reactos/dll/win32/ws2help/context.c
Hermès Bélusca-Maïto 9393fc320e
[FORMATTING] Remove trailing whitespace. Addendum to 34593d93.
Excluded: 3rd-party code (incl. wine) and most of the win32ss.
2021-09-13 03:52:22 +02:00

603 lines
17 KiB
C

/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS WinSock 2 DLL
* FILE: dll/win32/ws2help/context.c
* PURPOSE: WinSock 2 DLL header
*/
/* INCLUDES ******************************************************************/
#include "precomp.h"
#include <ws2help.h>
/* DATA **********************************************************************/
CRITICAL_SECTION WshHandleTableLock;
HANDLE ghWriterEvent;
DWORD gdwSpinCount = 0;
DWORD gHandleToIndexMask;
CONST DWORD SockPrimes[] =
{
31, 61, 127, 257, 521, 1031, 2053,
4099, 8191, 16381, 32749, 65537, 131071, 261983,
-1
};
typedef volatile LONG VLONG;
typedef VLONG *PVLONG;
/* DEFINES *******************************************************************/
/* Yes, we "abuse" the lower bits */
#define WSH_SEARCH_TABLE_FROM_HANDLE(h, t) \
(&t->SearchTables[(((ULONG_PTR)h >> 2) & t->Mask)])
#define WSH_HASH_FROM_HANDLE(h, hs) \
(hs->Handles[((ULONG_PTR)h % hs->Size)])
#define AcquireWriteLock(t) \
EnterCriticalSection(&t->Lock);
#define ReleaseWriteLock(t) \
LeaveCriticalSection(&t->Lock);
/* FUNCTIONS *****************************************************************/
static __inline
VOID
AcquireReadLock(IN PWAH_SEARCH_TABLE Table,
IN PVLONG *Count)
{
LONG OldCount;
/* Start acquire loop */
do
{
/* Write and save count value */
*Count = Table->CurrentCount;
OldCount = **Count;
/* Check if it's valid and try to increment it */
if ((OldCount > 0) && (InterlockedCompareExchange(*Count,
OldCount + 1,
OldCount) == OldCount))
{
/* Everything went OK */
break;
}
} while (TRUE);
}
static __inline
VOID
ReleaseReadLock(IN PWAH_SEARCH_TABLE Table,
IN PVLONG Count)
{
/* Decrement the count. If we went below 0, someone is waiting... */
if (InterlockedDecrement(Count) < 0)
{
/* We use pulse since this is a shared event */
PulseEvent(ghWriterEvent);
}
}
VOID
WINAPI
DoWaitForReaders(IN PWAH_SEARCH_TABLE Table,
IN PVLONG Counter)
{
HANDLE EventHandle;
/* Do a context switch */
SwitchToThread();
/* Check if the counter is above one */
if (*Counter > 0)
{
/*
* This shouldn't happen unless priorities are messed up. Do a wait so
* that the threads with lower priority will get their chance now.
*/
if (!ghWriterEvent)
{
/* We don't even have an event! Allocate one manually... */
EventHandle = CreateEvent(NULL, TRUE, FALSE, NULL);
if (EventHandle)
{
/* Save the event handle atomically */
if ((InterlockedCompareExchangePointer((PVOID*)&ghWriterEvent,
EventHandle,
NULL)))
{
/* Someone beat us to it, close ours */
CloseHandle(EventHandle);
}
}
else
{
/* Things couldn't get worse for us. Do a last-resort hack */
while (*Counter > 0) Sleep(10);
}
}
/*
* Our event is ready. Tell the others to signal us by making sure
* that the last counter will be -1, notifying the last thread of our
* request.
*/
if (InterlockedDecrement(Counter) >= 0)
{
/* Keep looping */
do
{
/* Wait in tiny bursts, so we can catch the PulseEvent */
WaitForSingleObject(ghWriterEvent, 10);
} while (*Counter >= 0);
}
}
}
static __inline
VOID
TryWaitForReaders(IN PWAH_SEARCH_TABLE Table)
{
PVLONG OldCount = Table->CurrentCount;
LONG SpinCount;
/* See which counter is being used */
if (OldCount == &Table->Count1)
{
/* Use counter 2 now */
Table->Count2 = 1;
Table->CurrentCount = &Table->Count2;
}
else
{
/* Use counter 1 now */
Table->Count1 = 1;
Table->CurrentCount = &Table->Count1;
}
/* Decrease the old count to block new readers */
if (InterlockedDecrement(OldCount) > 0)
{
/* On an MP machine, spin a bit first */
if (Table->SpinCount)
{
/* Get the spincount and loop it */
SpinCount = Table->SpinCount;
while (*OldCount > 0)
{
/* Check if the spin failed */
if (--SpinCount <= 0) break;
}
}
/* Check one last time if someone is still active */
if (*OldCount > 0)
{
/* Yep, we'll have to do a blocking (slow) wait */
DoWaitForReaders(Table, OldCount);
}
}
}
DWORD
WINAPI
WahCreateHandleContextTable(OUT PWAH_HANDLE_TABLE *Table)
{
DWORD ErrorCode;
PWAH_HANDLE_TABLE LocalTable;
DWORD i;
/* Enter the prolog, make sure we're initialized */
ErrorCode = WS2HELP_PROLOG();
if (ErrorCode != ERROR_SUCCESS) return ErrorCode;
/* Assume NULL */
*Table = NULL;
/* Allocate enough tables */
LocalTable = HeapAlloc(GlobalHeap,
0,
FIELD_OFFSET(WSH_HANDLE_TABLE,
SearchTables[gHandleToIndexMask + 1]));
/* Make sure it was allocated */
if (!LocalTable) return WSA_NOT_ENOUGH_MEMORY;
/* Set the mask for the table */
LocalTable->Mask = gHandleToIndexMask;
/* Now initialize every table */
for (i = 0; i <= gHandleToIndexMask; i++)
{
/* No hash table yet */
LocalTable->SearchTables[i].HashTable = NULL;
/* Set the current count */
LocalTable->SearchTables[i].CurrentCount = &LocalTable->SearchTables[i].Count1;
/* Initialize the counts */
LocalTable->SearchTables[i].Count1 = 1;
LocalTable->SearchTables[i].Count2 = 0;
/* Set expanding state and spin count */
LocalTable->SearchTables[i].Expanding = FALSE;
LocalTable->SearchTables[i].SpinCount = gdwSpinCount;
/* Initialize the lock */
(VOID)InitializeCriticalSectionAndSpinCount(&LocalTable->
SearchTables[i].Lock,
gdwSpinCount);
}
/* Return pointer */
*Table = LocalTable;
/* Return success */
return ERROR_SUCCESS;
}
DWORD
WINAPI
WahDestroyHandleContextTable(IN PWAH_HANDLE_TABLE Table)
{
DWORD i;
/* Make sure the table is valid */
if (!Table)
{
/* No valid table */
return ERROR_INVALID_PARAMETER;
}
/* Loop each search table */
for (i = 0; i <= Table->Mask; i++)
{
/* Check if there's a table here */
if (Table->SearchTables[i].HashTable)
{
/* Free it */
HeapFree(GlobalHeap, 0, Table->SearchTables[i].HashTable);
}
/* Delete the lock */
DeleteCriticalSection(&Table->SearchTables[i].Lock);
}
/* Delete the table */
HeapFree(GlobalHeap, 0, Table);
/* Return success */
return ERROR_SUCCESS;
}
BOOL
WINAPI
WahEnumerateHandleContexts(IN PWAH_HANDLE_TABLE Table,
IN PWAH_HANDLE_ENUMERATE_PROC Callback,
IN PVOID Context)
{
DWORD i, j;
PWAH_SEARCH_TABLE SearchTable;
PWAH_HASH_TABLE HashTable;
PWAH_HANDLE Handle;
BOOL GoOn = TRUE;
/* Loop the table */
for (i = 0; i <= Table->Mask; i++)
{
/* Get the Search table */
SearchTable = &Table->SearchTables[i];
/* Lock it */
AcquireWriteLock(SearchTable);
/* Mark us as expanding and wait for everyone */
SearchTable->Expanding = TRUE;
TryWaitForReaders(SearchTable);
/* Get the hash table */
HashTable = SearchTable->HashTable;
/* Make sure it exists */
if (HashTable)
{
/* Loop every handle in it */
for (j = 0; j < HashTable->Size; j++)
{
/* Get this handle */
Handle = HashTable->Handles[j];
if (!Handle) continue;
/* Call the callback proc */
GoOn = Callback(Context, Handle);
if (!GoOn) break;
}
}
/* Disable the expansion bit and release the lock */
SearchTable->Expanding = FALSE;
ReleaseWriteLock(SearchTable);
/* Check again if we should leave */
if (!GoOn) break;
}
/* return */
return GoOn;
}
PWAH_HANDLE
WINAPI
WahInsertHandleContext(IN PWAH_HANDLE_TABLE Table,
IN PWAH_HANDLE Handle)
{
PWAH_HANDLE *HashHandle, OldHandle;
PVLONG Count;
PWAH_HASH_TABLE HashTable, NewHashTable;
DWORD HandleCount, i;
PWAH_SEARCH_TABLE SearchTable;
/* Get the current Search Table */
SearchTable = WSH_SEARCH_TABLE_FROM_HANDLE(Handle->Handle, Table);
/* Start loop */
do
{
/* Get reader lock */
AcquireReadLock(SearchTable, &Count);
/* Get the hash table */
HashTable = SearchTable->HashTable;
/* Make sure we are not expanding, and that the table is there */
if (!(SearchTable->Expanding) && (HashTable))
{
/* Get the hash handle */
HashHandle = &WSH_HASH_FROM_HANDLE(Handle->Handle, HashTable);
/* Do the insert */
if (InterlockedCompareExchangePointer((PVOID*)HashHandle,
Handle,
NULL) == NULL)
{
/* Success, release the reader lock */
ReleaseReadLock(SearchTable, Count);
/* Save old handle */
OldHandle = Handle;
break;
}
}
/* Release the read lock since we're done with it now */
ReleaseReadLock(SearchTable, Count);
/* We need the writer lock to expand/create the table */
AcquireWriteLock(SearchTable);
/* Mark the table in use */
SearchTable->Expanding = TRUE;
/* Wait for all the readers to finish */
TryWaitForReaders(SearchTable);
/* Start loop */
do
{
/* Get the hash table again */
HashTable = SearchTable->HashTable;
/* Check if exists now */
if (HashTable)
{
/* It does! Do what we wanted to do earlier. Get the hash... */
HashHandle = &WSH_HASH_FROM_HANDLE(Handle->Handle, HashTable);
/* Check if it doesn't exist */
if (!(*HashHandle))
{
/* Write it (no need for interlock, we have the RW lock) */
OldHandle = Handle;
*HashHandle = Handle;
break;
}
else if ((*HashHandle)->Handle == Handle->Handle)
{
/* Handle matches, write it (see comment above) */
OldHandle = *HashHandle;
*HashHandle = Handle;
break;
}
/* No go, we need to expand the table. Remember the size now */
HandleCount = HashTable->Size;
}
else
{
/* Table is empty, we have to create it */
HandleCount = 0;
}
ExpandTable:
/* Find a free prime */
for (i = 0; HandleCount >= SockPrimes[i]; i++);
/* Check if we found one */
if (SockPrimes[i] != 0xFFFFFFFF)
{
/* Use the prime */
HandleCount = SockPrimes[i];
}
else
{
/* No primes left. Table is quite large, so simply double it */
HandleCount *= 2;
}
/* Allocate the table */
NewHashTable = HeapAlloc(GlobalHeap,
0,
FIELD_OFFSET(WSH_HASH_TABLE,
Handles[HandleCount]));
/* Hopefully we have one now */
if (NewHashTable)
{
/* Set its size */
NewHashTable->Size = HandleCount;
/* Initialize it */
RtlZeroMemory(NewHashTable->Handles, HandleCount * sizeof(PVOID));
/* Insert us first */
WSH_HASH_FROM_HANDLE(Handle->Handle, NewHashTable) = Handle;
/* Now check if our old table had entries in it */
if (HashTable)
{
/* We need to move them */
for (i = 0; i < HashTable->Size; i++)
{
/* Make sure the hash handle exists */
if (HashTable->Handles[i])
{
/* Get it */
HashHandle = &WSH_HASH_FROM_HANDLE(HashTable->
Handles[i]->Handle,
NewHashTable);
/* Check if it has a value */
if (!(*HashHandle))
{
/* It's empty, so just write the handle */
*HashHandle = HashTable->Handles[i];
}
else
{
/* Not empty :/... that implies a collision */
HeapFree(GlobalHeap, 0, NewHashTable);
goto ExpandTable;
}
}
}
/* Write the new hash table */
SearchTable->HashTable = NewHashTable;
/* Wait for everyone to be done with it, then free it */
TryWaitForReaders(SearchTable);
HeapFree(GlobalHeap, 0, HashTable);
}
else
{
/* It was empty, nothing to worry about */
SearchTable->HashTable = NewHashTable;
}
/* Save the old handle */
OldHandle = Handle;
}
else
{
/* There was no old handle */
OldHandle = Handle;
}
} while (0);
/* Mark us as free, and release the write lock */
SearchTable->Expanding = FALSE;
ReleaseWriteLock(SearchTable);
break;
} while (1);
/* Return the old handle */
return OldHandle;
}
PWAH_HANDLE
WINAPI
WahReferenceContextByHandle(IN PWAH_HANDLE_TABLE Table,
IN HANDLE Handle)
{
PWAH_HANDLE HashHandle;
PWAH_SEARCH_TABLE SearchTable;
PWAH_HASH_TABLE HashTable;
PVLONG Count;
/* Get the current Search Table */
SearchTable = WSH_SEARCH_TABLE_FROM_HANDLE(Handle, Table);
/* Lock it */
AcquireReadLock(SearchTable, &Count);
/* Get the hash table and handle */
HashTable = SearchTable->HashTable;
/* Check if it's valid, and if it's the one we want */
if ((HashTable) &&
(HashHandle = WSH_HASH_FROM_HANDLE(Handle, HashTable)) &&
(HashHandle->Handle == Handle))
{
/* Reference the handle */
InterlockedIncrement(&HashHandle->RefCount);
}
else
{
/* Invalid handle */
HashHandle = NULL;
}
/* Release the lock */
ReleaseReadLock(SearchTable, Count);
/* Return */
return HashHandle;
}
DWORD
WINAPI
WahRemoveHandleContext(IN PWAH_HANDLE_TABLE Table,
IN PWAH_HANDLE Handle)
{
PWAH_HANDLE *HashHandle;
PWAH_SEARCH_TABLE SearchTable;
PWAH_HASH_TABLE HashTable;
DWORD ErrorCode = ERROR_SUCCESS;
/* Get the current Search Table */
SearchTable = WSH_SEARCH_TABLE_FROM_HANDLE(Handle->Handle, Table);
/* Lock it */
AcquireWriteLock(SearchTable);
/* Get the hash table and handle */
HashTable = SearchTable->HashTable;
HashHandle = &WSH_HASH_FROM_HANDLE(Handle->Handle, HashTable);
/* Make sure we have a handle, and write the new pointer */
if (HashHandle && (InterlockedCompareExchangePointer((PVOID*)HashHandle,
NULL,
Handle) == Handle))
{
/* Wait for everyone to be done with it */
TryWaitForReaders(SearchTable);
}
else
{
/* Invalid handle */
ErrorCode = ERROR_INVALID_PARAMETER;
}
/* Release the lock */
ReleaseWriteLock(SearchTable);
/* Return */
return ErrorCode;
}
/* EOF */