/* * SBUS bus-specific code. * * Copyright (C) 2000 Jakub Jelinek (jakub@redhat.com) * * 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 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 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 NONINFRINGEMENT. IN NO EVENT SHALL * JAKUB JELINEK 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_XORG_CONFIG_H #include #endif #include #include #include #include #include "os.h" #include "xf86.h" #include "xf86Priv.h" #include "xf86_OSlib.h" #include "xf86Resources.h" #include "xf86cmap.h" #include "xf86Bus.h" #include "xf86sbusBus.h" #include "xf86Sbus.h" Bool sbusSlotClaimed = FALSE; static int xf86nSbusInfo; static void CheckSbusDevice(const char *device, int fbNum) { int fd, i; struct fbgattr fbattr; sbusDevicePtr psdp; fd = open(device, O_RDONLY, 0); if (fd < 0) return; memset(&fbattr, 0, sizeof(fbattr)); if (ioctl(fd, FBIOGATTR, &fbattr) < 0) { if (ioctl(fd, FBIOGTYPE, &fbattr.fbtype) < 0) { close(fd); return; } } close(fd); for (i = 0; sbusDeviceTable[i].devId; i++) if (sbusDeviceTable[i].fbType == fbattr.fbtype.fb_type) break; if (! sbusDeviceTable[i].devId) return; xf86SbusInfo = xnfrealloc(xf86SbusInfo, sizeof(psdp) * (++xf86nSbusInfo + 1)); xf86SbusInfo[xf86nSbusInfo] = NULL; xf86SbusInfo[xf86nSbusInfo - 1] = psdp = xnfcalloc(sizeof (sbusDevice), 1); psdp->devId = sbusDeviceTable[i].devId; psdp->fbNum = fbNum; psdp->device = xnfstrdup(device); psdp->width = fbattr.fbtype.fb_width; psdp->height = fbattr.fbtype.fb_height; psdp->fd = -1; } void xf86SbusProbe(void) { int i, useProm = 0; char fbDevName[32]; sbusDevicePtr psdp, *psdpp; xf86SbusInfo = xalloc(sizeof(psdp)); *xf86SbusInfo = NULL; for (i = 0; i < 32; i++) { sprintf(fbDevName, "/dev/fb%d", i); CheckSbusDevice(fbDevName, i); } if (sparcPromInit() >= 0) { useProm = 1; sparcPromAssignNodes(); } for (psdpp = xf86SbusInfo; (psdp = *psdpp); psdpp++) { for (i = 0; sbusDeviceTable[i].devId; i++) if (sbusDeviceTable[i].devId == psdp->devId) psdp->descr = sbusDeviceTable[i].descr; /* * If we can use PROM information and found the PROM node for this * device, we can tell more about the card. */ if (useProm && psdp->node.node) { char *prop, *promPath; int len, chiprev, vmsize; switch (psdp->devId) { case SBUS_DEVICE_MGX: prop = sparcPromGetProperty(&psdp->node, "fb_size", &len); if (prop && len == 4 && *(int *)prop == 0x400000) psdp->descr = "Quantum 3D MGXplus with 4M VRAM"; break; case SBUS_DEVICE_CG6: chiprev = 0; vmsize = 0; prop = sparcPromGetProperty(&psdp->node, "chiprev", &len); if (prop && len == 4) chiprev = *(int *)prop; prop = sparcPromGetProperty(&psdp->node, "vmsize", &len); if (prop && len == 4) vmsize = *(int *)prop; switch (chiprev) { case 1: case 2: case 3: case 4: psdp->descr = "Sun Double width GX"; break; case 5: case 6: case 7: case 8: case 9: psdp->descr = "Sun Single width GX"; break; case 11: switch (vmsize) { case 2: psdp->descr = "Sun Turbo GX with 1M VSIMM"; break; case 4: psdp->descr = "Sun Turbo GX Plus"; break; default: psdp->descr = "Sun Turbo GX"; break; } } break; case SBUS_DEVICE_CG14: prop = sparcPromGetProperty(&psdp->node, "reg", &len); vmsize = 0; if (prop && !(len % 12) && len > 0) vmsize = *(int *)(prop + len - 4); switch (vmsize) { case 0x400000: psdp->descr = "Sun SX with 4M VSIMM"; break; case 0x800000: psdp->descr = "Sun SX with 8M VSIMM"; break; } break; case SBUS_DEVICE_LEO: prop = sparcPromGetProperty(&psdp->node, "model", &len); if (prop && len > 0 && !strstr(prop, "501-2503")) psdp->descr = "Sun Turbo ZX"; break; case SBUS_DEVICE_TCX: if (sparcPromGetBool(&psdp->node, "tcx-8-bit")) psdp->descr = "Sun TCX (8bit)"; else psdp->descr = "Sun TCX (S24)"; break; case SBUS_DEVICE_FFB: prop = sparcPromGetProperty(&psdp->node, "name", &len); chiprev = 0; prop = sparcPromGetProperty(&psdp->node, "board_type", &len); if (prop && len == 4) chiprev = *(int *)prop; if (strstr (prop, "afb")) { if (chiprev == 3) psdp->descr = "Sun|Elite3D-M6 Horizontal"; } else { switch (chiprev) { case 0x08: psdp->descr = "Sun FFB 67MHz Creator"; break; case 0x0b: psdp->descr = "Sun FFB 67MHz Creator 3D"; break; case 0x1b: psdp->descr = "Sun FFB 75MHz Creator 3D"; break; case 0x20: case 0x28: psdp->descr = "Sun FFB2 Vertical Creator"; break; case 0x23: case 0x2b: psdp->descr = "Sun FFB2 Vertical Creator 3D"; break; case 0x30: psdp->descr = "Sun FFB2+ Vertical Creator"; break; case 0x33: psdp->descr = "Sun FFB2+ Vertical Creator 3D"; break; case 0x40: case 0x48: psdp->descr = "Sun FFB2 Horizontal Creator"; break; case 0x43: case 0x4b: psdp->descr = "Sun FFB2 Horizontal Creator 3D"; break; } } break; } xf86Msg(X_PROBED, "SBUS:(0x%08x) %s", psdp->node.node, psdp->descr); promPath = sparcPromNode2Pathname (&psdp->node); if (promPath) { xf86ErrorF(" at %s", promPath); xfree(promPath); } } else xf86Msg(X_PROBED, "SBUS: %s", psdp->descr); xf86ErrorF("\n"); } if (useProm) sparcPromClose(); } /* * Parse a BUS ID string, and return the SBUS bus parameters if it was * in the correct format for a SBUS bus id. */ Bool xf86ParseSbusBusString(const char *busID, int *fbNum) { /* * The format is assumed to be one of: * "fbN", e.g. "fb1", which means the device corresponding to /dev/fbN * "nameN", e.g. "cgsix0", which means Nth instance of card NAME * "/prompath", e.g. "/sbus@0,10001000/cgsix@3,0" which is PROM pathname * to the device. */ const char *id; int i, len; if (StringToBusType(busID, &id) != BUS_SBUS) return FALSE; if (*id != '/') { if (!strncmp (id, "fb", 2)) { if (!isdigit(id[2])) return FALSE; *fbNum = atoi(id + 2); return TRUE; } else { sbusDevicePtr *psdpp; int devId; for (i = 0, len = 0; sbusDeviceTable[i].devId; i++) { len = strlen(sbusDeviceTable[i].promName); if (!strncmp (sbusDeviceTable[i].promName, id, len) && isdigit(id[len])) break; } devId = sbusDeviceTable[i].devId; if (!devId) return FALSE; i = atoi(id + len); for (psdpp = xf86SbusInfo; *psdpp; ++psdpp) { if ((*psdpp)->devId != devId) continue; if (!i) { *fbNum = (*psdpp)->fbNum; return TRUE; } i--; } } return FALSE; } if (sparcPromInit() >= 0) { i = sparcPromPathname2Node(id); sparcPromClose(); if (i) { sbusDevicePtr *psdpp; for (psdpp = xf86SbusInfo; *psdpp; ++psdpp) { if ((*psdpp)->node.node == i) { *fbNum = (*psdpp)->fbNum; return TRUE; } } } } return FALSE; } /* * Compare a BUS ID string with a SBUS bus id. Return TRUE if they match. */ Bool xf86CompareSbusBusString(const char *busID, int fbNum) { int iFbNum; if (xf86ParseSbusBusString(busID, &iFbNum)) { return fbNum == iFbNum; } else { return FALSE; } } /* * Check if the slot requested is free. If it is already in use, return FALSE. */ Bool xf86CheckSbusSlot(int fbNum) { int i; EntityPtr p; for (i = 0; i < xf86NumEntities; i++) { p = xf86Entities[i]; /* Check if this SBUS slot is taken */ if (p->busType == BUS_SBUS && p->sbusBusId.fbNum == fbNum) return FALSE; } return TRUE; } /* * If the slot requested is already in use, return -1. * Otherwise, claim the slot for the screen requesting it. */ int xf86ClaimSbusSlot(sbusDevicePtr psdp, DriverPtr drvp, GDevPtr dev, Bool active) { EntityPtr p = NULL; int num; if (xf86CheckSbusSlot(psdp->fbNum)) { num = xf86AllocateEntity(); p = xf86Entities[num]; p->driver = drvp; p->chipset = -1; p->busType = BUS_SBUS; xf86AddDevToEntity(num, dev); p->sbusBusId.fbNum = psdp->fbNum; p->active = active; p->inUse = FALSE; /* Here we initialize the access structure */ p->access = xnfcalloc(1,sizeof(EntityAccessRec)); p->access->fallback = &AccessNULL; p->access->pAccess = &AccessNULL; sbusSlotClaimed = TRUE; return num; } else return -1; } _X_EXPORT int xf86MatchSbusInstances(const char *driverName, int sbusDevId, GDevPtr *devList, int numDevs, DriverPtr drvp, int **foundEntities) { int i,j; sbusDevicePtr psdp, *psdpp; int numClaimedInstances = 0; int allocatedInstances = 0; int numFound = 0; GDevPtr devBus = NULL; GDevPtr dev = NULL; int *retEntities = NULL; int useProm = 0; struct Inst { sbusDevicePtr sbus; GDevPtr dev; Bool claimed; /* BusID matches with a device section */ } *instances = NULL; *foundEntities = NULL; for (psdpp = xf86SbusInfo, psdp = *psdpp; psdp; psdp = *++psdpp) { if (psdp->devId != sbusDevId) continue; if (psdp->fd == -2) continue; ++allocatedInstances; instances = xnfrealloc(instances, allocatedInstances * sizeof(struct Inst)); instances[allocatedInstances - 1].sbus = psdp; instances[allocatedInstances - 1].dev = NULL; instances[allocatedInstances - 1].claimed = FALSE; numFound++; } /* * This may be debatable, but if no SBUS devices with a matching vendor * type is found, return zero now. It is probably not desirable to * allow the config file to override this. */ if (allocatedInstances <= 0) { xfree(instances); return 0; } if (xf86DoProbe) { xfree(instances); return numFound; } if (sparcPromInit() >= 0) useProm = 1; if (xf86DoConfigure && xf86DoConfigurePass1) { GDevPtr pGDev; int actualcards = 0; for (i = 0; i < allocatedInstances; i++) { actualcards++; pGDev = xf86AddBusDeviceToConfigure(drvp->driverName, BUS_SBUS, instances[i].sbus, -1); if (pGDev) { /* * XF86Match???Instances() treat chipID and chipRev as * overrides, so clobber them here. */ pGDev->chipID = pGDev->chipRev = -1; } } xfree(instances); if (useProm) sparcPromClose(); return actualcards; } #ifdef DEBUG ErrorF("%s instances found: %d\n", driverName, allocatedInstances); #endif for (i = 0; i < allocatedInstances; i++) { char *promPath = NULL; psdp = instances[i].sbus; devBus = NULL; dev = NULL; if (useProm && psdp->node.node) promPath = sparcPromNode2Pathname(&psdp->node); for (j = 0; j < numDevs; j++) { if (devList[j]->busID && *devList[j]->busID) { if (xf86CompareSbusBusString(devList[j]->busID, psdp->fbNum)) { if (devBus) xf86MsgVerb(X_WARNING,0, "%s: More than one matching Device section for " "instance (BusID: %s) found: %s\n", driverName,devList[j]->identifier, devList[j]->busID); else devBus = devList[j]; } } else { if (!dev && !devBus) { if (promPath) xf86Msg(X_PROBED, "Assigning device section with no busID to SBUS:%s\n", promPath); else xf86Msg(X_PROBED, "Assigning device section with no busID to SBUS:fb%d\n", psdp->fbNum); dev = devList[j]; } else xf86MsgVerb(X_WARNING, 0, "%s: More than one matching Device section " "found: %s\n", driverName, devList[j]->identifier); } } if (devBus) dev = devBus; /* busID preferred */ if (!dev && psdp->fd != -2) { if (promPath) { xf86MsgVerb(X_WARNING, 0, "%s: No matching Device section " "for instance (BusID SBUS:%s) found\n", driverName, promPath); } else xf86MsgVerb(X_WARNING, 0, "%s: No matching Device section " "for instance (BusID SBUS:fb%d) found\n", driverName, psdp->fbNum); } else if (dev) { numClaimedInstances++; instances[i].claimed = TRUE; instances[i].dev = dev; } if (promPath) xfree(promPath); } #ifdef DEBUG ErrorF("%s instances found: %d\n", driverName, numClaimedInstances); #endif /* * Of the claimed instances, check that another driver hasn't already * claimed its slot. */ numFound = 0; for (i = 0; i < allocatedInstances && numClaimedInstances > 0; i++) { if (!instances[i].claimed) continue; psdp = instances[i].sbus; if (!xf86CheckSbusSlot(psdp->fbNum)) continue; #ifdef DEBUG ErrorF("%s: card at fb%d %08x is claimed by a Device section\n", driverName, psdp->fbNum, psdp->node.node); #endif /* Allocate an entry in the lists to be returned */ numFound++; retEntities = xnfrealloc(retEntities, numFound * sizeof(int)); retEntities[numFound - 1] = xf86ClaimSbusSlot(psdp, drvp, instances[i].dev,instances[i].dev->active ? TRUE : FALSE); } xfree(instances); if (numFound > 0) { *foundEntities = retEntities; } if (useProm) sparcPromClose(); return numFound; } /* * xf86GetSbusInfoForEntity() -- Get the sbusDevicePtr of entity. */ _X_EXPORT sbusDevicePtr xf86GetSbusInfoForEntity(int entityIndex) { sbusDevicePtr *psdpp; EntityPtr p = xf86Entities[entityIndex]; if (entityIndex >= xf86NumEntities || p->busType != BUS_SBUS) return NULL; for (psdpp = xf86SbusInfo; *psdpp != NULL; psdpp++) { if (p->sbusBusId.fbNum == (*psdpp)->fbNum) return (*psdpp); } return NULL; } _X_EXPORT int xf86GetEntityForSbusInfo(sbusDevicePtr psdp) { int i; for (i = 0; i < xf86NumEntities; i++) { EntityPtr p = xf86Entities[i]; if (p->busType != BUS_SBUS) continue; if (p->sbusBusId.fbNum == psdp->fbNum) return i; } return -1; } _X_EXPORT void xf86SbusUseBuiltinMode(ScrnInfoPtr pScrn, sbusDevicePtr psdp) { DisplayModePtr mode; mode = xnfcalloc(sizeof(DisplayModeRec), 1); mode->name = "current"; mode->next = mode; mode->prev = mode; mode->type = M_T_BUILTIN; mode->Clock = 100000000; mode->HDisplay = psdp->width; mode->HSyncStart = psdp->width; mode->HSyncEnd = psdp->width; mode->HTotal = psdp->width; mode->VDisplay = psdp->height; mode->VSyncStart = psdp->height; mode->VSyncEnd = psdp->height; mode->VTotal = psdp->height; mode->SynthClock = mode->Clock; mode->CrtcHDisplay = mode->HDisplay; mode->CrtcHSyncStart = mode->HSyncStart; mode->CrtcHSyncEnd = mode->HSyncEnd; mode->CrtcHTotal = mode->HTotal; mode->CrtcVDisplay = mode->VDisplay; mode->CrtcVSyncStart = mode->VSyncStart; mode->CrtcVSyncEnd = mode->VSyncEnd; mode->CrtcVTotal = mode->VTotal; mode->CrtcHAdjusted = FALSE; mode->CrtcVAdjusted = FALSE; pScrn->modes = mode; pScrn->virtualX = psdp->width; pScrn->virtualY = psdp->height; } static int sbusPaletteIndex = -1; static unsigned long sbusPaletteGeneration = 0; typedef struct _sbusCmap { sbusDevicePtr psdp; CloseScreenProcPtr CloseScreen; Bool origCmapValid; unsigned char origRed[16]; unsigned char origGreen[16]; unsigned char origBlue[16]; } sbusCmapRec, *sbusCmapPtr; #define SBUSCMAPPTR(pScreen) ((sbusCmapPtr)((pScreen)->devPrivates[sbusPaletteIndex].ptr)) static void xf86SbusCmapLoadPalette(ScrnInfoPtr pScrn, int numColors, int *indices, LOCO *colors, VisualPtr pVisual) { int i, index; sbusCmapPtr cmap; struct fbcmap fbcmap; unsigned char *data = ALLOCATE_LOCAL(numColors*3); cmap = SBUSCMAPPTR(pScrn->pScreen); if (!cmap) return; fbcmap.count = 0; fbcmap.index = indices[0]; fbcmap.red = data; fbcmap.green = data + numColors; fbcmap.blue = fbcmap.green + numColors; for (i = 0; i < numColors; i++) { index = indices[i]; if (fbcmap.count && index != fbcmap.index + fbcmap.count) { ioctl (cmap->psdp->fd, FBIOPUTCMAP, &fbcmap); fbcmap.count = 0; fbcmap.index = index; } fbcmap.red[fbcmap.count] = colors[index].red; fbcmap.green[fbcmap.count] = colors[index].green; fbcmap.blue[fbcmap.count++] = colors[index].blue; } ioctl (cmap->psdp->fd, FBIOPUTCMAP, &fbcmap); DEALLOCATE_LOCAL(data); } static Bool xf86SbusCmapCloseScreen(int i, ScreenPtr pScreen) { sbusCmapPtr cmap; struct fbcmap fbcmap; cmap = SBUSCMAPPTR(pScreen); if (cmap->origCmapValid) { fbcmap.index = 0; fbcmap.count = 16; fbcmap.red = cmap->origRed; fbcmap.green = cmap->origGreen; fbcmap.blue = cmap->origBlue; ioctl (cmap->psdp->fd, FBIOPUTCMAP, &fbcmap); } pScreen->CloseScreen = cmap->CloseScreen; xfree (cmap); return (*pScreen->CloseScreen) (i, pScreen); } _X_EXPORT Bool xf86SbusHandleColormaps(ScreenPtr pScreen, sbusDevicePtr psdp) { sbusCmapPtr cmap; struct fbcmap fbcmap; unsigned char data[2]; if(sbusPaletteGeneration != serverGeneration) { if((sbusPaletteIndex = AllocateScreenPrivateIndex()) < 0) return FALSE; sbusPaletteGeneration = serverGeneration; } cmap = xnfcalloc(1, sizeof(sbusCmapRec)); pScreen->devPrivates[sbusPaletteIndex].ptr = cmap; cmap->psdp = psdp; fbcmap.index = 0; fbcmap.count = 16; fbcmap.red = cmap->origRed; fbcmap.green = cmap->origGreen; fbcmap.blue = cmap->origBlue; if (ioctl (psdp->fd, FBIOGETCMAP, &fbcmap) >= 0) cmap->origCmapValid = TRUE; fbcmap.index = 0; fbcmap.count = 2; fbcmap.red = data; fbcmap.green = data; fbcmap.blue = data; if (pScreen->whitePixel == 0) { data[0] = 255; data[1] = 0; } else { data[0] = 0; data[1] = 255; } ioctl (psdp->fd, FBIOPUTCMAP, &fbcmap); cmap->CloseScreen = pScreen->CloseScreen; pScreen->CloseScreen = xf86SbusCmapCloseScreen; return xf86HandleColormaps(pScreen, 256, 8, xf86SbusCmapLoadPalette, NULL, 0); }