#include "pch.h" #pragma hdrstop #include #include "hwres.h" #include "kkcwinf.h" #include "ncreg.h" extern const WCHAR c_szAfIoAddr[]; extern const WCHAR c_szAfIrq[]; extern const WCHAR c_szAfDma[]; extern const WCHAR c_szAfMem[]; extern const WCHAR c_szBusType[]; //+--------------------------------------------------------------------------- // // Member: CHwRes::CHwRes // // Purpose: Class constructor. (Variable initialization) // // Author: t-nabilr 07 Apr 1997 // // Notes: Doesn't do much. Just some member variable initialization. // Bulk of the init work is done in HrInit(). // CHwRes::CHwRes() : m_DevNode(NULL), m_pnccItem(NULL), m_fInitialized(FALSE), m_fHrInitCalled(FALSE), m_fDirty(FALSE) { m_vAfDma.InitNotPresent(VALUETYPE_DWORD); m_vAfIrq.InitNotPresent(VALUETYPE_DWORD); m_vAfMem.InitNotPresent(VALUETYPE_DWORD); m_vAfMemEnd.InitNotPresent(VALUETYPE_DWORD); m_vAfIo.InitNotPresent(VALUETYPE_DWORD); m_vAfIoEnd.InitNotPresent(VALUETYPE_DWORD); } //+--------------------------------------------------------------------------- // // Member: CHwRes::HrInit // // Purpose: Initialize class // // Arguments: // hInst [in] Handle to our instance. // pnccItem [in] Our INetCfgComponent. // // Returns: S_OK - init successfull; // HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) - no config // info for device; E_FAIL - other failure (device not found,etc) // // Author: t-nabilr 07 Apr 1997 // // Notes: - should initialize all non-ui stuff // - initialize configuration and resource lists. // HRESULT CHwRes::HrInit(const DEVNODE& devnode) { HRESULT hr = E_FAIL; m_fHrInitCalled = TRUE; // use the config manager to get devnode // Since the devnode might have a problem, e.g. resources not set // correctly, we need to retrieve possible phantoms // CONFIGRET crRet = ERROR_SUCCESS; HKEY hkey; // We only do work on Isa adapters so we need to get the bustype // value from the driver (software) key crRet = CM_Open_DevNode_Key(devnode, KEY_READ, 0, RegDisposition_OpenExisting, &hkey, CM_REGISTRY_SOFTWARE); if (CR_SUCCESS == crRet) { // Get BusType ULONG ulBusType; hr = HrRegQueryStringAsUlong(hkey, c_szBusType, c_nBase10, &ulBusType); RegCloseKey(hkey); // If Isa, than we can continue if (SUCCEEDED(hr) && (Isa == ulBusType)) { m_DevNode = devnode; // read configuration current config info hr = HrInitConfigList(); } else { hr = S_FALSE; } } if (S_OK == hr) { m_fInitialized = TRUE; } TraceError("CHwRes::HrInit", (HRESULT_FROM_WIN32(ERROR_FILE_EXISTS) == hr || S_FALSE == hr) ? S_OK : hr); return hr; } //+--------------------------------------------------------------------------- // // Member: CHwRes::GetNextElement // // Purpose: Gets the next (or prev) element in a resource list // // Arguments: // pResource [in] resource list to traverse. // ppeList [out] the "next" element is returned. // fNext [in] TRUE - moving fwd in list; FALSE - move bkwrds. // // Author: t-nabilr 07 Apr 1997 // // Notes: // VOID CHwRes::GetNextElement(PRESOURCE pResource, PVOID *ppeList, BOOL fNext) { UINT size = 0; AssertSz(m_fInitialized, "GetNextElement called before CHwRes is HrInit'ed"); Assert(pResource != NULL); // get the vector size (dependant on resource type) switch (pResource->ResourceType) { case ResType_IRQ: size = pResource->pIRQList->size(); break; case ResType_DMA: size = pResource->pDMAList->size(); break; case ResType_IO: size = pResource->pIOList->size(); break; case ResType_Mem: size = pResource->pMEMList->size(); break; default: Assert(FALSE); break; } // increment/decrement current position within vector if (fNext) { pResource->pos++; } else { pResource->pos--; } // Check for wrapping if ((int)(pResource->pos) < 0) { Assert(pResource->pos == -1); Assert(!fNext); // we're going backwards pResource->pos = size-1; } else if (pResource->pos >= size) { Assert(pResource->pos == size); Assert(fNext); pResource->pos = 0; } // return the current vector element (dependant on res type) // REVIEW: do we ever use the element that's gathered below? switch (pResource->ResourceType) { case ResType_IRQ: *ppeList = (*pResource->pIRQList)[pResource->pos]; break; case ResType_DMA: *ppeList = (*pResource->pDMAList)[pResource->pos]; break; case ResType_IO: *ppeList = (*pResource->pIOList)[pResource->pos]; break; case ResType_Mem: *ppeList = (*pResource->pMEMList)[pResource->pos]; break; default: Assert(FALSE); break; } } //+--------------------------------------------------------------------------- // // Member: CHwRes::HrInitConfigList // // Purpose: Initialize m_ConfigList (the internal vector of // configurations.) // // Returns: S_OK - init successful; // HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) if no device configs // found; E_FAIL otherwise (invalid device, etc.) // // Author: t-nabilr 07 Apr 1997 // // Notes: "Lists" are actually implemented as STL vectors. // HRESULT CHwRes::HrInitConfigList() { HRESULT hr = S_OK; PCONFIGURATION pConfiguration; CONFIGRET ConfigRet; LOG_CONF lcCurrent, lcNext; UINT iBasicConfig; BOOL fFoundConfig = FALSE; Assert(NULL != m_DevNode); // erase all elements m_ConfigList.erase(m_ConfigList.begin(), m_ConfigList.end()); // Boot Configuration if (CM_Get_First_Log_Conf(&lcCurrent, m_DevNode, BOOT_LOG_CONF) == CR_SUCCESS) { TraceTag(ttidNetComm, "Boot config already exists"); hr = HRESULT_FROM_WIN32(ERROR_FILE_EXISTS); } if (SUCCEEDED(hr)) { // Basic Configurations (may be more than one) iBasicConfig = 0; ConfigRet = CM_Get_First_Log_Conf(&lcCurrent, m_DevNode, BASIC_LOG_CONF); #ifdef ENABLETRACE if (CR_SUCCESS != ConfigRet) { TraceTag(ttidNetComm, "CM_Get_First_Log_conf returned %lX", ConfigRet); } #endif // ENABLETRACE while (CR_SUCCESS == ConfigRet) { pConfiguration = new CONFIGURATION; if (pConfiguration == NULL) { TraceError("pConfiguration == NULL", E_FAIL); goto error; } pConfiguration->LogConf = lcCurrent; pConfiguration->fBoot = FALSE; pConfiguration->fAlloc = FALSE; if (!FInitResourceList(pConfiguration)) { hr = E_FAIL; TraceError("CHwRes::FInitResourceList",hr); goto error; } m_ConfigList.push_back(pConfiguration); // Move on to the next basic config iBasicConfig++; ConfigRet = CM_Get_Next_Log_Conf(&lcNext, lcCurrent, 0); lcCurrent = lcNext; fFoundConfig = TRUE; } if (!fFoundConfig) { TraceTag(ttidNetComm, "No basic configs"); // if no config entries found, return ERROR_FILE_NOT_FOUND. hr = HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND); } } error: // ERROR_FILE_NOT_FOUND is an okay error message. TraceError("CHwRes::HrInitConfigList", (HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) == hr || HRESULT_FROM_WIN32(ERROR_FILE_EXISTS) == hr ) ? S_OK : hr); return hr; } //+--------------------------------------------------------------------------- // // Member: CHwRes::FInitResourceList // // Purpose: Initializes the resource list for a given logical config. // // Arguments: // pConfiguration [in] configuration who's resource list is to // be initialized. // // Returns: TRUE if init sucessful; FALSE otherwise. // // Author: t-nabilr 07 Apr 1997 // // Notes: Requires pConfiguration->LogConf to be initialized. // BOOL CHwRes::FInitResourceList(PCONFIGURATION pConfiguration) { RES_DES rdCurrent; RES_DES rdNext; RESOURCEID ResType; UINT iResource; #define RESOURCE_BUFFER_SIZE 4096 BYTE Buffer[RESOURCE_BUFFER_SIZE]; ULONG ulDataSize; RESOURCE * pRes; CONFIGRET cr; Assert(pConfiguration->LogConf); rdCurrent = (RES_DES) pConfiguration->LogConf; iResource = 0; while ((cr = CM_Get_Next_Res_Des(&rdNext, rdCurrent, ResType_All, &ResType, 0)) == CR_SUCCESS) { rdCurrent = rdNext; // Only process this resource if the ignore bit is not set if (ResType_Ignored_Bit != ResType) { pRes = &(pConfiguration->aResource[iResource]); pRes->ResDes = rdCurrent; pRes->ResourceType = ResType; cr = CM_Get_Res_Des_Data_Size(&ulDataSize, rdCurrent, 0); if (CR_SUCCESS != cr) { TraceTag (ttidDefault, "CM_Get_Res_Des_Data_Size returned 0x%08x", cr); goto error; } AssertSz (ulDataSize, "CM_Get_Res_Des_Data_Size returned 0!"); AssertSz (ulDataSize <= sizeof(Buffer), "CHwRes::FInitResourceList: buffer is too small.");; cr = CM_Get_Res_Des_Data(rdCurrent, Buffer, sizeof(Buffer), 0); if (CR_SUCCESS != cr) { TraceTag (ttidDefault, "CM_Get_Res_Des_Data returned 0x%08x", cr); goto error; } // Depending on the ResType, we have to initialize our resource list. switch (ResType) { case ResType_Mem: InitMEMList(&(pRes->pMEMList), (PMEM_RESOURCE)Buffer); break; case ResType_IO: InitIOList(&(pRes->pIOList), (PIO_RESOURCE)Buffer); break; case ResType_DMA: InitDMAList(&(pRes->pDMAList), (PDMA_RESOURCE)Buffer); break; case ResType_IRQ: InitIRQList(&(pRes->pIRQList), (PIRQ_RESOURCE)Buffer); break; default: AssertSz (ResType_None != ResType, "ResType_None hit caught in CHwRes::FInitResourceList."); break; } // set the list position to the first element; // applied_pos will get copied to pos when dialog box is created. pRes->applied_pos = 0; iResource++; pConfiguration->cResource = iResource; if (iResource >= c_nMaxResCtls) { break; // we're done. } } } //while if ((CR_SUCCESS != cr) && (CR_NO_MORE_RES_DES != cr)) { TraceTag (ttidDefault, "CM_Get_Next_Res_Des returned 0x%08x", cr); goto error; } return TRUE; error: return FALSE; } //+--------------------------------------------------------------------------- // // Member: CHwRes::InitIRQList // // Purpose: Initialize an IRQ resource vector given a config manager // resource structure. // // Arguments: // ppIRQList [out] returns IRQ_LIST that will be created. // pIRQResource [in] IRQ_RESOURCE structure from config manager. // // Author: t-nabilr 07 Apr 1997 // // Notes: // VOID CHwRes::InitIRQList(PIRQ_LIST* ppIRQList, PIRQ_RESOURCE pIRQResource) { PIRQ_DES pIRQHeader; PIRQ_RANGE pIRQData; PIRQ_LIST_ELEMENT pIRQListElement; pIRQHeader = &(pIRQResource->IRQ_Header); pIRQData = &(pIRQResource->IRQ_Data[0]); // Create a new list. *ppIRQList = new IRQ_LIST; if (*ppIRQList == NULL) { return; } ULONG iData; ULONG iIRQ; for (iData = 0; iData < pIRQHeader->IRQD_Count; iData++) { for (iIRQ = pIRQData[iData].IRQR_Min; iIRQ <= pIRQData[iData].IRQR_Max; iIRQ++) { // For each IRQ that falls within the given range, // create new IRQ List Element, populate its fields and insert // it into the m_IRQList. pIRQListElement = new IRQ_LIST_ELEMENT; if (pIRQListElement == NULL) { continue; } pIRQListElement->dwIRQ = iIRQ; pIRQListElement->fConflict = FALSE; pIRQListElement->fAllocated = FALSE; (*ppIRQList)->push_back(pIRQListElement); } } } //+--------------------------------------------------------------------------- // // Member: CHwRes::InitDMAList // // Purpose: Initialize a DMA resource vector given a config manager // resource structure. // // Arguments: // ppDMAList [out] returns DMA_LIST that will be created. // pDMAResource [in] DMA_RESOURCE structure from config manager. // // Author: t-nabilr 07 Apr 1997 // // Notes: // VOID CHwRes::InitDMAList(PDMA_LIST* ppDMAList, PDMA_RESOURCE pDMAResource) { PDMA_DES pDMAHeader; PDMA_RANGE pDMAData; PDMA_LIST_ELEMENT peDMAList; pDMAHeader = &(pDMAResource->DMA_Header); pDMAData = &(pDMAResource->DMA_Data[0]); // Create a new list. *ppDMAList = new DMA_LIST; if (*ppDMAList == NULL) { return; } ULONG iData; // index of DMA_Range structure we're looking at. ULONG iDMA; // current DMA number we're adding to the list. // Go through all the DMA_Range structures, and all DMAs in the // specified range to the list. for (iData = 0; iData < pDMAHeader->DD_Count; iData++) { for (iDMA = pDMAData[iData].DR_Min; iDMA <= pDMAData[iData].DR_Max; iDMA++) { // For each DMA that falls within the given range, // create new DMA List Element, populate its fields and insert // it into the DMAList. peDMAList = new DMA_LIST_ELEMENT; if (peDMAList == NULL) { continue; } peDMAList->dwDMA = iDMA; peDMAList->fConflict = FALSE; peDMAList->fAllocated = FALSE; (*ppDMAList)->push_back(peDMAList); } } } //+--------------------------------------------------------------------------- // // Member: CHwRes::InitMEMList // // Purpose: Initialize a MEM resource vector given a config manager // resource structure. // // Arguments: // ppMEMList [out] returns MEM_LIST that will be created. // pMEMResource [in] MEM_RESOURCE structure from config manager. // // Author: t-nabilr 07 Apr 1997 // // Notes: // VOID CHwRes::InitMEMList(PMEM_LIST* ppMEMList, PMEM_RESOURCE pMEMResource) { PMEM_DES pMEMHeader; PMEM_RANGE pMEMData; PMEM_LIST_ELEMENT peMEMList; // For easy access pMEMHeader = &(pMEMResource->MEM_Header); pMEMData = pMEMResource->MEM_Data; // Create a new list. *ppMEMList = new MEM_LIST; if (*ppMEMList == NULL) { return; } ULONG iData; // index of MEM_Range structure we're looking at. DWORDLONG MEMBase; // current MEM Base we're adding to the list. ULONG cMEMBytes; // number of bytes required. DWORDLONG MEMAlign; // Go through all the MEM_Range structures, and all MEMs in the // specified range to the list. for (iData = 0; iData < pMEMHeader->MD_Count; iData++) { MEMAlign = pMEMData[iData].MR_Align; cMEMBytes = pMEMData[iData].MR_nBytes; // do sanity checks if (0 == MEMAlign) { TraceTag(ttidNetComm, "CHwRes::InitMEMList() - Bogus alignment " "field while processing info from Config Manager."); break; } if (0 == cMEMBytes) { TraceTag(ttidNetComm, "CHwRes::InitMEMList() - Bogus membytes " "field while processing info from Config Manager."); break; } for (MEMBase = pMEMData[iData].MR_Min; MEMBase+cMEMBytes-1 <= pMEMData[iData].MR_Max; MEMBase += ~MEMAlign + 1) { // For each MEM that falls within the given range, // create new MEM List Element, populate its fields and insert // it into the MEMList. peMEMList = new MEM_LIST_ELEMENT; if (peMEMList == NULL) { continue; } // // BUGBUG (forrestf) dwMEM_Base and dwMEM_End are 32-bit fields. // It appears that they contain physical memory addresses, which // should be 64-bit (even on 32-bit machines), no? // peMEMList->dwMEM_Base = (DWORD)MEMBase; peMEMList->dwMEM_End = (DWORD)(MEMBase + cMEMBytes - 1); peMEMList->fConflict = FALSE; peMEMList->fAllocated = FALSE; (*ppMEMList)->push_back(peMEMList); // Check for wrapping. if (MEMBase >= MEMBase + ~MEMAlign + 1) { TraceTag(ttidError, "Memory base is greater than Memory " "end!!!"); break; } } } } //+--------------------------------------------------------------------------- // // Member: CHwRes::InitIOList // // Purpose: Initialize an IO resource vector given a config manager // resource structure. // // Arguments: // ppIOList [out] returns IO_LIST that will be created. // pIOResource [in] IO_RESOURCE structure from config manager. // // Author: t-nabilr 07 Apr 1997 // // Notes: // VOID CHwRes::InitIOList(PIO_LIST* ppIOList, PIO_RESOURCE pIOResource) { PIO_DES pIOHeader; PIO_RANGE pIOData; PIO_LIST_ELEMENT peIOList; // For easy access pIOHeader = &(pIOResource->IO_Header); pIOData = pIOResource->IO_Data; // Create a new list. *ppIOList = new IO_LIST; if (*ppIOList == NULL) { return; } ULONG iData; // index of IO_Range structure we're looking at. DWORDLONG IOBase; // current IO Base we're adding to the list. ULONG cIOBytes; // number of bytes required. DWORDLONG IOAlign; // Go through all the IO_Range structures, and all IOs in the // specified range to the list. for (iData = 0; iData < pIOHeader->IOD_Count; iData++) { IOAlign = pIOData[iData].IOR_Align; cIOBytes = pIOData[iData].IOR_nPorts; // Perform sanity checks. if (0 == IOAlign) { TraceTag(ttidError, "CHwRes::InitIOList - Bogus alignment field " "while processing data from Config Manager."); break; } if (0 == cIOBytes) { TraceTag(ttidError, "CHwRes::InitIOList - Bogus IObytes field " "while processing data from Config Manager."); break; } for (IOBase = pIOData[iData].IOR_Min; IOBase+cIOBytes-1 <= pIOData[iData].IOR_Max; IOBase += ~IOAlign + 1) { // For each IO that falls within the given range, // create new IO List Element, populate its fields and insert // it into the IOList. peIOList = new IO_LIST_ELEMENT; if (peIOList == NULL) { continue; } peIOList->dwIO_Base = (DWORD)IOBase; peIOList->dwIO_End = (DWORD)(IOBase + cIOBytes-1); peIOList->fConflict = FALSE; peIOList->fAllocated = FALSE; (*ppIOList)->push_back(peIOList); // Check for wrapping. if (IOBase >= IOBase + ~IOAlign+1) { TraceTag(ttidError, "IO base is greater than IO end!!!"); break; } } } } //+--------------------------------------------------------------------------- // // Member: CHwRes::UseAnswerFile // // Purpose: Reads in settings from answerfile and puts them into m_vAf* // member variables. // // Arguments: // szAnswerFile [in] Path to answerfile. // szSection [in] Section to read within answerfile // // Author: t-nabilr 07 Apr 1997 // // Notes: // VOID CHwRes::UseAnswerFile(const WCHAR * const szAnswerFile, const WCHAR * const szSection) { CWInfFile AnswerFile; PCWInfSection pSection; DWORD dw; AssertSz(m_fInitialized, "UseAnswerFile called before CHwRes class HrInit'ed"); // initialize answer file class if (AnswerFile.Init() == FALSE) { AssertSz(FALSE,"CHwRes::UseAnswerFile - Failed to initialize CWInfFile"); return; } // Open the answerfile and find the desired section. AnswerFile.Open(szAnswerFile); pSection = AnswerFile.FindSection(szSection); // If the answer file section specified is missing // we should skip trying to read // if (pSection) { // Get the hardware resource keys if (pSection->GetIntValue(c_szAfIoAddr, &dw)) { // set this only if the value isn't obviously wrong (i.e. <= 0) if (dw > 0) { m_vAfIo.SetDword(dw); m_vAfIo.SetPresent(TRUE); } } if (pSection->GetIntValue(c_szAfIrq, &dw)) { // set this only if the value isn't obviously wrong (i.e. <= 0) if (dw > 0) { m_vAfIrq.SetDword(dw); m_vAfIrq.SetPresent(TRUE); } } if (pSection->GetIntValue(c_szAfDma, &dw)) { // set this only if the value isn't obviously wrong (i.e. <= 0) if (dw > 0) { m_vAfDma.SetDword(dw); m_vAfDma.SetPresent(TRUE); } } if (pSection->GetIntValue(c_szAfMem, &dw)) { // set this only if the value isn't obviously wrong (i.e. <= 0) if (dw > 0) { m_vAfMem.SetDword(dw); m_vAfMem.SetPresent(TRUE); } } } } //+--------------------------------------------------------------------------- // // Member: CHwRes::FValidateAnswerfileSettings // // Purpose: // Ensures that the hw resource settings read in from the answerfile // are valid. It will, optionally, raise UI if the properties // are invalid. // // Arguments: // fDisplayUI [in] TRUE, if an error UI is to be displayed if the // answerfile settings are invalid // // Returns: HRESULT. S_OK if the answerfile settings are valid, S_FALSE if there // are no resources to set, an error code otherwise // // Author: t-nabilr 07 Apr 1997 // // Notes: // Will set the m_vAfMemEnd and m_vAfIoEnd to correspond to // m_vAfMem and m_vAfIo. // HRESULT CHwRes::HrValidateAnswerfileSettings(BOOL fDisplayUI) { HRESULT hr = S_OK; AssertSz(m_fInitialized, "FValidateAnswerfileSettings called before " "CHwRes class HrInit'ed"); // override current resource settings if (!m_vAfDma.IsPresent() && !m_vAfIrq.IsPresent() && !m_vAfIo.IsPresent() && !m_vAfMem.IsPresent()) { // no resources found... TraceTag(ttidNetComm, "No Hardware Resources found in answerfile."); hr = S_FALSE; } else { if (!FValidateAnswerfileResources()) { hr = HRESULT_FROM_WIN32(ERROR_INVALID_PARAMETER); TraceError("Error setting adapter resources from " "answerfile.", hr); } else { // m_vAfMemEnd and m_vAfIoEnd were set by // FValidateAnswerfileResources() Assert(FImplies(m_vAfMem.IsPresent(), m_vAfMemEnd.IsPresent())); Assert(FImplies(m_vAfIo.IsPresent(), m_vAfIoEnd.IsPresent())); } } TraceError("CHwRes::HrValidateAnswerfileSettings", (S_FALSE == hr) ? S_OK : hr); return hr; } //+--------------------------------------------------------------------------- // // Member: CHwRes::FCommitAnswerfileSettings // // Purpose: // Commits (to the config manager) the hw resource settings read // in from the Answerfile. // // Returns: FALSE if there were problems writing the BootConfig entry. // // Author: t-nabilr 07 Apr 1997 // // Notes: // BOOL CHwRes::FCommitAnswerfileSettings() { AssertSz(m_fInitialized, "FCommitAnswerfileSettings called before " "CHwRes class HrInit'ed"); Assert(FImplies(m_vAfIo.IsPresent(), m_vAfIoEnd.IsPresent())); Assert(FImplies(m_vAfMem.IsPresent(), m_vAfMemEnd.IsPresent())); // write out forced config entry to the config manager BOOL f; f = FCreateBootConfig(&m_vAfMem, &m_vAfMemEnd, &m_vAfIo, &m_vAfIo, &m_vAfDma, &m_vAfIrq); return f; } //+--------------------------------------------------------------------------- // // Member: CHwRes::FValidateAnswerfileResources // // Purpose: Validates the resource requirements read in from Answerfile. // // Arguments: // nID [out] ID of thingy. // fInstall [in] TRUE if installing, FALSE otherwise. // ppv [in,out] Old value is freed and this returns new value. // // Returns: TRUE, if resource requirement are valid. // // Author: t-nabilr 07 Apr 1997 // // Notes: // Implementation note: We have a set of resource requirements from // the answerfile (stored in m_vAf*). This method iterates through // every logical config (execept alloc or boot ones) and tests to see // if the resource requirements are valid in the logical config. // If they are, then we can use the resource requirements. If they're // not all valid in any logical config, then we return FALSE. // BOOL CHwRes::FValidateAnswerfileResources() { DWORD dwMemEnd; DWORD dwIoEnd; BOOL fResourceValid; AssertSz(m_fInitialized, "FValidateAnswerfileResources called before " "CHwRes class HrInit'ed"); // Configuration List should be initialized Assert(0 != m_ConfigList.size()); PRESOURCE pResource; for (size_t iConfig = 0; iConfig < m_ConfigList.size(); iConfig++) { // we only want Basic configurations, so skip alloc or boot. if (m_ConfigList[iConfig]->fBoot || m_ConfigList[iConfig]->fAlloc) { continue; } fResourceValid = TRUE; if (m_vAfDma.IsPresent()) { if (!FValidateDMA(m_ConfigList[iConfig], m_vAfDma.GetDword())) { fResourceValid = FALSE; } } if (m_vAfIrq.IsPresent()) { if (!FValidateIRQ(m_ConfigList[iConfig], m_vAfIrq.GetDword())) { fResourceValid = FALSE; } } if (m_vAfIo.IsPresent()) { if (!FGetIOEndPortGivenBasePort(m_ConfigList[iConfig], m_vAfIo.GetDword(), &dwIoEnd)) { m_vAfIoEnd.SetPresent(FALSE); fResourceValid = FALSE; } else { m_vAfIoEnd.SetDword(dwIoEnd); m_vAfIoEnd.SetPresent(TRUE); } } if (m_vAfMem.IsPresent()) { if (!FGetMEMEndGivenBase(m_ConfigList[iConfig], m_vAfMem.GetDword(), &dwMemEnd)) { m_vAfMemEnd.SetPresent(FALSE); fResourceValid = FALSE; } else { m_vAfMemEnd.SetDword(dwMemEnd); m_vAfMemEnd.SetPresent(TRUE); } } if (fResourceValid) break; // found valid one. } // something has to be present (otherwise don't call this function!) Assert(m_vAfIo.IsPresent() || m_vAfIrq.IsPresent() || m_vAfDma.IsPresent() || m_vAfMem.IsPresent()); return fResourceValid; } //+--------------------------------------------------------------------------- // // Member: CHwRes::FCreateBootConfig // // Purpose: Create and insert a Boot Config entry into the Config // Manager. // // Arguments: // pvMem [in] Memory range base // pvMemEnd [in] Memory range end // pvIo [in] Io range base // pvIoEnd [in] Io range end // pvDma [in] Dma resource required. // pvIrq [in] Irq resource required. // // Returns: TRUE if creation of forced config was successful. // // Author: t-nabilr 07 Apr 1997 // // Notes: // BOOL CHwRes::FCreateBootConfig( CValue * pvMem, CValue * pvMemEnd, CValue * pvIo, CValue * pvIoEnd, CValue * pvDma, CValue * pvIrq) { DMA_RESOURCE DMARes; IO_RESOURCE IORes; MEM_RESOURCE MEMRes; IRQ_RESOURCE IRQRes; LOG_CONF lcLogConf = NULL; AssertSz(pvMem && pvMemEnd && pvIo && pvIoEnd && pvDma && pvIrq, "One of the pointer parameters passed to CHwRes::FCreate" "BootConfig() is null."); AssertSz(m_fInitialized, "FCreateBootConfig called before " "CHwRes class HrInit'ed"); TraceTag(ttidNetComm, "In FCreateBootConfig"); // Create a boot config // if (CM_Add_Empty_Log_Conf(&lcLogConf, m_DevNode, LCPRI_BOOTCONFIG, BOOT_LOG_CONF) != CR_SUCCESS) { TraceTag(ttidNetComm, "Unable to create BOOT_LOG_CONF"); return FALSE; } if (pvDma->IsPresent()) { Assert(pvDma->GetDword() > 0); // fill out DMAResource structure's header ZeroMemory(&DMARes, sizeof(DMARes)); DMARes.DMA_Header.DD_Count = 0; DMARes.DMA_Header.DD_Type = DType_Range; DMARes.DMA_Header.DD_Flags = 0; DMARes.DMA_Header.DD_Alloc_Chan = pvDma->GetDword(); // add to boot conf CM_Add_Res_Des(NULL, lcLogConf, ResType_DMA, &DMARes, sizeof(DMARes), 0); TraceTag(ttidNetComm, "added Dma resource %lX", pvDma->GetDword()); } if (pvIrq->IsPresent()) { Assert(pvIrq->GetDword() > 0); // IRQResource structure ZeroMemory(&IRQRes, sizeof(IRQRes)); IRQRes.IRQ_Header.IRQD_Count = 0; IRQRes.IRQ_Header.IRQD_Type = IRQType_Range; IRQRes.IRQ_Header.IRQD_Flags |= fIRQD_Edge; IRQRes.IRQ_Header.IRQD_Alloc_Num = pvIrq->GetDword(); IRQRes.IRQ_Header.IRQD_Affinity = 0; // add to boot conf CM_Add_Res_Des(NULL, lcLogConf, ResType_IRQ, &IRQRes, sizeof(IRQRes), 0); TraceTag(ttidNetComm, "added IRQ resource %lX", pvIrq->GetDword()); } if (pvIo->IsPresent()) { Assert(pvIo->GetDword() > 0); Assert(pvIoEnd->GetDword() > 0); ZeroMemory(&IORes, sizeof(IORes)); IORes.IO_Header.IOD_Count = 0; IORes.IO_Header.IOD_Type = IOType_Range; IORes.IO_Header.IOD_Alloc_Base = pvIo->GetDword(); IORes.IO_Header.IOD_Alloc_End = pvIoEnd->GetDword(); IORes.IO_Header.IOD_DesFlags = fIOD_10_BIT_DECODE; // add to boot conf CM_Add_Res_Des(NULL, lcLogConf, ResType_IO, &IORes, sizeof(IORes), 0); TraceTag(ttidNetComm, "added IO resource %lX-%lX", pvIo->GetDword(), pvIoEnd->GetDword()); } if (pvMem->IsPresent()) { Assert(pvMem->GetDword() > 0); Assert(pvMemEnd->GetDword() > 0); ZeroMemory(&MEMRes, sizeof(MEMRes)); MEMRes.MEM_Header.MD_Count = 0; MEMRes.MEM_Header.MD_Type = MType_Range; MEMRes.MEM_Header.MD_Alloc_Base = pvMem->GetDword(); MEMRes.MEM_Header.MD_Alloc_End = pvMemEnd->GetDword(); MEMRes.MEM_Header.MD_Flags = 0; // add to boot conf CM_Add_Res_Des(NULL, lcLogConf, ResType_Mem, &MEMRes, sizeof(MEMRes), 0); TraceTag(ttidNetComm, "added Memory resource %lX - %lX", pvMem->GetDword(), pvMemEnd->GetDword()); } CM_Free_Log_Conf_Handle(lcLogConf); return TRUE; } //+--------------------------------------------------------------------------- // // Member: CHwRes::FValidateIRQ // // Purpose: Validates that the IRQ given is valid in the given config. // // Arguments: // pConfig [in] Config to use. // dwIRQ [in] irq setting to validate. // // Returns: TRUE if irq setting is valid. // // Author: t-nabilr 07 Apr 1997 // // Notes: // BOOL CHwRes::FValidateIRQ(PCONFIGURATION pConfig, ULONG dwIRQ) { PIRQ_LIST pIRQList; AssertSz(m_fInitialized, "FValidateIRQ called before " "CHwRes class HrInit'ed"); Assert(pConfig != NULL); Assert(dwIRQ > 0); // For each IRQ resource in the given config // go through list of valid IRQ looking for given one // if found, return TRUE for (size_t iRes = 0; iRes < pConfig->cResource; iRes++) { if (pConfig->aResource[iRes].ResourceType != ResType_IRQ) continue; pIRQList = pConfig->aResource[iRes].pIRQList; // for easy access for (size_t iIRQ = 0; iIRQ < pIRQList->size(); iIRQ++) { if ((*pIRQList)[iIRQ]->dwIRQ == dwIRQ) { return TRUE; // found it. } } } TraceTag(ttidNetComm, "IRQ %lX is not valid for this device", dwIRQ); return FALSE; } //+--------------------------------------------------------------------------- // // Member: CHwRes::FValidateDMA // // Purpose: Validate that given DMA is valid in given config. // // Arguments: // pConfig [in] configuration to use // dwDMA [in] dma setting to validate // // Returns: TRUE if dma setting is valid // // Author: t-nabilr 07 Apr 1997 // // Notes: // BOOL CHwRes::FValidateDMA(PCONFIGURATION pConfig, ULONG dwDMA) { PDMA_LIST pDMAList; AssertSz(m_fInitialized, "FValidateDMA called before " "CHwRes class HrInit'ed"); Assert(pConfig != NULL); Assert(dwDMA > 0); // For each dma resource in the given config // go through list of valid dma looking for given one // if found, return TRUE for (size_t iRes = 0; iRes < pConfig->cResource; iRes++) { if (pConfig->aResource[iRes].ResourceType != ResType_DMA) continue; pDMAList = pConfig->aResource[iRes].pDMAList; // for easy access for (size_t iDMA = 0; iDMA < pDMAList->size(); iDMA++) { if ((*pDMAList)[iDMA]->dwDMA == dwDMA) { return TRUE; } } } TraceTag(ttidNetComm, "DMA %lX is not valid for this device", dwDMA); return FALSE; } //+--------------------------------------------------------------------------- // // Member: CHwRes::FGetIOEndPortGivenBasePort // // Purpose: Get an IO Range given only the BasePort // // Arguments: // pConfig [in] configuration to use. // dwBase [in] Io base // pdwEnd [out] Io end is returned // // Returns: TRUE if Io base is valid in given config. // // Author: t-nabilr 07 Apr 1997 // // Notes: // BOOL CHwRes::FGetIOEndPortGivenBasePort(PCONFIGURATION pConfig, DWORD dwBase, DWORD * pdwEnd) { PIO_LIST pIOList; AssertSz(m_fInitialized, "FGetIOEndPortGivenBasePort called before " "CHwRes class HrInit'ed"); Assert(pConfig != NULL); Assert(dwBase > 0); // For each resource in the given configuration // if it's an IO Resource // Go through the list of valid IO resources looking for // a matching base port // if found, then set the corresponding end port, return TRUE; for (size_t iRes = 0; iRes < pConfig->cResource; iRes++) { // ensure we're looking at an IO type if (pConfig->aResource[iRes].ResourceType != ResType_IO) continue; pIOList = pConfig->aResource[iRes].pIOList; // for easy access // go through all IO Elements in this list for (size_t iIO = 0; iIO < pIOList->size(); iIO++) { if ((*pIOList)[iIO]->dwIO_Base == dwBase) { // found matching IO base port *pdwEnd = (*pIOList)[iIO]->dwIO_End; return TRUE; } } } TraceTag(ttidNetComm, "IO %lX is not valid for this device", dwBase); return FALSE; // not found } //+--------------------------------------------------------------------------- // // Member: CHwRes::FGetMEMEndGivenBase // // Purpose: Get a MEM range given the Mem base and config. // // Arguments: // pConfig [in] configuration to use // dwBase [in] mem base // pdwEnd [out] mem end is returned. // // Returns: TRUE if the dwBase is a valid mem setting. // // Author: t-nabilr 07 Apr 1997 // // Notes: // BOOL CHwRes::FGetMEMEndGivenBase(PCONFIGURATION pConfig, DWORD dwBase, DWORD * pdwEnd) { PMEM_LIST pMEMList; AssertSz(m_fInitialized, "FGetMEMEndGivenBase called before " "CHwRes class HrInit'ed"); Assert(pConfig != NULL); Assert(dwBase > 0); // For each resource in the given configuration // if it's an MEM Resource // Go through the list of valid MEM resources looking for // a matching base port // if found, then set the corresponding end port,return TRUE; for (size_t iRes = 0; iRes < pConfig->cResource; iRes++) { // ensure we're looking at an MEM type if (pConfig->aResource[iRes].ResourceType != ResType_Mem) continue; pMEMList = pConfig->aResource[iRes].pMEMList; // for easy access // go through all MEM Elements in this list for (size_t iMEM = 0; iMEM < pMEMList->size(); iMEM++) { if ((*pMEMList)[iMEM]->dwMEM_Base == dwBase) { // found matching MEM base addr *pdwEnd = (*pMEMList)[iMEM]->dwMEM_End; return TRUE; } } } TraceTag(ttidNetComm, "Memory %lX is not valid for this device", dwBase); return FALSE; // not found } //$REVIEW (t-pkoch) this function isn't yet in our custom STL... // it can be removed later (when it causes errors) template void os_release(vector & v) { for(vector::iterator iterDelete = v.begin() ; iterDelete != v.end() ; ++iterDelete) delete *iterDelete; } CHwRes::~CHwRes() { AssertSz(m_fHrInitCalled, "CHwRes destructor called before " "CHwRes::HrInit() called"); vector::iterator ppConfig; RESOURCE * pRes; // Delete everything from m_ConfigList. for (ppConfig = m_ConfigList.begin(); ppConfig != m_ConfigList.end(); ppConfig++) { for (size_t iRes = 0; iRes < (*ppConfig)->cResource; iRes++) { pRes = &((*ppConfig)->aResource[iRes]); switch(pRes->ResourceType) { case ResType_IRQ: os_release(*(pRes->pIRQList)); delete pRes->pIRQList; break; case ResType_DMA: os_release(*(pRes->pDMAList)); delete pRes->pDMAList; break; case ResType_IO: os_release(*(pRes->pIOList)); delete pRes->pIOList; break; case ResType_Mem: os_release(*(pRes->pMEMList)); delete pRes->pMEMList; break; } } delete *ppConfig; } ReleaseObj(m_pnccItem); }