mga_dacG.c revision fbbb26a6
1fe5e51b7Smrg/* 2fe5e51b7Smrg * MGA-1064, MGA-G100, MGA-G200, MGA-G400, MGA-G550 RAMDAC driver 3fe5e51b7Smrg */ 4fe5e51b7Smrg 5fe5e51b7Smrg#ifdef HAVE_CONFIG_H 6fe5e51b7Smrg#include "config.h" 7fe5e51b7Smrg#endif 8fe5e51b7Smrg 9fe5e51b7Smrg#include "colormapst.h" 10fe5e51b7Smrg 11fe5e51b7Smrg/* All drivers should typically include these */ 12fe5e51b7Smrg#include "xf86.h" 13fe5e51b7Smrg#include "xf86_OSproc.h" 14fe5e51b7Smrg 15fe5e51b7Smrg/* Drivers that need to access the PCI config space directly need this */ 16fe5e51b7Smrg#include "xf86Pci.h" 17fe5e51b7Smrg 18fe5e51b7Smrg#include "mga_reg.h" 19fe5e51b7Smrg#include "mga.h" 20fe5e51b7Smrg#include "mga_macros.h" 21fe5e51b7Smrg#include "mga_maven.h" 22fe5e51b7Smrg 23fe5e51b7Smrg#include "xf86DDC.h" 24fe5e51b7Smrg 25fe5e51b7Smrg#include <stdlib.h> 26fe5e51b7Smrg#include <unistd.h> 27fe5e51b7Smrg 28fe5e51b7Smrg/* 29fe5e51b7Smrg * implementation 30fe5e51b7Smrg */ 31fe5e51b7Smrg 32fe5e51b7Smrg#define DACREGSIZE 0x50 33fe5e51b7Smrg 34fe5e51b7Smrg/* 35fe5e51b7Smrg * Only change bits shown in this mask. Ideally reserved bits should be 36fe5e51b7Smrg * zeroed here. Also, don't change the vgaioen bit here since it is 37fe5e51b7Smrg * controlled elsewhere. 38fe5e51b7Smrg * 39fe5e51b7Smrg * XXX These settings need to be checked. 40fe5e51b7Smrg */ 41fe5e51b7Smrg#define OPTION1_MASK 0xFFFFFEFF 42fe5e51b7Smrg#define OPTION2_MASK 0xFFFFFFFF 43fe5e51b7Smrg#define OPTION3_MASK 0xFFFFFFFF 44fe5e51b7Smrg 45fe5e51b7Smrg#define OPTION1_MASK_PRIMARY 0xFFFC0FF 46fe5e51b7Smrg 47fe5e51b7Smrgstatic void MGAGRamdacInit(ScrnInfoPtr); 48fe5e51b7Smrgstatic void MGAGSave(ScrnInfoPtr, vgaRegPtr, MGARegPtr, Bool); 49fe5e51b7Smrgstatic void MGAGRestore(ScrnInfoPtr, vgaRegPtr, MGARegPtr, Bool); 50fe5e51b7Smrgstatic Bool MGAGInit(ScrnInfoPtr, DisplayModePtr); 51fe5e51b7Smrgstatic void MGAGLoadPalette(ScrnInfoPtr, int, int*, LOCO*, VisualPtr); 52fe5e51b7Smrgstatic Bool MGAG_i2cInit(ScrnInfoPtr pScrn); 53fe5e51b7Smrg 54fe5e51b7Smrgstatic void 55fe5e51b7SmrgMGAG200SEComputePLLParam(ScrnInfoPtr pScrn, long lFo, int *M, int *N, int *P) 56fe5e51b7Smrg{ 57fe5e51b7Smrg unsigned int ulComputedFo; 58fe5e51b7Smrg unsigned int ulFDelta; 59fe5e51b7Smrg unsigned int ulFPermitedDelta; 60fe5e51b7Smrg unsigned int ulFTmpDelta; 61fe5e51b7Smrg unsigned int ulVCOMax, ulVCOMin; 62fe5e51b7Smrg unsigned int ulTestP; 63fe5e51b7Smrg unsigned int ulTestM; 64fe5e51b7Smrg unsigned int ulTestN; 65fe5e51b7Smrg unsigned int ulPLLFreqRef; 66fe5e51b7Smrg 67fe5e51b7Smrg ulVCOMax = 320000; 68fe5e51b7Smrg ulVCOMin = 160000; 69fe5e51b7Smrg ulPLLFreqRef = 25000; 70fe5e51b7Smrg 71fe5e51b7Smrg ulFDelta = 0xFFFFFFFF; 72fe5e51b7Smrg /* Permited delta is 0.5% as VESA Specification */ 73fe5e51b7Smrg ulFPermitedDelta = lFo * 5 / 1000; 74fe5e51b7Smrg 75fe5e51b7Smrg /* Then we need to minimize the M while staying within 0.5% */ 76fe5e51b7Smrg for (ulTestP = 8; ulTestP > 0; ulTestP >>= 1) { 77eda3803bSmrg if ((lFo * ulTestP) > ulVCOMax) continue; 78eda3803bSmrg if ((lFo * ulTestP) < ulVCOMin) continue; 79eda3803bSmrg 80eda3803bSmrg for (ulTestN = 17; ulTestN <= 256; ulTestN++) { 81eda3803bSmrg for (ulTestM = 1; ulTestM <= 32; ulTestM++) { 82eda3803bSmrg ulComputedFo = (ulPLLFreqRef * ulTestN) / (ulTestM * ulTestP); 83eda3803bSmrg if (ulComputedFo > lFo) 84eda3803bSmrg ulFTmpDelta = ulComputedFo - lFo; 85eda3803bSmrg else 86eda3803bSmrg ulFTmpDelta = lFo - ulComputedFo; 87eda3803bSmrg 88eda3803bSmrg if (ulFTmpDelta < ulFDelta) { 89eda3803bSmrg ulFDelta = ulFTmpDelta; 90eda3803bSmrg *M = ulTestM - 1; 91eda3803bSmrg *N = ulTestN - 1; 92eda3803bSmrg *P = ulTestP - 1; 93eda3803bSmrg } 94eda3803bSmrg } 95eda3803bSmrg } 96eda3803bSmrg } 97eda3803bSmrg} 98eda3803bSmrg 99eda3803bSmrgstatic void 100eda3803bSmrgMGAG200EVComputePLLParam(ScrnInfoPtr pScrn, long lFo, int *M, int *N, int *P) 101eda3803bSmrg{ 102eda3803bSmrg unsigned int ulComputedFo; 103eda3803bSmrg unsigned int ulFDelta; 104eda3803bSmrg unsigned int ulFPermitedDelta; 105eda3803bSmrg unsigned int ulFTmpDelta; 106eda3803bSmrg unsigned int ulTestP; 107eda3803bSmrg unsigned int ulTestM; 108eda3803bSmrg unsigned int ulTestN; 109eda3803bSmrg unsigned int ulVCOMax; 110eda3803bSmrg unsigned int ulVCOMin; 111eda3803bSmrg unsigned int ulPLLFreqRef; 112eda3803bSmrg 113eda3803bSmrg ulVCOMax = 550000; 114eda3803bSmrg ulVCOMin = 150000; 115eda3803bSmrg ulPLLFreqRef = 50000; 116eda3803bSmrg 117eda3803bSmrg ulFDelta = 0xFFFFFFFF; 118eda3803bSmrg /* Permited delta is 0.5% as VESA Specification */ 119eda3803bSmrg ulFPermitedDelta = lFo * 5 / 1000; 120eda3803bSmrg 121eda3803bSmrg /* Then we need to minimize the M while staying within 0.5% */ 122eda3803bSmrg for (ulTestP = 16; ulTestP > 0; ulTestP--) { 123fe5e51b7Smrg if ((lFo * ulTestP) > ulVCOMax) continue; 124fe5e51b7Smrg if ((lFo * ulTestP) < ulVCOMin) continue; 125fe5e51b7Smrg 126eda3803bSmrg for (ulTestN = 1; ulTestN <= 256; ulTestN++) { 127eda3803bSmrg for (ulTestM = 1; ulTestM <= 16; ulTestM++) { 128fe5e51b7Smrg ulComputedFo = (ulPLLFreqRef * ulTestN) / (ulTestM * ulTestP); 129fe5e51b7Smrg if (ulComputedFo > lFo) 130fe5e51b7Smrg ulFTmpDelta = ulComputedFo - lFo; 131fe5e51b7Smrg else 132fe5e51b7Smrg ulFTmpDelta = lFo - ulComputedFo; 133fe5e51b7Smrg 134fe5e51b7Smrg if (ulFTmpDelta < ulFDelta) { 135eda3803bSmrg ulFDelta = ulFTmpDelta; 136eda3803bSmrg *M = (CARD8)(ulTestM - 1); 137eda3803bSmrg *N = (CARD8)(ulTestN - 1); 138eda3803bSmrg *P = (CARD8)(ulTestP - 1); 139eda3803bSmrg } 140eda3803bSmrg } 141eda3803bSmrg } 142eda3803bSmrg } 143eda3803bSmrg#if DEBUG 144eda3803bSmrg xf86DrvMsg(pScrn->scrnIndex, X_INFO, 145eda3803bSmrg "lFo=%ld n=0x%x m=0x%x p=0x%x \n", 146eda3803bSmrg lFo, *N, *M, *P ); 147eda3803bSmrg#endif 148eda3803bSmrg} 149eda3803bSmrg 150eda3803bSmrgstatic void 151eda3803bSmrgMGAG200WBComputePLLParam(ScrnInfoPtr pScrn, long lFo, int *M, int *N, int *P) 152eda3803bSmrg{ 153eda3803bSmrg unsigned int ulComputedFo; 154eda3803bSmrg unsigned int ulFDelta; 155eda3803bSmrg unsigned int ulFPermitedDelta; 156eda3803bSmrg unsigned int ulFTmpDelta; 157eda3803bSmrg unsigned int ulVCOMax, ulVCOMin; 158eda3803bSmrg unsigned int ulTestP; 159eda3803bSmrg unsigned int ulTestM; 160eda3803bSmrg unsigned int ulTestN; 161eda3803bSmrg unsigned int ulPLLFreqRef; 162eda3803bSmrg unsigned int ulTestPStart; 163eda3803bSmrg unsigned int ulTestNStart; 164eda3803bSmrg unsigned int ulTestNEnd; 165eda3803bSmrg unsigned int ulTestMStart; 166eda3803bSmrg unsigned int ulTestMEnd; 167eda3803bSmrg 168eda3803bSmrg ulVCOMax = 550000; 169eda3803bSmrg ulVCOMin = 150000; 170eda3803bSmrg ulPLLFreqRef = 48000; 171eda3803bSmrg ulTestPStart = 1; 172eda3803bSmrg ulTestNStart = 1; 173eda3803bSmrg ulTestNEnd = 150; 174eda3803bSmrg ulTestMStart = 1; 175eda3803bSmrg ulTestMEnd = 16; 176eda3803bSmrg 177eda3803bSmrg ulFDelta = 0xFFFFFFFF; 178eda3803bSmrg /* Permited delta is 0.5% as VESA Specification */ 179eda3803bSmrg ulFPermitedDelta = lFo * 5 / 1000; 180eda3803bSmrg 181eda3803bSmrg /* Then we need to minimize the M while staying within 0.5% */ 182eda3803bSmrg for (ulTestP = ulTestPStart; ulTestP < 9; ulTestP++) { 183eda3803bSmrg if ((lFo * ulTestP) > ulVCOMax) continue; 184eda3803bSmrg if ((lFo * ulTestP) < ulVCOMin) continue; 185eda3803bSmrg 186eda3803bSmrg for (ulTestM = ulTestMStart; ulTestM <= ulTestMEnd; ulTestM++) { 187eda3803bSmrg for (ulTestN = ulTestNStart; ulTestN <= ulTestNEnd; ulTestN++) { 188eda3803bSmrg ulComputedFo = (ulPLLFreqRef * ulTestN) / (ulTestM * ulTestP); 189eda3803bSmrg if (ulComputedFo > lFo) 190eda3803bSmrg ulFTmpDelta = ulComputedFo - lFo; 191eda3803bSmrg else 192eda3803bSmrg ulFTmpDelta = lFo - ulComputedFo; 193eda3803bSmrg 194eda3803bSmrg if (ulFTmpDelta < ulFDelta) { 195eda3803bSmrg ulFDelta = ulFTmpDelta; 196eda3803bSmrg *M = (CARD8)(ulTestM - 1) | (CARD8)(((ulTestN -1) >> 1) & 0x80); 197eda3803bSmrg *N = (CARD8)(ulTestN - 1); 198eda3803bSmrg *P = (CARD8)(ulTestP - 1); 199fe5e51b7Smrg } 200fe5e51b7Smrg } 201fe5e51b7Smrg } 202fe5e51b7Smrg } 203eda3803bSmrg#if DEBUG 204eda3803bSmrg xf86DrvMsg(pScrn->scrnIndex, X_INFO, 205eda3803bSmrg "lFo=%ld n=0x%x m=0x%x p=0x%x \n", 206eda3803bSmrg lFo, *N, *M, *P ); 207eda3803bSmrg#endif 208fe5e51b7Smrg} 209fe5e51b7Smrg 210a31a186aSmrgstatic void 211a31a186aSmrgMGAG200EHComputePLLParam(ScrnInfoPtr pScrn, long lFo, int *M, int *N, int *P) 212a31a186aSmrg{ 213a31a186aSmrg unsigned int ulComputedFo; 214a31a186aSmrg unsigned int ulFDelta; 215a31a186aSmrg unsigned int ulFPermitedDelta; 216a31a186aSmrg unsigned int ulFTmpDelta; 217a31a186aSmrg unsigned int ulTestP; 218a31a186aSmrg unsigned int ulTestM; 219a31a186aSmrg unsigned int ulTestN; 220a31a186aSmrg unsigned int ulVCOMax; 221a31a186aSmrg unsigned int ulVCOMin; 222a31a186aSmrg unsigned int ulPLLFreqRef; 223a31a186aSmrg 224a31a186aSmrg ulVCOMax = 800000; 225a31a186aSmrg ulVCOMin = 400000; 226a31a186aSmrg ulPLLFreqRef = 33333; 227a31a186aSmrg 228a31a186aSmrg ulFDelta = 0xFFFFFFFF; 229a31a186aSmrg /* Permited delta is 0.5% as VESA Specification */ 230a31a186aSmrg ulFPermitedDelta = lFo * 5 / 1000; 231a31a186aSmrg 232a31a186aSmrg /* Then we need to minimize the M while staying within 0.5% */ 233a31a186aSmrg for (ulTestP = 16; ulTestP > 0; ulTestP>>= 1) { 234a31a186aSmrg if ((lFo * ulTestP) > ulVCOMax) continue; 235a31a186aSmrg if ((lFo * ulTestP) < ulVCOMin) continue; 236a31a186aSmrg 237a31a186aSmrg for (ulTestM = 1; ulTestM <= 32; ulTestM++) { 238a31a186aSmrg for (ulTestN = 17; ulTestN <= 256; ulTestN++) { 239a31a186aSmrg ulComputedFo = (ulPLLFreqRef * ulTestN) / (ulTestM * ulTestP); 240a31a186aSmrg if (ulComputedFo > lFo) 241a31a186aSmrg ulFTmpDelta = ulComputedFo - lFo; 242a31a186aSmrg else 243a31a186aSmrg ulFTmpDelta = lFo - ulComputedFo; 244a31a186aSmrg 245a31a186aSmrg if (ulFTmpDelta < ulFDelta) { 246a31a186aSmrg ulFDelta = ulFTmpDelta; 247a31a186aSmrg *M = (CARD8)(ulTestM - 1); 248a31a186aSmrg *N = (CARD8)(ulTestN - 1); 249a31a186aSmrg *P = (CARD8)(ulTestP - 1); 250a31a186aSmrg } 251a31a186aSmrg 252a31a186aSmrg if ((lFo * ulTestP) >= 600000) 253a31a186aSmrg *P |= 0x80; 254a31a186aSmrg } 255a31a186aSmrg } 256a31a186aSmrg } 257a31a186aSmrg} 258a31a186aSmrg 259eda3803bSmrgstatic void 260eda3803bSmrgMGAG200EVPIXPLLSET(ScrnInfoPtr pScrn, MGARegPtr mgaReg) 261eda3803bSmrg{ 262eda3803bSmrg MGAPtr pMga = MGAPTR(pScrn); 263eda3803bSmrg 264eda3803bSmrg unsigned char ucTempByte, ucPixCtrl; 265eda3803bSmrg 266eda3803bSmrg // Set pixclkdis to 1 267eda3803bSmrg ucPixCtrl = inMGAdac(MGA1064_PIX_CLK_CTL); 268eda3803bSmrg ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_DIS; 269eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 270eda3803bSmrg 271eda3803bSmrg // Select PLL Set C 272eda3803bSmrg ucTempByte = INREG8(MGAREG_MEM_MISC_READ); 273eda3803bSmrg ucTempByte |= 0x3<<2; //select MGA pixel clock 274eda3803bSmrg OUTREG8(MGAREG_MEM_MISC_WRITE, ucTempByte); 275eda3803bSmrg 276eda3803bSmrg // Set pixlock to 0 277eda3803bSmrg ucTempByte = inMGAdac(MGA1064_PIX_PLL_STAT); 278eda3803bSmrg outMGAdac(MGA1064_PIX_PLL_STAT, ucTempByte & ~0x40); 279eda3803bSmrg 280eda3803bSmrg // Set pix_stby to 1 281eda3803bSmrg ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_POW_DOWN; 282eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 283eda3803bSmrg 284eda3803bSmrg // Program the Pixel PLL Register 285eda3803bSmrg outMGAdac(MGA1064_EV_PIX_PLLC_M, mgaReg->PllM); 286eda3803bSmrg outMGAdac(MGA1064_EV_PIX_PLLC_N, mgaReg->PllN); 287eda3803bSmrg outMGAdac(MGA1064_EV_PIX_PLLC_P, mgaReg->PllP); 288eda3803bSmrg 289eda3803bSmrg // Wait 50 us 290eda3803bSmrg usleep(50); 291eda3803bSmrg 292eda3803bSmrg // Set pix_stby to 0 293eda3803bSmrg ucPixCtrl &= ~MGA1064_PIX_CLK_CTL_CLK_POW_DOWN; 294eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 295eda3803bSmrg 296eda3803bSmrg // Wait 500 us 297eda3803bSmrg usleep(500); 298eda3803bSmrg 299eda3803bSmrg // Select the pixel PLL by setting pixclksel to 1 300eda3803bSmrg ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL); 301eda3803bSmrg ucTempByte &= ~MGA1064_PIX_CLK_CTL_SEL_MSK; 302eda3803bSmrg ucTempByte |= MGA1064_PIX_CLK_CTL_SEL_PLL; 303eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte); 304eda3803bSmrg 305eda3803bSmrg // Set pixlock to 1 306eda3803bSmrg ucTempByte = inMGAdac(MGA1064_PIX_PLL_STAT); 307eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte | 0x40); 308eda3803bSmrg 309eda3803bSmrg // Reset dotclock rate bit. 310eda3803bSmrg ucTempByte = INREG8(MGAREG_MEM_MISC_READ); 311eda3803bSmrg ucTempByte |= 0x3<<2; //select MGA pixel clock 312eda3803bSmrg OUTREG8(MGAREG_MEM_MISC_WRITE, ucTempByte); 313eda3803bSmrg 314eda3803bSmrg OUTREG8(MGAREG_SEQ_INDEX, 1); 315eda3803bSmrg ucTempByte = INREG8(MGAREG_SEQ_DATA); 316eda3803bSmrg OUTREG8(MGAREG_SEQ_DATA, ucTempByte & ~0x8); 317eda3803bSmrg 318eda3803bSmrg // Set pixclkdis to 0 319eda3803bSmrg ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL); 320eda3803bSmrg ucTempByte &= ~MGA1064_PIX_CLK_CTL_CLK_DIS; 321eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte); 322eda3803bSmrg} 323eda3803bSmrg 324eda3803bSmrgstatic void 325eda3803bSmrgMGAG200WBPIXPLLSET(ScrnInfoPtr pScrn, MGARegPtr mgaReg) 326eda3803bSmrg{ 327eda3803bSmrg MGAPtr pMga = MGAPTR(pScrn); 328eda3803bSmrg 329eda3803bSmrg unsigned long ulLoopCount, ulLockCheckIterations = 0, ulTempCount, ulVCount; 330eda3803bSmrg unsigned char ucTempByte, ucPixCtrl, ucPLLLocked = FALSE; 331eda3803bSmrg 332eda3803bSmrg while(ulLockCheckIterations <= 32 && ucPLLLocked == FALSE) 333eda3803bSmrg { 334eda3803bSmrg if(ulLockCheckIterations > 0) 335eda3803bSmrg { 336eda3803bSmrg OUTREG8(MGAREG_CRTCEXT_INDEX, 0x1E); 337eda3803bSmrg ucTempByte = INREG8(MGAREG_CRTCEXT_DATA); 338eda3803bSmrg if(ucTempByte < 0xFF) 339eda3803bSmrg { 340eda3803bSmrg OUTREG8(MGAREG_CRTCEXT_DATA, ucTempByte+1); 341eda3803bSmrg } 342eda3803bSmrg } 343eda3803bSmrg 344eda3803bSmrg // Set pixclkdis to 1 345eda3803bSmrg ucPixCtrl = inMGAdac(MGA1064_PIX_CLK_CTL); 346eda3803bSmrg ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_DIS; 347eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 348eda3803bSmrg 349eda3803bSmrg ucTempByte = inMGAdac(MGA1064_REMHEADCTL); 350eda3803bSmrg ucTempByte |= MGA1064_REMHEADCTL_CLKDIS; 351eda3803bSmrg outMGAdac(MGA1064_REMHEADCTL, ucTempByte); 352eda3803bSmrg 353eda3803bSmrg // Select PLL Set C 354eda3803bSmrg ucTempByte = INREG8(MGAREG_MEM_MISC_READ); 355eda3803bSmrg ucTempByte |= 0x3<<2; //select MGA pixel clock 356eda3803bSmrg OUTREG8(MGAREG_MEM_MISC_WRITE, ucTempByte); 357eda3803bSmrg 358eda3803bSmrg ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_POW_DOWN | 0x80; 359eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 360eda3803bSmrg 361eda3803bSmrg // Wait 500 us 362eda3803bSmrg usleep(500); 363eda3803bSmrg 364eda3803bSmrg // Reset the PLL 365eda3803bSmrg // When we are varying the output frequency by more than 366eda3803bSmrg // 10%, we must reset the PLL. However to be prudent, we 367eda3803bSmrg // will reset it each time that we are changing it. 368eda3803bSmrg ucTempByte = inMGAdac(MGA1064_VREF_CTL); 369eda3803bSmrg ucTempByte &= ~0x04; 370eda3803bSmrg outMGAdac(MGA1064_VREF_CTL, ucTempByte ); 371eda3803bSmrg 372eda3803bSmrg // Wait 50 us 373eda3803bSmrg usleep(50); 374eda3803bSmrg 375eda3803bSmrg // Program the Pixel PLL Register 376eda3803bSmrg outMGAdac(MGA1064_WB_PIX_PLLC_N, mgaReg->PllN); 377a31a186aSmrg outMGAdac(MGA1064_WB_PIX_PLLC_M, mgaReg->PllM); 378eda3803bSmrg outMGAdac(MGA1064_WB_PIX_PLLC_P, mgaReg->PllP); 379eda3803bSmrg 380eda3803bSmrg // Wait 50 us 381eda3803bSmrg usleep(50); 382eda3803bSmrg 383eda3803bSmrg // Turning the PLL on 384eda3803bSmrg ucTempByte = inMGAdac(MGA1064_VREF_CTL); 385eda3803bSmrg ucTempByte |= 0x04; 386eda3803bSmrg outMGAdac(MGA1064_VREF_CTL, ucTempByte ); 387eda3803bSmrg 388eda3803bSmrg // Wait 500 us 389eda3803bSmrg usleep(500); 390eda3803bSmrg 391eda3803bSmrg // Select the pixel PLL by setting pixclksel to 1 392eda3803bSmrg ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL); 393eda3803bSmrg ucTempByte &= ~MGA1064_PIX_CLK_CTL_SEL_MSK; 394eda3803bSmrg ucTempByte |= MGA1064_PIX_CLK_CTL_SEL_PLL; 395eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte); 396eda3803bSmrg 397eda3803bSmrg ucTempByte = inMGAdac(MGA1064_REMHEADCTL); 398eda3803bSmrg ucTempByte &= ~MGA1064_REMHEADCTL_CLKSL_MSK; 399eda3803bSmrg ucTempByte |= MGA1064_REMHEADCTL_CLKSL_PLL; 400eda3803bSmrg outMGAdac(MGA1064_REMHEADCTL, ucTempByte); 401eda3803bSmrg 402eda3803bSmrg // Reset dotclock rate bit. 403eda3803bSmrg OUTREG8(MGAREG_SEQ_INDEX, 1); 404eda3803bSmrg ucTempByte = INREG8(MGAREG_SEQ_DATA); 405eda3803bSmrg OUTREG8(MGAREG_SEQ_DATA, ucTempByte & ~0x8); 406eda3803bSmrg 407eda3803bSmrg // Set pixclkdis to 0 408eda3803bSmrg ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL); 409eda3803bSmrg ucTempByte &= ~MGA1064_PIX_CLK_CTL_CLK_DIS; 410eda3803bSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte); 411eda3803bSmrg 412eda3803bSmrg // Poll VCount. If it increments twice inside 150us, 413eda3803bSmrg // we assume that the PLL has locked. 414eda3803bSmrg ulLoopCount = 0; 415eda3803bSmrg ulVCount = INREG(MGAREG_VCOUNT); 416eda3803bSmrg 417eda3803bSmrg while(ulLoopCount < 30 && ucPLLLocked == FALSE) 418eda3803bSmrg { 419eda3803bSmrg ulTempCount = INREG(MGAREG_VCOUNT); 420eda3803bSmrg 421eda3803bSmrg if(ulTempCount < ulVCount) 422eda3803bSmrg { 423eda3803bSmrg ulVCount = 0; 424eda3803bSmrg } 425eda3803bSmrg if ((ucTempByte - ulVCount) > 2) 426eda3803bSmrg { 427eda3803bSmrg ucPLLLocked = TRUE; 428eda3803bSmrg } 429eda3803bSmrg else 430eda3803bSmrg { 431eda3803bSmrg usleep(5); 432eda3803bSmrg } 433eda3803bSmrg ulLoopCount++; 434eda3803bSmrg } 435eda3803bSmrg ulLockCheckIterations++; 436eda3803bSmrg } 437eda3803bSmrg 438eda3803bSmrg // Set remclkdis to 0 439eda3803bSmrg ucTempByte = inMGAdac(MGA1064_REMHEADCTL); 440eda3803bSmrg ucTempByte &= ~MGA1064_REMHEADCTL_CLKDIS; 441eda3803bSmrg outMGAdac(MGA1064_REMHEADCTL, ucTempByte); 442eda3803bSmrg} 443eda3803bSmrg 4440bb88ba4Smrg#define G200ER_PLLREF 48000 4450bb88ba4Smrg#define G200ER_VCOMIN 1056000 4460bb88ba4Smrg#define G200ER_VCOMAX 1488000 4470bb88ba4Smrg 4480bb88ba4Smrgstatic void MGAG200ERComputePLLParam(ScrnInfoPtr pScrn, long lFo, int *piM, int *piN, int *piP) 4490bb88ba4Smrg{ 4500bb88ba4Smrg 4510bb88ba4Smrg int ulM; 4520bb88ba4Smrg int ulN; 4530bb88ba4Smrg int ulO; 4540bb88ba4Smrg int ulR; 4550bb88ba4Smrg 4560bb88ba4Smrg CARD32 ulComputedFo; 4570bb88ba4Smrg CARD32 ulVco; 4580bb88ba4Smrg CARD32 ulFDelta; 4590bb88ba4Smrg CARD32 ulFTmpDelta; 4600bb88ba4Smrg 4610bb88ba4Smrg CARD32 aulMDivValue[] = {1, 2, 4, 8}; 4620bb88ba4Smrg 4630bb88ba4Smrg CARD32 ulFo = lFo; 4640bb88ba4Smrg 4650bb88ba4Smrg ulFDelta = 0xFFFFFFFF; 4660bb88ba4Smrg 4670bb88ba4Smrg for (ulR = 0; ulR < 4; ulR++) 4680bb88ba4Smrg { 4690bb88ba4Smrg if(ulFDelta==0) break; 4700bb88ba4Smrg for (ulN = 5; (ulN <= 128) ; ulN++) 4710bb88ba4Smrg { 4720bb88ba4Smrg if(ulFDelta==0) break; 4730bb88ba4Smrg for (ulM = 3; ulM >= 0; ulM--) 4740bb88ba4Smrg { 4750bb88ba4Smrg if(ulFDelta==0) break; 4760bb88ba4Smrg for (ulO = 5; ulO <= 32; ulO++) 4770bb88ba4Smrg { 4780bb88ba4Smrg ulVco = (G200ER_PLLREF * (ulN+1)) / (ulR+1); 4790bb88ba4Smrg // Validate vco 4800bb88ba4Smrg if (ulVco < G200ER_VCOMIN) continue; 4810bb88ba4Smrg if (ulVco > G200ER_VCOMAX) continue; 4820bb88ba4Smrg ulComputedFo = ulVco / (aulMDivValue[ulM] * (ulO+1)); 4830bb88ba4Smrg 4840bb88ba4Smrg if (ulComputedFo > ulFo) 4850bb88ba4Smrg { 4860bb88ba4Smrg ulFTmpDelta = ulComputedFo - ulFo; 4870bb88ba4Smrg } 4880bb88ba4Smrg else 4890bb88ba4Smrg { 4900bb88ba4Smrg ulFTmpDelta = ulFo - ulComputedFo; 4910bb88ba4Smrg } 4920bb88ba4Smrg 4930bb88ba4Smrg if (ulFTmpDelta < ulFDelta) 4940bb88ba4Smrg { 4950bb88ba4Smrg ulFDelta = ulFTmpDelta; 4960bb88ba4Smrg // XG200ERPIXPLLCM M<1:0> O<7:3> 4970bb88ba4Smrg *piM = (CARD8)ulM | (CARD8)(ulO<<3); 4980bb88ba4Smrg // 4990bb88ba4Smrg // XG200ERPIXPLLCN N<6:0> 5000bb88ba4Smrg *piN = (CARD8)ulN; 5010bb88ba4Smrg // 5020bb88ba4Smrg // XG200ERPIXPLLCP R<1:0> cg<7:4> (Use R value) 5030bb88ba4Smrg *piP = (CARD8)ulR | (CARD8)(ulR<<3); 5040bb88ba4Smrg 5050bb88ba4Smrg // Test 5060bb88ba4Smrg int ftest = (G200ER_PLLREF * (ulN+1)) / ((ulR+1) * aulMDivValue[ulM] * (ulO+1)); 5070bb88ba4Smrg ftest=ftest; 5080bb88ba4Smrg } 5090bb88ba4Smrg } // End O Loop 5100bb88ba4Smrg } // End M Loop 5110bb88ba4Smrg } // End N Loop 5120bb88ba4Smrg } // End R Loop 5130bb88ba4Smrg} 5140bb88ba4Smrg 5150bb88ba4Smrgstatic void 5160bb88ba4SmrgMGAG200ERPIXPLLSET(ScrnInfoPtr pScrn, MGARegPtr mgaReg) 5170bb88ba4Smrg{ 5180bb88ba4Smrg //TODO G200ER Validate sequence 5190bb88ba4Smrg CARD8 ucPixCtrl, ucTempByte; 5200bb88ba4Smrg MGAPtr pMga = MGAPTR(pScrn); 5210bb88ba4Smrg 5220bb88ba4Smrg 5230bb88ba4Smrg // Set pixclkdis to 1 5240bb88ba4Smrg ucPixCtrl = inMGAdac(MGA1064_PIX_CLK_CTL); 5250bb88ba4Smrg ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_DIS; 5260bb88ba4Smrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 5270bb88ba4Smrg 5280bb88ba4Smrg ucTempByte = inMGAdac(MGA1064_REMHEADCTL); 5290bb88ba4Smrg ucTempByte |= MGA1064_REMHEADCTL_CLKDIS; 5300bb88ba4Smrg outMGAdac(MGA1064_REMHEADCTL, ucTempByte); 5310bb88ba4Smrg 5320bb88ba4Smrg // Select PLL Set C 5330bb88ba4Smrg ucTempByte = INREG8(MGAREG_MEM_MISC_READ); 5340bb88ba4Smrg ucTempByte |= (0x3<<2) | 0xc0; //select MGA pixel clock 5350bb88ba4Smrg OUTREG8(MGAREG_MEM_MISC_WRITE, ucTempByte); 5360bb88ba4Smrg 5370bb88ba4Smrg ucPixCtrl &= ~MGA1064_PIX_CLK_CTL_CLK_DIS; 5380bb88ba4Smrg ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_POW_DOWN; 5390bb88ba4Smrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 5400bb88ba4Smrg 5410bb88ba4Smrg // Wait 500 us 5420bb88ba4Smrg usleep(500); 5430bb88ba4Smrg 5440bb88ba4Smrg // Program the Pixel PLL Register 5450bb88ba4Smrg outMGAdac(MGA1064_ER_PIX_PLLC_N, mgaReg->PllN); 5460bb88ba4Smrg outMGAdac(MGA1064_ER_PIX_PLLC_M, mgaReg->PllM); 5470bb88ba4Smrg outMGAdac(MGA1064_ER_PIX_PLLC_P, mgaReg->PllP); 5480bb88ba4Smrg 5490bb88ba4Smrg // Wait 50 us 5500bb88ba4Smrg usleep(50); 5510bb88ba4Smrg 5520bb88ba4Smrg} 5530bb88ba4Smrg 554eda3803bSmrgstatic void 555eda3803bSmrgMGAG200WBPrepareForModeSwitch(ScrnInfoPtr pScrn) 556eda3803bSmrg{ 557eda3803bSmrg MGAPtr pMga = MGAPTR(pScrn); 558eda3803bSmrg 559eda3803bSmrg unsigned char ucTmpData = 0; 560eda3803bSmrg int ulIterationMax = 0; 561eda3803bSmrg // 1- The first step is to warn the BMC of an upcoming mode change. 562eda3803bSmrg // We are putting the misc<0> to output. 563eda3803bSmrg ucTmpData = inMGAdac(MGA1064_GEN_IO_CTL); 564eda3803bSmrg ucTmpData |= 0x10; 565eda3803bSmrg outMGAdac(MGA1064_GEN_IO_CTL, ucTmpData); 566eda3803bSmrg 567eda3803bSmrg // We are putting a 1 on the misc<0> line. 568eda3803bSmrg ucTmpData = inMGAdac(MGA1064_GEN_IO_DATA); 569eda3803bSmrg ucTmpData |= 0x10; 570eda3803bSmrg outMGAdac(MGA1064_GEN_IO_DATA, ucTmpData); 571eda3803bSmrg 572eda3803bSmrg // 2- The second step is to mask any further scan request 573eda3803bSmrg // This will be done by asserting the remfreqmsk bit (XSPAREREG<7>) 574eda3803bSmrg ucTmpData = inMGAdac(MGA1064_SPAREREG); 575eda3803bSmrg ucTmpData |= 0x80; 576eda3803bSmrg outMGAdac(MGA1064_SPAREREG, ucTmpData); 577eda3803bSmrg 578eda3803bSmrg // 3a- The third step is to verify if there is an active scan 579eda3803bSmrg // We are searching for a 0 on remhsyncsts (XSPAREREG<0>) 580eda3803bSmrg ulIterationMax = 300; 581eda3803bSmrg while (!(ucTmpData & 0x01) && ulIterationMax) 582eda3803bSmrg { 583eda3803bSmrg ucTmpData = inMGAdac(MGA1064_SPAREREG); 584eda3803bSmrg usleep(1000); 585eda3803bSmrg ulIterationMax--; 586eda3803bSmrg } 587eda3803bSmrg 588eda3803bSmrg // 3b- This step occurs only if the remote is actually scanning 589eda3803bSmrg // We are waiting for the end of the frame which is a 1 on 590eda3803bSmrg // remvsyncsts (XSPAREREG<1>) 591eda3803bSmrg if (ulIterationMax) 592eda3803bSmrg { 593eda3803bSmrg ulIterationMax = 300; 594eda3803bSmrg while ((ucTmpData & 0x02) && ulIterationMax) 595eda3803bSmrg { 596eda3803bSmrg ucTmpData = inMGAdac(MGA1064_SPAREREG); 597eda3803bSmrg usleep(1000); 598eda3803bSmrg ulIterationMax--; 599eda3803bSmrg } 600eda3803bSmrg } 601eda3803bSmrg} 602eda3803bSmrg 603eda3803bSmrgstatic void 604eda3803bSmrgMGAG200WBRestoreFromModeSwitch(ScrnInfoPtr pScrn) 605eda3803bSmrg{ 606eda3803bSmrg MGAPtr pMga = MGAPTR(pScrn); 607eda3803bSmrg 608eda3803bSmrg unsigned char ucTmpData = 0; 609eda3803bSmrg 610eda3803bSmrg // 1- The first step is to ensure that the vrsten and hrsten are set 611eda3803bSmrg OUTREG8(MGAREG_CRTCEXT_INDEX, 0x01); 612eda3803bSmrg ucTmpData = INREG8(MGAREG_CRTCEXT_DATA); 613eda3803bSmrg OUTREG8(MGAREG_CRTCEXT_DATA, ucTmpData | 0x88); 614eda3803bSmrg 615eda3803bSmrg // 2- The second step is is to assert the rstlvl2 616eda3803bSmrg ucTmpData = inMGAdac(MGA1064_REMHEADCTL2); 617eda3803bSmrg ucTmpData |= 0x08; 618eda3803bSmrg outMGAdac(MGA1064_REMHEADCTL2, ucTmpData); 619eda3803bSmrg 620eda3803bSmrg // - Wait for 10 us 621eda3803bSmrg usleep(10); 622eda3803bSmrg 623eda3803bSmrg // 3- The next step is is to deassert the rstlvl2 624eda3803bSmrg ucTmpData &= ~0x08; 625eda3803bSmrg outMGAdac(MGA1064_REMHEADCTL2, ucTmpData); 626eda3803bSmrg 627eda3803bSmrg // - Wait for 10 us 628eda3803bSmrg usleep(10); 629eda3803bSmrg 630eda3803bSmrg // 4- The fourth step is to remove the mask of scan request 631eda3803bSmrg // This will be done by deasserting the remfreqmsk bit (XSPAREREG<7>) 632eda3803bSmrg ucTmpData = inMGAdac(MGA1064_SPAREREG); 633eda3803bSmrg ucTmpData &= ~0x80; 634eda3803bSmrg outMGAdac(MGA1064_SPAREREG, ucTmpData); 635eda3803bSmrg 636eda3803bSmrg // 5- Finally, we are putting back a 0 on the misc<0> line. 637eda3803bSmrg ucTmpData = inMGAdac(MGA1064_GEN_IO_DATA); 638eda3803bSmrg ucTmpData &= ~0x10; 639eda3803bSmrg outMGAdac(MGA1064_GEN_IO_DATA, ucTmpData); 640eda3803bSmrg} 641fe5e51b7Smrg 642a31a186aSmrgstatic void 643a31a186aSmrgMGAG200EHPIXPLLSET(ScrnInfoPtr pScrn, MGARegPtr mgaReg) 644a31a186aSmrg{ 645a31a186aSmrg MGAPtr pMga = MGAPTR(pScrn); 646a31a186aSmrg 647a31a186aSmrg unsigned long ulFallBackCounter, ulLoopCount, ulLockCheckIterations = 0, ulTempCount, ulVCount; 648a31a186aSmrg unsigned char ucTempByte, ucPixCtrl, ucPLLLocked = FALSE; 649a31a186aSmrg unsigned char ucM; 650a31a186aSmrg unsigned char ucN; 651a31a186aSmrg unsigned char ucP; 652a31a186aSmrg unsigned char ucS; 653a31a186aSmrg 654a31a186aSmrg while(ulLockCheckIterations <= 32 && ucPLLLocked == FALSE) 655a31a186aSmrg { 656a31a186aSmrg // Set pixclkdis to 1 657a31a186aSmrg ucPixCtrl = inMGAdac(MGA1064_PIX_CLK_CTL); 658a31a186aSmrg ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_DIS; 659a31a186aSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 660a31a186aSmrg 661a31a186aSmrg // Select PLL Set C 662a31a186aSmrg ucTempByte = INREG8(MGAREG_MEM_MISC_READ); 663a31a186aSmrg ucTempByte |= 0x3<<2; //select MGA pixel clock 664a31a186aSmrg OUTREG8(MGAREG_MEM_MISC_WRITE, ucTempByte); 665a31a186aSmrg 666a31a186aSmrg ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_POW_DOWN; 667a31a186aSmrg ucPixCtrl &= ~0x80; 668a31a186aSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl); 669a31a186aSmrg 670a31a186aSmrg // Wait 500 us 671a31a186aSmrg usleep(500); 672a31a186aSmrg 673a31a186aSmrg // Program the Pixel PLL Register 674a31a186aSmrg outMGAdac(MGA1064_EH_PIX_PLLC_N, mgaReg->PllN); 675a31a186aSmrg outMGAdac(MGA1064_EH_PIX_PLLC_M, mgaReg->PllM); 676a31a186aSmrg outMGAdac(MGA1064_EH_PIX_PLLC_P, mgaReg->PllP); 677a31a186aSmrg 678a31a186aSmrg // Wait 500 us 679a31a186aSmrg usleep(500); 680a31a186aSmrg 681a31a186aSmrg // Select the pixel PLL by setting pixclksel to 1 682a31a186aSmrg ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL); 683a31a186aSmrg ucTempByte &= ~MGA1064_PIX_CLK_CTL_SEL_MSK; 684a31a186aSmrg ucTempByte |= MGA1064_PIX_CLK_CTL_SEL_PLL; 685a31a186aSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte); 686a31a186aSmrg 687a31a186aSmrg // Reset dotclock rate bit. 688a31a186aSmrg OUTREG8(MGAREG_SEQ_INDEX, 1); 689a31a186aSmrg ucTempByte = INREG8(MGAREG_SEQ_DATA); 690a31a186aSmrg OUTREG8(MGAREG_SEQ_DATA, ucTempByte & ~0x8); 691a31a186aSmrg 692a31a186aSmrg // Set pixclkdis to 0 and pixplldn to 0 693a31a186aSmrg ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL); 694a31a186aSmrg ucTempByte &= ~MGA1064_PIX_CLK_CTL_CLK_DIS; 695a31a186aSmrg ucTempByte &= ~MGA1064_PIX_CLK_CTL_CLK_POW_DOWN; 696a31a186aSmrg outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte); 697a31a186aSmrg 698a31a186aSmrg // Poll VCount. If it increments twice inside 150us, 699a31a186aSmrg // we assume that the PLL has locked. 700a31a186aSmrg ulLoopCount = 0; 701a31a186aSmrg ulVCount = INREG(MGAREG_VCOUNT); 702a31a186aSmrg 703a31a186aSmrg while(ulLoopCount < 30 && ucPLLLocked == FALSE) 704a31a186aSmrg { 705a31a186aSmrg ulTempCount = INREG(MGAREG_VCOUNT); 706a31a186aSmrg 707a31a186aSmrg if(ulTempCount < ulVCount) 708a31a186aSmrg { 709a31a186aSmrg ulVCount = 0; 710a31a186aSmrg } 711a31a186aSmrg if ((ucTempByte - ulVCount) > 2) 712a31a186aSmrg { 713a31a186aSmrg ucPLLLocked = TRUE; 714a31a186aSmrg } 715a31a186aSmrg else 716a31a186aSmrg { 717a31a186aSmrg usleep(5); 718a31a186aSmrg } 719a31a186aSmrg ulLoopCount++; 720a31a186aSmrg } 721a31a186aSmrg ulLockCheckIterations++; 722a31a186aSmrg } 723a31a186aSmrg} 724a31a186aSmrg 725fe5e51b7Smrg/** 726fe5e51b7Smrg * Calculate the PLL settings (m, n, p, s). 727fe5e51b7Smrg * 728fe5e51b7Smrg * For more information, refer to the Matrox "MGA1064SG Developer 729fe5e51b7Smrg * Specification" (document 10524-MS-0100). chapter 5.7.8. "PLLs Clocks 730fe5e51b7Smrg * Generators" 731fe5e51b7Smrg * 732fe5e51b7Smrg * \param f_out Desired clock frequency, measured in kHz. 733fe5e51b7Smrg * \param best_m Value of PLL 'm' register. 734fe5e51b7Smrg * \param best_n Value of PLL 'n' register. 735fe5e51b7Smrg * \param p Value of PLL 'p' register. 736fe5e51b7Smrg * \param s Value of PLL 's' filter register (pix pll clock only). 737fe5e51b7Smrg */ 738fe5e51b7Smrg 739fe5e51b7Smrgstatic void 740fe5e51b7SmrgMGAGCalcClock ( ScrnInfoPtr pScrn, long f_out, 741fe5e51b7Smrg int *best_m, int *best_n, int *p, int *s ) 742fe5e51b7Smrg{ 743fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 744fe5e51b7Smrg int m, n; 745fe5e51b7Smrg double f_vco; 746fe5e51b7Smrg double m_err, calc_f; 747fe5e51b7Smrg const double ref_freq = (double) pMga->bios.pll_ref_freq; 748fe5e51b7Smrg const int feed_div_max = 127; 749fe5e51b7Smrg const int in_div_min = 1; 750fe5e51b7Smrg const int post_div_max = 7; 751fe5e51b7Smrg int feed_div_min; 752fe5e51b7Smrg int in_div_max; 753fe5e51b7Smrg 754fe5e51b7Smrg 755fe5e51b7Smrg switch( pMga->Chipset ) 756fe5e51b7Smrg { 757fe5e51b7Smrg case PCI_CHIP_MGA1064: 758fe5e51b7Smrg feed_div_min = 100; 759fe5e51b7Smrg in_div_max = 31; 760fe5e51b7Smrg break; 761fe5e51b7Smrg case PCI_CHIP_MGAG400: 762fe5e51b7Smrg case PCI_CHIP_MGAG550: 763fe5e51b7Smrg feed_div_min = 7; 764fe5e51b7Smrg in_div_max = 31; 765fe5e51b7Smrg break; 766fe5e51b7Smrg case PCI_CHIP_MGAG200_SE_A_PCI: 767fe5e51b7Smrg case PCI_CHIP_MGAG200_SE_B_PCI: 768fe5e51b7Smrg case PCI_CHIP_MGAG100: 769fe5e51b7Smrg case PCI_CHIP_MGAG100_PCI: 770fe5e51b7Smrg case PCI_CHIP_MGAG200: 771fe5e51b7Smrg case PCI_CHIP_MGAG200_PCI: 772fe5e51b7Smrg default: 773fe5e51b7Smrg feed_div_min = 7; 774fe5e51b7Smrg in_div_max = 6; 775fe5e51b7Smrg break; 776fe5e51b7Smrg } 777fe5e51b7Smrg 778fe5e51b7Smrg /* Make sure that f_min <= f_out */ 779fe5e51b7Smrg if ( f_out < ( pMga->bios.pixel.min_freq / 8)) 780fe5e51b7Smrg f_out = pMga->bios.pixel.min_freq / 8; 781fe5e51b7Smrg 782fe5e51b7Smrg /* 783fe5e51b7Smrg * f_pll = f_vco / (p+1) 784fe5e51b7Smrg * Choose p so that 785fe5e51b7Smrg * pMga->bios.pixel.min_freq <= f_vco <= pMga->bios.pixel.max_freq 786fe5e51b7Smrg * we don't have to bother checking for this maximum limit. 787fe5e51b7Smrg */ 788fe5e51b7Smrg f_vco = ( double ) f_out; 789fe5e51b7Smrg for ( *p = 0; *p <= post_div_max && f_vco < pMga->bios.pixel.min_freq; 790fe5e51b7Smrg *p = *p * 2 + 1, f_vco *= 2.0); 791fe5e51b7Smrg 792fe5e51b7Smrg /* Initial amount of error for frequency maximum */ 793fe5e51b7Smrg m_err = f_out; 794fe5e51b7Smrg 795fe5e51b7Smrg /* Search for the different values of ( m ) */ 796fe5e51b7Smrg for ( m = in_div_min ; m <= in_div_max ; m++ ) 797fe5e51b7Smrg { 798fe5e51b7Smrg /* see values of ( n ) which we can't use */ 799fe5e51b7Smrg for ( n = feed_div_min; n <= feed_div_max; n++ ) 800fe5e51b7Smrg { 801fbbb26a6Schristos double av; 802fe5e51b7Smrg calc_f = ref_freq * (n + 1) / (m + 1) ; 803fe5e51b7Smrg 804fe5e51b7Smrg /* 805fe5e51b7Smrg * Pick the closest frequency. 806fe5e51b7Smrg */ 807fbbb26a6Schristos av = fabs(calc_f - f_vco); 808fbbb26a6Schristos if ( av < m_err ) { 809fbbb26a6Schristos m_err = av; 810fe5e51b7Smrg *best_m = m; 811fe5e51b7Smrg *best_n = n; 812fe5e51b7Smrg } 813fe5e51b7Smrg } 814fe5e51b7Smrg } 815fe5e51b7Smrg 816fe5e51b7Smrg /* Now all the calculations can be completed */ 817fe5e51b7Smrg f_vco = ref_freq * (*best_n + 1) / (*best_m + 1); 818fe5e51b7Smrg 819fe5e51b7Smrg /* Adjustments for filtering pll feed back */ 820fe5e51b7Smrg if ( (50000.0 <= f_vco) 821fe5e51b7Smrg && (f_vco < 100000.0) ) 822fe5e51b7Smrg *s = 0; 823fe5e51b7Smrg if ( (100000.0 <= f_vco) 824fe5e51b7Smrg && (f_vco < 140000.0) ) 825fe5e51b7Smrg *s = 1; 826fe5e51b7Smrg if ( (140000.0 <= f_vco) 827fe5e51b7Smrg && (f_vco < 180000.0) ) 828fe5e51b7Smrg *s = 2; 829fe5e51b7Smrg if ( (180000.0 <= f_vco) ) 830fe5e51b7Smrg *s = 3; 831fe5e51b7Smrg 832fe5e51b7Smrg#ifdef DEBUG 833fe5e51b7Smrg xf86DrvMsg(pScrn->scrnIndex, X_INFO, 834fe5e51b7Smrg "f_out_requ =%ld f_pll_real=%.1f f_vco=%.1f n=0x%x m=0x%x p=0x%x s=0x%x\n", 835fe5e51b7Smrg f_out, (f_vco / (*p + 1)), f_vco, *best_n, *best_m, *p, *s ); 836fe5e51b7Smrg#endif 837fe5e51b7Smrg} 838fe5e51b7Smrg 839fe5e51b7Smrg/* 840fe5e51b7Smrg * MGAGSetPCLK - Set the pixel (PCLK) clock. 841fe5e51b7Smrg */ 842fe5e51b7Smrgstatic void 843fe5e51b7SmrgMGAGSetPCLK( ScrnInfoPtr pScrn, long f_out ) 844fe5e51b7Smrg{ 845fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 846fe5e51b7Smrg MGARegPtr pReg = &pMga->ModeReg; 847fe5e51b7Smrg 848fe5e51b7Smrg /* Pixel clock values */ 849fe5e51b7Smrg int m, n, p, s; 850eda3803bSmrg m = n = p = s = 0; 851fe5e51b7Smrg 852fe5e51b7Smrg if(MGAISGx50(pMga)) { 853fe5e51b7Smrg pReg->Clock = f_out; 854493f84f4Smrg if (pMga->Chipset == PCI_CHIP_MGAG550) { 855493f84f4Smrg if (f_out < 45000) { 856493f84f4Smrg pReg->Pan_Ctl = 0x00; 857493f84f4Smrg } else if (f_out < 55000) { 858493f84f4Smrg pReg->Pan_Ctl = 0x08; 859493f84f4Smrg } else if (f_out < 70000) { 860493f84f4Smrg pReg->Pan_Ctl = 0x10; 861493f84f4Smrg } else if (f_out < 85000) { 862493f84f4Smrg pReg->Pan_Ctl = 0x18; 863493f84f4Smrg } else if (f_out < 100000) { 864493f84f4Smrg pReg->Pan_Ctl = 0x20; 865493f84f4Smrg } else if (f_out < 115000) { 866493f84f4Smrg pReg->Pan_Ctl = 0x28; 867493f84f4Smrg } else if (f_out < 125000) { 868493f84f4Smrg pReg->Pan_Ctl = 0x30; 869493f84f4Smrg } else { 870493f84f4Smrg pReg->Pan_Ctl = 0x38; 871493f84f4Smrg } 872493f84f4Smrg } else { 873493f84f4Smrg if (f_out < 45000) { 874493f84f4Smrg pReg->Pan_Ctl = 0x00; 875493f84f4Smrg } else if (f_out < 65000) { 876493f84f4Smrg pReg->Pan_Ctl = 0x08; 877493f84f4Smrg } else if (f_out < 85000) { 878493f84f4Smrg pReg->Pan_Ctl = 0x10; 879493f84f4Smrg } else if (f_out < 105000) { 880493f84f4Smrg pReg->Pan_Ctl = 0x18; 881493f84f4Smrg } else if (f_out < 135000) { 882493f84f4Smrg pReg->Pan_Ctl = 0x20; 883493f84f4Smrg } else if (f_out < 160000) { 884493f84f4Smrg pReg->Pan_Ctl = 0x28; 885493f84f4Smrg } else if (f_out < 175000) { 886493f84f4Smrg pReg->Pan_Ctl = 0x30; 887493f84f4Smrg } else { 888493f84f4Smrg pReg->Pan_Ctl = 0x38; 889493f84f4Smrg } 890493f84f4Smrg } 891fe5e51b7Smrg return; 892fe5e51b7Smrg } 893fe5e51b7Smrg 894fe5e51b7Smrg if (pMga->is_G200SE) { 895fe5e51b7Smrg MGAG200SEComputePLLParam(pScrn, f_out, &m, &n, &p); 896fe5e51b7Smrg 897fe5e51b7Smrg pReg->DacRegs[ MGA1064_PIX_PLLC_M ] = m; 898fe5e51b7Smrg pReg->DacRegs[ MGA1064_PIX_PLLC_N ] = n; 899fe5e51b7Smrg pReg->DacRegs[ MGA1064_PIX_PLLC_P ] = p; 900eda3803bSmrg } else if (pMga->is_G200EV) { 901eda3803bSmrg MGAG200EVComputePLLParam(pScrn, f_out, &m, &n, &p); 902eda3803bSmrg 903eda3803bSmrg pReg->PllM = m; 904eda3803bSmrg pReg->PllN = n; 905eda3803bSmrg pReg->PllP = p; 906eda3803bSmrg } else if (pMga->is_G200WB) { 907eda3803bSmrg MGAG200WBComputePLLParam(pScrn, f_out, &m, &n, &p); 908eda3803bSmrg 909a31a186aSmrg pReg->PllM = m; 910a31a186aSmrg pReg->PllN = n; 911a31a186aSmrg pReg->PllP = p; 912a31a186aSmrg } else if (pMga->is_G200EH) { 913a31a186aSmrg MGAG200EHComputePLLParam(pScrn, f_out, &m, &n, &p); 914a31a186aSmrg 915eda3803bSmrg pReg->PllM = m; 916eda3803bSmrg pReg->PllN = n; 9170bb88ba4Smrg pReg->PllP = p; 9180bb88ba4Smrg } else if (pMga->is_G200ER) { 9190bb88ba4Smrg MGAG200ERComputePLLParam(pScrn, f_out, &m, &n, &p); 9200bb88ba4Smrg pReg->PllM = m; 9210bb88ba4Smrg pReg->PllN = n; 9220bb88ba4Smrg pReg->PllP = p; 9230bb88ba4Smrg } else { 924fe5e51b7Smrg /* Do the calculations for m, n, p and s */ 925fe5e51b7Smrg MGAGCalcClock( pScrn, f_out, &m, &n, &p, &s ); 926fe5e51b7Smrg 927fe5e51b7Smrg /* Values for the pixel clock PLL registers */ 928fe5e51b7Smrg pReg->DacRegs[ MGA1064_PIX_PLLC_M ] = m & 0x1F; 929fe5e51b7Smrg pReg->DacRegs[ MGA1064_PIX_PLLC_N ] = n & 0x7F; 930fe5e51b7Smrg pReg->DacRegs[ MGA1064_PIX_PLLC_P ] = (p & 0x07) | 931fe5e51b7Smrg ((s & 0x03) << 3); 932fe5e51b7Smrg } 933fe5e51b7Smrg} 934fe5e51b7Smrg 935fe5e51b7Smrg/* 936fe5e51b7Smrg * MGAGInit 937fe5e51b7Smrg */ 938fe5e51b7Smrgstatic Bool 939fe5e51b7SmrgMGAGInit(ScrnInfoPtr pScrn, DisplayModePtr mode) 940fe5e51b7Smrg{ 941fe5e51b7Smrg /* 942fe5e51b7Smrg * initial values of the DAC registers 943fe5e51b7Smrg */ 944fe5e51b7Smrg const static unsigned char initDAC[] = { 945fe5e51b7Smrg /* 0x00: */ 0, 0, 0, 0, 0, 0, 0x00, 0, 946fe5e51b7Smrg /* 0x08: */ 0, 0, 0, 0, 0, 0, 0, 0, 947fe5e51b7Smrg /* 0x10: */ 0, 0, 0, 0, 0, 0, 0, 0, 948fe5e51b7Smrg /* 0x18: */ 0x00, 0, 0xC9, 0xFF, 0xBF, 0x20, 0x1F, 0x20, 949fe5e51b7Smrg /* 0x20: */ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 950fe5e51b7Smrg /* 0x28: */ 0x00, 0x00, 0x00, 0x00, 0, 0, 0, 0x40, 951fe5e51b7Smrg /* 0x30: */ 0x00, 0xB0, 0x00, 0xC2, 0x34, 0x14, 0x02, 0x83, 952fe5e51b7Smrg /* 0x38: */ 0x00, 0x93, 0x00, 0x77, 0x00, 0x00, 0x00, 0x3A, 953fe5e51b7Smrg /* 0x40: */ 0, 0, 0, 0, 0, 0, 0, 0, 954fe5e51b7Smrg /* 0x48: */ 0, 0, 0, 0, 0, 0, 0, 0 955fe5e51b7Smrg }; 956fe5e51b7Smrg 957fe5e51b7Smrg int i; 958fe5e51b7Smrg int hd, hs, he, ht, vd, vs, ve, vt, wd; 959fe5e51b7Smrg int BppShift; 960fe5e51b7Smrg MGAPtr pMga; 961fe5e51b7Smrg MGARegPtr pReg; 962fe5e51b7Smrg vgaRegPtr pVga; 963fe5e51b7Smrg MGAFBLayout *pLayout; 964fe5e51b7Smrg xMODEINFO ModeInfo; 965fe5e51b7Smrg 966fe5e51b7Smrg ModeInfo.ulDispWidth = mode->HDisplay; 967fe5e51b7Smrg ModeInfo.ulDispHeight = mode->VDisplay; 968fe5e51b7Smrg ModeInfo.ulFBPitch = mode->HDisplay; 969fe5e51b7Smrg ModeInfo.ulBpp = pScrn->bitsPerPixel; 970fe5e51b7Smrg ModeInfo.flSignalMode = 0; 971fe5e51b7Smrg ModeInfo.ulPixClock = mode->Clock; 972fe5e51b7Smrg ModeInfo.ulHFPorch = mode->HSyncStart - mode->HDisplay; 973fe5e51b7Smrg ModeInfo.ulHSync = mode->HSyncEnd - mode->HSyncStart; 974fe5e51b7Smrg ModeInfo.ulHBPorch = mode->HTotal - mode->HSyncEnd; 975fe5e51b7Smrg ModeInfo.ulVFPorch = mode->VSyncStart - mode->VDisplay; 976fe5e51b7Smrg ModeInfo.ulVSync = mode->VSyncEnd - mode->VSyncStart; 977fe5e51b7Smrg ModeInfo.ulVBPorch = mode->VTotal - mode->VSyncEnd; 978fe5e51b7Smrg 979fe5e51b7Smrg pMga = MGAPTR(pScrn); 980fe5e51b7Smrg pReg = &pMga->ModeReg; 981fe5e51b7Smrg pVga = &VGAHWPTR(pScrn)->ModeReg; 982fe5e51b7Smrg pLayout = &pMga->CurrentLayout; 983fe5e51b7Smrg 984fe5e51b7Smrg BppShift = pMga->BppShifts[(pLayout->bitsPerPixel >> 3) - 1]; 985fe5e51b7Smrg 986fe5e51b7Smrg MGA_NOT_HAL( 987fe5e51b7Smrg /* Allocate the DacRegs space if not done already */ 988fe5e51b7Smrg if (pReg->DacRegs == NULL) { 989fe5e51b7Smrg pReg->DacRegs = xnfcalloc(DACREGSIZE, 1); 990fe5e51b7Smrg } 991fe5e51b7Smrg for (i = 0; i < DACREGSIZE; i++) { 992fe5e51b7Smrg pReg->DacRegs[i] = initDAC[i]; 993fe5e51b7Smrg } 994fe5e51b7Smrg ); /* MGA_NOT_HAL */ 995fe5e51b7Smrg 996fe5e51b7Smrg switch(pMga->Chipset) 997fe5e51b7Smrg { 998fe5e51b7Smrg case PCI_CHIP_MGA1064: 999fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x04; 1000fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x44; 1001fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18; 1002fe5e51b7Smrg pReg->Option = 0x5F094F21; 1003fe5e51b7Smrg pReg->Option2 = 0x00000000; 1004fe5e51b7Smrg break; 1005fe5e51b7Smrg case PCI_CHIP_MGAG100: 1006fe5e51b7Smrg case PCI_CHIP_MGAG100_PCI: 1007fe5e51b7Smrg pReg->DacRegs[MGA1064_VREF_CTL] = 0x03; 1008fe5e51b7Smrg 1009fe5e51b7Smrg if(pMga->HasSDRAM) { 1010fe5e51b7Smrg if(pMga->OverclockMem) { 1011fe5e51b7Smrg /* 220 Mhz */ 1012fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x06; 1013fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x38; 1014fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18; 1015fe5e51b7Smrg } else { 1016fe5e51b7Smrg /* 203 Mhz */ 1017fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x01; 1018fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x0E; 1019fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18; 1020fe5e51b7Smrg } 1021fe5e51b7Smrg pReg->Option = 0x404991a9; 1022fe5e51b7Smrg } else { 1023fe5e51b7Smrg if(pMga->OverclockMem) { 1024fe5e51b7Smrg /* 143 Mhz */ 1025fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x06; 1026fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x24; 1027fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x10; 1028fe5e51b7Smrg } else { 1029fe5e51b7Smrg /* 124 Mhz */ 1030fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x04; 1031fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x16; 1032fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x08; 1033fe5e51b7Smrg } 1034fe5e51b7Smrg pReg->Option = 0x4049d121; 1035fe5e51b7Smrg } 1036fe5e51b7Smrg pReg->Option2 = 0x0000007; 1037fe5e51b7Smrg break; 1038fe5e51b7Smrg case PCI_CHIP_MGAG400: 1039fe5e51b7Smrg case PCI_CHIP_MGAG550: 1040fe5e51b7Smrg if (MGAISGx50(pMga)) 1041fe5e51b7Smrg break; 1042fe5e51b7Smrg 1043fe5e51b7Smrg if(pMga->Dac.maxPixelClock == 360000) { /* G400 MAX */ 1044fe5e51b7Smrg if(pMga->OverclockMem) { 1045fe5e51b7Smrg /* 150/200 */ 1046fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x05; 1047fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x42; 1048fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18; 1049fe5e51b7Smrg pReg->Option3 = 0x019B8419; 1050fe5e51b7Smrg pReg->Option = 0x50574120; 1051fe5e51b7Smrg } else { 1052fe5e51b7Smrg /* 125/166 */ 1053fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x02; 1054fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x1B; 1055fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18; 1056fe5e51b7Smrg pReg->Option3 = 0x019B8419; 1057fe5e51b7Smrg pReg->Option = 0x5053C120; 1058fe5e51b7Smrg } 1059fe5e51b7Smrg } else { 1060fe5e51b7Smrg if(pMga->OverclockMem) { 1061fe5e51b7Smrg /* 125/166 */ 1062fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x02; 1063fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x1B; 1064fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18; 1065fe5e51b7Smrg pReg->Option3 = 0x019B8419; 1066fe5e51b7Smrg pReg->Option = 0x5053C120; 1067fe5e51b7Smrg } else { 1068fe5e51b7Smrg /* 110/166 */ 1069fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x13; 1070fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x7A; 1071fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x08; 1072fe5e51b7Smrg pReg->Option3 = 0x0190a421; 1073fe5e51b7Smrg pReg->Option = 0x50044120; 1074fe5e51b7Smrg } 1075fe5e51b7Smrg } 1076fe5e51b7Smrg if(pMga->HasSDRAM) 1077fe5e51b7Smrg pReg->Option &= ~(1 << 14); 1078fe5e51b7Smrg pReg->Option2 = 0x01003000; 1079fe5e51b7Smrg break; 1080fe5e51b7Smrg case PCI_CHIP_MGAG200_SE_A_PCI: 1081fe5e51b7Smrg case PCI_CHIP_MGAG200_SE_B_PCI: 1082fe5e51b7Smrg pReg->DacRegs[ MGA1064_VREF_CTL ] = 0x03; 1083fe5e51b7Smrg pReg->DacRegs[MGA1064_PIX_CLK_CTL] = 1084fe5e51b7Smrg MGA1064_PIX_CLK_CTL_SEL_PLL; 1085fe5e51b7Smrg 1086fe5e51b7Smrg pReg->DacRegs[MGA1064_MISC_CTL] = 1087fe5e51b7Smrg MGA1064_MISC_CTL_DAC_EN | 1088fe5e51b7Smrg MGA1064_MISC_CTL_VGA8 | 1089fe5e51b7Smrg MGA1064_MISC_CTL_DAC_RAM_CS; 1090fe5e51b7Smrg 1091fe5e51b7Smrg if (pMga->HasSDRAM) 1092fe5e51b7Smrg pReg->Option = 0x40049120; 1093fe5e51b7Smrg pReg->Option2 = 0x00008000; 1094fe5e51b7Smrg break; 1095eda3803bSmrg 1096eda3803bSmrg case PCI_CHIP_MGAG200_WINBOND_PCI: 1097eda3803bSmrg pReg->DacRegs[MGA1064_VREF_CTL] = 0x07; 1098eda3803bSmrg pReg->Option = 0x41049120; 1099eda3803bSmrg pReg->Option2 = 0x0000b000; 1100eda3803bSmrg break; 1101eda3803bSmrg 1102eda3803bSmrg case PCI_CHIP_MGAG200_EV_PCI: 1103eda3803bSmrg pReg->DacRegs[MGA1064_PIX_CLK_CTL] = 1104eda3803bSmrg MGA1064_PIX_CLK_CTL_SEL_PLL; 1105eda3803bSmrg 1106eda3803bSmrg pReg->DacRegs[MGA1064_MISC_CTL] = 1107eda3803bSmrg MGA1064_MISC_CTL_VGA8 | 1108eda3803bSmrg MGA1064_MISC_CTL_DAC_RAM_CS; 1109eda3803bSmrg 1110eda3803bSmrg pReg->Option = 0x00000120; 1111eda3803bSmrg pReg->Option2 = 0x0000b000; 1112eda3803bSmrg break; 1113eda3803bSmrg 11140bb88ba4Smrg case PCI_CHIP_MGAG200_ER_PCI: 11150bb88ba4Smrg pReg->Dac_Index90 = 0; 11160bb88ba4Smrg break; 11170bb88ba4Smrg 1118a31a186aSmrg case PCI_CHIP_MGAG200_EH_PCI: 1119a31a186aSmrg pReg->DacRegs[MGA1064_MISC_CTL] = 1120a31a186aSmrg MGA1064_MISC_CTL_VGA8 | 1121a31a186aSmrg MGA1064_MISC_CTL_DAC_RAM_CS; 1122a31a186aSmrg 1123a31a186aSmrg pReg->Option = 0x00000120; 1124a31a186aSmrg pReg->Option2 = 0x0000b000; 1125a31a186aSmrg break; 1126a31a186aSmrg 1127fe5e51b7Smrg case PCI_CHIP_MGAG200: 1128fe5e51b7Smrg case PCI_CHIP_MGAG200_PCI: 1129fe5e51b7Smrg default: 1130fe5e51b7Smrg if(pMga->OverclockMem) { 1131fe5e51b7Smrg /* 143 Mhz */ 1132fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x06; 1133fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x24; 1134fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x10; 1135fe5e51b7Smrg } else { 1136fe5e51b7Smrg /* 124 Mhz */ 1137fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x04; 1138fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x2D; 1139fe5e51b7Smrg pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x19; 1140fe5e51b7Smrg } 1141fe5e51b7Smrg pReg->Option2 = 0x00008000; 1142fe5e51b7Smrg if(pMga->HasSDRAM) 1143fe5e51b7Smrg pReg->Option = 0x40499121; 1144fe5e51b7Smrg else 1145fe5e51b7Smrg pReg->Option = 0x4049cd21; 1146fe5e51b7Smrg break; 1147fe5e51b7Smrg } 1148fe5e51b7Smrg 1149fe5e51b7Smrg MGA_NOT_HAL( 1150fe5e51b7Smrg /* must always have the pci retries on but rely on 1151fe5e51b7Smrg polling to keep them from occuring */ 1152fe5e51b7Smrg pReg->Option &= ~0x20000000; 1153fe5e51b7Smrg 1154fe5e51b7Smrg switch(pLayout->bitsPerPixel) 1155fe5e51b7Smrg { 1156fe5e51b7Smrg case 8: 1157fe5e51b7Smrg pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_8bits; 1158fe5e51b7Smrg break; 1159fe5e51b7Smrg case 16: 1160fe5e51b7Smrg pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_16bits; 1161fe5e51b7Smrg if ( (pLayout->weight.red == 5) && (pLayout->weight.green == 5) 1162fe5e51b7Smrg && (pLayout->weight.blue == 5) ) { 1163fe5e51b7Smrg pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_15bits; 1164fe5e51b7Smrg } 1165fe5e51b7Smrg break; 1166fe5e51b7Smrg case 24: 1167fe5e51b7Smrg pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_24bits; 1168fe5e51b7Smrg break; 1169fe5e51b7Smrg case 32: 1170eda3803bSmrg pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_32_24bits; 1171eda3803bSmrg break; 1172fe5e51b7Smrg default: 1173fe5e51b7Smrg FatalError("MGA: unsupported depth\n"); 1174fe5e51b7Smrg } 1175fe5e51b7Smrg ); /* MGA_NOT_HAL */ 1176fe5e51b7Smrg 1177fe5e51b7Smrg /* 1178fe5e51b7Smrg * This will initialize all of the generic VGA registers. 1179fe5e51b7Smrg */ 1180fe5e51b7Smrg if (!vgaHWInit(pScrn, mode)) 1181fe5e51b7Smrg return(FALSE); 1182fe5e51b7Smrg 1183fe5e51b7Smrg /* 1184fe5e51b7Smrg * Here all of the MGA registers get filled in. 1185fe5e51b7Smrg */ 1186fe5e51b7Smrg hd = (mode->CrtcHDisplay >> 3) - 1; 1187fe5e51b7Smrg hs = (mode->CrtcHSyncStart >> 3) - 1; 1188fe5e51b7Smrg he = (mode->CrtcHSyncEnd >> 3) - 1; 1189fe5e51b7Smrg ht = (mode->CrtcHTotal >> 3) - 1; 1190fe5e51b7Smrg vd = mode->CrtcVDisplay - 1; 1191fe5e51b7Smrg vs = mode->CrtcVSyncStart - 1; 1192fe5e51b7Smrg ve = mode->CrtcVSyncEnd - 1; 1193fe5e51b7Smrg vt = mode->CrtcVTotal - 2; 1194fe5e51b7Smrg 1195fe5e51b7Smrg /* HTOTAL & 0x7 equal to 0x6 in 8bpp or 0x4 in 24bpp causes strange 1196fe5e51b7Smrg * vertical stripes 1197fe5e51b7Smrg */ 1198fe5e51b7Smrg if((ht & 0x07) == 0x06 || (ht & 0x07) == 0x04) 1199fe5e51b7Smrg ht++; 1200fe5e51b7Smrg 1201fe5e51b7Smrg if (pLayout->bitsPerPixel == 24) 1202fe5e51b7Smrg wd = (pLayout->displayWidth * 3) >> (4 - BppShift); 1203fe5e51b7Smrg else 1204fe5e51b7Smrg wd = pLayout->displayWidth >> (4 - BppShift); 1205fe5e51b7Smrg 1206fe5e51b7Smrg pReg->ExtVga[0] = 0; 1207fe5e51b7Smrg pReg->ExtVga[5] = 0; 1208fe5e51b7Smrg 1209fe5e51b7Smrg if (mode->Flags & V_INTERLACE) 1210fe5e51b7Smrg { 1211fe5e51b7Smrg pReg->ExtVga[0] = 0x80; 1212fe5e51b7Smrg pReg->ExtVga[5] = (hs + he - ht) >> 1; 1213fe5e51b7Smrg wd <<= 1; 1214fe5e51b7Smrg vt &= 0xFFFE; 1215fe5e51b7Smrg } 1216fe5e51b7Smrg 1217fe5e51b7Smrg pReg->ExtVga[0] |= (wd & 0x300) >> 4; 1218fe5e51b7Smrg pReg->ExtVga[1] = (((ht - 4) & 0x100) >> 8) | 1219fe5e51b7Smrg ((hd & 0x100) >> 7) | 1220fe5e51b7Smrg ((hs & 0x100) >> 6) | 1221fe5e51b7Smrg (ht & 0x40); 1222fe5e51b7Smrg pReg->ExtVga[2] = ((vt & 0xc00) >> 10) | 1223fe5e51b7Smrg ((vd & 0x400) >> 8) | 1224fe5e51b7Smrg ((vd & 0xc00) >> 7) | 1225fe5e51b7Smrg ((vs & 0xc00) >> 5) | 1226fe5e51b7Smrg ((vd & 0x400) >> 3); /* linecomp */ 1227fe5e51b7Smrg if (pLayout->bitsPerPixel == 24) 1228fe5e51b7Smrg pReg->ExtVga[3] = (((1 << BppShift) * 3) - 1) | 0x80; 1229fe5e51b7Smrg else 1230fe5e51b7Smrg pReg->ExtVga[3] = ((1 << BppShift) - 1) | 0x80; 1231fe5e51b7Smrg 1232eda3803bSmrg pReg->ExtVga[4] = 0; 1233eda3803bSmrg 1234eda3803bSmrg if (pMga->is_G200WB){ 1235eda3803bSmrg pReg->ExtVga[1] |= 0x88; 1236eda3803bSmrg } 12370bb88ba4Smrg pReg->ExtVga_Index24 = 0x05; 1238fe5e51b7Smrg 1239fe5e51b7Smrg pVga->CRTC[0] = ht - 4; 1240fe5e51b7Smrg pVga->CRTC[1] = hd; 1241fe5e51b7Smrg pVga->CRTC[2] = hd; 1242fe5e51b7Smrg pVga->CRTC[3] = (ht & 0x1F) | 0x80; 1243fe5e51b7Smrg pVga->CRTC[4] = hs; 1244fe5e51b7Smrg pVga->CRTC[5] = ((ht & 0x20) << 2) | (he & 0x1F); 1245fe5e51b7Smrg pVga->CRTC[6] = vt & 0xFF; 1246fe5e51b7Smrg pVga->CRTC[7] = ((vt & 0x100) >> 8 ) | 1247fe5e51b7Smrg ((vd & 0x100) >> 7 ) | 1248fe5e51b7Smrg ((vs & 0x100) >> 6 ) | 1249fe5e51b7Smrg ((vd & 0x100) >> 5 ) | 1250fe5e51b7Smrg ((vd & 0x100) >> 4 ) | /* linecomp */ 1251fe5e51b7Smrg ((vt & 0x200) >> 4 ) | 1252fe5e51b7Smrg ((vd & 0x200) >> 3 ) | 1253fe5e51b7Smrg ((vs & 0x200) >> 2 ); 1254fe5e51b7Smrg pVga->CRTC[9] = ((vd & 0x200) >> 4) | 1255fe5e51b7Smrg ((vd & 0x200) >> 3); /* linecomp */ 1256fe5e51b7Smrg pVga->CRTC[16] = vs & 0xFF; 1257fe5e51b7Smrg pVga->CRTC[17] = (ve & 0x0F) | 0x20; 1258fe5e51b7Smrg pVga->CRTC[18] = vd & 0xFF; 1259fe5e51b7Smrg pVga->CRTC[19] = wd & 0xFF; 1260fe5e51b7Smrg pVga->CRTC[21] = vd & 0xFF; 1261fe5e51b7Smrg pVga->CRTC[22] = (vt + 1) & 0xFF; 1262fe5e51b7Smrg pVga->CRTC[24] = vd & 0xFF; /* linecomp */ 1263fe5e51b7Smrg 1264fe5e51b7Smrg MGA_NOT_HAL(pReg->DacRegs[MGA1064_CURSOR_BASE_ADR_LOW] = pMga->FbCursorOffset >> 10); 1265fe5e51b7Smrg MGA_NOT_HAL(pReg->DacRegs[MGA1064_CURSOR_BASE_ADR_HI] = pMga->FbCursorOffset >> 18); 1266fe5e51b7Smrg 1267fe5e51b7Smrg if (pMga->SyncOnGreen) { 1268fe5e51b7Smrg MGA_NOT_HAL( 1269fe5e51b7Smrg pReg->DacRegs[MGA1064_GEN_CTL] &= 1270fe5e51b7Smrg ~MGA1064_GEN_CTL_SYNC_ON_GREEN_DIS; 1271fe5e51b7Smrg ); 1272fe5e51b7Smrg 1273fe5e51b7Smrg pReg->ExtVga[3] |= 0x40; 1274fe5e51b7Smrg } 1275fe5e51b7Smrg 1276fe5e51b7Smrg /* select external clock */ 1277fe5e51b7Smrg pVga->MiscOutReg |= 0x0C; 1278fe5e51b7Smrg 1279fe5e51b7Smrg MGA_NOT_HAL( 1280fe5e51b7Smrg if (mode->Flags & V_DBLSCAN) 1281fe5e51b7Smrg pVga->CRTC[9] |= 0x80; 1282fe5e51b7Smrg 1283fe5e51b7Smrg if(MGAISGx50(pMga)) { 1284fe5e51b7Smrg OUTREG(MGAREG_ZORG, 0); 1285fe5e51b7Smrg } 1286fe5e51b7Smrg 1287fe5e51b7Smrg MGAGSetPCLK(pScrn, mode->Clock); 1288fe5e51b7Smrg ); /* MGA_NOT_HAL */ 1289fe5e51b7Smrg 1290fe5e51b7Smrg /* This disables the VGA memory aperture */ 1291fe5e51b7Smrg pVga->MiscOutReg &= ~0x02; 1292fe5e51b7Smrg 1293fe5e51b7Smrg /* Urgh. Why do we define our own xMODEINFO structure instead 1294fe5e51b7Smrg * of just passing the blinkin' DisplayModePtr? If we're going to 1295fe5e51b7Smrg * just cut'n'paste routines from the HALlib, it would be better 1296fe5e51b7Smrg * just to strip the MacroVision stuff out of the HALlib and release 1297fe5e51b7Smrg * that, surely? 1298fe5e51b7Smrg */ 1299fe5e51b7Smrg /********************* Second Crtc programming **************/ 1300fe5e51b7Smrg /* Writing values to crtc2[] array */ 1301fe5e51b7Smrg if (pMga->SecondCrtc) 1302fe5e51b7Smrg { 1303fe5e51b7Smrg MGACRTC2Get(pScrn, &ModeInfo); 1304fe5e51b7Smrg MGACRTC2GetPitch(pScrn, &ModeInfo); 1305fe5e51b7Smrg MGACRTC2GetDisplayStart(pScrn, &ModeInfo,0,0,0); 1306fe5e51b7Smrg } 1307fe5e51b7Smrg 1308fe5e51b7Smrg#if X_BYTE_ORDER == X_BIG_ENDIAN 1309fe5e51b7Smrg /* Disable byte-swapping for big-endian architectures - the XFree 1310fe5e51b7Smrg driver seems to like a little-endian framebuffer -ReneR */ 1311fe5e51b7Smrg /* pReg->Option |= 0x80000000; */ 1312fe5e51b7Smrg pReg->Option &= ~0x80000000; 1313fe5e51b7Smrg#endif 1314fe5e51b7Smrg 1315fe5e51b7Smrg return(TRUE); 1316fe5e51b7Smrg} 1317fe5e51b7Smrg 1318fe5e51b7Smrg/* 1319fe5e51b7Smrg * MGAGLoadPalette 1320fe5e51b7Smrg */ 1321fe5e51b7Smrg 1322fe5e51b7Smrgstatic void 1323fe5e51b7SmrgMGAPaletteLoadCallback(ScrnInfoPtr pScrn) 1324fe5e51b7Smrg{ 1325fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1326fe5e51b7Smrg MGAPaletteInfo *pal = pMga->palinfo; 1327fe5e51b7Smrg int i; 1328fe5e51b7Smrg 1329fe5e51b7Smrg while (!(INREG8(0x1FDA) & 0x08)); 1330fe5e51b7Smrg 1331fe5e51b7Smrg for(i = 0; i < 256; i++) { 1332fe5e51b7Smrg if(pal->update) { 1333fe5e51b7Smrg outMGAdreg(MGA1064_WADR_PAL, i); 1334fe5e51b7Smrg outMGAdreg(MGA1064_COL_PAL, pal->red); 1335fe5e51b7Smrg outMGAdreg(MGA1064_COL_PAL, pal->green); 1336fe5e51b7Smrg outMGAdreg(MGA1064_COL_PAL, pal->blue); 1337fe5e51b7Smrg pal->update = FALSE; 1338fe5e51b7Smrg } 1339fe5e51b7Smrg pal++; 1340fe5e51b7Smrg } 1341fe5e51b7Smrg pMga->PaletteLoadCallback = NULL; 1342fe5e51b7Smrg} 1343fe5e51b7Smrg 1344fe5e51b7Smrgvoid MGAGLoadPalette( 1345fe5e51b7Smrg ScrnInfoPtr pScrn, 1346fe5e51b7Smrg int numColors, 1347fe5e51b7Smrg int *indices, 1348fe5e51b7Smrg LOCO *colors, 1349fe5e51b7Smrg VisualPtr pVisual 1350fe5e51b7Smrg){ 1351fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1352fe5e51b7Smrg 1353fe5e51b7Smrg if(pMga->Chipset == PCI_CHIP_MGAG400 || pMga->Chipset == PCI_CHIP_MGAG550){ 1354fe5e51b7Smrg /* load them at the retrace in the block handler instead to 1355fe5e51b7Smrg work around some problems with static on the screen */ 1356fe5e51b7Smrg while(numColors--) { 1357fe5e51b7Smrg pMga->palinfo[*indices].update = TRUE; 1358fe5e51b7Smrg pMga->palinfo[*indices].red = colors[*indices].red; 1359fe5e51b7Smrg pMga->palinfo[*indices].green = colors[*indices].green; 1360fe5e51b7Smrg pMga->palinfo[*indices].blue = colors[*indices].blue; 1361fe5e51b7Smrg indices++; 1362fe5e51b7Smrg } 1363fe5e51b7Smrg pMga->PaletteLoadCallback = MGAPaletteLoadCallback; 1364fe5e51b7Smrg return; 1365fe5e51b7Smrg } else { 1366fe5e51b7Smrg while(numColors--) { 1367fe5e51b7Smrg outMGAdreg(MGA1064_WADR_PAL, *indices); 1368fe5e51b7Smrg outMGAdreg(MGA1064_COL_PAL, colors[*indices].red); 1369fe5e51b7Smrg outMGAdreg(MGA1064_COL_PAL, colors[*indices].green); 1370fe5e51b7Smrg outMGAdreg(MGA1064_COL_PAL, colors[*indices].blue); 1371fe5e51b7Smrg indices++; 1372fe5e51b7Smrg } 1373fe5e51b7Smrg } 1374fe5e51b7Smrg} 1375fe5e51b7Smrg 1376fe5e51b7Smrg/* 1377fe5e51b7Smrg * MGAGRestorePalette 1378fe5e51b7Smrg */ 1379fe5e51b7Smrg 1380fe5e51b7Smrgstatic void 1381fe5e51b7SmrgMGAGRestorePalette(ScrnInfoPtr pScrn, unsigned char* pntr) 1382fe5e51b7Smrg{ 1383fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1384fe5e51b7Smrg int i = 768; 1385fe5e51b7Smrg 1386fe5e51b7Smrg outMGAdreg(MGA1064_WADR_PAL, 0x00); 1387fe5e51b7Smrg while(i--) 1388fe5e51b7Smrg outMGAdreg(MGA1064_COL_PAL, *(pntr++)); 1389fe5e51b7Smrg} 1390fe5e51b7Smrg 1391fe5e51b7Smrg/* 1392fe5e51b7Smrg * MGAGSavePalette 1393fe5e51b7Smrg */ 1394fe5e51b7Smrgstatic void 1395fe5e51b7SmrgMGAGSavePalette(ScrnInfoPtr pScrn, unsigned char* pntr) 1396fe5e51b7Smrg{ 1397fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1398fe5e51b7Smrg int i = 768; 1399fe5e51b7Smrg 1400fe5e51b7Smrg outMGAdreg(MGA1064_RADR_PAL, 0x00); 1401fe5e51b7Smrg while(i--) 1402fe5e51b7Smrg *(pntr++) = inMGAdreg(MGA1064_COL_PAL); 1403fe5e51b7Smrg} 1404fe5e51b7Smrg 1405fe5e51b7Smrg/* 1406fe5e51b7Smrg * MGAGRestore 1407fe5e51b7Smrg * 1408fe5e51b7Smrg * This function restores a video mode. It basically writes out all of 1409fe5e51b7Smrg * the registers that have previously been saved. 1410fe5e51b7Smrg */ 1411fe5e51b7Smrgstatic void 1412fe5e51b7SmrgMGAGRestore(ScrnInfoPtr pScrn, vgaRegPtr vgaReg, MGARegPtr mgaReg, 1413fe5e51b7Smrg Bool restoreFonts) 1414fe5e51b7Smrg{ 1415fe5e51b7Smrg int i; 1416fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1417fe5e51b7Smrg CARD32 optionMask; 1418fe5e51b7Smrg 1419eda3803bSmrgMGA_NOT_HAL( 1420eda3803bSmrg if (pMga->is_G200WB) 1421eda3803bSmrg { 1422eda3803bSmrg MGAG200WBPrepareForModeSwitch(pScrn); 1423eda3803bSmrg } 1424eda3803bSmrg); 1425eda3803bSmrg 1426fe5e51b7Smrg /* 1427fe5e51b7Smrg * Pixel Clock needs to be restored regardless if we use 1428fe5e51b7Smrg * HALLib or not. HALlib doesn't do a good job restoring 1429fe5e51b7Smrg * VESA modes. MATROX: hint, hint. 1430fe5e51b7Smrg */ 1431fe5e51b7Smrg if (MGAISGx50(pMga) && mgaReg->Clock) { 1432fe5e51b7Smrg /* 1433fe5e51b7Smrg * With HALlib program only when restoring to console! 1434fe5e51b7Smrg * To test this we check for Clock == 0. 1435fe5e51b7Smrg */ 1436fe5e51b7Smrg MGAG450SetPLLFreq(pScrn, mgaReg->Clock); 1437493f84f4Smrg outMGAdac(MGA1064_PAN_CTL, mgaReg->Pan_Ctl); 1438fe5e51b7Smrg mgaReg->PIXPLLCSaved = FALSE; 1439fe5e51b7Smrg } 1440fe5e51b7Smrg 1441fe5e51b7Smrg if(!pMga->SecondCrtc) { 1442fe5e51b7Smrg /* Do not set the memory config for primary cards as it 1443fe5e51b7Smrg should be correct already. Only on little endian architectures 1444fe5e51b7Smrg since we need to modify the byteswap bit. -ReneR */ 1445fe5e51b7Smrg#if X_BYTE_ORDER == X_BIG_ENDIAN 1446fe5e51b7Smrg optionMask = OPTION1_MASK; 1447fe5e51b7Smrg#else 1448fe5e51b7Smrg optionMask = (pMga->Primary) ? OPTION1_MASK_PRIMARY : OPTION1_MASK; 1449fe5e51b7Smrg#endif 1450fe5e51b7Smrg 1451fe5e51b7SmrgMGA_NOT_HAL( 1452fe5e51b7Smrg /* 1453fe5e51b7Smrg * Code is needed to get things back to bank zero. 1454fe5e51b7Smrg */ 1455fe5e51b7Smrg 1456fe5e51b7Smrg /* restore DAC registers 1457fe5e51b7Smrg * according to the docs we shouldn't write to reserved regs*/ 1458fe5e51b7Smrg for (i = 0; i < DACREGSIZE; i++) { 1459fe5e51b7Smrg if( (i <= 0x03) || 1460fe5e51b7Smrg (i == 0x07) || 1461fe5e51b7Smrg (i == 0x0b) || 1462fe5e51b7Smrg (i == 0x0f) || 1463fe5e51b7Smrg ((i >= 0x13) && (i <= 0x17)) || 1464fe5e51b7Smrg (i == 0x1b) || 1465fe5e51b7Smrg (i == 0x1c) || 1466fe5e51b7Smrg ((i >= 0x1f) && (i <= 0x29)) || 1467fe5e51b7Smrg ((i >= 0x30) && (i <= 0x37)) || 1468fe5e51b7Smrg (MGAISGx50(pMga) && !mgaReg->PIXPLLCSaved && 1469fe5e51b7Smrg ((i == 0x2c) || (i == 0x2d) || (i == 0x2e) || 1470fe5e51b7Smrg (i == 0x4c) || (i == 0x4d) || (i == 0x4e)))) 1471fe5e51b7Smrg continue; 1472fe5e51b7Smrg if (pMga->is_G200SE 1473fe5e51b7Smrg && ((i == 0x2C) || (i == 0x2D) || (i == 0x2E))) 1474fe5e51b7Smrg continue; 1475a31a186aSmrg if ( (pMga->is_G200EV || pMga->is_G200WB || pMga->is_G200EH) && 1476eda3803bSmrg (i >= 0x44) && (i <= 0x4E)) 1477eda3803bSmrg continue; 14780bb88ba4Smrg 1479fe5e51b7Smrg outMGAdac(i, mgaReg->DacRegs[i]); 1480fe5e51b7Smrg } 1481fe5e51b7Smrg 14820bb88ba4Smrg if (pMga->is_G200ER) 14830bb88ba4Smrg { 14840bb88ba4Smrg outMGAdac(0x90, mgaReg->Dac_Index90); 14850bb88ba4Smrg } 14860bb88ba4Smrg 1487fe5e51b7Smrg if (!MGAISGx50(pMga)) { 1488fe5e51b7Smrg /* restore pci_option register */ 1489fe5e51b7Smrg#ifdef XSERVER_LIBPCIACCESS 1490fe5e51b7Smrg pci_device_cfg_write_bits(pMga->PciInfo, optionMask, 1491fe5e51b7Smrg mgaReg->Option, PCI_OPTION_REG); 1492fe5e51b7Smrg 1493fe5e51b7Smrg if (pMga->Chipset != PCI_CHIP_MGA1064) { 1494fe5e51b7Smrg pci_device_cfg_write_bits(pMga->PciInfo, OPTION2_MASK, 1495fe5e51b7Smrg mgaReg->Option2, PCI_MGA_OPTION2); 1496fe5e51b7Smrg 1497fe5e51b7Smrg if (pMga->Chipset == PCI_CHIP_MGAG400 1498fe5e51b7Smrg || pMga->Chipset == PCI_CHIP_MGAG550) { 1499fe5e51b7Smrg pci_device_cfg_write_bits(pMga->PciInfo, OPTION3_MASK, 1500fe5e51b7Smrg mgaReg->Option3, 1501fe5e51b7Smrg PCI_MGA_OPTION3); 1502fe5e51b7Smrg } 1503fe5e51b7Smrg } 1504fe5e51b7Smrg#else 1505fe5e51b7Smrg /* restore pci_option register */ 1506fe5e51b7Smrg pciSetBitsLong(pMga->PciTag, PCI_OPTION_REG, optionMask, 1507fe5e51b7Smrg mgaReg->Option); 1508fe5e51b7Smrg if (pMga->Chipset != PCI_CHIP_MGA1064) 1509fe5e51b7Smrg pciSetBitsLong(pMga->PciTag, PCI_MGA_OPTION2, OPTION2_MASK, 1510fe5e51b7Smrg mgaReg->Option2); 1511fe5e51b7Smrg if (pMga->Chipset == PCI_CHIP_MGAG400 || pMga->Chipset == PCI_CHIP_MGAG550) 1512fe5e51b7Smrg pciSetBitsLong(pMga->PciTag, PCI_MGA_OPTION3, OPTION3_MASK, 1513fe5e51b7Smrg mgaReg->Option3); 1514fe5e51b7Smrg#endif 1515fe5e51b7Smrg } 1516eda3803bSmrg 15170bb88ba4Smrg if (pMga->is_G200ER) { 15180bb88ba4Smrg MGAG200ERPIXPLLSET(pScrn, mgaReg); 15190bb88ba4Smrg } else if (pMga->is_G200EV) { 1520eda3803bSmrg MGAG200EVPIXPLLSET(pScrn, mgaReg); 1521eda3803bSmrg } else if (pMga->is_G200WB) { 1522eda3803bSmrg MGAG200WBPIXPLLSET(pScrn, mgaReg); 1523a31a186aSmrg } else if (pMga->is_G200EH) { 1524a31a186aSmrg MGAG200EHPIXPLLSET(pScrn, mgaReg); 1525eda3803bSmrg } 1526fe5e51b7Smrg); /* MGA_NOT_HAL */ 1527fe5e51b7Smrg /* restore CRTCEXT regs */ 1528fe5e51b7Smrg for (i = 0; i < 6; i++) 1529fe5e51b7Smrg OUTREG16(MGAREG_CRTCEXT_INDEX, (mgaReg->ExtVga[i] << 8) | i); 1530fe5e51b7Smrg 15310bb88ba4Smrg if (pMga->is_G200ER) { 15320bb88ba4Smrg OUTREG8(MGAREG_CRTCEXT_INDEX, 0x24); 15330bb88ba4Smrg OUTREG8(MGAREG_CRTCEXT_DATA, mgaReg->ExtVga_Index24); 15340bb88ba4Smrg } 15350bb88ba4Smrg 1536fe5e51b7Smrg /* This handles restoring the generic VGA registers. */ 1537fe5e51b7Smrg if (pMga->is_G200SE) { 1538fe5e51b7Smrg MGAG200SERestoreMode(pScrn, vgaReg); 1539fe5e51b7Smrg if (restoreFonts) 1540fe5e51b7Smrg MGAG200SERestoreFonts(pScrn, vgaReg); 1541fe5e51b7Smrg } else { 1542fe5e51b7Smrg vgaHWRestore(pScrn, vgaReg, 1543fe5e51b7Smrg VGA_SR_MODE | (restoreFonts ? VGA_SR_FONTS : 0)); 1544fe5e51b7Smrg } 1545fe5e51b7Smrg MGAGRestorePalette(pScrn, vgaReg->DAC); 1546fe5e51b7Smrg 1547eda3803bSmrg 1548eda3803bSmrg if (pMga->is_G200EV) { 1549eda3803bSmrg OUTREG16(MGAREG_CRTCEXT_INDEX, 6); 1550eda3803bSmrg OUTREG16(MGAREG_CRTCEXT_DATA, 0); 1551eda3803bSmrg } 15520bb88ba4Smrg 1553fe5e51b7Smrg /* 1554fe5e51b7Smrg * this is needed to properly restore start address 1555fe5e51b7Smrg */ 1556fe5e51b7Smrg OUTREG16(MGAREG_CRTCEXT_INDEX, (mgaReg->ExtVga[0] << 8) | 0); 1557eda3803bSmrg 1558eda3803bSmrgMGA_NOT_HAL( 1559eda3803bSmrg if (pMga->is_G200WB) 1560eda3803bSmrg { 1561eda3803bSmrg MGAG200WBRestoreFromModeSwitch(pScrn); 1562eda3803bSmrg } 1563eda3803bSmrg); 1564eda3803bSmrg 1565fe5e51b7Smrg } else { 1566fe5e51b7Smrg /* Second Crtc */ 1567fe5e51b7Smrg xMODEINFO ModeInfo; 1568fe5e51b7Smrg 1569fe5e51b7SmrgMGA_NOT_HAL( 1570fe5e51b7Smrg /* Enable Dual Head */ 1571fe5e51b7Smrg MGACRTC2Set(pScrn, &ModeInfo); 1572fe5e51b7Smrg MGAEnableSecondOutPut(pScrn, &ModeInfo); 1573fe5e51b7Smrg MGACRTC2SetPitch(pScrn, &ModeInfo); 1574fe5e51b7Smrg MGACRTC2SetDisplayStart(pScrn, &ModeInfo,0,0,0); 1575fe5e51b7Smrg 1576fe5e51b7Smrg for (i = 0x80; i <= 0xa0; i ++) { 1577fe5e51b7Smrg if (i== 0x8d) { 1578fe5e51b7Smrg i = 0x8f; 1579fe5e51b7Smrg continue; 1580fe5e51b7Smrg } 1581fe5e51b7Smrg outMGAdac(i, mgaReg->dac2[ i - 0x80]); 1582fe5e51b7Smrg } 1583eda3803bSmrg 1584fe5e51b7Smrg); /* MGA_NOT_HAL */ 1585fe5e51b7Smrg 1586fe5e51b7Smrg } 1587fe5e51b7Smrg 1588fe5e51b7Smrg#ifdef DEBUG 1589fe5e51b7Smrg ErrorF("Setting DAC:"); 1590fe5e51b7Smrg for (i=0; i<DACREGSIZE; i++) { 1591fe5e51b7Smrg#if 1 1592fe5e51b7Smrg if(!(i%16)) ErrorF("\n%02X: ",i); 1593fe5e51b7Smrg ErrorF("%02X ", mgaReg->DacRegs[i]); 1594fe5e51b7Smrg#else 1595fe5e51b7Smrg if(!(i%8)) ErrorF("\n%02X: ",i); 1596fe5e51b7Smrg ErrorF("0x%02X, ", mgaReg->DacRegs[i]); 1597fe5e51b7Smrg#endif 1598fe5e51b7Smrg } 1599fe5e51b7Smrg ErrorF("\nOPTION = %08lX\n", mgaReg->Option); 1600fe5e51b7Smrg ErrorF("OPTION2 = %08lX\n", mgaReg->Option2); 1601fe5e51b7Smrg ErrorF("CRTCEXT:"); 1602fe5e51b7Smrg for (i=0; i<6; i++) ErrorF(" %02X", mgaReg->ExtVga[i]); 1603fe5e51b7Smrg ErrorF("\n"); 1604fe5e51b7Smrg#endif 1605fe5e51b7Smrg 1606fe5e51b7Smrg} 1607fe5e51b7Smrg 1608fe5e51b7Smrg/* 1609fe5e51b7Smrg * MGAGSave 1610fe5e51b7Smrg * 1611fe5e51b7Smrg * This function saves the video state. 1612fe5e51b7Smrg */ 1613fe5e51b7Smrgstatic void 1614fe5e51b7SmrgMGAGSave(ScrnInfoPtr pScrn, vgaRegPtr vgaReg, MGARegPtr mgaReg, 1615fe5e51b7Smrg Bool saveFonts) 1616fe5e51b7Smrg{ 1617fe5e51b7Smrg int i; 1618fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1619fe5e51b7Smrg 1620fe5e51b7Smrg /* 1621fe5e51b7Smrg * Pixel Clock needs to be restored regardless if we use 1622fe5e51b7Smrg * HALLib or not. HALlib doesn't do a good job restoring 1623fe5e51b7Smrg * VESA modes (s.o.). MATROX: hint, hint. 1624fe5e51b7Smrg */ 1625fe5e51b7Smrg if (MGAISGx50(pMga)) { 1626493f84f4Smrg mgaReg->Pan_Ctl = inMGAdac(MGA1064_PAN_CTL); 1627fe5e51b7Smrg mgaReg->Clock = MGAG450SavePLLFreq(pScrn); 1628fe5e51b7Smrg } 1629fe5e51b7Smrg 1630fe5e51b7Smrg if(pMga->SecondCrtc == TRUE) { 1631fe5e51b7Smrg for(i = 0x80; i < 0xa0; i++) 1632fe5e51b7Smrg mgaReg->dac2[i-0x80] = inMGAdac(i); 1633fe5e51b7Smrg 1634fe5e51b7Smrg return; 1635fe5e51b7Smrg } 1636fe5e51b7Smrg 1637fe5e51b7Smrg MGA_NOT_HAL( 1638fe5e51b7Smrg /* Allocate the DacRegs space if not done already */ 1639fe5e51b7Smrg if (mgaReg->DacRegs == NULL) { 1640fe5e51b7Smrg mgaReg->DacRegs = xnfcalloc(DACREGSIZE, 1); 1641fe5e51b7Smrg } 1642fe5e51b7Smrg ); /* MGA_NOT_HAL */ 1643fe5e51b7Smrg 1644fe5e51b7Smrg /* 1645fe5e51b7Smrg * Code is needed to get back to bank zero. 1646fe5e51b7Smrg */ 1647fe5e51b7Smrg OUTREG16(MGAREG_CRTCEXT_INDEX, 0x0004); 1648fe5e51b7Smrg 1649fe5e51b7Smrg /* 1650fe5e51b7Smrg * This function will handle creating the data structure and filling 1651fe5e51b7Smrg * in the generic VGA portion. 1652fe5e51b7Smrg */ 1653fe5e51b7Smrg if (pMga->is_G200SE) { 1654fe5e51b7Smrg MGAG200SESaveMode(pScrn, vgaReg); 1655fe5e51b7Smrg if (saveFonts) 1656fe5e51b7Smrg MGAG200SESaveFonts(pScrn, vgaReg); 1657fe5e51b7Smrg } else { 1658fe5e51b7Smrg vgaHWSave(pScrn, vgaReg, VGA_SR_MODE | 1659fe5e51b7Smrg (saveFonts ? VGA_SR_FONTS : 0)); 1660fe5e51b7Smrg } 1661fe5e51b7Smrg MGAGSavePalette(pScrn, vgaReg->DAC); 1662fe5e51b7Smrg /* 1663fe5e51b7Smrg * Work around another bug in HALlib: it doesn't restore the 1664fe5e51b7Smrg * DAC width register correctly. 1665fe5e51b7Smrg */ 1666fe5e51b7Smrg 1667fe5e51b7Smrg MGA_NOT_HAL( 1668fe5e51b7Smrg /* 1669fe5e51b7Smrg * The port I/O code necessary to read in the extended registers. 1670fe5e51b7Smrg */ 1671fe5e51b7Smrg for (i = 0; i < DACREGSIZE; i++) 1672fe5e51b7Smrg mgaReg->DacRegs[i] = inMGAdac(i); 1673fe5e51b7Smrg 1674eda3803bSmrg if (pMga->is_G200WB) { 1675eda3803bSmrg mgaReg->PllM = inMGAdac(MGA1064_WB_PIX_PLLC_M); 1676eda3803bSmrg mgaReg->PllN = inMGAdac(MGA1064_WB_PIX_PLLC_N); 1677eda3803bSmrg mgaReg->PllP = inMGAdac(MGA1064_WB_PIX_PLLC_P); 1678eda3803bSmrg } else if (pMga->is_G200EV) { 1679eda3803bSmrg mgaReg->PllM = inMGAdac(MGA1064_EV_PIX_PLLC_M); 1680eda3803bSmrg mgaReg->PllN = inMGAdac(MGA1064_EV_PIX_PLLC_N); 1681eda3803bSmrg mgaReg->PllP = inMGAdac(MGA1064_EV_PIX_PLLC_P); 1682a31a186aSmrg } else if (pMga->is_G200EH) { 1683a31a186aSmrg mgaReg->PllM = inMGAdac(MGA1064_EH_PIX_PLLC_M); 1684a31a186aSmrg mgaReg->PllN = inMGAdac(MGA1064_EH_PIX_PLLC_N); 1685a31a186aSmrg mgaReg->PllP = inMGAdac(MGA1064_EH_PIX_PLLC_P); 16860bb88ba4Smrg } else if (pMga->is_G200ER) { 16870bb88ba4Smrg mgaReg->PllM = inMGAdac(MGA1064_ER_PIX_PLLC_M); 16880bb88ba4Smrg mgaReg->PllN = inMGAdac(MGA1064_ER_PIX_PLLC_N); 16890bb88ba4Smrg mgaReg->PllP = inMGAdac(MGA1064_ER_PIX_PLLC_P); 16900bb88ba4Smrg mgaReg->Dac_Index90 = inMGAdac(0x90); 1691eda3803bSmrg } 1692eda3803bSmrg 1693fe5e51b7Smrg mgaReg->PIXPLLCSaved = TRUE; 1694fe5e51b7Smrg 1695fe5e51b7Smrg#ifdef XSERVER_LIBPCIACCESS 1696fe5e51b7Smrg pci_device_cfg_read_u32(pMga->PciInfo, & mgaReg->Option, 1697fe5e51b7Smrg PCI_OPTION_REG); 1698fe5e51b7Smrg pci_device_cfg_read_u32(pMga->PciInfo, & mgaReg->Option2, 1699fe5e51b7Smrg PCI_MGA_OPTION2); 1700fe5e51b7Smrg#else 1701fe5e51b7Smrg mgaReg->Option = pciReadLong(pMga->PciTag, PCI_OPTION_REG); 1702fe5e51b7Smrg 1703fe5e51b7Smrg mgaReg->Option2 = pciReadLong(pMga->PciTag, PCI_MGA_OPTION2); 1704fe5e51b7Smrg#endif 1705fe5e51b7Smrg if (pMga->Chipset == PCI_CHIP_MGAG400 || pMga->Chipset == PCI_CHIP_MGAG550) 1706fe5e51b7Smrg#ifdef XSERVER_LIBPCIACCESS 1707fe5e51b7Smrg pci_device_cfg_read_u32(pMga->PciInfo, & mgaReg->Option3, 1708fe5e51b7Smrg PCI_MGA_OPTION3); 1709fe5e51b7Smrg#else 1710fe5e51b7Smrg mgaReg->Option3 = pciReadLong(pMga->PciTag, PCI_MGA_OPTION3); 1711fe5e51b7Smrg#endif 1712fe5e51b7Smrg ); /* MGA_NOT_HAL */ 1713fe5e51b7Smrg 1714fe5e51b7Smrg for (i = 0; i < 6; i++) 1715fe5e51b7Smrg { 1716fe5e51b7Smrg OUTREG8(MGAREG_CRTCEXT_INDEX, i); 1717fe5e51b7Smrg mgaReg->ExtVga[i] = INREG8(MGAREG_CRTCEXT_DATA); 1718fe5e51b7Smrg } 17190bb88ba4Smrg if (pMga->is_G200ER) 17200bb88ba4Smrg { 17210bb88ba4Smrg OUTREG8(MGAREG_CRTCEXT_INDEX, 0x24); 17220bb88ba4Smrg mgaReg->ExtVga_Index24 = INREG8(MGAREG_CRTCEXT_DATA); 17230bb88ba4Smrg } 1724fe5e51b7Smrg 1725fe5e51b7Smrg#ifdef DEBUG 1726fe5e51b7Smrg ErrorF("Saved values:\nDAC:"); 1727fe5e51b7Smrg for (i=0; i<DACREGSIZE; i++) { 1728fe5e51b7Smrg#if 1 1729fe5e51b7Smrg if(!(i%16)) ErrorF("\n%02X: ",i); 1730fe5e51b7Smrg ErrorF("%02X ", mgaReg->DacRegs[i]); 1731fe5e51b7Smrg#else 1732fe5e51b7Smrg if(!(i%8)) ErrorF("\n%02X: ",i); 1733fe5e51b7Smrg ErrorF("0x%02X, ", mgaReg->DacRegs[i]); 1734fe5e51b7Smrg#endif 1735fe5e51b7Smrg } 1736fe5e51b7Smrg ErrorF("\nOPTION = %08lX\n:", mgaReg->Option); 1737fe5e51b7Smrg ErrorF("OPTION2 = %08lX\nCRTCEXT:", mgaReg->Option2); 1738fe5e51b7Smrg for (i=0; i<6; i++) ErrorF(" %02X", mgaReg->ExtVga[i]); 1739fe5e51b7Smrg ErrorF("\n"); 1740fe5e51b7Smrg#endif 1741fe5e51b7Smrg} 1742fe5e51b7Smrg 1743fe5e51b7Smrg/**** 1744fe5e51b7Smrg *** HW Cursor 1745fe5e51b7Smrg */ 1746fe5e51b7Smrgstatic void 1747fe5e51b7SmrgMGAGLoadCursorImage(ScrnInfoPtr pScrn, unsigned char *src) 1748fe5e51b7Smrg{ 1749fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1750fe5e51b7Smrg CARD32 *dst = (CARD32*)(pMga->FbBase + pMga->FbCursorOffset); 1751fe5e51b7Smrg int i = 128; 1752fe5e51b7Smrg 1753fe5e51b7Smrg /* swap bytes in each line */ 1754fe5e51b7Smrg while( i-- ) { 1755fe5e51b7Smrg *dst++ = (src[4] << 24) | (src[5] << 16) | (src[6] << 8) | src[7]; 1756fe5e51b7Smrg *dst++ = (src[0] << 24) | (src[1] << 16) | (src[2] << 8) | src[3]; 1757fe5e51b7Smrg src += 8; 1758fe5e51b7Smrg } 1759fe5e51b7Smrg} 1760fe5e51b7Smrg 1761fe5e51b7Smrgstatic void 1762fe5e51b7SmrgMGAGShowCursor(ScrnInfoPtr pScrn) 1763fe5e51b7Smrg{ 1764fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1765fe5e51b7Smrg /* Enable cursor - X-Windows mode */ 1766fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_CTL, 0x03); 1767fe5e51b7Smrg} 1768fe5e51b7Smrg 1769fe5e51b7Smrgstatic void 1770fe5e51b7SmrgMGAGShowCursorG100(ScrnInfoPtr pScrn) 1771fe5e51b7Smrg{ 1772fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1773fe5e51b7Smrg /* Enable cursor - X-Windows mode */ 1774fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_CTL, 0x01); 1775fe5e51b7Smrg} 1776fe5e51b7Smrg 1777fe5e51b7Smrgstatic void 1778fe5e51b7SmrgMGAGHideCursor(ScrnInfoPtr pScrn) 1779fe5e51b7Smrg{ 1780fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1781fe5e51b7Smrg /* Disable cursor */ 1782fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_CTL, 0x00); 1783fe5e51b7Smrg} 1784fe5e51b7Smrg 1785fe5e51b7Smrgstatic void 1786fe5e51b7SmrgMGAGSetCursorPosition(ScrnInfoPtr pScrn, int x, int y) 1787fe5e51b7Smrg{ 1788fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1789fe5e51b7Smrg x += 64; 1790fe5e51b7Smrg y += 64; 1791fe5e51b7Smrg 1792fe5e51b7Smrg /* cursor update must never occurs during a retrace period (pp 4-160) */ 1793fe5e51b7Smrg while( INREG( MGAREG_Status ) & 0x08 ); 1794fe5e51b7Smrg 1795fe5e51b7Smrg /* Output position - "only" 12 bits of location documented */ 1796fe5e51b7Smrg OUTREG8( RAMDAC_OFFSET + MGA1064_CUR_XLOW, (x & 0xFF)); 1797fe5e51b7Smrg OUTREG8( RAMDAC_OFFSET + MGA1064_CUR_XHI, (x & 0xF00) >> 8); 1798fe5e51b7Smrg OUTREG8( RAMDAC_OFFSET + MGA1064_CUR_YLOW, (y & 0xFF)); 1799fe5e51b7Smrg OUTREG8( RAMDAC_OFFSET + MGA1064_CUR_YHI, (y & 0xF00) >> 8); 1800fe5e51b7Smrg} 1801fe5e51b7Smrg 1802fe5e51b7Smrg 1803fe5e51b7Smrgstatic void 1804fe5e51b7SmrgMGAGSetCursorColors(ScrnInfoPtr pScrn, int bg, int fg) 1805fe5e51b7Smrg{ 1806fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1807fe5e51b7Smrg 1808fe5e51b7Smrg /* Background color */ 1809fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL0_RED, (bg & 0x00FF0000) >> 16); 1810fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL0_GREEN, (bg & 0x0000FF00) >> 8); 1811fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL0_BLUE, (bg & 0x000000FF)); 1812fe5e51b7Smrg 1813fe5e51b7Smrg /* Foreground color */ 1814fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL1_RED, (fg & 0x00FF0000) >> 16); 1815fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL1_GREEN, (fg & 0x0000FF00) >> 8); 1816fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL1_BLUE, (fg & 0x000000FF)); 1817fe5e51b7Smrg} 1818fe5e51b7Smrg 1819fe5e51b7Smrgstatic void 1820fe5e51b7SmrgMGAGSetCursorColorsG100(ScrnInfoPtr pScrn, int bg, int fg) 1821fe5e51b7Smrg{ 1822fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1823fe5e51b7Smrg 1824fe5e51b7Smrg /* Background color */ 1825fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL1_RED, (bg & 0x00FF0000) >> 16); 1826fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL1_GREEN, (bg & 0x0000FF00) >> 8); 1827fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL1_BLUE, (bg & 0x000000FF)); 1828fe5e51b7Smrg 1829fe5e51b7Smrg /* Foreground color */ 1830fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL2_RED, (fg & 0x00FF0000) >> 16); 1831fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL2_GREEN, (fg & 0x0000FF00) >> 8); 1832fe5e51b7Smrg outMGAdac(MGA1064_CURSOR_COL2_BLUE, (fg & 0x000000FF)); 1833fe5e51b7Smrg} 1834fe5e51b7Smrg 1835fe5e51b7Smrgstatic Bool 1836fe5e51b7SmrgMGAGUseHWCursor(ScreenPtr pScrn, CursorPtr pCurs) 1837fe5e51b7Smrg{ 18380bb88ba4Smrg MGAPtr pMga = MGAPTR(xf86ScreenToScrn(pScrn)); 1839fe5e51b7Smrg /* This needs to detect if its on the second dac */ 1840fe5e51b7Smrg if( XF86SCRNINFO(pScrn)->currentMode->Flags & V_DBLSCAN ) 1841fe5e51b7Smrg return FALSE; 1842fe5e51b7Smrg if( pMga->SecondCrtc == TRUE ) 1843fe5e51b7Smrg return FALSE; 1844fe5e51b7Smrg return TRUE; 1845fe5e51b7Smrg} 1846fe5e51b7Smrg 1847fe5e51b7Smrg 1848fe5e51b7Smrg/* 1849fe5e51b7Smrg * According to mga-1064g.pdf pp215-216 (4-179 & 4-180) the low bits of 1850fe5e51b7Smrg * XGENIODATA and XGENIOCTL are connected to the 4 DDC pins, but don't say 1851fe5e51b7Smrg * which VGA line is connected to each DDC pin, so I've had to guess. 1852fe5e51b7Smrg * 1853fe5e51b7Smrg * DDC1 support only requires DDC_SDA_MASK, 1854fe5e51b7Smrg * DDC2 support requires DDC_SDA_MASK and DDC_SCL_MASK 1855fe5e51b7Smrg * 1856fe5e51b7Smrg * If we want DDC on second head (P2) then we must use DDC2 protocol (I2C) 1857fe5e51b7Smrg * 1858fe5e51b7Smrg * Be careful, DDC1 and DDC2 refer to protocols, DDC_P1 and DDC_P2 refer to 1859fe5e51b7Smrg * DDC data coming in on which videoport on the card 1860fe5e51b7Smrg */ 1861eda3803bSmrg#define DDC_P1_SDA_MASK (1 << 1) 1862eda3803bSmrg#define DDC_P1_SCL_MASK (1 << 3) 1863eda3803bSmrg 1864eda3803bSmrgstatic const struct mgag_i2c_private { 1865eda3803bSmrg unsigned sda_mask; 1866eda3803bSmrg unsigned scl_mask; 1867eda3803bSmrg} i2c_priv[] = { 1868eda3803bSmrg { (1 << 1), (1 << 3) }, 1869eda3803bSmrg { (1 << 0), (1 << 2) }, 1870eda3803bSmrg { (1 << 4), (1 << 5) }, 1871eda3803bSmrg { (1 << 0), (1 << 1) }, /* G200SE, G200EV and G200WB I2C bits */ 18720bb88ba4Smrg { (1 << 1), (1 << 0) }, /* G200EH, G200ER I2C bits */ 1873eda3803bSmrg}; 1874eda3803bSmrg 1875fe5e51b7Smrg 1876fe5e51b7Smrgstatic unsigned int 1877fe5e51b7SmrgMGAG_ddc1Read(ScrnInfoPtr pScrn) 1878fe5e51b7Smrg{ 1879fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1880fe5e51b7Smrg unsigned char val; 1881eda3803bSmrg int i2c_index; 1882eda3803bSmrg 1883eda3803bSmrg if (pMga->is_G200SE || pMga->is_G200WB || pMga->is_G200EV) 1884eda3803bSmrg i2c_index = 3; 18850bb88ba4Smrg else if (pMga->is_G200EH || pMga->is_G200ER) 1886a31a186aSmrg i2c_index = 4; 1887eda3803bSmrg else 1888eda3803bSmrg i2c_index = 0; 1889eda3803bSmrg 1890eda3803bSmrg const struct mgag_i2c_private *p = & i2c_priv[i2c_index]; 1891eda3803bSmrg 1892fe5e51b7Smrg /* Define the SDA as an input */ 1893eda3803bSmrg outMGAdacmsk(MGA1064_GEN_IO_CTL, ~(p->scl_mask | p->sda_mask), 0); 1894fe5e51b7Smrg 1895fe5e51b7Smrg /* wait for Vsync */ 1896fe5e51b7Smrg if (pMga->is_G200SE) { 1897fe5e51b7Smrg usleep(4); 1898fe5e51b7Smrg } else { 1899fe5e51b7Smrg while( INREG( MGAREG_Status ) & 0x08 ); 1900fe5e51b7Smrg while( ! (INREG( MGAREG_Status ) & 0x08) ); 1901fe5e51b7Smrg } 1902fe5e51b7Smrg 1903fe5e51b7Smrg /* Get the result */ 1904eda3803bSmrg val = (inMGAdac(MGA1064_GEN_IO_DATA) & p->sda_mask); 1905fe5e51b7Smrg return val; 1906fe5e51b7Smrg} 1907fe5e51b7Smrg 1908fe5e51b7Smrgstatic void 1909eda3803bSmrgMGAG_I2CGetBits(I2CBusPtr b, int *clock, int *data) 1910fe5e51b7Smrg{ 1911fe5e51b7Smrg ScrnInfoPtr pScrn = xf86Screens[b->scrnIndex]; 1912fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1913eda3803bSmrg const struct mgag_i2c_private *p = 1914eda3803bSmrg (struct mgag_i2c_private *) b->DriverPrivate.ptr; 1915fe5e51b7Smrg unsigned char val; 1916fe5e51b7Smrg 1917fe5e51b7Smrg /* Get the result. */ 1918fe5e51b7Smrg val = inMGAdac(MGA1064_GEN_IO_DATA); 1919fe5e51b7Smrg 1920eda3803bSmrg *clock = (val & p->scl_mask) != 0; 1921eda3803bSmrg *data = (val & p->sda_mask) != 0; 1922fe5e51b7Smrg#ifdef DEBUG 1923fe5e51b7Smrg ErrorF("MGAG_I2CGetBits(%p,...) val=0x%x, returns clock %d, data %d\n", b, val, *clock, *data); 1924fe5e51b7Smrg#endif 1925fe5e51b7Smrg} 1926fe5e51b7Smrg 1927fe5e51b7Smrg/* 1928fe5e51b7Smrg * ATTENTION! - the DATA and CLOCK lines need to be tri-stated when 1929fe5e51b7Smrg * high. Therefore turn off output driver for the line to set line 1930fe5e51b7Smrg * to high. High signal is maintained by a 15k Ohm pull-up resistor. 1931fe5e51b7Smrg */ 1932fe5e51b7Smrgstatic void 1933eda3803bSmrgMGAG_I2CPutBits(I2CBusPtr b, int clock, int data) 1934fe5e51b7Smrg{ 1935fe5e51b7Smrg ScrnInfoPtr pScrn = xf86Screens[b->scrnIndex]; 1936fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1937eda3803bSmrg const struct mgag_i2c_private *p = 1938eda3803bSmrg (struct mgag_i2c_private *) b->DriverPrivate.ptr; 1939fe5e51b7Smrg unsigned char drv, val; 1940fe5e51b7Smrg 1941eda3803bSmrg val = (clock ? p->scl_mask : 0) | (data ? p->sda_mask : 0); 1942eda3803bSmrg drv = ((!clock) ? p->scl_mask : 0) | ((!data) ? p->sda_mask : 0); 1943fe5e51b7Smrg 1944fe5e51b7Smrg /* Write the values */ 1945eda3803bSmrg outMGAdacmsk(MGA1064_GEN_IO_CTL, ~(p->scl_mask | p->sda_mask) , drv); 1946eda3803bSmrg outMGAdacmsk(MGA1064_GEN_IO_DATA, ~(p->scl_mask | p->sda_mask) , val); 1947fe5e51b7Smrg#ifdef DEBUG 1948fe5e51b7Smrg ErrorF("MGAG_I2CPutBits(%p, %d, %d) val=0x%x\n", b, clock, data, val); 1949fe5e51b7Smrg#endif 1950fe5e51b7Smrg} 1951fe5e51b7Smrg 1952fe5e51b7Smrg 1953eda3803bSmrgstatic I2CBusPtr 1954eda3803bSmrgmgag_create_i2c_bus(const char *name, unsigned bus_index, unsigned scrn_index) 1955fe5e51b7Smrg{ 1956eda3803bSmrg I2CBusPtr I2CPtr = xf86CreateI2CBusRec(); 1957eda3803bSmrg 1958eda3803bSmrg if (I2CPtr != NULL) { 1959eda3803bSmrg I2CPtr->BusName = name; 1960eda3803bSmrg I2CPtr->scrnIndex = scrn_index; 1961eda3803bSmrg I2CPtr->I2CPutBits = MGAG_I2CPutBits; 1962eda3803bSmrg I2CPtr->I2CGetBits = MGAG_I2CGetBits; 1963eda3803bSmrg I2CPtr->AcknTimeout = 5; 1964eda3803bSmrg I2CPtr->DriverPrivate.ptr = & i2c_priv[bus_index]; 1965eda3803bSmrg 1966eda3803bSmrg if (!xf86I2CBusInit(I2CPtr)) { 1967eda3803bSmrg xf86DestroyI2CBusRec(I2CPtr, TRUE, TRUE); 1968eda3803bSmrg I2CPtr = NULL; 1969eda3803bSmrg } 1970eda3803bSmrg } 1971eda3803bSmrg 1972eda3803bSmrg return I2CPtr; 1973fe5e51b7Smrg} 1974fe5e51b7Smrg 1975eda3803bSmrg 1976fe5e51b7SmrgBool 1977fe5e51b7SmrgMGAG_i2cInit(ScrnInfoPtr pScrn) 1978fe5e51b7Smrg{ 1979fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 1980fe5e51b7Smrg 1981fe5e51b7Smrg if (pMga->SecondCrtc == FALSE) { 1982eda3803bSmrg int i2c_index; 1983fe5e51b7Smrg 1984eda3803bSmrg if (pMga->is_G200SE || pMga->is_G200WB || pMga->is_G200EV) 1985eda3803bSmrg i2c_index = 3; 19860bb88ba4Smrg else if (pMga->is_G200EH || pMga->is_G200ER) 1987a31a186aSmrg i2c_index = 4; 1988eda3803bSmrg else 1989eda3803bSmrg i2c_index = 0; 1990fe5e51b7Smrg 1991eda3803bSmrg pMga->DDC_Bus1 = mgag_create_i2c_bus("DDC P1", 1992eda3803bSmrg i2c_index, pScrn->scrnIndex); 1993eda3803bSmrg return (pMga->DDC_Bus1 != NULL); 1994eda3803bSmrg } else { 1995eda3803bSmrg /* We have a dual head setup on G-series, set up DDC #2. */ 1996eda3803bSmrg pMga->DDC_Bus2 = mgag_create_i2c_bus("DDC P2", 1, pScrn->scrnIndex); 1997eda3803bSmrg 1998eda3803bSmrg if (pMga->DDC_Bus2 != NULL) { 1999eda3803bSmrg /* 0xA0 is DDC EEPROM address */ 2000eda3803bSmrg if (!xf86I2CProbeAddress(pMga->DDC_Bus2, 0xA0)) { 2001eda3803bSmrg xf86DrvMsg(pScrn->scrnIndex, X_INFO, "DDC #2 unavailable -> TV cable connected or no monitor connected!\n"); 2002eda3803bSmrg pMga->Crtc2IsTV = TRUE; /* assume for now. We need to fix HAL interactions. */ 2003fe5e51b7Smrg } 2004eda3803bSmrg } 2005fe5e51b7Smrg 2006fe5e51b7Smrg /* Then try to set up MAVEN bus. */ 2007eda3803bSmrg pMga->Maven_Bus = mgag_create_i2c_bus("MAVEN", 2, pScrn->scrnIndex); 2008eda3803bSmrg if (pMga->Maven_Bus != NULL) { 2009eda3803bSmrg pMga->Maven = NULL; 2010eda3803bSmrg pMga->Maven_Version = 0; 2011eda3803bSmrg 2012eda3803bSmrg /* Try to detect the MAVEN. */ 2013eda3803bSmrg if (xf86I2CProbeAddress(pMga->Maven_Bus, MAVEN_READ)) { 2014eda3803bSmrg I2CDevPtr dp = xf86CreateI2CDevRec(); 2015eda3803bSmrg if (dp) { 2016eda3803bSmrg I2CByte maven_ver; 2017eda3803bSmrg 2018eda3803bSmrg dp->DevName = "MGA-TVO"; 2019eda3803bSmrg dp->SlaveAddr = MAVEN_WRITE; 2020eda3803bSmrg dp->pI2CBus = pMga->Maven_Bus; 2021eda3803bSmrg if (!xf86I2CDevInit(dp)) { 2022eda3803bSmrg xf86DestroyI2CDevRec(dp, TRUE); 2023eda3803bSmrg } else { 2024eda3803bSmrg pMga->Maven = dp; 2025eda3803bSmrg if (MGAMavenRead(pScrn, 0xB2, &maven_ver)) { 2026eda3803bSmrg /* heuristic stolen from matroxfb */ 2027eda3803bSmrg pMga->Maven_Version = (maven_ver < 0x14) 2028eda3803bSmrg ? 'B' : 'C'; 2029eda3803bSmrg 2030eda3803bSmrg xf86DrvMsg(pScrn->scrnIndex, X_INFO, 2031eda3803bSmrg "MAVEN revision MGA-TVO-%c detected (0x%x)\n", 2032eda3803bSmrg pMga->Maven_Version, maven_ver); 2033eda3803bSmrg } else { 2034eda3803bSmrg xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Failed to determine MAVEN hardware version!\n"); 2035fe5e51b7Smrg } 2036fe5e51b7Smrg } 2037eda3803bSmrg } 2038eda3803bSmrg } 2039fe5e51b7Smrg 2040eda3803bSmrg if (pMga->Maven == NULL) { 2041eda3803bSmrg xf86DrvMsg(pScrn->scrnIndex, X_INFO, 2042eda3803bSmrg "Failed to register MGA-TVO I2C device!\n"); 2043fe5e51b7Smrg } 2044eda3803bSmrg } 2045fe5e51b7Smrg } 2046fe5e51b7Smrg 2047fe5e51b7Smrg return TRUE; 2048fe5e51b7Smrg} 2049fe5e51b7Smrg 2050fe5e51b7Smrg 2051fe5e51b7Smrg/* 2052fe5e51b7Smrg * MGAGRamdacInit 2053fe5e51b7Smrg * Handle broken G100 special. 2054fe5e51b7Smrg */ 2055fe5e51b7Smrgstatic void 2056fe5e51b7SmrgMGAGRamdacInit(ScrnInfoPtr pScrn) 2057fe5e51b7Smrg{ 2058fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 2059fe5e51b7Smrg MGARamdacPtr MGAdac = &pMga->Dac; 2060fe5e51b7Smrg 2061fe5e51b7Smrg MGAdac->isHwCursor = TRUE; 2062fe5e51b7Smrg MGAdac->CursorOffscreenMemSize = 1024; 2063fe5e51b7Smrg MGAdac->CursorMaxWidth = 64; 2064fe5e51b7Smrg MGAdac->CursorMaxHeight = 64; 2065fe5e51b7Smrg MGAdac->SetCursorPosition = MGAGSetCursorPosition; 2066fe5e51b7Smrg MGAdac->LoadCursorImage = MGAGLoadCursorImage; 2067fe5e51b7Smrg MGAdac->HideCursor = MGAGHideCursor; 2068fe5e51b7Smrg if ((pMga->Chipset == PCI_CHIP_MGAG100) 2069fe5e51b7Smrg || (pMga->Chipset == PCI_CHIP_MGAG100)) { 2070fe5e51b7Smrg MGAdac->SetCursorColors = MGAGSetCursorColorsG100; 2071fe5e51b7Smrg MGAdac->ShowCursor = MGAGShowCursorG100; 2072fe5e51b7Smrg } else { 2073fe5e51b7Smrg MGAdac->SetCursorColors = MGAGSetCursorColors; 2074fe5e51b7Smrg MGAdac->ShowCursor = MGAGShowCursor; 2075fe5e51b7Smrg } 2076fe5e51b7Smrg MGAdac->UseHWCursor = MGAGUseHWCursor; 2077fe5e51b7Smrg MGAdac->CursorFlags = 2078fe5e51b7Smrg#if X_BYTE_ORDER == X_LITTLE_ENDIAN 2079fe5e51b7Smrg HARDWARE_CURSOR_BIT_ORDER_MSBFIRST | 2080fe5e51b7Smrg#endif 2081fe5e51b7Smrg HARDWARE_CURSOR_SOURCE_MASK_INTERLEAVE_64 | 2082fe5e51b7Smrg HARDWARE_CURSOR_TRUECOLOR_AT_8BPP; 2083fe5e51b7Smrg 2084fe5e51b7Smrg MGAdac->LoadPalette = MGAGLoadPalette; 2085fe5e51b7Smrg MGAdac->RestorePalette = MGAGRestorePalette; 2086fe5e51b7Smrg 2087fe5e51b7Smrg 2088fe5e51b7Smrg MGAdac->maxPixelClock = pMga->bios.pixel.max_freq; 2089fe5e51b7Smrg MGAdac->ClockFrom = X_PROBED; 2090fe5e51b7Smrg 2091fe5e51b7Smrg /* Disable interleaving and set the rounding value */ 2092fe5e51b7Smrg pMga->Interleave = FALSE; 2093fe5e51b7Smrg 2094fe5e51b7Smrg pMga->Roundings[0] = 64; 2095fe5e51b7Smrg pMga->Roundings[1] = 32; 2096fe5e51b7Smrg pMga->Roundings[2] = 64; 2097fe5e51b7Smrg pMga->Roundings[3] = 32; 2098fe5e51b7Smrg 2099fe5e51b7Smrg /* Clear Fast bitblt flag */ 2100fe5e51b7Smrg pMga->HasFBitBlt = FALSE; 2101fe5e51b7Smrg} 2102fe5e51b7Smrg 2103fe5e51b7Smrgvoid MGAGSetupFuncs(ScrnInfoPtr pScrn) 2104fe5e51b7Smrg{ 2105fe5e51b7Smrg MGAPtr pMga = MGAPTR(pScrn); 2106fe5e51b7Smrg 2107fe5e51b7Smrg pMga->PreInit = MGAGRamdacInit; 2108fe5e51b7Smrg pMga->Save = MGAGSave; 2109fe5e51b7Smrg pMga->Restore = MGAGRestore; 2110fe5e51b7Smrg pMga->ModeInit = MGAGInit; 21110bb88ba4Smrg if ((!pMga->is_G200WB) && (!pMga->is_G200ER)) { 2112a31a186aSmrg pMga->ddc1Read = MGAG_ddc1Read; 2113a31a186aSmrg /* vgaHWddc1SetSpeed will only work if the card is in VGA mode */ 2114a31a186aSmrg pMga->DDC1SetSpeed = vgaHWddc1SetSpeedWeak(); 2115a31a186aSmrg } else { 2116a31a186aSmrg pMga->ddc1Read = NULL; 2117a31a186aSmrg pMga->DDC1SetSpeed = NULL; 2118a31a186aSmrg } 2119fe5e51b7Smrg pMga->i2cInit = MGAG_i2cInit; 2120fe5e51b7Smrg} 2121fe5e51b7Smrg 2122