/*********** //joejoe Joelinn 2-13-95 This is the pits......i have to pull in the browser in order to be started form the lanman network provider DLL. the browser should be moved elsewhere........ **********************/ /*++ Copyright (c) 1993 Microsoft Corporation Module Name: disccode.c Abstract: This module contains the code to manage the NT redirectors discardable code sections. Author: Larry Osterman (larryo) 12-Nov-1993 Environment: Kernel mode. Revision History: 12-Nov-1993 Created --*/ // // Include modules // #include "precomp.h" #pragma hdrstop #include // // The Bug check file id for this module // #define BugCheckFileId (RDBSS_BUG_CHECK_NTBOWSIF) // // The local debug trace level // #define Dbg (DEBUG_TRACE_DISCCODE) BOOLEAN DiscCodeInitialized = FALSE; VOID RdrDiscardableCodeRoutine( IN PVOID Context ); #ifdef ALLOC_PRAGMA #pragma alloc_text(PAGE, RdrReferenceDiscardableCode) #pragma alloc_text(PAGE, RdrDereferenceDiscardableCode) #pragma alloc_text(PAGE, RdrDiscardableCodeRoutine) #pragma alloc_text(INIT, RdrInitializeDiscardableCode) #pragma alloc_text(PAGE, RdrUninitializeDiscardableCode) #endif // // These 7 variables maintain the state needed to manage the redirector // discardable code section. // // The redirector discardable code section is referenced via a call to // RdrReferenceDiscardableCodeSection, and dereferenced via a call to // RdrDereferenceDiscardableCodeSection. // // If the discardable code section is already mapped into memory, then // referencing the discardable code section is extremely quick. // // When the reference count on the discardable code section drops to 0, a // timer is set that will actually perform the work needed to uninitalize the // section. This means that if the reference count goes from 0 to 1 to 0 // frequently, we won't thrash inside MmLockPagableCodeSection. // #define POOL_DISCTIMER 'wbxR' ERESOURCE RdrDiscardableCodeLock = {0}; ULONG RdrDiscardableCodeTimeout = 10; RDR_SECTION RdrSectionInfo[RdrMaxDiscardableSection] = {0}; extern PVOID BowserAllocateViewBuffer(VOID); extern VOID BowserNetlogonCopyMessage(int,int); VOID RdrReferenceDiscardableCode( DISCARDABLE_SECTION_NAME SectionName ) /*++ Routine Description: RdrReferenceDiscardableCode is called to reference the redirectors discardable code section. If the section is not present in memory, MmLockPagableCodeSection is called to fault the section into memory. Arguments: None. Return Value: None. --*/ { #if DBG PVOID caller, callersCaller; #endif PRDR_SECTION Section = &RdrSectionInfo[SectionName]; PAGED_CODE(); ExAcquireResourceExclusive(&RdrDiscardableCodeLock, TRUE); ASSERT( DiscCodeInitialized ); #if DBG RtlGetCallersAddress(&caller, &callersCaller); //dprintf(DPRT_DISCCODE, (" RdrReferenceDiscardableCode: %ld: Caller: %lx, Callers Caller: %lx\n", SectionName, caller, callersCaller)); RxDbgTrace(0, Dbg, (" RdrReferenceDiscardableCode: %ld: Caller: %lx, Callers Caller: %lx\n", SectionName, caller, callersCaller )); #endif // // If the reference count is already non zero, just increment it and // return. // if (Section->ReferenceCount) { Section->ReferenceCount += 1; //dprintf(DPRT_DISCCODE, (" RdrReferenceDiscardableCode: %d: Early out, Refcount now %ld\n", SectionName, Section->ReferenceCount)); RxDbgTrace(0, Dbg, (" RdrReferenceDiscardableCode: %d: Early out, Refcount now %ld\n", SectionName, Section->ReferenceCount )); // // Wait for the pages to be faulted in. // ExReleaseResource(&RdrDiscardableCodeLock); return; } Section->ReferenceCount += 1; // // Cancel the timer, if it is running, we won't be discarding the code // at this time. // // If the cancel timer fails, this is not a problem, since we will be // bumping a reference count in the MmLockPagableCodeSection, so when // the timer actually runs and the call to MmUnlockPagableImageSection // is called, we will simply unlock it. // if (Section->Timer != NULL) { Section->TimerCancelled = TRUE; if (KeCancelTimer(Section->Timer)) { // // Free the timer and DPC, they aren't going to fire anymore. // RxFreePool(Section->Timer); Section->Timer = NULL; // // Set the active event to the signalled state, since we're // done canceling the timer. // KeSetEvent(&Section->TimerDoneEvent, 0, FALSE); } else { // // The timer was active, and we weren't able to cancel it. // But we marked it for cancellation, and the timer routine // will recognize this and leave the section locked. // } } // // If the discardable code section is still locked, then we're done, // and we can return right away. // if (Section->Locked) { //dprintf(DPRT_DISCCODE, (" RdrReferenceDiscardableCode: %d: Already locked, Refcount now %ld\n", SectionName, Section->ReferenceCount)); RxDbgTrace(0, Dbg, (" RdrReferenceDiscardableCode: %d: Already locked, Refcount now %ld\n", SectionName, Section->ReferenceCount )); ExReleaseResource(&RdrDiscardableCodeLock); return; } ASSERT (Section->CodeHandle == NULL); ASSERT (Section->DataHandle == NULL); // // Lock down the pagable image section. // //dprintf(DPRT_DISCCODE, (" RdrReferenceDiscardableCode: %d: Lock, Refcount now %ld\n", SectionName, Section->ReferenceCount)); RxDbgTrace(0, Dbg, (" RdrReferenceDiscardableCode: %d: Lock, Refcount now %ld\n", SectionName, Section->ReferenceCount )); if (Section->CodeBase != NULL) { Section->CodeHandle = MmLockPagableCodeSection(Section->CodeBase); ASSERT (Section->CodeHandle != NULL); } if (Section->DataBase != NULL) { Section->DataHandle = MmLockPagableDataSection(Section->DataBase); ASSERT (Section->DataHandle != NULL); } Section->Locked = TRUE; ExReleaseResource(&RdrDiscardableCodeLock); } VOID RdrDiscardableCodeDpcRoutine( IN PKDPC Dpc, IN PVOID Context, IN PVOID SystemArgument1, IN PVOID SystemArgument2 ) /*++ Routine Description: This routine is called when the timeout expires. It is called at Dpc level to queue a WorkItem to a system worker thread. Arguments: IN PKDPC Dpc, IN PVOID Context, IN PVOID SystemArgument1, IN PVOID SystemArgument2 Return Value None. --*/ { PWORK_QUEUE_ITEM discardableWorkItem = Context; ExQueueWorkItem(discardableWorkItem, CriticalWorkQueue); UNREFERENCED_PARAMETER(Dpc); UNREFERENCED_PARAMETER(SystemArgument1); UNREFERENCED_PARAMETER(SystemArgument2); } VOID RdrDiscardableCodeRoutine( IN PVOID Context ) /*++ Routine Description: RdrDiscardableCodeRoutine is called at task time after the redirector discardable code timer has fired to actually perform the unlock on the discardable code section. Arguments: Context - Ignored. Return Value: None. --*/ { PRDR_SECTION Section = Context; PAGED_CODE(); ExAcquireResourceExclusive(&RdrDiscardableCodeLock, TRUE); if (Section->TimerCancelled) { // // The timer was cancelled after it was scheduled to run. // Don't unlock the section. // } else if (Section->Locked) { // // The timer was not cancelled. Unlock the section. // Section->Locked = FALSE; ASSERT (Section->CodeHandle != NULL || Section->DataHandle != NULL); //dprintf(DPRT_DISCCODE, ("RDR: Unlock %x\n", Section)); RxDbgTrace(0,Dbg,("RDR: Unlock %x\n", Section)); if (Section->CodeHandle != NULL) { MmUnlockPagableImageSection(Section->CodeHandle); Section->CodeHandle = NULL; } if (Section->DataHandle != NULL) { MmUnlockPagableImageSection(Section->DataHandle); Section->DataHandle = NULL; } } // // Free the timer and DPC, they aren't going to fire anymore. // RxFreePool(Section->Timer); Section->Timer = NULL; ExReleaseResource(&RdrDiscardableCodeLock); KeSetEvent(&Section->TimerDoneEvent, 0, FALSE); } VOID RdrDereferenceDiscardableCode( DISCARDABLE_SECTION_NAME SectionName ) /*++ Routine Description: RdrDereferenceDiscardableCode is called to dereference the redirectors discardable code section. When the reference count drops to 0, a timer is set that will fire in seconds, after which time the section will be unlocked. Arguments: None. Return Value: None. --*/ { #if DBG PVOID caller, callersCaller; #endif PRDR_SECTION Section = &RdrSectionInfo[SectionName]; LARGE_INTEGER discardableCodeTimeout; PKTIMER Timer; PKDPC Dpc; PWORK_QUEUE_ITEM WorkItem; PAGED_CODE(); ExAcquireResourceExclusive(&RdrDiscardableCodeLock, TRUE); ASSERT( DiscCodeInitialized ); #if DBG RtlGetCallersAddress(&caller, &callersCaller); //dprintf(DPRT_DISCCODE, ("RdrDereferenceDiscardableCode: %ld: Caller: %lx, Callers Caller: %lx\n", SectionName, caller, callersCaller)); RxDbgTrace(0, Dbg,("RdrDereferenceDiscardableCode: %ld: Caller: %lx, Callers Caller: %lx\n", SectionName, caller, callersCaller )); #endif ASSERT (Section->ReferenceCount > 0); // // If the reference count is above 1, just decrement it and // return. // Section->ReferenceCount -= 1; if (Section->ReferenceCount) { //dprintf(DPRT_DISCCODE, ("RdrDereferenceDiscardableCode: %d: Early out, Refcount now %ld\n", SectionName, Section->ReferenceCount)); RxDbgTrace(0, Dbg, ("RdrDereferenceDiscardableCode: %d: Early out, Refcount now %ld\n", SectionName, Section->ReferenceCount )); ExReleaseResource(&RdrDiscardableCodeLock); return; } // // If the discardable code timer is still active (which might happen if // the RdrReferenceDiscardableCode failed to cancel the timer), we just // want to bail out and let the timer do the work. It means that we // discard the code sooner, but that shouldn't be that big a deal. // if (Section->Timer != NULL) { ExReleaseResource(&RdrDiscardableCodeLock); return; } // // The reference count just went to 0, set a timer to fire in // RdrDiscardableCodeTimeout seconds. When the timer fires, // we queue a request to a worker thread and it will lock down // the pagable code. // ASSERT (Section->Timer == NULL); Timer = RxAllocatePoolWithTag(NonPagedPool, sizeof(KTIMER) + sizeof(KDPC) + sizeof(WORK_QUEUE_ITEM), POOL_DISCTIMER ); if (Timer == NULL) { ExReleaseResource(&RdrDiscardableCodeLock); return; } Section->Timer = Timer; KeInitializeTimer(Timer); Dpc = (PKDPC)(Timer + 1); WorkItem = (PWORK_QUEUE_ITEM)(Dpc + 1); KeClearEvent(&Section->TimerDoneEvent); Section->TimerCancelled = FALSE; ExInitializeWorkItem(WorkItem, RdrDiscardableCodeRoutine, Section); KeInitializeDpc(Dpc, RdrDiscardableCodeDpcRoutine, WorkItem); discardableCodeTimeout.QuadPart = Int32x32To64(RdrDiscardableCodeTimeout, 1000 * -10000); KeSetTimer(Timer, discardableCodeTimeout, Dpc); //dprintf(DPRT_DISCCODE, ("RdrDereferenceDiscardableCode: %d: Set timer, Refcount now %ld\n", SectionName, Section->ReferenceCount)); RxDbgTrace(0, Dbg, ("RdrDereferenceDiscardableCode: %d: Set timer, Refcount now %ld\n", SectionName, Section->ReferenceCount )); ExReleaseResource(&RdrDiscardableCodeLock); } VOID RdrInitializeDiscardableCode( VOID ) { DISCARDABLE_SECTION_NAME SectionName; PRDR_SECTION Section; for (SectionName = 0, Section = &RdrSectionInfo[0]; SectionName < RdrMaxDiscardableSection; SectionName += 1, Section++ ) { KeInitializeEvent(&Section->TimerDoneEvent, NotificationEvent, TRUE); } RdrSectionInfo[RdrFileDiscardableSection].CodeBase = NULL; //RdrBackOff; RdrSectionInfo[RdrFileDiscardableSection].DataBase = NULL; RdrSectionInfo[RdrVCDiscardableSection].CodeBase = NULL; //RdrTdiDisconnectHandler; RdrSectionInfo[RdrVCDiscardableSection].DataBase = NULL; //RdrSmbErrorMap; RdrSectionInfo[RdrConnectionDiscardableSection].CodeBase = NULL; //RdrReferenceServer; RdrSectionInfo[RdrConnectionDiscardableSection].DataBase = NULL; RdrSectionInfo[BowserDiscardableCodeSection].CodeBase = BowserAllocateViewBuffer; RdrSectionInfo[BowserDiscardableCodeSection].DataBase = NULL; RdrSectionInfo[BowserNetlogonDiscardableCodeSection].CodeBase = BowserNetlogonCopyMessage; RdrSectionInfo[BowserNetlogonDiscardableCodeSection].DataBase = NULL; ExInitializeResource(&RdrDiscardableCodeLock); DiscCodeInitialized = TRUE; } VOID RdrUninitializeDiscardableCode( VOID ) { DISCARDABLE_SECTION_NAME SectionName; PRDR_SECTION Section; PAGED_CODE(); ExAcquireResourceExclusive(&RdrDiscardableCodeLock, TRUE); DiscCodeInitialized = FALSE; for (SectionName = 0, Section = &RdrSectionInfo[0]; SectionName < RdrMaxDiscardableSection; SectionName += 1, Section++ ) { // // Cancel the timer if it is running. // if (Section->Timer != NULL) { if (!KeCancelTimer(Section->Timer)) { // // The timer was active, and we weren't able to cancel it, // wait until the timer finishes firing. // ExReleaseResource(&RdrDiscardableCodeLock); KeWaitForSingleObject(&Section->TimerDoneEvent, KernelMode, Executive, FALSE, NULL); ExAcquireResourceExclusive(&RdrDiscardableCodeLock, TRUE); } else { RxFreePool(Section->Timer); Section->Timer = NULL; } } if (Section->Locked) { // // Unlock the section. // Section->Locked = FALSE; ASSERT (Section->CodeHandle != NULL || Section->DataHandle != NULL); //dprintf(DPRT_DISCCODE, ("RDR: Uninitialize unlock %x\n", Section)); RxDbgTrace(0,Dbg,("RDR: Uninitialize unlock %x\n", Section)); if (Section->CodeHandle != NULL) { MmUnlockPagableImageSection(Section->CodeHandle); Section->CodeHandle = NULL; } if (Section->DataHandle != NULL) { MmUnlockPagableImageSection(Section->DataHandle); Section->DataHandle = NULL; } } } ExReleaseResource(&RdrDiscardableCodeLock); ExDeleteResource(&RdrDiscardableCodeLock); }