/* $Id: HGSMICommon.cpp 71591 2018-03-31 18:40:01Z vboxsync $ */ /** @file * VBox Host Guest Shared Memory Interface (HGSMI) - Functions common to both host and guest. */ /* * 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 AUTHORS OR COPYRIGHT * HOLDERS 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. */ #define LOG_DISABLED /* Maybe we can enabled it all the time now? */ /** @note commented out all logging statements to avoid pulling the logging * sub-system into places like the Linux kernel driver. Perhaps the best * thing would be to use return enough information for callers to log what * is needed. */ #define LOG_GROUP LOG_GROUP_HGSMI #include #include // #include /* Channel flags. */ #define HGSMI_CH_F_REGISTERED 0x01 /* Assertions for situations which could happen and normally must be processed properly * but must be investigated during development: guest misbehaving, etc. */ #ifdef HGSMI_STRICT #define HGSMI_STRICT_ASSERT_FAILED() AssertFailed() #define HGSMI_STRICT_ASSERT(expr) Assert(expr) #else #define HGSMI_STRICT_ASSERT_FAILED() do {} while (0) #define HGSMI_STRICT_ASSERT(expr) do {} while (0) #endif /* !HGSMI_STRICT */ /* * We do not want assertions in Linux kernel code to reduce symbol dependencies. */ #if defined(IN_RING0) && defined(RT_OS_LINUX) # define HGSMI_ASSERT_PTR_RETURN(a, b) if (!(a)) return (b) #else # define HGSMI_ASSERT_PTR_RETURN(a, b) if (!(a)) return (b) #endif /* !IN_RING0 && RT_OS_LINUX */ /* One-at-a-Time Hash from * http://www.burtleburtle.net/bob/hash/doobs.html * * ub4 one_at_a_time(char *key, ub4 len) * { * ub4 hash, i; * for (hash=0, i=0; i> 6); * } * hash += (hash << 3); * hash ^= (hash >> 11); * hash += (hash << 15); * return hash; * } */ static uint32_t hgsmiHashBegin(void) { return 0; } static uint32_t hgsmiHashProcess(uint32_t hash, const void RT_UNTRUSTED_VOLATILE_HSTGST *pvData, size_t cbData) { const uint8_t *pu8Data = (const uint8_t *)pvData; while (cbData--) { hash += *pu8Data++; hash += (hash << 10); hash ^= (hash >> 6); } return hash; } static uint32_t hgsmiHashEnd(uint32_t hash) { hash += (hash << 3); hash ^= (hash >> 11); hash += (hash << 15); return hash; } uint32_t HGSMIChecksum(HGSMIOFFSET offBuffer, const HGSMIBUFFERHEADER RT_UNTRUSTED_VOLATILE_HSTGST *pHeader, const HGSMIBUFFERTAIL RT_UNTRUSTED_VOLATILE_HSTGST *pTail) { uint32_t u32Checksum = hgsmiHashBegin(); u32Checksum = hgsmiHashProcess(u32Checksum, &offBuffer, sizeof(offBuffer)); u32Checksum = hgsmiHashProcess(u32Checksum, pHeader, sizeof(HGSMIBUFFERHEADER)); u32Checksum = hgsmiHashProcess(u32Checksum, pTail, RT_OFFSETOF(HGSMIBUFFERTAIL, u32Checksum)); return hgsmiHashEnd(u32Checksum); } int HGSMIAreaInitialize(HGSMIAREA *pArea, void *pvBase, HGSMISIZE cbArea, HGSMIOFFSET offBase) { uint8_t *pu8Base = (uint8_t *)pvBase; if ( !pArea /* Check that the area: */ || cbArea < HGSMIBufferMinimumSize() /* large enough; */ || pu8Base + cbArea < pu8Base /* no address space wrap; */ || offBase > UINT32_C(0xFFFFFFFF) - cbArea /* area within the 32 bit space: offBase + cbMem <= 0xFFFFFFFF. */ ) { return VERR_INVALID_PARAMETER; } pArea->pu8Base = pu8Base; pArea->offBase = offBase; pArea->offLast = cbArea - HGSMIBufferMinimumSize() + offBase; pArea->cbArea = cbArea; return VINF_SUCCESS; } void HGSMIAreaClear(HGSMIAREA *pArea) { if (pArea) { RT_ZERO(*pArea); } } /* Initialize the memory buffer including its checksum. * No changes alloed to the header and the tail after that. */ HGSMIOFFSET HGSMIBufferInitializeSingle(const HGSMIAREA *pArea, HGSMIBUFFERHEADER *pHeader, HGSMISIZE cbBuffer, uint8_t u8Channel, uint16_t u16ChannelInfo) { if ( !pArea || !pHeader || cbBuffer < HGSMIBufferMinimumSize()) { return HGSMIOFFSET_VOID; } /* Buffer must be within the area: * * header data size do not exceed the maximum data size; * * buffer address is greater than the area base address; * * buffer address is lower than the maximum allowed for the given data size. */ HGSMISIZE cbMaximumDataSize = pArea->offLast - pArea->offBase; uint32_t u32DataSize = cbBuffer - HGSMIBufferMinimumSize(); if ( u32DataSize > cbMaximumDataSize || (uint8_t *)pHeader < pArea->pu8Base || (uint8_t *)pHeader > pArea->pu8Base + cbMaximumDataSize - u32DataSize) { return HGSMIOFFSET_VOID; } HGSMIOFFSET offBuffer = HGSMIPointerToOffset(pArea, pHeader); pHeader->u8Flags = HGSMI_BUFFER_HEADER_F_SEQ_SINGLE; pHeader->u32DataSize = u32DataSize; pHeader->u8Channel = u8Channel; pHeader->u16ChannelInfo = u16ChannelInfo; RT_ZERO(pHeader->u.au8Union); HGSMIBUFFERTAIL RT_UNTRUSTED_VOLATILE_HSTGST *pTail = HGSMIBufferTailFromPtr(pHeader, u32DataSize); pTail->u32Reserved = 0; pTail->u32Checksum = HGSMIChecksum(offBuffer, pHeader, pTail); return offBuffer; } int HGSMIHeapSetup(HGSMIHEAP *pHeap, void *pvBase, HGSMISIZE cbArea, HGSMIOFFSET offBase, const HGSMIENV *pEnv) { HGSMI_ASSERT_PTR_RETURN(pHeap, VERR_INVALID_PARAMETER); HGSMI_ASSERT_PTR_RETURN(pvBase, VERR_INVALID_PARAMETER); int rc = HGSMIAreaInitialize(&pHeap->area, pvBase, cbArea, offBase); if (RT_SUCCESS(rc)) { rc = HGSMIMAInit(&pHeap->ma, &pHeap->area, NULL, 0, 0, pEnv); if (RT_FAILURE(rc)) { HGSMIAreaClear(&pHeap->area); } } return rc; } void HGSMIHeapDestroy(HGSMIHEAP *pHeap) { if (pHeap) { HGSMIMAUninit(&pHeap->ma); RT_ZERO(*pHeap); } } void RT_UNTRUSTED_VOLATILE_HOST *HGSMIHeapAlloc(HGSMIHEAP *pHeap, HGSMISIZE cbData, uint8_t u8Channel, uint16_t u16ChannelInfo) { HGSMISIZE cbAlloc = HGSMIBufferRequiredSize(cbData); HGSMIBUFFERHEADER *pHeader = (HGSMIBUFFERHEADER *)HGSMIHeapBufferAlloc(pHeap, cbAlloc); if (pHeader) { HGSMIOFFSET offBuffer = HGSMIBufferInitializeSingle(HGSMIHeapArea(pHeap), pHeader, cbAlloc, u8Channel, u16ChannelInfo); if (offBuffer == HGSMIOFFSET_VOID) { HGSMIHeapBufferFree(pHeap, pHeader); pHeader = NULL; } } return pHeader? HGSMIBufferDataFromPtr(pHeader): NULL; } void HGSMIHeapFree(HGSMIHEAP *pHeap, void RT_UNTRUSTED_VOLATILE_GUEST *pvData) { if (pvData) { HGSMIBUFFERHEADER RT_UNTRUSTED_VOLATILE_HOST *pHeader = HGSMIBufferHeaderFromData(pvData); HGSMIHeapBufferFree(pHeap, pHeader); } } void RT_UNTRUSTED_VOLATILE_HSTGST *HGSMIHeapBufferAlloc(HGSMIHEAP *pHeap, HGSMISIZE cbBuffer) { return HGSMIMAAlloc(&pHeap->ma, cbBuffer); } void HGSMIHeapBufferFree(HGSMIHEAP *pHeap, void RT_UNTRUSTED_VOLATILE_GUEST *pvBuf) { HGSMIMAFree(&pHeap->ma, pvBuf); } typedef struct HGSMIBUFFERCONTEXT { /** The original buffer header. */ const HGSMIBUFFERHEADER RT_UNTRUSTED_VOLATILE_HSTGST *pHeader; /** Payload data in the buffer. */ void RT_UNTRUSTED_VOLATILE_HSTGST *pvData; /** Size of data */ uint32_t cbData; } HGSMIBUFFERCONTEXT; /** Verify that the given offBuffer points to a valid buffer, which is within the area. * * @returns VBox status and the buffer information in pBufferContext. * @param pArea Area which supposed to contain the buffer. * @param offBuffer The buffer location in the area. * @param pBufferContext Where to write information about the buffer. */ static int hgsmiVerifyBuffer(const HGSMIAREA *pArea, HGSMIOFFSET offBuffer, HGSMIBUFFERCONTEXT *pBufferContext) { // LogFlowFunc(("buffer 0x%x, area %p %x [0x%x;0x%x]\n", // offBuffer, pArea->pu8Base, pArea->cbArea, pArea->offBase, pArea->offLast)); int rc = VINF_SUCCESS; if ( offBuffer < pArea->offBase || offBuffer > pArea->offLast) { // LogFunc(("offset 0x%x is outside the area [0x%x;0x%x]!!!\n", // offBuffer, pArea->offBase, pArea->offLast)); rc = VERR_INVALID_PARAMETER; HGSMI_STRICT_ASSERT_FAILED(); } else { void RT_UNTRUSTED_VOLATILE_HSTGST *pvBuffer = HGSMIOffsetToPointer(pArea, offBuffer); HGSMIBUFFERHEADER header; memcpy(&header, (void *)HGSMIBufferHeaderFromPtr(pvBuffer), sizeof(header)); ASMCompilerBarrier(); /* Quick check of the data size, it should be less than the maximum * data size for the buffer at this offset. */ // LogFlowFunc(("datasize check: header.u32DataSize = 0x%x pArea->offLast - offBuffer = 0x%x\n", // header.u32DataSize, pArea->offLast - offBuffer)); if (header.u32DataSize <= pArea->offLast - offBuffer) { HGSMIBUFFERTAIL tail; memcpy(&tail, (void *)HGSMIBufferTailFromPtr(pvBuffer, header.u32DataSize), sizeof(tail)); ASMCompilerBarrier(); /* At least both header and tail structures are in the area. Check the checksum. */ uint32_t u32Checksum = HGSMIChecksum(offBuffer, &header, &tail); // LogFlowFunc(("checksum check: u32Checksum = 0x%x pTail->u32Checksum = 0x%x\n", // u32Checksum, tail.u32Checksum)); if (u32Checksum == tail.u32Checksum) { /* Success. */ pBufferContext->pHeader = HGSMIBufferHeaderFromPtr(pvBuffer); pBufferContext->pvData = HGSMIBufferDataFromPtr(pvBuffer); pBufferContext->cbData = header.u32DataSize; } else { // LogFunc(("invalid checksum 0x%x, expected 0x%x!!!\n", // u32Checksum, tail.u32Checksum)); rc = VERR_INVALID_STATE; HGSMI_STRICT_ASSERT_FAILED(); } } else { // LogFunc(("invalid data size 0x%x, maximum is 0x%x!!!\n", // header.u32DataSize, pArea->offLast - offBuffer)); rc = VERR_TOO_MUCH_DATA; HGSMI_STRICT_ASSERT_FAILED(); } } return rc; } /** Helper to convert HGSMI channel index to the channel structure pointer. * * @returns Pointer to the channel data. * @param pChannelInfo The channel pool. * @param u8Channel The channel index. */ HGSMICHANNEL *HGSMIChannelFindById(HGSMICHANNELINFO *pChannelInfo, uint8_t u8Channel) { AssertCompile(RT_ELEMENTS(pChannelInfo->Channels) >= 0x100); HGSMICHANNEL *pChannel = &pChannelInfo->Channels[u8Channel]; if (pChannel->u8Flags & HGSMI_CH_F_REGISTERED) { return pChannel; } return NULL; } /** Process a guest buffer. * * @returns VBox status code. * @param pArea Area which supposed to contain the buffer. * @param pChannelInfo The channel pool. * @param offBuffer The buffer location in the area. */ int HGSMIBufferProcess(const HGSMIAREA *pArea, HGSMICHANNELINFO *pChannelInfo, HGSMIOFFSET offBuffer) { // LogFlowFunc(("pArea %p, offBuffer 0x%x\n", pArea, offBuffer)); HGSMI_ASSERT_PTR_RETURN(pArea, VERR_INVALID_PARAMETER); HGSMI_ASSERT_PTR_RETURN(pChannelInfo, VERR_INVALID_PARAMETER); /* Guest has prepared a command description at 'offBuffer'. */ HGSMIBUFFERCONTEXT bufferContext = { NULL, NULL, 0 }; /* Makes old GCC happier. */ int rc = hgsmiVerifyBuffer(pArea, offBuffer, &bufferContext); if (RT_SUCCESS(rc)) { /* Pass the command to the appropriate handler registered with this instance. * Start with the handler list head, which is the preallocated HGSMI setup channel. */ const HGSMICHANNEL *pChannel = HGSMIChannelFindById(pChannelInfo, bufferContext.pHeader->u8Channel); if (pChannel) { const HGSMICHANNELHANDLER *pHandler = &pChannel->handler; if (pHandler->pfnHandler) { pHandler->pfnHandler(pHandler->pvHandler, bufferContext.pHeader->u16ChannelInfo, bufferContext.pvData, bufferContext.cbData); } HGSMI_STRICT_ASSERT(RT_SUCCESS(hgsmiVerifyBuffer(pArea, offBuffer, &bufferContext))); } else { rc = VERR_INVALID_FUNCTION; HGSMI_STRICT_ASSERT_FAILED(); } } return rc; } /** Register a new HGSMI channel by index. * * @returns VBox status code. * @param pChannelInfo The channel pool managed by the caller. * @param u8Channel Index of the channel. * @param pszName Name of the channel (optional, allocated by the caller). * @param pfnChannelHandler The channel callback. * @param pvChannelHandler The callback pointer. */ int HGSMIChannelRegister(HGSMICHANNELINFO *pChannelInfo, uint8_t u8Channel, const char *pszName, PFNHGSMICHANNELHANDLER pfnChannelHandler, void *pvChannelHandler) { /* Check whether the channel is already registered. */ HGSMICHANNEL *pChannel = HGSMIChannelFindById(pChannelInfo, u8Channel); if (pChannel) { HGSMI_STRICT_ASSERT_FAILED(); return VERR_ALREADY_EXISTS; } /* Channel is not yet registered. */ pChannel = &pChannelInfo->Channels[u8Channel]; pChannel->u8Flags = HGSMI_CH_F_REGISTERED; pChannel->u8Channel = u8Channel; pChannel->handler.pfnHandler = pfnChannelHandler; pChannel->handler.pvHandler = pvChannelHandler; pChannel->pszName = pszName; return VINF_SUCCESS; }