X-Git-Url: https://git.openssl.org/gitweb/?a=blobdiff_plain;ds=sidebyside;f=crypto%2Frand%2Frand_vms.c;h=43dddf3c93d101218f4fd1bf7d4cea4e4bec64f7;hb=f5cee414fa8e7e9a088d8d5ebe641f368df20801;hp=c50b4b2988ad4d2c66ec8a33c237fd27afaf8a78;hpb=5bc6bcf82d2adce982e04837b0810b1a6cd55a19;p=openssl.git diff --git a/crypto/rand/rand_vms.c b/crypto/rand/rand_vms.c index c50b4b2988..43dddf3c93 100644 --- a/crypto/rand/rand_vms.c +++ b/crypto/rand/rand_vms.c @@ -10,16 +10,24 @@ #include "e_os.h" #if defined(OPENSSL_SYS_VMS) +# define __NEW_STARLET 1 /* New starlet definitions since VMS 7.0 */ # include # include "internal/cryptlib.h" # include # include "internal/rand_int.h" # include "rand_lcl.h" # include +# include # include +# include +# include # include # include -# include +# include +# include +# include +# include +# include # ifdef __DECC # pragma message disable DOLLARID # endif @@ -28,104 +36,410 @@ # error "Unsupported seeding method configured; must be os" # endif -/* - * Use 32-bit pointers almost everywhere. Define the type to which to cast a - * pointer passed to an external function. - */ +/* We need to make sure we have the right size pointer in some cases */ # if __INITIAL_POINTER_SIZE == 64 -# define PTR_T __void_ptr64 # pragma pointer_size save # pragma pointer_size 32 -# else -# define PTR_T void * +# endif +typedef uint32_t *uint32_t__ptr32; +# if __INITIAL_POINTER_SIZE == 64 +# pragma pointer_size restore # endif -static struct items_data_st { +struct item_st { short length, code; /* length is number of bytes */ -} items_data[] = { - {4, JPI$_BUFIO}, - {4, JPI$_CPUTIM}, - {4, JPI$_DIRIO}, - {4, JPI$_IMAGECOUNT}, - {8, JPI$_LAST_LOGIN_I}, - {8, JPI$_LOGINTIM}, - {4, JPI$_PAGEFLTS}, - {4, JPI$_PID}, - {4, JPI$_PPGCNT}, - {4, JPI$_WSPEAK}, - {4, JPI$_FINALEXC}, - {0, 0} }; +static const struct item_st DVI_item_data[] = { + {4, DVI$_ERRCNT}, + {4, DVI$_REFCNT}, +}; + +static const struct item_st JPI_item_data[] = { + {4, JPI$_BUFIO}, + {4, JPI$_CPUTIM}, + {4, JPI$_DIRIO}, + {4, JPI$_IMAGECOUNT}, + {4, JPI$_PAGEFLTS}, + {4, JPI$_PID}, + {4, JPI$_PPGCNT}, + {4, JPI$_WSPEAK}, + /* + * Note: the direct result is just a 32-bit address. However, it points + * to a list of 4 32-bit words, so we make extra space for them so we can + * do in-place replacement of values + */ + {16, JPI$_FINALEXC}, +}; + +static const struct item_st JPI_item_data_64bit[] = { + {8, JPI$_LAST_LOGIN_I}, + {8, JPI$_LOGINTIM}, +}; + +static const struct item_st RMI_item_data[] = { + {4, RMI$_COLPG}, + {4, RMI$_MWAIT}, + {4, RMI$_CEF}, + {4, RMI$_PFW}, + {4, RMI$_LEF}, + {4, RMI$_LEFO}, + {4, RMI$_HIB}, + {4, RMI$_HIBO}, + {4, RMI$_SUSP}, + {4, RMI$_SUSPO}, + {4, RMI$_FPG}, + {4, RMI$_COM}, + {4, RMI$_COMO}, + {4, RMI$_CUR}, +#if defined __alpha + {4, RMI$_FRLIST}, + {4, RMI$_MODLIST}, +#endif + {4, RMI$_FAULTS}, + {4, RMI$_PREADS}, + {4, RMI$_PWRITES}, + {4, RMI$_PWRITIO}, + {4, RMI$_PREADIO}, + {4, RMI$_GVALFLTS}, + {4, RMI$_WRTINPROG}, + {4, RMI$_FREFLTS}, + {4, RMI$_DZROFLTS}, + {4, RMI$_SYSFAULTS}, + {4, RMI$_ISWPCNT}, + {4, RMI$_DIRIO}, + {4, RMI$_BUFIO}, + {4, RMI$_MBREADS}, + {4, RMI$_MBWRITES}, + {4, RMI$_LOGNAM}, + {4, RMI$_FCPCALLS}, + {4, RMI$_FCPREAD}, + {4, RMI$_FCPWRITE}, + {4, RMI$_FCPCACHE}, + {4, RMI$_FCPCPU}, + {4, RMI$_FCPHIT}, + {4, RMI$_FCPSPLIT}, + {4, RMI$_FCPFAULT}, + {4, RMI$_ENQNEW}, + {4, RMI$_ENQCVT}, + {4, RMI$_DEQ}, + {4, RMI$_BLKAST}, + {4, RMI$_ENQWAIT}, + {4, RMI$_ENQNOTQD}, + {4, RMI$_DLCKSRCH}, + {4, RMI$_DLCKFND}, + {4, RMI$_NUMLOCKS}, + {4, RMI$_NUMRES}, + {4, RMI$_ARRLOCPK}, + {4, RMI$_DEPLOCPK}, + {4, RMI$_ARRTRAPK}, + {4, RMI$_TRCNGLOS}, + {4, RMI$_RCVBUFFL}, + {4, RMI$_ENQNEWLOC}, + {4, RMI$_ENQNEWIN}, + {4, RMI$_ENQNEWOUT}, + {4, RMI$_ENQCVTLOC}, + {4, RMI$_ENQCVTIN}, + {4, RMI$_ENQCVTOUT}, + {4, RMI$_DEQLOC}, + {4, RMI$_DEQIN}, + {4, RMI$_DEQOUT}, + {4, RMI$_BLKLOC}, + {4, RMI$_BLKIN}, + {4, RMI$_BLKOUT}, + {4, RMI$_DIRIN}, + {4, RMI$_DIROUT}, + /* We currently get a fault when trying these. TODO: To be figured out. */ +#if 0 + {140, RMI$_MSCP_EVERYTHING}, /* 35 32-bit words */ + {152, RMI$_DDTM_ALL}, /* 38 32-bit words */ + {80, RMI$_TMSCP_EVERYTHING} /* 20 32-bit words */ +#endif + {4, RMI$_LPZ_PAGCNT}, + {4, RMI$_LPZ_HITS}, + {4, RMI$_LPZ_MISSES}, + {4, RMI$_LPZ_EXPCNT}, + {4, RMI$_LPZ_ALLOCF}, + {4, RMI$_LPZ_ALLOC2}, + {4, RMI$_ACCESS}, + {4, RMI$_ALLOC}, + {4, RMI$_FCPCREATE}, + {4, RMI$_VOLWAIT}, + {4, RMI$_FCPTURN}, + {4, RMI$_FCPERASE}, + {4, RMI$_OPENS}, + {4, RMI$_FIDHIT}, + {4, RMI$_FIDMISS}, + {4, RMI$_FILHDR_HIT}, + {4, RMI$_DIRFCB_HIT}, + {4, RMI$_DIRFCB_MISS}, + {4, RMI$_DIRDATA_HIT}, + {4, RMI$_EXTHIT}, + {4, RMI$_EXTMISS}, + {4, RMI$_QUOHIT}, + {4, RMI$_QUOMISS}, + {4, RMI$_STORAGMAP_HIT}, + {4, RMI$_VOLLCK}, + {4, RMI$_SYNCHLCK}, + {4, RMI$_SYNCHWAIT}, + {4, RMI$_ACCLCK}, + {4, RMI$_XQPCACHEWAIT}, + {4, RMI$_DIRDATA_MISS}, + {4, RMI$_FILHDR_MISS}, + {4, RMI$_STORAGMAP_MISS}, + {4, RMI$_PROCCNTMAX}, + {4, RMI$_PROCBATCNT}, + {4, RMI$_PROCINTCNT}, + {4, RMI$_PROCNETCNT}, + {4, RMI$_PROCSWITCHCNT}, + {4, RMI$_PROCBALSETCNT}, + {4, RMI$_PROCLOADCNT}, + {4, RMI$_BADFLTS}, + {4, RMI$_EXEFAULTS}, + {4, RMI$_HDRINSWAPS}, + {4, RMI$_HDROUTSWAPS}, + {4, RMI$_IOPAGCNT}, + {4, RMI$_ISWPCNTPG}, + {4, RMI$_OSWPCNT}, + {4, RMI$_OSWPCNTPG}, + {4, RMI$_RDFAULTS}, + {4, RMI$_TRANSFLTS}, + {4, RMI$_WRTFAULTS}, +#if defined __alpha + {4, RMI$_USERPAGES}, +#endif + {4, RMI$_VMSPAGES}, + {4, RMI$_TTWRITES}, + {4, RMI$_BUFOBJPAG}, + {4, RMI$_BUFOBJPAGPEAK}, + {4, RMI$_BUFOBJPAGS01}, + {4, RMI$_BUFOBJPAGS2}, + {4, RMI$_BUFOBJPAGMAXS01}, + {4, RMI$_BUFOBJPAGMAXS2}, + {4, RMI$_BUFOBJPAGPEAKS01}, + {4, RMI$_BUFOBJPAGPEAKS2}, + {4, RMI$_BUFOBJPGLTMAXS01}, + {4, RMI$_BUFOBJPGLTMAXS2}, + {4, RMI$_DLCK_INCMPLT}, + {4, RMI$_DLCKMSGS_IN}, + {4, RMI$_DLCKMSGS_OUT}, + {4, RMI$_MCHKERRS}, + {4, RMI$_MEMERRS}, +}; + +static const struct item_st RMI_item_data_64bit[] = { +#if defined __ia64 + {8, RMI$_FRLIST}, + {8, RMI$_MODLIST}, +#endif + {8, RMI$_LCKMGR_REQCNT}, + {8, RMI$_LCKMGR_REQTIME}, + {8, RMI$_LCKMGR_SPINCNT}, + {8, RMI$_LCKMGR_SPINTIME}, + {8, RMI$_CPUINTSTK}, + {8, RMI$_CPUMPSYNCH}, + {8, RMI$_CPUKERNEL}, + {8, RMI$_CPUEXEC}, + {8, RMI$_CPUSUPER}, + {8, RMI$_CPUUSER}, +#if defined __ia64 + {8, RMI$_USERPAGES}, +#endif + {8, RMI$_TQETOTAL}, + {8, RMI$_TQESYSUB}, + {8, RMI$_TQEUSRTIMR}, + {8, RMI$_TQEUSRWAKE}, +}; + +static const struct item_st SYI_item_data[] = { + {4, SYI$_PAGEFILE_FREE}, +}; + +/* + * Input: + * items_data - an array of lengths and codes + * items_data_num - number of elements in that array + * + * Output: + * items - pre-allocated ILE3 array to be filled. + * It's assumed to have items_data_num elements plus + * one extra for the terminating NULL element + * databuffer - pre-allocated 32-bit word array. + * + * Returns the number of elements used in databuffer + */ +static size_t prepare_item_list(const struct item_st *items_input, + size_t items_input_num, + ILE3 *items, + uint32_t__ptr32 databuffer) +{ + size_t data_sz = 0; + + for (; items_input_num-- > 0; items_input++, items++) { + + items->ile3$w_code = items_input->code; + /* Special treatment of JPI$_FINALEXC */ + if (items->ile3$w_code == JPI$_FINALEXC) + items->ile3$w_length = 4; + else + items->ile3$w_length = items_input->length; + + items->ile3$ps_bufaddr = databuffer; + items->ile3$ps_retlen_addr = 0; + + databuffer += items_input->length / sizeof(databuffer[0]); + data_sz += items_input->length; + } + /* Terminating NULL entry */ + items->ile3$w_length = items->ile3$w_code = 0; + items->ile3$ps_bufaddr = items->ile3$ps_retlen_addr = NULL; + + return data_sz / sizeof(databuffer[0]); +} + +static void massage_JPI(ILE3 *items) +{ + /* + * Special treatment of JPI$_FINALEXC + * The result of that item's data buffer is a 32-bit address to a list of + * 4 32-bit words. + */ + for (; items->ile3$w_length != 0; items++) { + if (items->ile3$w_code == JPI$_FINALEXC) { + uint32_t *data = items->ile3$ps_bufaddr; + uint32_t *ptr = (uint32_t *)*data; + size_t j; + + /* + * We know we made space for 4 32-bit words, so we can do in-place + * replacement. + */ + for (j = 0; j < 4; j++) + data[j] = ptr[j]; + + break; + } + } +} + /* - * We assume there we get about 4 bits of entropy per byte from the items - * above, with a bit of scrambling added rand_pool_acquire_entropy() + * This number expresses how many bits of data contain 1 bit of entropy. + * + * For the moment, we assume about 0.05 entropy bits per data bit, or 1 + * bit of entropy per 20 data bits. */ -#define ENTROPY_BITS_PER_BYTE 4 +#define ENTROPY_FACTOR 20 size_t rand_pool_acquire_entropy(RAND_POOL *pool) { - /* determine the number of items in the JPI array */ - struct items_data_st item_entry; - size_t item_entry_count = OSSL_NELEM(items_data); - /* Create the 32-bit JPI itemlist array to hold item_data content */ - struct { - uint16_t length, code; - uint32_t *buffer; - uint32_t *retlen; - } item[item_entry_count], *pitem; - struct items_data_st *pitems_data; - /* 8 bytes (two longs) per entry max */ - uint32_t data_buffer[(item_entry_count * 2) + 4]; - uint32_t iosb[2]; - uint32_t sys_time[2]; - uint32_t *ptr; - size_t i, j ; - size_t tmp_length = 0; + ILE3 JPI_items_64bit[OSSL_NELEM(JPI_item_data_64bit) + 1]; + ILE3 RMI_items_64bit[OSSL_NELEM(RMI_item_data_64bit) + 1]; + ILE3 DVI_items[OSSL_NELEM(DVI_item_data) + 1]; + ILE3 JPI_items[OSSL_NELEM(JPI_item_data) + 1]; + ILE3 RMI_items[OSSL_NELEM(RMI_item_data) + 1]; + ILE3 SYI_items[OSSL_NELEM(SYI_item_data) + 1]; + union { + /* This ensures buffer starts at 64 bit boundary */ + uint64_t dummy; + uint32_t buffer[OSSL_NELEM(JPI_item_data_64bit) * 2 + + OSSL_NELEM(RMI_item_data_64bit) * 2 + + OSSL_NELEM(DVI_item_data) + + OSSL_NELEM(JPI_item_data) + + OSSL_NELEM(RMI_item_data) + + OSSL_NELEM(SYI_item_data) + + 4 /* For JPI$_FINALEXC */]; + } data; + size_t total_elems = 0; size_t total_length = 0; - size_t bytes_needed = rand_pool_bytes_needed(pool, ENTROPY_BITS_PER_BYTE); + size_t bytes_needed = rand_pool_bytes_needed(pool, ENTROPY_FACTOR); size_t bytes_remaining = rand_pool_bytes_remaining(pool); - /* Setup itemlist for GETJPI */ - pitems_data = items_data; - for (pitem = item; pitems_data->length != 0; pitem++) { - pitem->length = pitems_data->length; - pitem->code = pitems_data->code; - pitem->buffer = &data_buffer[total_length]; - pitem->retlen = 0; - /* total_length is in longwords */ - total_length += pitems_data->length / 4; - pitems_data++; - } - pitem->length = pitem->code = 0; + /* Take all the 64-bit items first, to ensure proper alignment of data */ + total_elems += + prepare_item_list(JPI_item_data_64bit, OSSL_NELEM(JPI_item_data_64bit), + JPI_items_64bit, &data.buffer[total_elems]); + total_elems += + prepare_item_list(RMI_item_data_64bit, OSSL_NELEM(RMI_item_data_64bit), + RMI_items_64bit, &data.buffer[total_elems]); + /* Now the 32-bit items */ + total_elems += prepare_item_list(DVI_item_data, OSSL_NELEM(DVI_item_data), + DVI_items, &data.buffer[total_elems]); + total_elems += prepare_item_list(JPI_item_data, OSSL_NELEM(JPI_item_data), + JPI_items, &data.buffer[total_elems]); + total_elems += prepare_item_list(RMI_item_data, OSSL_NELEM(RMI_item_data), + RMI_items, &data.buffer[total_elems]); + total_elems += prepare_item_list(SYI_item_data, OSSL_NELEM(SYI_item_data), + SYI_items, &data.buffer[total_elems]); + total_length = total_elems * sizeof(data.buffer[0]); - /* Fill data_buffer with various info bits from this process */ - if (sys$getjpiw(EFN$C_ENF, NULL, NULL, item, &iosb, 0, 0) != SS$_NORMAL) - return 0; + /* Fill data.buffer with various info bits from this process */ + { + uint32_t status; + uint32_t efn; + IOSB iosb; + $DESCRIPTOR(SYSDEVICE,"SYS$SYSDEVICE:"); - /* Now twist that data to seed the SSL random number init */ - for (i = 0; i < total_length; i++) { - sys$gettim((struct _generic_64 *)&sys_time[0]); - srand(sys_time[0] * data_buffer[0] * data_buffer[1] + i); - - if (i == (total_length - 1)) { /* for JPI$_FINALEXC */ - ptr = &data_buffer[i]; - for (j = 0; j < 4; j++) { - data_buffer[i + j] = ptr[j]; - /* OK to use rand() just to scramble the seed */ - data_buffer[i + j] ^= (sys_time[0] ^ rand()); - tmp_length++; - } - } else { - /* OK to use rand() just to scramble the seed */ - data_buffer[i] ^= (sys_time[0] ^ rand()); + if ((status = sys$getdviw(EFN$C_ENF, 0, &SYSDEVICE, DVI_items, + 0, 0, 0, 0, 0)) != SS$_NORMAL) { + lib$signal(status); + return 0; + } + if ((status = sys$getjpiw(EFN$C_ENF, 0, 0, JPI_items_64bit, 0, 0, 0)) + != SS$_NORMAL) { + lib$signal(status); + return 0; + } + if ((status = sys$getjpiw(EFN$C_ENF, 0, 0, JPI_items, 0, 0, 0)) + != SS$_NORMAL) { + lib$signal(status); + return 0; + } + if ((status = sys$getsyiw(EFN$C_ENF, 0, 0, SYI_items, 0, 0, 0)) + != SS$_NORMAL) { + lib$signal(status); + return 0; + } + /* + * The RMI service is a bit special, as there is no synchronous + * variant, so we MUST create an event flag to synchronise on. + */ + if ((status = lib$get_ef(&efn)) != SS$_NORMAL) { + lib$signal(status); + return 0; + } + if ((status = sys$getrmi(efn, 0, 0, RMI_items_64bit, &iosb, 0, 0)) + != SS$_NORMAL) { + lib$signal(status); + return 0; + } + if ((status = sys$synch(efn, &iosb)) != SS$_NORMAL) { + lib$signal(status); + return 0; + } + if (iosb.iosb$l_getxxi_status != SS$_NORMAL) { + lib$signal(iosb.iosb$l_getxxi_status); + return 0; + } + if ((status = sys$getrmi(efn, 0, 0, RMI_items, &iosb, 0, 0)) + != SS$_NORMAL) { + lib$signal(status); + return 0; + } + if ((status = sys$synch(efn, &iosb)) != SS$_NORMAL) { + lib$signal(status); + return 0; + } + if (iosb.iosb$l_getxxi_status != SS$_NORMAL) { + lib$signal(iosb.iosb$l_getxxi_status); + return 0; + } + if ((status = lib$free_ef(&efn)) != SS$_NORMAL) { + lib$signal(status); + return 0; } } - total_length += (tmp_length - 1); - - /* Change the total length to number of bytes */ - total_length *= 4; + massage_JPI(JPI_items); /* * If we can't feed the requirements from the caller, we're in deep trouble. @@ -149,8 +463,9 @@ size_t rand_pool_acquire_entropy(RAND_POOL *pool) if (total_length > bytes_remaining) total_length = bytes_remaining; - rand_pool_add(pool, (PTR_T)data_buffer, total_length, - total_length * ENTROPY_BITS_PER_BYTE); + /* We give the pessimistic value for the amount of entropy */ + rand_pool_add(pool, (unsigned char *)data.buffer, total_length, + 8 * total_length / ENTROPY_FACTOR); return rand_pool_entropy_available(pool); } @@ -169,7 +484,7 @@ int rand_pool_add_nonce_data(RAND_POOL *pool) */ data.pid = getpid(); data.tid = CRYPTO_THREAD_get_current_id(); - sys$gettim_prec((struct _generic_64 *)&data.time); + sys$gettim_prec(&data.time); return rand_pool_add(pool, (unsigned char *)&data, sizeof(data), 0); } @@ -187,9 +502,22 @@ int rand_pool_add_additional_data(RAND_POOL *pool) * concurrently (which is the case for the drbg). */ data.tid = CRYPTO_THREAD_get_current_id(); - sys$gettim_prec((struct _generic_64 *)&data.time); + sys$gettim_prec(&data.time); return rand_pool_add(pool, (unsigned char *)&data, sizeof(data), 0); } +int rand_pool_init(void) +{ + return 1; +} + +void rand_pool_cleanup(void) +{ +} + +void rand_pool_keep_random_devices_open(int keep) +{ +} + #endif