mq200subr.c revision 1.5
1 1.5 takemura /* $NetBSD: mq200subr.c,v 1.5 2003/12/27 05:47:54 takemura Exp $ */ 2 1.1 takemura 3 1.1 takemura /*- 4 1.1 takemura * Copyright (c) 2001 TAKEMURA Shin 5 1.1 takemura * All rights reserved. 6 1.1 takemura * 7 1.1 takemura * Redistribution and use in source and binary forms, with or without 8 1.1 takemura * modification, are permitted provided that the following conditions 9 1.1 takemura * are met: 10 1.1 takemura * 1. Redistributions of source code must retain the above copyright 11 1.1 takemura * notice, this list of conditions and the following disclaimer. 12 1.1 takemura * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 takemura * notice, this list of conditions and the following disclaimer in the 14 1.1 takemura * documentation and/or other materials provided with the distribution. 15 1.1 takemura * 3. The name of the author may not be used to endorse or promote products 16 1.1 takemura * derived from this software without specific prior written permission. 17 1.1 takemura * 18 1.1 takemura * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 19 1.1 takemura * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 20 1.1 takemura * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 21 1.1 takemura * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 22 1.1 takemura * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 23 1.1 takemura * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 24 1.1 takemura * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 25 1.1 takemura * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 26 1.1 takemura * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27 1.1 takemura * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 1.1 takemura * SUCH DAMAGE. 29 1.1 takemura * 30 1.1 takemura */ 31 1.1 takemura 32 1.1 takemura #ifdef _KERNEL 33 1.4 lukem #include <sys/cdefs.h> 34 1.5 takemura __KERNEL_RCSID(0, "$NetBSD: mq200subr.c,v 1.5 2003/12/27 05:47:54 takemura Exp $"); 35 1.4 lukem 36 1.1 takemura #include <sys/param.h> 37 1.1 takemura #include <sys/kernel.h> 38 1.1 takemura #include <sys/systm.h> 39 1.1 takemura #include <sys/device.h> 40 1.1 takemura #else 41 1.1 takemura #include <stdio.h> 42 1.1 takemura #endif 43 1.1 takemura #include <sys/types.h> 44 1.1 takemura 45 1.1 takemura #include <machine/platid.h> 46 1.1 takemura #include <machine/platid_mask.h> 47 1.1 takemura 48 1.1 takemura #include "opt_mq200.h" 49 1.1 takemura #include "mq200var.h" 50 1.1 takemura #include "mq200reg.h" 51 1.1 takemura #include "mq200priv.h" 52 1.1 takemura 53 1.1 takemura #define ABS(a) ((a) < 0 ? -(a) : (a)) 54 1.1 takemura 55 1.1 takemura int mq200_depth_table[] = { 56 1.1 takemura [MQ200_GCC_1BPP] = 1, 57 1.1 takemura [MQ200_GCC_2BPP] = 2, 58 1.1 takemura [MQ200_GCC_4BPP] = 4, 59 1.1 takemura [MQ200_GCC_8BPP] = 8, 60 1.1 takemura [MQ200_GCC_16BPP] = 16, 61 1.1 takemura [MQ200_GCC_24BPP] = 32, 62 1.1 takemura [MQ200_GCC_ARGB888] = 32, 63 1.1 takemura [MQ200_GCC_ABGR888] = 32, 64 1.1 takemura [MQ200_GCC_16BPP_DIRECT] = 16, 65 1.1 takemura [MQ200_GCC_24BPP_DIRECT] = 32, 66 1.1 takemura [MQ200_GCC_ARGB888_DIRECT] = 32, 67 1.1 takemura [MQ200_GCC_ABGR888_DIRECT] = 32, 68 1.1 takemura }; 69 1.1 takemura 70 1.1 takemura struct mq200_crt_param mq200_crt_params[] = { 71 1.1 takemura [MQ200_CRT_640x480_60Hz] = 72 1.1 takemura { 640, 480, 25175, /* width, height, dot clock */ 73 1.1 takemura 800, /* HD Total */ 74 1.1 takemura 525, /* VD Total */ 75 1.1 takemura 656, 752, /* HS Start, HS End */ 76 1.1 takemura 490, 492, /* VS Start, VS End */ 77 1.1 takemura (MQ200_GC1CRTC_HSYNC_ACTVLOW | 78 1.1 takemura MQ200_GC1CRTC_VSYNC_ACTVLOW | 79 1.1 takemura MQ200_GC1CRTC_BLANK_PEDESTAL_EN), 80 1.1 takemura }, 81 1.1 takemura [MQ200_CRT_800x600_60Hz] = 82 1.1 takemura { 800, 600, 40000, /* width, height, dot clock */ 83 1.1 takemura 1054, /* HD Total */ 84 1.1 takemura 628, /* VD Total */ 85 1.1 takemura 839, 967, /* HS Start, HS End */ 86 1.1 takemura 601, 605, /* VS Start, VS End */ 87 1.1 takemura MQ200_GC1CRTC_BLANK_PEDESTAL_EN, 88 1.1 takemura }, 89 1.1 takemura [MQ200_CRT_1024x768_60Hz] = 90 1.1 takemura { 1024, 768, 65000, /* width, height, dot clock */ 91 1.1 takemura 1344, /* HD Total */ 92 1.1 takemura 806, /* VD Total */ 93 1.1 takemura 1048, 1184, /* HS Start, HS End */ 94 1.1 takemura 771, 777, /* VS Start, VS End */ 95 1.1 takemura (MQ200_GC1CRTC_HSYNC_ACTVLOW | 96 1.1 takemura MQ200_GC1CRTC_VSYNC_ACTVLOW | 97 1.1 takemura MQ200_GC1CRTC_BLANK_PEDESTAL_EN), 98 1.1 takemura }, 99 1.1 takemura }; 100 1.1 takemura 101 1.1 takemura int mq200_crt_nparams = sizeof(mq200_crt_params)/sizeof(*mq200_crt_params); 102 1.1 takemura 103 1.1 takemura /* 104 1.1 takemura * get PLL setting register value for given frequency 105 1.1 takemura */ 106 1.5 takemura int 107 1.1 takemura mq200_pllparam(int reqout, u_int32_t *res) 108 1.1 takemura { 109 1.1 takemura int n, m, p, out; 110 1.1 takemura int ref = 12288; 111 1.1 takemura int bn, bm, bp, e; 112 1.1 takemura 113 1.1 takemura e = ref; 114 1.5 takemura bn = 0; bp = 0; bm = 0; 115 1.1 takemura for (p = 0; p <= 4; p++) { 116 1.1 takemura for (n = 0; n < (1<<5); n++) { 117 1.1 takemura m = (reqout * ((n + 1) << p)) / ref - 1; 118 1.1 takemura out = ref * (m + 1) / ((n + 1) << p); 119 1.1 takemura if (0xff < m) 120 1.1 takemura break; 121 1.1 takemura if (40 <= m && 122 1.1 takemura 1000 <= ref/(n + 1) && 123 1.1 takemura 170000 <= ref*(m+1)/(n+1) && 124 1.1 takemura ref*(m+1)/(n+1) <= 340000 && 125 1.1 takemura ABS(reqout - out) <= e) { 126 1.1 takemura e = ABS(reqout - out); 127 1.1 takemura bn = n; 128 1.1 takemura bm = m; 129 1.1 takemura bp = p; 130 1.1 takemura } 131 1.1 takemura } 132 1.1 takemura } 133 1.5 takemura if (ref <= e) 134 1.5 takemura return (-1); 135 1.1 takemura 136 1.1 takemura #if 0 137 1.1 takemura out = ref * (bm + 1) / ((bn + 1) << bp); 138 1.1 takemura printf("PLL: %d.%03d x (%d+1) / (%d+1) / %d = %d.%03d\n", 139 1.1 takemura ref / 1000, ref % 1000, bm, bn, (1<<bp), 140 1.1 takemura out / 1000, out % 1000); 141 1.1 takemura #endif 142 1.1 takemura *res = ((bm << MQ200_PLL_M_SHIFT) | 143 1.1 takemura (bn << MQ200_PLL_N_SHIFT) | 144 1.1 takemura (bp << MQ200_PLL_P_SHIFT)); 145 1.5 takemura 146 1.5 takemura return (0); 147 1.1 takemura } 148 1.1 takemura 149 1.1 takemura void 150 1.1 takemura mq200_set_pll(struct mq200_softc *sc, int pll, int clock) 151 1.1 takemura { 152 1.1 takemura struct mq200_regctx *paramreg, *enreg; 153 1.1 takemura u_int32_t param, enbit; 154 1.1 takemura 155 1.1 takemura switch (pll) { 156 1.1 takemura case MQ200_CLOCK_PLL1: 157 1.1 takemura paramreg = &sc->sc_regctxs[MQ200_I_PLL(1)]; 158 1.1 takemura enreg = &sc->sc_regctxs[MQ200_I_DCMISC]; 159 1.1 takemura enbit = MQ200_DCMISC_PLL1_ENABLE; 160 1.1 takemura break; 161 1.1 takemura case MQ200_CLOCK_PLL2: 162 1.1 takemura paramreg = &sc->sc_regctxs[MQ200_I_PLL(2)]; 163 1.1 takemura enreg = &sc->sc_regctxs[MQ200_I_PMC]; 164 1.1 takemura enbit = MQ200_PMC_PLL2_ENABLE; 165 1.1 takemura break; 166 1.1 takemura case MQ200_CLOCK_PLL3: 167 1.1 takemura paramreg = &sc->sc_regctxs[MQ200_I_PLL(3)]; 168 1.1 takemura enreg = &sc->sc_regctxs[MQ200_I_PMC]; 169 1.1 takemura enbit = MQ200_PMC_PLL3_ENABLE; 170 1.1 takemura break; 171 1.1 takemura default: 172 1.1 takemura printf("mq200: invalid PLL: %d\n", pll); 173 1.1 takemura return; 174 1.1 takemura } 175 1.1 takemura if (clock != 0 && clock != -1) { 176 1.1 takemura /* PLL Programming */ 177 1.5 takemura if (mq200_pllparam(clock, ¶m) != 0) { 178 1.5 takemura printf("mq200: invalid clock rate: %s %d.%03dMHz\n", 179 1.5 takemura mq200_clknames[pll], clock/1000, clock%1000); 180 1.5 takemura return; 181 1.5 takemura } 182 1.1 takemura mq200_mod(sc, paramreg, MQ200_PLL_PARAM_MASK, param); 183 1.1 takemura /* enable PLL */ 184 1.1 takemura mq200_on(sc, enreg, enbit); 185 1.1 takemura } 186 1.1 takemura 187 1.1 takemura DPRINTF("%s %d.%03dMHz\n", 188 1.1 takemura mq200_clknames[pll], clock/1000, clock%1000); 189 1.1 takemura } 190 1.1 takemura 191 1.1 takemura void 192 1.1 takemura mq200_setup_regctx(struct mq200_softc *sc) 193 1.1 takemura { 194 1.1 takemura int i; 195 1.1 takemura static int offsets[MQ200_I_MAX] = { 196 1.1 takemura [MQ200_I_DCMISC] = MQ200_DCMISCR, 197 1.1 takemura [MQ200_I_PLL(2)] = MQ200_PLL2R, 198 1.1 takemura [MQ200_I_PLL(3)] = MQ200_PLL3R, 199 1.1 takemura [MQ200_I_PMC] = MQ200_PMCR, 200 1.1 takemura [MQ200_I_MM01] = MQ200_MMR(1), 201 1.1 takemura [MQ200_I_GCC(MQ200_GC1)] = MQ200_GCCR(MQ200_GC1), 202 1.1 takemura [MQ200_I_GCC(MQ200_GC2)] = MQ200_GCCR(MQ200_GC2), 203 1.1 takemura }; 204 1.1 takemura 205 1.1 takemura for (i = 0; i < sizeof(offsets)/sizeof(*offsets); i++) { 206 1.1 takemura if (offsets[i] == 0) 207 1.1 takemura #ifdef MQ200_DEBUG 208 1.2 takemura if (i != MQ200_I_PMC) 209 1.3 provos panic("%s(%d): register context %d is empty", 210 1.2 takemura __FILE__, __LINE__, i); 211 1.1 takemura #endif 212 1.1 takemura sc->sc_regctxs[i].offset = offsets[i]; 213 1.1 takemura } 214 1.1 takemura } 215 1.1 takemura 216 1.1 takemura void 217 1.1 takemura mq200_setup(struct mq200_softc *sc) 218 1.1 takemura { 219 1.1 takemura const struct mq200_clock_setting *clock; 220 1.1 takemura const struct mq200_crt_param *crt; 221 1.1 takemura 222 1.1 takemura clock = &sc->sc_md->md_clock_settings[sc->sc_flags & MQ200_SC_GC_MASK]; 223 1.1 takemura crt = sc->sc_crt; 224 1.1 takemura 225 1.1 takemura /* disable GC1 and GC2 */ 226 1.1 takemura //mq200_write(sc, MQ200_GCCR(MQ200_GC1), 0); 227 1.1 takemura mq200_write2(sc, &sc->sc_regctxs[MQ200_I_GCC(MQ200_GC1)], 0); 228 1.1 takemura mq200_write(sc, MQ200_GC1CRTCR, 0); 229 1.1 takemura //mq200_write(sc, MQ200_GCCR(MQ200_GC2), 0); 230 1.1 takemura mq200_write2(sc, &sc->sc_regctxs[MQ200_I_GCC(MQ200_GC2)], 0); 231 1.1 takemura 232 1.1 takemura while (mq200_read(sc, MQ200_PMCR) & MQ200_PMC_SEQPROGRESS) 233 1.1 takemura /* busy wait */; 234 1.1 takemura 235 1.1 takemura /* 236 1.1 takemura * setup around clock 237 1.1 takemura */ 238 1.1 takemura /* setup eatch PLLs */ 239 1.1 takemura mq200_set_pll(sc, MQ200_CLOCK_PLL1, clock->pll1); 240 1.1 takemura mq200_set_pll(sc, MQ200_CLOCK_PLL2, clock->pll2); 241 1.1 takemura mq200_set_pll(sc, MQ200_CLOCK_PLL3, clock->pll3); 242 1.1 takemura if (sc->sc_flags & MQ200_SC_GC1_ENABLE) 243 1.1 takemura mq200_set_pll(sc, clock->gc[MQ200_GC1], crt->clock); 244 1.1 takemura 245 1.1 takemura /* setup MEMORY clock */ 246 1.1 takemura if (clock->mem == MQ200_CLOCK_PLL2) 247 1.1 takemura mq200_on(sc, &sc->sc_regctxs[MQ200_I_MM01], 248 1.1 takemura MQ200_MM01_CLK_PLL2); 249 1.1 takemura else 250 1.1 takemura mq200_off(sc, &sc->sc_regctxs[MQ200_I_MM01], 251 1.1 takemura MQ200_MM01_CLK_PLL2); 252 1.1 takemura DPRINTF("MEM: PLL%d\n", (clock->mem == MQ200_CLOCK_PLL2)?2:1); 253 1.1 takemura 254 1.1 takemura /* setup GE clock */ 255 1.1 takemura mq200_mod(sc, &sc->sc_regctxs[MQ200_I_PMC], 256 1.1 takemura MQ200_PMC_GE_CLK_MASK | MQ200_PMC_GE_ENABLE, 257 1.1 takemura (clock->ge << MQ200_PMC_GE_CLK_SHIFT) | MQ200_PMC_GE_ENABLE); 258 1.1 takemura DPRINTF(" GE: PLL%d\n", clock->ge); 259 1.1 takemura 260 1.1 takemura /* 261 1.1 takemura * setup GC1 (CRT contoller) 262 1.1 takemura */ 263 1.1 takemura if (sc->sc_flags & MQ200_SC_GC1_ENABLE) { 264 1.1 takemura /* GC03R Horizontal Display Control */ 265 1.1 takemura mq200_write(sc, MQ200_GCHDCR(MQ200_GC1), 266 1.1 takemura (((u_int32_t)crt->hdtotal-2)<<MQ200_GC1HDC_TOTAL_SHIFT) | 267 1.1 takemura ((u_int32_t)crt->width << MQ200_GCHDC_END_SHIFT)); 268 1.1 takemura 269 1.1 takemura /* GC03R Vertical Display Control */ 270 1.1 takemura mq200_write(sc, MQ200_GCVDCR(MQ200_GC1), 271 1.1 takemura (((u_int32_t)crt->vdtotal-1)<<MQ200_GC1VDC_TOTAL_SHIFT) | 272 1.1 takemura (((u_int32_t)crt->height - 1) << MQ200_GCVDC_END_SHIFT)); 273 1.1 takemura 274 1.1 takemura /* GC04R Horizontal Sync Control */ 275 1.1 takemura mq200_write(sc, MQ200_GCHSCR(MQ200_GC1), 276 1.1 takemura ((u_int32_t)crt->hsstart << MQ200_GCHSC_START_SHIFT) | 277 1.1 takemura ((u_int32_t)crt->hsend << MQ200_GCHSC_END_SHIFT)); 278 1.1 takemura 279 1.1 takemura /* GC05R Vertical Sync Control */ 280 1.1 takemura mq200_write(sc, MQ200_GCVSCR(MQ200_GC1), 281 1.1 takemura ((u_int32_t)crt->vsstart << MQ200_GCVSC_START_SHIFT) | 282 1.1 takemura ((u_int32_t)crt->vsend << MQ200_GCVSC_END_SHIFT)); 283 1.1 takemura 284 1.1 takemura /* GC00R GC1 Control */ 285 1.1 takemura //mq200_write(sc, MQ200_GCCR(MQ200_GC1), 286 1.1 takemura mq200_write2(sc, &sc->sc_regctxs[MQ200_I_GCC(MQ200_GC1)], 287 1.1 takemura (MQ200_GCC_ENABLE | 288 1.1 takemura (clock->gc[MQ200_GC1] << MQ200_GCC_RCLK_SHIFT) | 289 1.1 takemura MQ200_GCC_MCLK_FD_1 | 290 1.1 takemura (1 << MQ200_GCC_MCLK_SD_SHIFT))); 291 1.1 takemura 292 1.1 takemura /* GC01R CRT Control */ 293 1.1 takemura mq200_write(sc, MQ200_GC1CRTCR, 294 1.1 takemura MQ200_GC1CRTC_DACEN | crt->opt); 295 1.1 takemura 296 1.1 takemura sc->sc_width[MQ200_GC1] = crt->width; 297 1.1 takemura sc->sc_height[MQ200_GC1] = crt->height; 298 1.1 takemura 299 1.1 takemura DPRINTF("GC1: %s\n", 300 1.1 takemura mq200_clknames[clock->gc[MQ200_GC1]]); 301 1.1 takemura } 302 1.1 takemura 303 1.1 takemura while (mq200_read(sc, MQ200_PMCR) & MQ200_PMC_SEQPROGRESS) 304 1.1 takemura /* busy wait */; 305 1.1 takemura 306 1.1 takemura /* 307 1.1 takemura * setup GC2 (FP contoller) 308 1.1 takemura */ 309 1.1 takemura if (sc->sc_flags & MQ200_SC_GC2_ENABLE) { 310 1.1 takemura //mq200_write(sc, MQ200_GCCR(MQ200_GC2), 311 1.1 takemura mq200_write2(sc, &sc->sc_regctxs[MQ200_I_GCC(MQ200_GC2)], 312 1.1 takemura MQ200_GCC_ENABLE | 313 1.1 takemura (clock->gc[MQ200_GC2] << MQ200_GCC_RCLK_SHIFT) | 314 1.1 takemura MQ200_GCC_MCLK_FD_1 | (1 << MQ200_GCC_MCLK_SD_SHIFT)); 315 1.1 takemura DPRINTF("GC2: %s\n", 316 1.1 takemura mq200_clknames[clock->gc[MQ200_GC2]]); 317 1.1 takemura } 318 1.1 takemura 319 1.1 takemura while (mq200_read(sc, MQ200_PMCR) & MQ200_PMC_SEQPROGRESS) 320 1.1 takemura /* busy wait */; 321 1.1 takemura 322 1.1 takemura /* 323 1.1 takemura * disable unused PLLs 324 1.1 takemura */ 325 1.1 takemura if (clock->pll1 == 0) { 326 1.1 takemura DPRINTF("PLL1 disable\n"); 327 1.1 takemura mq200_off(sc, &sc->sc_regctxs[MQ200_I_DCMISC], 328 1.1 takemura MQ200_DCMISC_PLL1_ENABLE); 329 1.1 takemura } 330 1.1 takemura if (clock->pll2 == 0) { 331 1.1 takemura DPRINTF("PLL2 disable\n"); 332 1.1 takemura mq200_off(sc, &sc->sc_regctxs[MQ200_I_PMC], 333 1.1 takemura MQ200_PMC_PLL2_ENABLE); 334 1.1 takemura } 335 1.1 takemura if (clock->pll3 == 0) { 336 1.1 takemura DPRINTF("PLL3 disable\n"); 337 1.1 takemura mq200_off(sc, &sc->sc_regctxs[MQ200_I_PMC], 338 1.1 takemura MQ200_PMC_PLL3_ENABLE); 339 1.1 takemura } 340 1.1 takemura } 341 1.1 takemura 342 1.1 takemura void 343 1.1 takemura mq200_win_enable(struct mq200_softc *sc, int gc, 344 1.1 takemura u_int32_t depth, u_int32_t start, 345 1.1 takemura int width, int height, int stride) 346 1.1 takemura { 347 1.1 takemura 348 1.1 takemura DPRINTF("enable window on GC%d: %dx%d(%dx%d)\n", 349 1.1 takemura gc + 1, width, height, sc->sc_width[gc], sc->sc_height[gc]); 350 1.1 takemura 351 1.1 takemura if (sc->sc_width[gc] < width) { 352 1.1 takemura if (mq200_depth_table[depth]) 353 1.1 takemura start += (height - sc->sc_height[gc]) * 354 1.1 takemura mq200_depth_table[depth] / 8; 355 1.1 takemura width = sc->sc_width[gc]; 356 1.1 takemura } 357 1.1 takemura 358 1.1 takemura if (sc->sc_height[gc] < height) { 359 1.1 takemura start += (height - sc->sc_height[gc]) * stride; 360 1.1 takemura height = sc->sc_height[gc]; 361 1.1 takemura } 362 1.1 takemura 363 1.1 takemura /* GC08R Window Horizontal Control */ 364 1.1 takemura mq200_write(sc, MQ200_GCWHCR(gc), 365 1.1 takemura (((u_int32_t)width - 1) << MQ200_GCWHC_WIDTH_SHIFT) | 366 1.1 takemura ((sc->sc_width[gc] - width)/2)); 367 1.1 takemura 368 1.1 takemura /* GC09R Window Vertical Control */ 369 1.1 takemura mq200_write(sc, MQ200_GCWVCR(gc), 370 1.1 takemura (((u_int32_t)height - 1) << MQ200_GCWVC_HEIGHT_SHIFT) | 371 1.1 takemura ((sc->sc_height[gc] - height)/2)); 372 1.1 takemura 373 1.1 takemura /* GC00R GC Control */ 374 1.1 takemura mq200_mod(sc, &sc->sc_regctxs[MQ200_I_GCC(gc)], 375 1.1 takemura (MQ200_GCC_WINEN | MQ200_GCC_DEPTH_MASK), 376 1.1 takemura (MQ200_GCC_WINEN | (depth << MQ200_GCC_DEPTH_SHIFT))); 377 1.1 takemura } 378 1.1 takemura 379 1.1 takemura void 380 1.1 takemura mq200_win_disable(struct mq200_softc *sc, int gc) 381 1.1 takemura { 382 1.1 takemura /* GC00R GC Control */ 383 1.1 takemura mq200_off(sc, &sc->sc_regctxs[MQ200_I_GCC(gc)], MQ200_GCC_WINEN); 384 1.1 takemura } 385
Indexes created Tue Sep 23 07:09:52 GMT 2025