ssdfb_spi.c revision 1.9.2.1
1 1.9.2.1 thorpej /* $NetBSD: ssdfb_spi.c,v 1.9.2.1 2021/08/09 00:30:09 thorpej Exp $ */ 2 1.1 tnn 3 1.1 tnn /* 4 1.1 tnn * Copyright (c) 2019 The NetBSD Foundation, Inc. 5 1.1 tnn * All rights reserved. 6 1.1 tnn * 7 1.1 tnn * This code is derived from software contributed to The NetBSD Foundation 8 1.1 tnn * by Tobias Nygren. 9 1.1 tnn * 10 1.1 tnn * Redistribution and use in source and binary forms, with or without 11 1.1 tnn * modification, are permitted provided that the following conditions 12 1.1 tnn * are met: 13 1.1 tnn * 1. Redistributions of source code must retain the above copyright 14 1.1 tnn * notice, this list of conditions and the following disclaimer. 15 1.1 tnn * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 tnn * notice, this list of conditions and the following disclaimer in the 17 1.1 tnn * documentation and/or other materials provided with the distribution. 18 1.1 tnn * 19 1.1 tnn * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 tnn * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 tnn * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 tnn * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 tnn * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 tnn * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 tnn * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 tnn * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 tnn * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 tnn * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 tnn * POSSIBILITY OF SUCH DAMAGE. 30 1.1 tnn */ 31 1.1 tnn 32 1.1 tnn #include <sys/cdefs.h> 33 1.9.2.1 thorpej __KERNEL_RCSID(0, "$NetBSD: ssdfb_spi.c,v 1.9.2.1 2021/08/09 00:30:09 thorpej Exp $"); 34 1.1 tnn 35 1.1 tnn #include <sys/param.h> 36 1.1 tnn #include <sys/device.h> 37 1.1 tnn #include <sys/kernel.h> 38 1.1 tnn #include <dev/wscons/wsdisplayvar.h> 39 1.1 tnn #include <dev/rasops/rasops.h> 40 1.9.2.1 thorpej 41 1.1 tnn #include <dev/spi/spivar.h> 42 1.1 tnn #include <dev/ic/ssdfbvar.h> 43 1.6 tnn #include "opt_fdt.h" 44 1.6 tnn #ifdef FDT 45 1.6 tnn #include <dev/fdt/fdtvar.h> 46 1.9.2.1 thorpej #endif /* FDT */ 47 1.1 tnn 48 1.1 tnn struct bs_state { 49 1.1 tnn uint8_t *base; 50 1.1 tnn uint8_t *cur; 51 1.1 tnn uint8_t mask; 52 1.1 tnn }; 53 1.1 tnn 54 1.1 tnn struct ssdfb_spi_softc { 55 1.1 tnn struct ssdfb_softc sc; 56 1.1 tnn struct spi_handle *sc_sh; 57 1.6 tnn #ifdef FDT 58 1.6 tnn struct fdtbus_gpio_pin *sc_gpio_dc; 59 1.7 tnn struct fdtbus_gpio_pin *sc_gpio_res; 60 1.9.2.1 thorpej #endif /* FDT */ 61 1.1 tnn bool sc_3wiremode; 62 1.1 tnn }; 63 1.1 tnn 64 1.1 tnn static int ssdfb_spi_match(device_t, cfdata_t, void *); 65 1.1 tnn static void ssdfb_spi_attach(device_t, device_t, void *); 66 1.1 tnn 67 1.1 tnn static int ssdfb_spi_cmd_3wire(void *, uint8_t *, size_t, bool); 68 1.1 tnn static int ssdfb_spi_xfer_rect_3wire_ssd1322(void *, uint8_t, uint8_t, 69 1.1 tnn uint8_t, uint8_t, uint8_t *, size_t, bool); 70 1.1 tnn 71 1.1 tnn static int ssdfb_spi_cmd_4wire(void *, uint8_t *, size_t, bool); 72 1.1 tnn static int ssdfb_spi_xfer_rect_4wire_ssd1322(void *, uint8_t, uint8_t, 73 1.1 tnn uint8_t, uint8_t, uint8_t *, size_t, bool); 74 1.8 tnn static int ssdfb_spi_xfer_rect_4wire_ssd1353(void *, uint8_t, uint8_t, 75 1.8 tnn uint8_t, uint8_t, uint8_t *, size_t, bool); 76 1.1 tnn 77 1.1 tnn static void ssdfb_bitstream_init(struct bs_state *, uint8_t *); 78 1.1 tnn static void ssdfb_bitstream_append(struct bs_state *, uint8_t, uint8_t); 79 1.1 tnn static void ssdfb_bitstream_append_cmd(struct bs_state *, uint8_t); 80 1.1 tnn static void ssdfb_bitstream_append_data(struct bs_state *, uint8_t *, 81 1.1 tnn size_t); 82 1.1 tnn static void ssdfb_bitstream_final(struct bs_state *); 83 1.1 tnn 84 1.1 tnn CFATTACH_DECL_NEW(ssdfb_spi, sizeof(struct ssdfb_spi_softc), 85 1.1 tnn ssdfb_spi_match, ssdfb_spi_attach, NULL, NULL); 86 1.1 tnn 87 1.3 tnn static const struct device_compatible_entry compat_data[] = { 88 1.6 tnn { .compat = "solomon,ssd1306", .value = SSDFB_PRODUCT_SSD1306_GENERIC }, 89 1.6 tnn { .compat = "solomon,ssd1322", .value = SSDFB_PRODUCT_SSD1322_GENERIC }, 90 1.8 tnn { .compat = "solomon,ssd1353", .value = SSDFB_PRODUCT_SSD1353_GENERIC }, 91 1.8 tnn { .compat = "dep160128a", .value = SSDFB_PRODUCT_DEP_160128A_RGB }, 92 1.5 thorpej DEVICE_COMPAT_EOL 93 1.3 tnn }; 94 1.3 tnn 95 1.1 tnn static int 96 1.1 tnn ssdfb_spi_match(device_t parent, cfdata_t match, void *aux) 97 1.1 tnn { 98 1.1 tnn struct spi_attach_args *sa = aux; 99 1.3 tnn 100 1.9.2.1 thorpej return spi_compatible_match(sa, match, compat_data); 101 1.9.2.1 thorpej } 102 1.1 tnn 103 1.9.2.1 thorpej #ifdef FDT 104 1.9.2.1 thorpej static void 105 1.9.2.1 thorpej ssdfb_spi_gpio_fdt(struct ssdfb_spi_softc *sc) 106 1.9.2.1 thorpej { 107 1.9.2.1 thorpej devhandle_t devhandle = device_handle(sc->sc.sc_dev); 108 1.9.2.1 thorpej int phandle = devhandle_to_of(devhandle); 109 1.1 tnn 110 1.9.2.1 thorpej sc->sc_gpio_dc = fdtbus_gpio_acquire(phandle, "dc-gpio", 111 1.9.2.1 thorpej GPIO_PIN_OUTPUT); 112 1.9.2.1 thorpej if (sc->sc_gpio_dc == NULL) { 113 1.9.2.1 thorpej sc->sc_gpio_dc = fdtbus_gpio_acquire(phandle, "cd-gpio", 114 1.9.2.1 thorpej GPIO_PIN_OUTPUT); 115 1.9.2.1 thorpej } 116 1.9.2.1 thorpej if (sc->sc_gpio_dc != NULL) { 117 1.9.2.1 thorpej sc->sc_3wiremode = false; 118 1.9.2.1 thorpej } 119 1.9.2.1 thorpej 120 1.9.2.1 thorpej sc->sc_gpio_res = fdtbus_gpio_acquire(phandle, "res-gpio", 121 1.9.2.1 thorpej GPIO_PIN_OUTPUT); 122 1.9.2.1 thorpej if (sc->sc_gpio_res) { 123 1.9.2.1 thorpej fdtbus_gpio_write_raw(sc->sc_gpio_res, 0); 124 1.9.2.1 thorpej DELAY(100); 125 1.9.2.1 thorpej fdtbus_gpio_write_raw(sc->sc_gpio_res, 1); 126 1.9.2.1 thorpej DELAY(100); 127 1.9.2.1 thorpej } 128 1.1 tnn } 129 1.9.2.1 thorpej #endif /* FDT */ 130 1.1 tnn 131 1.1 tnn static void 132 1.1 tnn ssdfb_spi_attach(device_t parent, device_t self, void *aux) 133 1.1 tnn { 134 1.1 tnn struct ssdfb_spi_softc *sc = device_private(self); 135 1.9.2.1 thorpej devhandle_t devhandle = device_handle(self); 136 1.1 tnn struct cfdata *cf = device_cfdata(self); 137 1.1 tnn struct spi_attach_args *sa = aux; 138 1.1 tnn int flags = cf->cf_flags; 139 1.9.2.1 thorpej int error; 140 1.1 tnn 141 1.1 tnn sc->sc.sc_dev = self; 142 1.1 tnn sc->sc_sh = sa->sa_handle; 143 1.1 tnn sc->sc.sc_cookie = (void *)sc; 144 1.9.2.1 thorpej 145 1.9.2.1 thorpej /* 146 1.9.2.1 thorpej * SSD1306 and SSD1322 data sheets specify 100ns cycle time. 147 1.9.2.1 thorpej */ 148 1.9.2.1 thorpej error = spi_configure(sa->sa_handle, SPI_MODE_0, 10000000); 149 1.9.2.1 thorpej if (error) { 150 1.9.2.1 thorpej aprint_error(": spi_configure failed (error = %d)\n", 151 1.9.2.1 thorpej error); 152 1.9.2.1 thorpej return; 153 1.9.2.1 thorpej } 154 1.9.2.1 thorpej 155 1.6 tnn if ((flags & SSDFB_ATTACH_FLAG_PRODUCT_MASK) == SSDFB_PRODUCT_UNKNOWN) { 156 1.6 tnn const struct device_compatible_entry *dce = 157 1.9.2.1 thorpej device_compatible_lookup(sa->sa_compat, sa->sa_ncompat, 158 1.9.2.1 thorpej compat_data); 159 1.6 tnn if (dce) 160 1.6 tnn flags |= (int)dce->value; 161 1.6 tnn else 162 1.6 tnn flags |= SSDFB_PRODUCT_SSD1322_GENERIC; 163 1.6 tnn } 164 1.9.2.1 thorpej 165 1.1 tnn /* 166 1.1 tnn * Note on interface modes. 167 1.1 tnn * 168 1.1 tnn * 3 wire mode sends 9 bit sequences over the MOSI, MSB contains 169 1.1 tnn * the bit that determines if the lower 8 bits are command or data. 170 1.1 tnn * 171 1.1 tnn * 4 wire mode sends 8 bit sequences and requires an auxiliary GPIO 172 1.6 tnn * pin for the command/data bit. 173 1.9.2.1 thorpej * 174 1.9.2.1 thorpej * Default to 3 wire mode. If the device tree specifies a 175 1.9.2.1 thorpej * D/C GPIO pin, then we will use 4 wire mode. 176 1.1 tnn */ 177 1.9.2.1 thorpej sc->sc_3wiremode = true; 178 1.9.2.1 thorpej switch (devhandle_type(devhandle)) { 179 1.6 tnn #ifdef FDT 180 1.9.2.1 thorpej case DEVHANDLE_TYPE_OF: 181 1.9.2.1 thorpej ssdfb_spi_gpio_fdt(sc); 182 1.9.2.1 thorpej break; 183 1.9.2.1 thorpej #endif /* FDT */ 184 1.9.2.1 thorpej default: 185 1.9.2.1 thorpej break; 186 1.7 tnn } 187 1.1 tnn 188 1.8 tnn sc->sc.sc_cmd = sc->sc_3wiremode 189 1.8 tnn ? ssdfb_spi_cmd_3wire 190 1.8 tnn : ssdfb_spi_cmd_4wire; 191 1.8 tnn 192 1.1 tnn switch (flags & SSDFB_ATTACH_FLAG_PRODUCT_MASK) { 193 1.1 tnn case SSDFB_PRODUCT_SSD1322_GENERIC: 194 1.8 tnn sc->sc.sc_transfer_rect = sc->sc_3wiremode 195 1.8 tnn ? ssdfb_spi_xfer_rect_3wire_ssd1322 196 1.8 tnn : ssdfb_spi_xfer_rect_4wire_ssd1322; 197 1.8 tnn break; 198 1.8 tnn case SSDFB_PRODUCT_SSD1353_GENERIC: 199 1.8 tnn case SSDFB_PRODUCT_DEP_160128A_RGB: 200 1.8 tnn sc->sc.sc_transfer_rect = sc->sc_3wiremode 201 1.8 tnn ? NULL /* not supported here */ 202 1.8 tnn : ssdfb_spi_xfer_rect_4wire_ssd1353; 203 1.1 tnn break; 204 1.1 tnn } 205 1.8 tnn 206 1.8 tnn if (!sc->sc.sc_transfer_rect) { 207 1.8 tnn aprint_error(": sc_transfer_rect not implemented\n"); 208 1.8 tnn return; 209 1.1 tnn } 210 1.6 tnn 211 1.1 tnn ssdfb_attach(&sc->sc, flags); 212 1.1 tnn 213 1.8 tnn aprint_normal_dev(self, "%d-wire SPI interface\n", 214 1.1 tnn sc->sc_3wiremode == true ? 3 : 4); 215 1.1 tnn } 216 1.1 tnn 217 1.1 tnn static int 218 1.1 tnn ssdfb_spi_cmd_3wire(void *cookie, uint8_t *cmd, size_t len, bool usepoll) 219 1.1 tnn { 220 1.1 tnn struct ssdfb_spi_softc *sc = (struct ssdfb_spi_softc *)cookie; 221 1.1 tnn uint8_t bitstream[16 * 9 / 8]; 222 1.1 tnn struct bs_state s; 223 1.1 tnn 224 1.1 tnn KASSERT(len > 0 && len <= 16); 225 1.1 tnn ssdfb_bitstream_init(&s, bitstream); 226 1.1 tnn ssdfb_bitstream_append_cmd(&s, *cmd); 227 1.1 tnn cmd++; 228 1.1 tnn len--; 229 1.1 tnn ssdfb_bitstream_append_data(&s, cmd, len); 230 1.1 tnn ssdfb_bitstream_final(&s); 231 1.1 tnn 232 1.1 tnn return spi_send(sc->sc_sh, s.cur - s.base, bitstream); 233 1.1 tnn } 234 1.1 tnn 235 1.1 tnn static int 236 1.1 tnn ssdfb_spi_xfer_rect_3wire_ssd1322(void *cookie, uint8_t fromcol, uint8_t tocol, 237 1.1 tnn uint8_t fromrow, uint8_t torow, uint8_t *p, size_t stride, bool usepoll) 238 1.1 tnn { 239 1.1 tnn struct ssdfb_spi_softc *sc = (struct ssdfb_spi_softc *)cookie; 240 1.1 tnn uint8_t bitstream[128 * 9 / 8]; 241 1.1 tnn struct bs_state s; 242 1.1 tnn uint8_t row; 243 1.1 tnn size_t rlen = (tocol + 1 - fromcol) * 2; 244 1.1 tnn int error; 245 1.1 tnn 246 1.1 tnn /* 247 1.1 tnn * Unlike iic(4), there is no way to force spi(4) to use polling. 248 1.1 tnn */ 249 1.2 tnn if (usepoll && !cold) 250 1.1 tnn return 0; 251 1.1 tnn 252 1.1 tnn ssdfb_bitstream_init(&s, bitstream); 253 1.1 tnn ssdfb_bitstream_append_cmd(&s, SSD1322_CMD_SET_ROW_ADDRESS); 254 1.1 tnn ssdfb_bitstream_append_data(&s, &fromrow, 1); 255 1.1 tnn ssdfb_bitstream_append_data(&s, &torow, 1); 256 1.1 tnn ssdfb_bitstream_append_cmd(&s, SSD1322_CMD_SET_COLUMN_ADDRESS); 257 1.1 tnn ssdfb_bitstream_append_data(&s, &fromcol, 1); 258 1.1 tnn ssdfb_bitstream_append_data(&s, &tocol, 1); 259 1.1 tnn ssdfb_bitstream_append_cmd(&s, SSD1322_CMD_WRITE_RAM); 260 1.1 tnn ssdfb_bitstream_final(&s); 261 1.1 tnn error = spi_send(sc->sc_sh, s.cur - s.base, bitstream); 262 1.1 tnn if (error) 263 1.1 tnn return error; 264 1.1 tnn 265 1.1 tnn KASSERT(rlen <= 128); 266 1.1 tnn for (row = fromrow; row <= torow; row++) { 267 1.1 tnn ssdfb_bitstream_init(&s, bitstream); 268 1.1 tnn ssdfb_bitstream_append_data(&s, p, rlen); 269 1.1 tnn ssdfb_bitstream_final(&s); 270 1.1 tnn error = spi_send(sc->sc_sh, s.cur - s.base, bitstream); 271 1.1 tnn if (error) 272 1.1 tnn return error; 273 1.1 tnn p += stride; 274 1.1 tnn } 275 1.1 tnn 276 1.1 tnn return 0; 277 1.1 tnn } 278 1.1 tnn 279 1.1 tnn static void 280 1.1 tnn ssdfb_bitstream_init(struct bs_state *s, uint8_t *dst) 281 1.1 tnn { 282 1.1 tnn s->base = s->cur = dst; 283 1.1 tnn s->mask = 0x80; 284 1.1 tnn } 285 1.1 tnn 286 1.1 tnn static void 287 1.1 tnn ssdfb_bitstream_append(struct bs_state *s, uint8_t b, uint8_t srcmask) 288 1.1 tnn { 289 1.1 tnn while(srcmask) { 290 1.1 tnn if (b & srcmask) 291 1.1 tnn *s->cur |= s->mask; 292 1.1 tnn else 293 1.1 tnn *s->cur &= ~s->mask; 294 1.1 tnn srcmask >>= 1; 295 1.1 tnn s->mask >>= 1; 296 1.1 tnn if (!s->mask) { 297 1.1 tnn s->mask = 0x80; 298 1.1 tnn s->cur++; 299 1.1 tnn } 300 1.1 tnn } 301 1.1 tnn } 302 1.1 tnn 303 1.1 tnn static void 304 1.1 tnn ssdfb_bitstream_append_cmd(struct bs_state *s, uint8_t cmd) 305 1.1 tnn { 306 1.1 tnn ssdfb_bitstream_append(s, 0, 1); 307 1.1 tnn ssdfb_bitstream_append(s, cmd, 0x80); 308 1.1 tnn } 309 1.1 tnn 310 1.1 tnn static void 311 1.1 tnn ssdfb_bitstream_append_data(struct bs_state *s, uint8_t *data, size_t len) 312 1.1 tnn { 313 1.1 tnn while(len--) { 314 1.1 tnn ssdfb_bitstream_append(s, 1, 1); 315 1.1 tnn ssdfb_bitstream_append(s, *data++, 0x80); 316 1.1 tnn } 317 1.1 tnn } 318 1.1 tnn 319 1.1 tnn static void 320 1.1 tnn ssdfb_bitstream_final(struct bs_state *s) 321 1.1 tnn { 322 1.1 tnn uint8_t padding_cmd = SSD1322_CMD_WRITE_RAM; 323 1.1 tnn /* padding_cmd = SSDFB_NOP_CMD; */ 324 1.1 tnn 325 1.1 tnn while (s->mask != 0x80) { 326 1.1 tnn ssdfb_bitstream_append_cmd(s, padding_cmd); 327 1.1 tnn } 328 1.1 tnn } 329 1.1 tnn 330 1.1 tnn static void 331 1.1 tnn ssdfb_spi_4wire_set_dc(struct ssdfb_spi_softc *sc, int value) 332 1.1 tnn { 333 1.9.2.1 thorpej /* TODO: refactor this if we ever support more that just FDT. */ 334 1.9.2.1 thorpej 335 1.6 tnn #ifdef FDT 336 1.9.2.1 thorpej KASSERT(sc->sc_gpio_dc != NULL); 337 1.9.2.1 thorpej fdtbus_gpio_write(sc->sc_dc_gpio, value); 338 1.6 tnn #else 339 1.9.2.1 thorpej /* TODO: this should toggle an auxilliary GPIO pin */ 340 1.1 tnn panic("ssdfb_spi_4wire_set_dc"); 341 1.9.2.1 thorpej #endif /* FDT */ 342 1.1 tnn } 343 1.1 tnn 344 1.1 tnn static int 345 1.1 tnn ssdfb_spi_cmd_4wire(void *cookie, uint8_t *cmd, size_t len, bool usepoll) 346 1.1 tnn { 347 1.1 tnn struct ssdfb_spi_softc *sc = (struct ssdfb_spi_softc *)cookie; 348 1.1 tnn int error; 349 1.1 tnn 350 1.1 tnn ssdfb_spi_4wire_set_dc(sc, 0); 351 1.1 tnn error = spi_send(sc->sc_sh, 1, cmd); 352 1.1 tnn if (error) 353 1.1 tnn return error; 354 1.1 tnn if (len > 1) { 355 1.1 tnn ssdfb_spi_4wire_set_dc(sc, 1); 356 1.1 tnn len--; 357 1.1 tnn cmd++; 358 1.1 tnn error = spi_send(sc->sc_sh, len, cmd); 359 1.1 tnn if (error) 360 1.1 tnn return error; 361 1.1 tnn } 362 1.1 tnn 363 1.1 tnn return 0; 364 1.1 tnn } 365 1.1 tnn 366 1.1 tnn static int 367 1.1 tnn ssdfb_spi_xfer_rect_4wire_ssd1322(void *cookie, uint8_t fromcol, uint8_t tocol, 368 1.1 tnn uint8_t fromrow, uint8_t torow, uint8_t *p, size_t stride, bool usepoll) 369 1.1 tnn { 370 1.1 tnn struct ssdfb_spi_softc *sc = (struct ssdfb_spi_softc *)cookie; 371 1.1 tnn uint8_t row; 372 1.1 tnn size_t rlen = (tocol + 1 - fromcol) * 2; 373 1.1 tnn int error; 374 1.1 tnn uint8_t cmd; 375 1.1 tnn uint8_t data[2]; 376 1.1 tnn 377 1.1 tnn /* 378 1.1 tnn * Unlike iic(4), there is no way to force spi(4) to use polling. 379 1.1 tnn */ 380 1.2 tnn if (usepoll && !cold) 381 1.1 tnn return 0; 382 1.1 tnn 383 1.1 tnn ssdfb_spi_4wire_set_dc(sc, 0); 384 1.1 tnn cmd = SSD1322_CMD_SET_ROW_ADDRESS; 385 1.1 tnn error = spi_send(sc->sc_sh, sizeof(cmd), &cmd); 386 1.1 tnn if (error) 387 1.1 tnn return error; 388 1.1 tnn ssdfb_spi_4wire_set_dc(sc, 1); 389 1.1 tnn data[0] = fromrow; 390 1.1 tnn data[1] = torow; 391 1.1 tnn error = spi_send(sc->sc_sh, sizeof(data), data); 392 1.1 tnn if (error) 393 1.1 tnn return error; 394 1.1 tnn 395 1.1 tnn ssdfb_spi_4wire_set_dc(sc, 0); 396 1.1 tnn cmd = SSD1322_CMD_SET_COLUMN_ADDRESS; 397 1.1 tnn error = spi_send(sc->sc_sh, sizeof(cmd), &cmd); 398 1.1 tnn if (error) 399 1.1 tnn return error; 400 1.1 tnn ssdfb_spi_4wire_set_dc(sc, 1); 401 1.1 tnn data[0] = fromcol; 402 1.1 tnn data[1] = tocol; 403 1.1 tnn error = spi_send(sc->sc_sh, sizeof(data), data); 404 1.1 tnn if (error) 405 1.1 tnn return error; 406 1.1 tnn 407 1.1 tnn ssdfb_spi_4wire_set_dc(sc, 0); 408 1.1 tnn cmd = SSD1322_CMD_WRITE_RAM; 409 1.1 tnn error = spi_send(sc->sc_sh, sizeof(cmd), &cmd); 410 1.1 tnn if (error) 411 1.1 tnn return error; 412 1.1 tnn 413 1.1 tnn ssdfb_spi_4wire_set_dc(sc, 1); 414 1.1 tnn for (row = fromrow; row <= torow; row++) { 415 1.1 tnn error = spi_send(sc->sc_sh, rlen, p); 416 1.1 tnn if (error) 417 1.1 tnn return error; 418 1.1 tnn p += stride; 419 1.1 tnn } 420 1.1 tnn 421 1.1 tnn return 0; 422 1.1 tnn } 423 1.8 tnn 424 1.8 tnn static int 425 1.8 tnn ssdfb_spi_xfer_rect_4wire_ssd1353(void *cookie, uint8_t fromcol, uint8_t tocol, 426 1.8 tnn uint8_t fromrow, uint8_t torow, uint8_t *p, size_t stride, bool usepoll) 427 1.8 tnn { 428 1.8 tnn struct ssdfb_spi_softc *sc = (struct ssdfb_spi_softc *)cookie; 429 1.8 tnn uint8_t row; 430 1.8 tnn size_t rlen = (tocol + 1 - fromcol) * 3; 431 1.8 tnn uint8_t bitstream[160 * 3]; 432 1.8 tnn uint8_t *dstp, *srcp, *endp; 433 1.8 tnn int error; 434 1.8 tnn uint8_t cmd; 435 1.8 tnn uint8_t data[2]; 436 1.8 tnn 437 1.8 tnn /* 438 1.8 tnn * Unlike iic(4), there is no way to force spi(4) to use polling. 439 1.8 tnn */ 440 1.8 tnn if (usepoll && !cold) 441 1.8 tnn return 0; 442 1.8 tnn 443 1.8 tnn ssdfb_spi_4wire_set_dc(sc, 0); 444 1.9 tnn cmd = SSD1353_CMD_SET_ROW_ADDRESS; 445 1.8 tnn error = spi_send(sc->sc_sh, sizeof(cmd), &cmd); 446 1.8 tnn if (error) 447 1.8 tnn return error; 448 1.8 tnn ssdfb_spi_4wire_set_dc(sc, 1); 449 1.8 tnn data[0] = fromrow; 450 1.8 tnn data[1] = torow; 451 1.8 tnn if (sc->sc.sc_upsidedown) { 452 1.8 tnn /* fix picture outside frame on 160x128 panel */ 453 1.8 tnn data[0] += 132 - sc->sc.sc_p->p_height; 454 1.8 tnn data[1] += 132 - sc->sc.sc_p->p_height; 455 1.8 tnn } 456 1.8 tnn error = spi_send(sc->sc_sh, sizeof(data), data); 457 1.8 tnn if (error) 458 1.8 tnn return error; 459 1.8 tnn 460 1.8 tnn ssdfb_spi_4wire_set_dc(sc, 0); 461 1.9 tnn cmd = SSD1353_CMD_SET_COLUMN_ADDRESS; 462 1.8 tnn error = spi_send(sc->sc_sh, sizeof(cmd), &cmd); 463 1.8 tnn if (error) 464 1.8 tnn return error; 465 1.8 tnn ssdfb_spi_4wire_set_dc(sc, 1); 466 1.8 tnn data[0] = fromcol; 467 1.8 tnn data[1] = tocol; 468 1.8 tnn error = spi_send(sc->sc_sh, sizeof(data), data); 469 1.8 tnn if (error) 470 1.8 tnn return error; 471 1.8 tnn 472 1.8 tnn ssdfb_spi_4wire_set_dc(sc, 0); 473 1.9 tnn cmd = SSD1353_CMD_WRITE_RAM; 474 1.8 tnn error = spi_send(sc->sc_sh, sizeof(cmd), &cmd); 475 1.8 tnn if (error) 476 1.8 tnn return error; 477 1.8 tnn 478 1.8 tnn ssdfb_spi_4wire_set_dc(sc, 1); 479 1.8 tnn KASSERT(rlen <= sizeof(bitstream)); 480 1.8 tnn for (row = fromrow; row <= torow; row++) { 481 1.8 tnn /* downconvert each row from 32bpp rgba to 18bpp panel format */ 482 1.8 tnn dstp = bitstream; 483 1.8 tnn endp = dstp + rlen; 484 1.8 tnn srcp = p; 485 1.8 tnn while (dstp < endp) { 486 1.8 tnn *dstp++ = (*srcp++) >> 2; 487 1.8 tnn *dstp++ = (*srcp++) >> 2; 488 1.8 tnn *dstp++ = (*srcp++) >> 2; 489 1.8 tnn srcp++; 490 1.8 tnn } 491 1.8 tnn error = spi_send(sc->sc_sh, rlen, bitstream); 492 1.8 tnn if (error) 493 1.8 tnn return error; 494 1.8 tnn p += stride; 495 1.8 tnn } 496 1.8 tnn 497 1.8 tnn return 0; 498 1.8 tnn } 499
Indexes created Tue Sep 30 20:09:53 GMT 2025