/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* * mutex.c * * This file implements a mutual-exclusion locking facility for Modules * using the NSS Cryptoki Framework. */ #ifndef CK_T #include "ck.h" #endif /* CK_T */ /* * NSSCKFWMutex * * NSSCKFWMutex_Destroy * NSSCKFWMutex_Lock * NSSCKFWMutex_Unlock * * nssCKFWMutex_Create * nssCKFWMutex_Destroy * nssCKFWMutex_Lock * nssCKFWMutex_Unlock * * -- debugging versions only -- * nssCKFWMutex_verifyPointer * */ struct NSSCKFWMutexStr { PRLock *lock; }; #ifdef DEBUG /* * But first, the pointer-tracking stuff. * * NOTE: the pointer-tracking support in NSS/base currently relies * upon NSPR's CallOnce support. That, however, relies upon NSPR's * locking, which is tied into the runtime. We need a pointer-tracker * implementation that uses the locks supplied through C_Initialize. * That support, however, can be filled in later. So for now, I'll * just do this routines as no-ops. */ static CK_RV mutex_add_pointer( const NSSCKFWMutex *fwMutex) { return CKR_OK; } static CK_RV mutex_remove_pointer( const NSSCKFWMutex *fwMutex) { return CKR_OK; } NSS_IMPLEMENT CK_RV nssCKFWMutex_verifyPointer( const NSSCKFWMutex *fwMutex) { return CKR_OK; } #endif /* DEBUG */ /* * nssCKFWMutex_Create * */ NSS_EXTERN NSSCKFWMutex * nssCKFWMutex_Create( CK_C_INITIALIZE_ARGS_PTR pInitArgs, CryptokiLockingState LockingState, NSSArena *arena, CK_RV *pError) { NSSCKFWMutex *mutex; mutex = nss_ZNEW(arena, NSSCKFWMutex); if (!mutex) { *pError = CKR_HOST_MEMORY; return (NSSCKFWMutex *)NULL; } *pError = CKR_OK; mutex->lock = NULL; if (LockingState == MultiThreaded) { mutex->lock = PR_NewLock(); if (!mutex->lock) { *pError = CKR_HOST_MEMORY; /* we couldn't get the resource */ } } if (CKR_OK != *pError) { (void)nss_ZFreeIf(mutex); return (NSSCKFWMutex *)NULL; } #ifdef DEBUG *pError = mutex_add_pointer(mutex); if (CKR_OK != *pError) { if (mutex->lock) { PR_DestroyLock(mutex->lock); } (void)nss_ZFreeIf(mutex); return (NSSCKFWMutex *)NULL; } #endif /* DEBUG */ return mutex; } /* * nssCKFWMutex_Destroy * */ NSS_EXTERN CK_RV nssCKFWMutex_Destroy( NSSCKFWMutex *mutex) { CK_RV rv = CKR_OK; #ifdef NSSDEBUG rv = nssCKFWMutex_verifyPointer(mutex); if (CKR_OK != rv) { return rv; } #endif /* NSSDEBUG */ if (mutex->lock) { PR_DestroyLock(mutex->lock); } #ifdef DEBUG (void)mutex_remove_pointer(mutex); #endif /* DEBUG */ (void)nss_ZFreeIf(mutex); return rv; } /* * nssCKFWMutex_Lock * */ NSS_EXTERN CK_RV nssCKFWMutex_Lock( NSSCKFWMutex *mutex) { #ifdef NSSDEBUG CK_RV rv = nssCKFWMutex_verifyPointer(mutex); if (CKR_OK != rv) { return rv; } #endif /* NSSDEBUG */ if (mutex->lock) { PR_Lock(mutex->lock); } return CKR_OK; } /* * nssCKFWMutex_Unlock * */ NSS_EXTERN CK_RV nssCKFWMutex_Unlock( NSSCKFWMutex *mutex) { PRStatus nrv; #ifdef NSSDEBUG CK_RV rv = nssCKFWMutex_verifyPointer(mutex); if (CKR_OK != rv) { return rv; } #endif /* NSSDEBUG */ if (!mutex->lock) return CKR_OK; nrv = PR_Unlock(mutex->lock); /* if unlock fails, either we have a programming error, or we have * some sort of hardware failure... in either case return CKR_DEVICE_ERROR. */ return nrv == PR_SUCCESS ? CKR_OK : CKR_DEVICE_ERROR; } /* * NSSCKFWMutex_Destroy * */ NSS_EXTERN CK_RV NSSCKFWMutex_Destroy( NSSCKFWMutex *mutex) { #ifdef DEBUG CK_RV rv = nssCKFWMutex_verifyPointer(mutex); if (CKR_OK != rv) { return rv; } #endif /* DEBUG */ return nssCKFWMutex_Destroy(mutex); } /* * NSSCKFWMutex_Lock * */ NSS_EXTERN CK_RV NSSCKFWMutex_Lock( NSSCKFWMutex *mutex) { #ifdef DEBUG CK_RV rv = nssCKFWMutex_verifyPointer(mutex); if (CKR_OK != rv) { return rv; } #endif /* DEBUG */ return nssCKFWMutex_Lock(mutex); } /* * NSSCKFWMutex_Unlock * */ NSS_EXTERN CK_RV NSSCKFWMutex_Unlock( NSSCKFWMutex *mutex) { #ifdef DEBUG CK_RV rv = nssCKFWMutex_verifyPointer(mutex); if (CKR_OK != rv) { return rv; } #endif /* DEBUG */ return nssCKFWMutex_Unlock(mutex); }