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06e0950d20
items->ile3$w_code was checked before it was assigned its value... Reviewed-by: Tim Hudson <tjh@openssl.org> (Merged from https://github.com/openssl/openssl/pull/6200)
511 lines
15 KiB
C
511 lines
15 KiB
C
/*
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* Copyright 2001-2018 The OpenSSL Project Authors. All Rights Reserved.
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*
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* Licensed under the OpenSSL license (the "License"). You may not use
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* this file except in compliance with the License. You can obtain a copy
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* in the file LICENSE in the source distribution or at
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* https://www.openssl.org/source/license.html
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*/
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#include "e_os.h"
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#if defined(OPENSSL_SYS_VMS)
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# define __NEW_STARLET 1 /* New starlet definitions since VMS 7.0 */
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# include <unistd.h>
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# include "internal/cryptlib.h"
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# include <openssl/rand.h>
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# include "internal/rand_int.h"
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# include "rand_lcl.h"
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# include <descrip.h>
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# include <dvidef.h>
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# include <jpidef.h>
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# include <rmidef.h>
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# include <syidef.h>
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# include <ssdef.h>
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# include <starlet.h>
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# include <efndef.h>
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# include <gen64def.h>
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# include <iosbdef.h>
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# include <iledef.h>
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# include <lib$routines.h>
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# ifdef __DECC
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# pragma message disable DOLLARID
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# endif
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# ifndef OPENSSL_RAND_SEED_OS
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# error "Unsupported seeding method configured; must be os"
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# endif
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/* We need to make sure we have the right size pointer in some cases */
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# if __INITIAL_POINTER_SIZE == 64
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# pragma pointer_size save
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# pragma pointer_size 32
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# endif
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typedef uint32_t *uint32_t__ptr32;
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# if __INITIAL_POINTER_SIZE == 64
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# pragma pointer_size restore
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# endif
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struct item_st {
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short length, code; /* length is number of bytes */
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};
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static const struct item_st DVI_item_data[] = {
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{4, DVI$_ERRCNT},
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{4, DVI$_REFCNT},
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};
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static const struct item_st JPI_item_data[] = {
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{4, JPI$_BUFIO},
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{4, JPI$_CPUTIM},
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{4, JPI$_DIRIO},
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{4, JPI$_IMAGECOUNT},
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{4, JPI$_PAGEFLTS},
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{4, JPI$_PID},
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{4, JPI$_PPGCNT},
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{4, JPI$_WSPEAK},
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/*
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* Note: the direct result is just a 32-bit address. However, it points
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* to a list of 4 32-bit words, so we make extra space for them so we can
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* do in-place replacement of values
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*/
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{16, JPI$_FINALEXC},
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};
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static const struct item_st JPI_item_data_64bit[] = {
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{8, JPI$_LAST_LOGIN_I},
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{8, JPI$_LOGINTIM},
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};
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static const struct item_st RMI_item_data[] = {
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{4, RMI$_COLPG},
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{4, RMI$_MWAIT},
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{4, RMI$_CEF},
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{4, RMI$_PFW},
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{4, RMI$_LEF},
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{4, RMI$_LEFO},
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{4, RMI$_HIB},
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{4, RMI$_HIBO},
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{4, RMI$_SUSP},
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{4, RMI$_SUSPO},
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{4, RMI$_FPG},
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{4, RMI$_COM},
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{4, RMI$_COMO},
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{4, RMI$_CUR},
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#if defined __alpha
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{4, RMI$_FRLIST},
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{4, RMI$_MODLIST},
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#endif
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{4, RMI$_FAULTS},
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{4, RMI$_PREADS},
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{4, RMI$_PWRITES},
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{4, RMI$_PWRITIO},
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{4, RMI$_PREADIO},
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{4, RMI$_GVALFLTS},
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{4, RMI$_WRTINPROG},
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{4, RMI$_FREFLTS},
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{4, RMI$_DZROFLTS},
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{4, RMI$_SYSFAULTS},
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{4, RMI$_ISWPCNT},
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{4, RMI$_DIRIO},
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{4, RMI$_BUFIO},
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{4, RMI$_MBREADS},
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{4, RMI$_MBWRITES},
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{4, RMI$_LOGNAM},
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{4, RMI$_FCPCALLS},
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{4, RMI$_FCPREAD},
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{4, RMI$_FCPWRITE},
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{4, RMI$_FCPCACHE},
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{4, RMI$_FCPCPU},
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{4, RMI$_FCPHIT},
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{4, RMI$_FCPSPLIT},
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{4, RMI$_FCPFAULT},
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{4, RMI$_ENQNEW},
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{4, RMI$_ENQCVT},
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{4, RMI$_DEQ},
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{4, RMI$_BLKAST},
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{4, RMI$_ENQWAIT},
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{4, RMI$_ENQNOTQD},
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{4, RMI$_DLCKSRCH},
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{4, RMI$_DLCKFND},
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{4, RMI$_NUMLOCKS},
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{4, RMI$_NUMRES},
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{4, RMI$_ARRLOCPK},
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{4, RMI$_DEPLOCPK},
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{4, RMI$_ARRTRAPK},
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{4, RMI$_TRCNGLOS},
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{4, RMI$_RCVBUFFL},
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{4, RMI$_ENQNEWLOC},
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{4, RMI$_ENQNEWIN},
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{4, RMI$_ENQNEWOUT},
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{4, RMI$_ENQCVTLOC},
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{4, RMI$_ENQCVTIN},
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{4, RMI$_ENQCVTOUT},
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{4, RMI$_DEQLOC},
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{4, RMI$_DEQIN},
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{4, RMI$_DEQOUT},
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{4, RMI$_BLKLOC},
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{4, RMI$_BLKIN},
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{4, RMI$_BLKOUT},
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{4, RMI$_DIRIN},
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{4, RMI$_DIROUT},
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/* We currently get a fault when trying these. TODO: To be figured out. */
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#if 0
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{140, RMI$_MSCP_EVERYTHING}, /* 35 32-bit words */
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{152, RMI$_DDTM_ALL}, /* 38 32-bit words */
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{80, RMI$_TMSCP_EVERYTHING} /* 20 32-bit words */
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#endif
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{4, RMI$_LPZ_PAGCNT},
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{4, RMI$_LPZ_HITS},
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{4, RMI$_LPZ_MISSES},
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{4, RMI$_LPZ_EXPCNT},
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{4, RMI$_LPZ_ALLOCF},
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{4, RMI$_LPZ_ALLOC2},
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{4, RMI$_ACCESS},
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{4, RMI$_ALLOC},
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{4, RMI$_FCPCREATE},
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{4, RMI$_VOLWAIT},
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{4, RMI$_FCPTURN},
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{4, RMI$_FCPERASE},
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{4, RMI$_OPENS},
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{4, RMI$_FIDHIT},
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{4, RMI$_FIDMISS},
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{4, RMI$_FILHDR_HIT},
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{4, RMI$_DIRFCB_HIT},
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{4, RMI$_DIRFCB_MISS},
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{4, RMI$_DIRDATA_HIT},
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{4, RMI$_EXTHIT},
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{4, RMI$_EXTMISS},
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{4, RMI$_QUOHIT},
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{4, RMI$_QUOMISS},
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{4, RMI$_STORAGMAP_HIT},
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{4, RMI$_VOLLCK},
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{4, RMI$_SYNCHLCK},
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{4, RMI$_SYNCHWAIT},
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{4, RMI$_ACCLCK},
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{4, RMI$_XQPCACHEWAIT},
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{4, RMI$_DIRDATA_MISS},
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{4, RMI$_FILHDR_MISS},
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{4, RMI$_STORAGMAP_MISS},
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{4, RMI$_PROCCNTMAX},
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{4, RMI$_PROCBATCNT},
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{4, RMI$_PROCINTCNT},
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{4, RMI$_PROCNETCNT},
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{4, RMI$_PROCSWITCHCNT},
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{4, RMI$_PROCBALSETCNT},
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{4, RMI$_PROCLOADCNT},
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{4, RMI$_BADFLTS},
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{4, RMI$_EXEFAULTS},
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{4, RMI$_HDRINSWAPS},
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{4, RMI$_HDROUTSWAPS},
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{4, RMI$_IOPAGCNT},
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{4, RMI$_ISWPCNTPG},
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{4, RMI$_OSWPCNT},
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{4, RMI$_OSWPCNTPG},
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{4, RMI$_RDFAULTS},
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{4, RMI$_TRANSFLTS},
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{4, RMI$_WRTFAULTS},
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#if defined __alpha
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{4, RMI$_USERPAGES},
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#endif
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{4, RMI$_VMSPAGES},
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{4, RMI$_TTWRITES},
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{4, RMI$_BUFOBJPAG},
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{4, RMI$_BUFOBJPAGPEAK},
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{4, RMI$_BUFOBJPAGS01},
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{4, RMI$_BUFOBJPAGS2},
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{4, RMI$_BUFOBJPAGMAXS01},
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{4, RMI$_BUFOBJPAGMAXS2},
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{4, RMI$_BUFOBJPAGPEAKS01},
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{4, RMI$_BUFOBJPAGPEAKS2},
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{4, RMI$_BUFOBJPGLTMAXS01},
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{4, RMI$_BUFOBJPGLTMAXS2},
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{4, RMI$_DLCK_INCMPLT},
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{4, RMI$_DLCKMSGS_IN},
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{4, RMI$_DLCKMSGS_OUT},
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{4, RMI$_MCHKERRS},
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{4, RMI$_MEMERRS},
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};
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static const struct item_st RMI_item_data_64bit[] = {
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#if defined __ia64
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{8, RMI$_FRLIST},
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{8, RMI$_MODLIST},
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#endif
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{8, RMI$_LCKMGR_REQCNT},
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{8, RMI$_LCKMGR_REQTIME},
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{8, RMI$_LCKMGR_SPINCNT},
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{8, RMI$_LCKMGR_SPINTIME},
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{8, RMI$_CPUINTSTK},
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{8, RMI$_CPUMPSYNCH},
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{8, RMI$_CPUKERNEL},
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{8, RMI$_CPUEXEC},
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{8, RMI$_CPUSUPER},
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{8, RMI$_CPUUSER},
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#if defined __ia64
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{8, RMI$_USERPAGES},
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#endif
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{8, RMI$_TQETOTAL},
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{8, RMI$_TQESYSUB},
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{8, RMI$_TQEUSRTIMR},
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{8, RMI$_TQEUSRWAKE},
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};
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static const struct item_st SYI_item_data[] = {
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{4, SYI$_PAGEFILE_FREE},
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};
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/*
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* Input:
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* items_data - an array of lengths and codes
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* items_data_num - number of elements in that array
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*
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* Output:
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* items - pre-allocated ILE3 array to be filled.
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* It's assumed to have items_data_num elements plus
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* one extra for the terminating NULL element
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* databuffer - pre-allocated 32-bit word array.
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*
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* Returns the number of elements used in databuffer
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*/
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static size_t prepare_item_list(const struct item_st *items_input,
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size_t items_input_num,
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ILE3 *items,
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uint32_t__ptr32 databuffer)
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{
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size_t data_sz = 0;
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for (; items_input_num-- > 0; items_input++, items++) {
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items->ile3$w_code = items_input->code;
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/* Special treatment of JPI$_FINALEXC */
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if (items->ile3$w_code == JPI$_FINALEXC)
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items->ile3$w_length = 4;
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else
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items->ile3$w_length = items_input->length;
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items->ile3$ps_bufaddr = databuffer;
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items->ile3$ps_retlen_addr = 0;
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databuffer += items_input->length / sizeof(databuffer[0]);
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data_sz += items_input->length;
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}
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/* Terminating NULL entry */
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items->ile3$w_length = items->ile3$w_code = 0;
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items->ile3$ps_bufaddr = items->ile3$ps_retlen_addr = NULL;
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return data_sz / sizeof(databuffer[0]);
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}
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static void massage_JPI(ILE3 *items)
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{
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/*
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* Special treatment of JPI$_FINALEXC
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* The result of that item's data buffer is a 32-bit address to a list of
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* 4 32-bit words.
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*/
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for (; items->ile3$w_length != 0; items++) {
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if (items->ile3$w_code == JPI$_FINALEXC) {
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uint32_t *data = items->ile3$ps_bufaddr;
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uint32_t *ptr = (uint32_t *)*data;
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size_t j;
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/*
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* We know we made space for 4 32-bit words, so we can do in-place
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* replacement.
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*/
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for (j = 0; j < 4; j++)
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data[j] = ptr[j];
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break;
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}
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}
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}
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/*
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* This number expresses how many bits of data contain 1 bit of entropy.
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*
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* For the moment, we assume about 0.05 entropy bits per data bit, or 1
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* bit of entropy per 20 data bits.
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*/
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#define ENTROPY_FACTOR 20
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size_t rand_pool_acquire_entropy(RAND_POOL *pool)
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{
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ILE3 JPI_items_64bit[OSSL_NELEM(JPI_item_data_64bit) + 1];
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ILE3 RMI_items_64bit[OSSL_NELEM(RMI_item_data_64bit) + 1];
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ILE3 DVI_items[OSSL_NELEM(DVI_item_data) + 1];
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ILE3 JPI_items[OSSL_NELEM(JPI_item_data) + 1];
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ILE3 RMI_items[OSSL_NELEM(RMI_item_data) + 1];
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ILE3 SYI_items[OSSL_NELEM(SYI_item_data) + 1];
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union {
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/* This ensures buffer starts at 64 bit boundary */
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uint64_t dummy;
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uint32_t buffer[OSSL_NELEM(JPI_item_data_64bit) * 2
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+ OSSL_NELEM(RMI_item_data_64bit) * 2
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+ OSSL_NELEM(DVI_item_data)
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+ OSSL_NELEM(JPI_item_data)
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+ OSSL_NELEM(RMI_item_data)
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+ OSSL_NELEM(SYI_item_data)
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+ 4 /* For JPI$_FINALEXC */];
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} data;
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size_t total_elems = 0;
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size_t total_length = 0;
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size_t bytes_needed = rand_pool_bytes_needed(pool, ENTROPY_FACTOR);
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size_t bytes_remaining = rand_pool_bytes_remaining(pool);
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/* Take all the 64-bit items first, to ensure proper alignment of data */
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total_elems +=
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prepare_item_list(JPI_item_data_64bit, OSSL_NELEM(JPI_item_data_64bit),
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JPI_items_64bit, &data.buffer[total_elems]);
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total_elems +=
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prepare_item_list(RMI_item_data_64bit, OSSL_NELEM(RMI_item_data_64bit),
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RMI_items_64bit, &data.buffer[total_elems]);
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/* Now the 32-bit items */
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total_elems += prepare_item_list(DVI_item_data, OSSL_NELEM(DVI_item_data),
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DVI_items, &data.buffer[total_elems]);
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total_elems += prepare_item_list(JPI_item_data, OSSL_NELEM(JPI_item_data),
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JPI_items, &data.buffer[total_elems]);
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total_elems += prepare_item_list(RMI_item_data, OSSL_NELEM(RMI_item_data),
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RMI_items, &data.buffer[total_elems]);
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total_elems += prepare_item_list(SYI_item_data, OSSL_NELEM(SYI_item_data),
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SYI_items, &data.buffer[total_elems]);
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total_length = total_elems * sizeof(data.buffer[0]);
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/* Fill data.buffer with various info bits from this process */
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{
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uint32_t status;
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uint32_t efn;
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IOSB iosb;
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$DESCRIPTOR(SYSDEVICE,"SYS$SYSDEVICE:");
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if ((status = sys$getdviw(EFN$C_ENF, 0, &SYSDEVICE, DVI_items,
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0, 0, 0, 0, 0)) != SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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if ((status = sys$getjpiw(EFN$C_ENF, 0, 0, JPI_items_64bit, 0, 0, 0))
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!= SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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if ((status = sys$getjpiw(EFN$C_ENF, 0, 0, JPI_items, 0, 0, 0))
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!= SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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if ((status = sys$getsyiw(EFN$C_ENF, 0, 0, SYI_items, 0, 0, 0))
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!= SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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/*
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* The RMI service is a bit special, as there is no synchronous
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* variant, so we MUST create an event flag to synchronise on.
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*/
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if ((status = lib$get_ef(&efn)) != SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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if ((status = sys$getrmi(efn, 0, 0, RMI_items_64bit, &iosb, 0, 0))
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!= SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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if ((status = sys$synch(efn, &iosb)) != SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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if (iosb.iosb$l_getxxi_status != SS$_NORMAL) {
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lib$signal(iosb.iosb$l_getxxi_status);
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return 0;
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}
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if ((status = sys$getrmi(efn, 0, 0, RMI_items, &iosb, 0, 0))
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!= SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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if ((status = sys$synch(efn, &iosb)) != SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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if (iosb.iosb$l_getxxi_status != SS$_NORMAL) {
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lib$signal(iosb.iosb$l_getxxi_status);
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return 0;
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}
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if ((status = lib$free_ef(&efn)) != SS$_NORMAL) {
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lib$signal(status);
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return 0;
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}
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}
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massage_JPI(JPI_items);
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/*
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* If we can't feed the requirements from the caller, we're in deep trouble.
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*/
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if (!ossl_assert(total_length >= bytes_needed)) {
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char neededstr[20];
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char availablestr[20];
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BIO_snprintf(neededstr, sizeof(neededstr), "%zu", bytes_needed);
|
|
BIO_snprintf(availablestr, sizeof(availablestr), "%zu", total_length);
|
|
RANDerr(RAND_F_RAND_POOL_ACQUIRE_ENTROPY,
|
|
RAND_R_RANDOM_POOL_UNDERFLOW);
|
|
ERR_add_error_data(4, "Needed: ", neededstr, ", Available: ",
|
|
availablestr);
|
|
return 0;
|
|
}
|
|
|
|
/*
|
|
* Try not to overfeed the pool
|
|
*/
|
|
if (total_length > bytes_remaining)
|
|
total_length = bytes_remaining;
|
|
|
|
/* We give the pessimistic value for the amount of entropy */
|
|
rand_pool_add(pool, (unsigned char *)data.buffer, total_length,
|
|
8 * total_length / ENTROPY_FACTOR);
|
|
return rand_pool_entropy_available(pool);
|
|
}
|
|
|
|
int rand_pool_add_nonce_data(RAND_POOL *pool)
|
|
{
|
|
struct {
|
|
pid_t pid;
|
|
CRYPTO_THREAD_ID tid;
|
|
uint64_t time;
|
|
} data = { 0 };
|
|
|
|
/*
|
|
* Add process id, thread id, and a high resolution timestamp to
|
|
* ensure that the nonce is unique whith high probability for
|
|
* different process instances.
|
|
*/
|
|
data.pid = getpid();
|
|
data.tid = CRYPTO_THREAD_get_current_id();
|
|
sys$gettim_prec(&data.time);
|
|
|
|
return rand_pool_add(pool, (unsigned char *)&data, sizeof(data), 0);
|
|
}
|
|
|
|
int rand_pool_add_additional_data(RAND_POOL *pool)
|
|
{
|
|
struct {
|
|
CRYPTO_THREAD_ID tid;
|
|
uint64_t time;
|
|
} data = { 0 };
|
|
|
|
/*
|
|
* Add some noise from the thread id and a high resolution timer.
|
|
* The thread id adds a little randomness if the drbg is accessed
|
|
* concurrently (which is the case for the <master> drbg).
|
|
*/
|
|
data.tid = CRYPTO_THREAD_get_current_id();
|
|
sys$gettim_prec(&data.time);
|
|
|
|
return rand_pool_add(pool, (unsigned char *)&data, sizeof(data), 0);
|
|
}
|
|
|
|
#endif
|