hd44780_subr.c revision 1.9
1 1.9 jmmv /* $NetBSD: hd44780_subr.c,v 1.9 2006/04/12 19:38:23 jmmv Exp $ */ 2 1.1 soren 3 1.1 soren /* 4 1.1 soren * Copyright (c) 2002 Dennis I. Chernoivanov 5 1.1 soren * All rights reserved. 6 1.1 soren * 7 1.1 soren * Redistribution and use in source and binary forms, with or without 8 1.1 soren * modification, are permitted provided that the following conditions 9 1.1 soren * are met: 10 1.1 soren * 1. Redistributions of source code must retain the above copyright 11 1.1 soren * notice, this list of conditions and the following disclaimer. 12 1.1 soren * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 soren * notice, this list of conditions and the following disclaimer in the 14 1.1 soren * documentation and/or other materials provided with the distribution. 15 1.1 soren * 3. The name of the author may not be used to endorse or promote products 16 1.1 soren * derived from this software without specific prior written permission 17 1.1 soren * 18 1.1 soren * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 19 1.1 soren * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 20 1.1 soren * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 21 1.1 soren * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 22 1.1 soren * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 23 1.1 soren * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 24 1.1 soren * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 25 1.1 soren * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 26 1.1 soren * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 27 1.1 soren * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 28 1.1 soren */ 29 1.1 soren 30 1.1 soren /* 31 1.1 soren * Subroutines for Hitachi HD44870 style displays 32 1.1 soren */ 33 1.1 soren 34 1.1 soren #include <sys/cdefs.h> 35 1.9 jmmv __KERNEL_RCSID(0, "$NetBSD: hd44780_subr.c,v 1.9 2006/04/12 19:38:23 jmmv Exp $"); 36 1.1 soren 37 1.1 soren #include <sys/param.h> 38 1.1 soren #include <sys/systm.h> 39 1.1 soren #include <sys/conf.h> 40 1.1 soren #include <sys/kernel.h> 41 1.5 joff #include <sys/malloc.h> 42 1.1 soren #include <sys/types.h> 43 1.1 soren #include <sys/ioccom.h> 44 1.1 soren 45 1.1 soren #include <machine/autoconf.h> 46 1.1 soren #include <machine/intr.h> 47 1.1 soren #include <machine/bus.h> 48 1.1 soren 49 1.5 joff #include <uvm/uvm_extern.h> 50 1.5 joff 51 1.5 joff #include <dev/wscons/wsdisplayvar.h> 52 1.5 joff #include <dev/wscons/wsconsio.h> 53 1.5 joff #include <dev/wscons/wscons_callbacks.h> 54 1.5 joff 55 1.1 soren #include <dev/ic/hd44780reg.h> 56 1.4 joff #include <dev/ic/hd44780var.h> 57 1.1 soren 58 1.5 joff #define COORD_TO_IDX(x, y) ((y) * sc->sc_cols + (x)) 59 1.5 joff #define COORD_TO_DADDR(x, y) ((y) * HD_ROW2_ADDR + (x)) 60 1.7 joff #define IDX_TO_ROW(idx) ((idx) / sc->sc_cols) 61 1.7 joff #define IDX_TO_COL(idx) ((idx) % sc->sc_cols) 62 1.7 joff #define IDX_TO_DADDR(idx) (IDX_TO_ROW((idx)) * HD_ROW2_ADDR + \ 63 1.7 joff IDX_TO_COL((idx))) 64 1.7 joff #define DADDR_TO_ROW(daddr) ((daddr) / HD_ROW2_ADDR) 65 1.7 joff #define DADDR_TO_COL(daddr) ((daddr) % HD_ROW2_ADDR) 66 1.7 joff #define DADDR_TO_CHIPDADDR(daddr) ((daddr) % (HD_ROW2_ADDR * 2)) 67 1.7 joff #define DADDR_TO_CHIPNO(daddr) ((daddr) / (HD_ROW2_ADDR * 2)) 68 1.5 joff 69 1.5 joff static void hlcd_cursor(void *, int, int, int); 70 1.5 joff static int hlcd_mapchar(void *, int, unsigned int *); 71 1.5 joff static void hlcd_putchar(void *, int, int, u_int, long); 72 1.5 joff static void hlcd_copycols(void *, int, int, int,int); 73 1.5 joff static void hlcd_erasecols(void *, int, int, int, long); 74 1.5 joff static void hlcd_copyrows(void *, int, int, int); 75 1.5 joff static void hlcd_eraserows(void *, int, int, long); 76 1.5 joff static int hlcd_allocattr(void *, int, int, int, long *); 77 1.5 joff static void hlcd_updatechar(struct hd44780_chip *, int, int); 78 1.5 joff static void hlcd_redraw(void *); 79 1.5 joff 80 1.5 joff const struct wsdisplay_emulops hlcd_emulops = { 81 1.5 joff hlcd_cursor, 82 1.5 joff hlcd_mapchar, 83 1.5 joff hlcd_putchar, 84 1.5 joff hlcd_copycols, 85 1.5 joff hlcd_erasecols, 86 1.5 joff hlcd_copyrows, 87 1.5 joff hlcd_eraserows, 88 1.5 joff hlcd_allocattr 89 1.5 joff }; 90 1.5 joff 91 1.9 jmmv static int hlcd_ioctl(void *, void *, u_long, caddr_t, int, struct lwp *); 92 1.9 jmmv static paddr_t hlcd_mmap(void *, void *, off_t, int); 93 1.5 joff static int hlcd_alloc_screen(void *, const struct wsscreen_descr *, 94 1.5 joff void **, int *, int *, long *); 95 1.5 joff static void hlcd_free_screen(void *, void *); 96 1.5 joff static int hlcd_show_screen(void *, void *, int, 97 1.5 joff void (*) (void *, int, int), void *); 98 1.5 joff 99 1.5 joff const struct wsdisplay_accessops hlcd_accessops = { 100 1.5 joff hlcd_ioctl, 101 1.5 joff hlcd_mmap, 102 1.5 joff hlcd_alloc_screen, 103 1.5 joff hlcd_free_screen, 104 1.5 joff hlcd_show_screen, 105 1.5 joff 0 /* load_font */ 106 1.5 joff }; 107 1.5 joff 108 1.5 joff static void 109 1.5 joff hlcd_cursor(id, on, row, col) 110 1.5 joff void *id; 111 1.5 joff int on, row, col; 112 1.5 joff { 113 1.5 joff struct hlcd_screen *hdscr = id; 114 1.5 joff 115 1.5 joff hdscr->hlcd_curon = on; 116 1.5 joff hdscr->hlcd_curx = col; 117 1.5 joff hdscr->hlcd_cury = row; 118 1.5 joff } 119 1.5 joff 120 1.5 joff static int 121 1.5 joff hlcd_mapchar(id, uni, index) 122 1.5 joff void *id; 123 1.5 joff int uni; 124 1.5 joff unsigned int *index; 125 1.5 joff { 126 1.5 joff if (uni < 256) { 127 1.5 joff *index = uni; 128 1.5 joff return (5); 129 1.5 joff } 130 1.5 joff *index = ' '; 131 1.5 joff return (0); 132 1.5 joff } 133 1.5 joff 134 1.5 joff static void 135 1.5 joff hlcd_putchar(id, row, col, c, attr) 136 1.5 joff void *id; 137 1.5 joff int row, col; 138 1.5 joff u_int c; 139 1.5 joff long attr; 140 1.5 joff { 141 1.5 joff struct hlcd_screen *hdscr = id; 142 1.6 perry 143 1.5 joff c &= 0xff; 144 1.7 joff if (row > 0 && (hdscr->hlcd_sc->sc_flags & (HD_MULTILINE|HD_MULTICHIP))) 145 1.5 joff hdscr->image[hdscr->hlcd_sc->sc_cols * row + col] = c; 146 1.5 joff else 147 1.5 joff hdscr->image[col] = c; 148 1.5 joff } 149 1.5 joff 150 1.5 joff /* 151 1.5 joff * copies columns inside a row. 152 1.5 joff */ 153 1.5 joff static void 154 1.5 joff hlcd_copycols(id, row, srccol, dstcol, ncols) 155 1.5 joff void *id; 156 1.5 joff int row, srccol, dstcol, ncols; 157 1.5 joff { 158 1.5 joff struct hlcd_screen *hdscr = id; 159 1.5 joff 160 1.5 joff if ((dstcol + ncols - 1) > hdscr->hlcd_sc->sc_cols) 161 1.5 joff ncols = hdscr->hlcd_sc->sc_cols - srccol; 162 1.5 joff 163 1.7 joff if (row > 0 && (hdscr->hlcd_sc->sc_flags & (HD_MULTILINE|HD_MULTICHIP))) 164 1.5 joff bcopy(&hdscr->image[hdscr->hlcd_sc->sc_cols * row + srccol], 165 1.5 joff &hdscr->image[hdscr->hlcd_sc->sc_cols * row + dstcol], ncols); 166 1.5 joff else 167 1.5 joff bcopy(&hdscr->image[srccol], &hdscr->image[dstcol], ncols); 168 1.5 joff } 169 1.5 joff 170 1.5 joff 171 1.5 joff /* 172 1.5 joff * Erases a bunch of chars inside one row. 173 1.5 joff */ 174 1.5 joff static void 175 1.5 joff hlcd_erasecols(id, row, startcol, ncols, fillattr) 176 1.5 joff void *id; 177 1.5 joff int row, startcol, ncols; 178 1.5 joff long fillattr; 179 1.5 joff { 180 1.5 joff struct hlcd_screen *hdscr = id; 181 1.5 joff 182 1.5 joff if ((startcol + ncols) > hdscr->hlcd_sc->sc_cols) 183 1.5 joff ncols = hdscr->hlcd_sc->sc_cols - startcol; 184 1.5 joff 185 1.7 joff if (row > 0 && (hdscr->hlcd_sc->sc_flags & (HD_MULTILINE|HD_MULTICHIP))) 186 1.6 perry memset(&hdscr->image[hdscr->hlcd_sc->sc_cols * row + startcol], 187 1.5 joff ' ', ncols); 188 1.5 joff else 189 1.5 joff memset(&hdscr->image[startcol], ' ', ncols); 190 1.5 joff } 191 1.5 joff 192 1.5 joff 193 1.5 joff static void 194 1.5 joff hlcd_copyrows(id, srcrow, dstrow, nrows) 195 1.5 joff void *id; 196 1.5 joff int srcrow, dstrow, nrows; 197 1.5 joff { 198 1.5 joff struct hlcd_screen *hdscr = id; 199 1.5 joff int ncols = hdscr->hlcd_sc->sc_cols; 200 1.6 perry 201 1.7 joff if (!(hdscr->hlcd_sc->sc_flags & (HD_MULTILINE|HD_MULTICHIP))) 202 1.5 joff return; 203 1.5 joff bcopy(&hdscr->image[srcrow * ncols], &hdscr->image[dstrow * ncols], 204 1.5 joff nrows * ncols); 205 1.5 joff } 206 1.5 joff 207 1.5 joff static void 208 1.5 joff hlcd_eraserows(id, startrow, nrows, fillattr) 209 1.5 joff void *id; 210 1.5 joff int startrow, nrows; 211 1.5 joff long fillattr; 212 1.5 joff { 213 1.5 joff struct hlcd_screen *hdscr = id; 214 1.5 joff int ncols = hdscr->hlcd_sc->sc_cols; 215 1.5 joff 216 1.5 joff memset(&hdscr->image[startrow * ncols], ' ', ncols * nrows); 217 1.5 joff } 218 1.5 joff 219 1.5 joff 220 1.5 joff static int 221 1.5 joff hlcd_allocattr(id, fg, bg, flags, attrp) 222 1.5 joff void *id; 223 1.5 joff int fg, bg, flags; 224 1.5 joff long *attrp; 225 1.5 joff { 226 1.5 joff *attrp = flags; 227 1.5 joff return 0; 228 1.5 joff } 229 1.5 joff 230 1.5 joff static int 231 1.9 jmmv hlcd_ioctl(v, vs, cmd, data, flag, l) 232 1.5 joff void *v; 233 1.9 jmmv void *vs; 234 1.5 joff u_long cmd; 235 1.5 joff caddr_t data; 236 1.5 joff int flag; 237 1.8 christos struct lwp *l; 238 1.5 joff { 239 1.5 joff 240 1.5 joff switch (cmd) { 241 1.5 joff case WSDISPLAYIO_GTYPE: 242 1.5 joff *(u_int *)data = WSDISPLAY_TYPE_HDLCD; 243 1.5 joff break; 244 1.5 joff 245 1.5 joff case WSDISPLAYIO_SVIDEO: 246 1.5 joff break; 247 1.5 joff 248 1.5 joff case WSDISPLAYIO_GVIDEO: 249 1.5 joff *(u_int *)data = WSDISPLAYIO_VIDEO_ON; 250 1.5 joff break; 251 1.5 joff 252 1.5 joff default: 253 1.5 joff return EPASSTHROUGH; 254 1.5 joff } 255 1.5 joff return 0; 256 1.5 joff } 257 1.5 joff 258 1.5 joff static paddr_t 259 1.9 jmmv hlcd_mmap(v, vs, offset, prot) 260 1.5 joff void *v; 261 1.9 jmmv void *vs; 262 1.5 joff off_t offset; 263 1.5 joff int prot; 264 1.5 joff { 265 1.5 joff return -1; 266 1.5 joff } 267 1.5 joff 268 1.5 joff static int 269 1.5 joff hlcd_alloc_screen(v, type, cookiep, curxp, curyp, defattrp) 270 1.5 joff void *v; 271 1.5 joff const struct wsscreen_descr *type; 272 1.5 joff void **cookiep; 273 1.5 joff int *curxp, *curyp; 274 1.5 joff long *defattrp; 275 1.5 joff { 276 1.5 joff struct hlcd_screen *hdscr = v, *new; 277 1.5 joff 278 1.5 joff new = *cookiep = malloc(sizeof(struct hlcd_screen), M_DEVBUF, M_WAITOK); 279 1.5 joff bzero(*cookiep, sizeof(struct hlcd_screen)); 280 1.5 joff new->hlcd_sc = hdscr->hlcd_sc; 281 1.5 joff new->image = malloc(PAGE_SIZE, M_DEVBUF, M_WAITOK); 282 1.5 joff memset(new->image, ' ', PAGE_SIZE); 283 1.5 joff *curxp = *curyp = *defattrp = 0; 284 1.5 joff return 0; 285 1.5 joff } 286 1.5 joff 287 1.5 joff static void 288 1.5 joff hlcd_free_screen(v, cookie) 289 1.5 joff void *v, *cookie; 290 1.5 joff { 291 1.5 joff } 292 1.5 joff 293 1.5 joff static int 294 1.5 joff hlcd_show_screen(v, cookie, waitok, cb, cbarg) 295 1.5 joff void *v, *cookie, *cbarg; 296 1.5 joff int waitok; 297 1.5 joff void (*cb)(void *, int, int); 298 1.5 joff { 299 1.5 joff struct hlcd_screen *hdscr = v; 300 1.5 joff 301 1.5 joff hdscr->hlcd_sc->sc_curscr = cookie; 302 1.5 joff callout_schedule(&hdscr->hlcd_sc->redraw, 1); 303 1.5 joff return (0); 304 1.5 joff } 305 1.5 joff 306 1.5 joff static void 307 1.5 joff hlcd_updatechar(sc, daddr, c) 308 1.5 joff struct hd44780_chip *sc; 309 1.5 joff int daddr, c; 310 1.5 joff { 311 1.7 joff int curdaddr, en, chipdaddr; 312 1.5 joff 313 1.5 joff curdaddr = COORD_TO_DADDR(sc->sc_screen.hlcd_curx, 314 1.5 joff sc->sc_screen.hlcd_cury); 315 1.7 joff en = DADDR_TO_CHIPNO(daddr); 316 1.7 joff chipdaddr = DADDR_TO_CHIPDADDR(daddr); 317 1.5 joff if (daddr != curdaddr) 318 1.7 joff hd44780_ir_write(sc, en, cmd_ddramset(chipdaddr)); 319 1.5 joff 320 1.7 joff hd44780_dr_write(sc, en, c); 321 1.5 joff 322 1.5 joff daddr++; 323 1.5 joff sc->sc_screen.hlcd_curx = DADDR_TO_COL(daddr); 324 1.5 joff sc->sc_screen.hlcd_cury = DADDR_TO_ROW(daddr); 325 1.5 joff } 326 1.5 joff 327 1.5 joff static void 328 1.5 joff hlcd_redraw(arg) 329 1.5 joff void *arg; 330 1.5 joff { 331 1.5 joff struct hd44780_chip *sc = arg; 332 1.5 joff int len, crsridx, startidx, x, y; 333 1.7 joff int old_en, new_en; 334 1.5 joff u_char *img, *curimg; 335 1.6 perry 336 1.5 joff if (sc->sc_curscr == NULL) 337 1.5 joff return; 338 1.5 joff 339 1.5 joff if (sc->sc_flags & HD_MULTILINE) 340 1.5 joff len = 2 * sc->sc_cols; 341 1.5 joff else 342 1.5 joff len = sc->sc_cols; 343 1.5 joff 344 1.7 joff if (sc->sc_flags & HD_MULTICHIP) 345 1.7 joff len = len * 2; 346 1.7 joff 347 1.7 joff x = sc->sc_screen.hlcd_curx; 348 1.7 joff y = sc->sc_screen.hlcd_cury; 349 1.7 joff old_en = DADDR_TO_CHIPNO(COORD_TO_DADDR(x, y)); 350 1.7 joff 351 1.5 joff img = sc->sc_screen.image; 352 1.5 joff curimg = sc->sc_curscr->image; 353 1.5 joff startidx = crsridx = 354 1.5 joff COORD_TO_IDX(sc->sc_screen.hlcd_curx, sc->sc_screen.hlcd_cury); 355 1.5 joff do { 356 1.5 joff if (img[crsridx] != curimg[crsridx]) { 357 1.7 joff hlcd_updatechar(sc, IDX_TO_DADDR(crsridx), 358 1.5 joff curimg[crsridx]); 359 1.5 joff img[crsridx] = curimg[crsridx]; 360 1.5 joff } 361 1.5 joff crsridx++; 362 1.5 joff if (crsridx == len) 363 1.5 joff crsridx = 0; 364 1.5 joff } while (crsridx != startidx); 365 1.6 perry 366 1.7 joff x = sc->sc_curscr->hlcd_curx; 367 1.7 joff y = sc->sc_curscr->hlcd_cury; 368 1.7 joff new_en = DADDR_TO_CHIPNO(COORD_TO_DADDR(x, y)); 369 1.7 joff 370 1.5 joff if (sc->sc_screen.hlcd_curx != sc->sc_curscr->hlcd_curx || 371 1.5 joff sc->sc_screen.hlcd_cury != sc->sc_curscr->hlcd_cury) { 372 1.7 joff 373 1.5 joff x = sc->sc_screen.hlcd_curx = sc->sc_curscr->hlcd_curx; 374 1.5 joff y = sc->sc_screen.hlcd_cury = sc->sc_curscr->hlcd_cury; 375 1.7 joff 376 1.7 joff hd44780_ir_write(sc, new_en, cmd_ddramset( 377 1.7 joff DADDR_TO_CHIPDADDR(COORD_TO_DADDR(x, y)))); 378 1.7 joff 379 1.7 joff } 380 1.7 joff 381 1.7 joff /* visible cursor switched to other chip */ 382 1.7 joff if (old_en != new_en && sc->sc_screen.hlcd_curon) { 383 1.7 joff hd44780_ir_write(sc, old_en, cmd_dispctl(1, 0, 0)); 384 1.7 joff hd44780_ir_write(sc, new_en, cmd_dispctl(1, 1, 1)); 385 1.5 joff } 386 1.5 joff 387 1.5 joff if (sc->sc_screen.hlcd_curon != sc->sc_curscr->hlcd_curon) { 388 1.5 joff sc->sc_screen.hlcd_curon = sc->sc_curscr->hlcd_curon; 389 1.5 joff if (sc->sc_screen.hlcd_curon) 390 1.7 joff hd44780_ir_write(sc, new_en, cmd_dispctl(1, 1, 1)); 391 1.5 joff else 392 1.7 joff hd44780_ir_write(sc, new_en, cmd_dispctl(1, 0, 0)); 393 1.5 joff } 394 1.5 joff 395 1.5 joff callout_schedule(&sc->redraw, 1); 396 1.5 joff } 397 1.5 joff 398 1.5 joff 399 1.1 soren /* 400 1.1 soren * Finish device attach. sc_writereg, sc_readreg and sc_flags must be properly 401 1.1 soren * initialized prior to this call. 402 1.1 soren */ 403 1.1 soren void 404 1.1 soren hd44780_attach_subr(sc) 405 1.1 soren struct hd44780_chip *sc; 406 1.1 soren { 407 1.3 joff int err = 0; 408 1.1 soren /* Putc/getc are supposed to be set by platform-dependent code. */ 409 1.2 joff if ((sc->sc_writereg == NULL) || (sc->sc_readreg == NULL)) 410 1.1 soren sc->sc_dev_ok = 0; 411 1.1 soren 412 1.1 soren /* Make sure that HD_MAX_CHARS is enough. */ 413 1.5 joff if ((sc->sc_flags & HD_MULTILINE) && (2 * sc->sc_cols > HD_MAX_CHARS)) 414 1.1 soren sc->sc_dev_ok = 0; 415 1.5 joff else if (sc->sc_cols > HD_MAX_CHARS) 416 1.1 soren sc->sc_dev_ok = 0; 417 1.1 soren 418 1.1 soren if (sc->sc_dev_ok) { 419 1.6 perry if ((sc->sc_flags & HD_UP) == 0) 420 1.3 joff err = hd44780_init(sc); 421 1.3 joff if (err != 0) 422 1.4 joff printf("%s: LCD not responding or unconnected\n", sc->sc_dev->dv_xname); 423 1.1 soren 424 1.1 soren } 425 1.5 joff 426 1.5 joff sc->sc_screen.hlcd_sc = sc; 427 1.6 perry 428 1.5 joff sc->sc_screen.image = malloc(PAGE_SIZE, M_DEVBUF, M_WAITOK); 429 1.5 joff memset(sc->sc_screen.image, ' ', PAGE_SIZE); 430 1.5 joff sc->sc_curscr = NULL; 431 1.7 joff sc->sc_curchip = 0; 432 1.5 joff callout_init(&sc->redraw); 433 1.5 joff callout_setfunc(&sc->redraw, hlcd_redraw, sc); 434 1.1 soren } 435 1.1 soren 436 1.7 joff int hd44780_init(sc) 437 1.7 joff struct hd44780_chip *sc; 438 1.7 joff { 439 1.7 joff int ret; 440 1.7 joff 441 1.7 joff ret = hd44780_chipinit(sc, 0); 442 1.7 joff if (ret != 0 || !(sc->sc_flags & HD_MULTICHIP)) return ret; 443 1.7 joff else return hd44780_chipinit(sc, 1); 444 1.7 joff } 445 1.7 joff 446 1.1 soren /* 447 1.1 soren * Initialize 4-bit or 8-bit connected device. 448 1.1 soren */ 449 1.3 joff int 450 1.7 joff hd44780_chipinit(sc, en) 451 1.1 soren struct hd44780_chip *sc; 452 1.7 joff u_int32_t en; 453 1.1 soren { 454 1.3 joff u_int8_t cmd, dat; 455 1.1 soren 456 1.3 joff sc->sc_flags &= ~(HD_TIMEDOUT|HD_UP); 457 1.3 joff sc->sc_dev_ok = 1; 458 1.7 joff 459 1.1 soren cmd = cmd_init(sc->sc_flags & HD_8BIT); 460 1.7 joff hd44780_ir_write(sc, en, cmd); 461 1.2 joff delay(HD_TIMEOUT_LONG); 462 1.7 joff hd44780_ir_write(sc, en, cmd); 463 1.7 joff hd44780_ir_write(sc, en, cmd); 464 1.1 soren 465 1.1 soren cmd = cmd_funcset( 466 1.1 soren sc->sc_flags & HD_8BIT, 467 1.1 soren sc->sc_flags & HD_MULTILINE, 468 1.1 soren sc->sc_flags & HD_BIGFONT); 469 1.1 soren 470 1.1 soren if ((sc->sc_flags & HD_8BIT) == 0) 471 1.7 joff hd44780_ir_write(sc, en, cmd); 472 1.1 soren 473 1.2 joff sc->sc_flags |= HD_UP; 474 1.2 joff 475 1.7 joff hd44780_ir_write(sc, en, cmd); 476 1.7 joff hd44780_ir_write(sc, en, cmd_dispctl(0, 0, 0)); 477 1.7 joff hd44780_ir_write(sc, en, cmd_clear()); 478 1.7 joff hd44780_ir_write(sc, en, cmd_modset(1, 0)); 479 1.3 joff 480 1.3 joff if (sc->sc_flags & HD_TIMEDOUT) { 481 1.3 joff sc->sc_flags &= ~HD_UP; 482 1.3 joff return EIO; 483 1.6 perry } 484 1.3 joff 485 1.3 joff /* Turn display on and clear it. */ 486 1.7 joff hd44780_ir_write(sc, en, cmd_clear()); 487 1.7 joff hd44780_ir_write(sc, en, cmd_dispctl(1, 0, 0)); 488 1.3 joff 489 1.3 joff /* Attempt a simple probe for presence */ 490 1.7 joff hd44780_ir_write(sc, en, cmd_ddramset(0x5)); 491 1.7 joff hd44780_ir_write(sc, en, cmd_shift(0, 1)); 492 1.7 joff hd44780_busy_wait(sc, en); 493 1.7 joff if ((dat = hd44780_ir_read(sc, en) & 0x7f) != 0x6) { 494 1.3 joff sc->sc_dev_ok = 0; 495 1.3 joff sc->sc_flags &= ~HD_UP; 496 1.3 joff return EIO; 497 1.3 joff } 498 1.7 joff hd44780_ir_write(sc, en, cmd_ddramset(0)); 499 1.3 joff 500 1.3 joff return 0; 501 1.1 soren } 502 1.1 soren 503 1.1 soren /* 504 1.1 soren * Standard hd44780 ioctl() functions. 505 1.1 soren */ 506 1.1 soren int 507 1.1 soren hd44780_ioctl_subr(sc, cmd, data) 508 1.1 soren struct hd44780_chip *sc; 509 1.1 soren u_long cmd; 510 1.1 soren caddr_t data; 511 1.1 soren { 512 1.1 soren u_int8_t tmp; 513 1.1 soren int error = 0; 514 1.7 joff u_int32_t en = sc->sc_curchip; 515 1.1 soren 516 1.1 soren #define hd44780_io() ((struct hd44780_io *)data) 517 1.1 soren #define hd44780_info() ((struct hd44780_info*)data) 518 1.1 soren #define hd44780_ctrl() ((struct hd44780_dispctl*)data) 519 1.1 soren 520 1.1 soren switch (cmd) { 521 1.1 soren /* Clear the LCD. */ 522 1.1 soren case HLCD_CLEAR: 523 1.7 joff hd44780_ir_write(sc, en, cmd_clear()); 524 1.1 soren break; 525 1.1 soren 526 1.1 soren /* Move the cursor one position to the left. */ 527 1.1 soren case HLCD_CURSOR_LEFT: 528 1.7 joff hd44780_ir_write(sc, en, cmd_shift(0, 0)); 529 1.1 soren break; 530 1.1 soren 531 1.1 soren /* Move the cursor one position to the right. */ 532 1.1 soren case HLCD_CURSOR_RIGHT: 533 1.7 joff hd44780_ir_write(sc, en, cmd_shift(0, 1)); 534 1.6 perry break; 535 1.1 soren 536 1.1 soren /* Control the LCD. */ 537 1.1 soren case HLCD_DISPCTL: 538 1.7 joff hd44780_ir_write(sc, en, cmd_dispctl( 539 1.1 soren hd44780_ctrl()->display_on, 540 1.1 soren hd44780_ctrl()->cursor_on, 541 1.1 soren hd44780_ctrl()->blink_on)); 542 1.1 soren break; 543 1.1 soren 544 1.1 soren /* Get LCD configuration. */ 545 1.1 soren case HLCD_GET_INFO: 546 1.1 soren hd44780_info()->lines 547 1.1 soren = (sc->sc_flags & HD_MULTILINE) ? 2 : 1; 548 1.7 joff if (sc->sc_flags & HD_MULTICHIP) 549 1.7 joff hd44780_info()->lines *= 2; 550 1.5 joff hd44780_info()->phys_rows = sc->sc_cols; 551 1.5 joff hd44780_info()->virt_rows = sc->sc_vcols; 552 1.1 soren hd44780_info()->is_wide = sc->sc_flags & HD_8BIT; 553 1.1 soren hd44780_info()->is_bigfont = sc->sc_flags & HD_BIGFONT; 554 1.1 soren hd44780_info()->kp_present = sc->sc_flags & HD_KEYPAD; 555 1.1 soren break; 556 1.1 soren 557 1.1 soren 558 1.1 soren /* Reset the LCD. */ 559 1.1 soren case HLCD_RESET: 560 1.3 joff error = hd44780_init(sc); 561 1.1 soren break; 562 1.1 soren 563 1.1 soren /* Get the current cursor position. */ 564 1.1 soren case HLCD_GET_CURSOR_POS: 565 1.7 joff hd44780_io()->dat = (hd44780_ir_read(sc, en) & 0x7f); 566 1.1 soren break; 567 1.1 soren 568 1.1 soren /* Set the cursor position. */ 569 1.1 soren case HLCD_SET_CURSOR_POS: 570 1.7 joff hd44780_ir_write(sc, en, cmd_ddramset(hd44780_io()->dat)); 571 1.1 soren break; 572 1.1 soren 573 1.1 soren /* Get the value at the current cursor position. */ 574 1.1 soren case HLCD_GETC: 575 1.7 joff tmp = (hd44780_ir_read(sc, en) & 0x7f); 576 1.7 joff hd44780_ir_write(sc, en, cmd_ddramset(tmp)); 577 1.7 joff hd44780_io()->dat = hd44780_dr_read(sc, en); 578 1.1 soren break; 579 1.1 soren 580 1.1 soren /* Set the character at the cursor position + advance cursor. */ 581 1.1 soren case HLCD_PUTC: 582 1.7 joff hd44780_dr_write(sc, en, hd44780_io()->dat); 583 1.1 soren break; 584 1.1 soren 585 1.1 soren /* Shift display left. */ 586 1.1 soren case HLCD_SHIFT_LEFT: 587 1.7 joff hd44780_ir_write(sc, en, cmd_shift(1, 0)); 588 1.1 soren break; 589 1.1 soren 590 1.1 soren /* Shift display right. */ 591 1.1 soren case HLCD_SHIFT_RIGHT: 592 1.7 joff hd44780_ir_write(sc, en, cmd_shift(1, 1)); 593 1.1 soren break; 594 1.1 soren 595 1.1 soren /* Return home. */ 596 1.1 soren case HLCD_HOME: 597 1.7 joff hd44780_ir_write(sc, en, cmd_rethome()); 598 1.1 soren break; 599 1.1 soren 600 1.1 soren /* Write a string to the LCD virtual area. */ 601 1.1 soren case HLCD_WRITE: 602 1.7 joff error = hd44780_ddram_io(sc, en, hd44780_io(), HD_DDRAM_WRITE); 603 1.6 perry break; 604 1.1 soren 605 1.1 soren /* Read LCD virtual area. */ 606 1.1 soren case HLCD_READ: 607 1.7 joff error = hd44780_ddram_io(sc, en, hd44780_io(), HD_DDRAM_READ); 608 1.1 soren break; 609 1.1 soren 610 1.1 soren /* Write to the LCD visible area. */ 611 1.1 soren case HLCD_REDRAW: 612 1.7 joff hd44780_ddram_redraw(sc, en, hd44780_io()); 613 1.1 soren break; 614 1.1 soren 615 1.1 soren /* Write raw instruction. */ 616 1.1 soren case HLCD_WRITE_INST: 617 1.7 joff hd44780_ir_write(sc, en, hd44780_io()->dat); 618 1.1 soren break; 619 1.1 soren 620 1.1 soren /* Write raw data. */ 621 1.1 soren case HLCD_WRITE_DATA: 622 1.7 joff hd44780_dr_write(sc, en, hd44780_io()->dat); 623 1.7 joff break; 624 1.7 joff 625 1.7 joff /* Get current chip 0 or 1 (top or bottom) */ 626 1.7 joff case HLCD_GET_CHIPNO: 627 1.7 joff *(u_int8_t *)data = sc->sc_curchip; 628 1.7 joff break; 629 1.7 joff 630 1.7 joff /* Set current chip 0 or 1 (top or bottom) */ 631 1.7 joff case HLCD_SET_CHIPNO: 632 1.7 joff sc->sc_curchip = *(u_int8_t *)data; 633 1.1 soren break; 634 1.1 soren 635 1.1 soren default: 636 1.1 soren error = EINVAL; 637 1.1 soren } 638 1.1 soren 639 1.3 joff if (sc->sc_flags & HD_TIMEDOUT) 640 1.3 joff error = EIO; 641 1.3 joff 642 1.1 soren return error; 643 1.1 soren } 644 1.1 soren 645 1.1 soren /* 646 1.1 soren * Read/write particular area of the LCD screen. 647 1.1 soren */ 648 1.1 soren int 649 1.7 joff hd44780_ddram_io(sc, en, io, dir) 650 1.1 soren struct hd44780_chip *sc; 651 1.7 joff u_int32_t en; 652 1.1 soren struct hd44780_io *io; 653 1.1 soren u_char dir; 654 1.1 soren { 655 1.1 soren u_int8_t hi; 656 1.1 soren u_int8_t addr; 657 1.1 soren 658 1.1 soren int error = 0; 659 1.1 soren u_int8_t i = 0; 660 1.1 soren 661 1.5 joff if (io->dat < sc->sc_vcols) { 662 1.5 joff hi = HD_ROW1_ADDR + sc->sc_vcols; 663 1.1 soren addr = HD_ROW1_ADDR + io->dat; 664 1.1 soren for (; (addr < hi) && (i < io->len); addr++, i++) { 665 1.7 joff hd44780_ir_write(sc, en, cmd_ddramset(addr)); 666 1.1 soren if (dir == HD_DDRAM_READ) 667 1.7 joff io->buf[i] = hd44780_dr_read(sc, en); 668 1.1 soren else 669 1.7 joff hd44780_dr_write(sc, en, io->buf[i]); 670 1.1 soren } 671 1.1 soren } 672 1.5 joff if (io->dat < 2 * sc->sc_vcols) { 673 1.5 joff hi = HD_ROW2_ADDR + sc->sc_vcols; 674 1.5 joff if (io->dat >= sc->sc_vcols) 675 1.5 joff addr = HD_ROW2_ADDR + io->dat - sc->sc_vcols; 676 1.1 soren else 677 1.1 soren addr = HD_ROW2_ADDR; 678 1.1 soren for (; (addr < hi) && (i < io->len); addr++, i++) { 679 1.7 joff hd44780_ir_write(sc, en, cmd_ddramset(addr)); 680 1.1 soren if (dir == HD_DDRAM_READ) 681 1.7 joff io->buf[i] = hd44780_dr_read(sc, en); 682 1.1 soren else 683 1.7 joff hd44780_dr_write(sc, en, io->buf[i]); 684 1.1 soren } 685 1.1 soren if (i < io->len) 686 1.1 soren io->len = i; 687 1.1 soren } else { 688 1.1 soren error = EINVAL; 689 1.1 soren } 690 1.1 soren return error; 691 1.1 soren } 692 1.1 soren 693 1.1 soren /* 694 1.1 soren * Write to the visible area of the display. 695 1.1 soren */ 696 1.1 soren void 697 1.7 joff hd44780_ddram_redraw(sc, en, io) 698 1.1 soren struct hd44780_chip *sc; 699 1.7 joff u_int32_t en; 700 1.1 soren struct hd44780_io *io; 701 1.1 soren { 702 1.1 soren u_int8_t i; 703 1.1 soren 704 1.7 joff hd44780_ir_write(sc, en, cmd_clear()); 705 1.7 joff hd44780_ir_write(sc, en, cmd_rethome()); 706 1.5 joff for (i = 0; (i < io->len) && (i < sc->sc_cols); i++) { 707 1.7 joff hd44780_dr_write(sc, en, io->buf[i]); 708 1.1 soren } 709 1.7 joff hd44780_ir_write(sc, en, cmd_ddramset(HD_ROW2_ADDR)); 710 1.1 soren for (; (i < io->len); i++) 711 1.7 joff hd44780_dr_write(sc, en, io->buf[i]); 712 1.1 soren } 713 1.1 soren 714 1.3 joff void 715 1.7 joff hd44780_busy_wait(sc, en) 716 1.3 joff struct hd44780_chip *sc; 717 1.7 joff u_int32_t en; 718 1.3 joff { 719 1.3 joff int nloops = 100; 720 1.3 joff 721 1.3 joff if (sc->sc_flags & HD_TIMEDOUT) 722 1.3 joff return; 723 1.3 joff 724 1.7 joff while(nloops-- && (hd44780_ir_read(sc, en) & BUSY_FLAG) == BUSY_FLAG); 725 1.3 joff 726 1.3 joff if (nloops == 0) { 727 1.3 joff sc->sc_flags |= HD_TIMEDOUT; 728 1.3 joff sc->sc_dev_ok = 0; 729 1.3 joff } 730 1.3 joff } 731 1.3 joff 732 1.1 soren #if defined(HD44780_STD_WIDE) 733 1.1 soren /* 734 1.2 joff * Standard 8-bit version of 'sc_writereg' (8-bit port, 8-bit access) 735 1.1 soren */ 736 1.1 soren void 737 1.7 joff hd44780_writereg(sc, en, reg, cmd) 738 1.2 joff struct hd44780_chip *sc; 739 1.7 joff u_int32_t en, reg; 740 1.1 soren u_int8_t cmd; 741 1.1 soren { 742 1.2 joff bus_space_tag_t iot = sc->sc_iot; 743 1.2 joff bus_space_handle_t ioh; 744 1.2 joff 745 1.3 joff if (sc->sc_dev_ok == 0) 746 1.3 joff return; 747 1.3 joff 748 1.2 joff if (reg == 0) 749 1.6 perry ioh = sc->sc_ioir; 750 1.2 joff else 751 1.2 joff ioh = sc->sc_iodr; 752 1.2 joff 753 1.1 soren bus_space_write_1(iot, ioh, 0x00, cmd); 754 1.2 joff delay(HD_TIMEOUT_NORMAL); 755 1.1 soren } 756 1.1 soren 757 1.1 soren /* 758 1.2 joff * Standard 8-bit version of 'sc_readreg' (8-bit port, 8-bit access) 759 1.1 soren */ 760 1.1 soren u_int8_t 761 1.7 joff hd44780_readreg(sc, en, reg) 762 1.2 joff struct hd44780_chip *sc; 763 1.7 joff u_int32_t en, reg; 764 1.2 joff { 765 1.2 joff bus_space_tag_t iot = sc->sc_iot; 766 1.1 soren bus_space_handle_t ioh; 767 1.2 joff 768 1.3 joff if (sc->sc_dev_ok == 0) 769 1.3 joff return; 770 1.3 joff 771 1.2 joff if (reg == 0) 772 1.6 perry ioh = sc->sc_ioir; 773 1.2 joff else 774 1.2 joff ioh = sc->sc_iodr; 775 1.2 joff 776 1.2 joff delay(HD_TIMEOUT_NORMAL); 777 1.1 soren return bus_space_read_1(iot, ioh, 0x00); 778 1.1 soren } 779 1.1 soren #elif defined(HD44780_STD_SHORT) 780 1.1 soren /* 781 1.2 joff * Standard 4-bit version of 'sc_writereg' (4-bit port, 8-bit access) 782 1.1 soren */ 783 1.1 soren void 784 1.7 joff hd44780_writereg(sc, en, reg, cmd) 785 1.2 joff struct hd44780_chip *sc; 786 1.7 joff u_int32_t en, reg; 787 1.1 soren u_int8_t cmd; 788 1.1 soren { 789 1.2 joff bus_space_tag_t iot = sc->sc_iot; 790 1.2 joff bus_space_handle_t ioh; 791 1.2 joff 792 1.3 joff if (sc->sc_dev_ok == 0) 793 1.3 joff return; 794 1.3 joff 795 1.2 joff if (reg == 0) 796 1.6 perry ioh = sc->sc_ioir; 797 1.2 joff else 798 1.2 joff ioh = sc->sc_iodr; 799 1.1 soren 800 1.1 soren bus_space_write_1(iot, ioh, 0x00, hi_bits(cmd)); 801 1.6 perry if (sc->sc_flags & HD_UP) 802 1.2 joff bus_space_write_1(iot, ioh, 0x00, lo_bits(cmd)); 803 1.2 joff delay(HD_TIMEOUT_NORMAL); 804 1.1 soren } 805 1.1 soren 806 1.1 soren /* 807 1.2 joff * Standard 4-bit version of 'sc_readreg' (4-bit port, 8-bit access) 808 1.1 soren */ 809 1.1 soren u_int8_t 810 1.7 joff hd44780_readreg(sc, en, reg) 811 1.2 joff struct hd44780_chip *sc; 812 1.7 joff u_int32_t en, reg; 813 1.2 joff { 814 1.2 joff bus_space_tag_t iot = sc->sc_iot; 815 1.1 soren bus_space_handle_t ioh; 816 1.2 joff u_int8_t rd, dat; 817 1.2 joff 818 1.3 joff if (sc->sc_dev_ok == 0) 819 1.3 joff return; 820 1.3 joff 821 1.2 joff if (reg == 0) 822 1.6 perry ioh = sc->sc_ioir; 823 1.2 joff else 824 1.2 joff ioh = sc->sc_iodr; 825 1.1 soren 826 1.1 soren rd = bus_space_read_1(iot, ioh, 0x00); 827 1.1 soren dat = (rd & 0x0f) << 4; 828 1.1 soren rd = bus_space_read_1(iot, ioh, 0x00); 829 1.1 soren return (dat | (rd & 0x0f)); 830 1.1 soren } 831 1.1 soren #endif 832
Indexes created Thu Sep 25 08:09:54 GMT 2025