/* crl.c * * Copyright (C) 2006-2013 wolfSSL Inc. * * This file is part of CyaSSL. * * CyaSSL 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. * * CyaSSL 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 */ #ifdef HAVE_CONFIG_H #include #endif #include #ifdef HAVE_CRL #include #include #include #include #include /* Initialze CRL members */ int InitCRL(CYASSL_CRL* crl, CYASSL_CERT_MANAGER* cm) { CYASSL_ENTER("InitCRL"); crl->cm = cm; crl->crlList = NULL; crl->monitors[0].path = NULL; crl->monitors[1].path = NULL; #ifdef HAVE_CRL_MONITOR crl->tid = 0; #endif if (InitMutex(&crl->crlLock) != 0) return BAD_MUTEX_ERROR; return 0; } /* Initialze CRL Entry */ static int InitCRL_Entry(CRL_Entry* crle, DecodedCRL* dcrl) { CYASSL_ENTER("InitCRL_Entry"); XMEMCPY(crle->issuerHash, dcrl->issuerHash, SHA_DIGEST_SIZE); /* XMEMCPY(crle->crlHash, dcrl->crlHash, SHA_DIGEST_SIZE); * copy the hash here if needed for optimized comparisons */ XMEMCPY(crle->lastDate, dcrl->lastDate, MAX_DATE_SIZE); XMEMCPY(crle->nextDate, dcrl->nextDate, MAX_DATE_SIZE); crle->lastDateFormat = dcrl->lastDateFormat; crle->nextDateFormat = dcrl->nextDateFormat; crle->certs = dcrl->certs; /* take ownsership */ dcrl->certs = NULL; crle->totalCerts = dcrl->totalCerts; return 0; } /* Free all CRL Entry resources */ static void FreeCRL_Entry(CRL_Entry* crle) { RevokedCert* tmp = crle->certs; CYASSL_ENTER("FreeCRL_Entry"); while(tmp) { RevokedCert* next = tmp->next; XFREE(tmp, NULL, DYNAMIC_TYPE_REVOKED); tmp = next; } } /* Free all CRL resources */ void FreeCRL(CYASSL_CRL* crl, int dynamic) { CRL_Entry* tmp = crl->crlList; CYASSL_ENTER("FreeCRL"); if (crl->monitors[0].path) XFREE(crl->monitors[0].path, NULL, DYNAMIC_TYPE_CRL_MONITOR); if (crl->monitors[1].path) XFREE(crl->monitors[1].path, NULL, DYNAMIC_TYPE_CRL_MONITOR); while(tmp) { CRL_Entry* next = tmp->next; FreeCRL_Entry(tmp); XFREE(tmp, NULL, DYNAMIC_TYPE_CRL_ENTRY); tmp = next; } #ifdef HAVE_CRL_MONITOR if (crl->tid != 0) { CYASSL_MSG("Canceling monitor thread"); pthread_cancel(crl->tid); } #endif FreeMutex(&crl->crlLock); if (dynamic) /* free self */ XFREE(crl, NULL, DYNAMIC_TYPE_CRL); } /* Is the cert ok with CRL, return 0 on success */ int CheckCertCRL(CYASSL_CRL* crl, DecodedCert* cert) { CRL_Entry* crle; int foundEntry = 0; int ret = 0; CYASSL_ENTER("CheckCertCRL"); if (LockMutex(&crl->crlLock) != 0) { CYASSL_MSG("LockMutex failed"); return BAD_MUTEX_ERROR; } crle = crl->crlList; while (crle) { if (XMEMCMP(crle->issuerHash, cert->issuerHash, SHA_DIGEST_SIZE) == 0) { CYASSL_MSG("Found CRL Entry on list"); CYASSL_MSG("Checking next date validity"); if (!ValidateDate(crle->nextDate, crle->nextDateFormat, AFTER)) { CYASSL_MSG("CRL next date is no longer valid"); ret = ASN_AFTER_DATE_E; } else foundEntry = 1; break; } crle = crle->next; } if (foundEntry) { RevokedCert* rc = crle->certs; while (rc) { if (XMEMCMP(rc->serialNumber, cert->serial, rc->serialSz) == 0) { CYASSL_MSG("Cert revoked"); ret = CRL_CERT_REVOKED; break; } rc = rc->next; } } UnLockMutex(&crl->crlLock); if (foundEntry == 0) { CYASSL_MSG("Couldn't find CRL for status check"); ret = CRL_MISSING; if (crl->cm->cbMissingCRL) { char url[256]; CYASSL_MSG("Issuing missing CRL callback"); url[0] = '\0'; if (cert->extCrlInfoSz < (int)sizeof(url) -1 ) { XMEMCPY(url, cert->extCrlInfo, cert->extCrlInfoSz); url[cert->extCrlInfoSz] = '\0'; } else { CYASSL_MSG("CRL url too long"); } crl->cm->cbMissingCRL(url); } } return ret; } /* Add Decoded CRL, 0 on success */ static int AddCRL(CYASSL_CRL* crl, DecodedCRL* dcrl) { CRL_Entry* crle; CYASSL_ENTER("AddCRL"); crle = (CRL_Entry*)XMALLOC(sizeof(CRL_Entry), NULL, DYNAMIC_TYPE_CRL_ENTRY); if (crle == NULL) { CYASSL_MSG("alloc CRL Entry failed"); return -1; } if (InitCRL_Entry(crle, dcrl) < 0) { CYASSL_MSG("Init CRL Entry failed"); XFREE(crle, NULL, DYNAMIC_TYPE_CRL_ENTRY); return -1; } if (LockMutex(&crl->crlLock) != 0) { CYASSL_MSG("LockMutex failed"); FreeCRL_Entry(crle); XFREE(crle, NULL, DYNAMIC_TYPE_CRL_ENTRY); return BAD_MUTEX_ERROR; } crle->next = crl->crlList; crl->crlList = crle; UnLockMutex(&crl->crlLock); return 0; } /* Load CRL File of type, SSL_SUCCESS on ok */ int BufferLoadCRL(CYASSL_CRL* crl, const byte* buff, long sz, int type) { int ret = SSL_SUCCESS; const byte* myBuffer = buff; /* if DER ok, otherwise switch */ buffer der; DecodedCRL dcrl; der.buffer = NULL; CYASSL_ENTER("BufferLoadCRL"); if (crl == NULL || buff == NULL || sz == 0) return BAD_FUNC_ARG; if (type == SSL_FILETYPE_PEM) { int eccKey = 0; /* not used */ EncryptedInfo info; info.ctx = NULL; ret = PemToDer(buff, sz, CRL_TYPE, &der, NULL, &info, &eccKey); if (ret == 0) { myBuffer = der.buffer; sz = der.length; } else { CYASSL_MSG("Pem to Der failed"); return -1; } } InitDecodedCRL(&dcrl); ret = ParseCRL(&dcrl, myBuffer, (word32)sz, crl->cm); if (ret != 0) { CYASSL_MSG("ParseCRL error"); } else { ret = AddCRL(crl, &dcrl); if (ret != 0) { CYASSL_MSG("AddCRL error"); } } FreeDecodedCRL(&dcrl); if (der.buffer) XFREE(der.buffer, NULL, DYNAMIC_TYPE_CRL); if (ret == 0) return SSL_SUCCESS; /* convert */ return ret; } #ifdef HAVE_CRL_MONITOR /* read in new CRL entries and save new list */ static int SwapLists(CYASSL_CRL* crl) { int ret; CYASSL_CRL tmp; CRL_Entry* newList; if (InitCRL(&tmp, crl->cm) < 0) { CYASSL_MSG("Init tmp CRL failed"); return -1; } if (crl->monitors[0].path) { ret = LoadCRL(&tmp, crl->monitors[0].path, SSL_FILETYPE_PEM, 0); if (ret != SSL_SUCCESS) { CYASSL_MSG("PEM LoadCRL on dir change failed"); FreeCRL(&tmp, 0); return -1; } } if (crl->monitors[1].path) { ret = LoadCRL(&tmp, crl->monitors[1].path, SSL_FILETYPE_ASN1, 0); if (ret != SSL_SUCCESS) { CYASSL_MSG("DER LoadCRL on dir change failed"); FreeCRL(&tmp, 0); return -1; } } if (LockMutex(&crl->crlLock) != 0) { CYASSL_MSG("LockMutex failed"); FreeCRL(&tmp, 0); return -1; } newList = tmp.crlList; /* swap lists */ tmp.crlList = crl->crlList; crl->crlList = newList; UnLockMutex(&crl->crlLock); FreeCRL(&tmp, 0); return 0; } #if (defined(__MACH__) || defined(__FreeBSD__)) #include #include #include #include #ifdef __MACH__ #define XEVENT_MODE O_EVTONLY #elif defined(__FreeBSD__) #define XEVENT_MODE EVFILT_VNODE #endif /* OS X monitoring */ static void* DoMonitor(void* arg) { int fPEM, fDER, kq; struct kevent change; CYASSL_CRL* crl = (CYASSL_CRL*)arg; CYASSL_ENTER("DoMonitor"); kq = kqueue(); if (kq == -1) { CYASSL_MSG("kqueue failed"); return NULL; } fPEM = -1; fDER = -1; if (crl->monitors[0].path) { fPEM = open(crl->monitors[0].path, XEVENT_MODE); if (fPEM == -1) { CYASSL_MSG("PEM event dir open failed"); return NULL; } } if (crl->monitors[1].path) { fDER = open(crl->monitors[1].path, XEVENT_MODE); if (fDER == -1) { CYASSL_MSG("DER event dir open failed"); return NULL; } } if (fPEM != -1) EV_SET(&change, fPEM, EVFILT_VNODE, EV_ADD | EV_ENABLE | EV_ONESHOT, NOTE_DELETE | NOTE_EXTEND | NOTE_WRITE | NOTE_ATTRIB, 0, 0); if (fDER != -1) EV_SET(&change, fDER, EVFILT_VNODE, EV_ADD | EV_ENABLE | EV_ONESHOT, NOTE_DELETE | NOTE_EXTEND | NOTE_WRITE | NOTE_ATTRIB, 0, 0); for (;;) { struct kevent event; int numEvents = kevent(kq, &change, 1, &event, 1, NULL); CYASSL_MSG("Got kevent"); if (numEvents == -1) { CYASSL_MSG("kevent problem, continue"); continue; } if (SwapLists(crl) < 0) { CYASSL_MSG("SwapLists problem, continue"); } } return NULL; } #elif defined(__linux__) #include #include #include /* linux monitoring */ static void* DoMonitor(void* arg) { int notifyFd; int wd; CYASSL_CRL* crl = (CYASSL_CRL*)arg; CYASSL_ENTER("DoMonitor"); notifyFd = inotify_init(); if (notifyFd < 0) { CYASSL_MSG("inotify failed"); return NULL; } if (crl->monitors[0].path) { wd = inotify_add_watch(notifyFd, crl->monitors[0].path, IN_CLOSE_WRITE | IN_DELETE); if (wd < 0) { CYASSL_MSG("PEM notify add watch failed"); return NULL; } } if (crl->monitors[1].path) { wd = inotify_add_watch(notifyFd, crl->monitors[1].path, IN_CLOSE_WRITE | IN_DELETE); if (wd < 0) { CYASSL_MSG("DER notify add watch failed"); return NULL; } } for (;;) { char buff[8192]; int length = read(notifyFd, buff, sizeof(buff)); CYASSL_MSG("Got notify event"); if (length < 0) { CYASSL_MSG("notify read problem, continue"); continue; } if (SwapLists(crl) < 0) { CYASSL_MSG("SwapLists problem, continue"); } } return NULL; } #else #error "CRL monitor only currently supported on linux or mach" #endif /* MACH or linux */ /* Start Monitoring the CRL path(s) in a thread */ static int StartMonitorCRL(CYASSL_CRL* crl) { pthread_attr_t attr; CYASSL_ENTER("StartMonitorCRL"); if (crl == NULL) return BAD_FUNC_ARG; if (crl->tid != 0) { CYASSL_MSG("Monitor thread already running"); return MONITOR_RUNNING_E; } pthread_attr_init(&attr); if (pthread_create(&crl->tid, &attr, DoMonitor, crl) != 0) { CYASSL_MSG("Thread creation error"); return THREAD_CREATE_E; } return SSL_SUCCESS; } #else /* HAVE_CRL_MONITOR */ static int StartMonitorCRL(CYASSL_CRL* crl) { (void)crl; CYASSL_ENTER("StartMonitorCRL"); CYASSL_MSG("Not compiled in"); return NOT_COMPILED_IN; } #endif /* HAVE_CRL_MONITOR */ /* Load CRL path files of type, SSL_SUCCESS on ok */ int LoadCRL(CYASSL_CRL* crl, const char* path, int type, int monitor) { struct dirent* entry; DIR* dir; int ret = SSL_SUCCESS; CYASSL_ENTER("LoadCRL"); if (crl == NULL) return BAD_FUNC_ARG; dir = opendir(path); if (dir == NULL) { CYASSL_MSG("opendir path crl load failed"); return BAD_PATH_ERROR; } while ( (entry = readdir(dir)) != NULL) { char name[MAX_FILENAME_SZ]; struct stat s; XMEMSET(name, 0, sizeof(name)); XSTRNCPY(name, path, MAX_FILENAME_SZ/2 - 2); XSTRNCAT(name, "/", 1); XSTRNCAT(name, entry->d_name, MAX_FILENAME_SZ/2); if (stat(name, &s) != 0) { CYASSL_MSG("stat on name failed"); continue; } if (s.st_mode & S_IFREG) { if (type == SSL_FILETYPE_PEM) { if (strstr(entry->d_name, ".pem") == NULL) { CYASSL_MSG("not .pem file, skipping"); continue; } } else { if (strstr(entry->d_name, ".der") == NULL && strstr(entry->d_name, ".crl") == NULL) { CYASSL_MSG("not .der or .crl file, skipping"); continue; } } if (ProcessFile(NULL, name, type, CRL_TYPE, NULL, 0, crl) != SSL_SUCCESS) { CYASSL_MSG("CRL file load failed, continuing"); } } } if (monitor & CYASSL_CRL_MONITOR) { CYASSL_MSG("monitor path requested"); if (type == SSL_FILETYPE_PEM) { crl->monitors[0].path = strdup(path); crl->monitors[0].type = SSL_FILETYPE_PEM; if (crl->monitors[0].path == NULL) ret = MEMORY_E; } else { crl->monitors[1].path = strdup(path); crl->monitors[1].type = SSL_FILETYPE_ASN1; if (crl->monitors[1].path == NULL) ret = MEMORY_E; } if (monitor & CYASSL_CRL_START_MON) { CYASSL_MSG("start monitoring requested"); ret = StartMonitorCRL(crl); } } closedir(dir); return ret; } #endif /* HAVE_CRL */