windows-nt/Source/XPSP1/NT/base/ntos/rtl/tracedb.c
2020-09-26 16:20:57 +08:00

1464 lines
30 KiB
C

/*++
Copyright (c) 2000 Microsoft Corporation
Module Name:
tracedb.c
Abstract:
This module contains the implementation for the trace database
module (hash table to store stack trace in USer/Kernel mode).
Author:
Silviu Calinoiu (SilviuC) 22-Feb-2000
Revision History:
--*/
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <ntos.h>
#include "tracedbp.h"
//
// TRACE_ASSERT
//
// SilviuC: should change this to normal ASSERT() macro when code gets
// mature enough.
//
#if DBG
#define TRACE_ASSERT(Expr) { \
if (!(Expr)) { \
DbgPrint ("Page heap: (%s, %d): \" %s \" -- assertion failed \n", \
__FILE__, __LINE__, #Expr); \
DbgBreakPoint (); \
}}
#else
#define TRACE_ASSERT(Expr)
#endif // #if DBG
//
// Magic values that prefix tracedb structures and allow
// early detection of corruptions.
//
#define RTL_TRACE_BLOCK_MAGIC 0xABCDAAAA
#define RTL_TRACE_SEGMENT_MAGIC 0xABCDBBBB
#define RTL_TRACE_DATABASE_MAGIC 0xABCDCCCC
//
// Amount of memory with each a trace database will be
// increased if a new trace cannot be stored.
//
#ifdef NTOS_KERNEL_RUNTIME
#define RTL_TRACE_SIZE_INCREMENT PAGE_SIZE
#else
#define RTL_TRACE_SIZE_INCREMENT 0x10000
#endif // #ifdef NTOS_KERNEL_RUNTIME
//
// Internal function declarations
//
BOOLEAN
RtlpTraceDatabaseInternalAdd (
IN PRTL_TRACE_DATABASE Database,
IN ULONG Count,
IN PVOID * Trace,
OUT PRTL_TRACE_BLOCK * TraceBlock OPTIONAL
);
BOOLEAN
RtlpTraceDatabaseInternalFind (
PRTL_TRACE_DATABASE Database,
IN ULONG Count,
IN PVOID * Trace,
OUT PRTL_TRACE_BLOCK * TraceBlock OPTIONAL
);
ULONG
RtlpTraceStandardHashFunction (
IN ULONG Count,
IN PVOID * Trace
);
PVOID
RtlpTraceDatabaseAllocate (
IN SIZE_T Size,
IN ULONG Flags, // OPTIONAL in User mode
IN ULONG Tag // OPTIONAL in User mode
);
BOOLEAN
RtlpTraceDatabaseFree (
PVOID Block,
IN ULONG Tag // OPTIONAL in User mode
);
BOOLEAN
RtlpTraceDatabaseInitializeLock (
IN PRTL_TRACE_DATABASE Database
);
BOOLEAN
RtlpTraceDatabaseUninitializeLock (
IN PRTL_TRACE_DATABASE Database
);
BOOLEAN
RtlpTraceDatabaseAcquireLock (
IN PRTL_TRACE_DATABASE Database
);
BOOLEAN
RtlpTraceDatabaseReleaseLock (
IN PRTL_TRACE_DATABASE Database
);
PRTL_TRACE_SEGMENT
RtlpTraceSegmentCreate (
IN SIZE_T Size,
IN ULONG Flags, // OPTIONAL in User mode
IN ULONG Tag // OPTIONAL in User mode
);
//
// Trace database implementation
//
PRTL_TRACE_DATABASE
RtlTraceDatabaseCreate (
IN ULONG Buckets,
IN SIZE_T MaximumSize OPTIONAL,
IN ULONG Flags, // OPTIONAL in User mode
IN ULONG Tag, // OPTIONAL in User mode
IN RTL_TRACE_HASH_FUNCTION HashFunction OPTIONAL
)
/*++
Routine Description:
This routine creates a trace database, that is a hash table
to store stack traces.
Arguments:
Buckets - no of buckets of the hash table with simple chaining.
MaximumSize - maximum amount of memory that the database can use.
When limit is hit, database add operations will start to fail.
If the value is zero then no limit will be imposed.
Flags - flags to control if allocation in K mode is done in P or NP
pool. The possible bits that can be used right now are:
RTL_TRACE_USE_PAGED_POOL
RTL_TRACE_USE_NONPAGED_POOL
Tag - tag used for K mode allocations.
HashFunction - hash function to be used. If null passed a standard hash
function will be provided by the module.
Return Value:
Pointer to an initialized trace database structure.
Environment:
Any.
--*/
{
PVOID RawArea;
SIZE_T RawSize;
PRTL_TRACE_DATABASE Database;
PRTL_TRACE_SEGMENT Segment;
ULONG FirstFlags;
//
// Prepare trace database flags. The first segment of
// the database will be allocated in nonpaged pool
// no matter what flags are used because it contains
// kernel synchronization objects that need to be in
// that pool.
//
#ifdef NTOS_KERNEL_RUNTIME
Flags |= RTL_TRACE_IN_KERNEL_MODE;
FirstFlags = RTL_TRACE_IN_KERNEL_MODE | RTL_TRACE_USE_NONPAGED_POOL;
#else
Flags |= RTL_TRACE_IN_USER_MODE;
FirstFlags = Flags;
#endif // #ifdef NTOS_KERNEL_RUNTIME
//
// Allocate first segment of trace database that will contain
// DATABASE, SEGMENT, buckets of the hash table and later traces.
//
RawSize = sizeof (RTL_TRACE_DATABASE) +
sizeof (RTL_TRACE_SEGMENT) +
Buckets * sizeof (PRTL_TRACE_BLOCK);
RawSize += RTL_TRACE_SIZE_INCREMENT;
RawSize &= ~(RTL_TRACE_SIZE_INCREMENT - 1);
RawArea = RtlpTraceDatabaseAllocate (
RawSize,
FirstFlags,
Tag);
if (RawArea == NULL) {
return NULL;
}
Database = (PRTL_TRACE_DATABASE)RawArea;
Segment = (PRTL_TRACE_SEGMENT)(Database + 1);
//
// Initialize the database
//
Database->Magic = RTL_TRACE_DATABASE_MAGIC;
Database->Flags = Flags;
Database->Tag = Tag;
Database->SegmentList = NULL;
Database->MaximumSize = MaximumSize;
Database->CurrentSize = RTL_TRACE_SIZE_INCREMENT;
Database->Owner = NULL;
Database->NoOfHits = 0;
Database->NoOfTraces = 0;
RtlZeroMemory (Database->HashCounter, sizeof (Database->HashCounter));
if (! RtlpTraceDatabaseInitializeLock (Database)) {
RtlpTraceDatabaseFree (RawArea, Tag);
return NULL;
}
Database->NoOfBuckets = Buckets;
if (HashFunction == NULL) {
Database->HashFunction = RtlpTraceStandardHashFunction;
}
else {
Database->HashFunction = HashFunction;
}
//
// Initialize first segment of the database
//
Segment->Magic = RTL_TRACE_SEGMENT_MAGIC;
Segment->Database = Database;
Segment->NextSegment = NULL;
Segment->TotalSize = RTL_TRACE_SIZE_INCREMENT;
Database->SegmentList = Segment;
//
// Initialize the buckets of the database.
//
Database->Buckets = (PRTL_TRACE_BLOCK *)(Segment + 1);
RtlZeroMemory (Database->Buckets, Database->NoOfBuckets * sizeof(PRTL_TRACE_BLOCK));
//
// Initialize free pointer for segment
//
Segment->SegmentStart = (PCHAR)RawArea;
Segment->SegmentEnd = Segment->SegmentStart + RTL_TRACE_SIZE_INCREMENT;
Segment->SegmentFree = (PCHAR)(Segment + 1) + Database->NoOfBuckets * sizeof(PRTL_TRACE_BLOCK);
return Database;
}
BOOLEAN
RtlTraceDatabaseDestroy (
IN PRTL_TRACE_DATABASE Database
)
/*++
Routine Description:
This routine destroys a trace database. It takes care of
deallocating everything, uninitializing synchronization
objects, etc.
Arguments:
Database - trace database
Return Value:
TRUE if destroy operation was successful. FALSE otherwise.
Environment:
Any.
--*/
{
PRTL_TRACE_SEGMENT Current;
BOOLEAN Success;
BOOLEAN SomethingFailed = FALSE;
PRTL_TRACE_SEGMENT NextSegment;
//
// Sanity checks.
//
TRACE_ASSERT (Database && Database->Magic == RTL_TRACE_DATABASE_MAGIC);
TRACE_ASSERT (RtlTraceDatabaseValidate (Database));
//
// Uninitialize the database lock. Even if we fail
// we will continue to release memory for all segments.
//
// N.B. We cannot acquire the lock here for the last time because this
// has as a side effect elevating the irql (in K mode) and then the
// function will return with raised irql.
//
Success = RtlpTraceDatabaseUninitializeLock (Database);
if (! Success) {
SomethingFailed = TRUE;
}
//
// Traverse the list of segments and release memory one by one.
// Special attention with the last segment because it contains
// the database structure itself and we do not want to shoot.
// ourselves in the foot.
//
for (Current = Database->SegmentList;
Current != NULL;
Current = NextSegment) {
//
// We save the next segment before freeing the structure.
//
NextSegment = Current->NextSegment;
//
// If this is the last segment we need to offset Current pointer
// by the size of the database structure.
//
if (NextSegment == NULL) {
Current = (PRTL_TRACE_SEGMENT) ((PRTL_TRACE_DATABASE)Current - 1);
}
Success = RtlpTraceDatabaseFree (Current, Database->Tag);
if (! Success) {
DbgPrint ("Trace database: failed to release segment %p \n", Current);
SomethingFailed = TRUE;
}
}
if (SomethingFailed) {
return FALSE;
}
else {
return TRUE;
}
}
BOOLEAN
RtlTraceDatabaseValidate (
IN PRTL_TRACE_DATABASE Database
)
/*++
Routine Description:
This routine validates the correctness of a trace database.
It is intended to be used for testing purposes.
Arguments:
Database - trace database
Return Value:
TRUE if the database is ok. For most of the inconsistencies this
function will break in the debugger.
Environment:
Any.
--*/
{
PRTL_TRACE_SEGMENT Segment;
PRTL_TRACE_BLOCK Block;
ULONG Index;
TRACE_ASSERT (Database != NULL);
TRACE_ASSERT (Database->Magic == RTL_TRACE_DATABASE_MAGIC);
RtlpTraceDatabaseAcquireLock (Database);
//
// Check all segments.
//
for (Segment = Database->SegmentList;
Segment != NULL;
Segment = Segment->NextSegment) {
TRACE_ASSERT (Segment->Magic == RTL_TRACE_SEGMENT_MAGIC);
}
//
// Check all blocks.
//
for (Index = 0; Index < Database->NoOfBuckets; Index++) {
for (Block = Database->Buckets[Index];
Block != NULL;
Block = Block->Next) {
TRACE_ASSERT (Block->Magic == RTL_TRACE_BLOCK_MAGIC);
}
}
RtlpTraceDatabaseReleaseLock (Database);
return TRUE;
}
BOOLEAN
RtlTraceDatabaseAdd (
IN PRTL_TRACE_DATABASE Database,
IN ULONG Count,
IN PVOID * Trace,
OUT PRTL_TRACE_BLOCK * TraceBlock OPTIONAL
)
/*++
Routine Description:
This routine adds a new stack trace to the database. If the trace
already exists then only the `Count' field for the trace will be
incremented.
Arguments:
Database - trace database
Count - number of pointers (PVOIDs) in the trace
Trace - array of PVOIDs (the trace)
TraceBlock - if not null will contain the address of the block where
the trace was stored.
Return Value:
TRUE if a trace was added to the database. TraceBlock will contain
the address of the block. If the trace was already present in the
database a block with `Count' greater than 1 will be returned.
Environment:
Any.
--*/
{
BOOLEAN Result;
//
// Sanity checks.
//
TRACE_ASSERT (Database && Database->Magic == RTL_TRACE_DATABASE_MAGIC);
RtlpTraceDatabaseAcquireLock (Database);
Result = RtlpTraceDatabaseInternalAdd (
Database,
Count,
Trace,
TraceBlock);
RtlpTraceDatabaseReleaseLock (Database);
return Result;
}
BOOLEAN
RtlTraceDatabaseFind (
PRTL_TRACE_DATABASE Database,
IN ULONG Count,
IN PVOID * Trace,
OUT PRTL_TRACE_BLOCK * TraceBlock OPTIONAL
)
/*++
Routine Description:
This routine searches a trace in the database. If the trace
is found then the address of the block that stores the trace
will be returned.
Arguments:
Database - trace database
Count - number of pointers (PVOIDs) in the trace
Trace - array of PVOIDs (the trace)
TraceBlock - if not null will contain the address of the block where
the trace is stored.
Return Value:
TRUE if the trace was found in the database. TraceBlock will contain
the address of the block that stores the trace.
Environment:
Any.
--*/
{
BOOLEAN Result;
//
// Sanity checks.
//
TRACE_ASSERT (Database && Database->Magic == RTL_TRACE_DATABASE_MAGIC);
RtlpTraceDatabaseAcquireLock (Database);
Result = RtlpTraceDatabaseInternalFind (
Database,
Count,
Trace,
TraceBlock);
if (Result) {
Database->NoOfHits += 1;
}
RtlpTraceDatabaseReleaseLock (Database);
return Result;
}
BOOLEAN
RtlpTraceDatabaseInternalAdd (
IN PRTL_TRACE_DATABASE Database,
IN ULONG Count,
IN PVOID * Trace,
OUT PRTL_TRACE_BLOCK * TraceBlock OPTIONAL
)
/*++
Routine Description:
This is the internal routine to add a trace. See RtlTraceDatabaseAdd
for more details.
Arguments:
Database - trace database
Count - size of trace (in PVOIDs)
Trace - trace
TraceBlock - address of block where the trace is stored
Return Value:
TRUE if trace was added.
Environment:
Called from RtlTraceDatabaseAdd. Assumes the database lock
is held.
--*/
{
PRTL_TRACE_BLOCK Block;
PRTL_TRACE_SEGMENT Segment;
PRTL_TRACE_SEGMENT TopSegment;
ULONG HashValue;
SIZE_T RequestSize;
//
// Check if the block is already in the database (hash table).
// If it is increase the number of hits and return.
//
if (RtlpTraceDatabaseInternalFind (Database, Count, Trace, &Block)) {
Block->Count += 1;
if (TraceBlock) {
*TraceBlock = Block;
}
Database->NoOfHits += 1;
return TRUE;
}
//
// We need to create a new block. First we need to figure out
// if the current segment can accomodate the new block.
//
RequestSize = sizeof(*Block) + Count * sizeof(PVOID);
TopSegment = Database->SegmentList;
if (RequestSize > (SIZE_T)(TopSegment->SegmentEnd - TopSegment->SegmentFree)) {
//
// If the database has a maximum size and that limit
// has been reached then fail the call.
//
if (Database->MaximumSize > 0) {
if (Database->CurrentSize > Database->MaximumSize) {
if (TraceBlock) {
*TraceBlock = NULL;
}
return FALSE;
}
}
//
// Allocate a new database segment. Fail call if cannot
// allocate.
//
Segment = RtlpTraceSegmentCreate (RTL_TRACE_SIZE_INCREMENT,
Database->Flags,
Database->Tag);
if (Segment == NULL) {
if (TraceBlock) {
*TraceBlock = NULL;
}
return FALSE;
}
//
// Add the new segment to the database.
//
Segment->Magic = RTL_TRACE_SEGMENT_MAGIC;
Segment->Database = Database;
Segment->TotalSize = RTL_TRACE_SIZE_INCREMENT;
Segment->SegmentStart = (PCHAR)Segment;
Segment->SegmentEnd = Segment->SegmentStart + RTL_TRACE_SIZE_INCREMENT;
Segment->SegmentFree = (PCHAR)(Segment + 1);
Segment->NextSegment = Database->SegmentList;
Database->SegmentList = Segment;
TopSegment = Database->SegmentList;
Database->CurrentSize += RTL_TRACE_SIZE_INCREMENT;
}
if (RequestSize > (SIZE_T)(TopSegment->SegmentEnd - TopSegment->SegmentFree)) {
DbgPrint ("Trace database: failing attempt to save biiiiig trace (size %u) \n",
Count);
if (TraceBlock) {
*TraceBlock = NULL;
}
return FALSE;
}
//
// Finaly we can allocate our block.
//
Block = (PRTL_TRACE_BLOCK)(TopSegment->SegmentFree);
TopSegment->SegmentFree += RequestSize;
//
// Fill the block with the new trace.
//
Block->Magic = RTL_TRACE_BLOCK_MAGIC;
Block->Size = Count;
Block->Count = 1;
Block->Trace = (PVOID *)(Block + 1);
Block->UserCount = 0;
Block->UserSize = 0;
//
// Copy the trace
//
RtlMoveMemory (Block->Trace, Trace, Count * sizeof(PVOID));
//
// Add the block to corresponding bucket.
//
HashValue = (Database->HashFunction) (Count, Trace);
HashValue %= Database->NoOfBuckets;
Database->HashCounter[HashValue / (Database->NoOfBuckets / 16)] += 1;
Block->Next = Database->Buckets[HashValue];
Database->Buckets[HashValue] = Block;
//
// Loooong function. Finally return succes.
//
if (TraceBlock) {
*TraceBlock = Block;
}
Database->NoOfTraces += 1;
return TRUE;
}
BOOLEAN
RtlpTraceDatabaseInternalFind (
PRTL_TRACE_DATABASE Database,
IN ULONG Count,
IN PVOID * Trace,
OUT PRTL_TRACE_BLOCK * TraceBlock OPTIONAL
)
/*++
Routine Description:
This internal routine searches for a trace in the database.
Arguments:
Database - trace database
Count - size of trace (in PVOIDs)
Trace - trace
TraceBlock - element where the trace is stored.
Return Value:
TRUE if the trace was found.
Environment:
Called from RtlTraceDatabaseFind. Assumes the database lock is held.
--*/
{
ULONG HashValue;
PRTL_TRACE_BLOCK Current;
ULONG Index;
ULONG RequestSize;
//
// Find the bucket to search into.
//
HashValue = (Database->HashFunction) (Count, Trace);
Database->HashCounter[HashValue % 16] += 1;
HashValue %= Database->NoOfBuckets;
//
// Traverse the list of blocks for the found bucket
//
for (Current = Database->Buckets[HashValue];
Current != NULL;
Current = Current->Next) {
//
// If the size of the trace matches we might have a chance
// to find an equal trace.
//
if (Count == Current->Size) {
//
// Figure out if the whole trace matches.
//
for (Index = 0; Index < Count; Index++) {
if (Current->Trace[Index] != Trace[Index]) {
break;
}
}
//
// If the trace matched completely we have found an entry.
//
if (Index == Count) {
if (TraceBlock) {
*TraceBlock = Current;
}
return TRUE;
}
}
}
//
// If we traversed the whole list for the hashed bucket and did not
// find anything we will fail the call.
//
if (TraceBlock) {
*TraceBlock = NULL;
}
return FALSE;
}
ULONG
RtlpTraceStandardHashFunction (
IN ULONG Count,
IN PVOID * Trace
)
/*++
Routine Description:
This routine is a simple hash function for stack traces in
the case the caller of RtlTraceDatabaseCreate does not provide
one. The function just xor's together all the pointers in the
trace.
Arguments:
Count - size of trace (in PVOIDs)
Trace - trace
Return Value:
Hash value. This needs to be reduced to the number of buckets
in the hash table by a modulo operation (or something similar).
Environment:
Called internally by RtlpTraceDatabaseInternalAdd/Find.
--*/
{
ULONG_PTR Value = 0;
ULONG Index;
unsigned short * Key;
Key = (unsigned short *)Trace;
for (Index = 0; Index < Count * (sizeof (PVOID) / sizeof(*Key)); Index += 2) {
Value += Key[Index] ^ Key[Index + 1];
}
return PtrToUlong ((PVOID)Value);
}
PVOID
RtlpTraceDatabaseAllocate (
IN SIZE_T Size,
IN ULONG Flags, // OPTIONAL in User mode
IN ULONG Tag // OPTIONAL in User mode
)
/*++
Routine Description:
This routine allocates memory and hides all the different
details for User vs Kernel mode allocation and paged vs
nonpaged pool.
Arguments:
Size - size in bytes
Flags - flags (specify U/K mode and P/NP pool)
Tag - tag used for K mode allocations
Return Value:
Pointer to memory area allocated or null.
Environment:
Internal function for trace database module.
--*/
{
#ifdef NTOS_KERNEL_RUNTIME
//
// SilviuC: should take a look if I can allocate with low
// priority here (allocate with priority in pool).
//
if ((Flags & RTL_TRACE_USE_NONPAGED_POOL)) {
return ExAllocatePoolWithTag (NonPagedPool, Size, Tag);
}
else {
return ExAllocatePoolWithTag (PagedPool, Size, Tag);
}
#else
NTSTATUS Status;
PVOID RequestAddress;
SIZE_T RequestSize;
RequestAddress = NULL;
RequestSize = Size;
Status = NtAllocateVirtualMemory (
NtCurrentProcess (),
&RequestAddress,
0,
&RequestSize,
MEM_RESERVE | MEM_COMMIT,
PAGE_READWRITE);
if (NT_SUCCESS(Status)) {
return RequestAddress;
}
else {
return NULL;
}
#endif // #ifdef NTOS_KERNEL_RUNTIME
}
BOOLEAN
RtlpTraceDatabaseFree (
PVOID Block,
IN ULONG Tag // OPTIONAL in User mode
)
/*++
Routine Description:
This routine frees memory and hides all the different
details for User vs Kernel mode allocation and paged vs
nonpaged pool.
Arguments:
Block - memory area to free
Tag - tag used for K mode allocation
Return Value:
TRUE if deallocation was successful.
Environment:
Internal function for trace database module.
--*/
{
#ifdef NTOS_KERNEL_RUNTIME
ExFreePoolWithTag (Block, Tag);
return TRUE;
#else
NTSTATUS Status;
PVOID Address;
SIZE_T Size;
Address = Block;
Size = 0;
Status = NtFreeVirtualMemory (
NtCurrentProcess (),
&Address,
&Size,
MEM_RELEASE);
if (NT_SUCCESS(Status)) {
return TRUE;
}
else {
return FALSE;
}
#endif // #ifdef NTOS_KERNEL_RUNTIME
}
BOOLEAN
RtlpTraceDatabaseInitializeLock (
IN PRTL_TRACE_DATABASE Database
)
/*++
Routine Description:
This routine initializes the trace database lock.
It hides all details about the actual nature of the lock.
Arguments:
Database - trace database
Return Value:
TRUE if successful.
Environment:
Internal trace database module function.
--*/
{
#ifdef NTOS_KERNEL_RUNTIME
ASSERT((Database->Flags & RTL_TRACE_IN_KERNEL_MODE));
if ((Database->Flags & RTL_TRACE_USE_NONPAGED_POOL)) {
KeInitializeSpinLock (&(Database->u.SpinLock));
}
else {
ExInitializeFastMutex (&(Database->u.FastMutex));
}
return TRUE;
#else
ASSERT((Database->Flags & RTL_TRACE_IN_USER_MODE));
RtlInitializeCriticalSection (&(Database->Lock));
return TRUE;
#endif // #ifdef NTOS_KERNEL_RUNTIME
}
BOOLEAN
RtlpTraceDatabaseUninitializeLock (
IN PRTL_TRACE_DATABASE Database
)
/*++
Routine Description:
This routine uninitializes the trace database lock.
It hides all details about the actual nature of the lock.
(e.g. In user mode we need to call RtlDeleteCriticalSection).
Arguments:
Database - trace database
Return Value:
TRUE if successful.
Environment:
Internal trace database module function.
--*/
{
#ifdef NTOS_KERNEL_RUNTIME
ASSERT((Database->Flags & RTL_TRACE_IN_KERNEL_MODE));
if ((Database->Flags & RTL_TRACE_USE_NONPAGED_POOL)) {
//
// No "uninitialize" required for spinlocks.
//
}
else {
//
// No "uninitialize" required for fast mutexes.
//
}
return TRUE;
#else
ASSERT((Database->Flags & RTL_TRACE_IN_USER_MODE));
RtlDeleteCriticalSection (&(Database->Lock));
return TRUE;
#endif // #ifdef NTOS_KERNEL_RUNTIME
}
VOID
RtlTraceDatabaseLock (
IN PRTL_TRACE_DATABASE Database
)
/*++
Routine Description:
This routine acquires the trace database lock.
It hides all details about the actual nature of the lock.
The callers needs to acquire the database lock only if
a trace block will be modified (UserCount, UserSize fields).
The lock is not needed for Add/Find/Enumerate operations.
Arguments:
Database - trace database
Return Value:
None.
Environment:
Called if a trace block will be modified.
--*/
{
RtlpTraceDatabaseAcquireLock(Database);
}
VOID
RtlTraceDatabaseUnlock (
IN PRTL_TRACE_DATABASE Database
)
/*++
Routine Description:
This routine releases the trace database lock.
It hides all details about the actual nature of the lock.
The callers needs to acquire/release the database lock only if
a trace block will be modified (UserCount, UserSize fields).
The lock is not needed for Add/Find/Enumerate operations.
Arguments:
Database - trace database
Return Value:
None.
Environment:
Called if a trace block will be modified.
--*/
{
RtlpTraceDatabaseReleaseLock(Database);
}
BOOLEAN
RtlpTraceDatabaseAcquireLock (
IN PRTL_TRACE_DATABASE Database
)
/*++
Routine Description:
This routine acquires the trace database lock.
It hides all details about the actual nature of the lock.
Arguments:
Database - trace database
Return Value:
TRUE if successful.
Environment:
Internal trace database module function.
--*/
{
#ifdef NTOS_KERNEL_RUNTIME
ASSERT((Database->Flags & RTL_TRACE_IN_KERNEL_MODE));
if ((Database->Flags & RTL_TRACE_USE_NONPAGED_POOL)) {
KeAcquireSpinLock (&(Database->u.SpinLock), &(Database->SavedIrql));
}
else {
ExAcquireFastMutex (&(Database->u.FastMutex));
}
Database->Owner = KeGetCurrentThread();
return TRUE;
#else
ASSERT((Database->Flags & RTL_TRACE_IN_USER_MODE));
RtlEnterCriticalSection (&(Database->Lock));
//
// SilviuC: it might be useful to get thread address here
// although not really important.
//
Database->Owner = NULL;
return TRUE;
#endif // #ifdef NTOS_KERNEL_RUNTIME
}
BOOLEAN
RtlpTraceDatabaseReleaseLock (
IN PRTL_TRACE_DATABASE Database
)
/*++
Routine Description:
This routine releases the trace database lock.
It hides all details about the actual nature of the lock.
Arguments:
Database - trace database
Return Value:
TRUE if successful.
Environment:
Internal trace database module function.
--*/
{
#ifdef NTOS_KERNEL_RUNTIME
ASSERT((Database->Flags & RTL_TRACE_IN_KERNEL_MODE));
Database->Owner = NULL;
if ((Database->Flags & RTL_TRACE_USE_NONPAGED_POOL)) {
KeReleaseSpinLock (&(Database->u.SpinLock), Database->SavedIrql);
}
else {
ExReleaseFastMutex (&(Database->u.FastMutex));
}
return TRUE;
#else
ASSERT((Database->Flags & RTL_TRACE_IN_USER_MODE));
Database->Owner = NULL;
RtlLeaveCriticalSection (&(Database->Lock));
return TRUE;
#endif // #ifdef NTOS_KERNEL_RUNTIME
}
PRTL_TRACE_SEGMENT
RtlpTraceSegmentCreate (
IN SIZE_T Size,
IN ULONG Flags, // OPTIONAL in User mode
IN ULONG Tag // OPTIONAL in User mode
)
/*++
Routine Description:
This routine creates a new segment. The segment is the device
through which a database can increase in size to accomodata
more traces.
Arguments:
Size - size in bytes
Flags - allocation flags (U/K mode, P/NP pool)
Tag - tag for K mode allocations
Return Value:
New allocated segment or null.
Environment:
Internal trace database module function.
--*/
{
PRTL_TRACE_SEGMENT Segment;
Segment = RtlpTraceDatabaseAllocate (Size, Flags, Tag);
return Segment;
}
BOOLEAN
RtlTraceDatabaseEnumerate (
PRTL_TRACE_DATABASE Database,
OUT PRTL_TRACE_ENUMERATE Enumerate,
OUT PRTL_TRACE_BLOCK * TraceBlock
)
/*++
Routine Description:
This function enumerates all traces in the database. It requires a
RTL_TRACE_ENUMERATE function (zeroed initially) to keep the state of
the enumeration. Since the trace database does not support delete
operations we do not need to keep a lock across multiple calls to
Enumerate(). However this can change if we add support for deletions.
Arguments:
Database - trace database pointer
Enumerate - enumeration opaque structure. Used to keep the state of
the enumeration.
TraceBlock - on each succesful return this pointer gets filled with
the address of a trace block from the database.
Return Value:
TRUE if a trace block was found (during enumeration) and FALSE if there
are no more blocks in the database.
Environment:
User/Kernel mode.
--*/
{
BOOLEAN Result;
TRACE_ASSERT (Database != NULL);
TRACE_ASSERT (Database->Magic == RTL_TRACE_DATABASE_MAGIC);
//
// (SilviuC): If we ever add support for deleting stack traces
// then it will not be enough to acquire the lock inside the
// call to Enumerate(). We will need to keep the lock across
// calls.
//
RtlpTraceDatabaseAcquireLock (Database);
//
// Start the search process if this is the first call.
// If this is not the first call try to validate what
// we have inside the enumerator.
//
if (Enumerate->Database == NULL) {
Enumerate->Database = Database;
Enumerate->Index = 0;
Enumerate->Block = Database->Buckets[0];
}
else {
if (Enumerate->Database != Database) {
Result = FALSE;
goto Exit;
}
if (Enumerate->Index >= Database->NoOfBuckets) {
Result = FALSE;
goto Exit;
}
}
//
// Find out the next trace block in case we are at the end
// of a bucket or the bucket was empty.
//
while (Enumerate->Block == NULL) {
Enumerate->Index += 1;
if (Enumerate->Index >= Database->NoOfBuckets) {
break;
}
Enumerate->Block = Database->Buckets[Enumerate->Index];
}
//
// Figure out if we have finished the enumeration.
//
if (Enumerate->Index >= Database->NoOfBuckets && Enumerate->Block == NULL) {
*TraceBlock = NULL;
Result = FALSE;
goto Exit;
}
//
// Fill out the next trace block and advance the enumerator.
//
*TraceBlock = Enumerate->Block;
Enumerate->Block = Enumerate->Block->Next;
Result = TRUE;
//
// Clean up and exit
//
Exit:
RtlpTraceDatabaseReleaseLock (Database);
return Result;
}
//
// End of module: tracedb.c
//