diff options
Diffstat (limited to 'freebsd/sys/crypto/skein/skein.c')
| -rw-r--r-- | freebsd/sys/crypto/skein/skein.c | 860 |
1 files changed, 860 insertions, 0 deletions
diff --git a/freebsd/sys/crypto/skein/skein.c b/freebsd/sys/crypto/skein/skein.c new file mode 100644 index 00000000..c13f9ad4 --- /dev/null +++ b/freebsd/sys/crypto/skein/skein.c @@ -0,0 +1,860 @@ +#include <machine/rtems-bsd-kernel-space.h> + +/*********************************************************************** +** +** Implementation of the Skein hash function. +** +** Source code author: Doug Whiting, 2008. +** +** This algorithm and source code is released to the public domain. +** +************************************************************************/ + +#include <sys/cdefs.h> +__FBSDID("$FreeBSD$"); + +#include <sys/endian.h> +#include <sys/types.h> + +/* get the memcpy/memset functions */ +#ifdef _KERNEL +#include <sys/systm.h> +#else +#include <string.h> +#endif + +#define SKEIN_PORT_CODE /* instantiate any code in skein_port.h */ + +#include "skein.h" /* get the Skein API definitions */ +#include "skein_iv.h" /* get precomputed IVs */ + +/*****************************************************************/ +/* External function to process blkCnt (nonzero) full block(s) of data. */ +void Skein_256_Process_Block(Skein_256_Ctxt_t *ctx,const u08b_t *blkPtr,size_t blkCnt,size_t byteCntAdd); +void Skein_512_Process_Block(Skein_512_Ctxt_t *ctx,const u08b_t *blkPtr,size_t blkCnt,size_t byteCntAdd); +void Skein1024_Process_Block(Skein1024_Ctxt_t *ctx,const u08b_t *blkPtr,size_t blkCnt,size_t byteCntAdd); + +/*****************************************************************/ +/* 256-bit Skein */ +/*****************************************************************/ + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* init the context for a straight hashing operation */ +int Skein_256_Init(Skein_256_Ctxt_t *ctx, size_t hashBitLen) + { + union + { + u08b_t b[SKEIN_256_STATE_BYTES]; + u64b_t w[SKEIN_256_STATE_WORDS]; + } cfg; /* config block */ + + Skein_Assert(hashBitLen > 0,SKEIN_BAD_HASHLEN); + ctx->h.hashBitLen = hashBitLen; /* output hash bit count */ + + switch (hashBitLen) + { /* use pre-computed values, where available */ +#ifndef SKEIN_NO_PRECOMP + case 256: memcpy(ctx->X,SKEIN_256_IV_256,sizeof(ctx->X)); break; + case 224: memcpy(ctx->X,SKEIN_256_IV_224,sizeof(ctx->X)); break; + case 160: memcpy(ctx->X,SKEIN_256_IV_160,sizeof(ctx->X)); break; + case 128: memcpy(ctx->X,SKEIN_256_IV_128,sizeof(ctx->X)); break; +#endif + default: + /* here if there is no precomputed IV value available */ + /* build/process the config block, type == CONFIG (could be precomputed) */ + Skein_Start_New_Type(ctx,CFG_FINAL); /* set tweaks: T0=0; T1=CFG | FINAL */ + + cfg.w[0] = Skein_Swap64(SKEIN_SCHEMA_VER); /* set the schema, version */ + cfg.w[1] = Skein_Swap64(hashBitLen); /* hash result length in bits */ + cfg.w[2] = Skein_Swap64(SKEIN_CFG_TREE_INFO_SEQUENTIAL); + memset(&cfg.w[3],0,sizeof(cfg) - 3*sizeof(cfg.w[0])); /* zero pad config block */ + + /* compute the initial chaining values from config block */ + memset(ctx->X,0,sizeof(ctx->X)); /* zero the chaining variables */ + Skein_256_Process_Block(ctx,cfg.b,1,SKEIN_CFG_STR_LEN); + break; + } + /* The chaining vars ctx->X are now initialized for the given hashBitLen. */ + /* Set up to process the data message portion of the hash (default) */ + Skein_Start_New_Type(ctx,MSG); /* T0=0, T1= MSG type */ + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* init the context for a MAC and/or tree hash operation */ +/* [identical to Skein_256_Init() when keyBytes == 0 && treeInfo == SKEIN_CFG_TREE_INFO_SEQUENTIAL] */ +int Skein_256_InitExt(Skein_256_Ctxt_t *ctx,size_t hashBitLen,u64b_t treeInfo, const u08b_t *key, size_t keyBytes) + { + union + { + u08b_t b[SKEIN_256_STATE_BYTES]; + u64b_t w[SKEIN_256_STATE_WORDS]; + } cfg; /* config block */ + + Skein_Assert(hashBitLen > 0,SKEIN_BAD_HASHLEN); + Skein_Assert(keyBytes == 0 || key != NULL,SKEIN_FAIL); + + /* compute the initial chaining values ctx->X[], based on key */ + if (keyBytes == 0) /* is there a key? */ + { + memset(ctx->X,0,sizeof(ctx->X)); /* no key: use all zeroes as key for config block */ + } + else /* here to pre-process a key */ + { + Skein_assert(sizeof(cfg.b) >= sizeof(ctx->X)); + /* do a mini-Init right here */ + ctx->h.hashBitLen=8*sizeof(ctx->X); /* set output hash bit count = state size */ + Skein_Start_New_Type(ctx,KEY); /* set tweaks: T0 = 0; T1 = KEY type */ + memset(ctx->X,0,sizeof(ctx->X)); /* zero the initial chaining variables */ + Skein_256_Update(ctx,key,keyBytes); /* hash the key */ + Skein_256_Final_Pad(ctx,cfg.b); /* put result into cfg.b[] */ + memcpy(ctx->X,cfg.b,sizeof(cfg.b)); /* copy over into ctx->X[] */ +#if SKEIN_NEED_SWAP + { + uint_t i; + for (i=0;i<SKEIN_256_STATE_WORDS;i++) /* convert key bytes to context words */ + ctx->X[i] = Skein_Swap64(ctx->X[i]); + } +#endif + } + /* build/process the config block, type == CONFIG (could be precomputed for each key) */ + ctx->h.hashBitLen = hashBitLen; /* output hash bit count */ + Skein_Start_New_Type(ctx,CFG_FINAL); + + memset(&cfg.w,0,sizeof(cfg.w)); /* pre-pad cfg.w[] with zeroes */ + cfg.w[0] = Skein_Swap64(SKEIN_SCHEMA_VER); + cfg.w[1] = Skein_Swap64(hashBitLen); /* hash result length in bits */ + cfg.w[2] = Skein_Swap64(treeInfo); /* tree hash config info (or SKEIN_CFG_TREE_INFO_SEQUENTIAL) */ + + Skein_Show_Key(256,&ctx->h,key,keyBytes); + + /* compute the initial chaining values from config block */ + Skein_256_Process_Block(ctx,cfg.b,1,SKEIN_CFG_STR_LEN); + + /* The chaining vars ctx->X are now initialized */ + /* Set up to process the data message portion of the hash (default) */ + ctx->h.bCnt = 0; /* buffer b[] starts out empty */ + Skein_Start_New_Type(ctx,MSG); + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* process the input bytes */ +int Skein_256_Update(Skein_256_Ctxt_t *ctx, const u08b_t *msg, size_t msgByteCnt) + { + size_t n; + + Skein_Assert(ctx->h.bCnt <= SKEIN_256_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + /* process full blocks, if any */ + if (msgByteCnt + ctx->h.bCnt > SKEIN_256_BLOCK_BYTES) + { + if (ctx->h.bCnt) /* finish up any buffered message data */ + { + n = SKEIN_256_BLOCK_BYTES - ctx->h.bCnt; /* # bytes free in buffer b[] */ + if (n) + { + Skein_assert(n < msgByteCnt); /* check on our logic here */ + memcpy(&ctx->b[ctx->h.bCnt],msg,n); + msgByteCnt -= n; + msg += n; + ctx->h.bCnt += n; + } + Skein_assert(ctx->h.bCnt == SKEIN_256_BLOCK_BYTES); + Skein_256_Process_Block(ctx,ctx->b,1,SKEIN_256_BLOCK_BYTES); + ctx->h.bCnt = 0; + } + /* now process any remaining full blocks, directly from input message data */ + if (msgByteCnt > SKEIN_256_BLOCK_BYTES) + { + n = (msgByteCnt-1) / SKEIN_256_BLOCK_BYTES; /* number of full blocks to process */ + Skein_256_Process_Block(ctx,msg,n,SKEIN_256_BLOCK_BYTES); + msgByteCnt -= n * SKEIN_256_BLOCK_BYTES; + msg += n * SKEIN_256_BLOCK_BYTES; + } + Skein_assert(ctx->h.bCnt == 0); + } + + /* copy any remaining source message data bytes into b[] */ + if (msgByteCnt) + { + Skein_assert(msgByteCnt + ctx->h.bCnt <= SKEIN_256_BLOCK_BYTES); + memcpy(&ctx->b[ctx->h.bCnt],msg,msgByteCnt); + ctx->h.bCnt += msgByteCnt; + } + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* finalize the hash computation and output the result */ +int Skein_256_Final(Skein_256_Ctxt_t *ctx, u08b_t *hashVal) + { + size_t i,n,byteCnt; + u64b_t X[SKEIN_256_STATE_WORDS]; + Skein_Assert(ctx->h.bCnt <= SKEIN_256_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + ctx->h.T[1] |= SKEIN_T1_FLAG_FINAL; /* tag as the final block */ + if (ctx->h.bCnt < SKEIN_256_BLOCK_BYTES) /* zero pad b[] if necessary */ + memset(&ctx->b[ctx->h.bCnt],0,SKEIN_256_BLOCK_BYTES - ctx->h.bCnt); + + Skein_256_Process_Block(ctx,ctx->b,1,ctx->h.bCnt); /* process the final block */ + + /* now output the result */ + byteCnt = (ctx->h.hashBitLen + 7) >> 3; /* total number of output bytes */ + + /* run Threefish in "counter mode" to generate output */ + memset(ctx->b,0,sizeof(ctx->b)); /* zero out b[], so it can hold the counter */ + memcpy(X,ctx->X,sizeof(X)); /* keep a local copy of counter mode "key" */ + for (i=0;i*SKEIN_256_BLOCK_BYTES < byteCnt;i++) + { + ((u64b_t *)ctx->b)[0]= Skein_Swap64((u64b_t) i); /* build the counter block */ + Skein_Start_New_Type(ctx,OUT_FINAL); + Skein_256_Process_Block(ctx,ctx->b,1,sizeof(u64b_t)); /* run "counter mode" */ + n = byteCnt - i*SKEIN_256_BLOCK_BYTES; /* number of output bytes left to go */ + if (n >= SKEIN_256_BLOCK_BYTES) + n = SKEIN_256_BLOCK_BYTES; + Skein_Put64_LSB_First(hashVal+i*SKEIN_256_BLOCK_BYTES,ctx->X,n); /* "output" the ctr mode bytes */ + Skein_Show_Final(256,&ctx->h,n,hashVal+i*SKEIN_256_BLOCK_BYTES); + memcpy(ctx->X,X,sizeof(X)); /* restore the counter mode key for next time */ + } + return SKEIN_SUCCESS; + } + +#if defined(SKEIN_CODE_SIZE) || defined(SKEIN_PERF) +size_t Skein_256_API_CodeSize(void) + { + return ((u08b_t *) Skein_256_API_CodeSize) - + ((u08b_t *) Skein_256_Init); + } +#endif + +/*****************************************************************/ +/* 512-bit Skein */ +/*****************************************************************/ + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* init the context for a straight hashing operation */ +int Skein_512_Init(Skein_512_Ctxt_t *ctx, size_t hashBitLen) + { + union + { + u08b_t b[SKEIN_512_STATE_BYTES]; + u64b_t w[SKEIN_512_STATE_WORDS]; + } cfg; /* config block */ + + Skein_Assert(hashBitLen > 0,SKEIN_BAD_HASHLEN); + ctx->h.hashBitLen = hashBitLen; /* output hash bit count */ + + switch (hashBitLen) + { /* use pre-computed values, where available */ +#ifndef SKEIN_NO_PRECOMP + case 512: memcpy(ctx->X,SKEIN_512_IV_512,sizeof(ctx->X)); break; + case 384: memcpy(ctx->X,SKEIN_512_IV_384,sizeof(ctx->X)); break; + case 256: memcpy(ctx->X,SKEIN_512_IV_256,sizeof(ctx->X)); break; + case 224: memcpy(ctx->X,SKEIN_512_IV_224,sizeof(ctx->X)); break; +#endif + default: + /* here if there is no precomputed IV value available */ + /* build/process the config block, type == CONFIG (could be precomputed) */ + Skein_Start_New_Type(ctx,CFG_FINAL); /* set tweaks: T0=0; T1=CFG | FINAL */ + + cfg.w[0] = Skein_Swap64(SKEIN_SCHEMA_VER); /* set the schema, version */ + cfg.w[1] = Skein_Swap64(hashBitLen); /* hash result length in bits */ + cfg.w[2] = Skein_Swap64(SKEIN_CFG_TREE_INFO_SEQUENTIAL); + memset(&cfg.w[3],0,sizeof(cfg) - 3*sizeof(cfg.w[0])); /* zero pad config block */ + + /* compute the initial chaining values from config block */ + memset(ctx->X,0,sizeof(ctx->X)); /* zero the chaining variables */ + Skein_512_Process_Block(ctx,cfg.b,1,SKEIN_CFG_STR_LEN); + break; + } + + /* The chaining vars ctx->X are now initialized for the given hashBitLen. */ + /* Set up to process the data message portion of the hash (default) */ + Skein_Start_New_Type(ctx,MSG); /* T0=0, T1= MSG type */ + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* init the context for a MAC and/or tree hash operation */ +/* [identical to Skein_512_Init() when keyBytes == 0 && treeInfo == SKEIN_CFG_TREE_INFO_SEQUENTIAL] */ +int Skein_512_InitExt(Skein_512_Ctxt_t *ctx,size_t hashBitLen,u64b_t treeInfo, const u08b_t *key, size_t keyBytes) + { + union + { + u08b_t b[SKEIN_512_STATE_BYTES]; + u64b_t w[SKEIN_512_STATE_WORDS]; + } cfg; /* config block */ + + Skein_Assert(hashBitLen > 0,SKEIN_BAD_HASHLEN); + Skein_Assert(keyBytes == 0 || key != NULL,SKEIN_FAIL); + + /* compute the initial chaining values ctx->X[], based on key */ + if (keyBytes == 0) /* is there a key? */ + { + memset(ctx->X,0,sizeof(ctx->X)); /* no key: use all zeroes as key for config block */ + } + else /* here to pre-process a key */ + { + Skein_assert(sizeof(cfg.b) >= sizeof(ctx->X)); + /* do a mini-Init right here */ + ctx->h.hashBitLen=8*sizeof(ctx->X); /* set output hash bit count = state size */ + Skein_Start_New_Type(ctx,KEY); /* set tweaks: T0 = 0; T1 = KEY type */ + memset(ctx->X,0,sizeof(ctx->X)); /* zero the initial chaining variables */ + Skein_512_Update(ctx,key,keyBytes); /* hash the key */ + Skein_512_Final_Pad(ctx,cfg.b); /* put result into cfg.b[] */ + memcpy(ctx->X,cfg.b,sizeof(cfg.b)); /* copy over into ctx->X[] */ +#if SKEIN_NEED_SWAP + { + uint_t i; + for (i=0;i<SKEIN_512_STATE_WORDS;i++) /* convert key bytes to context words */ + ctx->X[i] = Skein_Swap64(ctx->X[i]); + } +#endif + } + /* build/process the config block, type == CONFIG (could be precomputed for each key) */ + ctx->h.hashBitLen = hashBitLen; /* output hash bit count */ + Skein_Start_New_Type(ctx,CFG_FINAL); + + memset(&cfg.w,0,sizeof(cfg.w)); /* pre-pad cfg.w[] with zeroes */ + cfg.w[0] = Skein_Swap64(SKEIN_SCHEMA_VER); + cfg.w[1] = Skein_Swap64(hashBitLen); /* hash result length in bits */ + cfg.w[2] = Skein_Swap64(treeInfo); /* tree hash config info (or SKEIN_CFG_TREE_INFO_SEQUENTIAL) */ + + Skein_Show_Key(512,&ctx->h,key,keyBytes); + + /* compute the initial chaining values from config block */ + Skein_512_Process_Block(ctx,cfg.b,1,SKEIN_CFG_STR_LEN); + + /* The chaining vars ctx->X are now initialized */ + /* Set up to process the data message portion of the hash (default) */ + ctx->h.bCnt = 0; /* buffer b[] starts out empty */ + Skein_Start_New_Type(ctx,MSG); + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* process the input bytes */ +int Skein_512_Update(Skein_512_Ctxt_t *ctx, const u08b_t *msg, size_t msgByteCnt) + { + size_t n; + + Skein_Assert(ctx->h.bCnt <= SKEIN_512_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + /* process full blocks, if any */ + if (msgByteCnt + ctx->h.bCnt > SKEIN_512_BLOCK_BYTES) + { + if (ctx->h.bCnt) /* finish up any buffered message data */ + { + n = SKEIN_512_BLOCK_BYTES - ctx->h.bCnt; /* # bytes free in buffer b[] */ + if (n) + { + Skein_assert(n < msgByteCnt); /* check on our logic here */ + memcpy(&ctx->b[ctx->h.bCnt],msg,n); + msgByteCnt -= n; + msg += n; + ctx->h.bCnt += n; + } + Skein_assert(ctx->h.bCnt == SKEIN_512_BLOCK_BYTES); + Skein_512_Process_Block(ctx,ctx->b,1,SKEIN_512_BLOCK_BYTES); + ctx->h.bCnt = 0; + } + /* now process any remaining full blocks, directly from input message data */ + if (msgByteCnt > SKEIN_512_BLOCK_BYTES) + { + n = (msgByteCnt-1) / SKEIN_512_BLOCK_BYTES; /* number of full blocks to process */ + Skein_512_Process_Block(ctx,msg,n,SKEIN_512_BLOCK_BYTES); + msgByteCnt -= n * SKEIN_512_BLOCK_BYTES; + msg += n * SKEIN_512_BLOCK_BYTES; + } + Skein_assert(ctx->h.bCnt == 0); + } + + /* copy any remaining source message data bytes into b[] */ + if (msgByteCnt) + { + Skein_assert(msgByteCnt + ctx->h.bCnt <= SKEIN_512_BLOCK_BYTES); + memcpy(&ctx->b[ctx->h.bCnt],msg,msgByteCnt); + ctx->h.bCnt += msgByteCnt; + } + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* finalize the hash computation and output the result */ +int Skein_512_Final(Skein_512_Ctxt_t *ctx, u08b_t *hashVal) + { + size_t i,n,byteCnt; + u64b_t X[SKEIN_512_STATE_WORDS]; + Skein_Assert(ctx->h.bCnt <= SKEIN_512_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + ctx->h.T[1] |= SKEIN_T1_FLAG_FINAL; /* tag as the final block */ + if (ctx->h.bCnt < SKEIN_512_BLOCK_BYTES) /* zero pad b[] if necessary */ + memset(&ctx->b[ctx->h.bCnt],0,SKEIN_512_BLOCK_BYTES - ctx->h.bCnt); + + Skein_512_Process_Block(ctx,ctx->b,1,ctx->h.bCnt); /* process the final block */ + + /* now output the result */ + byteCnt = (ctx->h.hashBitLen + 7) >> 3; /* total number of output bytes */ + + /* run Threefish in "counter mode" to generate output */ + memset(ctx->b,0,sizeof(ctx->b)); /* zero out b[], so it can hold the counter */ + memcpy(X,ctx->X,sizeof(X)); /* keep a local copy of counter mode "key" */ + for (i=0;i*SKEIN_512_BLOCK_BYTES < byteCnt;i++) + { + ((u64b_t *)ctx->b)[0]= Skein_Swap64((u64b_t) i); /* build the counter block */ + Skein_Start_New_Type(ctx,OUT_FINAL); + Skein_512_Process_Block(ctx,ctx->b,1,sizeof(u64b_t)); /* run "counter mode" */ + n = byteCnt - i*SKEIN_512_BLOCK_BYTES; /* number of output bytes left to go */ + if (n >= SKEIN_512_BLOCK_BYTES) + n = SKEIN_512_BLOCK_BYTES; + Skein_Put64_LSB_First(hashVal+i*SKEIN_512_BLOCK_BYTES,ctx->X,n); /* "output" the ctr mode bytes */ + Skein_Show_Final(512,&ctx->h,n,hashVal+i*SKEIN_512_BLOCK_BYTES); + memcpy(ctx->X,X,sizeof(X)); /* restore the counter mode key for next time */ + } + return SKEIN_SUCCESS; + } + +#if defined(SKEIN_CODE_SIZE) || defined(SKEIN_PERF) +size_t Skein_512_API_CodeSize(void) + { + return ((u08b_t *) Skein_512_API_CodeSize) - + ((u08b_t *) Skein_512_Init); + } +#endif + +/*****************************************************************/ +/* 1024-bit Skein */ +/*****************************************************************/ + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* init the context for a straight hashing operation */ +int Skein1024_Init(Skein1024_Ctxt_t *ctx, size_t hashBitLen) + { + union + { + u08b_t b[SKEIN1024_STATE_BYTES]; + u64b_t w[SKEIN1024_STATE_WORDS]; + } cfg; /* config block */ + + Skein_Assert(hashBitLen > 0,SKEIN_BAD_HASHLEN); + ctx->h.hashBitLen = hashBitLen; /* output hash bit count */ + + switch (hashBitLen) + { /* use pre-computed values, where available */ +#ifndef SKEIN_NO_PRECOMP + case 512: memcpy(ctx->X,SKEIN1024_IV_512 ,sizeof(ctx->X)); break; + case 384: memcpy(ctx->X,SKEIN1024_IV_384 ,sizeof(ctx->X)); break; + case 1024: memcpy(ctx->X,SKEIN1024_IV_1024,sizeof(ctx->X)); break; +#endif + default: + /* here if there is no precomputed IV value available */ + /* build/process the config block, type == CONFIG (could be precomputed) */ + Skein_Start_New_Type(ctx,CFG_FINAL); /* set tweaks: T0=0; T1=CFG | FINAL */ + + cfg.w[0] = Skein_Swap64(SKEIN_SCHEMA_VER); /* set the schema, version */ + cfg.w[1] = Skein_Swap64(hashBitLen); /* hash result length in bits */ + cfg.w[2] = Skein_Swap64(SKEIN_CFG_TREE_INFO_SEQUENTIAL); + memset(&cfg.w[3],0,sizeof(cfg) - 3*sizeof(cfg.w[0])); /* zero pad config block */ + + /* compute the initial chaining values from config block */ + memset(ctx->X,0,sizeof(ctx->X)); /* zero the chaining variables */ + Skein1024_Process_Block(ctx,cfg.b,1,SKEIN_CFG_STR_LEN); + break; + } + + /* The chaining vars ctx->X are now initialized for the given hashBitLen. */ + /* Set up to process the data message portion of the hash (default) */ + Skein_Start_New_Type(ctx,MSG); /* T0=0, T1= MSG type */ + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* init the context for a MAC and/or tree hash operation */ +/* [identical to Skein1024_Init() when keyBytes == 0 && treeInfo == SKEIN_CFG_TREE_INFO_SEQUENTIAL] */ +int Skein1024_InitExt(Skein1024_Ctxt_t *ctx,size_t hashBitLen,u64b_t treeInfo, const u08b_t *key, size_t keyBytes) + { + union + { + u08b_t b[SKEIN1024_STATE_BYTES]; + u64b_t w[SKEIN1024_STATE_WORDS]; + } cfg; /* config block */ + + Skein_Assert(hashBitLen > 0,SKEIN_BAD_HASHLEN); + Skein_Assert(keyBytes == 0 || key != NULL,SKEIN_FAIL); + + /* compute the initial chaining values ctx->X[], based on key */ + if (keyBytes == 0) /* is there a key? */ + { + memset(ctx->X,0,sizeof(ctx->X)); /* no key: use all zeroes as key for config block */ + } + else /* here to pre-process a key */ + { + Skein_assert(sizeof(cfg.b) >= sizeof(ctx->X)); + /* do a mini-Init right here */ + ctx->h.hashBitLen=8*sizeof(ctx->X); /* set output hash bit count = state size */ + Skein_Start_New_Type(ctx,KEY); /* set tweaks: T0 = 0; T1 = KEY type */ + memset(ctx->X,0,sizeof(ctx->X)); /* zero the initial chaining variables */ + Skein1024_Update(ctx,key,keyBytes); /* hash the key */ + Skein1024_Final_Pad(ctx,cfg.b); /* put result into cfg.b[] */ + memcpy(ctx->X,cfg.b,sizeof(cfg.b)); /* copy over into ctx->X[] */ +#if SKEIN_NEED_SWAP + { + uint_t i; + for (i=0;i<SKEIN1024_STATE_WORDS;i++) /* convert key bytes to context words */ + ctx->X[i] = Skein_Swap64(ctx->X[i]); + } +#endif + } + /* build/process the config block, type == CONFIG (could be precomputed for each key) */ + ctx->h.hashBitLen = hashBitLen; /* output hash bit count */ + Skein_Start_New_Type(ctx,CFG_FINAL); + + memset(&cfg.w,0,sizeof(cfg.w)); /* pre-pad cfg.w[] with zeroes */ + cfg.w[0] = Skein_Swap64(SKEIN_SCHEMA_VER); + cfg.w[1] = Skein_Swap64(hashBitLen); /* hash result length in bits */ + cfg.w[2] = Skein_Swap64(treeInfo); /* tree hash config info (or SKEIN_CFG_TREE_INFO_SEQUENTIAL) */ + + Skein_Show_Key(1024,&ctx->h,key,keyBytes); + + /* compute the initial chaining values from config block */ + Skein1024_Process_Block(ctx,cfg.b,1,SKEIN_CFG_STR_LEN); + + /* The chaining vars ctx->X are now initialized */ + /* Set up to process the data message portion of the hash (default) */ + ctx->h.bCnt = 0; /* buffer b[] starts out empty */ + Skein_Start_New_Type(ctx,MSG); + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* process the input bytes */ +int Skein1024_Update(Skein1024_Ctxt_t *ctx, const u08b_t *msg, size_t msgByteCnt) + { + size_t n; + + Skein_Assert(ctx->h.bCnt <= SKEIN1024_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + /* process full blocks, if any */ + if (msgByteCnt + ctx->h.bCnt > SKEIN1024_BLOCK_BYTES) + { + if (ctx->h.bCnt) /* finish up any buffered message data */ + { + n = SKEIN1024_BLOCK_BYTES - ctx->h.bCnt; /* # bytes free in buffer b[] */ + if (n) + { + Skein_assert(n < msgByteCnt); /* check on our logic here */ + memcpy(&ctx->b[ctx->h.bCnt],msg,n); + msgByteCnt -= n; + msg += n; + ctx->h.bCnt += n; + } + Skein_assert(ctx->h.bCnt == SKEIN1024_BLOCK_BYTES); + Skein1024_Process_Block(ctx,ctx->b,1,SKEIN1024_BLOCK_BYTES); + ctx->h.bCnt = 0; + } + /* now process any remaining full blocks, directly from input message data */ + if (msgByteCnt > SKEIN1024_BLOCK_BYTES) + { + n = (msgByteCnt-1) / SKEIN1024_BLOCK_BYTES; /* number of full blocks to process */ + Skein1024_Process_Block(ctx,msg,n,SKEIN1024_BLOCK_BYTES); + msgByteCnt -= n * SKEIN1024_BLOCK_BYTES; + msg += n * SKEIN1024_BLOCK_BYTES; + } + Skein_assert(ctx->h.bCnt == 0); + } + + /* copy any remaining source message data bytes into b[] */ + if (msgByteCnt) + { + Skein_assert(msgByteCnt + ctx->h.bCnt <= SKEIN1024_BLOCK_BYTES); + memcpy(&ctx->b[ctx->h.bCnt],msg,msgByteCnt); + ctx->h.bCnt += msgByteCnt; + } + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* finalize the hash computation and output the result */ +int Skein1024_Final(Skein1024_Ctxt_t *ctx, u08b_t *hashVal) + { + size_t i,n,byteCnt; + u64b_t X[SKEIN1024_STATE_WORDS]; + Skein_Assert(ctx->h.bCnt <= SKEIN1024_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + ctx->h.T[1] |= SKEIN_T1_FLAG_FINAL; /* tag as the final block */ + if (ctx->h.bCnt < SKEIN1024_BLOCK_BYTES) /* zero pad b[] if necessary */ + memset(&ctx->b[ctx->h.bCnt],0,SKEIN1024_BLOCK_BYTES - ctx->h.bCnt); + + Skein1024_Process_Block(ctx,ctx->b,1,ctx->h.bCnt); /* process the final block */ + + /* now output the result */ + byteCnt = (ctx->h.hashBitLen + 7) >> 3; /* total number of output bytes */ + + /* run Threefish in "counter mode" to generate output */ + memset(ctx->b,0,sizeof(ctx->b)); /* zero out b[], so it can hold the counter */ + memcpy(X,ctx->X,sizeof(X)); /* keep a local copy of counter mode "key" */ + for (i=0;i*SKEIN1024_BLOCK_BYTES < byteCnt;i++) + { + ((u64b_t *)ctx->b)[0]= Skein_Swap64((u64b_t) i); /* build the counter block */ + Skein_Start_New_Type(ctx,OUT_FINAL); + Skein1024_Process_Block(ctx,ctx->b,1,sizeof(u64b_t)); /* run "counter mode" */ + n = byteCnt - i*SKEIN1024_BLOCK_BYTES; /* number of output bytes left to go */ + if (n >= SKEIN1024_BLOCK_BYTES) + n = SKEIN1024_BLOCK_BYTES; + Skein_Put64_LSB_First(hashVal+i*SKEIN1024_BLOCK_BYTES,ctx->X,n); /* "output" the ctr mode bytes */ + Skein_Show_Final(1024,&ctx->h,n,hashVal+i*SKEIN1024_BLOCK_BYTES); + memcpy(ctx->X,X,sizeof(X)); /* restore the counter mode key for next time */ + } + return SKEIN_SUCCESS; + } + +#if defined(SKEIN_CODE_SIZE) || defined(SKEIN_PERF) +size_t Skein1024_API_CodeSize(void) + { + return ((u08b_t *) Skein1024_API_CodeSize) - + ((u08b_t *) Skein1024_Init); + } +#endif + +/**************** Functions to support MAC/tree hashing ***************/ +/* (this code is identical for Optimized and Reference versions) */ + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* finalize the hash computation and output the block, no OUTPUT stage */ +int Skein_256_Final_Pad(Skein_256_Ctxt_t *ctx, u08b_t *hashVal) + { + Skein_Assert(ctx->h.bCnt <= SKEIN_256_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + ctx->h.T[1] |= SKEIN_T1_FLAG_FINAL; /* tag as the final block */ + if (ctx->h.bCnt < SKEIN_256_BLOCK_BYTES) /* zero pad b[] if necessary */ + memset(&ctx->b[ctx->h.bCnt],0,SKEIN_256_BLOCK_BYTES - ctx->h.bCnt); + Skein_256_Process_Block(ctx,ctx->b,1,ctx->h.bCnt); /* process the final block */ + + Skein_Put64_LSB_First(hashVal,ctx->X,SKEIN_256_BLOCK_BYTES); /* "output" the state bytes */ + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* finalize the hash computation and output the block, no OUTPUT stage */ +int Skein_512_Final_Pad(Skein_512_Ctxt_t *ctx, u08b_t *hashVal) + { + Skein_Assert(ctx->h.bCnt <= SKEIN_512_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + ctx->h.T[1] |= SKEIN_T1_FLAG_FINAL; /* tag as the final block */ + if (ctx->h.bCnt < SKEIN_512_BLOCK_BYTES) /* zero pad b[] if necessary */ + memset(&ctx->b[ctx->h.bCnt],0,SKEIN_512_BLOCK_BYTES - ctx->h.bCnt); + Skein_512_Process_Block(ctx,ctx->b,1,ctx->h.bCnt); /* process the final block */ + + Skein_Put64_LSB_First(hashVal,ctx->X,SKEIN_512_BLOCK_BYTES); /* "output" the state bytes */ + + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* finalize the hash computation and output the block, no OUTPUT stage */ +int Skein1024_Final_Pad(Skein1024_Ctxt_t *ctx, u08b_t *hashVal) + { + Skein_Assert(ctx->h.bCnt <= SKEIN1024_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + ctx->h.T[1] |= SKEIN_T1_FLAG_FINAL; /* tag as the final block */ + if (ctx->h.bCnt < SKEIN1024_BLOCK_BYTES) /* zero pad b[] if necessary */ + memset(&ctx->b[ctx->h.bCnt],0,SKEIN1024_BLOCK_BYTES - ctx->h.bCnt); + Skein1024_Process_Block(ctx,ctx->b,1,ctx->h.bCnt); /* process the final block */ + + Skein_Put64_LSB_First(hashVal,ctx->X,SKEIN1024_BLOCK_BYTES); /* "output" the state bytes */ + + return SKEIN_SUCCESS; + } + +#if SKEIN_TREE_HASH +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* just do the OUTPUT stage */ +int Skein_256_Output(Skein_256_Ctxt_t *ctx, u08b_t *hashVal) + { + size_t i,n,byteCnt; + u64b_t X[SKEIN_256_STATE_WORDS]; + Skein_Assert(ctx->h.bCnt <= SKEIN_256_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + /* now output the result */ + byteCnt = (ctx->h.hashBitLen + 7) >> 3; /* total number of output bytes */ + + /* run Threefish in "counter mode" to generate output */ + memset(ctx->b,0,sizeof(ctx->b)); /* zero out b[], so it can hold the counter */ + memcpy(X,ctx->X,sizeof(X)); /* keep a local copy of counter mode "key" */ + for (i=0;i*SKEIN_256_BLOCK_BYTES < byteCnt;i++) + { + ((u64b_t *)ctx->b)[0]= Skein_Swap64((u64b_t) i); /* build the counter block */ + Skein_Start_New_Type(ctx,OUT_FINAL); + Skein_256_Process_Block(ctx,ctx->b,1,sizeof(u64b_t)); /* run "counter mode" */ + n = byteCnt - i*SKEIN_256_BLOCK_BYTES; /* number of output bytes left to go */ + if (n >= SKEIN_256_BLOCK_BYTES) + n = SKEIN_256_BLOCK_BYTES; + Skein_Put64_LSB_First(hashVal+i*SKEIN_256_BLOCK_BYTES,ctx->X,n); /* "output" the ctr mode bytes */ + Skein_Show_Final(256,&ctx->h,n,hashVal+i*SKEIN_256_BLOCK_BYTES); + memcpy(ctx->X,X,sizeof(X)); /* restore the counter mode key for next time */ + } + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* just do the OUTPUT stage */ +int Skein_512_Output(Skein_512_Ctxt_t *ctx, u08b_t *hashVal) + { + size_t i,n,byteCnt; + u64b_t X[SKEIN_512_STATE_WORDS]; + Skein_Assert(ctx->h.bCnt <= SKEIN_512_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + /* now output the result */ + byteCnt = (ctx->h.hashBitLen + 7) >> 3; /* total number of output bytes */ + + /* run Threefish in "counter mode" to generate output */ + memset(ctx->b,0,sizeof(ctx->b)); /* zero out b[], so it can hold the counter */ + memcpy(X,ctx->X,sizeof(X)); /* keep a local copy of counter mode "key" */ + for (i=0;i*SKEIN_512_BLOCK_BYTES < byteCnt;i++) + { + ((u64b_t *)ctx->b)[0]= Skein_Swap64((u64b_t) i); /* build the counter block */ + Skein_Start_New_Type(ctx,OUT_FINAL); + Skein_512_Process_Block(ctx,ctx->b,1,sizeof(u64b_t)); /* run "counter mode" */ + n = byteCnt - i*SKEIN_512_BLOCK_BYTES; /* number of output bytes left to go */ + if (n >= SKEIN_512_BLOCK_BYTES) + n = SKEIN_512_BLOCK_BYTES; + Skein_Put64_LSB_First(hashVal+i*SKEIN_512_BLOCK_BYTES,ctx->X,n); /* "output" the ctr mode bytes */ + Skein_Show_Final(256,&ctx->h,n,hashVal+i*SKEIN_512_BLOCK_BYTES); + memcpy(ctx->X,X,sizeof(X)); /* restore the counter mode key for next time */ + } + return SKEIN_SUCCESS; + } + +/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ +/* just do the OUTPUT stage */ +int Skein1024_Output(Skein1024_Ctxt_t *ctx, u08b_t *hashVal) + { + size_t i,n,byteCnt; + u64b_t X[SKEIN1024_STATE_WORDS]; + Skein_Assert(ctx->h.bCnt <= SKEIN1024_BLOCK_BYTES,SKEIN_FAIL); /* catch uninitialized context */ + + /* now output the result */ + byteCnt = (ctx->h.hashBitLen + 7) >> 3; /* total number of output bytes */ + + /* run Threefish in "counter mode" to generate output */ + memset(ctx->b,0,sizeof(ctx->b)); /* zero out b[], so it can hold the counter */ + memcpy(X,ctx->X,sizeof(X)); /* keep a local copy of counter mode "key" */ + for (i=0;i*SKEIN1024_BLOCK_BYTES < byteCnt;i++) + { + ((u64b_t *)ctx->b)[0]= Skein_Swap64((u64b_t) i); /* build the counter block */ + Skein_Start_New_Type(ctx,OUT_FINAL); + Skein1024_Process_Block(ctx,ctx->b,1,sizeof(u64b_t)); /* run "counter mode" */ + n = byteCnt - i*SKEIN1024_BLOCK_BYTES; /* number of output bytes left to go */ + if (n >= SKEIN1024_BLOCK_BYTES) + n = SKEIN1024_BLOCK_BYTES; + Skein_Put64_LSB_First(hashVal+i*SKEIN1024_BLOCK_BYTES,ctx->X,n); /* "output" the ctr mode bytes */ + Skein_Show_Final(256,&ctx->h,n,hashVal+i*SKEIN1024_BLOCK_BYTES); + memcpy(ctx->X,X,sizeof(X)); /* restore the counter mode key for next time */ + } + return SKEIN_SUCCESS; + } + + +/* Adapt the functions to match the prototype expected by libmd */ +void +SKEIN256_Init(SKEIN256_CTX * ctx) +{ + + Skein_256_Init(ctx, 256); +} + +void +SKEIN512_Init(SKEIN512_CTX * ctx) +{ + + Skein_512_Init(ctx, 512); +} + +void +SKEIN1024_Init(SKEIN1024_CTX * ctx) +{ + + Skein1024_Init(ctx, 1024); +} + +void +SKEIN256_Update(SKEIN256_CTX * ctx, const void *in, size_t len) +{ + + Skein_256_Update(ctx, in, len); +} + +void +SKEIN512_Update(SKEIN512_CTX * ctx, const void *in, size_t len) +{ + + Skein_512_Update(ctx, in, len); +} + +void +SKEIN1024_Update(SKEIN1024_CTX * ctx, const void *in, size_t len) +{ + + Skein1024_Update(ctx, in, len); +} + +void +SKEIN256_Final(unsigned char digest[static SKEIN_256_BLOCK_BYTES], SKEIN256_CTX *ctx) +{ + + Skein_256_Final(ctx, digest); +} + +void +SKEIN512_Final(unsigned char digest[static SKEIN_512_BLOCK_BYTES], SKEIN512_CTX *ctx) +{ + + Skein_512_Final(ctx, digest); +} + +void +SKEIN1024_Final(unsigned char digest[static SKEIN1024_BLOCK_BYTES], SKEIN1024_CTX *ctx) +{ + + Skein1024_Final(ctx, digest); +} + +#ifdef WEAK_REFS +/* When building libmd, provide weak references. Note: this is not + activated in the context of compiling these sources for internal + use in libcrypt. + */ +#undef SKEIN256_Init +__weak_reference(_libmd_SKEIN256_Init, SKEIN256_Init); +#undef SKEIN256_Update +__weak_reference(_libmd_SKEIN256_Update, SKEIN256_Update); +#undef SKEIN256_Final +__weak_reference(_libmd_SKEIN256_Final, SKEIN256_Final); + +#undef SKEIN512_Init +__weak_reference(_libmd_SKEIN512_Init, SKEIN512_Init); +#undef SKEIN512_Update +__weak_reference(_libmd_SKEIN512_Update, SKEIN512_Update); +#undef SKEIN512_Final +__weak_reference(_libmd_SKEIN512_Final, SKEIN512_Final); + +#undef SKEIN1024_Init +__weak_reference(_libmd_SKEIN1024_Init, SKEIN1024_Init); +#undef SKEIN1024_Update +__weak_reference(_libmd_SKEIN1024_Update, SKEIN1024_Update); +#undef SKEIN1024_Final +__weak_reference(_libmd_SKEIN1024_Final, SKEIN1024_Final); +#endif + +#endif |