newport.c revision 1.10.58.1
1 1.10.58.1 jym /* $NetBSD: newport.c,v 1.10.58.1 2009/05/13 17:18:18 jym Exp $ */ 2 1.1 lonewolf 3 1.1 lonewolf /* 4 1.1 lonewolf * Copyright (c) 2003 Ilpo Ruotsalainen 5 1.1 lonewolf * All rights reserved. 6 1.1 lonewolf * 7 1.1 lonewolf * Redistribution and use in source and binary forms, with or without 8 1.1 lonewolf * modification, are permitted provided that the following conditions 9 1.1 lonewolf * are met: 10 1.1 lonewolf * 1. Redistributions of source code must retain the above copyright 11 1.1 lonewolf * notice, this list of conditions and the following disclaimer. 12 1.1 lonewolf * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 lonewolf * notice, this list of conditions and the following disclaimer in the 14 1.1 lonewolf * documentation and/or other materials provided with the distribution. 15 1.1 lonewolf * 3. The name of the author may not be used to endorse or promote products 16 1.1 lonewolf * derived from this software without specific prior written permission. 17 1.1 lonewolf * 18 1.1 lonewolf * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 19 1.1 lonewolf * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 20 1.1 lonewolf * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 21 1.1 lonewolf * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 22 1.1 lonewolf * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 23 1.1 lonewolf * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 24 1.1 lonewolf * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 25 1.1 lonewolf * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 26 1.1 lonewolf * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 27 1.1 lonewolf * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 28 1.1 lonewolf * 29 1.1 lonewolf * <<Id: LICENSE_GC,v 1.1 2001/10/01 23:24:05 cgd Exp>> 30 1.1 lonewolf */ 31 1.1 lonewolf 32 1.1 lonewolf #include <sys/cdefs.h> 33 1.10.58.1 jym __KERNEL_RCSID(0, "$NetBSD: newport.c,v 1.10.58.1 2009/05/13 17:18:18 jym Exp $"); 34 1.1 lonewolf 35 1.1 lonewolf #include <sys/param.h> 36 1.1 lonewolf #include <sys/systm.h> 37 1.1 lonewolf #include <sys/device.h> 38 1.1 lonewolf #include <sys/malloc.h> 39 1.1 lonewolf 40 1.9 rumble #include <machine/sysconf.h> 41 1.9 rumble 42 1.1 lonewolf #include <dev/wscons/wsconsio.h> 43 1.1 lonewolf #include <dev/wscons/wsdisplayvar.h> 44 1.1 lonewolf #include <dev/wsfont/wsfont.h> 45 1.10.58.1 jym #include <dev/rasops/rasops.h> 46 1.10.58.1 jym #include <dev/wscons/wsdisplay_vconsvar.h> 47 1.1 lonewolf 48 1.1 lonewolf #include <sgimips/gio/giovar.h> 49 1.1 lonewolf #include <sgimips/gio/newportvar.h> 50 1.1 lonewolf #include <sgimips/gio/newportreg.h> 51 1.1 lonewolf 52 1.1 lonewolf struct newport_softc { 53 1.10.58.1 jym device_t sc_dev; 54 1.1 lonewolf 55 1.1 lonewolf struct newport_devconfig *sc_dc; 56 1.10.58.1 jym 57 1.1 lonewolf }; 58 1.1 lonewolf 59 1.1 lonewolf struct newport_devconfig { 60 1.1 lonewolf uint32_t dc_addr; 61 1.1 lonewolf 62 1.1 lonewolf bus_space_tag_t dc_st; 63 1.1 lonewolf bus_space_handle_t dc_sh; 64 1.1 lonewolf 65 1.1 lonewolf int dc_boardrev; 66 1.5 sekiya int dc_vc2rev; 67 1.3 sekiya int dc_cmaprev; 68 1.3 sekiya int dc_xmaprev; 69 1.3 sekiya int dc_rexrev; 70 1.1 lonewolf int dc_xres; 71 1.1 lonewolf int dc_yres; 72 1.3 sekiya int dc_depth; 73 1.1 lonewolf 74 1.1 lonewolf int dc_font; 75 1.10.58.1 jym struct wsscreen_descr *dc_screen; 76 1.1 lonewolf struct wsdisplay_font *dc_fontdata; 77 1.10.58.1 jym int dc_mode; 78 1.10.58.1 jym struct vcons_data dc_vd; 79 1.1 lonewolf }; 80 1.1 lonewolf 81 1.10.58.1 jym static int newport_match(device_t, struct cfdata *, void *); 82 1.10.58.1 jym static void newport_attach(device_t, device_t, void *); 83 1.1 lonewolf 84 1.10.58.1 jym CFATTACH_DECL_NEW(newport, sizeof(struct newport_softc), 85 1.1 lonewolf newport_match, newport_attach, NULL, NULL); 86 1.1 lonewolf 87 1.1 lonewolf /* textops */ 88 1.1 lonewolf static void newport_cursor(void *, int, int, int); 89 1.10.58.1 jym static void newport_cursor_dummy(void *, int, int, int); 90 1.1 lonewolf static int newport_mapchar(void *, int, unsigned int *); 91 1.1 lonewolf static void newport_putchar(void *, int, int, u_int, long); 92 1.1 lonewolf static void newport_copycols(void *, int, int, int, int); 93 1.1 lonewolf static void newport_erasecols(void *, int, int, int, long); 94 1.1 lonewolf static void newport_copyrows(void *, int, int, int); 95 1.1 lonewolf static void newport_eraserows(void *, int, int, long); 96 1.1 lonewolf static int newport_allocattr(void *, int, int, int, long *); 97 1.1 lonewolf 98 1.10.58.1 jym static void newport_init_screen(void *, struct vcons_screen *, int, long *); 99 1.10.58.1 jym 100 1.1 lonewolf /* accessops */ 101 1.10 christos static int newport_ioctl(void *, void *, u_long, void *, int, 102 1.7 jmmv struct lwp *); 103 1.7 jmmv static paddr_t newport_mmap(void *, void *, off_t, int); 104 1.1 lonewolf 105 1.10.58.1 jym static struct wsdisplay_accessops newport_accessops = { 106 1.10.58.1 jym .ioctl = newport_ioctl, 107 1.10.58.1 jym .mmap = newport_mmap, 108 1.10.58.1 jym }; 109 1.10.58.1 jym 110 1.10.58.1 jym static struct wsdisplay_emulops newport_textops = { 111 1.10.58.1 jym .cursor = newport_cursor_dummy, 112 1.1 lonewolf .mapchar = newport_mapchar, 113 1.1 lonewolf .putchar = newport_putchar, 114 1.1 lonewolf .copycols = newport_copycols, 115 1.1 lonewolf .erasecols = newport_erasecols, 116 1.1 lonewolf .copyrows = newport_copyrows, 117 1.1 lonewolf .eraserows = newport_eraserows, 118 1.1 lonewolf .allocattr = newport_allocattr 119 1.1 lonewolf }; 120 1.1 lonewolf 121 1.10.58.1 jym static struct wsscreen_descr newport_screen = { 122 1.10.58.1 jym .name = "default", 123 1.1 lonewolf .ncols = 160, 124 1.1 lonewolf .nrows = 64, 125 1.1 lonewolf .textops = &newport_textops, 126 1.1 lonewolf .fontwidth = 8, 127 1.1 lonewolf .fontheight = 16, 128 1.1 lonewolf .capabilities = WSSCREEN_WSCOLORS | WSSCREEN_HILIT | WSSCREEN_REVERSE 129 1.1 lonewolf }; 130 1.1 lonewolf 131 1.1 lonewolf static const struct wsscreen_descr *_newport_screenlist[] = { 132 1.10.58.1 jym &newport_screen 133 1.1 lonewolf }; 134 1.1 lonewolf 135 1.1 lonewolf static const struct wsscreen_list newport_screenlist = { 136 1.1 lonewolf sizeof(_newport_screenlist) / sizeof(struct wsscreen_descr *), 137 1.1 lonewolf _newport_screenlist 138 1.1 lonewolf }; 139 1.1 lonewolf 140 1.10.58.1 jym static struct vcons_screen newport_console_screen; 141 1.1 lonewolf static struct newport_devconfig newport_console_dc; 142 1.1 lonewolf static int newport_is_console = 0; 143 1.1 lonewolf 144 1.1 lonewolf #define NEWPORT_ATTR_ENCODE(fg,bg) (((fg) << 8) | (bg)) 145 1.1 lonewolf #define NEWPORT_ATTR_BG(a) ((a) & 0xff) 146 1.1 lonewolf #define NEWPORT_ATTR_FG(a) (((a) >> 8) & 0xff) 147 1.1 lonewolf 148 1.10.58.1 jym extern const u_char rasops_cmap[768]; 149 1.1 lonewolf 150 1.1 lonewolf /**** Low-level hardware register groveling functions ****/ 151 1.1 lonewolf static void 152 1.1 lonewolf rex3_write(struct newport_devconfig *dc, bus_size_t rexreg, uint32_t val) 153 1.1 lonewolf { 154 1.1 lonewolf bus_space_write_4(dc->dc_st, dc->dc_sh, NEWPORT_REX3_OFFSET + rexreg, 155 1.1 lonewolf val); 156 1.1 lonewolf } 157 1.1 lonewolf 158 1.1 lonewolf static void 159 1.1 lonewolf rex3_write_go(struct newport_devconfig *dc, bus_size_t rexreg, uint32_t val) 160 1.1 lonewolf { 161 1.1 lonewolf rex3_write(dc, rexreg + REX3_REG_GO, val); 162 1.1 lonewolf } 163 1.1 lonewolf 164 1.1 lonewolf static uint32_t 165 1.1 lonewolf rex3_read(struct newport_devconfig *dc, bus_size_t rexreg) 166 1.1 lonewolf { 167 1.1 lonewolf return bus_space_read_4(dc->dc_st, dc->dc_sh, NEWPORT_REX3_OFFSET + 168 1.1 lonewolf rexreg); 169 1.1 lonewolf } 170 1.1 lonewolf 171 1.1 lonewolf static void 172 1.1 lonewolf rex3_wait_gfifo(struct newport_devconfig *dc) 173 1.1 lonewolf { 174 1.1 lonewolf while (rex3_read(dc, REX3_REG_STATUS) & REX3_STATUS_GFXBUSY) 175 1.1 lonewolf ; 176 1.1 lonewolf } 177 1.1 lonewolf 178 1.1 lonewolf static void 179 1.1 lonewolf vc2_write_ireg(struct newport_devconfig *dc, uint8_t ireg, uint16_t val) 180 1.1 lonewolf { 181 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 182 1.1 lonewolf REX3_DCBMODE_DW_3 | 183 1.1 lonewolf REX3_DCBMODE_ENCRSINC | 184 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) | 185 1.1 lonewolf (VC2_DCBCRS_INDEX << REX3_DCBMODE_DCBCRS_SHIFT) | 186 1.1 lonewolf REX3_DCBMODE_ENASYNCACK | 187 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 188 1.1 lonewolf 189 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, (ireg << 24) | (val << 8)); 190 1.1 lonewolf } 191 1.1 lonewolf 192 1.1 lonewolf static uint16_t 193 1.1 lonewolf vc2_read_ireg(struct newport_devconfig *dc, uint8_t ireg) 194 1.1 lonewolf { 195 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 196 1.1 lonewolf REX3_DCBMODE_DW_1 | 197 1.1 lonewolf REX3_DCBMODE_ENCRSINC | 198 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) | 199 1.1 lonewolf (VC2_DCBCRS_INDEX << REX3_DCBMODE_DCBCRS_SHIFT) | 200 1.1 lonewolf REX3_DCBMODE_ENASYNCACK | 201 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 202 1.1 lonewolf 203 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, ireg << 24); 204 1.1 lonewolf 205 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 206 1.1 lonewolf REX3_DCBMODE_DW_2 | 207 1.1 lonewolf REX3_DCBMODE_ENCRSINC | 208 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) | 209 1.1 lonewolf (VC2_DCBCRS_IREG << REX3_DCBMODE_DCBCRS_SHIFT) | 210 1.1 lonewolf REX3_DCBMODE_ENASYNCACK | 211 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 212 1.1 lonewolf 213 1.1 lonewolf return (uint16_t)(rex3_read(dc, REX3_REG_DCBDATA0) >> 16); 214 1.1 lonewolf } 215 1.1 lonewolf 216 1.1 lonewolf static uint16_t 217 1.1 lonewolf vc2_read_ram(struct newport_devconfig *dc, uint16_t addr) 218 1.1 lonewolf { 219 1.1 lonewolf vc2_write_ireg(dc, VC2_IREG_RAM_ADDRESS, addr); 220 1.1 lonewolf 221 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 222 1.1 lonewolf REX3_DCBMODE_DW_2 | 223 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) | 224 1.1 lonewolf (VC2_DCBCRS_RAM << REX3_DCBMODE_DCBCRS_SHIFT) | 225 1.1 lonewolf REX3_DCBMODE_ENASYNCACK | 226 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 227 1.1 lonewolf 228 1.1 lonewolf return (uint16_t)(rex3_read(dc, REX3_REG_DCBDATA0) >> 16); 229 1.1 lonewolf } 230 1.1 lonewolf 231 1.10.58.1 jym #if 0 232 1.1 lonewolf static void 233 1.1 lonewolf vc2_write_ram(struct newport_devconfig *dc, uint16_t addr, uint16_t val) 234 1.1 lonewolf { 235 1.1 lonewolf vc2_write_ireg(dc, VC2_IREG_RAM_ADDRESS, addr); 236 1.1 lonewolf 237 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 238 1.1 lonewolf REX3_DCBMODE_DW_2 | 239 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) | 240 1.1 lonewolf (VC2_DCBCRS_RAM << REX3_DCBMODE_DCBCRS_SHIFT) | 241 1.1 lonewolf REX3_DCBMODE_ENASYNCACK | 242 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 243 1.1 lonewolf 244 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, val << 16); 245 1.1 lonewolf } 246 1.10.58.1 jym #endif 247 1.1 lonewolf 248 1.3 sekiya static u_int32_t 249 1.3 sekiya xmap9_read(struct newport_devconfig *dc, int crs) 250 1.3 sekiya { 251 1.3 sekiya rex3_write(dc, REX3_REG_DCBMODE, 252 1.3 sekiya REX3_DCBMODE_DW_1 | 253 1.3 sekiya (NEWPORT_DCBADDR_XMAP_0 << REX3_DCBMODE_DCBADDR_SHIFT) | 254 1.3 sekiya (crs << REX3_DCBMODE_DCBCRS_SHIFT) | 255 1.3 sekiya (3 << REX3_DCBMODE_CSWIDTH_SHIFT) | 256 1.3 sekiya (2 << REX3_DCBMODE_CSHOLD_SHIFT) | 257 1.3 sekiya (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 258 1.3 sekiya return rex3_read(dc, REX3_REG_DCBDATA0); 259 1.3 sekiya } 260 1.3 sekiya 261 1.1 lonewolf static void 262 1.1 lonewolf xmap9_write(struct newport_devconfig *dc, int crs, uint8_t val) 263 1.1 lonewolf { 264 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 265 1.1 lonewolf REX3_DCBMODE_DW_1 | 266 1.1 lonewolf (NEWPORT_DCBADDR_XMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) | 267 1.1 lonewolf (crs << REX3_DCBMODE_DCBCRS_SHIFT) | 268 1.1 lonewolf (3 << REX3_DCBMODE_CSWIDTH_SHIFT) | 269 1.1 lonewolf (2 << REX3_DCBMODE_CSHOLD_SHIFT) | 270 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 271 1.1 lonewolf 272 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, val << 24); 273 1.1 lonewolf } 274 1.1 lonewolf 275 1.1 lonewolf static void 276 1.1 lonewolf xmap9_write_mode(struct newport_devconfig *dc, uint8_t index, uint32_t mode) 277 1.1 lonewolf { 278 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 279 1.1 lonewolf REX3_DCBMODE_DW_4 | 280 1.1 lonewolf (NEWPORT_DCBADDR_XMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) | 281 1.1 lonewolf (XMAP9_DCBCRS_MODE_SETUP << REX3_DCBMODE_DCBCRS_SHIFT) | 282 1.1 lonewolf (3 << REX3_DCBMODE_CSWIDTH_SHIFT) | 283 1.1 lonewolf (2 << REX3_DCBMODE_CSHOLD_SHIFT) | 284 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 285 1.1 lonewolf 286 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, (index << 24) | mode); 287 1.1 lonewolf } 288 1.1 lonewolf 289 1.1 lonewolf /**** Helper functions ****/ 290 1.1 lonewolf static void 291 1.1 lonewolf newport_fill_rectangle(struct newport_devconfig *dc, int x1, int y1, int x2, 292 1.1 lonewolf int y2, uint8_t color) 293 1.1 lonewolf { 294 1.1 lonewolf rex3_wait_gfifo(dc); 295 1.1 lonewolf 296 1.1 lonewolf rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_DRAW | 297 1.1 lonewolf REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_DOSETUP | 298 1.1 lonewolf REX3_DRAWMODE0_STOPONX | REX3_DRAWMODE0_STOPONY); 299 1.10.58.1 jym rex3_write(dc, REX3_REG_DRAWMODE1, 300 1.10.58.1 jym REX3_DRAWMODE1_PLANES_CI | 301 1.10.58.1 jym REX3_DRAWMODE1_DD_DD8 | 302 1.10.58.1 jym REX3_DRAWMODE1_RWPACKED | 303 1.10.58.1 jym REX3_DRAWMODE1_HD_HD8 | 304 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_LT | 305 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_EQ | 306 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_GT | 307 1.10.58.1 jym REX3_DRAWMODE1_LO_SRC); 308 1.3 sekiya rex3_write(dc, REX3_REG_WRMASK, 0xffffffff); 309 1.1 lonewolf rex3_write(dc, REX3_REG_COLORI, color); 310 1.1 lonewolf rex3_write(dc, REX3_REG_XYSTARTI, (x1 << REX3_XYSTARTI_XSHIFT) | y1); 311 1.1 lonewolf 312 1.1 lonewolf rex3_write_go(dc, REX3_REG_XYENDI, (x2 << REX3_XYENDI_XSHIFT) | y2); 313 1.1 lonewolf } 314 1.1 lonewolf 315 1.1 lonewolf static void 316 1.10.58.1 jym newport_bitblt(struct newport_devconfig *dc, int xs, int ys, int xd, 317 1.10.58.1 jym int yd, int wi, int he, int rop) 318 1.1 lonewolf { 319 1.10.58.1 jym int xe, ye; 320 1.1 lonewolf uint32_t tmp; 321 1.1 lonewolf 322 1.1 lonewolf rex3_wait_gfifo(dc); 323 1.10.58.1 jym if (yd > ys) { 324 1.10.58.1 jym /* need to copy bottom up */ 325 1.10.58.1 jym ye = ys; 326 1.10.58.1 jym yd += he - 1; 327 1.10.58.1 jym ys += he - 1; 328 1.10.58.1 jym } else 329 1.10.58.1 jym ye = ys + he - 1; 330 1.10.58.1 jym 331 1.10.58.1 jym if (xd > xs) { 332 1.10.58.1 jym /* need to copy right to left */ 333 1.10.58.1 jym xe = xs; 334 1.10.58.1 jym xd += wi - 1; 335 1.10.58.1 jym xs += wi - 1; 336 1.10.58.1 jym } else 337 1.10.58.1 jym xe = xs + wi - 1; 338 1.10.58.1 jym 339 1.1 lonewolf rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_SCR2SCR | 340 1.1 lonewolf REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_DOSETUP | 341 1.1 lonewolf REX3_DRAWMODE0_STOPONX | REX3_DRAWMODE0_STOPONY); 342 1.10.58.1 jym rex3_write(dc, REX3_REG_DRAWMODE1, 343 1.10.58.1 jym REX3_DRAWMODE1_PLANES_CI | 344 1.10.58.1 jym REX3_DRAWMODE1_DD_DD8 | 345 1.10.58.1 jym REX3_DRAWMODE1_RWPACKED | 346 1.10.58.1 jym REX3_DRAWMODE1_HD_HD8 | 347 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_LT | 348 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_EQ | 349 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_GT | 350 1.10.58.1 jym ((rop << 28) & REX3_DRAWMODE1_LOGICOP_MASK)); 351 1.10.58.1 jym rex3_write(dc, REX3_REG_XYSTARTI, (xs << REX3_XYSTARTI_XSHIFT) | ys); 352 1.10.58.1 jym rex3_write(dc, REX3_REG_XYENDI, (xe << REX3_XYENDI_XSHIFT) | ye); 353 1.1 lonewolf 354 1.10.58.1 jym tmp = (yd - ys) & 0xffff; 355 1.10.58.1 jym tmp |= (xd - xs) << REX3_XYMOVE_XSHIFT; 356 1.1 lonewolf 357 1.1 lonewolf rex3_write_go(dc, REX3_REG_XYMOVE, tmp); 358 1.1 lonewolf } 359 1.1 lonewolf 360 1.1 lonewolf static void 361 1.1 lonewolf newport_cmap_setrgb(struct newport_devconfig *dc, int index, uint8_t r, 362 1.1 lonewolf uint8_t g, uint8_t b) 363 1.1 lonewolf { 364 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 365 1.1 lonewolf REX3_DCBMODE_DW_2 | 366 1.1 lonewolf REX3_DCBMODE_ENCRSINC | 367 1.1 lonewolf (NEWPORT_DCBADDR_CMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) | 368 1.1 lonewolf (CMAP_DCBCRS_ADDRESS_LOW << REX3_DCBMODE_DCBCRS_SHIFT) | 369 1.1 lonewolf (1 << REX3_DCBMODE_CSWIDTH_SHIFT) | 370 1.1 lonewolf (1 << REX3_DCBMODE_CSHOLD_SHIFT) | 371 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT) | 372 1.1 lonewolf REX3_DCBMODE_SWAPENDIAN); 373 1.1 lonewolf 374 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, index << 16); 375 1.1 lonewolf 376 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 377 1.1 lonewolf REX3_DCBMODE_DW_3 | 378 1.1 lonewolf (NEWPORT_DCBADDR_CMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) | 379 1.1 lonewolf (CMAP_DCBCRS_PALETTE << REX3_DCBMODE_DCBCRS_SHIFT) | 380 1.1 lonewolf (1 << REX3_DCBMODE_CSWIDTH_SHIFT) | 381 1.1 lonewolf (1 << REX3_DCBMODE_CSHOLD_SHIFT) | 382 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 383 1.1 lonewolf 384 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, (r << 24) + (g << 16) + (b << 8)); 385 1.1 lonewolf } 386 1.1 lonewolf 387 1.1 lonewolf static void 388 1.1 lonewolf newport_get_resolution(struct newport_devconfig *dc) 389 1.1 lonewolf { 390 1.1 lonewolf uint16_t vep,lines; 391 1.1 lonewolf uint16_t linep,cols; 392 1.1 lonewolf uint16_t data; 393 1.1 lonewolf 394 1.1 lonewolf vep = vc2_read_ireg(dc, VC2_IREG_VIDEO_ENTRY); 395 1.1 lonewolf 396 1.1 lonewolf dc->dc_xres = 0; 397 1.1 lonewolf dc->dc_yres = 0; 398 1.1 lonewolf 399 1.1 lonewolf for (;;) { 400 1.1 lonewolf /* Iterate over runs in video timing table */ 401 1.1 lonewolf 402 1.1 lonewolf cols = 0; 403 1.1 lonewolf 404 1.1 lonewolf linep = vc2_read_ram(dc, vep++); 405 1.1 lonewolf lines = vc2_read_ram(dc, vep++); 406 1.1 lonewolf 407 1.1 lonewolf if (lines == 0) 408 1.1 lonewolf break; 409 1.1 lonewolf 410 1.1 lonewolf do { 411 1.1 lonewolf /* Iterate over state runs in line sequence table */ 412 1.1 lonewolf 413 1.1 lonewolf data = vc2_read_ram(dc, linep++); 414 1.1 lonewolf 415 1.1 lonewolf if ((data & 0x0001) == 0) 416 1.1 lonewolf cols += (data >> 7) & 0xfe; 417 1.1 lonewolf 418 1.1 lonewolf if ((data & 0x0080) == 0) 419 1.1 lonewolf data = vc2_read_ram(dc, linep++); 420 1.1 lonewolf } while ((data & 0x8000) == 0); 421 1.1 lonewolf 422 1.1 lonewolf if (cols != 0) { 423 1.1 lonewolf if (cols > dc->dc_xres) 424 1.1 lonewolf dc->dc_xres = cols; 425 1.1 lonewolf 426 1.1 lonewolf dc->dc_yres += lines; 427 1.1 lonewolf } 428 1.1 lonewolf } 429 1.1 lonewolf } 430 1.1 lonewolf 431 1.1 lonewolf static void 432 1.1 lonewolf newport_setup_hw(struct newport_devconfig *dc) 433 1.1 lonewolf { 434 1.1 lonewolf uint16_t curp,tmp; 435 1.1 lonewolf int i; 436 1.3 sekiya uint32_t scratch; 437 1.1 lonewolf 438 1.3 sekiya /* Get various revisions */ 439 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE, 440 1.1 lonewolf REX3_DCBMODE_DW_1 | 441 1.1 lonewolf (NEWPORT_DCBADDR_CMAP_0 << REX3_DCBMODE_DCBADDR_SHIFT) | 442 1.1 lonewolf (CMAP_DCBCRS_REVISION << REX3_DCBMODE_DCBCRS_SHIFT) | 443 1.1 lonewolf (1 << REX3_DCBMODE_CSWIDTH_SHIFT) | 444 1.1 lonewolf (1 << REX3_DCBMODE_CSHOLD_SHIFT) | 445 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT)); 446 1.1 lonewolf 447 1.5 sekiya scratch = vc2_read_ireg(dc, VC2_IREG_CONFIG); 448 1.5 sekiya dc->dc_vc2rev = (scratch & VC2_IREG_CONFIG_REVISION) >> 5; 449 1.5 sekiya 450 1.3 sekiya scratch = rex3_read(dc, REX3_REG_DCBDATA0); 451 1.3 sekiya 452 1.3 sekiya dc->dc_boardrev = (scratch >> 28) & 0x07; 453 1.3 sekiya dc->dc_cmaprev = scratch & 0x07; 454 1.3 sekiya dc->dc_xmaprev = xmap9_read(dc, XMAP9_DCBCRS_REVISION) & 0x07; 455 1.5 sekiya dc->dc_depth = ( (dc->dc_boardrev > 1) && (scratch & 0x80)) ? 8 : 24; 456 1.1 lonewolf 457 1.1 lonewolf /* Setup cursor glyph */ 458 1.1 lonewolf curp = vc2_read_ireg(dc, VC2_IREG_CURSOR_ENTRY); 459 1.1 lonewolf 460 1.1 lonewolf /* Setup VC2 to a known state */ 461 1.1 lonewolf tmp = vc2_read_ireg(dc, VC2_IREG_CONTROL) & VC2_CONTROL_INTERLACE; 462 1.1 lonewolf vc2_write_ireg(dc, VC2_IREG_CONTROL, tmp | 463 1.1 lonewolf VC2_CONTROL_DISPLAY_ENABLE | 464 1.1 lonewolf VC2_CONTROL_VTIMING_ENABLE | 465 1.1 lonewolf VC2_CONTROL_DID_ENABLE | 466 1.10.58.1 jym VC2_CONTROL_CURSORFUNC_ENABLE /*| 467 1.10.58.1 jym VC2_CONTROL_CURSOR_ENABLE*/); 468 1.1 lonewolf 469 1.1 lonewolf /* Setup XMAP9s */ 470 1.1 lonewolf xmap9_write(dc, XMAP9_DCBCRS_CONFIG, 471 1.1 lonewolf XMAP9_CONFIG_8BIT_SYSTEM | XMAP9_CONFIG_RGBMAP_CI); 472 1.1 lonewolf 473 1.1 lonewolf xmap9_write(dc, XMAP9_DCBCRS_CURSOR_CMAP, 0); 474 1.1 lonewolf 475 1.1 lonewolf xmap9_write_mode(dc, 0, 476 1.1 lonewolf XMAP9_MODE_GAMMA_BYPASS | 477 1.1 lonewolf XMAP9_MODE_PIXSIZE_8BPP); 478 1.1 lonewolf xmap9_write(dc, XMAP9_DCBCRS_MODE_SELECT, 0); 479 1.1 lonewolf 480 1.1 lonewolf /* Setup REX3 */ 481 1.1 lonewolf rex3_write(dc, REX3_REG_XYWIN, (4096 << 16) | 4096); 482 1.1 lonewolf rex3_write(dc, REX3_REG_TOPSCAN, 0x3ff); /* XXX Why? XXX */ 483 1.1 lonewolf 484 1.1 lonewolf /* Setup CMAP */ 485 1.10.58.1 jym for (i = 0; i < 256; i++) 486 1.10.58.1 jym newport_cmap_setrgb(dc, i, rasops_cmap[i * 3], 487 1.10.58.1 jym rasops_cmap[i * 3 + 1], rasops_cmap[i * 3 + 2]); 488 1.1 lonewolf } 489 1.1 lonewolf 490 1.1 lonewolf /**** Attach routines ****/ 491 1.1 lonewolf static int 492 1.10.58.1 jym newport_match(device_t parent, struct cfdata *self, void *aux) 493 1.1 lonewolf { 494 1.1 lonewolf struct gio_attach_args *ga = aux; 495 1.1 lonewolf 496 1.1 lonewolf /* newport doesn't decode all addresses */ 497 1.1 lonewolf if (ga->ga_addr != 0x1f000000 && ga->ga_addr != 0x1f400000 && 498 1.1 lonewolf ga->ga_addr != 0x1f800000 && ga->ga_addr != 0x1fc00000) 499 1.1 lonewolf return 0; 500 1.1 lonewolf 501 1.1 lonewolf /* Don't do the destructive probe if we're already attached */ 502 1.1 lonewolf if (newport_is_console && ga->ga_addr == newport_console_dc.dc_addr) 503 1.1 lonewolf return 1; 504 1.1 lonewolf 505 1.9 rumble if (platform.badaddr( 506 1.8 rumble (void *)(ga->ga_ioh + NEWPORT_REX3_OFFSET + REX3_REG_XSTARTI), 507 1.8 rumble sizeof(uint32_t))) 508 1.8 rumble return 0; 509 1.9 rumble if (platform.badaddr( 510 1.8 rumble (void *)(ga->ga_ioh + NEWPORT_REX3_OFFSET + REX3_REG_XSTART), 511 1.8 rumble sizeof(uint32_t))) 512 1.8 rumble return 0; 513 1.8 rumble 514 1.1 lonewolf /* Ugly, this probe is destructive, blame SGI... */ 515 1.1 lonewolf /* XXX Should be bus_space_peek/bus_space_poke XXX */ 516 1.1 lonewolf bus_space_write_4(ga->ga_iot, ga->ga_ioh, 517 1.1 lonewolf NEWPORT_REX3_OFFSET + REX3_REG_XSTARTI, 0x12345678); 518 1.1 lonewolf if (bus_space_read_4(ga->ga_iot, ga->ga_ioh, 519 1.1 lonewolf NEWPORT_REX3_OFFSET + REX3_REG_XSTART) 520 1.1 lonewolf != ((0x12345678 & 0xffff) << 11)) 521 1.1 lonewolf return 0; 522 1.1 lonewolf 523 1.1 lonewolf return 1; 524 1.1 lonewolf } 525 1.1 lonewolf 526 1.1 lonewolf static void 527 1.1 lonewolf newport_attach_common(struct newport_devconfig *dc, struct gio_attach_args *ga) 528 1.1 lonewolf { 529 1.1 lonewolf dc->dc_addr = ga->ga_addr; 530 1.1 lonewolf 531 1.1 lonewolf dc->dc_st = ga->ga_iot; 532 1.1 lonewolf dc->dc_sh = ga->ga_ioh; 533 1.1 lonewolf 534 1.1 lonewolf wsfont_init(); 535 1.1 lonewolf 536 1.1 lonewolf dc->dc_font = wsfont_find(NULL, 8, 16, 0, WSDISPLAY_FONTORDER_L2R, 537 1.1 lonewolf WSDISPLAY_FONTORDER_L2R); 538 1.1 lonewolf if (dc->dc_font < 0) 539 1.1 lonewolf panic("newport_attach_common: no suitable fonts"); 540 1.1 lonewolf 541 1.1 lonewolf if (wsfont_lock(dc->dc_font, &dc->dc_fontdata)) 542 1.1 lonewolf panic("newport_attach_common: unable to lock font data"); 543 1.1 lonewolf 544 1.1 lonewolf newport_setup_hw(dc); 545 1.1 lonewolf 546 1.1 lonewolf newport_get_resolution(dc); 547 1.1 lonewolf 548 1.1 lonewolf newport_fill_rectangle(dc, 0, 0, dc->dc_xres, dc->dc_yres, 0); 549 1.10.58.1 jym dc->dc_screen = &newport_screen; 550 1.10.58.1 jym 551 1.10.58.1 jym dc->dc_mode = WSDISPLAYIO_MODE_EMUL; 552 1.1 lonewolf } 553 1.1 lonewolf 554 1.1 lonewolf static void 555 1.10.58.1 jym newport_attach(device_t parent, device_t self, void *aux) 556 1.1 lonewolf { 557 1.1 lonewolf struct gio_attach_args *ga = aux; 558 1.10.58.1 jym struct newport_softc *sc = device_private(self); 559 1.1 lonewolf struct wsemuldisplaydev_attach_args wa; 560 1.10.58.1 jym unsigned long defattr; 561 1.1 lonewolf 562 1.10.58.1 jym sc->sc_dev = self; 563 1.1 lonewolf if (newport_is_console && ga->ga_addr == newport_console_dc.dc_addr) { 564 1.1 lonewolf wa.console = 1; 565 1.1 lonewolf sc->sc_dc = &newport_console_dc; 566 1.1 lonewolf } else { 567 1.1 lonewolf wa.console = 0; 568 1.1 lonewolf sc->sc_dc = malloc(sizeof(struct newport_devconfig), 569 1.1 lonewolf M_DEVBUF, M_WAITOK | M_ZERO); 570 1.1 lonewolf if (sc->sc_dc == NULL) 571 1.1 lonewolf panic("newport_attach: out of memory"); 572 1.1 lonewolf 573 1.1 lonewolf newport_attach_common(sc->sc_dc, ga); 574 1.1 lonewolf } 575 1.1 lonewolf 576 1.1 lonewolf aprint_naive(": Display adapter\n"); 577 1.1 lonewolf 578 1.5 sekiya aprint_normal(": SGI NG1 (board revision %d, cmap revision %d, xmap revision %d, vc2 revision %d), depth %d\n", 579 1.3 sekiya sc->sc_dc->dc_boardrev, sc->sc_dc->dc_cmaprev, 580 1.5 sekiya sc->sc_dc->dc_xmaprev, sc->sc_dc->dc_vc2rev, sc->sc_dc->dc_depth); 581 1.10.58.1 jym vcons_init(&sc->sc_dc->dc_vd, sc->sc_dc, sc->sc_dc->dc_screen, 582 1.10.58.1 jym &newport_accessops); 583 1.10.58.1 jym sc->sc_dc->dc_vd.init_screen = newport_init_screen; 584 1.10.58.1 jym if (newport_is_console) { 585 1.10.58.1 jym newport_console_screen.scr_flags |= VCONS_SCREEN_IS_STATIC; 586 1.10.58.1 jym vcons_init_screen(&sc->sc_dc->dc_vd, &newport_console_screen, 587 1.10.58.1 jym 1, &defattr); 588 1.10.58.1 jym sc->sc_dc->dc_screen->textops = 589 1.10.58.1 jym &newport_console_screen.scr_ri.ri_ops; 590 1.10.58.1 jym memcpy(&newport_textops, &newport_console_screen.scr_ri.ri_ops, 591 1.10.58.1 jym sizeof(struct wsdisplay_emulops)); 592 1.10.58.1 jym } 593 1.1 lonewolf wa.scrdata = &newport_screenlist; 594 1.1 lonewolf wa.accessops = &newport_accessops; 595 1.10.58.1 jym wa.accesscookie = &sc->sc_dc->dc_vd; 596 1.1 lonewolf 597 1.10.58.1 jym config_found(sc->sc_dev, &wa, wsemuldisplaydevprint); 598 1.1 lonewolf } 599 1.1 lonewolf 600 1.1 lonewolf int 601 1.1 lonewolf newport_cnattach(struct gio_attach_args *ga) 602 1.1 lonewolf { 603 1.10.58.1 jym struct rasops_info *ri = &newport_console_screen.scr_ri; 604 1.1 lonewolf long defattr = NEWPORT_ATTR_ENCODE(WSCOL_WHITE, WSCOL_BLACK); 605 1.1 lonewolf 606 1.1 lonewolf if (!newport_match(NULL, NULL, ga)) { 607 1.1 lonewolf return ENXIO; 608 1.1 lonewolf } 609 1.1 lonewolf 610 1.1 lonewolf newport_attach_common(&newport_console_dc, ga); 611 1.1 lonewolf 612 1.10.58.1 jym newport_screen.ncols = newport_console_dc.dc_xres / 8; 613 1.10.58.1 jym newport_screen.nrows = newport_console_dc.dc_yres / 16; 614 1.1 lonewolf 615 1.10.58.1 jym ri->ri_hw = &newport_console_screen; 616 1.10.58.1 jym ri->ri_depth = newport_console_dc.dc_depth; 617 1.10.58.1 jym ri->ri_width = newport_console_dc.dc_xres; 618 1.10.58.1 jym ri->ri_height = newport_console_dc.dc_yres; 619 1.10.58.1 jym ri->ri_stride = newport_console_dc.dc_xres; /* XXX */ 620 1.10.58.1 jym ri->ri_flg = RI_CENTER | RI_FULLCLEAR; 621 1.10.58.1 jym ri->ri_ops.copyrows = newport_copyrows; 622 1.10.58.1 jym ri->ri_ops.eraserows = newport_eraserows; 623 1.10.58.1 jym ri->ri_ops.copycols = newport_copycols; 624 1.10.58.1 jym ri->ri_ops.erasecols = newport_erasecols; 625 1.10.58.1 jym ri->ri_ops.cursor = newport_cursor_dummy; 626 1.10.58.1 jym ri->ri_ops.mapchar = newport_mapchar; 627 1.10.58.1 jym ri->ri_ops.putchar = newport_putchar; 628 1.10.58.1 jym ri->ri_ops.allocattr = newport_allocattr; 629 1.10.58.1 jym ri->ri_font = newport_console_dc.dc_fontdata; 630 1.10.58.1 jym newport_console_screen.scr_cookie = &newport_console_dc; 631 1.10.58.1 jym 632 1.10.58.1 jym wsdisplay_cnattach(&newport_screen, ri, 0, 0, defattr); 633 1.1 lonewolf 634 1.1 lonewolf newport_is_console = 1; 635 1.1 lonewolf 636 1.1 lonewolf return 0; 637 1.1 lonewolf } 638 1.1 lonewolf 639 1.10.58.1 jym static void 640 1.10.58.1 jym newport_init_screen(void *cookie, struct vcons_screen *scr, 641 1.10.58.1 jym int existing, long *defattr) 642 1.10.58.1 jym { 643 1.10.58.1 jym struct newport_devconfig *dc = cookie; 644 1.10.58.1 jym struct rasops_info *ri = &scr->scr_ri; 645 1.10.58.1 jym 646 1.10.58.1 jym ri->ri_depth = dc->dc_depth; 647 1.10.58.1 jym ri->ri_width = dc->dc_xres; 648 1.10.58.1 jym ri->ri_height = dc->dc_yres; 649 1.10.58.1 jym ri->ri_stride = dc->dc_xres; /* XXX */ 650 1.10.58.1 jym ri->ri_flg = RI_CENTER; 651 1.10.58.1 jym 652 1.10.58.1 jym /*&ri->ri_bits = (char *)sc->sc_fb.fb_pixels;*/ 653 1.10.58.1 jym 654 1.10.58.1 jym rasops_init(ri, dc->dc_yres / 8, dc->dc_xres / 8); 655 1.10.58.1 jym ri->ri_caps = WSSCREEN_WSCOLORS; 656 1.10.58.1 jym 657 1.10.58.1 jym rasops_reconfig(ri, dc->dc_yres / ri->ri_font->fontheight, 658 1.10.58.1 jym dc->dc_xres / ri->ri_font->fontwidth); 659 1.10.58.1 jym 660 1.10.58.1 jym ri->ri_hw = scr; 661 1.10.58.1 jym ri->ri_ops.copyrows = newport_copyrows; 662 1.10.58.1 jym ri->ri_ops.eraserows = newport_eraserows; 663 1.10.58.1 jym ri->ri_ops.copycols = newport_copycols; 664 1.10.58.1 jym ri->ri_ops.erasecols = newport_erasecols; 665 1.10.58.1 jym ri->ri_ops.cursor = newport_cursor; 666 1.10.58.1 jym ri->ri_ops.mapchar = newport_mapchar; 667 1.10.58.1 jym ri->ri_ops.putchar = newport_putchar; 668 1.10.58.1 jym ri->ri_ops.allocattr = newport_allocattr; 669 1.10.58.1 jym } 670 1.10.58.1 jym 671 1.1 lonewolf /**** wsdisplay textops ****/ 672 1.1 lonewolf static void 673 1.10.58.1 jym newport_cursor_dummy(void *c, int on, int row, int col) 674 1.10.58.1 jym { 675 1.10.58.1 jym } 676 1.10.58.1 jym 677 1.10.58.1 jym static void 678 1.1 lonewolf newport_cursor(void *c, int on, int row, int col) 679 1.1 lonewolf { 680 1.10.58.1 jym struct rasops_info *ri = c; 681 1.10.58.1 jym struct vcons_screen *scr = ri->ri_hw; 682 1.10.58.1 jym struct newport_devconfig *dc = scr->scr_cookie; 683 1.10.58.1 jym int x, y, wi,he; 684 1.10.58.1 jym 685 1.10.58.1 jym wi = ri->ri_font->fontwidth; 686 1.10.58.1 jym he = ri->ri_font->fontheight; 687 1.10.58.1 jym 688 1.10.58.1 jym if (ri->ri_flg & RI_CURSOR) { 689 1.10.58.1 jym x = ri->ri_ccol * wi + ri->ri_xorigin; 690 1.10.58.1 jym y = ri->ri_crow * he + ri->ri_yorigin; 691 1.10.58.1 jym newport_bitblt(dc, x, y, x, y, wi, he, 12); 692 1.10.58.1 jym ri->ri_flg &= ~RI_CURSOR; 693 1.10.58.1 jym } 694 1.10.58.1 jym 695 1.10.58.1 jym ri->ri_crow = row; 696 1.10.58.1 jym ri->ri_ccol = col; 697 1.10.58.1 jym 698 1.10.58.1 jym if (on) 699 1.10.58.1 jym { 700 1.10.58.1 jym x = ri->ri_ccol * wi + ri->ri_xorigin; 701 1.10.58.1 jym y = ri->ri_crow * he + ri->ri_yorigin; 702 1.10.58.1 jym newport_bitblt(dc, x, y, x, y, wi, he, 12); 703 1.10.58.1 jym ri->ri_flg |= RI_CURSOR; 704 1.1 lonewolf } 705 1.1 lonewolf } 706 1.1 lonewolf 707 1.1 lonewolf static int 708 1.1 lonewolf newport_mapchar(void *c, int ch, unsigned int *cp) 709 1.1 lonewolf { 710 1.10.58.1 jym struct rasops_info *ri = c; 711 1.10.58.1 jym struct vcons_screen *scr = ri->ri_hw; 712 1.10.58.1 jym struct newport_devconfig *dc = scr->scr_cookie; 713 1.1 lonewolf 714 1.1 lonewolf if (dc->dc_fontdata->encoding != WSDISPLAY_FONTENC_ISO) { 715 1.1 lonewolf ch = wsfont_map_unichar(dc->dc_fontdata, ch); 716 1.1 lonewolf 717 1.1 lonewolf if (ch < 0) 718 1.1 lonewolf goto fail; 719 1.1 lonewolf } 720 1.1 lonewolf 721 1.1 lonewolf if (ch < dc->dc_fontdata->firstchar || 722 1.1 lonewolf ch >= dc->dc_fontdata->firstchar + dc->dc_fontdata->numchars) 723 1.1 lonewolf goto fail; 724 1.1 lonewolf 725 1.1 lonewolf *cp = ch; 726 1.1 lonewolf return 5; 727 1.1 lonewolf 728 1.1 lonewolf fail: 729 1.1 lonewolf *cp = ' '; 730 1.1 lonewolf return 0; 731 1.1 lonewolf } 732 1.1 lonewolf 733 1.1 lonewolf static void 734 1.1 lonewolf newport_putchar(void *c, int row, int col, u_int ch, long attr) 735 1.1 lonewolf { 736 1.10.58.1 jym struct rasops_info *ri = c; 737 1.10.58.1 jym struct vcons_screen *scr = ri->ri_hw; 738 1.10.58.1 jym struct newport_devconfig *dc = scr->scr_cookie; 739 1.10.58.1 jym struct wsdisplay_font *font = ri->ri_font; 740 1.1 lonewolf uint8_t *bitmap = (u_int8_t *)font->data + (ch - font->firstchar) * 741 1.1 lonewolf font->fontheight * font->stride; 742 1.1 lonewolf uint32_t pattern; 743 1.1 lonewolf int i; 744 1.10.58.1 jym int x = col * font->fontwidth + ri->ri_xorigin; 745 1.10.58.1 jym int y = row * font->fontheight + ri->ri_yorigin; 746 1.1 lonewolf 747 1.1 lonewolf rex3_wait_gfifo(dc); 748 1.1 lonewolf 749 1.1 lonewolf rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_DRAW | 750 1.1 lonewolf REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_STOPONX | 751 1.1 lonewolf REX3_DRAWMODE0_ENZPATTERN | REX3_DRAWMODE0_ZPOPAQUE); 752 1.1 lonewolf 753 1.10.58.1 jym rex3_write(dc, REX3_REG_DRAWMODE1, 754 1.10.58.1 jym REX3_DRAWMODE1_PLANES_CI | 755 1.10.58.1 jym REX3_DRAWMODE1_DD_DD8 | 756 1.10.58.1 jym REX3_DRAWMODE1_RWPACKED | 757 1.10.58.1 jym REX3_DRAWMODE1_HD_HD8 | 758 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_LT | 759 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_EQ | 760 1.10.58.1 jym REX3_DRAWMODE1_COMPARE_GT | 761 1.10.58.1 jym REX3_DRAWMODE1_LO_SRC); 762 1.10.58.1 jym 763 1.1 lonewolf rex3_write(dc, REX3_REG_XYSTARTI, (x << REX3_XYSTARTI_XSHIFT) | y); 764 1.1 lonewolf rex3_write(dc, REX3_REG_XYENDI, 765 1.1 lonewolf (x + font->fontwidth - 1) << REX3_XYENDI_XSHIFT); 766 1.1 lonewolf 767 1.1 lonewolf rex3_write(dc, REX3_REG_COLORI, NEWPORT_ATTR_FG(attr)); 768 1.1 lonewolf rex3_write(dc, REX3_REG_COLORBACK, NEWPORT_ATTR_BG(attr)); 769 1.1 lonewolf 770 1.3 sekiya rex3_write(dc, REX3_REG_WRMASK, 0xffffffff); 771 1.1 lonewolf 772 1.10.58.1 jym for (i = 0; i < font->fontheight; i++) { 773 1.1 lonewolf /* XXX Works only with font->fontwidth == 8 XXX */ 774 1.1 lonewolf pattern = *bitmap << 24; 775 1.1 lonewolf 776 1.1 lonewolf rex3_write_go(dc, REX3_REG_ZPATTERN, pattern); 777 1.1 lonewolf 778 1.1 lonewolf bitmap += font->stride; 779 1.1 lonewolf } 780 1.1 lonewolf } 781 1.1 lonewolf 782 1.1 lonewolf static void 783 1.1 lonewolf newport_copycols(void *c, int row, int srccol, int dstcol, int ncols) 784 1.1 lonewolf { 785 1.10.58.1 jym struct rasops_info *ri = c; 786 1.10.58.1 jym struct vcons_screen *scr = ri->ri_hw; 787 1.10.58.1 jym struct newport_devconfig *dc = scr->scr_cookie; 788 1.10.58.1 jym int32_t xs, xd, y, width, height; 789 1.10.58.1 jym 790 1.10.58.1 jym xs = ri->ri_xorigin + ri->ri_font->fontwidth * srccol; 791 1.10.58.1 jym xd = ri->ri_xorigin + ri->ri_font->fontwidth * dstcol; 792 1.10.58.1 jym y = ri->ri_yorigin + ri->ri_font->fontheight * row; 793 1.10.58.1 jym width = ri->ri_font->fontwidth * ncols; 794 1.10.58.1 jym height = ri->ri_font->fontheight; 795 1.10.58.1 jym newport_bitblt(dc, xs, y, xd, y, width, height, 3); 796 1.1 lonewolf } 797 1.1 lonewolf 798 1.1 lonewolf static void 799 1.1 lonewolf newport_erasecols(void *c, int row, int startcol, int ncols, 800 1.1 lonewolf long attr) 801 1.1 lonewolf { 802 1.10.58.1 jym struct rasops_info *ri = c; 803 1.10.58.1 jym struct vcons_screen *scr = ri->ri_hw; 804 1.10.58.1 jym struct newport_devconfig *dc = scr->scr_cookie; 805 1.1 lonewolf struct wsdisplay_font *font = dc->dc_fontdata; 806 1.1 lonewolf 807 1.1 lonewolf newport_fill_rectangle(dc, 808 1.1 lonewolf startcol * font->fontwidth, /* x1 */ 809 1.1 lonewolf row * font->fontheight, /* y1 */ 810 1.10.58.1 jym (startcol + ncols) * font->fontwidth - 1, /* x2 */ 811 1.1 lonewolf (row + 1) * font->fontheight - 1, /* y2 */ 812 1.1 lonewolf NEWPORT_ATTR_BG(attr)); 813 1.1 lonewolf } 814 1.1 lonewolf 815 1.1 lonewolf static void 816 1.1 lonewolf newport_copyrows(void *c, int srcrow, int dstrow, int nrows) 817 1.1 lonewolf { 818 1.10.58.1 jym struct rasops_info *ri = c; 819 1.10.58.1 jym struct vcons_screen *scr = ri->ri_hw; 820 1.10.58.1 jym struct newport_devconfig *dc = scr->scr_cookie; 821 1.10.58.1 jym int32_t x, ys, yd, width, height; 822 1.10.58.1 jym 823 1.10.58.1 jym x = ri->ri_xorigin; 824 1.10.58.1 jym ys = ri->ri_yorigin + ri->ri_font->fontheight * srcrow; 825 1.10.58.1 jym yd = ri->ri_yorigin + ri->ri_font->fontheight * dstrow; 826 1.10.58.1 jym width = ri->ri_emuwidth; 827 1.10.58.1 jym height = ri->ri_font->fontheight * nrows; 828 1.1 lonewolf 829 1.10.58.1 jym newport_bitblt(dc, x, ys, x, yd, width, height, 3); 830 1.1 lonewolf } 831 1.1 lonewolf 832 1.1 lonewolf static void 833 1.1 lonewolf newport_eraserows(void *c, int startrow, int nrows, long attr) 834 1.1 lonewolf { 835 1.10.58.1 jym struct rasops_info *ri = c; 836 1.10.58.1 jym struct vcons_screen *scr = ri->ri_hw; 837 1.10.58.1 jym struct newport_devconfig *dc = scr->scr_cookie; 838 1.1 lonewolf struct wsdisplay_font *font = dc->dc_fontdata; 839 1.1 lonewolf 840 1.1 lonewolf newport_fill_rectangle(dc, 841 1.1 lonewolf 0, /* x1 */ 842 1.1 lonewolf startrow * font->fontheight, /* y1 */ 843 1.1 lonewolf dc->dc_xres, /* x2 */ 844 1.10.58.1 jym (startrow + nrows) * font->fontheight - 1, /* y2 */ 845 1.1 lonewolf NEWPORT_ATTR_BG(attr)); 846 1.1 lonewolf } 847 1.1 lonewolf 848 1.1 lonewolf static int 849 1.1 lonewolf newport_allocattr(void *c, int fg, int bg, int flags, long *attr) 850 1.1 lonewolf { 851 1.1 lonewolf if (flags & WSATTR_BLINK) 852 1.1 lonewolf return EINVAL; 853 1.1 lonewolf 854 1.1 lonewolf if ((flags & WSATTR_WSCOLORS) == 0) { 855 1.1 lonewolf fg = WSCOL_WHITE; 856 1.1 lonewolf bg = WSCOL_BLACK; 857 1.1 lonewolf } 858 1.1 lonewolf 859 1.1 lonewolf if (flags & WSATTR_HILIT) 860 1.1 lonewolf fg += 8; 861 1.1 lonewolf 862 1.1 lonewolf if (flags & WSATTR_REVERSE) { 863 1.1 lonewolf int tmp = fg; 864 1.1 lonewolf fg = bg; 865 1.1 lonewolf bg = tmp; 866 1.1 lonewolf } 867 1.1 lonewolf 868 1.1 lonewolf *attr = NEWPORT_ATTR_ENCODE(fg, bg); 869 1.1 lonewolf 870 1.1 lonewolf return 0; 871 1.1 lonewolf } 872 1.1 lonewolf 873 1.1 lonewolf /**** wsdisplay accessops ****/ 874 1.1 lonewolf 875 1.1 lonewolf static int 876 1.10.58.1 jym newport_ioctl(void *v, void *vs, u_long cmd, void *data, int flag, 877 1.7 jmmv struct lwp *l) 878 1.1 lonewolf { 879 1.10.58.1 jym struct vcons_data *vd; 880 1.10.58.1 jym struct newport_devconfig *dc; 881 1.10.58.1 jym struct vcons_screen *ms; 882 1.10.58.1 jym int nmode; 883 1.10.58.1 jym 884 1.10.58.1 jym vd = (struct vcons_data *)v; 885 1.10.58.1 jym dc = (struct newport_devconfig *)vd->cookie; 886 1.10.58.1 jym ms = (struct vcons_screen *)vd->active; 887 1.3 sekiya 888 1.3 sekiya #define FBINFO (*(struct wsdisplay_fbinfo*)data) 889 1.3 sekiya 890 1.3 sekiya switch (cmd) { 891 1.3 sekiya case WSDISPLAYIO_GINFO: 892 1.10.58.1 jym FBINFO.width = dc->dc_xres; 893 1.10.58.1 jym FBINFO.height = dc->dc_yres; 894 1.10.58.1 jym FBINFO.depth = dc->dc_depth; 895 1.3 sekiya FBINFO.cmsize = 1 << FBINFO.depth; 896 1.3 sekiya return 0; 897 1.3 sekiya case WSDISPLAYIO_GTYPE: 898 1.3 sekiya *(u_int *)data = WSDISPLAY_TYPE_NEWPORT; 899 1.3 sekiya return 0; 900 1.10.58.1 jym case WSDISPLAYIO_SMODE: 901 1.10.58.1 jym nmode = *(int *)data; 902 1.10.58.1 jym if (nmode != dc->dc_mode) { 903 1.10.58.1 jym dc->dc_mode = nmode; 904 1.10.58.1 jym if (nmode == WSDISPLAYIO_MODE_EMUL) { 905 1.10.58.1 jym rex3_wait_gfifo(dc); 906 1.10.58.1 jym newport_setup_hw(dc); 907 1.10.58.1 jym vcons_redraw_screen(vd->active); 908 1.10.58.1 jym } 909 1.10.58.1 jym } 910 1.10.58.1 jym return 0; 911 1.3 sekiya } 912 1.1 lonewolf return EPASSTHROUGH; 913 1.1 lonewolf } 914 1.1 lonewolf 915 1.1 lonewolf static paddr_t 916 1.10.58.1 jym newport_mmap(void *v, void *vs, off_t offset, int prot) 917 1.1 lonewolf { 918 1.10.58.1 jym struct vcons_data *vd; 919 1.10.58.1 jym struct newport_devconfig *dc; 920 1.10.58.1 jym 921 1.10.58.1 jym vd = (struct vcons_data *)v; 922 1.10.58.1 jym dc = (struct newport_devconfig *)vd->cookie; 923 1.5 sekiya 924 1.5 sekiya if ( offset >= 0xfffff) 925 1.5 sekiya return -1; 926 1.5 sekiya 927 1.5 sekiya return mips_btop(dc->dc_addr + offset); 928 1.1 lonewolf } 929
Indexes created Sun Oct 26 20:09:54 GMT 2025