_devices; 99 1.29.2.1 thorpej 100 1.1 macallan int sc_node; 101 1.1 macallan int sc_state; 102 1.1 macallan int sc_waiting; 103 1.1 macallan int sc_polling; 104 1.1 macallan int sc_sent; 105 1.1 macallan int sc_out_length; 106 1.1 macallan int sc_received; 107 1.1 macallan int sc_iic_done; 108 1.1 macallan int sc_error; 109 1.1 macallan /* time */ 110 1.1 macallan uint32_t sc_tod; 111 1.1 macallan uint32_t sc_autopoll; 112 1.1 macallan uint32_t sc_todev; 113 1.1 macallan /* ADB */ 114 1.1 macallan void (*sc_adb_handler)(void *, int, uint8_t *); 115 1.1 macallan void *sc_adb_cookie; 116 1.1 macallan uint32_t sc_i2c_read_len; 117 1.1 macallan /* internal buffers */ 118 1.1 macallan uint8_t sc_in[256]; 119 1.1 macallan uint8_t sc_out[256]; 120 1.1 macallan }; 121 1.1 macallan 122 1.8 macallan CFATTACH_DECL_NEW(cuda, sizeof(struct cuda_softc), 123 1.1 macallan cuda_match, cuda_attach, NULL, NULL); 124 1.1 macallan 125 1.1 macallan static inline void cuda_write_reg(struct cuda_softc *, int, uint8_t); 126 1.1 macallan static inline uint8_t cuda_read_reg(struct cuda_softc *, int); 127 1.1 macallan static void cuda_idle(struct cuda_softc *); 128 1.1 macallan static void cuda_tip(struct cuda_softc *); 129 1.1 macallan static void cuda_clear_tip(struct cuda_softc *); 130 1.1 macallan static void cuda_in(struct cuda_softc *); 131 1.1 macallan static void cuda_out(struct cuda_softc *); 132 1.1 macallan static void cuda_toggle_ack(struct cuda_softc *); 133 1.1 macallan static void cuda_ack_off(struct cuda_softc *); 134 1.1 macallan static int cuda_intr_state(struct cuda_softc *); 135 1.1 macallan 136 1.1 macallan static void cuda_init(struct cuda_softc *); 137 1.1 macallan 138 1.1 macallan /* 139 1.1 macallan * send a message to Cuda. 140 1.1 macallan */ 141 1.1 macallan /* cookie, flags, length, data */ 142 1.1 macallan static int cuda_send(void *, int, int, uint8_t *); 143 1.1 macallan static void cuda_poll(void *); 144 1.1 macallan static void cuda_adb_poll(void *); 145 1.1 macallan static int cuda_set_handler(void *, int, int (*)(void *, int, uint8_t *), void *); 146 1.1 macallan 147 1.1 macallan static int cuda_error_handler(void *, int, uint8_t *); 148 1.1 macallan 149 1.1 macallan static int cuda_todr_handler(void *, int, uint8_t *); 150 1.15 tsutsui static int cuda_todr_set(todr_chip_handle_t, struct timeval *); 151 1.15 tsutsui static int cuda_todr_get(todr_chip_handle_t, struct timeval *); 152 1.1 macallan 153 1.1 macallan static int cuda_adb_handler(void *, int, uint8_t *); 154 1.8 macallan static void cuda_final(device_t); 155 1.1 macallan 156 1.1 macallan static struct cuda_attach_args *cuda0 = NULL; 157 1.1 macallan 158 1.1 macallan /* ADB bus attachment stuff */ 159 1.1 macallan static int cuda_adb_send(void *, int, int, int, uint8_t *); 160 1.1 macallan static int cuda_adb_set_handler(void *, void (*)(void *, int, uint8_t *), void *); 161 1.1 macallan 162 1.1 macallan /* i2c stuff */ 163 1.1 macallan static int cuda_i2c_exec(void *, i2c_op_t, i2c_addr_t, const void *, size_t, 164 1.1 macallan void *, size_t, int); 165 1.1 macallan 166 1.29.2.1 thorpej static void 167 1.29.2.1 thorpej cuda_add_i2c_device(struct cuda_softc *sc, const char *name, 168 1.29.2.1 thorpej const char *compatible, i2c_addr_t addr) 169 1.29.2.1 thorpej { 170 1.29.2.1 thorpej KASSERT(sc->sc_ni2c_devices < CUDA_MAX_I2C_DEVICES); 171 1.29.2.1 thorpej sc->sc_i2c_devices[sc->sc_ni2c_devices].name = name; 172 1.29.2.1 thorpej sc->sc_i2c_devices[sc->sc_ni2c_devices].compatible = compatible; 173 1.29.2.1 thorpej sc->sc_i2c_devices[sc->sc_ni2c_devices].addr = addr; 174 1.29.2.1 thorpej sc->sc_ni2c_devices++; 175 1.29.2.1 thorpej } 176 1.29.2.1 thorpej 177 1.29.2.1 thorpej static int 178 1.29.2.1 thorpej cuda_i2c_enumerate_devices(device_t dev, devhandle_t call_handle, void *v) 179 1.29.2.1 thorpej { 180 1.29.2.1 thorpej struct i2c_enumerate_devices_args *args = v; 181 1.29.2.1 thorpej prop_dictionary_t props; 182 1.29.2.1 thorpej int i; 183 1.29.2.1 thorpej bool cbrv; 184 1.29.2.1 thorpej 185 1.29.2.1 thorpej /* dev is the "iicbus" instance. Cuda softc is in args. */ 186 1.29.2.1 thorpej struct cuda_softc *sc = args->ia->ia_tag->ic_cookie; 187 1.29.2.1 thorpej 188 1.29.2.1 thorpej for (i = 0; i < sc->sc_ni2c_devices; i++) { 189 1.29.2.1 thorpej props = prop_dictionary_create(); 190 1.29.2.1 thorpej 191 1.29.2.1 thorpej args->ia->ia_addr = sc->sc_i2c_devices[i].addr; 192 1.29.2.1 thorpej args->ia->ia_name = sc->sc_i2c_devices[i].name; 193 1.29.2.1 thorpej args->ia->ia_clist = sc->sc_i2c_devices[i].compatible; 194 1.29.2.1 thorpej args->ia->ia_clist_size = strlen(args->ia->ia_clist) + 1; 195 1.29.2.1 thorpej args->ia->ia_prop = props; 196 1.29.2.1 thorpej /* Child gets no handle. */ 197 1.29.2.1 thorpej devhandle_invalidate(&args->ia->ia_devhandle); 198 1.29.2.1 thorpej 199 1.29.2.1 thorpej cbrv = args->callback(dev, args); 200 1.29.2.1 thorpej 201 1.29.2.1 thorpej prop_object_release(props); 202 1.29.2.1 thorpej 203 1.29.2.1 thorpej if (!cbrv) { 204 1.29.2.1 thorpej break; /* callback decides if we continue */ 205 1.29.2.1 thorpej } 206 1.29.2.1 thorpej } 207 1.29.2.1 thorpej 208 1.29.2.1 thorpej return 0; 209 1.29.2.1 thorpej } 210 1.29.2.1 thorpej 211 1.29.2.1 thorpej static device_call_t 212 1.29.2.1 thorpej cuda_devhandle_lookup_device_call(devhandle_t handle, const char *name, 213 1.29.2.1 thorpej devhandle_t *call_handlep) 214 1.29.2.1 thorpej { 215 1.29.2.1 thorpej if (strcmp(name, "i2c-enumerate-devices") == 0) { 216 1.29.2.1 thorpej return cuda_i2c_enumerate_devices; 217 1.29.2.1 thorpej } 218 1.29.2.1 thorpej 219 1.29.2.1 thorpej /* Defer everything else to the "super". */ 220 1.29.2.1 thorpej return NULL; 221 1.29.2.1 thorpej } 222 1.29.2.1 thorpej 223 1.1 macallan static int 224 1.8 macallan cuda_match(device_t parent, struct cfdata *cf, void *aux) 225 1.1 macallan { 226 1.1 macallan struct confargs *ca = aux; 227 1.1 macallan 228 1.1 macallan if (ca->ca_nreg < 8) 229 1.1 macallan return 0; 230 1.1 macallan 231 1.1 macallan if (ca->ca_nintr < 4) 232 1.1 macallan return 0; 233 1.1 macallan 234 1.1 macallan if (strcmp(ca->ca_name, "via-cuda") == 0) { 235 1.1 macallan return 10; /* beat adb* at obio? */ 236 1.1 macallan } 237 1.1 macallan 238 1.1 macallan return 0; 239 1.1 macallan } 240 1.1 macallan 241 1.1 macallan static void 242 1.16 matt cuda_attach(device_t parent, device_t self, void *aux) 243 1.1 macallan { 244 1.1 macallan struct confargs *ca = aux; 245 1.16 matt struct cuda_softc *sc = device_private(self); 246 1.1 macallan struct i2cbus_attach_args iba; 247 1.1 macallan static struct cuda_attach_args caa; 248 1.1 macallan int irq = ca->ca_intr[0]; 249 1.1 macallan int node, i, child; 250 1.1 macallan char name[32]; 251 1.1 macallan 252 1.16 matt sc->sc_dev = self; 253 1.5 garbled node = of_getnode_byname(OF_parent(ca->ca_node), "extint-gpio1"); 254 1.1 macallan if (node) 255 1.1 macallan OF_getprop(node, "interrupts", &irq, 4); 256 1.1 macallan 257 1.16 matt aprint_normal(" irq %d", irq); 258 1.1 macallan 259 1.1 macallan sc->sc_node = ca->ca_node; 260 1.1 macallan sc->sc_memt = ca->ca_tag; 261 1.1 macallan 262 1.1 macallan sc->sc_sent = 0; 263 1.1 macallan sc->sc_received = 0; 264 1.1 macallan sc->sc_waiting = 0; 265 1.1 macallan sc->sc_polling = 0; 266 1.1 macallan sc->sc_state = CUDA_NOTREADY; 267 1.1 macallan sc->sc_error = 0; 268 1.1 macallan sc->sc_i2c_read_len = 0; 269 1.1 macallan 270 1.1 macallan if (bus_space_map(sc->sc_memt, ca->ca_reg[0] + ca->ca_baseaddr, 271 1.1 macallan ca->ca_reg[1], 0, &sc->sc_memh) != 0) { 272 1.1 macallan 273 1.16 matt aprint_normal(": unable to map registers\n"); 274 1.1 macallan return; 275 1.1 macallan } 276 1.27 rin sc->sc_ih = intr_establish_xname(irq, IST_EDGE, IPL_TTY, cuda_intr, sc, 277 1.27 rin device_xname(self)); 278 1.1 macallan printf("\n"); 279 1.1 macallan 280 1.1 macallan for (i = 0; i < 16; i++) { 281 1.1 macallan sc->sc_handlers[i].handler = NULL; 282 1.1 macallan sc->sc_handlers[i].cookie = NULL; 283 1.1 macallan } 284 1.1 macallan 285 1.1 macallan cuda_init(sc); 286 1.1 macallan 287 1.1 macallan /* now attach children */ 288 1.16 matt config_interrupts(self, cuda_final); 289 1.1 macallan cuda_set_handler(sc, CUDA_ERROR, cuda_error_handler, sc); 290 1.1 macallan cuda_set_handler(sc, CUDA_PSEUDO, cuda_todr_handler, sc); 291 1.1 macallan 292 1.1 macallan child = OF_child(ca->ca_node); 293 1.1 macallan while (child != 0) { 294 1.1 macallan 295 1.1 macallan if (OF_getprop(child, "name", name, 32) == 0) 296 1.1 macallan continue; 297 1.1 macallan if (strncmp(name, "adb", 4) == 0) { 298 1.1 macallan 299 1.1 macallan cuda_set_handler(sc, CUDA_ADB, cuda_adb_handler, sc); 300 1.1 macallan sc->sc_adbops.cookie = sc; 301 1.1 macallan sc->sc_adbops.send = cuda_adb_send; 302 1.1 macallan sc->sc_adbops.poll = cuda_adb_poll; 303 1.1 macallan sc->sc_adbops.autopoll = cuda_autopoll; 304 1.1 macallan sc->sc_adbops.set_handler = cuda_adb_set_handler; 305 1.28 thorpej config_found(self, &sc->sc_adbops, nadb_print, 306 1.29 thorpej CFARGS(.iattr = "adb_bus")); 307 1.1 macallan } else if (strncmp(name, "rtc", 4) == 0) { 308 1.1 macallan 309 1.1 macallan sc->sc_todr.todr_gettime = cuda_todr_get; 310 1.1 macallan sc->sc_todr.todr_settime = cuda_todr_set; 311 1.1 macallan sc->sc_todr.cookie = sc; 312 1.1 macallan todr_attach(&sc->sc_todr); 313 1.1 macallan } 314 1.1 macallan child = OF_peer(child); 315 1.1 macallan } 316 1.1 macallan 317 1.1 macallan caa.cookie = sc; 318 1.1 macallan caa.set_handler = cuda_set_handler; 319 1.1 macallan caa.send = cuda_send; 320 1.1 macallan caa.poll = cuda_poll; 321 1.2 macallan #if notyet 322 1.29 thorpej config_found(self, &caa, cuda_print, CFARGS_NONE); 323 1.2 macallan #endif 324 1.22 macallan /* we don't have OF nodes for i2c devices so we have to make our own */ 325 1.22 macallan node = OF_finddevice("/valkyrie"); 326 1.22 macallan if (node != -1) { 327 1.29.2.1 thorpej /* XXX a real "compatible" string would be nice... */ 328 1.29.2.1 thorpej cuda_add_i2c_device(sc, "videopll", 329 1.29.2.1 thorpej "aapl,valkyrie-videopll", 0x50); 330 1.22 macallan } 331 1.22 macallan 332 1.22 macallan node = OF_finddevice("/perch"); 333 1.22 macallan if (node != -1) { 334 1.29.2.1 thorpej cuda_add_i2c_device(sc, "sgsmix", "st,tda7433", 0x8a); 335 1.22 macallan } 336 1.22 macallan 337 1.29.2.1 thorpej /* 338 1.29.2.1 thorpej * Normally the i2c bus instance would automatically inherit 339 1.29.2.1 thorpej * our devhandle, but we provide our own i2c device enumeration 340 1.29.2.1 thorpej * method, so we need to supply the bus instance with our own 341 1.29.2.1 thorpej * device handle implementation, using the one we got from 342 1.29.2.1 thorpej * OpenFirmware as the "super". 343 1.29.2.1 thorpej */ 344 1.29.2.1 thorpej devhandle_t devhandle = devhandle_from_of(sc->sc_node); 345 1.29.2.1 thorpej devhandle_impl_inherit(&sc->sc_devhandle_impl, devhandle.impl); 346 1.29.2.1 thorpej sc->sc_devhandle_impl.lookup_device_call = 347 1.29.2.1 thorpej cuda_devhandle_lookup_device_call; 348 1.29.2.1 thorpej devhandle.impl = &sc->sc_devhandle_impl; 349 1.29.2.1 thorpej 350 1.24 thorpej iic_tag_init(&sc->sc_i2c); 351 1.1 macallan sc->sc_i2c.ic_cookie = sc; 352 1.1 macallan sc->sc_i2c.ic_exec = cuda_i2c_exec; 353 1.29.2.1 thorpej 354 1.29.2.1 thorpej memset(&iba, 0, sizeof(iba)); 355 1.29.2.1 thorpej iba.iba_tag = &sc->sc_i2c; 356 1.28 thorpej config_found(self, &iba, iicbus_print, 357 1.29.2.1 thorpej CFARGS(.iattr = "i2cbus", 358 1.29.2.1 thorpej .devhandle = devhandle)); 359 1.1 macallan 360 1.1 macallan if (cuda0 == NULL) 361 1.1 macallan cuda0 = &caa; 362 1.1 macallan } 363 1.1 macallan 364 1.1 macallan static void 365 1.1 macallan cuda_init(struct cuda_softc *sc) 366 1.1 macallan { 367 1.1 macallan uint8_t reg; 368 1.1 macallan 369 1.1 macallan reg = cuda_read_reg(sc, vDirB); 370 1.1 macallan reg |= 0x30; /* register B bits 4 and 5: outputs */ 371 1.1 macallan cuda_write_reg(sc, vDirB, reg); 372 1.1 macallan 373 1.1 macallan reg = cuda_read_reg(sc, vDirB); 374 1.1 macallan reg &= 0xf7; /* register B bit 3: input */ 375 1.1 macallan cuda_write_reg(sc, vDirB, reg); 376 1.1 macallan 377 1.1 macallan reg = cuda_read_reg(sc, vACR); 378 1.1 macallan reg &= ~vSR_OUT; /* make sure SR is set to IN */ 379 1.1 macallan cuda_write_reg(sc, vACR, reg); 380 1.1 macallan 381 1.1 macallan cuda_write_reg(sc, vACR, (cuda_read_reg(sc, vACR) | 0x0c) & ~0x10); 382 1.1 macallan 383 1.1 macallan sc->sc_state = CUDA_IDLE; /* used by all types of hardware */ 384 1.1 macallan 385 1.1 macallan cuda_write_reg(sc, vIER, 0x84); /* make sure VIA interrupts are on */ 386 1.1 macallan cuda_idle(sc); /* set ADB bus state to idle */ 387 1.1 macallan 388 1.1 macallan /* sort of a device reset */ 389 1.19 mrg (void)cuda_read_reg(sc, vSR); /* clear interrupt */ 390 1.1 macallan cuda_write_reg(sc, vIER, 0x04); /* no interrupts while clearing */ 391 1.1 macallan cuda_idle(sc); /* reset state to idle */ 392 1.1 macallan delay(150); 393 1.1 macallan cuda_tip(sc); /* signal start of frame */ 394 1.1 macallan delay(150); 395 1.1 macallan cuda_toggle_ack(sc); 396 1.1 macallan delay(150); 397 1.1 macallan cuda_clear_tip(sc); 398 1.1 macallan delay(150); 399 1.1 macallan cuda_idle(sc); /* back to idle state */ 400 1.19 mrg (void)cuda_read_reg(sc, vSR); /* clear interrupt */ 401 1.1 macallan cuda_write_reg(sc, vIER, 0x84); /* ints ok now */ 402 1.1 macallan } 403 1.1 macallan 404 1.1 macallan static void 405 1.8 macallan cuda_final(device_t dev) 406 1.1 macallan { 407 1.8 macallan struct cuda_softc *sc = device_private(dev); 408 1.1 macallan 409 1.1 macallan sc->sc_polling = 0; 410 1.1 macallan } 411 1.1 macallan 412 1.1 macallan static inline void 413 1.1 macallan cuda_write_reg(struct cuda_softc *sc, int offset, uint8_t value) 414 1.1 macallan { 415 1.1 macallan 416 1.1 macallan bus_space_write_1(sc->sc_memt, sc->sc_memh, offset, value); 417 1.1 macallan } 418 1.1 macallan 419 1.1 macallan static inline uint8_t 420 1.1 macallan cuda_read_reg(struct cuda_softc *sc, int offset) 421 1.1 macallan { 422 1.1 macallan 423 1.1 macallan return bus_space_read_1(sc->sc_memt, sc->sc_memh, offset); 424 1.1 macallan } 425 1.1 macallan 426 1.1 macallan static int 427 1.1 macallan cuda_set_handler(void *cookie, int type, 428 1.1 macallan int (*handler)(void *, int, uint8_t *), void *hcookie) 429 1.1 macallan { 430 1.1 macallan struct cuda_softc *sc = cookie; 431 1.1 macallan CudaHandler *me; 432 1.1 macallan 433 1.1 macallan if ((type >= 0) && (type < 16)) { 434 1.1 macallan me = &sc->sc_handlers[type]; 435 1.1 macallan me->handler = handler; 436 1.1 macallan me->cookie = hcookie; 437 1.1 macallan return 0; 438 1.1 macallan } 439 1.1 macallan return -1; 440 1.1 macallan } 441 1.1 macallan 442 1.1 macallan static int 443 1.1 macallan cuda_send(void *cookie, int poll, int length, uint8_t *msg) 444 1.1 macallan { 445 1.1 macallan struct cuda_softc *sc = cookie; 446 1.1 macallan int s; 447 1.1 macallan 448 1.1 macallan DPRINTF("cuda_send %08x\n", (uint32_t)cookie); 449 1.1 macallan if (sc->sc_state == CUDA_NOTREADY) 450 1.1 macallan return -1; 451 1.1 macallan 452 1.1 macallan s = splhigh(); 453 1.1 macallan 454 1.18 joerg if (sc->sc_state == CUDA_IDLE /*&& 455 1.18 joerg (cuda_read_reg(sc, vBufB) & vPB3) == vPB3*/) { 456 1.1 macallan /* fine */ 457 1.1 macallan DPRINTF("chip is idle\n"); 458 1.1 macallan } else { 459 1.1 macallan DPRINTF("cuda state is %d\n", sc->sc_state); 460 1.1 macallan if (sc->sc_waiting == 0) { 461 1.1 macallan sc->sc_waiting = 1; 462 1.1 macallan } else { 463 1.1 macallan splx(s); 464 1.1 macallan return -1; 465 1.1 macallan } 466 1.1 macallan } 467 1.1 macallan 468 1.1 macallan sc->sc_error = 0; 469 1.1 macallan memcpy(sc->sc_out, msg, length); 470 1.1 macallan sc->sc_out_length = length; 471 1.1 macallan sc->sc_sent = 0; 472 1.1 macallan 473 1.1 macallan if (sc->sc_waiting != 1) { 474 1.1 macallan 475 1.1 macallan delay(150); 476 1.1 macallan sc->sc_state = CUDA_OUT; 477 1.1 macallan cuda_out(sc); 478 1.1 macallan cuda_write_reg(sc, vSR, sc->sc_out[0]); 479 1.1 macallan cuda_ack_off(sc); 480 1.1 macallan cuda_tip(sc); 481 1.1 macallan } 482 1.1 macallan sc->sc_waiting = 1; 483 1.1 macallan 484 1.1 macallan if (sc->sc_polling || poll || cold) { 485 1.1 macallan cuda_poll(sc); 486 1.1 macallan } 487 1.1 macallan 488 1.1 macallan splx(s); 489 1.1 macallan 490 1.1 macallan return 0; 491 1.1 macallan } 492 1.1 macallan 493 1.1 macallan static void 494 1.1 macallan cuda_poll(void *cookie) 495 1.1 macallan { 496 1.1 macallan struct cuda_softc *sc = cookie; 497 1.2 macallan int s; 498 1.1 macallan 499 1.1 macallan DPRINTF("polling\n"); 500 1.1 macallan while ((sc->sc_state != CUDA_IDLE) || 501 1.1 macallan (cuda_intr_state(sc)) || 502 1.1 macallan (sc->sc_waiting == 1)) { 503 1.1 macallan if ((cuda_read_reg(sc, vIFR) & vSR_INT) == vSR_INT) { 504 1.2 macallan s = splhigh(); 505 1.1 macallan cuda_intr(sc); 506 1.2 macallan splx(s); 507 1.1 macallan } 508 1.1 macallan } 509 1.1 macallan } 510 1.1 macallan 511 1.1 macallan static void 512 1.1 macallan cuda_adb_poll(void *cookie) 513 1.1 macallan { 514 1.1 macallan struct cuda_softc *sc = cookie; 515 1.2 macallan int s; 516 1.1 macallan 517 1.2 macallan s = splhigh(); 518 1.1 macallan cuda_intr(sc); 519 1.2 macallan splx(s); 520 1.1 macallan } 521 1.1 macallan 522 1.1 macallan static void 523 1.1 macallan cuda_idle(struct cuda_softc *sc) 524 1.1 macallan { 525 1.1 macallan uint8_t reg; 526 1.1 macallan 527 1.1 macallan reg = cuda_read_reg(sc, vBufB); 528 1.1 macallan reg |= (vPB4 | vPB5); 529 1.1 macallan cuda_write_reg(sc, vBufB, reg); 530 1.1 macallan } 531 1.1 macallan 532 1.1 macallan static void 533 1.1 macallan cuda_tip(struct cuda_softc *sc) 534 1.1 macallan { 535 1.1 macallan uint8_t reg; 536 1.1 macallan 537 1.1 macallan reg = cuda_read_reg(sc, vBufB); 538 1.1 macallan reg &= ~vPB5; 539 1.1 macallan cuda_write_reg(sc, vBufB, reg); 540 1.1 macallan } 541 1.1 macallan 542 1.1 macallan static void 543 1.1 macallan cuda_clear_tip(struct cuda_softc *sc) 544 1.1 macallan { 545 1.1 macallan uint8_t reg; 546 1.1 macallan 547 1.1 macallan reg = cuda_read_reg(sc, vBufB); 548 1.1 macallan reg |= vPB5; 549 1.1 macallan cuda_write_reg(sc, vBufB, reg); 550 1.1 macallan } 551 1.1 macallan 552 1.1 macallan static void 553 1.1 macallan cuda_in(struct cuda_softc *sc) 554 1.1 macallan { 555 1.1 macallan uint8_t reg; 556 1.1 macallan 557 1.1 macallan reg = cuda_read_reg(sc, vACR); 558 1.1 macallan reg &= ~vSR_OUT; 559 1.1 macallan cuda_write_reg(sc, vACR, reg); 560 1.1 macallan } 561 1.1 macallan 562 1.1 macallan static void 563 1.1 macallan cuda_out(struct cuda_softc *sc) 564 1.1 macallan { 565 1.1 macallan uint8_t reg; 566 1.1 macallan 567 1.1 macallan reg = cuda_read_reg(sc, vACR); 568 1.1 macallan reg |= vSR_OUT; 569 1.1 macallan cuda_write_reg(sc, vACR, reg); 570 1.1 macallan } 571 1.1 macallan 572 1.1 macallan static void 573 1.1 macallan cuda_toggle_ack(struct cuda_softc *sc) 574 1.1 macallan { 575 1.1 macallan uint8_t reg; 576 1.1 macallan 577 1.1 macallan reg = cuda_read_reg(sc, vBufB); 578 1.1 macallan reg ^= vPB4; 579 1.1 macallan cuda_write_reg(sc, vBufB, reg); 580 1.1 macallan } 581 1.1 macallan 582 1.1 macallan static void 583 1.1 macallan cuda_ack_off(struct cuda_softc *sc) 584 1.1 macallan { 585 1.1 macallan uint8_t reg; 586 1.1 macallan 587 1.1 macallan reg = cuda_read_reg(sc, vBufB); 588 1.1 macallan reg |= vPB4; 589 1.1 macallan cuda_write_reg(sc, vBufB, reg); 590 1.1 macallan } 591 1.1 macallan 592 1.1 macallan static int 593 1.1 macallan cuda_intr_state(struct cuda_softc *sc) 594 1.1 macallan { 595 1.1 macallan return ((cuda_read_reg(sc, vBufB) & vPB3) == 0); 596 1.1 macallan } 597 1.1 macallan 598 1.1 macallan static int 599 1.1 macallan cuda_intr(void *arg) 600 1.1 macallan { 601 1.1 macallan struct cuda_softc *sc = arg; 602 1.19 mrg int ending, type; 603 1.1 macallan uint8_t reg; 604 1.1 macallan 605 1.1 macallan reg = cuda_read_reg(sc, vIFR); /* Read the interrupts */ 606 1.2 macallan DPRINTF("["); 607 1.1 macallan if ((reg & 0x80) == 0) { 608 1.2 macallan DPRINTF("irq %02x]", reg); 609 1.1 macallan return 0; /* No interrupts to process */ 610 1.1 macallan } 611 1.1 macallan DPRINTF(":"); 612 1.1 macallan 613 1.2 macallan cuda_write_reg(sc, vIFR, 0x7f); /* Clear 'em */ 614 1.1 macallan 615 1.1 macallan switch_start: 616 1.1 macallan switch (sc->sc_state) { 617 1.1 macallan case CUDA_IDLE: 618 1.1 macallan /* 619 1.1 macallan * This is an unexpected packet, so grab the first (dummy) 620 1.1 macallan * byte, set up the proper vars, and tell the chip we are 621 1.1 macallan * starting to receive the packet by setting the TIP bit. 622 1.1 macallan */ 623 1.1 macallan sc->sc_in[1] = cuda_read_reg(sc, vSR); 624 1.1 macallan DPRINTF("start: %02x", sc->sc_in[1]); 625 1.1 macallan if (cuda_intr_state(sc) == 0) { 626 1.1 macallan /* must have been a fake start */ 627 1.1 macallan DPRINTF(" ... fake start\n"); 628 1.1 macallan if (sc->sc_waiting) { 629 1.1 macallan /* start over */ 630 1.1 macallan delay(150); 631 1.1 macallan sc->sc_state = CUDA_OUT; 632 1.1 macallan sc->sc_sent = 0; 633 1.1 macallan cuda_out(sc); 634 1.1 macallan cuda_write_reg(sc, vSR, sc->sc_out[1]); 635 1.1 macallan cuda_ack_off(sc); 636 1.1 macallan cuda_tip(sc); 637 1.1 macallan } 638 1.1 macallan break; 639 1.1 macallan } 640 1.1 macallan 641 1.1 macallan cuda_in(sc); 642 1.1 macallan cuda_tip(sc); 643 1.1 macallan 644 1.1 macallan sc->sc_received = 1; 645 1.1 macallan sc->sc_state = CUDA_IN; 646 1.1 macallan DPRINTF(" CUDA_IN"); 647 1.1 macallan break; 648 1.1 macallan 649 1.1 macallan case CUDA_IN: 650 1.1 macallan sc->sc_in[sc->sc_received] = cuda_read_reg(sc, vSR); 651 1.1 macallan DPRINTF(" %02x", sc->sc_in[sc->sc_received]); 652 1.1 macallan ending = 0; 653 1.1 macallan if (sc->sc_received > 255) { 654 1.1 macallan /* bitch only once */ 655 1.1 macallan if (sc->sc_received == 256) { 656 1.20 macallan aprint_error_dev(sc->sc_dev, 657 1.20 macallan "input overflow\n"); 658 1.1 macallan ending = 1; 659 1.1 macallan } 660 1.1 macallan } else 661 1.1 macallan sc->sc_received++; 662 1.1 macallan if (sc->sc_received > 3) { 663 1.1 macallan if ((sc->sc_in[3] == CMD_IIC) && 664 1.1 macallan (sc->sc_received > (sc->sc_i2c_read_len + 4))) { 665 1.1 macallan ending = 1; 666 1.1 macallan } 667 1.1 macallan } 668 1.1 macallan 669 1.1 macallan /* intr off means this is the last byte (end of frame) */ 670 1.1 macallan if (cuda_intr_state(sc) == 0) { 671 1.1 macallan ending = 1; 672 1.1 macallan DPRINTF(".\n"); 673 1.1 macallan } else { 674 1.1 macallan cuda_toggle_ack(sc); 675 1.1 macallan } 676 1.1 macallan 677 1.1 macallan if (ending == 1) { /* end of message? */ 678 1.1 macallan 679 1.1 macallan sc->sc_in[0] = sc->sc_received - 1; 680 1.1 macallan 681 1.1 macallan /* reset vars and signal the end of this frame */ 682 1.1 macallan cuda_idle(sc); 683 1.1 macallan 684 1.1 macallan /* check if we have a handler for this message */ 685 1.1 macallan type = sc->sc_in[1]; 686 1.1 macallan if ((type >= 0) && (type < 16)) { 687 1.1 macallan CudaHandler *me = &sc->sc_handlers[type]; 688 1.1 macallan 689 1.1 macallan if (me->handler != NULL) { 690 1.1 macallan me->handler(me->cookie, 691 1.1 macallan sc->sc_received - 1, &sc->sc_in[1]); 692 1.1 macallan } else { 693 1.20 macallan aprint_error_dev(sc->sc_dev, 694 1.20 macallan "no handler for type %02x\n", type); 695 1.1 macallan panic("barf"); 696 1.1 macallan } 697 1.1 macallan } 698 1.1 macallan 699 1.2 macallan DPRINTF("CUDA_IDLE"); 700 1.2 macallan sc->sc_state = CUDA_IDLE; 701 1.2 macallan 702 1.1 macallan sc->sc_received = 0; 703 1.1 macallan 704 1.1 macallan /* 705 1.1 macallan * If there is something waiting to be sent out, 706 1.2 macallan * set everything up and send the first byte. 707 1.1 macallan */ 708 1.1 macallan if (sc->sc_waiting == 1) { 709 1.1 macallan 710 1.1 macallan DPRINTF("pending write\n"); 711 1.1 macallan delay(1500); /* required */ 712 1.1 macallan sc->sc_sent = 0; 713 1.1 macallan sc->sc_state = CUDA_OUT; 714 1.1 macallan 715 1.1 macallan /* 716 1.1 macallan * If the interrupt is on, we were too slow 717 1.1 macallan * and the chip has already started to send 718 1.1 macallan * something to us, so back out of the write 719 1.1 macallan * and start a read cycle. 720 1.1 macallan */ 721 1.1 macallan if (cuda_intr_state(sc)) { 722 1.1 macallan cuda_in(sc); 723 1.1 macallan cuda_idle(sc); 724 1.1 macallan sc->sc_sent = 0; 725 1.1 macallan sc->sc_state = CUDA_IDLE; 726 1.1 macallan sc->sc_received = 0; 727 1.1 macallan delay(150); 728 1.1 macallan DPRINTF("too slow - incoming message\n"); 729 1.1 macallan goto switch_start; 730 1.1 macallan } 731 1.1 macallan /* 732 1.1 macallan * If we got here, it's ok to start sending 733 1.1 macallan * so load the first byte and tell the chip 734 1.1 macallan * we want to send. 735 1.1 macallan */ 736 1.2 macallan DPRINTF("sending "); 737 1.2 macallan 738 1.1 macallan cuda_out(sc); 739 1.1 macallan cuda_write_reg(sc, vSR, 740 1.1 macallan sc->sc_out[sc->sc_sent]); 741 1.2 macallan cuda_ack_off(sc); 742 1.2 macallan cuda_tip(sc); 743 1.1 macallan } 744 1.1 macallan } 745 1.1 macallan break; 746 1.1 macallan 747 1.1 macallan case CUDA_OUT: 748 1.19 mrg (void)cuda_read_reg(sc, vSR); /* reset SR-intr in IFR */ 749 1.1 macallan 750 1.1 macallan sc->sc_sent++; 751 1.1 macallan if (cuda_intr_state(sc)) { /* ADB intr low during write */ 752 1.1 macallan 753 1.1 macallan DPRINTF("incoming msg during send\n"); 754 1.1 macallan cuda_in(sc); /* make sure SR is set to IN */ 755 1.1 macallan cuda_idle(sc); 756 1.1 macallan sc->sc_sent = 0; /* must start all over */ 757 1.1 macallan sc->sc_state = CUDA_IDLE; /* new state */ 758 1.1 macallan sc->sc_received = 0; 759 1.1 macallan sc->sc_waiting = 1; /* must retry when done with 760 1.1 macallan * read */ 761 1.1 macallan delay(150); 762 1.1 macallan goto switch_start; /* process next state right 763 1.1 macallan * now */ 764 1.1 macallan break; 765 1.1 macallan } 766 1.1 macallan if (sc->sc_out_length == sc->sc_sent) { /* check for done */ 767 1.1 macallan 768 1.1 macallan sc->sc_waiting = 0; /* done writing */ 769 1.1 macallan sc->sc_state = CUDA_IDLE; /* signal bus is idle */ 770 1.1 macallan cuda_in(sc); 771 1.1 macallan cuda_idle(sc); 772 1.1 macallan DPRINTF("done sending\n"); 773 1.1 macallan } else { 774 1.1 macallan /* send next byte */ 775 1.1 macallan cuda_write_reg(sc, vSR, sc->sc_out[sc->sc_sent]); 776 1.20 macallan DPRINTF("%02x", sc->sc_out[sc->sc_sent]); 777 1.1 macallan cuda_toggle_ack(sc); /* signal byte ready to 778 1.1 macallan * shift */ 779 1.1 macallan } 780 1.1 macallan break; 781 1.1 macallan 782 1.1 macallan case CUDA_NOTREADY: 783 1.1 macallan DPRINTF("adb: not yet initialized\n"); 784 1.1 macallan break; 785 1.1 macallan 786 1.1 macallan default: 787 1.1 macallan DPRINTF("intr: unknown ADB state\n"); 788 1.1 macallan break; 789 1.1 macallan } 790 1.1 macallan 791 1.2 macallan DPRINTF("]"); 792 1.1 macallan return 1; 793 1.1 macallan } 794 1.1 macallan 795 1.1 macallan static int 796 1.1 macallan cuda_error_handler(void *cookie, int len, uint8_t *data) 797 1.1 macallan { 798 1.1 macallan struct cuda_softc *sc = cookie; 799 1.1 macallan 800 1.1 macallan /* 801 1.1 macallan * something went wrong 802 1.1 macallan * byte 3 seems to be the failed command 803 1.1 macallan */ 804 1.1 macallan sc->sc_error = 1; 805 1.1 macallan wakeup(&sc->sc_todev); 806 1.1 macallan return 0; 807 1.1 macallan } 808 1.1 macallan 809 1.1 macallan 810 1.1 macallan /* real time clock */ 811 1.1 macallan 812 1.1 macallan static int 813 1.1 macallan cuda_todr_handler(void *cookie, int len, uint8_t *data) 814 1.1 macallan { 815 1.1 macallan struct cuda_softc *sc = cookie; 816 1.1 macallan 817 1.1 macallan #ifdef CUDA_DEBUG 818 1.1 macallan int i; 819 1.1 macallan printf("msg: %02x", data[0]); 820 1.1 macallan for (i = 1; i < len; i++) { 821 1.1 macallan printf(" %02x", data[i]); 822 1.1 macallan } 823 1.1 macallan printf("\n"); 824 1.1 macallan #endif 825 1.1 macallan 826 1.1 macallan switch(data[2]) { 827 1.1 macallan case CMD_READ_RTC: 828 1.1 macallan memcpy(&sc->sc_tod, &data[3], 4); 829 1.1 macallan break; 830 1.1 macallan case CMD_WRITE_RTC: 831 1.1 macallan sc->sc_tod = 0xffffffff; 832 1.1 macallan break; 833 1.1 macallan case CMD_AUTOPOLL: 834 1.1 macallan sc->sc_autopoll = 1; 835 1.1 macallan break; 836 1.1 macallan case CMD_IIC: 837 1.1 macallan sc->sc_iic_done = len; 838 1.1 macallan break; 839 1.1 macallan } 840 1.1 macallan wakeup(&sc->sc_todev); 841 1.1 macallan return 0; 842 1.1 macallan } 843 1.1 macallan 844 1.1 macallan #define DIFF19041970 2082844800 845 1.1 macallan 846 1.1 macallan static int 847 1.15 tsutsui cuda_todr_get(todr_chip_handle_t tch, struct timeval *tvp) 848 1.1 macallan { 849 1.1 macallan struct cuda_softc *sc = tch->cookie; 850 1.1 macallan int cnt = 0; 851 1.1 macallan uint8_t cmd[] = { CUDA_PSEUDO, CMD_READ_RTC}; 852 1.1 macallan 853 1.1 macallan sc->sc_tod = 0; 854 1.20 macallan while (sc->sc_tod == 0) { 855 1.20 macallan cuda_send(sc, 0, 2, cmd); 856 1.1 macallan 857 1.20 macallan while ((sc->sc_tod == 0) && (cnt < 10)) { 858 1.20 macallan tsleep(&sc->sc_todev, 0, "todr", 10); 859 1.20 macallan cnt++; 860 1.20 macallan } 861 1.20 macallan 862 1.20 macallan if (sc->sc_tod == 0) { 863 1.20 macallan aprint_error_dev(sc->sc_dev, 864 1.20 macallan "unable to read a sane RTC value\n"); 865 1.20 macallan return EIO; 866 1.20 macallan } 867 1.20 macallan if ((sc->sc_tod > 0xf0000000UL) || 868 1.20 macallan (sc->sc_tod < DIFF19041970)) { 869 1.20 macallan /* huh? try again */ 870 1.20 macallan sc->sc_tod = 0; 871 1.20 macallan aprint_verbose_dev(sc->sc_dev, 872 1.20 macallan "got garbage reading RTC, trying again\n"); 873 1.20 macallan } 874 1.1 macallan } 875 1.1 macallan 876 1.1 macallan tvp->tv_sec = sc->sc_tod - DIFF19041970; 877 1.12 macallan DPRINTF("tod: %" PRIo64 "\n", tvp->tv_sec); 878 1.1 macallan tvp->tv_usec = 0; 879 1.1 macallan return 0; 880 1.1 macallan } 881 1.1 macallan 882 1.1 macallan static int 883 1.15 tsutsui cuda_todr_set(todr_chip_handle_t tch, struct timeval *tvp) 884 1.1 macallan { 885 1.1 macallan struct cuda_softc *sc = tch->cookie; 886 1.1 macallan uint32_t sec; 887 1.1 macallan uint8_t cmd[] = {CUDA_PSEUDO, CMD_WRITE_RTC, 0, 0, 0, 0}; 888 1.1 macallan 889 1.1 macallan sec = tvp->tv_sec + DIFF19041970; 890 1.1 macallan memcpy(&cmd[2], &sec, 4); 891 1.1 macallan sc->sc_tod = 0; 892 1.1 macallan if (cuda_send(sc, 0, 6, cmd) == 0) { 893 1.1 macallan while (sc->sc_tod == 0) { 894 1.1 macallan tsleep(&sc->sc_todev, 0, "todr", 10); 895 1.1 macallan } 896 1.1 macallan return 0; 897 1.1 macallan } 898 1.20 macallan aprint_error_dev(sc->sc_dev, "%s failed\n", __func__); 899 1.1 macallan return -1; 900 1.1 macallan 901 1.1 macallan } 902 1.1 macallan 903 1.1 macallan /* poweroff and reboot */ 904 1.1 macallan 905 1.1 macallan void 906 1.14 cegger cuda_poweroff(void) 907 1.1 macallan { 908 1.1 macallan struct cuda_softc *sc; 909 1.1 macallan uint8_t cmd[] = {CUDA_PSEUDO, CMD_POWEROFF}; 910 1.1 macallan 911 1.1 macallan if (cuda0 == NULL) 912 1.1 macallan return; 913 1.1 macallan sc = cuda0->cookie; 914 1.1 macallan sc->sc_polling = 1; 915 1.1 macallan cuda0->poll(sc); 916 1.1 macallan if (cuda0->send(sc, 1, 2, cmd) == 0) 917 1.1 macallan while (1); 918 1.1 macallan } 919 1.1 macallan 920 1.1 macallan void 921 1.14 cegger cuda_restart(void) 922 1.1 macallan { 923 1.1 macallan struct cuda_softc *sc; 924 1.1 macallan uint8_t cmd[] = {CUDA_PSEUDO, CMD_RESET}; 925 1.1 macallan 926 1.1 macallan if (cuda0 == NULL) 927 1.1 macallan return; 928 1.1 macallan sc = cuda0->cookie; 929 1.1 macallan sc->sc_polling = 1; 930 1.1 macallan cuda0->poll(sc); 931 1.1 macallan if (cuda0->send(sc, 1, 2, cmd) == 0) 932 1.1 macallan while (1); 933 1.1 macallan } 934 1.1 macallan 935 1.1 macallan /* ADB message handling */ 936 1.1 macallan 937 1.1 macallan static void 938 1.1 macallan cuda_autopoll(void *cookie, int flag) 939 1.1 macallan { 940 1.1 macallan struct cuda_softc *sc = cookie; 941 1.1 macallan uint8_t cmd[] = {CUDA_PSEUDO, CMD_AUTOPOLL, (flag != 0)}; 942 1.1 macallan 943 1.1 macallan if (cmd[2] == sc->sc_autopoll) 944 1.1 macallan return; 945 1.1 macallan 946 1.1 macallan sc->sc_autopoll = -1; 947 1.1 macallan cuda_send(sc, 0, 3, cmd); 948 1.1 macallan while(sc->sc_autopoll == -1) { 949 1.1 macallan if (sc->sc_polling || cold) { 950 1.1 macallan cuda_poll(sc); 951 1.1 macallan } else 952 1.1 macallan tsleep(&sc->sc_todev, 0, "autopoll", 100); 953 1.1 macallan } 954 1.1 macallan } 955 1.1 macallan 956 1.1 macallan static int 957 1.1 macallan cuda_adb_handler(void *cookie, int len, uint8_t *data) 958 1.1 macallan { 959 1.1 macallan struct cuda_softc *sc = cookie; 960 1.1 macallan 961 1.1 macallan if (sc->sc_adb_handler != NULL) { 962 1.1 macallan sc->sc_adb_handler(sc->sc_adb_cookie, len - 1, 963 1.1 macallan &data[1]); 964 1.1 macallan return 0; 965 1.1 macallan } 966 1.1 macallan return -1; 967 1.1 macallan } 968 1.1 macallan 969 1.1 macallan static int 970 1.1 macallan cuda_adb_send(void *cookie, int poll, int command, int len, uint8_t *data) 971 1.1 macallan { 972 1.1 macallan struct cuda_softc *sc = cookie; 973 1.1 macallan int i, s = 0; 974 1.1 macallan uint8_t packet[16]; 975 1.1 macallan 976 1.1 macallan /* construct an ADB command packet and send it */ 977 1.1 macallan packet[0] = CUDA_ADB; 978 1.1 macallan packet[1] = command; 979 1.1 macallan for (i = 0; i < len; i++) 980 1.1 macallan packet[i + 2] = data[i]; 981 1.1 macallan if (poll || cold) { 982 1.1 macallan s = splhigh(); 983 1.1 macallan cuda_poll(sc); 984 1.1 macallan } 985 1.1 macallan cuda_send(sc, poll, len + 2, packet); 986 1.1 macallan if (poll || cold) { 987 1.1 macallan cuda_poll(sc); 988 1.1 macallan splx(s); 989 1.1 macallan } 990 1.1 macallan return 0; 991 1.1 macallan } 992 1.1 macallan 993 1.1 macallan static int 994 1.1 macallan cuda_adb_set_handler(void *cookie, void (*handler)(void *, int, uint8_t *), 995 1.1 macallan void *hcookie) 996 1.1 macallan { 997 1.1 macallan struct cuda_softc *sc = cookie; 998 1.1 macallan 999 1.1 macallan /* register a callback for incoming ADB messages */ 1000 1.1 macallan sc->sc_adb_handler = handler; 1001 1.1 macallan sc->sc_adb_cookie = hcookie; 1002 1.1 macallan return 0; 1003 1.1 macallan } 1004 1.1 macallan 1005 1.1 macallan /* i2c message handling */ 1006 1.1 macallan 1007 1.1 macallan static int 1008 1.1 macallan cuda_i2c_exec(void *cookie, i2c_op_t op, i2c_addr_t addr, const void *_send, 1009 1.1 macallan size_t send_len, void *_recv, size_t recv_len, int flags) 1010 1.1 macallan { 1011 1.1 macallan struct cuda_softc *sc = cookie; 1012 1.1 macallan const uint8_t *send = _send; 1013 1.1 macallan uint8_t *recv = _recv; 1014 1.1 macallan uint8_t command[16] = {CUDA_PSEUDO, CMD_IIC}; 1015 1.1 macallan 1016 1.1 macallan DPRINTF("cuda_i2c_exec(%02x)\n", addr); 1017 1.1 macallan command[2] = addr; 1018 1.1 macallan 1019 1.13 pgoyette /* Copy command and output data bytes, if any, to buffer */ 1020 1.13 pgoyette if (send_len > 0) 1021 1.23 riastrad memcpy(&command[3], send, uimin((int)send_len, 12)); 1022 1.13 pgoyette else if (I2C_OP_READ_P(op) && (recv_len == 0)) { 1023 1.13 pgoyette /* 1024 1.13 pgoyette * If no data bytes in either direction, it's a "quick" 1025 1.13 pgoyette * i2c operation. We don't know how to do a quick_read 1026 1.13 pgoyette * since that requires us to set the low bit of the 1027 1.13 pgoyette * address byte after it has been left-shifted. 1028 1.13 pgoyette */ 1029 1.13 pgoyette sc->sc_error = 0; 1030 1.13 pgoyette return -1; 1031 1.13 pgoyette } 1032 1.1 macallan 1033 1.1 macallan sc->sc_iic_done = 0; 1034 1.1 macallan cuda_send(sc, sc->sc_polling, send_len + 3, command); 1035 1.1 macallan 1036 1.1 macallan while ((sc->sc_iic_done == 0) && (sc->sc_error == 0)) { 1037 1.1 macallan if (sc->sc_polling || cold) { 1038 1.1 macallan cuda_poll(sc); 1039 1.1 macallan } else 1040 1.1 macallan tsleep(&sc->sc_todev, 0, "i2c", 1000); 1041 1.1 macallan } 1042 1.1 macallan 1043 1.1 macallan if (sc->sc_error) { 1044 1.1 macallan sc->sc_error = 0; 1045 1.20 macallan aprint_error_dev(sc->sc_dev, "error doing I2C\n"); 1046 1.1 macallan return -1; 1047 1.1 macallan } 1048 1.1 macallan 1049 1.1 macallan /* see if we're supposed to do a read */ 1050 1.1 macallan if (recv_len > 0) { 1051 1.1 macallan sc->sc_iic_done = 0; 1052 1.1 macallan command[2] |= 1; 1053 1.1 macallan command[3] = 0; 1054 1.1 macallan 1055 1.1 macallan /* 1056 1.1 macallan * XXX we need to do something to limit the size of the answer 1057 1.1 macallan * - apparently the chip keeps sending until we tell it to stop 1058 1.1 macallan */ 1059 1.1 macallan sc->sc_i2c_read_len = recv_len; 1060 1.1 macallan DPRINTF("rcv_len: %d\n", recv_len); 1061 1.1 macallan cuda_send(sc, sc->sc_polling, 3, command); 1062 1.1 macallan while ((sc->sc_iic_done == 0) && (sc->sc_error == 0)) { 1063 1.1 macallan if (sc->sc_polling || cold) { 1064 1.1 macallan cuda_poll(sc); 1065 1.1 macallan } else 1066 1.1 macallan tsleep(&sc->sc_todev, 0, "i2c", 1000); 1067 1.1 macallan } 1068 1.1 macallan 1069 1.1 macallan if (sc->sc_error) { 1070 1.20 macallan aprint_error_dev(sc->sc_dev, 1071 1.20 macallan "error trying to read from I2C\n"); 1072 1.1 macallan sc->sc_error = 0; 1073 1.1 macallan return -1; 1074 1.1 macallan } 1075 1.1 macallan } 1076 1.1 macallan 1077 1.1 macallan DPRINTF("received: %d\n", sc->sc_iic_done); 1078 1.1 macallan if ((sc->sc_iic_done > 3) && (recv_len > 0)) { 1079 1.1 macallan int rlen; 1080 1.1 macallan 1081 1.1 macallan /* we got an answer */ 1082 1.23 riastrad rlen = uimin(sc->sc_iic_done - 3, recv_len); 1083 1.1 macallan memcpy(recv, &sc->sc_in[4], rlen); 1084 1.1 macallan #ifdef CUDA_DEBUG 1085 1.1 macallan { 1086 1.1 macallan int i; 1087 1.1 macallan printf("ret:"); 1088 1.1 macallan for (i = 0; i < rlen; i++) 1089 1.1 macallan printf(" %02x", recv[i]); 1090 1.1 macallan printf("\n"); 1091 1.1 macallan } 1092 1.1 macallan #endif 1093 1.1 macallan return rlen; 1094 1.1 macallan } 1095 1.1 macallan return 0; 1096 1.1 macallan } 1097
Indexes created Tue Sep 30 11:09:46 GMT 2025