/* * Copyright (C) 2006-2017 Oracle Corporation * * 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 * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) 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. */ #include #include #include /* * There is a hardware ring buffer in the graphics device video RAM, formerly * in the VBox VMMDev PCI memory space. * All graphics commands go there serialized by VBoxVBVABufferBeginUpdate. * and vboxHwBufferEndUpdate. * * off32Free is writing position. off32Data is reading position. * off32Free == off32Data means buffer is empty. * There must be always gap between off32Data and off32Free when data * are in the buffer. * Guest only changes off32Free, host changes off32Data. */ /* Forward declarations of internal functions. */ static void vboxHwBufferFlush(PHGSMIGUESTCOMMANDCONTEXT pCtx); static void vboxHwBufferPlaceDataAt(PVBVABUFFERCONTEXT pCtx, const void *p, uint32_t cb, uint32_t offset); static bool vboxHwBufferWrite(PVBVABUFFERCONTEXT pCtx, PHGSMIGUESTCOMMANDCONTEXT pHGSMICtx, const void *p, uint32_t cb); static bool vboxVBVAInformHost(PVBVABUFFERCONTEXT pCtx, PHGSMIGUESTCOMMANDCONTEXT pHGSMICtx, int32_t cScreen, bool bEnable) { bool bRc = false; #if 0 /* All callers check this */ if (ppdev->bHGSMISupported) #endif { void *p = VBoxHGSMIBufferAlloc(pHGSMICtx, sizeof (VBVAENABLE_EX), HGSMI_CH_VBVA, VBVA_ENABLE); if (!p) { // LogFunc(("HGSMIHeapAlloc failed\n")); } else { VBVAENABLE_EX *pEnable = (VBVAENABLE_EX *)p; pEnable->Base.u32Flags = bEnable? VBVA_F_ENABLE: VBVA_F_DISABLE; pEnable->Base.u32Offset = pCtx->offVRAMBuffer; pEnable->Base.i32Result = VERR_NOT_SUPPORTED; if (cScreen >= 0) { pEnable->Base.u32Flags |= VBVA_F_EXTENDED | VBVA_F_ABSOFFSET; pEnable->u32ScreenId = cScreen; } VBoxHGSMIBufferSubmit(pHGSMICtx, p); if (bEnable) { bRc = RT_SUCCESS(pEnable->Base.i32Result); } else { bRc = true; } VBoxHGSMIBufferFree(pHGSMICtx, p); } } return bRc; } /* * Public hardware buffer methods. */ DECLHIDDEN(bool) VBoxVBVAEnable(PVBVABUFFERCONTEXT pCtx, PHGSMIGUESTCOMMANDCONTEXT pHGSMICtx, VBVABUFFER *pVBVA, int32_t cScreen) { bool bRc = false; // LogFlowFunc(("pVBVA %p\n", pVBVA)); #if 0 /* All callers check this */ if (ppdev->bHGSMISupported) #endif { // LogFunc(("pVBVA %p vbva off 0x%x\n", pVBVA, pCtx->offVRAMBuffer)); pVBVA->hostFlags.u32HostEvents = 0; pVBVA->hostFlags.u32SupportedOrders = 0; pVBVA->off32Data = 0; pVBVA->off32Free = 0; memset(pVBVA->aRecords, 0, sizeof (pVBVA->aRecords)); pVBVA->indexRecordFirst = 0; pVBVA->indexRecordFree = 0; pVBVA->cbPartialWriteThreshold = 256; pVBVA->cbData = pCtx->cbBuffer - sizeof (VBVABUFFER) + sizeof (pVBVA->au8Data); pCtx->fHwBufferOverflow = false; pCtx->pRecord = NULL; pCtx->pVBVA = pVBVA; bRc = vboxVBVAInformHost(pCtx, pHGSMICtx, cScreen, true); } if (!bRc) { VBoxVBVADisable(pCtx, pHGSMICtx, cScreen); } return bRc; } DECLHIDDEN(void) VBoxVBVADisable(PVBVABUFFERCONTEXT pCtx, PHGSMIGUESTCOMMANDCONTEXT pHGSMICtx, int32_t cScreen) { // LogFlowFunc(("\n")); pCtx->fHwBufferOverflow = false; pCtx->pRecord = NULL; pCtx->pVBVA = NULL; vboxVBVAInformHost(pCtx, pHGSMICtx, cScreen, false); return; } DECLHIDDEN(bool) VBoxVBVABufferBeginUpdate(PVBVABUFFERCONTEXT pCtx, PHGSMIGUESTCOMMANDCONTEXT pHGSMICtx) { bool bRc = false; // LogFunc(("flags = 0x%08X\n", pCtx->pVBVA? pCtx->pVBVA->u32HostEvents: -1)); if ( pCtx->pVBVA && (pCtx->pVBVA->hostFlags.u32HostEvents & VBVA_F_MODE_ENABLED)) { uint32_t indexRecordNext; Assert(!pCtx->fHwBufferOverflow); Assert(pCtx->pRecord == NULL); indexRecordNext = (pCtx->pVBVA->indexRecordFree + 1) % VBVA_MAX_RECORDS; if (indexRecordNext == pCtx->pVBVA->indexRecordFirst) { /* All slots in the records queue are used. */ vboxHwBufferFlush (pHGSMICtx); } if (indexRecordNext == pCtx->pVBVA->indexRecordFirst) { /* Even after flush there is no place. Fail the request. */ // LogFunc(("no space in the queue of records!!! first %d, last %d\n", // pCtx->pVBVA->indexRecordFirst, pCtx->pVBVA->indexRecordFree)); } else { /* Initialize the record. */ VBVARECORD *pRecord = &pCtx->pVBVA->aRecords[pCtx->pVBVA->indexRecordFree]; pRecord->cbRecord = VBVA_F_RECORD_PARTIAL; pCtx->pVBVA->indexRecordFree = indexRecordNext; // LogFunc(("indexRecordNext = %d\n", indexRecordNext)); /* Remember which record we are using. */ pCtx->pRecord = pRecord; bRc = true; } } return bRc; } DECLHIDDEN(void) VBoxVBVABufferEndUpdate(PVBVABUFFERCONTEXT pCtx) { VBVARECORD *pRecord; // LogFunc(("\n")); Assert(pCtx->pVBVA); pRecord = pCtx->pRecord; Assert(pRecord && (pRecord->cbRecord & VBVA_F_RECORD_PARTIAL)); /* Mark the record completed. */ pRecord->cbRecord &= ~VBVA_F_RECORD_PARTIAL; pCtx->fHwBufferOverflow = false; pCtx->pRecord = NULL; return; } /* * Private operations. */ static uint32_t vboxHwBufferAvail (const VBVABUFFER *pVBVA) { int32_t i32Diff = pVBVA->off32Data - pVBVA->off32Free; return i32Diff > 0? i32Diff: pVBVA->cbData + i32Diff; } static void vboxHwBufferFlush(PHGSMIGUESTCOMMANDCONTEXT pCtx) { /* Issue the flush command. */ void *p = VBoxHGSMIBufferAlloc(pCtx, sizeof (VBVAFLUSH), HGSMI_CH_VBVA, VBVA_FLUSH); if (!p) { // LogFunc(("HGSMIHeapAlloc failed\n")); } else { VBVAFLUSH *pFlush = (VBVAFLUSH *)p; pFlush->u32Reserved = 0; VBoxHGSMIBufferSubmit(pCtx, p); VBoxHGSMIBufferFree(pCtx, p); } return; } static void vboxHwBufferPlaceDataAt(PVBVABUFFERCONTEXT pCtx, const void *p, uint32_t cb, uint32_t offset) { VBVABUFFER *pVBVA = pCtx->pVBVA; uint32_t u32BytesTillBoundary = pVBVA->cbData - offset; uint8_t *dst = &pVBVA->au8Data[offset]; int32_t i32Diff = cb - u32BytesTillBoundary; if (i32Diff <= 0) { /* Chunk will not cross buffer boundary. */ memcpy (dst, p, cb); } else { /* Chunk crosses buffer boundary. */ memcpy (dst, p, u32BytesTillBoundary); memcpy (&pVBVA->au8Data[0], (uint8_t *)p + u32BytesTillBoundary, i32Diff); } return; } static bool vboxHwBufferWrite(PVBVABUFFERCONTEXT pCtx, PHGSMIGUESTCOMMANDCONTEXT pHGSMICtx, const void *p, uint32_t cb) { VBVARECORD *pRecord; uint32_t cbHwBufferAvail; uint32_t cbWritten = 0; VBVABUFFER *pVBVA = pCtx->pVBVA; Assert(pVBVA); if (!pVBVA || pCtx->fHwBufferOverflow) { return false; } Assert(pVBVA->indexRecordFirst != pVBVA->indexRecordFree); pRecord = pCtx->pRecord; Assert(pRecord && (pRecord->cbRecord & VBVA_F_RECORD_PARTIAL)); // LogFunc(("%d\n", cb)); cbHwBufferAvail = vboxHwBufferAvail (pVBVA); while (cb > 0) { uint32_t cbChunk = cb; // LogFunc(("pVBVA->off32Free %d, pRecord->cbRecord 0x%08X, cbHwBufferAvail %d, cb %d, cbWritten %d\n", // pVBVA->off32Free, pRecord->cbRecord, cbHwBufferAvail, cb, cbWritten)); if (cbChunk >= cbHwBufferAvail) { // LogFunc(("1) avail %d, chunk %d\n", cbHwBufferAvail, cbChunk)); vboxHwBufferFlush (pHGSMICtx); cbHwBufferAvail = vboxHwBufferAvail (pVBVA); if (cbChunk >= cbHwBufferAvail) { // LogFunc(("no place for %d bytes. Only %d bytes available after flush. Going to partial writes.\n", // cb, cbHwBufferAvail)); if (cbHwBufferAvail <= pVBVA->cbPartialWriteThreshold) { // LogFunc(("Buffer overflow!!!\n")); pCtx->fHwBufferOverflow = true; Assert(false); return false; } cbChunk = cbHwBufferAvail - pVBVA->cbPartialWriteThreshold; } } Assert(cbChunk <= cb); Assert(cbChunk <= vboxHwBufferAvail (pVBVA)); vboxHwBufferPlaceDataAt (pCtx, (uint8_t *)p + cbWritten, cbChunk, pVBVA->off32Free); pVBVA->off32Free = (pVBVA->off32Free + cbChunk) % pVBVA->cbData; pRecord->cbRecord += cbChunk; cbHwBufferAvail -= cbChunk; cb -= cbChunk; cbWritten += cbChunk; } return true; } /* * Public writer to the hardware buffer. */ DECLHIDDEN(bool) VBoxVBVAWrite(PVBVABUFFERCONTEXT pCtx, PHGSMIGUESTCOMMANDCONTEXT pHGSMICtx, const void *pv, uint32_t cb) { return vboxHwBufferWrite (pCtx, pHGSMICtx, pv, cb); } DECLHIDDEN(bool) VBoxVBVAOrderSupported(PVBVABUFFERCONTEXT pCtx, unsigned code) { VBVABUFFER *pVBVA = pCtx->pVBVA; if (!pVBVA) { return false; } if (pVBVA->hostFlags.u32SupportedOrders & (1 << code)) { return true; } return false; } DECLHIDDEN(void) VBoxVBVASetupBufferContext(PVBVABUFFERCONTEXT pCtx, uint32_t offVRAMBuffer, uint32_t cbBuffer) { pCtx->offVRAMBuffer = offVRAMBuffer; pCtx->cbBuffer = cbBuffer; }