/* * Copyright 2000, International Business Machines Corporation and others. * All Rights Reserved. * * This software has been released under the terms of the IBM Public * License. For details, see the LICENSE file in the top-level source * directory or online at http://www.openafs.org/dl/license10.html */ #include #include #include #include #include "kauth.h" #include #include #ifdef AFS_NT40_ENV #include #else #include #include #endif #include #include #include #include #include #include #include #include #include #ifdef AFS_NT40_ENV #include #else #include #endif #include #include #include #include #include "kautils.h" #include "kaserver.h" #include "kalog.h" #include "kaport.h" #include "kauth_internal.h" #include "afs/audit.h" #include "kadatabase.h" #include "kaprocs.h" extern struct ubik_dbase *KA_dbase; struct kaheader cheader; Date cheaderReadTime; /* time cheader last read in */ extern struct afsconf_dir *KA_conf; /* for getting cell info */ char lrealm[MAXKTCREALMLEN]; #ifndef EXPIREPW /* password expiration default yes */ #define EXPIREPW #endif #ifndef AUTOCPWINTERVAL #define AUTOCPWINTERVAL (24*3600) #endif #ifndef AUTOCPWUPDATES #define AUTOCPWUPDATES 128 #endif extern int npwSums; static afs_int32 autoCPWInterval; static afs_int32 autoCPWUpdates; static afs_int32 set_password(struct ubik_trans *tt, char *name, char *instance, struct ktc_encryptionKey *password, afs_int32 kvno, afs_int32 caller); static afs_int32 impose_reuse_limits(EncryptionKey *password, struct kaentry *tentry); static int create_user(struct ubik_trans *tt, char *name, char *instance, struct ktc_encryptionKey *key, afs_int32 caller, afs_int32 flags); /* This routine is called whenever an RPC interface needs the time. It uses the current time to randomize a 128 bit value that is used to change the AuthServer Admin and TGS keys automatically. */ static Date nextAutoCPWTime = 0; static afs_int32 totalUpdates = 0; /* This routine is ostensibly to get the current time, but basically its job is to periodically update a random number. It also periodically updates the keys for the builtin servers. This is why it needs a transaction pointer and returns an error code. If the caller is in a read transaction, the tt ptr should be zero and the return code need not be checked. */ static afs_int32 get_time(Date *timeP, struct ubik_trans *tt, /* tt != 0: a write transaction */ int admin) /* the caller is an admin user */ { /* random value used to change Admin & TGS keys, this is at risk during * multi-threaded operation, but I think the consequences are fairly * harmless. */ static afs_uint32 random_value[4]; struct timeval time; unsigned int bit, nbit; int i; afs_int32 to; gettimeofday(&time, 0); bit = (random_value[3] >> 31) & 1; /* get high bit of high word */ for (i = 0; i < 4; i++) { nbit = random_value[i] >> 31; random_value[i] = (random_value[i] << 1) + bit; bit = nbit & 1; } /* get 60ths from usec. This is all the real randomness there is. */ random_value[0] += time.tv_usec / 16667; if (nextAutoCPWTime == 0) { /* initialize things */ nextAutoCPWTime = time.tv_sec + autoCPWInterval; memcpy(&random_value[0], &time, 8); memcpy(&random_value[2], &time, 8); } if ((++totalUpdates >= autoCPWUpdates) && tt && /* a write transaction */ ((admin && (time.tv_sec >= nextAutoCPWTime)) || (time.tv_sec >= nextAutoCPWTime + autoCPWInterval))) { struct ktc_encryptionKey key; char buf[4 * sizeof(key) + 1]; struct kaentry tentry; afs_int32 code; char bob[KA_TIMESTR_LEN]; ka_timestr(time.tv_sec, bob, KA_TIMESTR_LEN); es_Report("Auto CPW at %s\n", bob); if (!admin) es_Report(" ... even though no ADMIN user\n"); code = FindBlock(tt, KA_ADMIN_NAME, KA_ADMIN_INST, &to, &tentry); if (code) return code; if (to) { /* check if auto cpw is disabled */ if (!(ntohl(tentry.flags) & KAFNOCPW)) { memcpy(&key, &random_value[0], sizeof(key)); des_fixup_key_parity(ktc_to_cblock(&key)); code = set_password(tt, KA_ADMIN_NAME, KA_ADMIN_INST, &key, 0, 0); if (code == 0) { des_init_random_number_generator(ktc_to_cblock(&key)); ka_ConvertBytes(buf, sizeof(buf), (char *)&key, sizeof(key)); es_Report("New Admin key is %s\n", buf); } else { es_Report ("in get_time: set_password failed because: %d\n", code); return code; } } } code = FindBlock(tt, KA_TGS_NAME, lrealm, &to, &tentry); if (code) return code; if (to) { /* check if auto cpw is disabled */ if (!(ntohl(tentry.flags) & KAFNOCPW)) { memcpy(&key, &random_value[2], sizeof(key)); des_fixup_key_parity(ktc_to_cblock(&key)); code = set_password(tt, KA_TGS_NAME, lrealm, &key, 0, 0); if (code == 0) { ka_ConvertBytes(buf, sizeof(buf), (char *)&key, sizeof(key)); es_Report("New TGS key is %s\n", buf); } else { es_Report ("in get_time: set_password failed because: %s\n", afs_error_message(code)); return code; } } } code = ka_FillKeyCache(tt); /* ensure in-core copy is uptodate */ if (code) return code; nextAutoCPWTime = time.tv_sec + autoCPWInterval; totalUpdates = 0; } if (timeP) *timeP = time.tv_sec; return 0; } static int noAuthenticationRequired; /* global state */ static int recheckNoAuth; /* global state */ /* kaprocsInited is sort of a lock: during a transaction only one process runs while kaprocsInited is false. */ static int kaprocsInited = 0; /* This variable is protected by the kaprocsInited flag. */ static int (*rebuildDatabase) (struct ubik_trans *); /* This is called to initialize the database */ static int initialize_database(struct ubik_trans *tt) { struct ktc_encryptionKey key; int code; gettimeofday((struct timeval *)&key, 0); /* this is just a cheap seed key */ des_fixup_key_parity(ktc_to_cblock(&key)); des_init_random_number_generator(ktc_to_cblock(&key)); if ((code = des_random_key(ktc_to_cblock(&key))) || (code = create_user(tt, KA_ADMIN_NAME, KA_ADMIN_INST, &key, 0, KAFNORMAL | KAFNOSEAL | KAFNOTGS))) return code; if ((code = des_random_key(ktc_to_cblock(&key))) || (code = create_user(tt, KA_TGS_NAME, lrealm, &key, 0, KAFNORMAL | KAFNOSEAL | KAFNOTGS))) return code; return 0; } /* This routine handles initialization required by this module. The initFlags parameter passes some information about the command line arguments. */ afs_int32 init_kaprocs(const char *lclpath, int initFlags) { int code; struct ubik_trans *tt; struct ktc_encryptionKey key; afs_int32 kvno; kaprocsInited = 0; if (myHost == 0) return KAINTERNALERROR; if (KA_conf == 0) return KAINTERNALERROR; code = afsconf_GetLocalCell(KA_conf, lrealm, sizeof(lrealm)); if (code) { printf("** Can't determine local cell name!\n"); return KANOCELLS; } ucstring(lrealm, lrealm, sizeof(lrealm)); recheckNoAuth = 1; if (initFlags & 1) noAuthenticationRequired = 1; if (initFlags & 2) recheckNoAuth = 0; if (recheckNoAuth) noAuthenticationRequired = afsconf_GetNoAuthFlag(KA_conf); if (noAuthenticationRequired) printf("Running server with security disabled\n"); if (initFlags & 4) { autoCPWInterval = 10; autoCPWUpdates = 10; } else { autoCPWInterval = AUTOCPWINTERVAL; autoCPWUpdates = AUTOCPWUPDATES; } init_kadatabase(initFlags); rebuildDatabase = initialize_database; if ((code = InitAuthServ(&tt, LOCKREAD, 0))) { printf("init_kaprocs: InitAuthServ failed: code = %d\n", code); return code; } code = ka_LookupKey(tt, KA_ADMIN_NAME, KA_ADMIN_INST, &kvno, &key); if (code) { ubik_AbortTrans(tt); printf ("init_kaprocs: ka_LookupKey (code = %d) DB not initialized properly?\n", code); return code; } des_init_random_number_generator(ktc_to_cblock(&key)); code = ubik_EndTrans(tt); if (code) { printf("init_kaprocs: ubik_EndTrans failed: code = %d\n", code); return code; } kaux_opendb((char *)lclpath);/* aux database stores failure counters */ rebuildDatabase = 0; /* only do this during init */ kaprocsInited = 1; return 0; } /* These variable are for returning debugging info about the state of the server. If they get trashed during multi-threaded operation it doesn't matter. */ /* this is global so COUNT_REQ in krb_udp.c can refer to it. */ char *lastOperation = 0; /* name of last operation */ static Date lastTrans; /* time of last transaction */ static char adminPrincipal[256]; static char authPrincipal[256]; static char tgsPrincipal[256]; static char tgsServerPrincipal[256]; void save_principal(char *p, char *n, char *i, char *c) { int s = 255; int l; l = strlen(n); if (l > s) return; strcpy(p, n); s -= l; if (i && strlen(i)) { if (s-- <= 0) return; strcat(p, "."); l = strlen(i); if (l > s) return; strcat(p, i); s -= l; } if (c && strlen(c)) { if (s-- <= 0) return; strcat(p, "@"); l = strlen(c); if (l > s) return; strcat(p, c); } } static afs_int32 check_auth(struct rx_call *call, struct ubik_trans *at, int admin, /* require caller to be ADMIN */ afs_int32 *acaller_id) { rxkad_level level; char name[MAXKTCNAMELEN]; char instance[MAXKTCNAMELEN]; char cell[MAXKTCREALMLEN]; afs_int32 kvno; Date expiration; /* checked by Security Module */ struct kaentry tentry; int code; int si; *acaller_id = 0; if (recheckNoAuth) noAuthenticationRequired = afsconf_GetNoAuthFlag(KA_conf); si = rx_SecurityClassOf(rx_ConnectionOf(call)); if (si == RX_SCINDEX_VAB) { printf("No support for VAB security module yet.\n"); return -1; } else if (si == RX_SCINDEX_NULL) { code = KANOAUTH; goto no_auth; } else if (si != RX_SCINDEX_KAD) { es_Report("Unknown security index %d\n", si); return -1; } code = rxkad_GetServerInfo(rx_ConnectionOf(call), &level, &expiration, name, instance, cell, &kvno); if (code) { goto no_auth; } if (level != rxkad_crypt) { es_Report("Incorrect security level = %d\n", level); code = KANOAUTH; goto no_auth; } if (!name_instance_legal(name, instance)) return KABADNAME; if (strlen(cell)) { ka_PrintUserID ("Authorization rejected because we don't understand intercell stuff yet: ", name, instance, ""); printf("@%s\n", cell); return KANOAUTH; } code = FindBlock(at, name, instance, acaller_id, &tentry); if (code) return code; if (*acaller_id == 0) { ka_PrintUserID("User ", name, instance, " unknown.\n"); return KANOENT; } save_principal(adminPrincipal, name, instance, 0); if (admin) { if (!(ntohl(tentry.flags) & KAFADMIN)) { if (noAuthenticationRequired) { ka_PrintUserID("Authorization approved for ", name, instance, " because there is no authentication required\n"); osi_auditU(call, UnAuthEvent, code, AUD_STR, name, AUD_STR, instance, AUD_STR, cell, AUD_END); return 0; } ka_PrintUserID("User ", name, instance, " is not ADMIN.\n"); return KANOAUTH; } osi_auditU(call, UseOfPrivilegeEvent, code, AUD_STR, name, AUD_STR, instance, AUD_STR, cell, AUD_END); } return 0; no_auth: if (noAuthenticationRequired) { es_Report ("Caller w/o authorization approved no authentication required\n"); osi_auditU(call, UnAuthEvent, code, AUD_STR, name, AUD_STR, instance, AUD_STR, cell, AUD_END); return 0; } return code; /* no auth info */ } afs_int32 AwaitInitialization(void) { afs_int32 start = 0; while (!kaprocsInited) { if (!start) start = time(0); else if (time(0) - start > 5) return UNOQUORUM; IOMGR_Sleep(1); } return 0; } /* This is called by every RPC interface to create a Ubik transaction and read the database header into core */ afs_int32 InitAuthServ(struct ubik_trans **tt, int lock, /* indicate read/write transaction */ int *this_op) /* opcode of RPC proc, for COUNT_ABO */ { int code; afs_int32 start = 0; /* time started waiting for quorum */ float wait = 0.91; /* start waiting for 1 second */ /* Wait for server initialization to finish if not during init_kaprocs */ if (this_op) if ((code = AwaitInitialization())) return code; for (code = UNOQUORUM; code == UNOQUORUM;) { if (lock == LOCKREAD) code = ubik_BeginTransReadAny(KA_dbase, UBIK_READTRANS, tt); else code = ubik_BeginTrans(KA_dbase, UBIK_WRITETRANS, tt); if (code == UNOQUORUM) { /* no quorum elected */ if (!start) start = time(0); else { int delay = time(0) - start; if (this_op) { /* punt quickly, if RPC call */ if (delay > 5) return code; } else { /* more patient during init. */ if (delay > 500) return code; } } printf("Waiting for quorum election.\n"); if (wait < 15.0) wait *= 1.1; IOMGR_Sleep((int)wait); } } if (code) return code; if ((code = ubik_SetLock(*tt, 1, 1, lock))) { if (this_op) COUNT_ABO; ubik_AbortTrans(*tt); return code; } /* check that dbase is initialized and setup cheader */ if (lock == LOCKREAD) { /* init but don't fix because this is read only */ code = CheckInit(*tt, 0); if (code) { ubik_AbortTrans(*tt); /* abort, since probably I/O error */ /* we did the check under a ReadAny transaction, but now, after * getting a write transaction (and thus some real guarantees * about what databases are really out there), we will check again * in CheckInit before nuking the database. Since this may now get * a UNOQUORUM we'll just do this from the top. */ if ((code = InitAuthServ(tt, LOCKWRITE, this_op))) return code; if ((code = ubik_EndTrans(*tt))) return code; /* now open the read transaction that was originally requested. */ return InitAuthServ(tt, lock, this_op); } } else { if ((code = CheckInit(*tt, rebuildDatabase))) { if (this_op) COUNT_ABO; ubik_AbortTrans(*tt); return code; } } lastTrans = time(0); ka_FillKeyCache(*tt); /* ensure in-core copy is uptodate */ return 0; } /* returns true if name is specially known by AuthServer */ static int special_name(char *name, char *instance) { return ((!strcmp(name, KA_TGS_NAME) && !strcmp(instance, lrealm)) || (strcmp(name, KA_ADMIN_NAME) == 0)); } static int create_user(struct ubik_trans *tt, char *name, char *instance, struct ktc_encryptionKey *key, afs_int32 caller, afs_int32 flags) { int code; afs_int32 to; struct kaentry tentry; afs_int32 maxLifetime; code = FindBlock(tt, name, instance, &to, &tentry); if (code) return code; if (to) return KAEXIST; /* name already exists, we fail */ to = AllocBlock(tt, &tentry); if (to == 0) return KACREATEFAIL; /* otherwise we have a block */ strncpy(tentry.userID.name, name, sizeof(tentry.userID.name)); strncpy(tentry.userID.instance, instance, sizeof(tentry.userID.instance)); tentry.flags = htonl(flags); if (special_name(name, instance)) { /* this overrides key & version */ tentry.flags = htonl(ntohl(tentry.flags) | KAFSPECIAL); tentry.key_version = htonl(-1); /* don't save this key */ if ((code = ka_NewKey(tt, to, &tentry, key))) return code; } else { memcpy(&tentry.key, key, sizeof(tentry.key)); tentry.key_version = htonl(0); } tentry.user_expiration = htonl(NEVERDATE); code = get_time(&tentry.modification_time, tt, 1); if (code) return code; /* time and addr of entry for guy changing this entry */ tentry.modification_time = htonl(tentry.modification_time); tentry.modification_id = htonl(caller); tentry.change_password_time = tentry.modification_time; if (strcmp(name, KA_TGS_NAME) == 0) maxLifetime = MAXKTCTICKETLIFETIME; else if (strcmp(name, KA_ADMIN_NAME) == 0) maxLifetime = 10 * 3600; else if (strcmp(name, AUTH_SUPERUSER) == 0) maxLifetime = 100 * 3600; else maxLifetime = 25 * 3600; /* regular users */ tentry.max_ticket_lifetime = htonl(maxLifetime); code = ThreadBlock(tt, to, &tentry); return code; } /* Put actual stub routines here */ afs_int32 SKAM_CreateUser(struct rx_call *call, char *aname, char *ainstance, EncryptionKey ainitpw) { afs_int32 code; code = kamCreateUser(call, aname, ainstance, ainitpw); osi_auditU(call, AFS_KAM_CrUserEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 kamCreateUser(struct rx_call *call, char *aname, char *ainstance, EncryptionKey ainitpw) { int code; struct ubik_trans *tt; afs_int32 caller; /* Disk offset of caller's entry */ COUNT_REQ(CreateUser); if (!des_check_key_parity(EncryptionKey_to_cblock(&ainitpw)) || des_is_weak_key(EncryptionKey_to_cblock(&ainitpw))) return KABADKEY; if (!name_instance_legal(aname, ainstance)) return KABADNAME; if ((code = InitAuthServ(&tt, LOCKWRITE, this_op))) return code; code = check_auth(call, tt, 1, &caller); if (code) { COUNT_ABO; ubik_AbortTrans(tt); return code; } code = create_user(tt, aname, ainstance, EncryptionKey_to_ktc(&ainitpw), caller, KAFNORMAL); if (code) { COUNT_ABO; ubik_AbortTrans(tt); return code; } code = ubik_EndTrans(tt); KALOG(aname, ainstance, NULL, NULL, NULL, call->conn->peer->host, LOG_CRUSER); return code; } afs_int32 SKAA_ChangePassword(struct rx_call *call, char *aname, char *ainstance, ka_CBS *arequest, ka_BBS *oanswer) { afs_int32 code; code = ChangePassWord(call, aname, ainstance, arequest, oanswer); osi_auditU(call, AFS_KAA_ChPswdEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 ChangePassWord(struct rx_call *call, char *aname, char *ainstance, ka_CBS *arequest, ka_BBS *oanswer) { int code; struct ubik_trans *tt; afs_int32 to; /* offset of block */ struct kaentry tentry; struct ka_cpwRequest request; /* request after decryption */ char *answer; /* where answer is to be put */ int answer_len; /* length of answer packet */ afs_int32 kvno; /* requested key version number */ des_key_schedule user_schedule; /* key schedule for user's key */ Date request_time; /* time request originated */ COUNT_REQ(ChangePassword); if (!name_instance_legal(aname, ainstance)) return KABADNAME; if (strcmp(ainstance, KA_ADMIN_NAME) == 0) return KABADNAME; if ((code = InitAuthServ(&tt, LOCKWRITE, this_op))) return code; code = FindBlock(tt, aname, ainstance, &to, &tentry); if (code) { goto abort; } if (to == 0) { /* no such user */ code = KANOENT; goto abort; } if (ntohl(tentry.flags) & KAFNOCPW) { code = KABADCPW; goto abort; } /* decrypt request w/ user password */ if ((code = des_key_sched(ktc_to_cblock(&tentry.key), user_schedule))) es_Report("In KAChangePassword: key_sched returned %d\n", code); des_pcbc_encrypt(arequest->SeqBody, &request, min(arequest->SeqLen, sizeof(request)), user_schedule, ktc_to_cblockptr(&tentry.key), DECRYPT); /* validate the request */ request_time = ntohl(request.time); /* reorder date */ kvno = ntohl(request.kvno); if ((abs(request_time - time(0)) > KTC_TIME_UNCERTAINTY) || strncmp(request.label, KA_CPW_REQ_LABEL, sizeof(request.label)) || (request.spare) || (kvno > MAXKAKVNO)) { /* these are reseved */ code = KABADREQUEST; goto abort; } /* check to see if the new password was used before, or if there has * not been sufficient time since the last password change */ code = impose_reuse_limits(ktc_to_EncryptionKey(&request.newpw), &tentry); if (code) { goto abort; } /* Create the Answer Packet */ answer_len = sizeof(Date) + KA_LABELSIZE; if (oanswer->MaxSeqLen < answer_len) { code = KAANSWERTOOLONG; goto abort; } oanswer->SeqLen = answer_len; answer = oanswer->SeqBody; request.time = htonl(request_time + 1); memcpy(answer, (char *)&request.time, sizeof(Date)); answer += sizeof(Date); memcpy(answer, KA_CPW_ANS_LABEL, KA_LABELSIZE); des_pcbc_encrypt(oanswer->SeqBody, oanswer->SeqBody, answer_len, user_schedule, ktc_to_cblockptr(&tentry.key), ENCRYPT); code = set_password(tt, aname, ainstance, &request.newpw, kvno, 0); if (code) { code = KAIO; goto abort; } cheader.stats.cpws = htonl(ntohl(cheader.stats.cpws) + 1); code = kawrite(tt, DOFFSET(0, &cheader, &cheader.stats.cpws), (char *)&cheader.stats.cpws, sizeof(afs_int32)); if (code) { code = KAIO; goto abort; } code = ubik_EndTrans(tt); return code; abort: COUNT_ABO; ubik_AbortTrans(tt); return code; } static afs_int32 impose_reuse_limits(EncryptionKey *password, struct kaentry *tentry) { int code; Date now; int i; extern int MinHours; afs_uint32 newsum; if (!tentry->pwsums[0] && npwSums > 1 && !tentry->pwsums[1]) return 0; /* password reuse limits not in effect */ code = get_time(&now, 0, 0); if (code) return code; if ((now - ntohl(tentry->change_password_time)) < MinHours * 60 * 60) return KATOOSOON; if (!memcmp(password, &(tentry->key), sizeof(EncryptionKey))) return KAREUSED; code = ka_KeyCheckSum((char *)password, &newsum); if (code) return code; newsum = newsum & 0x000000ff; for (i = 0; i < npwSums; i++) { if (newsum == tentry->pwsums[i]) return KAREUSED; } return 0; } static afs_int32 set_password(struct ubik_trans *tt, char *name, char *instance, struct ktc_encryptionKey *password, afs_int32 kvno, afs_int32 caller) { afs_int32 code; afs_int32 to; /* offset of block */ struct kaentry tentry; Date now; int i; extern int npwSums; afs_uint32 newsum; code = FindBlock(tt, name, instance, &to, &tentry); if (code) return code; if (to == 0) return KANOENT; /* no such user */ /* if password reuse limits in effect, set the checksums, the hard way */ if (!tentry.pwsums[0] && npwSums > 1 && !tentry.pwsums[1]) { /* do nothing, no limits */ ; } else { code = ka_KeyCheckSum((char *)&(tentry.key), &newsum); if (code) return code; for (i = npwSums - 1; i; i--) tentry.pwsums[i] = tentry.pwsums[i - 1]; tentry.pwsums[0] = newsum & 0x000000ff; } if (special_name(name, instance)) { /* set key over rides key_version */ tentry.flags = htonl(ntohl(tentry.flags) | KAFSPECIAL); if ((code = ka_NewKey(tt, to, &tentry, password))) return (code); } else { memcpy(&tentry.key, password, sizeof(tentry.key)); if (!kvno) { kvno = ntohl(tentry.key_version); if ((kvno < 1) || (kvno >= MAXKAKVNO)) kvno = 1; else kvno++; } tentry.key_version = htonl((afs_int32) kvno); /* requested key version */ } /* no-write prevents recursive call to set_password by AuthCPW code. */ code = get_time(&now, 0, 0); if (code) return code; if (caller) { tentry.modification_time = htonl(now); tentry.modification_id = htonl(caller); } tentry.change_password_time = htonl(now); if ((code = kawrite(tt, to, (char *) &tentry, sizeof(tentry)))) return (KAIO); return (0); } afs_int32 SKAM_SetPassword(struct rx_call *call, char *aname, char *ainstance, afs_int32 akvno, EncryptionKey apassword) { afs_int32 code; code = kamSetPassword(call, aname, ainstance, akvno, apassword); osi_auditU(call, AFS_KAM_SetPswdEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 kamSetPassword(struct rx_call *call, char *aname, char *ainstance, afs_int32 akvno, EncryptionKey apassword) { int code; struct ubik_trans *tt; afs_int32 caller; /* Disk offset of caller's entry */ struct kaentry tentry; COUNT_REQ(SetPassword); if (akvno > MAXKAKVNO) return KABADARGUMENT; if (!des_check_key_parity(EncryptionKey_to_cblock(&apassword)) || des_is_weak_key(EncryptionKey_to_cblock(&apassword))) return KABADKEY; if (!name_instance_legal(aname, ainstance)) return KABADNAME; if ((code = InitAuthServ(&tt, LOCKWRITE, this_op))) return code; code = check_auth(call, tt, 0, &caller); if (code) { goto abort; } if ((code = karead(tt, caller, (char *)&tentry, sizeof(tentry)))) { code = KAIO; goto abort; } /* if the user is changing his own password or ADMIN then go ahead. */ if ((strcmp(tentry.userID.name, aname) == 0) && (strcmp(tentry.userID.instance, ainstance) == 0)) { if (ntohl(tentry.flags) & KAFNOCPW) code = KABADCPW; else { code = impose_reuse_limits(&apassword, &tentry); if (!code) code = set_password(tt, aname, ainstance, EncryptionKey_to_ktc(&apassword), akvno, 0); } } else if (ntohl(tentry.flags) & KAFADMIN) { code = set_password(tt, aname, ainstance, EncryptionKey_to_ktc(&apassword), akvno, caller); } else code = KANOAUTH; if (code) goto abort; code = ubik_EndTrans(tt); KALOG(aname, ainstance, NULL, NULL, NULL, call->conn->peer->host, LOG_CHPASSWD); return code; abort: COUNT_ABO; ubik_AbortTrans(tt); return code; } static Date CoerseLifetime(Date start, Date end) { unsigned char kerberosV4Life; kerberosV4Life = time_to_life(start, end); end = life_to_time(start, kerberosV4Life); return end; } static afs_int32 GetEndTime(Date start, /* start time of ticket */ Date reqEnd, /* requested end time */ Date expiration, /* authorizing ticket's expiration */ struct kaentry *caller, struct kaentry *server, Date *endP) /* actual end time */ { Date cExp, sExp; Date cLife, sLife; Date end; if (ntohl(caller->flags) & KAFNOTGS) return KABADUSER; /* no new tickets for this user */ if (expiration && (ntohl(server->flags) & KAFNOSEAL)) return KABADSERVER; /* can't be target of GetTicket req */ if (!expiration) expiration = NEVERDATE; cExp = ntohl(caller->user_expiration); sExp = ntohl(server->user_expiration); if (cExp < start) return KAPWEXPIRED; if (sExp < start) return KABADSERVER; cLife = start + ntohl(caller->max_ticket_lifetime); sLife = start + ntohl(server->max_ticket_lifetime); end = umin(umin(reqEnd, expiration), umin(umin(cLife, sLife), umin(cExp, sExp))); end = CoerseLifetime(start, end); *endP = end; return 0; } static afs_int32 PrepareTicketAnswer(ka_BBS *oanswer, afs_int32 challenge, char *ticket, afs_int32 ticketLen, struct ktc_encryptionKey *sessionKey, Date start, Date end, struct kaentry *caller, struct kaentry *server, char *cell, char *label) { afs_int32 code; struct ka_ticketAnswer *answer; afs_int32 cksum; code = KAANSWERTOOLONG; if (oanswer->MaxSeqLen < sizeof(struct ka_ticketAnswer) - 5 * MAXKTCNAMELEN - MAXKTCTICKETLEN + ticketLen) return code; answer = (struct ka_ticketAnswer *)oanswer->SeqBody; answer->challenge = htonl(challenge); memcpy(&answer->sessionKey, sessionKey, sizeof(struct ktc_encryptionKey)); answer->startTime = htonl(start); answer->endTime = htonl(end); answer->kvno = server->key_version; answer->ticketLen = htonl(ticketLen); { char *ans = answer->name; /* pointer to variable part */ int rem; /* space remaining */ int len; /* macro temp. */ rem = oanswer->MaxSeqLen - (ans - oanswer->SeqBody); #undef putstr #define putstr(str) len = strlen (str)+1;\ if (rem < len) return code;\ strcpy (ans, str);\ ans += len; rem -= len putstr(caller->userID.name); putstr(caller->userID.instance); putstr(cell); putstr(server->userID.name); putstr(server->userID.instance); if (rem < ticketLen + KA_LABELSIZE) return code; memcpy(ans, ticket, ticketLen); ans += ticketLen; if (label) memcpy(ans, label, KA_LABELSIZE); else memset(ans, 0, KA_LABELSIZE); ans += KA_LABELSIZE; oanswer->SeqLen = (ans - oanswer->SeqBody); } cksum = 0; answer->cksum = htonl(cksum); oanswer->SeqLen = round_up_to_ebs(oanswer->SeqLen); if (oanswer->SeqLen > oanswer->MaxSeqLen) return code; return 0; } /* This is used to get a ticket granting ticket or an admininstration ticket. These two specific, built-in servers are special cases, which require the client's key as an additional security precaution. The GetTicket operation is normally disabled for these two principals. */ static afs_int32 Authenticate(int version, struct rx_call *call, char *aname, char *ainstance, Date start, Date end, ka_CBS *arequest, ka_BBS *oanswer) { int code; struct ubik_trans *tt; afs_int32 to; /* offset of block */ kaentry tentry; struct kaentry server; /* entry for desired server */ struct ka_gettgtRequest request; /* request after decryption */ int tgt, adm; /* type of request */ char *sname; /* principal of server */ char *sinst; char ticket[MAXKTCTICKETLEN]; /* our copy of the ticket */ int ticketLen; struct ktc_encryptionKey sessionKey; /* we have to invent a session key */ char *answer; /* where answer is to be put */ int answer_len; /* length of answer packet */ Date answer_time; /* 1+ request time in network order */ afs_int32 temp; /* for htonl conversions */ des_key_schedule user_schedule; /* key schedule for user's key */ afs_int32 tgskvno; /* key version of service key */ struct ktc_encryptionKey tgskey; /* service key for encrypting ticket */ Date now; afs_uint32 pwexpires; COUNT_REQ(Authenticate); if (!name_instance_legal(aname, ainstance)) return KABADNAME; if ((code = InitAuthServ(&tt, LOCKREAD, this_op))) return code; get_time(&now, 0, 0); sname = sinst = NULL; code = FindBlock(tt, aname, ainstance, &to, &tentry); if (code) { goto abort; } if (to == 0) { /* no such user */ code = KANOENT; goto abort; } #ifdef LOCKPW /* have to check for locked before verifying the password, otherwise all * KALOCKED means is "yup, you guessed the password all right, now wait a * few minutes and we'll let you in" */ if (kaux_islocked (to, (u_int) tentry.misc_auth_bytes[ATTEMPTS], (afs_uint32) tentry.misc_auth_bytes[LOCKTIME] << 9)) { code = KALOCKED; goto abort; } #endif /* LOCKPW */ save_principal(authPrincipal, aname, ainstance, 0); /* decrypt request w/ user password */ if ((code = des_key_sched(ktc_to_cblock(&tentry.key), user_schedule))) es_Report("In KAAuthenticate: key_sched returned %d\n", code); des_pcbc_encrypt(arequest->SeqBody, &request, min(arequest->SeqLen, sizeof(request)), user_schedule, ktc_to_cblockptr(&tentry.key), DECRYPT); request.time = ntohl(request.time); /* reorder date */ tgt = !strncmp(request.label, KA_GETTGT_REQ_LABEL, sizeof(request.label)); adm = !strncmp(request.label, KA_GETADM_REQ_LABEL, sizeof(request.label)); if (!(tgt || adm)) { kaux_inc(to, ((unsigned char)tentry.misc_auth_bytes[LOCKTIME]) << 9); code = KABADREQUEST; goto abort; } else kaux_write(to, 0, 0); /* reset counters */ #ifdef EXPIREPW if (!tentry.misc_auth_bytes[EXPIRES]) { /* 0 in the database means never, but 0 on the network means today */ /* 255 on the network means "long time, maybe never" */ pwexpires = 255; } else { pwexpires = tentry.misc_auth_bytes[EXPIRES]; pwexpires = ntohl(tentry.change_password_time) + 24 * 60 * 60 * pwexpires; if (adm) { /* provide a little slack for admin ticket */ pwexpires += 30 * 24 * 60 * 60; /* 30 days */ } if (pwexpires < now) { code = KAPWEXPIRED; goto abort; } else { pwexpires = (pwexpires - now) / (24 * 60 * 60); if (pwexpires > 255) pwexpires = 255; } } #endif /* EXPIREPW */ if (abs(request.time - now) > KTC_TIME_UNCERTAINTY) { #if 0 if (oanswer->MaxSeqLen < sizeof(afs_int32)) code = KAANSWERTOOLONG; else { /* return our time if possible */ oanswer->SeqLen = sizeof(afs_int32); request.time = htonl(now); memcpy(oanswer->SeqBody, &request.time, sizeof(afs_int32)); } #endif code = KACLOCKSKEW; goto abort; } sname = (tgt ? KA_TGS_NAME : KA_ADMIN_NAME); sinst = (tgt ? lrealm : KA_ADMIN_INST); code = FindBlock(tt, sname, sinst, &to, &server); if (code) goto abort; if (to == 0) { code = KANOENT; goto abort; } tgskvno = ntohl(server.key_version); memcpy(&tgskey, &server.key, sizeof(tgskey)); code = des_random_key(ktc_to_cblock(&sessionKey)); if (code) { code = KANOKEYS; goto abort; } code = GetEndTime(start, end, 0 /*!GetTicket */ , &tentry, &server, &end); if (code) goto abort; code = tkt_MakeTicket(ticket, &ticketLen, &tgskey, aname, ainstance, "", start, end, &sessionKey, rx_HostOf(rx_PeerOf(rx_ConnectionOf(call))), sname, sinst); if (code) goto abort; switch (version) { case 0: answer_len = ticketLen + sizeof(Date) + sizeof(struct ktc_encryptionKey) + 2 * sizeof(afs_int32) + KA_LABELSIZE; answer_len = round_up_to_ebs(answer_len); if (answer_len > oanswer->MaxSeqLen) { code = KAANSWERTOOLONG; goto abort; } oanswer->SeqLen = answer_len; answer = oanswer->SeqBody; answer_time = htonl(request.time + 1); memcpy(answer, (char *)&answer_time, sizeof(Date)); answer += sizeof(Date); memcpy(answer, (char *)&sessionKey, sizeof(struct ktc_encryptionKey)); answer += sizeof(struct ktc_encryptionKey); temp = htonl(tgskvno); memcpy(answer, (char *)&temp, sizeof(afs_int32)); answer += sizeof(afs_int32); temp = htonl(ticketLen); memcpy(answer, (char *)&temp, sizeof(afs_int32)); answer += sizeof(afs_int32); memcpy(answer, ticket, ticketLen); answer += ticketLen; memcpy(answer, (tgt ? KA_GETTGT_ANS_LABEL : KA_GETADM_ANS_LABEL), KA_LABELSIZE); break; case 1: case 2: code = PrepareTicketAnswer(oanswer, request.time + 1, ticket, ticketLen, &sessionKey, start, end, &tentry, &server, "", (tgt ? KA_GETTGT_ANS_LABEL : KA_GETADM_ANS_LABEL)); if (code) goto abort; #ifdef EXPIREPW if ((version == 2) && oanswer->SeqLen < oanswer->MaxSeqLen + sizeof(afs_int32)) { temp = pwexpires << 24; /* move it into the high byte */ pwexpires = htonl(temp); memcpy((char *)oanswer->SeqBody + oanswer->SeqLen, &pwexpires, sizeof(afs_int32)); oanswer->SeqLen += sizeof(afs_int32); oanswer->SeqLen = round_up_to_ebs(oanswer->SeqLen); if (oanswer->SeqLen > oanswer->MaxSeqLen) { code = KAANSWERTOOLONG; goto abort; } } #endif /* EXPIREPW */ break; default: code = KAINTERNALERROR; goto abort; } des_pcbc_encrypt(oanswer->SeqBody, oanswer->SeqBody, oanswer->SeqLen, user_schedule, ktc_to_cblockptr(&tentry.key), ENCRYPT); code = ubik_EndTrans(tt); KALOG(aname, ainstance, sname, sinst, NULL, call->conn->peer->host, LOG_AUTHENTICATE); return code; abort: COUNT_ABO; ubik_AbortTrans(tt); KALOG(aname, ainstance, sname, sinst, NULL, call->conn->peer->host, LOG_AUTHFAILED); return code; } afs_int32 SKAA_Authenticate_old(struct rx_call *call, char *aname, char *ainstance, Date start, Date end, ka_CBS *arequest, ka_BBS *oanswer) { int code; IOMGR_Sleep(1); /* discourage use of this mechanism */ code = Authenticate(0, call, aname, ainstance, start, end, arequest, oanswer); osi_auditU(call, AFS_KAA_AuthOEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 SKAA_Authenticate(struct rx_call *call, char *aname, char *ainstance, Date start, Date end, ka_CBS *arequest, ka_BBS *oanswer) { int code; code = Authenticate(1, call, aname, ainstance, start, end, arequest, oanswer); osi_auditU(call, AFS_KAA_AuthEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 SKAA_AuthenticateV2(struct rx_call *call, char *aname, char *ainstance, Date start, Date end, ka_CBS *arequest, ka_BBS *oanswer) { int code; code = Authenticate(2, call, aname, ainstance, start, end, arequest, oanswer); osi_auditU(call, AFS_KAA_AuthEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 SKAM_SetFields(struct rx_call *call, char *aname, char *ainstance, afs_int32 aflags, Date aexpiration, afs_int32 alifetime, afs_int32 amaxAssociates, afs_uint32 misc_auth_bytes, /* 4 bytes, each 0 means unspecified */ afs_int32 spare2) { afs_int32 code; code = kamSetFields(call, aname, ainstance, aflags, aexpiration, alifetime, amaxAssociates, misc_auth_bytes, spare2); osi_auditU(call, AFS_KAM_SetFldEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_LONG, aflags, AUD_DATE, aexpiration, AUD_LONG, alifetime, AUD_LONG, amaxAssociates, AUD_END); return code; } afs_int32 kamSetFields(struct rx_call *call, char *aname, char *ainstance, afs_int32 aflags, Date aexpiration, afs_int32 alifetime, afs_int32 amaxAssociates, afs_uint32 misc_auth_bytes, /* 4 bytes, each 0 means unspecified */ afs_int32 spare2) { afs_int32 code; Date now; struct ubik_trans *tt; afs_int32 caller; afs_int32 tentry_offset; /* offset of entry */ struct kaentry tentry; unsigned char newvals[4]; COUNT_REQ(SetFields); if (spare2) return KABADARGUMENT; /* not supported yet... */ /* make sure we're supposed to do something */ if (!(aflags || aexpiration || alifetime || (amaxAssociates >= 0) || misc_auth_bytes) || ((aflags & ~KAFNORMAL) & ~KAF_SETTABLE_FLAGS)) return KABADARGUMENT; /* arguments no good */ if (!name_instance_legal(aname, ainstance)) return KABADNAME; if ((code = InitAuthServ(&tt, LOCKWRITE, this_op))) return code; code = check_auth(call, tt, 1, &caller); if (code) { goto abort; } code = FindBlock(tt, aname, ainstance, &tentry_offset, &tentry); if (code) goto abort; if (tentry_offset == 0) { /* no such user */ code = KANOENT; goto abort; } if ((ntohl(tentry.flags) & KAFNORMAL) == 0) return KAINTERNALERROR; if (aflags) { /* Keep track of the total number of admin accounts. This way we can * update database without any admin privilege initially */ if ((aflags & KAFADMIN) != (ntohl(tentry.flags) & KAFADMIN)) { /* if admin state is changing */ int delta; if (ntohl(tentry.flags) & KAFADMIN) delta = -1; else delta = 1; if ((code = update_admin_count(tt, delta))) goto abort; } tentry.flags = htonl((ntohl(tentry.flags) & ~KAF_SETTABLE_FLAGS) | aflags); } if ((code = get_time(&now, tt, 1))) goto abort; if (aexpiration) { tentry.user_expiration = htonl(aexpiration); if (!ntohl(tentry.change_password_time)) { tentry.change_password_time = htonl(now); } } if (alifetime) tentry.max_ticket_lifetime = htonl(alifetime); #ifndef NOPWCONTROLS /* * We've packed a bunch of bytes into a long for backward compatibility. * These include password expiration time, and some failed login limits * counters. Now let's unpack them and stick them into the * kaentry struct. All the bytes have values in the range * 1..255, else they were not specified in the interface, and are * set to zero. * In the case of password expiration times, 1 means password never * expires (==>0), 2 means password only lives for one day (==>1), * and so on. */ if (misc_auth_bytes) { unpack_long(misc_auth_bytes, newvals); if (newvals[EXPIRES]) { tentry.misc_auth_bytes[EXPIRES] = newvals[EXPIRES] - 1; } if (newvals[REUSEFLAGS]) { if (newvals[REUSEFLAGS] & KA_REUSEPW) memset(tentry.pwsums, 0, KA_NPWSUMS); else if ((newvals[REUSEFLAGS] & KA_NOREUSEPW) && !tentry.pwsums[0]) tentry.pwsums[0] = 0xff; } if (newvals[ATTEMPTS]) { tentry.misc_auth_bytes[ATTEMPTS] = newvals[ATTEMPTS] - 1; } if (newvals[LOCKTIME]) { tentry.misc_auth_bytes[LOCKTIME] = newvals[LOCKTIME] - 1; } /* tentry.misc_auth_bytes = htonl(tentry.misc_auth_bytes); */ } #endif /* NOPWCONTROLS */ if (amaxAssociates >= 0) { if ((ntohl(tentry.flags) & KAFASSOC) || (ntohl(tentry.flags) & KAFSPECIAL)) return KAASSOCUSER; if (((ntohl(tentry.flags) & KAFASSOCROOT) == 0) && (amaxAssociates > 0)) /* convert normal user to assoc root */ tentry.flags = htonl(ntohl(tentry.flags) | KAFASSOCROOT); tentry.misc.assocRoot.maxAssociates = htonl(amaxAssociates); } tentry.modification_time = htonl(now); tentry.modification_id = htonl(caller); code = kawrite(tt, tentry_offset, (char *) &tentry, sizeof(tentry)); if (code) goto abort; code = ubik_EndTrans(tt); KALOG(aname, ainstance, NULL, NULL, NULL, call->conn->peer->host, LOG_SETFIELDS); return code; abort: COUNT_ABO; ubik_AbortTrans(tt); return code; } /* delete a user */ afs_int32 SKAM_DeleteUser(struct rx_call *call, char *aname, char *ainstance) { afs_int32 code; code = kamDeleteUser(call, aname, ainstance); osi_auditU(call, AFS_KAM_DelUserEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 kamDeleteUser(struct rx_call *call, char *aname, char *ainstance) { int code; struct ubik_trans *tt; afs_int32 caller; afs_int32 to; struct kaentry tentry; unsigned int nfailures; afs_uint32 locktime; COUNT_REQ(DeleteUser); if (!name_instance_legal(aname, ainstance)) return KABADNAME; if ((code = InitAuthServ(&tt, LOCKWRITE, this_op))) return code; code = check_auth(call, tt, 1, &caller); if (code) { abort: COUNT_ABO; ubik_AbortTrans(tt); return code; } code = FindBlock(tt, aname, ainstance, &to, &tentry); if (code) goto abort; if (to == 0) { /* name not found */ code = KANOENT; goto abort; } kaux_read(to, &nfailures, &locktime); if (nfailures || locktime) kaux_write(to, 0, 0); /* zero failure counters at this offset */ /* track all AuthServer identities */ if (special_name(aname, ainstance)) if ((code = ka_DelKey(tt, to, &tentry))) goto abort; if (ntohl(tentry.flags) & KAFADMIN) /* keep admin count up-to-date */ if ((code = update_admin_count(tt, -1))) goto abort; if ((code = UnthreadBlock(tt, &tentry)) || (code = FreeBlock(tt, to)) || (code = get_time(0, tt, 1)) /* update randomness */ ) goto abort; code = ubik_EndTrans(tt); KALOG(aname, ainstance, NULL, NULL, NULL, call->conn->peer->host, LOG_DELUSER); return code; } /* we set a bit in here which indicates that the user's limit of * authentication failures has been exceeded. If that bit is not set, * kas can take it on faith that the user ID is not locked. If that * bit is set, kas has to check all the servers to find one who will * report that the ID is not locked, or else to find out when the ID * will be unlocked. */ afs_int32 SKAM_GetEntry(struct rx_call *call, char *aname, char *ainstance, afs_int32 aversion, /* major version assumed by caller */ kaentryinfo *aentry) /* entry data copied here */ { afs_int32 code; code = kamGetEntry(call, aname, ainstance, aversion, aentry); osi_auditU(call, AFS_KAM_GetEntEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 kamGetEntry(struct rx_call *call, char *aname, char *ainstance, afs_int32 aversion, /* major version assumed by caller */ kaentryinfo *aentry) /* entry data copied here */ { afs_int32 code; struct ubik_trans *tt; afs_int32 callerIndex; struct kaentry caller; afs_int32 to; afs_uint32 temp; struct kaentry tentry; rxkad_level enc_level = rxkad_clear; int callerIsAdmin = 0; COUNT_REQ(GetEntry); if (aversion != KAMAJORVERSION) return KAOLDINTERFACE; if (!name_instance_legal(aname, ainstance)) return KABADNAME; if ((code = InitAuthServ(&tt, LOCKREAD, this_op))) return code; code = check_auth(call, tt, 0, &callerIndex); if (code) { goto abort; } if (noAuthenticationRequired) { } else if (!callerIndex) { code = KANOENT; goto abort; } else { if ((code = karead(tt, callerIndex, (char *)&caller, sizeof(caller)))) { code = KAIO; goto abort; } /* if the user is checking his own entry or ADMIN then go ahead. */ callerIsAdmin = (ntohl(caller.flags) & KAFADMIN); if (strcmp(caller.userID.name, aname) != 0 && !callerIsAdmin) { code = KANOAUTH; goto abort; } } code = FindBlock(tt, aname, ainstance, &to, &tentry); if (code) goto abort; if (to == 0) { /* entry not found */ code = KANOENT; goto abort; } get_time(0, 0, 0); /* generate random update */ memset(aentry, 0, sizeof(*aentry)); aentry->minor_version = KAMINORVERSION; aentry->flags = ntohl(tentry.flags); aentry->user_expiration = ntohl(tentry.user_expiration); aentry->modification_time = ntohl(tentry.modification_time); aentry->change_password_time = ntohl(tentry.change_password_time); aentry->max_ticket_lifetime = ntohl(tentry.max_ticket_lifetime); aentry->key_version = ntohl(tentry.key_version); temp = (unsigned char)tentry.misc_auth_bytes[LOCKTIME]; temp = temp << 9; if (kaux_islocked(to, (u_int) tentry.misc_auth_bytes[ATTEMPTS], temp)) tentry.misc_auth_bytes[REUSEFLAGS] |= KA_ISLOCKED; /* saves an RPC */ temp = pack_long(tentry.misc_auth_bytes); aentry->misc_auth_bytes = temp; /* * only return user's key if security disabled or if admin and * we have an encrypted connection to the user */ rxkad_GetServerInfo(call->conn, &enc_level, 0, 0, 0, 0, 0); if ((noAuthenticationRequired) || (callerIsAdmin && enc_level == rxkad_crypt)) memcpy(&aentry->key, &tentry.key, sizeof(struct ktc_encryptionKey)); else memset(&aentry->key, 0, sizeof(aentry->key)); code = ka_KeyCheckSum((char *)&tentry.key, &aentry->keyCheckSum); if (!tentry.pwsums[0] && npwSums > 1 && !tentry.pwsums[1]) { aentry->reserved3 = 0x12340000; } else { aentry->reserved3 = 0x12340001; } /* Now get entry of user who last modified this entry */ if (ntohl(tentry.modification_id)) { temp = ntohl(tentry.modification_id); code = karead(tt, temp, (char *)&tentry, sizeof(tentry)); if (code) { code = KAIO; goto abort; } aentry->modification_user = tentry.userID; } else { strcpy(aentry->modification_user.name, ""); strcpy(aentry->modification_user.instance, "\0"); } code = ubik_EndTrans(tt); return code; abort: COUNT_ABO; ubik_AbortTrans(tt); return code; } afs_int32 SKAM_ListEntry(struct rx_call *call, afs_int32 previous_index, /* last entry ret'd or 0 for first */ afs_int32 *index, /* index of this entry */ afs_int32 *count, /* total entries in database */ kaident *name) /* name & instance of this entry */ { afs_int32 code; code = kamListEntry(call, previous_index, index, count, name); osi_auditU(call, AFS_KAM_LstEntEvent, code, AUD_LONG, *index, AUD_END); return code; } afs_int32 kamListEntry(struct rx_call *call, afs_int32 previous_index, /* last entry ret'd or 0 for first */ afs_int32 *index, /* index of this entry */ afs_int32 *count, /* total entries in database */ kaident *name) /* name & instance of this entry */ { int code; struct ubik_trans *tt; afs_int32 caller; struct kaentry tentry; COUNT_REQ(ListEntry); if ((code = InitAuthServ(&tt, LOCKREAD, this_op))) return code; code = check_auth(call, tt, 1, &caller); if (code) { goto abort; } *index = NextBlock(tt, previous_index, &tentry, count); if (*count < 0) { code = KAIO; goto abort; } if (*index) { /* return name & inst of this entry */ strncpy(name->name, tentry.userID.name, sizeof(name->name)); strncpy(name->instance, tentry.userID.instance, sizeof(name->instance)); } else { strcpy(name->name, "\0"); strcpy(name->instance, "\0"); } code = ubik_EndTrans(tt); return code; abort: COUNT_ABO; ubik_AbortTrans(tt); return code; } static afs_int32 GetTicket(int version, struct rx_call *call, afs_int32 kvno, char *authDomain, ka_CBS *aticket, char *sname, char *sinstance, ka_CBS *atimes, /* encrypted start & end time */ ka_BBS *oanswer) { afs_int32 code; int import, export; struct ubik_trans *tt; struct ktc_encryptionKey tgskey; des_key_schedule schedule; afs_int32 to; char name[MAXKTCNAMELEN]; char instance[MAXKTCNAMELEN]; char cell[MAXKTCNAMELEN]; int celllen; struct kaentry caller; struct kaentry server; struct ktc_encryptionKey authSessionKey; struct ktc_encryptionKey sessionKey; int ticketLen; char ticket[MAXKTCTICKETLEN]; afs_int32 host; Date start; Date expiration; Date now; Date end; struct ka_getTicketTimes times; struct ka_getTicketAnswer *answer; COUNT_REQ(GetTicket); if (!name_instance_legal(sname, sinstance)) return KABADNAME; if (atimes->SeqLen != sizeof(times)) return KABADARGUMENT; if ((code = InitAuthServ(&tt, LOCKREAD, this_op))) return code; export = import = 0; if ((strcmp(sname, KA_TGS_NAME) == 0) && (strcmp(sinstance, lrealm) != 0)) export = 1; if ((strlen(authDomain) > 0) && (strcmp(authDomain, lrealm) != 0)) import = 1; if (strlen(authDomain) == 0) authDomain = lrealm; code = ka_LookupKvno(tt, KA_TGS_NAME, authDomain, kvno, &tgskey); if (code) { goto abort; } code = tkt_DecodeTicket(aticket->SeqBody, aticket->SeqLen, &tgskey, name, instance, cell, &authSessionKey, &host, &start, &expiration); if (code) { code = KANOAUTH; goto abort; } save_principal(tgsPrincipal, name, instance, cell); if ((code = get_time(&now, 0, 0))) goto abort; code = tkt_CheckTimes(start, expiration, now); if (code <= 0) { if (code == -1) code = RXKADEXPIRED; else code = KANOAUTH; goto abort; } code = des_key_sched(ktc_to_cblock(&authSessionKey), schedule); if (code) { code = KANOAUTH; goto abort; } celllen = strlen(cell); if (import && (celllen == 0)) { code = KABADTICKET; goto abort; } if (export && (celllen == 0)) strcpy(cell, lrealm); if (!krb4_cross && celllen && strcmp(lrealm, cell) != 0) { code = KABADUSER; goto abort; } des_ecb_encrypt(atimes->SeqBody, ×, schedule, DECRYPT); times.start = ntohl(times.start); times.end = ntohl(times.end); code = tkt_CheckTimes(times.start, times.end, now); if (code < 0) { code = KABADREQUEST; goto abort; } if (import) { strcpy(caller.userID.name, name); strcpy(caller.userID.instance, instance); caller.max_ticket_lifetime = htonl(MAXKTCTICKETLIFETIME); caller.flags = htonl(KAFNORMAL); caller.user_expiration = htonl(NEVERDATE); } else { code = FindBlock(tt, name, instance, &to, &caller); if (code) goto abort; if (to == 0) { ka_PrintUserID("GetTicket: User ", name, instance, " unknown.\n"); code = KANOENT; goto abort; } } /* get server's entry */ code = FindBlock(tt, sname, sinstance, &to, &server); if (code) goto abort; if (to == 0) { /* entry not found */ ka_PrintUserID("GetTicket: Server ", sname, sinstance, " unknown.\n"); code = KANOENT; goto abort; } save_principal(tgsServerPrincipal, sname, sinstance, 0); code = des_random_key(ktc_to_cblock(&sessionKey)); if (code) { code = KANOKEYS; goto abort; } code = GetEndTime(times.start, times.end, expiration, &caller, &server, &end); if (code) goto abort; code = tkt_MakeTicket(ticket, &ticketLen, &server.key, caller.userID.name, caller.userID.instance, cell, times.start, end, &sessionKey, rx_HostOf(rx_PeerOf(rx_ConnectionOf(call))), server.userID.name, server.userID.instance); if (code) goto abort; switch (version) { case 0: code = KAANSWERTOOLONG; if (oanswer->MaxSeqLen < sizeof(struct ka_getTicketAnswer) - 5 * MAXKTCNAMELEN - MAXKTCTICKETLEN + ticketLen) goto abort; answer = (struct ka_getTicketAnswer *)oanswer->SeqBody; memcpy(&answer->sessionKey, &sessionKey, sizeof(struct ktc_encryptionKey)); answer->startTime = htonl(times.start); answer->endTime = htonl(end); answer->kvno = server.key_version; answer->ticketLen = htonl(ticketLen); { char *ans = answer->name; /* ptr to variable part of answer */ int rem, len; /* space remaining */ rem = oanswer->MaxSeqLen - (ans - oanswer->SeqBody); #undef putstr #define putstr(str) len = strlen (str)+1;\ if (rem < len) goto abort;\ strcpy (ans, str);\ ans += len; rem -= len putstr(name); putstr(instance); putstr(cell); putstr(sname); putstr(sinstance); if (rem < ticketLen) goto abort; memcpy(ans, ticket, ticketLen); oanswer->SeqLen = (ans - oanswer->SeqBody) + ticketLen; } oanswer->SeqLen = round_up_to_ebs(oanswer->SeqLen); break; case 1: code = PrepareTicketAnswer(oanswer, /*challenge */ 0, ticket, ticketLen, &sessionKey, times.start, end, &caller, &server, cell, KA_GETTICKET_ANS_LABEL); if (code) goto abort; break; default: code = KAINTERNALERROR; goto abort; } des_pcbc_encrypt(oanswer->SeqBody, oanswer->SeqBody, oanswer->SeqLen, schedule, ktc_to_cblockptr(&authSessionKey), ENCRYPT); code = ubik_EndTrans(tt); KALOG(name, instance, sname, sinstance, (import ? authDomain : NULL), call->conn->peer->host, LOG_GETTICKET); return code; abort: COUNT_ABO; ubik_AbortTrans(tt); return code; } afs_int32 SKAT_GetTicket_old(struct rx_call *call, afs_int32 kvno, char *authDomain, ka_CBS *aticket, char *sname, char *sinstance, ka_CBS *atimes, /* encrypted start & end time */ ka_BBS *oanswer) { int code; sleep(1); /* strongly discourage this */ code = GetTicket(0, call, kvno, authDomain, aticket, sname, sinstance, atimes, oanswer); osi_auditU(call, AFS_KAT_GetTicketOEvent, code, AUD_STR, sname, AUD_STR, sinstance, AUD_END); return code; } afs_int32 SKAT_GetTicket(struct rx_call *call, afs_int32 kvno, char *authDomain, ka_CBS *aticket, char *sname, char *sinstance, ka_CBS *atimes, /* encrypted start & end time */ ka_BBS *oanswer) { int code; code = GetTicket(1, call, kvno, authDomain, aticket, sname, sinstance, atimes, oanswer); osi_auditU(call, AFS_KAT_GetTicketEvent, code, AUD_STR, sname, AUD_STR, sinstance, AUD_END); return code; } afs_int32 SKAM_GetStats(struct rx_call *call, afs_int32 version, afs_int32 *admin_accounts, kasstats *statics, kadstats *dynamics) { afs_int32 code; code = kamGetStats(call, version, admin_accounts, statics, dynamics); osi_auditU(call, AFS_KAM_GetStatEvent, code, AUD_END); return code; } afs_int32 kamGetStats(struct rx_call *call, afs_int32 version, afs_int32 *admin_accounts, kasstats *statics, kadstats *dynamics) { afs_int32 code; struct ubik_trans *tt; afs_int32 caller; COUNT_REQ(GetStats); if (version != KAMAJORVERSION) return KAOLDINTERFACE; if ((code = InitAuthServ(&tt, LOCKREAD, this_op))) return code; code = check_auth(call, tt, 1, &caller); if (code) { COUNT_ABO; ubik_AbortTrans(tt); return code; } *admin_accounts = ntohl(cheader.admin_accounts); /* memcpy((char *)statics, (char *)&cheader.stats, sizeof(kasstats)); */ /* these are stored in network byte order and must be copied */ statics->allocs = ntohl(cheader.stats.allocs); statics->frees = ntohl(cheader.stats.frees); statics->cpws = ntohl(cheader.stats.cpws); #if KADBVERSION != 5 check that the statistics command copies all the fields #endif memcpy((char *)dynamics, (char *)&dynamic_statistics, sizeof(kadstats)); statics->minor_version = KAMINORVERSION; dynamics->minor_version = KAMINORVERSION; { int used = 0; int i; for (i = 0; i < HASHSIZE; i++) if (cheader.nameHash[i]) used++; dynamics->hashTableUtilization = (used * 10000 + HASHSIZE / 2) / HASHSIZE; } { #if !defined(AFS_AIX_ENV) && !defined(AFS_HPUX_ENV) && !defined(AFS_NT40_ENV) struct rusage ru; /* Unfortunately, although aix_22 has a minimal compatibility * method of getting to some rusage fields (i.e. stime & * utime), the version that we have doesn't even have the * related include files needed for the aix vtimes() call; so * ignore this for aix till v3.1... */ getrusage(RUSAGE_SELF, &ru); #if (KAMAJORVERSION>5) memcpy(&dynamics->utime, &ru.ru_utime, sizeof(struct katimeval)); memcpy(&dynamics->stime, &ru.ru_stime, sizeof(struct katimeval)); dynamics->dataSize = ru.ru_idrss; dynamics->stackSize = ru.ru_isrss; dynamics->pageFailts = ru.ru_majflt; #else dynamics->string_checks = (afs_int32) (1000.0 * ((ru.ru_utime.tv_sec + ru.ru_utime.tv_usec / 1000000.0) + (ru.ru_stime.tv_sec + ru.ru_stime.tv_usec / 1000000.0))); #endif #endif /* AFS_AIX_ENV && AFS_HPUX_ENV && AFS_NT40_ENV */ } code = ubik_EndTrans(tt); return code; } afs_int32 SKAM_GetPassword(struct rx_call *call, char *name, EncryptionKey *password) { afs_int32 code; code = kamGetPassword(call, name, password); osi_auditU(call, AFS_KAM_GetPswdEvent, code, AUD_STR, name, AUD_END); return code; } afs_int32 kamGetPassword(struct rx_call *call, char *name, EncryptionKey *password) { int code = KANOAUTH; AFS_UNUSED COUNT_REQ(GetPassword); #ifdef GETPASSWORD { afs_int32 to; struct ubik_trans *tt; struct kaentry tentry; if (!name_instance_legal(name, "")) return KABADNAME; /* only requests from this host work */ if (rx_HostOf(rx_PeerOf(rx_ConnectionOf(call))) != htonl(INADDR_LOOPBACK)) return KANOAUTH; if (code = InitAuthServ(&tt, LOCKREAD, this_op)) return code; /* this isn't likely to be used because of string to key problems, so since * this is a temporary thing anyway, we'll use it here. */ { extern char udpAuthPrincipal[256]; save_principal(udpAuthPrincipal, name, 0, 0); } get_time(0, 0, 0); /* update random value */ code = FindBlock(tt, name, "", &to, &tentry); if (code) goto abort; if (to == 0) { code = KANOENT; abort: COUNT_ABO; ubik_AbortTrans(tt); return code; } memcpy(password, &tentry.key, sizeof(*password)); code = ubik_EndTrans(tt); } #endif return code; } afs_int32 SKAM_GetRandomKey(struct rx_call *call, EncryptionKey *key) { afs_int32 code; code = kamGetRandomKey(call, key); osi_auditU(call, AFS_KAM_GetRndKeyEvent, code, AUD_END); return code; } afs_int32 kamGetRandomKey(struct rx_call *call, EncryptionKey *key) { int code; AFS_UNUSED COUNT_REQ(GetRandomKey); if ((code = AwaitInitialization())) return code; code = des_random_key(EncryptionKey_to_cblock(key)); if (code) return KANOKEYS; return 0; } afs_int32 SKAM_Debug(struct rx_call *call, afs_int32 version, int checkDB, /* start a transaction to examine DB */ struct ka_debugInfo *info) { afs_int32 code; code = kamDebug(call, version, checkDB, info); osi_auditU(call, AFS_KAM_DbgEvent, code, AUD_END); return code; } afs_int32 kamDebug(struct rx_call *call, afs_int32 version, int checkDB, /* start a transaction to examine DB */ struct ka_debugInfo *info) { /* COUNT_REQ (Debug); */ if (sizeof(struct kaentry) != sizeof(struct kaOldKeys)) return KAINTERNALERROR; if (sizeof(struct ka_cpwRequest) % 8) return KAINTERNALERROR; if (version != KAMAJORVERSION) return KAOLDINTERFACE; memset(info, 0, sizeof(*info)); info->minorVersion = KAMINORVERSION; info->host = dynamic_statistics.host; info->startTime = dynamic_statistics.start_time; info-> #if (KAMAJORVERSION>5) now #else reserved1 #endif = time(0); info->noAuth = noAuthenticationRequired; info->dbVersion = ntohl(cheader.version); info->dbFreePtr = ntohl(cheader.freePtr); info->dbEofPtr = ntohl(cheader.eofPtr); info->dbKvnoPtr = ntohl(cheader.kvnoPtr); info->dbSpecialKeysVersion = ntohl(cheader.specialKeysVersion); info->dbHeaderRead = cheaderReadTime; info->lastTrans = lastTrans; if (!lastOperation) lastOperation = "(Not Available)"; strncpy(info->lastOperation, lastOperation, sizeof(info->lastOperation)); strncpy(info->lastAuth, authPrincipal, sizeof(info->lastAuth)); strncpy(info->lastTGS, tgsPrincipal, sizeof(info->lastTGS)); strncpy(info->lastAdmin, adminPrincipal, sizeof(info->lastAdmin)); strncpy(info->lastTGSServer, tgsServerPrincipal, sizeof(info->lastTGSServer)); { extern char udpAuthPrincipal[256]; extern char udptgsPrincipal[256]; extern char udptgsServerPrincipal[256]; strncpy(info->lastUAuth, udpAuthPrincipal, sizeof(info->lastUAuth)); strncpy(info->lastUTGS, udptgsPrincipal, sizeof(info->lastUTGS)); strncpy(info->lastUTGSServer, udptgsServerPrincipal, sizeof(info->lastUTGSServer)); } info->nextAutoCPW = nextAutoCPWTime; info->updatesRemaining = autoCPWUpdates - totalUpdates; ka_debugKeyCache(info); return 0; } /* these are auxiliary routines. They don't do any Ubik stuff. They use * a tacked-on-the-side data file. * prob'ly ought to check the noauth flag. */ #define ABORTIF(A) {if((code = A)){goto abort;}} afs_int32 SKAM_Unlock(struct rx_call *call, char *aname, char *ainstance, afs_int32 spare1, afs_int32 spare2, afs_int32 spare3, afs_int32 spare4) { int code; struct ubik_trans *tt; afs_int32 caller; afs_int32 to; struct kaentry tentry; COUNT_REQ(Unlock); if (!name_instance_legal(aname, ainstance)) { code = KABADNAME; goto exit; } if ((code = InitAuthServ(&tt, LOCKREAD, this_op))) goto exit; ABORTIF(check_auth(call, tt, 1, &caller)); ABORTIF(FindBlock(tt, aname, ainstance, &to, &tentry)); ABORTIF((to == 0 ? KANOENT : 0)); kaux_write(to, 0, 0); /* zero failure counters at this offset */ code = ubik_EndTrans(tt); KALOG(aname, ainstance, NULL, NULL, NULL, call->conn->peer->host, LOG_UNLOCK); goto exit; abort: COUNT_ABO; ubik_AbortTrans(tt); exit: osi_auditU(call, UnlockEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); return code; } afs_int32 SKAM_LockStatus(struct rx_call *call, char *aname, char *ainstance, afs_int32 *lockeduntil, afs_int32 spare1, afs_int32 spare2, afs_int32 spare3, afs_int32 spare4) { int code; struct ubik_trans *tt; afs_int32 callerIndex; afs_int32 to; struct kaentry caller; struct kaentry tentry; afs_uint32 temp; COUNT_REQ(LockStatus); if (!name_instance_legal(aname, ainstance)) { code = KABADNAME; goto exit; } if ((code = InitAuthServ(&tt, LOCKREAD, this_op))) goto exit; if ((code = check_auth(call, tt, 0, &callerIndex))) goto abort; if (!noAuthenticationRequired && callerIndex) { if (karead(tt, callerIndex, (char *)&caller, sizeof(caller))) { code = KAIO; goto abort; } /* if the user is checking his own entry or ADMIN then go ahead. */ if ((strcmp(caller.userID.name, aname) != 0) && !(ntohl(caller.flags) & KAFADMIN)) { code = KANOAUTH; goto abort; } } if ((code = FindBlock(tt, aname, ainstance, &to, &tentry))) goto abort; if (to == 0) { code = KANOENT; goto abort; } temp = (unsigned char)tentry.misc_auth_bytes[LOCKTIME]; temp = temp << 9; *lockeduntil = kaux_islocked(to, (u_int) tentry.misc_auth_bytes[ATTEMPTS], temp); code = ubik_EndTrans(tt); goto exit; abort: COUNT_ABO; ubik_AbortTrans(tt); osi_auditU(call, LockStatusEvent, code, AUD_STR, aname, AUD_STR, ainstance, AUD_END); exit: return code; }