/* * Copyright 2000 ATI Technologies Inc., Markham, Ontario, and * VA Linux Systems Inc., Fremont, California. * * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation on the rights to use, copy, modify, merge, * publish, distribute, sublicense, and/or sell copies of the Software, * and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * The above copyright notice and this permission notice (including the * next paragraph) shall be included in all copies or substantial * portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NON-INFRINGEMENT. IN NO EVENT SHALL ATI, VA LINUX SYSTEMS AND/OR * THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif /* * Authors: * Kevin E. Martin * Rickard E. Faith * Alan Hourihane */ #include #include #include "xf86str.h" /* Driver data structures */ #include "radeon.h" #include "radeon_reg.h" #include "radeon_macros.h" #include "radeon_probe.h" #include "radeon_version.h" /* DDC support */ #include "xf86DDC.h" /* Established timings from EDID standard */ static struct { int hsize; int vsize; int refresh; } est_timings[] = { {1280, 1024, 75}, {1024, 768, 75}, {1024, 768, 70}, {1024, 768, 60}, {1024, 768, 87}, {832, 624, 75}, {800, 600, 75}, {800, 600, 72}, {800, 600, 60}, {800, 600, 56}, {640, 480, 75}, {640, 480, 72}, {640, 480, 67}, {640, 480, 60}, {720, 400, 88}, {720, 400, 70}, }; /* This function will sort all modes according to their resolution. * Highest resolution first. */ static void RADEONSortModes(DisplayModePtr *new, DisplayModePtr *first, DisplayModePtr *last) { DisplayModePtr p; p = *last; while (p) { if ((((*new)->HDisplay < p->HDisplay) && ((*new)->VDisplay < p->VDisplay)) || (((*new)->HDisplay == p->HDisplay) && ((*new)->VDisplay == p->VDisplay) && ((*new)->Clock < p->Clock))) { if (p->next) p->next->prev = *new; (*new)->prev = p; (*new)->next = p->next; p->next = *new; if (!((*new)->next)) *last = *new; break; } if (!p->prev) { (*new)->prev = NULL; (*new)->next = p; p->prev = *new; *first = *new; break; } p = p->prev; } if (!*first) { *first = *new; (*new)->prev = NULL; (*new)->next = NULL; *last = *new; } } static void RADEONSetPitch (ScrnInfoPtr pScrn) { int dummy = pScrn->virtualX; RADEONInfoPtr info = RADEONPTR(pScrn); /* FIXME: May need to validate line pitch here */ switch (pScrn->depth / 8) { case 1: if (info->allowColorTiling) dummy = (pScrn->virtualX + 255) & ~255; else dummy = (pScrn->virtualX + 127) & ~127; break; case 2: if (info->allowColorTiling) dummy = (pScrn->virtualX + 127) & ~127; else dummy = (pScrn->virtualX + 31) & ~31; break; case 3: case 4: if (info->allowColorTiling) dummy = (pScrn->virtualX + 63) & ~63; else dummy = (pScrn->virtualX + 15) & ~15; break; } pScrn->displayWidth = dummy; } /* When no mode provided in config file, this will add all modes supported in * DDC date the pScrn->modes list */ static DisplayModePtr RADEONDDCModes(ScrnInfoPtr pScrn) { DisplayModePtr p; DisplayModePtr last = NULL; DisplayModePtr new = NULL; DisplayModePtr first = NULL; int count = 0; int j, tmp; char stmp[32]; xf86MonPtr ddc = pScrn->monitor->DDC; /* Go thru detailed timing table first */ for (j = 0; j < 4; j++) { if (ddc->det_mon[j].type == 0) { struct detailed_timings *d_timings = &ddc->det_mon[j].section.d_timings; if (d_timings->h_active == 0 || d_timings->v_active == 0) break; new = xnfcalloc(1, sizeof (DisplayModeRec)); memset(new, 0, sizeof (DisplayModeRec)); new->HDisplay = d_timings->h_active; new->VDisplay = d_timings->v_active; sprintf(stmp, "%dx%d", new->HDisplay, new->VDisplay); new->name = xnfalloc(strlen(stmp) + 1); strcpy(new->name, stmp); new->HTotal = new->HDisplay + d_timings->h_blanking; new->HSyncStart = new->HDisplay + d_timings->h_sync_off; new->HSyncEnd = new->HSyncStart + d_timings->h_sync_width; new->VTotal = new->VDisplay + d_timings->v_blanking; new->VSyncStart = new->VDisplay + d_timings->v_sync_off; new->VSyncEnd = new->VSyncStart + d_timings->v_sync_width; new->Clock = d_timings->clock / 1000; new->Flags = (d_timings->interlaced ? V_INTERLACE : 0); new->status = MODE_OK; #ifdef M_T_PREFERRED if (PREFERRED_TIMING_MODE(ddc->features.msc)) new->type = M_T_PREFERRED; else #endif new->type = M_T_DEFAULT; if (d_timings->sync == 3) { switch (d_timings->misc) { case 0: new->Flags |= V_NHSYNC | V_NVSYNC; break; case 1: new->Flags |= V_PHSYNC | V_NVSYNC; break; case 2: new->Flags |= V_NHSYNC | V_PVSYNC; break; case 3: new->Flags |= V_PHSYNC | V_PVSYNC; break; } } count++; xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Valid Mode from Detailed timing table: %s\n", new->name); RADEONSortModes(&new, &first, &last); } } /* Search thru standard VESA modes from EDID */ for (j = 0; j < 8; j++) { if (ddc->timings2[j].hsize == 0 || ddc->timings2[j].vsize == 0) continue; for (p = pScrn->monitor->Modes; p && p->next; p = p->next->next) { /* Ignore all double scan modes */ if ((ddc->timings2[j].hsize == p->HDisplay) && (ddc->timings2[j].vsize == p->VDisplay)) { float refresh = (float)p->Clock * 1000.0 / p->HTotal / p->VTotal; if (abs((float)ddc->timings2[j].refresh - refresh) < 1.0) { /* Is this good enough? */ new = xnfcalloc(1, sizeof (DisplayModeRec)); memcpy(new, p, sizeof(DisplayModeRec)); new->name = xnfalloc(strlen(p->name) + 1); strcpy(new->name, p->name); new->status = MODE_OK; new->type = M_T_DEFAULT; count++; xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Valid Mode from standard timing table: %s\n", new->name); RADEONSortModes(&new, &first, &last); break; } } } } /* Search thru established modes from EDID */ tmp = (ddc->timings1.t1 << 8) | ddc->timings1.t2; for (j = 0; j < 16; j++) { if (tmp & (1 << j)) { for (p = pScrn->monitor->Modes; p && p->next; p = p->next->next) { if ((est_timings[j].hsize == p->HDisplay) && (est_timings[j].vsize == p->VDisplay)) { float refresh = (float)p->Clock * 1000.0 / p->HTotal / p->VTotal; if (abs((float)est_timings[j].refresh - refresh) < 1.0) { /* Is this good enough? */ new = xnfcalloc(1, sizeof (DisplayModeRec)); memcpy(new, p, sizeof(DisplayModeRec)); new->name = xnfalloc(strlen(p->name) + 1); strcpy(new->name, p->name); new->status = MODE_OK; new->type = M_T_DEFAULT; count++; xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Valid Mode from established timing " "table: %s\n", new->name); RADEONSortModes(&new, &first, &last); break; } } } } } xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Total of %d mode(s) found.\n", count); return first; } /* XFree86's xf86ValidateModes routine doesn't work well with DDC modes, * so here is our own validation routine. */ int RADEONValidateDDCModes(ScrnInfoPtr pScrn1, char **ppModeName, RADEONMonitorType DisplayType, int crtc2) { RADEONInfoPtr info = RADEONPTR(pScrn1); DisplayModePtr p; DisplayModePtr last = NULL; DisplayModePtr first = NULL; DisplayModePtr ddcModes = NULL; int count = 0; int i, width, height; ScrnInfoPtr pScrn = pScrn1; if (crtc2) pScrn = info->CRT2pScrn; pScrn->virtualX = pScrn1->display->virtualX; pScrn->virtualY = pScrn1->display->virtualY; if (pScrn->monitor->DDC) { int maxVirtX = pScrn->virtualX; int maxVirtY = pScrn->virtualY; /* Collect all of the DDC modes */ first = last = ddcModes = RADEONDDCModes(pScrn); for (p = ddcModes; p; p = p->next) { /* If primary head is a flat panel, use RMX by default */ if ((!info->IsSecondary && DisplayType != MT_CRT) && (!info->ddc_mode) && (!crtc2)) { /* These values are effective values after expansion. * They are not really used to set CRTC registers. */ p->HTotal = info->PanelXRes + info->HBlank; p->HSyncStart = info->PanelXRes + info->HOverPlus; p->HSyncEnd = p->HSyncStart + info->HSyncWidth; p->VTotal = info->PanelYRes + info->VBlank; p->VSyncStart = info->PanelYRes + info->VOverPlus; p->VSyncEnd = p->VSyncStart + info->VSyncWidth; p->Clock = info->DotClock; p->Flags |= RADEON_USE_RMX; } maxVirtX = MAX(maxVirtX, p->HDisplay); maxVirtY = MAX(maxVirtY, p->VDisplay); count++; last = p; } /* Match up modes that are specified in the XF86Config file */ if (ppModeName[0]) { DisplayModePtr next; /* Reset the max virtual dimensions */ maxVirtX = pScrn->virtualX; maxVirtY = pScrn->virtualY; /* Reset list */ first = last = NULL; for (i = 0; ppModeName[i]; i++) { /* FIXME: Use HDisplay and VDisplay instead of mode string */ if (sscanf(ppModeName[i], "%dx%d", &width, &height) == 2) { for (p = ddcModes; p; p = next) { next = p->next; if (p->HDisplay == width && p->VDisplay == height) { /* We found a DDC mode that matches the one requested in the XF86Config file */ p->type |= M_T_USERDEF; /* Update the max virtual setttings */ maxVirtX = MAX(maxVirtX, width); maxVirtY = MAX(maxVirtY, height); /* Unhook from DDC modes */ if (p->prev) p->prev->next = p->next; if (p->next) p->next->prev = p->prev; if (p == ddcModes) ddcModes = p->next; /* Add to used modes */ if (last) { last->next = p; p->prev = last; } else { first = p; p->prev = NULL; } p->next = NULL; last = p; break; } } } } /* * Add remaining DDC modes if they're smaller than the user * specified modes */ for (p = ddcModes; p; p = next) { next = p->next; if (p->HDisplay <= maxVirtX && p->VDisplay <= maxVirtY) { /* Unhook from DDC modes */ if (p->prev) p->prev->next = p->next; if (p->next) p->next->prev = p->prev; if (p == ddcModes) ddcModes = p->next; /* Add to used modes */ if (last) { last->next = p; p->prev = last; } else { first = p; p->prev = NULL; } p->next = NULL; last = p; } } /* Delete unused modes */ while (ddcModes) xf86DeleteMode(&ddcModes, ddcModes); } else { /* * No modes were configured, so we make the DDC modes * available for the user to cycle through. */ for (p = ddcModes; p; p = p->next) p->type |= M_T_USERDEF; } if (crtc2) { pScrn->virtualX = maxVirtX; pScrn->virtualY = maxVirtY; } else { pScrn->virtualX = pScrn->display->virtualX = maxVirtX; pScrn->virtualY = pScrn->display->virtualY = maxVirtY; } } /* Close the doubly-linked mode list, if we found any usable modes */ if (last) { last->next = first; first->prev = last; pScrn->modes = first; RADEONSetPitch(pScrn); } xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Total number of valid DDC mode(s) found: %d\n", count); return count; } /* This is used only when no mode is specified for FP and no ddc is * available. We force it to native mode, if possible. */ static DisplayModePtr RADEONFPNativeMode(ScrnInfoPtr pScrn) { RADEONInfoPtr info = RADEONPTR(pScrn); DisplayModePtr new = NULL; char stmp[32]; if (info->PanelXRes != 0 && info->PanelYRes != 0 && info->DotClock != 0) { /* Add native panel size */ new = xnfcalloc(1, sizeof (DisplayModeRec)); sprintf(stmp, "%dx%d", info->PanelXRes, info->PanelYRes); new->name = xnfalloc(strlen(stmp) + 1); strcpy(new->name, stmp); new->HDisplay = info->PanelXRes; new->VDisplay = info->PanelYRes; new->HTotal = new->HDisplay + info->HBlank; new->HSyncStart = new->HDisplay + info->HOverPlus; new->HSyncEnd = new->HSyncStart + info->HSyncWidth; new->VTotal = new->VDisplay + info->VBlank; new->VSyncStart = new->VDisplay + info->VOverPlus; new->VSyncEnd = new->VSyncStart + info->VSyncWidth; new->Clock = info->DotClock; new->Flags = 0; new->type = M_T_USERDEF; new->next = NULL; new->prev = NULL; pScrn->display->virtualX = pScrn->virtualX = MAX(pScrn->virtualX, info->PanelXRes); pScrn->display->virtualY = pScrn->virtualY = MAX(pScrn->virtualY, info->PanelYRes); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "No valid mode specified, force to native mode\n"); } return new; } /* FP mode initialization routine for using on-chip RMX to scale */ int RADEONValidateFPModes(ScrnInfoPtr pScrn, char **ppModeName) { RADEONInfoPtr info = RADEONPTR(pScrn); DisplayModePtr last = NULL; DisplayModePtr new = NULL; DisplayModePtr first = NULL; DisplayModePtr p, tmp; int count = 0; int i, width, height; pScrn->virtualX = pScrn->display->virtualX; pScrn->virtualY = pScrn->display->virtualY; /* We have a flat panel connected to the primary display, and we * don't have any DDC info. */ for (i = 0; ppModeName[i] != NULL; i++) { if (sscanf(ppModeName[i], "%dx%d", &width, &height) != 2) continue; /* Note: We allow all non-standard modes as long as they do not * exceed the native resolution of the panel. Since these modes * need the internal RMX unit in the video chips (and there is * only one per card), this will only apply to the primary head. */ if (width < 320 || width > info->PanelXRes || height < 200 || height > info->PanelYRes) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Mode %s is out of range.\n", ppModeName[i]); xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Valid modes must be between 320x200-%dx%d\n", info->PanelXRes, info->PanelYRes); continue; } new = xnfcalloc(1, sizeof(DisplayModeRec)); new->name = xnfalloc(strlen(ppModeName[i]) + 1); strcpy(new->name, ppModeName[i]); new->HDisplay = width; new->VDisplay = height; /* These values are effective values after expansion They are * not really used to set CRTC registers. */ new->HTotal = info->PanelXRes + info->HBlank; new->HSyncStart = info->PanelXRes + info->HOverPlus; new->HSyncEnd = new->HSyncStart + info->HSyncWidth; new->VTotal = info->PanelYRes + info->VBlank; new->VSyncStart = info->PanelYRes + info->VOverPlus; new->VSyncEnd = new->VSyncStart + info->VSyncWidth; new->Clock = info->DotClock; new->Flags |= RADEON_USE_RMX; #ifdef M_T_PREFERRED if (width == info->PanelXRes && height == info->PanelYRes) new->type |= M_T_PREFERRED; #endif new->type |= M_T_USERDEF; new->next = NULL; new->prev = last; if (last) last->next = new; last = new; if (!first) first = new; pScrn->display->virtualX = pScrn->virtualX = MAX(pScrn->virtualX, width); pScrn->display->virtualY = pScrn->virtualY = MAX(pScrn->virtualY, height); count++; xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Valid mode using on-chip RMX: %s\n", new->name); } /* If all else fails, add the native mode */ if (!count) { first = last = RADEONFPNativeMode(pScrn); if (first) count = 1; } /* add in all default vesa modes smaller than panel size, used for randr*/ for (p = pScrn->monitor->Modes; p && p->next; p = p->next->next) { if ((p->HDisplay <= info->PanelXRes) && (p->VDisplay <= info->PanelYRes)) { tmp = first; while (tmp) { if ((p->HDisplay == tmp->HDisplay) && (p->VDisplay == tmp->VDisplay)) break; tmp = tmp->next; } if (!tmp) { new = xnfcalloc(1, sizeof(DisplayModeRec)); new->name = xnfalloc(strlen(p->name) + 1); strcpy(new->name, p->name); new->HDisplay = p->HDisplay; new->VDisplay = p->VDisplay; /* These values are effective values after expansion They are * not really used to set CRTC registers. */ new->HTotal = info->PanelXRes + info->HBlank; new->HSyncStart = info->PanelXRes + info->HOverPlus; new->HSyncEnd = new->HSyncStart + info->HSyncWidth; new->VTotal = info->PanelYRes + info->VBlank; new->VSyncStart = info->PanelYRes + info->VOverPlus; new->VSyncEnd = new->VSyncStart + info->VSyncWidth; new->Clock = info->DotClock; new->Flags |= RADEON_USE_RMX; new->type |= M_T_DEFAULT; new->next = NULL; new->prev = last; if (last) last->next = new; last = new; if (!first) first = new; } } } /* Close the doubly-linked mode list, if we found any usable modes */ if (last) { last->next = first; first->prev = last; pScrn->modes = first; RADEONSetPitch(pScrn); } xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Total number of valid FP mode(s) found: %d\n", count); return count; } int RADEONValidateMergeModes(ScrnInfoPtr pScrn1) { RADEONInfoPtr info = RADEONPTR(pScrn1); ClockRangePtr clockRanges; int modesFound; ScrnInfoPtr pScrn = info->CRT2pScrn; /* fill in pScrn2 */ pScrn->videoRam = pScrn1->videoRam; pScrn->depth = pScrn1->depth; pScrn->numClocks = pScrn1->numClocks; pScrn->progClock = pScrn1->progClock; pScrn->fbFormat = pScrn1->fbFormat; pScrn->videoRam = pScrn1->videoRam; pScrn->maxHValue = pScrn1->maxHValue; pScrn->maxVValue = pScrn1->maxVValue; pScrn->xInc = pScrn1->xInc; if (info->NoVirtual) { pScrn1->display->virtualX = 0; pScrn1->display->virtualY = 0; } if (pScrn->monitor->DDC) { /* If we still don't know sync range yet, let's try EDID. * * Note that, since we can have dual heads, Xconfigurator * may not be able to probe both monitors correctly through * vbe probe function (RADEONProbeDDC). Here we provide an * additional way to auto-detect sync ranges if they haven't * been added to XF86Config manually. */ if (pScrn->monitor->nHsync <= 0) RADEONSetSyncRangeFromEdid(pScrn, 1); if (pScrn->monitor->nVrefresh <= 0) RADEONSetSyncRangeFromEdid(pScrn, 0); } /* Get mode information */ pScrn->progClock = TRUE; clockRanges = xnfcalloc(sizeof(*clockRanges), 1); clockRanges->next = NULL; clockRanges->minClock = info->pll.min_pll_freq; clockRanges->maxClock = info->pll.max_pll_freq * 10; clockRanges->clockIndex = -1; clockRanges->interlaceAllowed = (info->MergeType == MT_CRT); clockRanges->doubleScanAllowed = (info->MergeType == MT_CRT); /* We'll use our own mode validation routine for DFP/LCD, since * xf86ValidateModes does not work correctly with the DFP/LCD modes * 'stretched' from their native mode. */ if (info->MergeType == MT_CRT && !info->ddc_mode) { modesFound = xf86ValidateModes(pScrn, pScrn->monitor->Modes, pScrn1->display->modes, clockRanges, NULL, /* linePitches */ 8 * 64, /* minPitch */ 8 * 1024, /* maxPitch */ info->allowColorTiling ? 2048 : 64 * pScrn1->bitsPerPixel, /* pitchInc */ 128, /* minHeight */ info->MaxLines, /* maxHeight */ pScrn1->display->virtualX ? pScrn1->virtualX : 0, pScrn1->display->virtualY ? pScrn1->virtualY : 0, info->FbMapSize, LOOKUP_BEST_REFRESH); if (modesFound == -1) return 0; xf86PruneDriverModes(pScrn); if (!modesFound || !pScrn->modes) { xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "No valid modes found\n"); return 0; } } else { /* First, free any allocated modes during configuration, since * we don't need them */ while (pScrn->modes) xf86DeleteMode(&pScrn->modes, pScrn->modes); while (pScrn->modePool) xf86DeleteMode(&pScrn->modePool, pScrn->modePool); /* Next try to add DDC modes */ modesFound = RADEONValidateDDCModes(pScrn, pScrn1->display->modes, info->MergeType, 1); /* If that fails and we're connect to a flat panel, then try to * add the flat panel modes */ if (info->MergeType != MT_CRT) { /* some panels have DDC, but don't have internal scaler. * in this case, we need to validate additional modes * by using on-chip RMX. */ int user_modes_asked = 0, user_modes_found = 0, i; DisplayModePtr tmp_mode = pScrn->modes; while (pScrn1->display->modes[user_modes_asked]) user_modes_asked++; if (tmp_mode) { for (i = 0; i < modesFound; i++) { if (tmp_mode->type & M_T_USERDEF) user_modes_found++; tmp_mode = tmp_mode->next; } } if ((modesFound <= 1) || (user_modes_found < user_modes_asked)) { /* when panel size is not valid, try to validate * mode using xf86ValidateModes routine * This can happen when DDC is disabled. */ /* if (info->PanelXRes < 320 || info->PanelYRes < 200) */ modesFound = xf86ValidateModes(pScrn, pScrn->monitor->Modes, pScrn1->display->modes, clockRanges, NULL, /* linePitches */ 8 * 64, /* minPitch */ 8 * 1024, /* maxPitch */ info->allowColorTiling ? 2048 : 64 * pScrn1->bitsPerPixel, /* pitchInc */ 128, /* minHeight */ info->MaxLines, /* maxHeight */ pScrn1->display->virtualX, pScrn1->display->virtualY, info->FbMapSize, LOOKUP_BEST_REFRESH); } } /* Setup the screen's clockRanges for the VidMode extension */ if (!pScrn->clockRanges) { pScrn->clockRanges = xnfcalloc(sizeof(*(pScrn->clockRanges)), 1); memcpy(pScrn->clockRanges, clockRanges, sizeof(*clockRanges)); pScrn->clockRanges->strategy = LOOKUP_BEST_REFRESH; } /* Fail if we still don't have any valid modes */ if (modesFound < 1) { if (info->MergeType == MT_CRT) { xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "No valid DDC modes found for this CRT\n"); xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Try turning off the \"DDCMode\" option\n"); } else { xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "No valid mode found for this DFP/LCD\n"); } return 0; } } return modesFound; }