/* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % RRRR AAA N N DDDD OOO M M % % R R A A NN N D D O O MM MM % % RRRR AAAAA N N N D D O O M M M % % R R A A N NN D D O O M M % % R R A A N N DDDD OOO M M % % % % % % MagickCore Methods to Generate Random Numbers % % % % Software Design % % Cristy % % December 2001 % % % % % % Copyright 1999-2019 ImageMagick Studio LLC, a non-profit organization % % dedicated to making software imaging solutions freely available. % % % % You may not use this file except in compliance with the License. You may % % obtain a copy of the License at % % % % https://imagemagick.org/script/license.php % % % % Unless required by applicable law or agreed to in writing, software % % distributed under the License is distributed on an "AS IS" BASIS, % % WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. % % See the License for the specific language governing permissions and % % limitations under the License. % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % The generation of random numbers is too important to be left to chance. % -- Tom Christiansen <tchrist@mox.perl.com> % % */ /* Include declarations. */ #if defined(__VMS) #include <time.h> #endif #if defined(__MINGW32__) #include <sys/time.h> #endif #include "MagickCore/studio.h" #include "MagickCore/exception.h" #include "MagickCore/exception-private.h" #include "MagickCore/image-private.h" #include "MagickCore/memory_.h" #include "MagickCore/memory-private.h" #include "MagickCore/semaphore.h" #include "MagickCore/random_.h" #include "MagickCore/random-private.h" #include "MagickCore/resource_.h" #include "MagickCore/signature-private.h" #include "MagickCore/string_.h" #include "MagickCore/thread_.h" #include "MagickCore/thread-private.h" #include "MagickCore/utility.h" #include "MagickCore/utility-private.h" /* Define declarations. */ #define PseudoRandomHash SHA256Hash #define RandomEntropyLevel 9 #define RandomFilename "reservoir.xdm" #define RandomFiletype "random" #define RandomProtocolMajorVersion 1 #define RandomProtocolMinorVersion 0 /* Typedef declarations. */ struct _RandomInfo { SignatureInfo *signature_info; StringInfo *nonce, *reservoir; size_t i; unsigned long seed[4]; double normalize; unsigned long secret_key; unsigned short protocol_major, protocol_minor; SemaphoreInfo *semaphore; ssize_t timestamp; size_t signature; }; /* External declarations. */ #if defined(__APPLE__) && !defined(TARGET_OS_IPHONE) #include <crt_externs.h> #define environ (*_NSGetEnviron()) #endif #if !defined(MAGICKCORE_WINDOWS_SUPPORT) extern char **environ; #endif /* Global declarations. */ static SemaphoreInfo *random_semaphore = (SemaphoreInfo *) NULL; static unsigned long secret_key = ~0UL; static MagickBooleanType gather_true_random = MagickFalse; /* Forward declarations. */ static StringInfo *GenerateEntropicChaos(RandomInfo *); /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % A c q u i r e R a n d o m I n f o % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % AcquireRandomInfo() allocates the RandomInfo structure. % % The format of the AcquireRandomInfo method is: % % RandomInfo *AcquireRandomInfo(void) % */ MagickExport RandomInfo *AcquireRandomInfo(void) { const StringInfo *digest; RandomInfo *random_info; StringInfo *entropy, *key, *nonce; random_info=(RandomInfo *) AcquireCriticalMemory(sizeof(*random_info)); (void) memset(random_info,0,sizeof(*random_info)); random_info->signature_info=AcquireSignatureInfo(); random_info->nonce=AcquireStringInfo(2*GetSignatureDigestsize( random_info->signature_info)); ResetStringInfo(random_info->nonce); random_info->reservoir=AcquireStringInfo(GetSignatureDigestsize( random_info->signature_info)); ResetStringInfo(random_info->reservoir); random_info->normalize=1.0/(~0UL); random_info->secret_key=secret_key; random_info->protocol_major=RandomProtocolMajorVersion; random_info->protocol_minor=RandomProtocolMinorVersion; random_info->semaphore=AcquireSemaphoreInfo(); random_info->timestamp=(ssize_t) time(0); random_info->signature=MagickCoreSignature; /* Seed random nonce. */ nonce=GenerateEntropicChaos(random_info); if (nonce == (StringInfo *) NULL) ThrowFatalException(ResourceLimitFatalError,"MemoryAllocationFailed"); InitializeSignature(random_info->signature_info); UpdateSignature(random_info->signature_info,nonce); FinalizeSignature(random_info->signature_info); SetStringInfoLength(nonce,(GetSignatureDigestsize( random_info->signature_info)+1)/2); SetStringInfo(nonce,GetSignatureDigest(random_info->signature_info)); SetStringInfo(random_info->nonce,nonce); nonce=DestroyStringInfo(nonce); /* Seed random reservoir with entropic data. */ entropy=GenerateEntropicChaos(random_info); if (entropy == (StringInfo *) NULL) ThrowFatalException(ResourceLimitFatalError,"MemoryAllocationFailed"); UpdateSignature(random_info->signature_info,entropy); FinalizeSignature(random_info->signature_info); SetStringInfo(random_info->reservoir,GetSignatureDigest( random_info->signature_info)); entropy=DestroyStringInfo(entropy); /* Seed pseudo random number generator. */ if (random_info->secret_key == ~0UL) { key=GetRandomKey(random_info,sizeof(random_info->secret_key)); (void) memcpy(random_info->seed,GetStringInfoDatum(key), GetStringInfoLength(key)); key=DestroyStringInfo(key); } else { SignatureInfo *signature_info; signature_info=AcquireSignatureInfo(); key=AcquireStringInfo(sizeof(random_info->secret_key)); SetStringInfoDatum(key,(unsigned char *) &random_info->secret_key); UpdateSignature(signature_info,key); key=DestroyStringInfo(key); FinalizeSignature(signature_info); digest=GetSignatureDigest(signature_info); (void) memcpy(random_info->seed,GetStringInfoDatum(digest), MagickMin(GetSignatureDigestsize(signature_info), sizeof(*random_info->seed))); signature_info=DestroySignatureInfo(signature_info); } random_info->seed[1]=0x50a7f451UL; random_info->seed[2]=0x5365417eUL; random_info->seed[3]=0xc3a4171aUL; return(random_info); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % + D e s t r o y R a n d o m I n f o % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DestroyRandomInfo() deallocates memory associated with the random % reservoir. % % The format of the DestroyRandomInfo method is: % % RandomInfo *DestroyRandomInfo(RandomInfo *random_info) % % A description of each parameter follows: % % o random_info: the random info. % */ MagickExport RandomInfo *DestroyRandomInfo(RandomInfo *random_info) { (void) LogMagickEvent(TraceEvent,GetMagickModule(),"..."); assert(random_info != (RandomInfo *) NULL); assert(random_info->signature == MagickCoreSignature); LockSemaphoreInfo(random_info->semaphore); if (random_info->reservoir != (StringInfo *) NULL) random_info->reservoir=DestroyStringInfo(random_info->reservoir); if (random_info->nonce != (StringInfo *) NULL) random_info->nonce=DestroyStringInfo(random_info->nonce); if (random_info->signature_info != (SignatureInfo *) NULL) random_info->signature_info=DestroySignatureInfo( random_info->signature_info); (void) memset(random_info->seed,0,sizeof(random_info->seed)); random_info->signature=(~MagickCoreSignature); UnlockSemaphoreInfo(random_info->semaphore); RelinquishSemaphoreInfo(&random_info->semaphore); random_info=(RandomInfo *) RelinquishMagickMemory(random_info); return(random_info); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % + G e n e r a t e E n t r o p i c C h a o s % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % GenerateEntropicChaos() generate entropic chaos used to initialize the % random reservoir. % % The format of the GenerateEntropicChaos method is: % % StringInfo *GenerateEntropicChaos(RandomInfo *random_info) % % A description of each parameter follows: % % o random_info: the random info. % */ #if !defined(MAGICKCORE_WINDOWS_SUPPORT) static ssize_t ReadRandom(int file,unsigned char *source,size_t length) { register unsigned char *q; ssize_t offset, count; offset=0; for (q=source; length != 0; length-=count) { count=(ssize_t) read(file,q,length); if (count <= 0) { count=0; if (errno == EINTR) continue; return(-1); } q+=count; offset+=count; } return(offset); } #endif static StringInfo *GenerateEntropicChaos(RandomInfo *random_info) { #define MaxEntropyExtent 64 MagickThreadType tid; StringInfo *chaos, *entropy; size_t nanoseconds, seconds; ssize_t pid; /* Initialize random reservoir. */ entropy=AcquireStringInfo(0); LockSemaphoreInfo(random_info->semaphore); chaos=AcquireStringInfo(sizeof(unsigned char *)); SetStringInfoDatum(chaos,(unsigned char *) &entropy); ConcatenateStringInfo(entropy,chaos); SetStringInfoDatum(chaos,(unsigned char *) entropy); ConcatenateStringInfo(entropy,chaos); pid=(ssize_t) getpid(); SetStringInfoLength(chaos,sizeof(pid)); SetStringInfoDatum(chaos,(unsigned char *) &pid); ConcatenateStringInfo(entropy,chaos); tid=GetMagickThreadId(); SetStringInfoLength(chaos,sizeof(tid)); SetStringInfoDatum(chaos,(unsigned char *) &tid); ConcatenateStringInfo(entropy,chaos); #if defined(MAGICKCORE_HAVE_SYSCONF) && defined(_SC_PHYS_PAGES) { ssize_t pages; pages=(ssize_t) sysconf(_SC_PHYS_PAGES); SetStringInfoLength(chaos,sizeof(pages)); SetStringInfoDatum(chaos,(unsigned char *) &pages); ConcatenateStringInfo(entropy,chaos); } #endif #if defined(MAGICKCORE_HAVE_GETRUSAGE) && defined(RUSAGE_SELF) { struct rusage usage; if (getrusage(RUSAGE_SELF,&usage) == 0) { SetStringInfoLength(chaos,sizeof(usage)); SetStringInfoDatum(chaos,(unsigned char *) &usage); } } #endif seconds=time((time_t *) 0); nanoseconds=0; #if defined(MAGICKCORE_HAVE_GETTIMEOFDAY) { struct timeval timer; if (gettimeofday(&timer,(struct timezone *) NULL) == 0) { seconds=timer.tv_sec; nanoseconds=1000UL*timer.tv_usec; } } #endif #if defined(MAGICKCORE_HAVE_CLOCK_GETTIME) && defined(CLOCK_REALTIME_HR) { struct timespec timer; if (clock_gettime(CLOCK_REALTIME_HR,&timer) == 0) { seconds=timer.tv_sec; nanoseconds=timer.tv_nsec; } } #endif SetStringInfoLength(chaos,sizeof(seconds)); SetStringInfoDatum(chaos,(unsigned char *) &seconds); ConcatenateStringInfo(entropy,chaos); SetStringInfoLength(chaos,sizeof(nanoseconds)); SetStringInfoDatum(chaos,(unsigned char *) &nanoseconds); ConcatenateStringInfo(entropy,chaos); nanoseconds=0; #if defined(MAGICKCORE_HAVE_CLOCK) nanoseconds=clock(); #endif #if defined(MAGICKCORE_HAVE_TIMES) { struct tms timer; (void) times(&timer); nanoseconds=timer.tms_utime+timer.tms_stime; } #endif SetStringInfoLength(chaos,sizeof(nanoseconds)); SetStringInfoDatum(chaos,(unsigned char *) &nanoseconds); ConcatenateStringInfo(entropy,chaos); #if defined(MAGICKCORE_HAVE_MKSTEMP) { char path[MagickPathExtent]; int file; (void) strcpy(path,"XXXXXX"); file=mkstemp(path); if (file != -1) { #if defined(MAGICKCORE_HAVE_FCHMOD) (void) fchmod(file,0600); #endif #if defined(__OS2__) setmode(file,O_BINARY); #endif (void) close(file); } (void) remove_utf8(path); SetStringInfoLength(chaos,strlen(path)); SetStringInfoDatum(chaos,(unsigned char *) path); ConcatenateStringInfo(entropy,chaos); } #endif #if defined(MAGICKCORE_WINDOWS_SUPPORT) { double datum; LARGE_INTEGER datum1; /* Not crytographically strong but better than nothing. */ datum=NTElapsedTime()+NTUserTime(); SetStringInfoLength(chaos,sizeof(datum)); SetStringInfoDatum(chaos,(unsigned char *) &datum); ConcatenateStringInfo(entropy,chaos); if (QueryPerformanceCounter(&datum1) != 0) { SetStringInfoLength(chaos,sizeof(datum1)); SetStringInfoDatum(chaos,(unsigned char *) &datum1); ConcatenateStringInfo(entropy,chaos); } /* Our best hope for true entropy. */ SetStringInfoLength(chaos,MaxEntropyExtent); (void) NTGatherRandomData(MaxEntropyExtent,GetStringInfoDatum(chaos)); ConcatenateStringInfo(entropy,chaos); } #else { char *filename; int file; ssize_t count; StringInfo *device; /* Not crytographically strong but better than nothing. */ if (environ != (char **) NULL) { register ssize_t i; /* Squeeze some entropy from the sometimes unpredicatble environment. */ for (i=0; environ[i] != (char *) NULL; i++) { SetStringInfoLength(chaos,strlen(environ[i])); SetStringInfoDatum(chaos,(unsigned char *) environ[i]); ConcatenateStringInfo(entropy,chaos); } } filename=AcquireString("/dev/urandom"); device=StringToStringInfo(filename); device=DestroyStringInfo(device); file=open_utf8(filename,O_RDONLY | O_BINARY,0); filename=DestroyString(filename); if (file != -1) { SetStringInfoLength(chaos,MaxEntropyExtent); count=ReadRandom(file,GetStringInfoDatum(chaos),MaxEntropyExtent); (void) close(file); SetStringInfoLength(chaos,(size_t) count); ConcatenateStringInfo(entropy,chaos); } if (gather_true_random != MagickFalse) { /* Our best hope for true entropy. */ filename=AcquireString("/dev/random"); device=StringToStringInfo(filename); device=DestroyStringInfo(device); file=open_utf8(filename,O_RDONLY | O_BINARY,0); filename=DestroyString(filename); if (file == -1) { filename=AcquireString("/dev/srandom"); device=StringToStringInfo(filename); device=DestroyStringInfo(device); file=open_utf8(filename,O_RDONLY | O_BINARY,0); } if (file != -1) { SetStringInfoLength(chaos,MaxEntropyExtent); count=ReadRandom(file,GetStringInfoDatum(chaos),MaxEntropyExtent); (void) close(file); SetStringInfoLength(chaos,(size_t) count); ConcatenateStringInfo(entropy,chaos); } } } #endif chaos=DestroyStringInfo(chaos); UnlockSemaphoreInfo(random_info->semaphore); return(entropy); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % G e t P s e u d o R a n d o m V a l u e % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % GetPseudoRandomValue() return a non-negative double-precision floating-point % value uniformly distributed over the interval [0.0, 1.0) with a 2 to the % 128th-1 period. % % The format of the GetPseudoRandomValue method is: % % double GetPseudoRandomValue(RandomInfo *randon_info) % % A description of each parameter follows: % % o random_info: the random info. % */ MagickExport double GetPseudoRandomValue(RandomInfo *random_info) { register unsigned long *seed; unsigned long alpha; seed=random_info->seed; do { alpha=(unsigned long) (seed[1] ^ (seed[1] << 11)); seed[1]=seed[2]; seed[2]=seed[3]; seed[3]=seed[0]; seed[0]=(seed[0] ^ (seed[0] >> 19)) ^ (alpha ^ (alpha >> 8)); } while (seed[0] == ~0UL); return(random_info->normalize*seed[0]); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % + G e t R a n d o m I n f o N o r m a l i z e % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % GetRandomInfoNormalize() returns the random normalize value. % % The format of the GetRandomInfoNormalize method is: % % double GetRandomInfoNormalize(const RandomInfo *random_info) % % A description of each parameter follows: % % o random_info: the random info. % */ MagickPrivate double GetRandomInfoNormalize(const RandomInfo *random_info) { assert(random_info != (const RandomInfo *) NULL); return(random_info->normalize); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % + G e t R a n d o m I n f o S e e d % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % GetRandomInfoSeed() returns the random seed. % % The format of the GetRandomInfoSeed method is: % % unsigned long *GetRandomInfoSeed(RandomInfo *random_info) % % A description of each parameter follows: % % o random_info: the random info. % */ MagickPrivate unsigned long *GetRandomInfoSeed(RandomInfo *random_info) { assert(random_info != (RandomInfo *) NULL); return(random_info->seed); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % G e t R a n d o m K e y % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % GetRandomKey() gets a random key from the reservoir. % % The format of the GetRandomKey method is: % % StringInfo *GetRandomKey(RandomInfo *random_info,const size_t length) % % A description of each parameter follows: % % o random_info: the random info. % % o length: the key length. % */ MagickExport StringInfo *GetRandomKey(RandomInfo *random_info, const size_t length) { StringInfo *key; assert(random_info != (RandomInfo *) NULL); key=AcquireStringInfo(length); SetRandomKey(random_info,length,GetStringInfoDatum(key)); return(key); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % G e t R a n d o m S e c r e t K e y % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % GetRandomSecretKey() returns the random secet key. % % The format of the GetRandomSecretKey method is: % % unsigned long GetRandomSecretKey(const RandomInfo *random_info) % % A description of each parameter follows: % % o random_info: the random info. */ MagickExport unsigned long GetRandomSecretKey(const RandomInfo *random_info) { return(random_info->secret_key); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % G e t R a n d o m V a l u e % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % GetRandomValue() return a non-negative double-precision floating-point % value uniformly distributed over the interval [0.0, 1.0) with a 2 to the % 128th-1 period (not cryptographically strong). % % The format of the GetRandomValue method is: % % double GetRandomValue(void) % */ MagickExport double GetRandomValue(RandomInfo *random_info) { unsigned long key, range; range=(~0UL); do { SetRandomKey(random_info,sizeof(key),(unsigned char *) &key); } while (key == range); return((double) key/range); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % + R a n d o m C o m p o n e n t G e n e s i s % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % RandomComponentGenesis() instantiates the random component. % % The format of the RandomComponentGenesis method is: % % MagickBooleanType RandomComponentGenesis(void) % */ MagickPrivate MagickBooleanType RandomComponentGenesis(void) { if (random_semaphore == (SemaphoreInfo *) NULL) random_semaphore=AcquireSemaphoreInfo(); return(MagickTrue); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % + R a n d o m C o m p o n e n t T e r m i n u s % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % RandomComponentTerminus() destroys the random component. % % The format of the RandomComponentTerminus method is: % % RandomComponentTerminus(void) % */ MagickPrivate void RandomComponentTerminus(void) { if (random_semaphore == (SemaphoreInfo *) NULL) ActivateSemaphoreInfo(&random_semaphore); RelinquishSemaphoreInfo(&random_semaphore); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % S e t R a n d o m K e y % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % SetRandomKey() sets a random key from the reservoir. % % The format of the SetRandomKey method is: % % void SetRandomKey(RandomInfo *random_info,const size_t length, % unsigned char *key) % % A description of each parameter follows: % % o random_info: the random info. % % o length: the key length. % % o key: the key. % */ static inline void IncrementRandomNonce(StringInfo *nonce) { register ssize_t i; unsigned char *datum; datum=GetStringInfoDatum(nonce); for (i=(ssize_t) (GetStringInfoLength(nonce)-1); i != 0; i--) { datum[i]++; if (datum[i] != 0) return; } ThrowFatalException(RandomFatalError,"SequenceWrapError"); } MagickExport void SetRandomKey(RandomInfo *random_info,const size_t length, unsigned char *key) { register size_t i; register unsigned char *p; SignatureInfo *signature_info; unsigned char *datum; assert(random_info != (RandomInfo *) NULL); if (length == 0) return; LockSemaphoreInfo(random_info->semaphore); signature_info=random_info->signature_info; datum=GetStringInfoDatum(random_info->reservoir); i=length; for (p=key; (i != 0) && (random_info->i != 0); i--) { *p++=datum[random_info->i]; random_info->i++; if (random_info->i == GetSignatureDigestsize(signature_info)) random_info->i=0; } while (i >= GetSignatureDigestsize(signature_info)) { InitializeSignature(signature_info); UpdateSignature(signature_info,random_info->nonce); FinalizeSignature(signature_info); IncrementRandomNonce(random_info->nonce); (void) memcpy(p,GetStringInfoDatum(GetSignatureDigest( signature_info)),GetSignatureDigestsize(signature_info)); p+=GetSignatureDigestsize(signature_info); i-=GetSignatureDigestsize(signature_info); } if (i != 0) { InitializeSignature(signature_info); UpdateSignature(signature_info,random_info->nonce); FinalizeSignature(signature_info); IncrementRandomNonce(random_info->nonce); SetStringInfo(random_info->reservoir,GetSignatureDigest(signature_info)); random_info->i=i; datum=GetStringInfoDatum(random_info->reservoir); while (i-- != 0) p[i]=datum[i]; } UnlockSemaphoreInfo(random_info->semaphore); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % S e t R a n d o m S e c r e t K e y % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % SetRandomSecretKey() sets the pseudo-random number generator secret key. % % The format of the SetRandomSecretKey method is: % % void SetRandomSecretKey(const unsigned long key) % % A description of each parameter follows: % % o key: the secret seed. % */ MagickExport void SetRandomSecretKey(const unsigned long key) { secret_key=key; } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % S e t R a n d o m T r u e R a n d o m % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % SetRandomTrueRandom() declares your intentions to use true random numbers. % True random numbers are encouraged but may not always be practical because % your application may block while entropy is gathered from your environment. % % The format of the SetRandomTrueRandom method is: % % void SetRandomTrueRandom(const MagickBooleanType true_random) % % A description of each parameter follows: % % o true_random: declare your intentions to use true-random number. % */ MagickExport void SetRandomTrueRandom(const MagickBooleanType true_random) { gather_true_random=true_random; }