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ResLocks.cpp
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ResLocks.cpp
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/*
* XMail by Davide Libenzi (Intranet and Internet mail server)
* Copyright (C) 1999,..,2010 Davide Libenzi
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Davide Libenzi <davidel@xmailserver.org>
*
*/
#include "SysInclude.h"
#include "SysDep.h"
#include "SvrDefines.h"
#include "ShBlocks.h"
#include "ResLocks.h"
#include "BuffSock.h"
#include "MiscUtils.h"
#include "MessQueue.h"
#include "MailConfig.h"
#include "MailSvr.h"
#define STD_WAIT_GATES 37
#define STD_RES_HASH_SIZE 251
#define STD_RLCK_HASH_INIT 9677
struct ResWaitGate {
SYS_SEMAPHORE hSemaphore;
int iWaitingProcesses;
int iHashSize;
SysListHead *pResList;
};
struct ResLockEntry {
SysListHead LLink;
int iShLocks;
int iExLocks;
char szName[1];
};
struct ResLocator {
int iWaitGate;
int iResIdx;
};
static unsigned long RLckHashString(char const *pData,
unsigned long ulHashInit = STD_RLCK_HASH_INIT);
static SYS_MUTEX hRLMutex = SYS_INVALID_MUTEX;
static ResWaitGate RLGates[STD_WAIT_GATES];
int RLckInitLockers(void)
{
/* Create resource locking mutex */
if ((hRLMutex = SysCreateMutex()) == SYS_INVALID_MUTEX)
return ErrGetErrorCode();
/* Initialize wait gates */
for (int i = 0; i < STD_WAIT_GATES; i++) {
if ((RLGates[i].hSemaphore = SysCreateSemaphore(0,
SYS_DEFAULT_MAXCOUNT)) ==
SYS_INVALID_SEMAPHORE) {
ErrorPush();
for (--i; i >= 0; i--) {
SysFree(RLGates[i].pResList);
SysCloseSemaphore(RLGates[i].hSemaphore);
}
SysCloseMutex(hRLMutex);
return ErrorPop();
}
RLGates[i].iWaitingProcesses = 0;
RLGates[i].iHashSize = STD_RES_HASH_SIZE;
if ((RLGates[i].pResList = (SysListHead *)
SysAlloc(RLGates[i].iHashSize * sizeof(SysListHead))) == NULL) {
ErrorPush();
SysCloseSemaphore(RLGates[i].hSemaphore);
for (--i; i >= 0; i--) {
SysFree(RLGates[i].pResList);
SysCloseSemaphore(RLGates[i].hSemaphore);
}
SysCloseMutex(hRLMutex);
return ErrorPop();
}
for (int j = 0; j < RLGates[i].iHashSize; j++)
SYS_INIT_LIST_HEAD(&RLGates[i].pResList[j]);
}
return 0;
}
static int RLckFreeEntry(ResLockEntry * pRLE)
{
SysFree(pRLE);
return 0;
}
int RLckCleanupLockers(void)
{
if (SysLockMutex(hRLMutex, SYS_INFINITE_TIMEOUT) < 0)
return ErrGetErrorCode();
for (int i = 0; i < STD_WAIT_GATES; i++) {
for (int j = 0; j < RLGates[i].iHashSize; j++) {
SysListHead *pHead = &RLGates[i].pResList[j];
SysListHead *pLLink;
while ((pLLink = SYS_LIST_FIRST(pHead)) != NULL) {
ResLockEntry *pRLE = SYS_LIST_ENTRY(pLLink, ResLockEntry, LLink);
SYS_LIST_DEL(&pRLE->LLink);
RLckFreeEntry(pRLE);
}
}
SysFree(RLGates[i].pResList);
SysCloseSemaphore(RLGates[i].hSemaphore);
}
SysUnlockMutex(hRLMutex);
SysCloseMutex(hRLMutex);
return 0;
}
static unsigned long RLckHashString(char const *pData, unsigned long ulHashInit)
{
unsigned long ulHashVal = ulHashInit;
while (*pData != 0) {
ulHashVal += ToLower(*(unsigned char const *) pData);
pData++;
ulHashVal += (ulHashVal << 10);
ulHashVal ^= (ulHashVal >> 6);
}
ulHashVal += (ulHashVal << 3);
ulHashVal ^= (ulHashVal >> 11);
ulHashVal += (ulHashVal << 15);
return ulHashVal;
}
static void RLckGetResLocator(char const *pszResourceName, ResLocator * pRL)
{
unsigned long ulResHash = RLckHashString(pszResourceName);
pRL->iWaitGate = (int) (ulResHash % STD_WAIT_GATES);
pRL->iResIdx = (int) (ulResHash % RLGates[pRL->iWaitGate].iHashSize);
}
static ResLockEntry *RLckGetEntry(ResLocator const *pRL, char const *pszResourceName)
{
SysListHead *pHead = &RLGates[pRL->iWaitGate].pResList[pRL->iResIdx];
SysListHead *pLLink;
SYS_LIST_FOR_EACH(pLLink, pHead) {
ResLockEntry *pRLE = SYS_LIST_ENTRY(pLLink, ResLockEntry, LLink);
if (stricmp(pszResourceName, pRLE->szName) == 0)
return pRLE;
}
ErrSetErrorCode(ERR_LOCK_ENTRY_NOT_FOUND);
return NULL;
}
static int RLckRemoveEntry(ResLocator const *pRL, ResLockEntry * pRLE)
{
SysListHead *pHead = &RLGates[pRL->iWaitGate].pResList[pRL->iResIdx];
SysListHead *pLLink;
SYS_LIST_FOR_EACH(pLLink, pHead) {
ResLockEntry *pCurrRLE = SYS_LIST_ENTRY(pLLink, ResLockEntry, LLink);
if (pCurrRLE == pRLE) {
SYS_LIST_DEL(&pRLE->LLink);
RLckFreeEntry(pRLE);
return 0;
}
}
ErrSetErrorCode(ERR_LOCK_ENTRY_NOT_FOUND);
return ERR_LOCK_ENTRY_NOT_FOUND;
}
static ResLockEntry *RLckAllocEntry(char const *pszResourceName)
{
ResLockEntry *pRLE = (ResLockEntry *) SysAlloc(sizeof(ResLockEntry) +
strlen(pszResourceName));
if (pRLE == NULL)
return NULL;
SYS_INIT_LIST_LINK(&pRLE->LLink);
strcpy(pRLE->szName, pszResourceName);
return pRLE;
}
static int RLckTryLockEX(ResLocator const *pRL, char const *pszResourceName)
{
ResLockEntry *pRLE = RLckGetEntry(pRL, pszResourceName);
if (pRLE == NULL) {
SysListHead *pHead = &RLGates[pRL->iWaitGate].pResList[pRL->iResIdx];
if ((pRLE = RLckAllocEntry(pszResourceName)) == NULL)
return ErrGetErrorCode();
pRLE->iExLocks = 1;
SYS_LIST_ADDH(&pRLE->LLink, pHead);
} else {
if (pRLE->iExLocks > 0 || pRLE->iShLocks > 0) {
ErrSetErrorCode(ERR_LOCKED_RESOURCE);
return ERR_LOCKED_RESOURCE;
}
pRLE->iExLocks = 1;
}
return 0;
}
static int RLckDoUnlockEX(ResLocator const *pRL, char const *pszResourceName)
{
ResLockEntry *pRLE = RLckGetEntry(pRL, pszResourceName);
if (pRLE == NULL || pRLE->iExLocks == 0) {
ErrSetErrorCode(ERR_RESOURCE_NOT_LOCKED);
return ERR_RESOURCE_NOT_LOCKED;
}
pRLE->iExLocks = 0;
/* Remove entry from list and delete entry memory */
if (RLckRemoveEntry(pRL, pRLE) < 0)
return ErrGetErrorCode();
/* Release waiting processes */
if (RLGates[pRL->iWaitGate].iWaitingProcesses > 0) {
SysReleaseSemaphore(RLGates[pRL->iWaitGate].hSemaphore,
RLGates[pRL->iWaitGate].iWaitingProcesses);
RLGates[pRL->iWaitGate].iWaitingProcesses = 0;
}
return 0;
}
static int RLckTryLockSH(ResLocator const *pRL, char const *pszResourceName)
{
ResLockEntry *pRLE = RLckGetEntry(pRL, pszResourceName);
if (pRLE == NULL) {
SysListHead *pHead = &RLGates[pRL->iWaitGate].pResList[pRL->iResIdx];
if ((pRLE = RLckAllocEntry(pszResourceName)) == NULL)
return ErrGetErrorCode();
pRLE->iShLocks = 1;
SYS_LIST_ADDH(&pRLE->LLink, pHead);
} else {
if (pRLE->iExLocks > 0) {
ErrSetErrorCode(ERR_LOCKED_RESOURCE);
return ERR_LOCKED_RESOURCE;
}
++pRLE->iShLocks;
}
return 0;
}
static int RLckDoUnlockSH(ResLocator const *pRL, char const *pszResourceName)
{
ResLockEntry *pRLE = RLckGetEntry(pRL, pszResourceName);
if (pRLE == NULL || pRLE->iShLocks == 0) {
ErrSetErrorCode(ERR_RESOURCE_NOT_LOCKED);
return ERR_RESOURCE_NOT_LOCKED;
}
if (--pRLE->iShLocks == 0) {
/* Remove entry from list and delete entry heap memory */
if (RLckRemoveEntry(pRL, pRLE) < 0)
return ErrGetErrorCode();
/* Release waiting processes */
if (RLGates[pRL->iWaitGate].iWaitingProcesses > 0) {
SysReleaseSemaphore(RLGates[pRL->iWaitGate].hSemaphore,
RLGates[pRL->iWaitGate].iWaitingProcesses);
RLGates[pRL->iWaitGate].iWaitingProcesses = 0;
}
}
return 0;
}
static RLCK_HANDLE RLckLock(char const *pszResourceName,
int (*pLockProc) (ResLocator const *, char const *))
{
ResLocator RL;
RLckGetResLocator(pszResourceName, &RL);
for (;;) {
/* Lock resources list access */
if (SysLockMutex(hRLMutex, SYS_INFINITE_TIMEOUT) < 0)
return INVALID_RLCK_HANDLE;
int iLockResult = (*pLockProc)(&RL, pszResourceName);
if (iLockResult == ERR_LOCKED_RESOURCE) {
SYS_SEMAPHORE SemID = RLGates[RL.iWaitGate].hSemaphore;
++RLGates[RL.iWaitGate].iWaitingProcesses;
SysUnlockMutex(hRLMutex);
if (SysWaitSemaphore(SemID, SYS_INFINITE_TIMEOUT) < 0)
return INVALID_RLCK_HANDLE;
} else if (iLockResult == 0) {
SysUnlockMutex(hRLMutex);
break;
} else {
SysUnlockMutex(hRLMutex);
return INVALID_RLCK_HANDLE;
}
}
return (RLCK_HANDLE) SysStrDup(pszResourceName);
}
static int RLckUnlock(RLCK_HANDLE hLock,
int (*pUnlockProc) (ResLocator const *, char const *))
{
char *pszResourceName = (char *) hLock;
ResLocator RL;
RLckGetResLocator(pszResourceName, &RL);
/* Lock resources list access */
if (SysLockMutex(hRLMutex, SYS_INFINITE_TIMEOUT) < 0)
return ErrGetErrorCode();
if ((*pUnlockProc)(&RL, pszResourceName) < 0) {
ErrorPush();
SysUnlockMutex(hRLMutex);
SysFree(pszResourceName);
return ErrorPop();
}
SysUnlockMutex(hRLMutex);
SysFree(pszResourceName);
return 0;
}
RLCK_HANDLE RLckLockEX(char const *pszResourceName)
{
return RLckLock(pszResourceName, RLckTryLockEX);
}
int RLckUnlockEX(RLCK_HANDLE hLock)
{
return hLock != INVALID_RLCK_HANDLE ? RLckUnlock(hLock, RLckDoUnlockEX): 0;
}
RLCK_HANDLE RLckLockSH(char const *pszResourceName)
{
return RLckLock(pszResourceName, RLckTryLockSH);
}
int RLckUnlockSH(RLCK_HANDLE hLock)
{
return hLock != INVALID_RLCK_HANDLE ? RLckUnlock(hLock, RLckDoUnlockSH): 0;
}