/*++ Copyright (c) 2000 Microsoft Corporation Module Name: ipi.c Abstract: This module implements AMD64 specific interprocessor interrupt routines. Author: David N. Cutler (davec) 24-Aug-2000 Environment: Kernel mode only. --*/ #include "ki.h" VOID KiRestoreProcessorState ( IN PKTRAP_FRAME TrapFrame, IN PKEXCEPTION_FRAME ExceptionFrame ) /*++ Routine Description: This function restores the processor state to the specified exception and trap frames, and restores the processor control state. Arguments: TrapFrame - Supplies a pointer to a trap frame. ExceptionFrame - Supplies a pointer to an exception frame. Return Value: None. --*/ { PKPRCB Prcb; // // Get the address of the current processor block, move the specified // register state from the processor context structure to the specified // trap and exception frames, and restore the processor control state. // #if !defined(NT_UP) Prcb = KeGetCurrentPrcb(); KeContextToKframes(TrapFrame, ExceptionFrame, &Prcb->ProcessorState.ContextFrame, CONTEXT_FULL, KernelMode); KiRestoreProcessorControlState(&Prcb->ProcessorState); #endif return; } VOID KiSaveProcessorState ( IN PKTRAP_FRAME TrapFrame, IN PKEXCEPTION_FRAME ExceptionFrame ) /*++ Routine Description: This function saves the processor state from the specified exception and trap frames, and saves the processor control state. Arguments: TrapFrame - Supplies a pointer to a trap frame. ExceptionFrame - Supplies a pointer to an exception frame. Return Value: None. --*/ { PKPRCB Prcb; // // Get the address of the current processor block, move the specified // register state from specified trap and exception frames to the current // processor context structure, and save the processor control state. // #if !defined(NT_UP) Prcb = KeGetCurrentPrcb(); Prcb->ProcessorState.ContextFrame.ContextFlags = CONTEXT_FULL; KeContextFromKframes(TrapFrame, ExceptionFrame, &Prcb->ProcessorState.ContextFrame); KiSaveProcessorControlState(&Prcb->ProcessorState); #endif return; } BOOLEAN KiIpiServiceRoutine ( IN PKTRAP_FRAME TrapFrame, IN PKEXCEPTION_FRAME ExceptionFrame ) /*++ Routine Description: This function is called at IPI_LEVEL to process outstanding interprocess requests for the current processor. Arguments: TrapFrame - Supplies a pointer to a trap frame. ExceptionFrame - Supplies a pointer to an exception frame Return Value: A value of TRUE is returned, if one of more requests were service. Otherwise, FALSE is returned. --*/ { ULONG RequestMask; // // Process any outstanding interprocessor requests. // #if !defined(NT_UP) RequestMask = KiIpiProcessRequests(); // // If freeze is requested, then freeze target execution. // if ((RequestMask & IPI_FREEZE) != 0) { KiFreezeTargetExecution(TrapFrame, ExceptionFrame); } // // Return whether any requests were processed. // return (RequestMask & ~IPI_FREEZE) != 0; #else return TRUE; #endif } ULONG KiIpiProcessRequests ( VOID ) /*++ Routine Description: This routine processes interprocessor requests and returns a summary of the requests that were processed. N.B. This routine does not process freeze execution requests. It is the responsibilty of the caller to determine that a freeze execution request is outstanding and process it accordingly. Arguments: None. Return Value: The request summary is returned as the function value. --*/ { PKPRCB CurrentPrcb; ULONG RequestMask; PVOID RequestPacket; ULONG64 RequestSummary; PKPRCB RequestSource; #if !defined(NT_UP) // // Get the current request summary value. // CurrentPrcb = KeGetCurrentPrcb(); RequestSummary = InterlockedExchange64(&CurrentPrcb->RequestSummary, 0); RequestMask = (ULONG)(RequestSummary & ((1 << IPI_PACKET_SHIFT) - 1)); RequestPacket = (PVOID)(RequestSummary >> IPI_PACKET_SHIFT); // // If a packet request is ready, then process the packet request. // if (RequestPacket != NULL) { RequestSource = (PKPRCB)((ULONG64)RequestPacket & ~1); (RequestSource->WorkerRoutine)((PKIPI_CONTEXT)RequestPacket, RequestSource->CurrentPacket[0], RequestSource->CurrentPacket[1], RequestSource->CurrentPacket[2]); } // // If an APC interrupt is requested, then request a software interrupt // at APC level on the current processor. // if ((RequestMask & IPI_APC) != 0) { KiRequestSoftwareInterrupt(APC_LEVEL); } // // If a DPC interrupt is requested, then request a software interrupt // at DPC level on the current processor. // if ((RequestMask & IPI_DPC) != 0) { KiRequestSoftwareInterrupt(DISPATCH_LEVEL); } return RequestMask; #else return 0; #endif } VOID KiIpiSend ( IN KAFFINITY TargetSet, IN KIPI_REQUEST Request ) /*++ Routine Description: This function requests the specified operation on the targt set of processors. N.B. This function MUST be called from a non-context switchable state. Arguments: TargetSet - Supplies the target set of processors on which the specified operation is to be executed. Request - Supplies the request operation flags. Return Value: None. --*/ { PKPRCB *NextPrcb; KAFFINITY SummarySet; ASSERT(KeGetCurrentIrql() >= DISPATCH_LEVEL); // // Loop through the target set of processors and merge the request into // the request summary of the target processors. // #if !defined(NT_UP) SummarySet = TargetSet; NextPrcb = &KiProcessorBlock[0]; do { if ((SummarySet & 1) != 0) { InterlockedOr64(&(*NextPrcb)->RequestSummary, Request); } NextPrcb += 1; } while ((SummarySet >>= 1) != 0); // // Request interprocessor interrupts on the target set of processors. // HalRequestIpi(TargetSet); #endif return; } VOID KiIpiSendPacket ( IN KAFFINITY TargetSet, IN PKIPI_WORKER WorkerFunction, IN PVOID Parameter1, IN PVOID Parameter2, IN PVOID Parameter3 ) /*++ Routine Description: This routine executes the specified worker function on the specified set of processors. N.B. This function MUST be called from a non-context switchable state. Arguments: TargetProcessors - Supplies the set of processors on which the specfied operation is to be executed. WorkerFunction - Supplies the address of the worker function. Parameter1 - Parameter3 - Supplies worker function specific paramters. Return Value: None. --*/ { PKPRCB CurrentPrcb; PKPRCB *NextPrcb; LONG64 RequestSummary; KAFFINITY SummarySet; PKPRCB TargetPrcb; ASSERT(KeGetCurrentIrql() >= DISPATCH_LEVEL); // // Initialize the worker packet information. // #if !defined(NT_UP) CurrentPrcb = KeGetCurrentPrcb(); CurrentPrcb->CurrentPacket[0] = Parameter1; CurrentPrcb->CurrentPacket[1] = Parameter2; CurrentPrcb->CurrentPacket[2] = Parameter3; CurrentPrcb->TargetSet = TargetSet; CurrentPrcb->WorkerRoutine = WorkerFunction; // // If the target set contains one and only one processor, then use the // target set for signal done synchronization. Otherwise, use packet // barrier for signal done synchronization. // if ((TargetSet & (TargetSet - 1)) == 0) { CurrentPrcb = (PKPRCB)((ULONG64)CurrentPrcb | 1); } else { CurrentPrcb->PacketBarrier = 1; } // // Loop through the target set of processors and merge the request into // the request summary of the target processors. // SummarySet = TargetSet; NextPrcb = &KiProcessorBlock[0]; do { if ((SummarySet & 1) != 0) { TargetPrcb = *NextPrcb; do { do { RequestSummary = TargetPrcb->RequestSummary; } while ((RequestSummary >> IPI_PACKET_SHIFT) != 0); } while (InterlockedCompareExchange64(&TargetPrcb->RequestSummary, RequestSummary | ((ULONG64)CurrentPrcb << IPI_PACKET_SHIFT), RequestSummary) != RequestSummary); } NextPrcb += 1; } while ((SummarySet >>= 1) != 0); // // Request interprocessor interrupts on the target set of processors. // HalRequestIpi(TargetSet); #endif return; } VOID KiIpiSignalPacketDone ( IN PKIPI_CONTEXT SignalDone ) /*++ Routine Description: This routine signals that a processor has completed a packet by clearing the calling processor's set member of the requesting processor's packet. Arguments: SignalDone - Supplies a pointer to the processor block of the sending processor. Return Value: None. --*/ { PKPRCB TargetPrcb; KAFFINITY TargetSet; // // If the low bit of signal is set, then use target set to notify the // sender that the operation is complete on the current processor. // Otherwise, use packet barrier to notify the sender that the operation // is complete on the current processor. // #if !defined(NT_UP) if (((ULONG64)SignalDone & 1) == 0) { TargetPrcb = (PKPRCB)SignalDone; TargetSet = InterlockedXor64((PLONG64)&TargetPrcb->TargetSet, TargetPrcb->SetMember); // // If no more bits are set in the target set, then clear packet // barrier. // if ((TargetPrcb->TargetSet ^ TargetSet) == 0) { TargetPrcb->PacketBarrier = 0; } } else { TargetPrcb = (PKPRCB)((ULONG64)SignalDone - 1); TargetPrcb->TargetSet = 0; } #endif return; }