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authorNick Brassel <nick@tzarc.org>2022-06-27 07:18:21 +1000
committerGitHub <noreply@github.com>2022-06-27 07:18:21 +1000
commit01ecf332ff9f0c8f61e493cdca116f58d80bb5fb (patch)
tree92fc03cbdeb2bf963574bfeed29276e164ca7561 /lib
parent0d013a21e1347fc38e742b2bd876329e86c153a9 (diff)
Generic wear-leveling algorithm (#16996)
* Initial import of wear-leveling algorithm. * Alignment. * Docs tweaks. * Lock/unlock. * Update quantum/wear_leveling/wear_leveling_internal.h Co-authored-by: Stefan Kerkmann <karlk90@pm.me> * More tests, fix issue with consolidation when unlocked. * More tests. * Review comments. * Add plumbing for FNV1a. * Another test checking that checksum mismatch clears the cache. * Check that the write log still gets played back. Co-authored-by: Stefan Kerkmann <karlk90@pm.me>
Diffstat (limited to 'lib')
-rw-r--r--lib/fnv/Makefile304
-rw-r--r--lib/fnv/README158
-rw-r--r--lib/fnv/fnv.h249
-rw-r--r--lib/fnv/fnv32.c467
-rw-r--r--lib/fnv/fnv64.c591
-rw-r--r--lib/fnv/hash_32.c156
-rw-r--r--lib/fnv/hash_32a.c144
-rw-r--r--lib/fnv/hash_64.c312
-rw-r--r--lib/fnv/hash_64a.c291
-rw-r--r--lib/fnv/have_ulong64.c58
-rw-r--r--lib/fnv/longlong.h18
-rw-r--r--lib/fnv/qmk_fnv_type_validation.c14
-rw-r--r--lib/fnv/test_fnv.c2237
13 files changed, 4999 insertions, 0 deletions
diff --git a/lib/fnv/Makefile b/lib/fnv/Makefile
new file mode 100644
index 0000000000..c0673ded40
--- /dev/null
+++ b/lib/fnv/Makefile
@@ -0,0 +1,304 @@
+#!/bin/make
+#
+# hash - makefile for FNV hash tools
+#
+# @(#) $Revision: 5.2 $
+# @(#) $Id: Makefile,v 5.2 2012/03/21 01:42:15 chongo Exp $
+# @(#) $Source: /usr/local/src/cmd/fnv/RCS/Makefile,v $
+#
+# See:
+# http://www.isthe.com/chongo/tech/comp/fnv/index.html
+#
+# for the most up to date copy of this code and the FNV hash home page.
+#
+# Please do not copyright this code. This code is in the public domain.
+#
+# LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+# INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+# EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+# CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+# USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+# OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+# PERFORMANCE OF THIS SOFTWARE.
+#
+# By:
+# chongo <Landon Curt Noll> /\oo/\
+# http://www.isthe.com/chongo/
+#
+# Share and Enjoy! :-)
+
+# make tools
+#
+SHELL= /bin/sh
+CFLAGS= -O3 -g3
+#CFLAGS= -O2 -g3
+#CC= cc
+AR= ar
+TAR= tar
+EGREP= egrep
+GZIP_BIN= gzip
+INSTALL= install
+
+# If your system needs ranlib use:
+# RANLIB= ranlib
+# otherwise use:
+# RANLIB= :
+#
+#RANLIB= ranlib
+RANLIB= :
+
+# where to install things
+#
+DESTBIN= /usr/local/bin
+DESTLIB= /usr/local/lib
+DESTINC= /usr/local/include
+
+# what to build
+#
+SRC= hash_32.c hash_32a.c hash_64.c hash_64a.c \
+ fnv32.c fnv64.c \
+ have_ulong64.c test_fnv.c
+NO64BIT_SRC= no64bit_fnv64.c no64bit_hash_64.c \
+ no64bit_hash_64a.c no64bit_test_fnv.c
+HSRC= fnv.h \
+ longlong.h
+ALL= ${SRC} ${HSRC} \
+ README Makefile
+PROGS= fnv032 fnv064 fnv132 fnv164 fnv1a32 fnv1a64
+OBSOLETE_PROGS= fnv0_32 fnv0_64 fnv1_32 fnv1_64 fnv1a_32 fnv1a_64
+NO64BIT_PROGS= no64bit_fnv064 no64bit_fnv164 no64bit_fnv1a64
+LIBS= libfnv.a
+LIBOBJ= hash_32.o hash_64.o hash_32a.o hash_64a.o test_fnv.o
+NO64BIT_OBJ= no64bit_fnv64.o no64bit_hash_64.o \
+ no64bit_hash_64a.o no64bit_test_fnv.o
+OTHEROBJ= fnv32.o fnv64.o
+TARGETS= ${LIBOBJ} ${LIBS} ${PROGS}
+
+# default rule
+#
+all: ${TARGETS}
+
+# things to build
+#
+hash_32.o: hash_32.c longlong.h fnv.h
+ ${CC} ${CFLAGS} hash_32.c -c
+
+hash_64.o: hash_64.c longlong.h fnv.h
+ ${CC} ${CFLAGS} hash_64.c -c
+
+hash_32a.o: hash_32a.c longlong.h fnv.h
+ ${CC} ${CFLAGS} hash_32a.c -c
+
+hash_64a.o: hash_64a.c longlong.h fnv.h
+ ${CC} ${CFLAGS} hash_64a.c -c
+
+test_fnv.o: test_fnv.c longlong.h fnv.h
+ ${CC} ${CFLAGS} test_fnv.c -c
+
+fnv32.o: fnv32.c longlong.h fnv.h
+ ${CC} ${CFLAGS} fnv32.c -c
+
+fnv032: fnv32.o libfnv.a
+ ${CC} fnv32.o libfnv.a -o fnv032
+
+fnv64.o: fnv64.c longlong.h fnv.h
+ ${CC} ${CFLAGS} fnv64.c -c
+
+fnv064: fnv64.o libfnv.a
+ ${CC} fnv64.o libfnv.a -o fnv064
+
+libfnv.a: ${LIBOBJ}
+ rm -f $@
+ ${AR} rv $@ ${LIBOBJ}
+ ${RANLIB} $@
+
+fnv132: fnv032
+ -rm -f $@
+ -cp -f $? $@
+
+fnv1a32: fnv032
+ -rm -f $@
+ -cp -f $? $@
+
+fnv164: fnv064
+ -rm -f $@
+ -cp -f $? $@
+
+fnv1a64: fnv064
+ -rm -f $@
+ -cp -f $? $@
+
+longlong.h: have_ulong64.c Makefile
+ -@rm -f have_ulong64 have_ulong64.o ll_tmp longlong.h
+ @echo 'forming longlong.h'
+ @echo '/*' > longlong.h
+ @echo ' * DO NOT EDIT -- generated by the Makefile' >> longlong.h
+ @echo ' */' >> longlong.h
+ @echo '' >> longlong.h
+ @echo '#if !defined(__LONGLONG_H__)' >> longlong.h
+ @echo '#define __LONGLONG_H__' >> longlong.h
+ @echo '' >> longlong.h
+ @echo '/* do we have/want to use a long long type? */' >> longlong.h
+ -@rm -f have_ulong64.o have_ulong64
+ -@${CC} ${CFLAGS} have_ulong64.c -c 2>/dev/null; true
+ -@${CC} ${CFLAGS} have_ulong64.o -o have_ulong64 2>/dev/null; true
+ -@${SHELL} -c "./have_ulong64 > ll_tmp 2>/dev/null" \
+ >/dev/null 2>&1; true
+ -@if [ -s ll_tmp ]; then \
+ cat ll_tmp >> longlong.h; \
+ else \
+ echo '#undef HAVE_64BIT_LONG_LONG /* no */' >> longlong.h; \
+ fi
+ @echo '' >> longlong.h
+ @echo '/*' >> longlong.h
+ @echo ' * NO64BIT_LONG_LONG undef HAVE_64BIT_LONG_LONG' >> longlong.h
+ @echo ' */' >> longlong.h
+ @echo '#if defined(NO64BIT_LONG_LONG)' >> longlong.h
+ @echo '#undef HAVE_64BIT_LONG_LONG' >> longlong.h
+ @echo '#endif /* NO64BIT_LONG_LONG */' >> longlong.h
+ @echo '' >> longlong.h
+ @echo '#endif /* !__LONGLONG_H__ */' >> longlong.h
+ -@rm -f have_ulong64 have_ulong64.o ll_tmp
+ @echo 'longlong.h formed'
+
+# utilities
+#
+install: all
+ -@if [ -d "${DESTBIN}" ]; then \
+ echo " mkdir -p ${DESTBIN}"; \
+ mkdir -p ${DESTBIN}; \
+ fi
+ -@if [ -d "${DESTLIB}" ]; then \
+ echo " mkdir -p ${DESTLIB}"; \
+ mkdir -p ${DESTLIB}; \
+ fi
+ -@if [ -d "${DESTINC}" ]; then \
+ echo " mkdir -p ${DESTINC}"; \
+ mkdir -p ${DESTINC}; \
+ fi
+ ${INSTALL} -m 0755 ${PROGS} ${DESTBIN}
+ ${INSTALL} -m 0644 ${LIBS} ${DESTLIB}
+ ${RANLIB} ${DESTLIB}/libfnv.a
+ ${INSTALL} -m 0644 ${HSRC} ${DESTINC}
+ @# remove osolete programs
+ for i in ${OBSOLETE_PROGS}; do \
+ if [ -f "${DESTBIN}/$$i" ]; then \
+ echo "rm -f ${DESTBIN}/$$i"; \
+ rm -f "${DESTBIN}/$$i"; \
+ fi; \
+ done
+
+clean:
+ -rm -f have_ulong64 have_ulong64.o ll_tmp ll_tmp2 longlong.h
+ -rm -f ${LIBOBJ}
+ -rm -f ${OTHEROBJ}
+
+clobber: clean
+ -rm -f ${TARGETS}
+ -rm -f ${OBSOLETE_PROGS} lltmp lltmp2 ll_tmp
+ -rm -f ${NO64BIT_SRC}
+ -rm -f ${NO64BIT_OBJ}
+ -rm -f ${NO64BIT_PROGS}
+ -rm -f vector.c
+
+check: ${PROGS}
+ @echo -n "FNV-0 32 bit tests: "
+ @./fnv032 -t 1 -v
+ @echo -n "FNV-1 32 bit tests: "
+ @./fnv132 -t 1 -v
+ @echo -n "FNV-1a 32 bit tests: "
+ @./fnv1a32 -t 1 -v
+ @echo -n "FNV-0 64 bit tests: "
+ @./fnv064 -t 1 -v
+ @echo -n "FNV-1 64 bit tests: "
+ @./fnv164 -t 1 -v
+ @echo -n "FNV-1a 64 bit tests: "
+ @./fnv1a64 -t 1 -v
+
+###############################
+# generate test vector source #
+###############################
+
+no64bit_fnv64.c: fnv64.c
+ -rm -f $@
+ -cp -f $? $@
+
+no64bit_hash_64.c: hash_64.c
+ -rm -f $@
+ -cp -f $? $@
+
+no64bit_hash_64a.c: hash_64a.c
+ -rm -f $@
+ -cp -f $? $@
+
+no64bit_test_fnv.c: test_fnv.c
+ -rm -f $@
+ -cp -f $? $@
+
+no64bit_fnv64.o: no64bit_fnv64.c longlong.h fnv.h
+ ${CC} ${CFLAGS} -DNO64BIT_LONG_LONG no64bit_fnv64.c -c
+
+no64bit_hash_64.o: no64bit_hash_64.c longlong.h fnv.h
+ ${CC} ${CFLAGS} -DNO64BIT_LONG_LONG no64bit_hash_64.c -c
+
+no64bit_hash_64a.o: no64bit_hash_64a.c longlong.h fnv.h
+ ${CC} ${CFLAGS} -DNO64BIT_LONG_LONG no64bit_hash_64a.c -c
+
+no64bit_test_fnv.o: no64bit_test_fnv.c longlong.h fnv.h
+ ${CC} ${CFLAGS} -DNO64BIT_LONG_LONG no64bit_test_fnv.c -c
+
+no64bit_fnv064: no64bit_fnv64.o no64bit_hash_64.o \
+ no64bit_hash_64a.o no64bit_test_fnv.o
+ ${CC} ${CFLAGS} no64bit_fnv64.o no64bit_hash_64.o \
+ no64bit_hash_64a.o no64bit_test_fnv.o -o $@
+
+no64bit_fnv164: no64bit_fnv064
+ -rm -f $@
+ -cp -f $? $@
+
+no64bit_fnv1a64: no64bit_fnv064
+ -rm -f $@
+ -cp -f $? $@
+
+vector.c: ${PROGS} ${NO64BIT_PROGS}
+ -rm -f $@
+ echo '/* start of output generated by make $@ */' >> $@
+ echo '' >> $@
+ #@
+ echo '/* FNV-0 32 bit test vectors */' >> $@
+ ./fnv032 -t 0 >> $@
+ echo '' >> $@
+ #@
+ echo '/* FNV-1 32 bit test vectors */' >> $@
+ ./fnv132 -t 0 >> $@
+ echo '' >> $@
+ #@
+ echo '/* FNV-1a 32 bit test vectors */' >> $@
+ ./fnv1a32 -t 0 >> $@
+ echo '' >> $@
+ #@
+ echo '/* FNV-0 64 bit test vectors */' >> $@
+ echo '#if defined(HAVE_64BIT_LONG_LONG)' >> $@
+ ./fnv064 -t 0 >> $@
+ echo '#else /* HAVE_64BIT_LONG_LONG */' >> $@
+ ./no64bit_fnv064 -t 0 >> $@
+ echo '#endif /* HAVE_64BIT_LONG_LONG */' >> $@
+ echo '' >> $@
+ #@
+ echo '/* FNV-1 64 bit test vectors */' >> $@
+ echo '#if defined(HAVE_64BIT_LONG_LONG)' >> $@
+ ./fnv164 -t 0 >> $@
+ echo '#else /* HAVE_64BIT_LONG_LONG */' >> $@
+ ./no64bit_fnv164 -t 0 >> $@
+ echo '#endif /* HAVE_64BIT_LONG_LONG */' >> $@
+ echo '' >> $@
+ #@
+ echo '/* FNV-1a 64 bit test vectors */' >> $@
+ echo '#if defined(HAVE_64BIT_LONG_LONG)' >> $@
+ ./fnv1a64 -t 0 >> $@
+ echo '#else /* HAVE_64BIT_LONG_LONG */' >> $@
+ ./no64bit_fnv1a64 -t 0 >> $@
+ echo '#endif /* HAVE_64BIT_LONG_LONG */' >> $@
+ echo '' >> $@
+ #@
+ echo '/* end of output generated by make $@ */' >> $@
diff --git a/lib/fnv/README b/lib/fnv/README
new file mode 100644
index 0000000000..60aa9aaf61
--- /dev/null
+++ b/lib/fnv/README
@@ -0,0 +1,158 @@
+#=====================#
+# Fowler/Noll/Vo hash #
+#=====================#
+
+The basis of this hash algorithm was taken from an idea sent
+as reviewer comments to the IEEE POSIX P1003.2 committee by:
+
+ Phong Vo (http://www.research.att.com/info/kpv)
+ Glenn Fowler (http://www.research.att.com/~gsf/)
+
+In a subsequent ballot round:
+
+ Landon Curt Noll (http://www.isthe.com/chongo)
+
+improved on their algorithm. Some people tried this hash
+and found that it worked rather well. In an EMail message
+to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+
+FNV hashes are designed to be fast while maintaining a low
+collision rate. The FNV speed allows one to quickly hash lots
+of data while maintaining a reasonable collision rate. See:
+
+ http://www.isthe.com/chongo/tech/comp/fnv/index.html
+
+for more details as well as other forms of the FNV hash.
+Comments, questions, bug fixes and suggestions welcome at
+the address given in the above URL.
+
+
+#==================#
+# FNV hash utility #
+#==================#
+
+Two hash utilities (32 bit and 64 bit) are provided:
+
+ fnv032 [-b bcnt] [-m] [-s arg] [-t code] [-v] [arg ...]
+ fnv132 [-b bcnt] [-m] [-s arg] [-t code] [-v] [arg ...]
+ fnv1a32 [-b bcnt] [-m] [-s arg] [-t code] [-v] [arg ...]
+
+ fnv064 [-b bcnt] [-m] [-s arg] [-t code] [-v] [arg ...]
+ fnv164 [-b bcnt] [-m] [-s arg] [-t code] [-v] [arg ...]
+ fnv1a64 [-b bcnt] [-m] [-s arg] [-t code] [-v] [arg ...]
+
+ -b bcnt mask off all but the lower bcnt bits (default: 32)
+ -m multiple hashes, one per line for each arg
+ -s hash arg as a string (ignoring terminating NUL bytes)
+ -t code 0 ==> generate test vectors, 1 ==> test FNV hash
+ -v verbose mode, print arg after hash (implies -m)
+ arg string (if -s was given) or filename (default stdin)
+
+The fnv032, fnv064 implement the historic FNV-0 hash.
+The fnv132, fnv164 implement the recommended FNV-1 hash.
+The fnv1a32, fnv1a64 implement the recommended FNV-1a hash.
+
+This is the original historic FNV algorithm with a 0 offset basis.
+It is recommended that FNV-1, with a non-0 offset basis be used instead.
+
+To test FNV hashes, try:
+
+ fnv032 -t 1 -v
+ fnv132 -t 1 -v
+ fnv1a32 -t 1 -v
+
+ fnv064 -t 1 -v
+ fnv164 -t 1 -v
+ fnv1a64 -t 1 -v
+
+If you are compiling, try:
+
+ make check
+
+
+#==================#
+# FNV hash library #
+#==================#
+
+The libfnv.a library implements both a 32 bit and a 64 bit FNV hash
+on collections of bytes, a NUL terminated strings or on an open file
+descriptor.
+
+Here is the 32 bit FNV 1 hash:
+
+ Fnv32_t fnv_32_buf(void *buf, int len, Fnv32_t hval); /* byte buf */
+ Fnv32_t fnv_32_str(char *string, Fnv32_t hval); /* string */
+
+Here is the 32 bit FNV 1a hash:
+
+ Fnv32_t fnv_32a_buf(void *buf, int len, Fnv32_t hval); /* byte buf */
+ Fnv32_t fnv_32a_str(char *string, Fnv32_t hval); /* string */
+
+Here is the 64 bit FNV 1 hash:
+
+ Fnv64_t fnv_64_buf(void *buf, int len, Fnv64_t hval); /* byte buf */
+ Fnv64_t fnv_64_str(char *string, Fnv64_t hval); /* string */
+
+Here is the 64 bit FNV 1a hash:
+
+ Fnv64_t fnv_64a_buf(void *buf, int len, Fnv64_t hval); /* byte buf */
+ Fnv64_t fnv_64a_str(char *string, Fnv64_t hval); /* string */
+
+On the first call to a hash function, one must supply the initial basis
+that is appropriate for the hash in question:
+
+ FNV-0: (not recommended)
+
+ FNV0_32_INIT /* 32 bit FNV-0 initial basis */
+ FNV0_64_INIT /* 64 bit FNV-0 initial basis */
+
+ FNV-1:
+
+ FNV1_32_INIT /* 32 bit FNV-1 initial basis */
+ FNV1_64_INIT /* 64 bit FNV-1 initial basis */
+
+ FNV-1a:
+
+ FNV1A_32_INIT /* 32 bit FNV-1a initial basis */
+ FNV1A_64_INIT /* 64 bit FNV-1a initial basis */
+
+For example to perform a 64 bit FNV-1 hash:
+
+ #include "fnv.h"
+
+ Fnv64_t hash_val;
+
+ hash_val = fnv_64_str("a string", FNV1_64_INIT);
+ hash_val = fnv_64_str("more string", hash_val);
+
+produces the same final hash value as:
+
+ hash_val = fnv_64_str("a stringmore string", FNV1_64_INIT);
+
+NOTE: If one used 'FNV0_64_INIT' instead of 'FNV1_64_INIT' one would get the
+ historic FNV-0 hash instead recommended FNV-1 hash.
+
+To perform a 32 bit FNV-1 hash:
+
+ #include "fnv.h"
+
+ Fnv32_t hash_val;
+
+ hash_val = fnv_32_buf(buf, length_of_buf, FNV1_32_INIT);
+ hash_val = fnv_32_str("more data", hash_val);
+
+To perform a 64 bit FNV-1a hash:
+
+ #include "fnv.h"
+
+ Fnv64_t hash_val;
+
+ hash_val = fnv_64a_buf(buf, length_of_buf, FNV1_64_INIT);
+ hash_val = fnv_64a_str("more data", hash_val);
+
+=-=
+
+chongo <Landon Curt Noll> /\oo/\
+http://www.isthe.com/chongo
+
+Share and Enjoy!
diff --git a/lib/fnv/fnv.h b/lib/fnv/fnv.h
new file mode 100644
index 0000000000..2083a4aa23
--- /dev/null
+++ b/lib/fnv/fnv.h
@@ -0,0 +1,249 @@
+/*
+ * fnv - Fowler/Noll/Vo- hash code
+ *
+ * @(#) $Revision: 5.4 $
+ * @(#) $Id: fnv.h,v 5.4 2009/07/30 22:49:13 chongo Exp $
+ * @(#) $Source: /usr/local/src/cmd/fnv/RCS/fnv.h,v $
+ *
+ ***
+ *
+ * Fowler/Noll/Vo- hash
+ *
+ * The basis of this hash algorithm was taken from an idea sent
+ * as reviewer comments to the IEEE POSIX P1003.2 committee by:
+ *
+ * Phong Vo (http://www.research.att.com/info/kpv/)
+ * Glenn Fowler (http://www.research.att.com/~gsf/)
+ *
+ * In a subsequent ballot round:
+ *
+ * Landon Curt Noll (http://www.isthe.com/chongo/)
+ *
+ * improved on their algorithm. Some people tried this hash
+ * and found that it worked rather well. In an EMail message
+ * to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+ *
+ * FNV hashes are designed to be fast while maintaining a low
+ * collision rate. The FNV speed allows one to quickly hash lots
+ * of data while maintaining a reasonable collision rate. See:
+ *
+ * http://www.isthe.com/chongo/tech/comp/fnv/index.html
+ *
+ * for more details as well as other forms of the FNV hash.
+ *
+ ***
+ *
+ * NOTE: The FNV-0 historic hash is not recommended. One should use
+ * the FNV-1 hash instead.
+ *
+ * To use the 32 bit FNV-0 historic hash, pass FNV0_32_INIT as the
+ * Fnv32_t hashval argument to fnv_32_buf() or fnv_32_str().
+ *
+ * To use the 64 bit FNV-0 historic hash, pass FNV0_64_INIT as the
+ * Fnv64_t hashval argument to fnv_64_buf() or fnv_64_str().
+ *
+ * To use the recommended 32 bit FNV-1 hash, pass FNV1_32_INIT as the
+ * Fnv32_t hashval argument to fnv_32_buf() or fnv_32_str().
+ *
+ * To use the recommended 64 bit FNV-1 hash, pass FNV1_64_INIT as the
+ * Fnv64_t hashval argument to fnv_64_buf() or fnv_64_str().
+ *
+ * To use the recommended 32 bit FNV-1a hash, pass FNV1_32A_INIT as the
+ * Fnv32_t hashval argument to fnv_32a_buf() or fnv_32a_str().
+ *
+ * To use the recommended 64 bit FNV-1a hash, pass FNV1A_64_INIT as the
+ * Fnv64_t hashval argument to fnv_64a_buf() or fnv_64a_str().
+ *
+ ***
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+#if !defined(__FNV_H__)
+#define __FNV_H__
+
+#include <sys/types.h>
+
+#define FNV_VERSION "5.0.2" /* @(#) FNV Version */
+
+
+/*
+ * 32 bit FNV-0 hash type
+ */
+typedef u_int32_t Fnv32_t;
+
+
+/*
+ * 32 bit FNV-0 zero initial basis
+ *
+ * This historic hash is not recommended. One should use
+ * the FNV-1 hash and initial basis instead.
+ */
+#define FNV0_32_INIT ((Fnv32_t)0)
+
+
+/*
+ * 32 bit FNV-1 and FNV-1a non-zero initial basis
+ *
+ * The FNV-1 initial basis is the FNV-0 hash of the following 32 octets:
+ *
+ * chongo <Landon Curt Noll> /\../\
+ *
+ * NOTE: The \'s above are not back-slashing escape characters.
+ * They are literal ASCII backslash 0x5c characters.
+ *
+ * NOTE: The FNV-1a initial basis is the same value as FNV-1 by definition.
+ */
+#define FNV1_32_INIT ((Fnv32_t)0x811c9dc5)
+#define FNV1_32A_INIT FNV1_32_INIT
+
+
+/*
+ * determine how 64 bit unsigned values are represented
+ */
+#include "longlong.h"
+
+
+/*
+ * 64 bit FNV-0 hash
+ */
+#if defined(HAVE_64BIT_LONG_LONG)
+typedef u_int64_t Fnv64_t;
+#else /* HAVE_64BIT_LONG_LONG */
+typedef struct {
+ u_int32_t w32[2]; /* w32[0] is low order, w32[1] is high order word */
+} Fnv64_t;
+#endif /* HAVE_64BIT_LONG_LONG */
+
+
+/*
+ * 64 bit FNV-0 zero initial basis
+ *
+ * This historic hash is not recommended. One should use
+ * the FNV-1 hash and initial basis instead.
+ */
+#if defined(HAVE_64BIT_LONG_LONG)
+#define FNV0_64_INIT ((Fnv64_t)0)
+#else /* HAVE_64BIT_LONG_LONG */
+extern const Fnv64_t fnv0_64_init;
+#define FNV0_64_INIT (fnv0_64_init)
+#endif /* HAVE_64BIT_LONG_LONG */
+
+
+/*
+ * 64 bit FNV-1 non-zero initial basis
+ *
+ * The FNV-1 initial basis is the FNV-0 hash of the following 32 octets:
+ *
+ * chongo <Landon Curt Noll> /\../\
+ *
+ * NOTE: The \'s above are not back-slashing escape characters.
+ * They are literal ASCII backslash 0x5c characters.
+ *
+ * NOTE: The FNV-1a initial basis is the same value as FNV-1 by definition.
+ */
+#if defined(HAVE_64BIT_LONG_LONG)
+#define FNV1_64_INIT ((Fnv64_t)0xcbf29ce484222325ULL)
+#define FNV1A_64_INIT FNV1_64_INIT
+#else /* HAVE_64BIT_LONG_LONG */
+extern const fnv1_64_init;
+extern const Fnv64_t fnv1a_64_init;
+#define FNV1_64_INIT (fnv1_64_init)
+#define FNV1A_64_INIT (fnv1a_64_init)
+#endif /* HAVE_64BIT_LONG_LONG */
+
+
+/*
+ * hash types
+ */
+enum fnv_type {
+ FNV_NONE = 0, /* invalid FNV hash type */
+ FNV0_32 = 1, /* FNV-0 32 bit hash */
+ FNV1_32 = 2, /* FNV-1 32 bit hash */
+ FNV1a_32 = 3, /* FNV-1a 32 bit hash */
+ FNV0_64 = 4, /* FNV-0 64 bit hash */
+ FNV1_64 = 5, /* FNV-1 64 bit hash */
+ FNV1a_64 = 6, /* FNV-1a 64 bit hash */
+};
+
+
+/*
+ * these test vectors are used as part o the FNV test suite
+ */
+struct test_vector {
+ void *buf; /* start of test vector buffer */
+ int len; /* length of test vector */
+};
+struct fnv0_32_test_vector {
+ struct test_vector *test; /* test vector buffer to hash */
+ Fnv32_t fnv0_32; /* expected FNV-0 32 bit hash value */
+};
+struct fnv1_32_test_vector {
+ struct test_vector *test; /* test vector buffer to hash */
+ Fnv32_t fnv1_32; /* expected FNV-1 32 bit hash value */
+};
+struct fnv1a_32_test_vector {
+ struct test_vector *test; /* test vector buffer to hash */
+ Fnv32_t fnv1a_32; /* expected FNV-1a 32 bit hash value */
+};
+struct fnv0_64_test_vector {
+ struct test_vector *test; /* test vector buffer to hash */
+ Fnv64_t fnv0_64; /* expected FNV-0 64 bit hash value */
+};
+struct fnv1_64_test_vector {
+ struct test_vector *test; /* test vector buffer to hash */
+ Fnv64_t fnv1_64; /* expected FNV-1 64 bit hash value */
+};
+struct fnv1a_64_test_vector {
+ struct test_vector *test; /* test vector buffer to hash */
+ Fnv64_t fnv1a_64; /* expected FNV-1a 64 bit hash value */
+};
+
+
+/*
+ * external functions
+ */
+/* hash_32.c */
+extern Fnv32_t fnv_32_buf(void *buf, size_t len, Fnv32_t hashval);
+extern Fnv32_t fnv_32_str(char *buf, Fnv32_t hashval);
+
+/* hash_32a.c */
+extern Fnv32_t fnv_32a_buf(void *buf, size_t len, Fnv32_t hashval);
+extern Fnv32_t fnv_32a_str(char *buf, Fnv32_t hashval);
+
+/* hash_64.c */
+extern Fnv64_t fnv_64_buf(void *buf, size_t len, Fnv64_t hashval);
+extern Fnv64_t fnv_64_str(char *buf, Fnv64_t hashval);
+
+/* hash_64a.c */
+extern Fnv64_t fnv_64a_buf(void *buf, size_t len, Fnv64_t hashval);
+extern Fnv64_t fnv_64a_str(char *buf, Fnv64_t hashval);
+
+/* test_fnv.c */
+extern struct test_vector fnv_test_str[];
+extern struct fnv0_32_test_vector fnv0_32_vector[];
+extern struct fnv1_32_test_vector fnv1_32_vector[];
+extern struct fnv1a_32_test_vector fnv1a_32_vector[];
+extern struct fnv0_64_test_vector fnv0_64_vector[];
+extern struct fnv1_64_test_vector fnv1_64_vector[];
+extern struct fnv1a_64_test_vector fnv1a_64_vector[];
+extern void unknown_hash_type(char *prog, enum fnv_type type, int code);
+extern void print_fnv32(Fnv32_t hval, Fnv32_t mask, int verbose, char *arg);
+extern void print_fnv64(Fnv64_t hval, Fnv64_t mask, int verbose, char *arg);
+
+
+#endif /* __FNV_H__ */
diff --git a/lib/fnv/fnv32.c b/lib/fnv/fnv32.c
new file mode 100644
index 0000000000..58c61f03fc
--- /dev/null
+++ b/lib/fnv/fnv32.c
@@ -0,0 +1,467 @@
+/*
+ * fnv32 - 32 bit Fowler/Noll/Vo hash of a buffer or string
+ *
+ * @(#) $Revision: 5.5 $
+ * @(#) $Id: fnv32.c,v 5.5 2012/03/21 01:38:12 chongo Exp $
+ * @(#) $Source: /usr/local/src/cmd/fnv/RCS/fnv32.c,v $
+ *
+ ***
+ *
+ * Fowler/Noll/Vo hash
+ *
+ * The basis of this hash algorithm was taken from an idea sent
+ * as reviewer comments to the IEEE POSIX P1003.2 committee by:
+ *
+ * Phong Vo (http://www.research.att.com/info/kpv/)
+ * Glenn Fowler (http://www.research.att.com/~gsf/)
+ *
+ * In a subsequent ballot round:
+ *
+ * Landon Curt Noll (http://www.isthe.com/chongo/)
+ *
+ * improved on their algorithm. Some people tried this hash
+ * and found that it worked rather well. In an EMail message
+ * to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+ *
+ * FNV hashes are designed to be fast while maintaining a low
+ * collision rate. The FNV speed allows one to quickly hash lots
+ * of data while maintaining a reasonable collision rate. See:
+ *
+ * http://www.isthe.com/chongo/tech/comp/fnv/index.html
+ *
+ * for more details as well as other forms of the FNV hash.
+ *
+ ***
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+#include <stdio.h>
+#include <unistd.h>
+#include <stdlib.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+#include <fcntl.h>
+#include <string.h>
+#include "longlong.h"
+#include "fnv.h"
+
+#define WIDTH 32 /* bit width of hash */
+
+#define BUF_SIZE (32*1024) /* number of bytes to hash at a time */
+
+static char *usage =
+"usage: %s [-b bcnt] [-m] [-s arg] [-t code] [-v] [arg ...]\n"
+"\n"
+"\t-b bcnt\tmask off all but the lower bcnt bits (default 32)\n"
+"\t-m\tmultiple hashes, one per line for each arg\n"
+"\t-s\thash arg as a string (ignoring terminating NUL bytes)\n"
+"\t-t code\t test hash code: (0 ==> generate test vectors\n"
+"\t\t\t\t 1 ==> validate against FNV test vectors)\n"
+"\t-v\tverbose mode, print arg after hash (implies -m)\n"
+"\targ\tstring (if -s was given) or filename (default stdin)\n"
+"\n"
+"\tNOTE: Programs that begin with fnv0 implement the FNV-0 hash.\n"
+"\t The FNV-0 hash is historic FNV algorithm that is now deprecated.\n"
+"\n"
+"\tSee http://www.isthe.com/chongo/tech/comp/fnv/index.html for more info.\n"
+"\n"
+"\t@(#) FNV Version: %s\n";
+static char *program; /* our name */
+
+
+/*
+ * test_fnv32 - test the FNV32 hash
+ *
+ * given:
+ * hash_type type of FNV hash to test
+ * init_hval initial hash value
+ * mask lower bit mask
+ * v_flag 1 => print test failure info on stderr
+ * code 0 ==> generate FNV test vectors
+ * 1 ==> validate against FNV test vectors
+ *
+ * returns: 0 ==> OK, else test vector failure number
+ */
+static int
+test_fnv32(enum fnv_type hash_type, Fnv32_t init_hval,
+ Fnv32_t mask, int v_flag, int code)
+{
+ struct test_vector *t; /* FNV test vestor */
+ Fnv32_t hval; /* current hash value */
+ int tstnum; /* test vector that failed, starting at 1 */
+
+ /*
+ * print preamble if generating test vectors
+ */
+ if (code == 0) {
+ switch (hash_type) {
+ case FNV0_32:
+ printf("struct fnv0_32_test_vector fnv0_32_vector[] = {\n");
+ break;
+ case FNV1_32:
+ printf("struct fnv1_32_test_vector fnv1_32_vector[] = {\n");
+ break;
+ case FNV1a_32:
+ printf("struct fnv1a_32_test_vector fnv1a_32_vector[] = {\n");
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 12); /* exit(12) */
+ /*NOTREACHED*/
+ }
+ }
+
+ /*
+ * loop thru all test vectors
+ */
+ for (t = fnv_test_str, tstnum = 1; t->buf != NULL; ++t, ++tstnum) {
+
+ /*
+ * compute the FNV hash
+ */
+ hval = init_hval;
+ switch (hash_type) {
+ case FNV0_32:
+ case FNV1_32:
+ hval = fnv_32_buf(t->buf, t->len, hval);
+ break;
+ case FNV1a_32:
+ hval = fnv_32a_buf(t->buf, t->len, hval);
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 13); /* exit(13) */
+ /*NOTREACHED*/
+ }
+
+ /*
+ * print the vector
+ */
+ switch (code) {
+ case 0: /* generate the test vector */
+ printf(" { &fnv_test_str[%d], (Fnv32_t) 0x%08lxUL },\n",
+ tstnum-1, hval & mask);
+ break;
+ case 1: /* validate against test vector */
+ switch (hash_type) {
+ case FNV0_32:
+ if ((hval&mask) != (fnv0_32_vector[tstnum-1].fnv0_32 & mask)) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv0_32 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%08lx != generated: 0x%08lx\n",
+ program, (hval&mask),
+ (fnv0_32_vector[tstnum-1].fnv0_32 & mask));
+ }
+ return tstnum;
+ }
+ break;
+ case FNV1_32:
+ if ((hval&mask) != (fnv1_32_vector[tstnum-1].fnv1_32 & mask)) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv1_32 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%08lx != generated: 0x%08lx\n",
+ program, (hval&mask),
+ (fnv1_32_vector[tstnum-1].fnv1_32 & mask));
+ }
+ return tstnum;
+ }
+ break;
+ case FNV1a_32:
+ if ((hval&mask) != (fnv1a_32_vector[tstnum-1].fnv1a_32 &mask)) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv1a_32 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%08lx != generated: 0x%08lx\n",
+ program, (hval&mask),
+ (fnv1a_32_vector[tstnum-1].fnv1a_32 & mask));
+ }
+ return tstnum;
+ }
+ break;
+ }
+ break;
+ default:
+ fprintf(stderr, "%s: -m %d not implemented yet\n", program, code);
+ exit(14);
+ }
+ }
+
+ /*
+ * print completion if generating test vectors
+ */
+ if (code == 0) {
+ printf(" { NULL, 0 }\n");
+ printf("};\n");
+ }
+
+ /*
+ * no failures, return code 0 ==> all OK
+ */
+ return 0;
+}
+
+
+/*
+ * main - the main function
+ *
+ * See the above usage for details.
+ */
+int
+main(int argc, char *argv[])
+{
+ char buf[BUF_SIZE+1]; /* read buffer */
+ int readcnt; /* number of characters written */
+ Fnv32_t hval; /* current hash value */
+ int s_flag = 0; /* 1 => -s was given, hash args as strings */
+ int m_flag = 0; /* 1 => print multiple hashes, one per arg */
+ int v_flag = 0; /* 1 => verbose hash print */
+ int b_flag = WIDTH; /* -b flag value */
+ int t_flag = -1; /* FNV test vector code (0=>print, 1=>test) */
+ enum fnv_type hash_type = FNV_NONE; /* type of FNV hash to perform */
+ Fnv32_t bmask; /* mask to apply to output */
+ extern char *optarg; /* option argument */
+ extern int optind; /* argv index of the next arg */
+ int fd; /* open file to process */
+ char *p;
+ int i;
+
+ /*
+ * parse args
+ */
+ program = argv[0];
+ while ((i = getopt(argc, argv, "b:mst:v")) != -1) {
+ switch (i) {
+ case 'b': /* bcnt bit mask count */
+ b_flag = atoi(optarg);
+ break;
+ case 'm': /* print multiple hashes, one per arg */
+ m_flag = 1;
+ break;
+ case 's': /* hash args as strings */
+ s_flag = 1;
+ break;
+ case 't': /* FNV test vector code */
+ t_flag = atoi(optarg);
+ if (t_flag < 0 || t_flag > 1) {
+ fprintf(stderr, "%s: -t code must be 0 or 1\n", program);
+ fprintf(stderr, usage, program, FNV_VERSION);
+ exit(1);
+ }
+ m_flag = 1;
+ break;
+ case 'v': /* verbose hash print */
+ m_flag = 1;
+ v_flag = 1;
+ break;
+ default:
+ fprintf(stderr, usage, program, FNV_VERSION);
+ exit(1);
+ }
+ }
+ /* -t code incompatible with -b, -m and args */
+ if (t_flag >= 0) {
+ if (b_flag != WIDTH) {
+ fprintf(stderr, "%s: -t code incompatible with -b\n", program);
+ exit(2);
+ }
+ if (s_flag != 0) {
+ fprintf(stderr, "%s: -t code incompatible with -s\n", program);
+ exit(3);
+ }
+ if (optind < argc) {
+ fprintf(stderr, "%s: -t code incompatible args\n", program);
+ exit(4);
+ }
+ }
+ /* -s requires at least 1 arg */
+ if (s_flag && optind >= argc) {
+ fprintf(stderr, usage, program, FNV_VERSION);
+ exit(5);
+ }
+ /* limit -b values */
+ if (b_flag < 0 || b_flag > WIDTH) {
+ fprintf(stderr, "%s: -b bcnt: %d must be >= 0 and < %d\n",
+ program, b_flag, WIDTH);
+ exit(6);
+ }
+ if (b_flag == WIDTH) {
+ bmask = (Fnv32_t)0xffffffff;
+ } else {
+ bmask = (Fnv32_t)((1 << b_flag) - 1);
+ }
+
+ /*
+ * start with the initial basis depending on the hash type
+ */
+ p = strrchr(program, '/');
+ if (p == NULL) {
+ p = program;
+ } else {
+ ++p;
+ }
+ if (strcmp(p, "fnv032") == 0) {
+ /* using non-recommended FNV-0 and zero initial basis */
+ hval = FNV0_32_INIT;
+ hash_type = FNV0_32;
+ } else if (strcmp(p, "fnv132") == 0) {
+ /* using FNV-1 and non-zero initial basis */
+ hval = FNV1_32_INIT;
+ hash_type = FNV1_32;
+ } else if (strcmp(p, "fnv1a32") == 0) {
+ /* start with the FNV-1a initial basis */
+ hval = FNV1_32A_INIT;
+ hash_type = FNV1a_32;
+ } else {
+ fprintf(stderr, "%s: unknown program name, unknown hash type\n",
+ program);
+ exit(7);
+ }
+
+ /*
+ * FNV test vector processing, if needed
+ */
+ if (t_flag >= 0) {
+ int code; /* test vector that failed, starting at 1 */
+
+ /*
+ * perform all tests
+ */
+ code = test_fnv32(hash_type, hval, bmask, v_flag, t_flag);
+
+ /*
+ * evaluate the tests
+ */
+ if (code == 0) {
+ if (v_flag) {
+ printf("passed\n");
+ }
+ exit(0);
+ } else {
+ printf("failed vector (1 is 1st test): %d\n", code);
+ exit(8);
+ }
+ }
+
+ /*
+ * string hashing
+ */
+ if (s_flag) {
+
+ /* hash any other strings */
+ for (i=optind; i < argc; ++i) {
+ switch (hash_type) {
+ case FNV0_32:
+ case FNV1_32:
+ hval = fnv_32_str(argv[i], hval);
+ break;
+ case FNV1a_32:
+ hval = fnv_32a_str(argv[i], hval);
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 9); /* exit(9) */
+ /*NOTREACHED*/
+ }
+ if (m_flag) {
+ print_fnv32(hval, bmask, v_flag, argv[i]);
+ }
+ }
+
+
+ /*
+ * file hashing
+ */
+ } else {
+
+ /*
+ * case: process only stdin
+ */
+ if (optind >= argc) {
+
+ /* case: process only stdin */
+ while ((readcnt = read(0, buf, BUF_SIZE)) > 0) {
+ switch (hash_type) {
+ case FNV0_32:
+ case FNV1_32:
+ hval = fnv_32_buf(buf, readcnt, hval);
+ break;
+ case FNV1a_32:
+ hval = fnv_32a_buf(buf, readcnt, hval);
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 10); /* exit(10) */
+ /*NOTREACHED*/
+ }
+ }
+ if (m_flag) {
+ print_fnv32(hval, bmask, v_flag, "(stdin)");
+ }
+
+ } else {
+
+ /*
+ * process any other files
+ */
+ for (i=optind; i < argc; ++i) {
+
+ /* open the file */
+ fd = open(argv[i], O_RDONLY);
+ if (fd < 0) {
+ fprintf(stderr, "%s: unable to open file: %s\n",
+ program, argv[i]);
+ exit(4);
+ }
+
+ /* hash the file */
+ while ((readcnt = read(fd, buf, BUF_SIZE)) > 0) {
+ switch (hash_type) {
+ case FNV0_32:
+ case FNV1_32:
+ hval = fnv_32_buf(buf, readcnt, hval);
+ break;
+ case FNV1a_32:
+ hval = fnv_32a_buf(buf, readcnt, hval);
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 11);/* exit(11) */
+ /*NOTREACHED*/
+ }
+ }
+
+ /* finish processing the file */
+ if (m_flag) {
+ print_fnv32(hval, bmask, v_flag, argv[i]);
+ }
+ close(fd);
+ }
+ }
+ }
+
+ /*
+ * report hash and exit
+ */
+ if (!m_flag) {
+ print_fnv32(hval, bmask, v_flag, "");
+ }
+ return 0; /* exit(0); */
+}
diff --git a/lib/fnv/fnv64.c b/lib/fnv/fnv64.c
new file mode 100644
index 0000000000..0662d4d657
--- /dev/null
+++ b/lib/fnv/fnv64.c
@@ -0,0 +1,591 @@
+/*
+ * fnv_64 - 64 bit Fowler/Noll/Vo hash of a buffer or string
+ *
+ * @(#) $Revision: 5.5 $
+ * @(#) $Id: fnv64.c,v 5.5 2012/03/21 01:38:12 chongo Exp $
+ * @(#) $Source: /usr/local/src/cmd/fnv/RCS/fnv64.c,v $
+ *
+ ***
+ *
+ * Fowler/Noll/Vo hash
+ *
+ * The basis of this hash algorithm was taken from an idea sent
+ * as reviewer comments to the IEEE POSIX P1003.2 committee by:
+ *
+ * Phong Vo (http://www.research.att.com/info/kpv/)
+ * Glenn Fowler (http://www.research.att.com/~gsf/)
+ *
+ * In a subsequent ballot round:
+ *
+ * Landon Curt Noll (http://www.isthe.com/chongo/)
+ *
+ * improved on their algorithm. Some people tried this hash
+ * and found that it worked rather well. In an EMail message
+ * to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+ *
+ * FNV hashes are designed to be fast while maintaining a low
+ * collision rate. The FNV speed allows one to quickly hash lots
+ * of data while maintaining a reasonable collision rate. See:
+ *
+ * http://www.isthe.com/chongo/tech/comp/fnv/index.html
+ *
+ * for more details as well as other forms of the FNV hash.
+ *
+ ***
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+#include <stdio.h>
+#include <unistd.h>
+#include <stdlib.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+#include <fcntl.h>
+#include <string.h>
+#include "longlong.h"
+#include "fnv.h"
+
+#define WIDTH 64 /* bit width of hash */
+
+#define BUF_SIZE (32*1024) /* number of bytes to hash at a time */
+
+static char *usage =
+"usage: %s [-b bcnt] [-m] [-s arg] [-t code] [-v] [arg ...]\n"
+"\n"
+"\t-b bcnt\tmask off all but the lower bcnt bits (default 64)\n"
+"\t-m\tmultiple hashes, one per line for each arg\n"
+"\t-s\thash arg as a string (ignoring terminating NUL bytes)\n"
+"\t-t code\t test hash code: (0 ==> generate test vectors\n"
+"\t\t\t\t 1 ==> validate against FNV test vectors)\n"
+"\t-v\tverbose mode, print arg after hash (implies -m)\n"
+"\targ\tstring (if -s was given) or filename (default stdin)\n"
+"\n"
+"\tNOTE: Programs that begin with fnv0 implement the FNV-0 hash.\n"
+"\t The FNV-0 hash is historic FNV algorithm that is now deprecated.\n"
+"\n"
+"\tSee http://www.isthe.com/chongo/tech/comp/fnv/index.html for more info.\n"
+"\n"
+"\t@(#) FNV Version: %s\n";
+static char *program; /* our name */
+
+
+/*
+ * test_fnv64 - test the FNV64 hash
+ *
+ * given:
+ * hash_type type of FNV hash to test
+ * init_hval initial hash value
+ * mask lower bit mask
+ * v_flag 1 => print test failure info on stderr
+ * code 0 ==> generate FNV test vectors
+ * 1 ==> validate against FNV test vectors
+ *
+ * returns: 0 ==> OK, else test vector failure number
+ */
+static int
+test_fnv64(enum fnv_type hash_type, Fnv64_t init_hval,
+ Fnv64_t mask, int v_flag, int code)
+{
+ struct test_vector *t; /* FNV test vestor */
+ Fnv64_t hval; /* current hash value */
+ int tstnum; /* test vector that failed, starting at 1 */
+
+ /*
+ * print preamble if generating test vectors
+ */
+ if (code == 0) {
+ switch (hash_type) {
+ case FNV0_64:
+ printf("struct fnv0_64_test_vector fnv0_64_vector[] = {\n");
+ break;
+ case FNV1_64:
+ printf("struct fnv1_64_test_vector fnv1_64_vector[] = {\n");
+ break;
+ case FNV1a_64:
+ printf("struct fnv1a_64_test_vector fnv1a_64_vector[] = {\n");
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 12); /* exit(12) */
+ /*NOTREACHED*/
+ }
+ }
+
+ /*
+ * loop thru all test vectors
+ */
+ for (t = fnv_test_str, tstnum = 1; t->buf != NULL; ++t, ++tstnum) {
+
+ /*
+ * compute the FNV hash
+ */
+ hval = init_hval;
+ switch (hash_type) {
+ case FNV0_64:
+ case FNV1_64:
+ hval = fnv_64_buf(t->buf, t->len, hval);
+ break;
+ case FNV1a_64:
+ hval = fnv_64a_buf(t->buf, t->len, hval);
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 13); /* exit(13) */
+ /*NOTREACHED*/
+ }
+
+ /*
+ * print the vector
+ */
+#if defined(HAVE_64BIT_LONG_LONG)
+ /*
+ * HAVE_64BIT_LONG_LONG testing
+ */
+ switch (code) {
+ case 0: /* generate the test vector */
+ printf(" { &fnv_test_str[%d], (Fnv64_t) 0x%016llxULL },\n",
+ tstnum-1, hval & mask);
+ break;
+
+ case 1: /* validate against test vector */
+ switch (hash_type) {
+ case FNV0_64:
+ if ((hval&mask) != (fnv0_64_vector[tstnum-1].fnv0_64 & mask)) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv0_64 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%016llx != generated: 0x%016llx\n",
+ program,
+ (hval&mask),
+ (fnv0_64_vector[tstnum-1].fnv0_64 & mask));
+ }
+ return tstnum;
+ }
+ break;
+ case FNV1_64:
+ if ((hval&mask) != (fnv1_64_vector[tstnum-1].fnv1_64 & mask)) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv1_64 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%016llx != generated: 0x%016llx\n",
+ program,
+ (hval&mask),
+ (fnv1_64_vector[tstnum-1].fnv1_64 & mask));
+ }
+ return tstnum;
+ }
+ break;
+ case FNV1a_64:
+ if ((hval&mask) != (fnv1a_64_vector[tstnum-1].fnv1a_64 &mask)) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv1a_64 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%016llx != generated: 0x%016llx\n",
+ program,
+ (hval&mask),
+ (fnv1a_64_vector[tstnum-1].fnv1a_64 & mask));
+ }
+ return tstnum;
+ }
+ break;
+ }
+ break;
+
+ default:
+ fprintf(stderr, "%s: -m %d not implemented yet\n", program, code);
+ exit(14);
+ }
+#else /* HAVE_64BIT_LONG_LONG */
+ /*
+ * non HAVE_64BIT_LONG_LONG testing
+ */
+ switch (code) {
+ case 0: /* generate the test vector */
+ printf(" { &fnv_test_str[%d], "
+ "(Fnv64_t) {0x%08lxUL, 0x%08lxUL} },\n",
+ tstnum-1,
+ (hval.w32[0] & mask.w32[0]),
+ (hval.w32[1] & mask.w32[1]));
+ break;
+
+ case 1: /* validate against test vector */
+ switch (hash_type) {
+ case FNV0_64:
+ if (((hval.w32[0] & mask.w32[0]) !=
+ (fnv0_64_vector[tstnum-1].fnv0_64.w32[0] &
+ mask.w32[0])) &&
+ ((hval.w32[1] & mask.w32[1]) !=
+ (fnv0_64_vector[tstnum-1].fnv0_64.w32[1] &
+ mask.w32[1]))) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv0_64 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%08llx%08llx != "
+ "generated: 0x%08llx%08llx\n",
+ program,
+ (hval.w32[0] & mask.w32[0]),
+ (hval.w32[1] & mask.w32[1]),
+ ((fnv0_64_vector[tstnum-1].fnv0_64.w32[0] &
+ mask.w32[0])),
+ ((fnv0_64_vector[tstnum-1].fnv0_64.w32[1] &
+ mask.w32[1])));
+ }
+ return tstnum;
+ }
+ break;
+ case FNV1_64:
+ if (((hval.w32[0] & mask.w32[0]) !=
+ (fnv1_64_vector[tstnum-1].fnv1_64.w32[0] &
+ mask.w32[0])) &&
+ ((hval.w32[1] & mask.w32[1]) !=
+ (fnv1_64_vector[tstnum-1].fnv1_64.w32[1] &
+ mask.w32[1]))) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv1_64 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%08llx%08llx != "
+ "generated: 0x%08llx%08llx\n",
+ program,
+ (hval.w32[0] & mask.w32[0]),
+ (hval.w32[1] & mask.w32[1]),
+ ((fnv1_64_vector[tstnum-1].fnv1_64.w32[0] &
+ mask.w32[0])),
+ ((fnv1_64_vector[tstnum-1].fnv1_64.w32[1] &
+ mask.w32[1])));
+ }
+ return tstnum;
+ }
+ break;
+ case FNV1a_64:
+ if (((hval.w32[0] & mask.w32[0]) !=
+ (fnv1a_64_vector[tstnum-1].fnv1a_64.w32[0] &
+ mask.w32[0])) &&
+ ((hval.w32[1] & mask.w32[1]) !=
+ (fnv1a_64_vector[tstnum-1].fnv1a_64.w32[1] &
+ mask.w32[1]))) {
+ if (v_flag) {
+ fprintf(stderr, "%s: failed fnv1a_64 test # %d\n",
+ program, tstnum);
+ fprintf(stderr, "%s: test # 1 is 1st test\n", program);
+ fprintf(stderr,
+ "%s: expected 0x%08llx%08llx != "
+ "generated: 0x%08llx%08llx\n",
+ program,
+ (hval.w32[0] & mask.w32[0]),
+ (hval.w32[1] & mask.w32[1]),
+ ((fnv1a_64_vector[tstnum-1].fnv1a_64.w32[0] &
+ mask.w32[0])),
+ ((fnv1a_64_vector[tstnum-1].fnv1a_64.w32[1] &
+ mask.w32[1])));
+ }
+ return tstnum;
+ }
+ break;
+ }
+ break;
+
+ default:
+ fprintf(stderr, "%s: -m %d not implemented yet\n", program, code);
+ exit(15);
+ }
+#endif /* HAVE_64BIT_LONG_LONG */
+ }
+
+ /*
+ * print completion if generating test vectors
+ */
+ if (code == 0) {
+#if defined(HAVE_64BIT_LONG_LONG)
+ printf(" { NULL, (Fnv64_t) 0 }\n");
+#else /* HAVE_64BIT_LONG_LONG */
+ printf(" { NULL, (Fnv64_t) {0,0} }\n");
+#endif /* HAVE_64BIT_LONG_LONG */
+ printf("};\n");
+ }
+
+ /*
+ * no failures, return code 0 ==> all OK
+ */
+ return 0;
+}
+
+
+/*
+ * main - the main function
+ *
+ * See the above usage for details.
+ */
+int
+main(int argc, char *argv[])
+{
+ char buf[BUF_SIZE+1]; /* read buffer */
+ int readcnt; /* number of characters written */
+ Fnv64_t hval; /* current hash value */
+ int s_flag = 0; /* 1 => -s was given, hash args as strings */
+ int m_flag = 0; /* 1 => print multiple hashes, one per arg */
+ int v_flag = 0; /* 1 => verbose hash print */
+ int b_flag = WIDTH; /* -b flag value */
+ int t_flag = -1; /* FNV test vector code (0=>print, 1=>test) */
+ enum fnv_type hash_type = FNV_NONE; /* type of FNV hash to perform */
+ Fnv64_t bmask; /* mask to apply to output */
+ extern char *optarg; /* option argument */
+ extern int optind; /* argv index of the next arg */
+ int fd; /* open file to process */
+ char *p;
+ int i;
+
+ /*
+ * parse args
+ */
+ program = argv[0];
+ while ((i = getopt(argc, argv, "b:mst:v")) != -1) {
+ switch (i) {
+ case 'b': /* bcnt bit mask count */
+ b_flag = atoi(optarg);
+ break;
+ case 'm': /* print multiple hashes, one per arg */
+ m_flag = 1;
+ break;
+ case 's': /* hash args as strings */
+ s_flag = 1;
+ break;
+ case 't': /* FNV test vector code */
+ t_flag = atoi(optarg);
+ if (t_flag < 0 || t_flag > 1) {
+ fprintf(stderr, "%s: -t code must be 0 or 1\n", program);
+ fprintf(stderr, usage, program, FNV_VERSION);
+ exit(1);
+ }
+ m_flag = 1;
+ break;
+ case 'v': /* verbose hash print */
+ m_flag = 1;
+ v_flag = 1;
+ break;
+ default:
+ fprintf(stderr, usage, program, FNV_VERSION);
+ exit(1);
+ }
+ }
+ /* -t code incompatible with -b, -m and args */
+ if (t_flag >= 0) {
+ if (b_flag != WIDTH) {
+ fprintf(stderr, "%s: -t code incompatible with -b\n", program);
+ exit(2);
+ }
+ if (s_flag != 0) {
+ fprintf(stderr, "%s: -t code incompatible with -s\n", program);
+ exit(3);
+ }
+ if (optind < argc) {
+ fprintf(stderr, "%s: -t code incompatible args\n", program);
+ exit(4);
+ }
+ }
+ /* -s requires at least 1 arg */
+ if (s_flag && optind >= argc) {
+ fprintf(stderr, usage, program, FNV_VERSION);
+ exit(5);
+ }
+ /* limit -b values */
+ if (b_flag < 0 || b_flag > WIDTH) {
+ fprintf(stderr, "%s: -b bcnt: %d must be >= 0 and < %d\n",
+ program, b_flag, WIDTH);
+ exit(6);
+ }
+#if defined(HAVE_64BIT_LONG_LONG)
+ if (b_flag == WIDTH) {
+ bmask = (Fnv64_t)0xffffffffffffffffULL;
+ } else {
+ bmask = (Fnv64_t)((1ULL << b_flag) - 1ULL);
+ }
+#else /* HAVE_64BIT_LONG_LONG */
+ if (b_flag == WIDTH) {
+ bmask.w32[0] = 0xffffffffUL;
+ bmask.w32[1] = 0xffffffffUL;
+ } else if (b_flag >= WIDTH/2) {
+ bmask.w32[0] = 0xffffffffUL;
+ bmask.w32[1] = ((1UL << (b_flag-(WIDTH/2))) - 1UL);
+ } else {
+ bmask.w32[0] = ((1UL << b_flag) - 1UL);
+ bmask.w32[1] = 0UL;
+ }
+#endif /* HAVE_64BIT_LONG_LONG */
+
+ /*
+ * start with the initial basis depending on the hash type
+ */
+ p = strrchr(program, '/');
+ if (p == NULL) {
+ p = program;
+ } else {
+ ++p;
+ }
+ if (strcmp(p, "fnv064") == 0 || strcmp(p, "no64bit_fnv064") == 0) {
+ /* using non-recommended FNV-0 and zero initial basis */
+ hval = FNV0_64_INIT;
+ hash_type = FNV0_64;
+ } else if (strcmp(p, "fnv164") == 0 || strcmp(p, "no64bit_fnv164") == 0) {
+ /* using FNV-1 and non-zero initial basis */
+ hval = FNV1_64_INIT;
+ hash_type = FNV1_64;
+ } else if (strcmp(p, "fnv1a64") == 0 || strcmp(p, "no64bit_fnv1a64") == 0) {
+ /* start with the FNV-1a initial basis */
+ hval = FNV1A_64_INIT;
+ hash_type = FNV1a_64;
+ } else {
+ fprintf(stderr, "%s: unknown program name, unknown hash type\n",
+ program);
+ exit(7);
+ }
+
+ /*
+ * FNV test vector processing, if needed
+ */
+ if (t_flag >= 0) {
+ int code; /* test vector that failed, starting at 1 */
+
+ /*
+ * perform all tests
+ */
+ code = test_fnv64(hash_type, hval, bmask, v_flag, t_flag);
+
+ /*
+ * evaluate the tests
+ */
+ if (code == 0) {
+ if (v_flag) {
+ printf("passed\n");
+ }
+ exit(0);
+ } else {
+ printf("failed vector (1 is 1st test): %d\n", code);
+ exit(8);
+ }
+ }
+
+ /*
+ * string hashing
+ */
+ if (s_flag) {
+
+ /* hash any other strings */
+ for (i=optind; i < argc; ++i) {
+ switch (hash_type) {
+ case FNV0_64:
+ case FNV1_64:
+ hval = fnv_64_str(argv[i], hval);
+ break;
+ case FNV1a_64:
+ hval = fnv_64a_str(argv[i], hval);
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 9); /* exit(9) */
+ /*NOTREACHED*/
+ }
+ if (m_flag) {
+ print_fnv64(hval, bmask, v_flag, argv[i]);
+ }
+ }
+
+
+ /*
+ * file hashing
+ */
+ } else {
+
+ /*
+ * case: process only stdin
+ */
+ if (optind >= argc) {
+
+ /* case: process only stdin */
+ while ((readcnt = read(0, buf, BUF_SIZE)) > 0) {
+ switch (hash_type) {
+ case FNV0_64:
+ case FNV1_64:
+ hval = fnv_64_buf(buf, readcnt, hval);
+ break;
+ case FNV1a_64:
+ hval = fnv_64a_buf(buf, readcnt, hval);
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 10); /* exit(10) */
+ /*NOTREACHED*/
+ }
+ }
+ if (m_flag) {
+ print_fnv64(hval, bmask, v_flag, "(stdin)");
+ }
+
+ } else {
+
+ /*
+ * process any other files
+ */
+ for (i=optind; i < argc; ++i) {
+
+ /* open the file */
+ fd = open(argv[i], O_RDONLY);
+ if (fd < 0) {
+ fprintf(stderr, "%s: unable to open file: %s\n",
+ program, argv[i]);
+ exit(4);
+ }
+
+ /* hash the file */
+ while ((readcnt = read(fd, buf, BUF_SIZE)) > 0) {
+ switch (hash_type) {
+ case FNV0_64:
+ case FNV1_64:
+ hval = fnv_64_buf(buf, readcnt, hval);
+ break;
+ case FNV1a_64:
+ hval = fnv_64a_buf(buf, readcnt, hval);
+ break;
+ default:
+ unknown_hash_type(program, hash_type, 11);/* exit(11) */
+ /*NOTREACHED*/
+ }
+ }
+
+ /* finish processing the file */
+ if (m_flag) {
+ print_fnv64(hval, bmask, v_flag, argv[i]);
+ }
+ close(fd);
+ }
+ }
+ }
+
+ /*
+ * report hash and exit
+ */
+ if (!m_flag) {
+ print_fnv64(hval, bmask, v_flag, "");
+ }
+ return 0; /* exit(0); */
+}
diff --git a/lib/fnv/hash_32.c b/lib/fnv/hash_32.c
new file mode 100644
index 0000000000..077170ff6d
--- /dev/null
+++ b/lib/fnv/hash_32.c
@@ -0,0 +1,156 @@
+/*
+ * hash_32 - 32 bit Fowler/Noll/Vo hash code
+ *
+ * @(#) $Revision: 5.1 $
+ * @(#) $Id: hash_32.c,v 5.1 2009/06/30 09:13:32 chongo Exp $
+ * @(#) $Source: /usr/local/src/cmd/fnv/RCS/hash_32.c,v $
+ *
+ ***
+ *
+ * Fowler/Noll/Vo hash
+ *
+ * The basis of this hash algorithm was taken from an idea sent
+ * as reviewer comments to the IEEE POSIX P1003.2 committee by:
+ *
+ * Phong Vo (http://www.research.att.com/info/kpv/)
+ * Glenn Fowler (http://www.research.att.com/~gsf/)
+ *
+ * In a subsequent ballot round:
+ *
+ * Landon Curt Noll (http://www.isthe.com/chongo/)
+ *
+ * improved on their algorithm. Some people tried this hash
+ * and found that it worked rather well. In an EMail message
+ * to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+ *
+ * FNV hashes are designed to be fast while maintaining a low
+ * collision rate. The FNV speed allows one to quickly hash lots
+ * of data while maintaining a reasonable collision rate. See:
+ *
+ * http://www.isthe.com/chongo/tech/comp/fnv/index.html
+ *
+ * for more details as well as other forms of the FNV hash.
+ ***
+ *
+ * NOTE: The FNV-0 historic hash is not recommended. One should use
+ * the FNV-1 hash instead.
+ *
+ * To use the 32 bit FNV-0 historic hash, pass FNV0_32_INIT as the
+ * Fnv32_t hashval argument to fnv_32_buf() or fnv_32_str().
+ *
+ * To use the recommended 32 bit FNV-1 hash, pass FNV1_32_INIT as the
+ * Fnv32_t hashval argument to fnv_32_buf() or fnv_32_str().
+ *
+ ***
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+#include <stdlib.h>
+#include "fnv.h"
+
+
+/*
+ * 32 bit magic FNV-0 and FNV-1 prime
+ */
+#define FNV_32_PRIME ((Fnv32_t)0x01000193)
+
+
+/*
+ * fnv_32_buf - perform a 32 bit Fowler/Noll/Vo hash on a buffer
+ *
+ * input:
+ * buf - start of buffer to hash
+ * len - length of buffer in octets
+ * hval - previous hash value or 0 if first call
+ *
+ * returns:
+ * 32 bit hash as a static hash type
+ *
+ * NOTE: To use the 32 bit FNV-0 historic hash, use FNV0_32_INIT as the hval
+ * argument on the first call to either fnv_32_buf() or fnv_32_str().
+ *
+ * NOTE: To use the recommended 32 bit FNV-1 hash, use FNV1_32_INIT as the hval
+ * argument on the first call to either fnv_32_buf() or fnv_32_str().
+ */
+Fnv32_t
+fnv_32_buf(void *buf, size_t len, Fnv32_t hval)
+{
+ unsigned char *bp = (unsigned char *)buf; /* start of buffer */
+ unsigned char *be = bp + len; /* beyond end of buffer */
+
+ /*
+ * FNV-1 hash each octet in the buffer
+ */
+ while (bp < be) {
+
+ /* multiply by the 32 bit FNV magic prime mod 2^32 */
+#if defined(NO_FNV_GCC_OPTIMIZATION)
+ hval *= FNV_32_PRIME;
+#else
+ hval += (hval<<1) + (hval<<4) + (hval<<7) + (hval<<8) + (hval<<24);
+#endif
+
+ /* xor the bottom with the current octet */
+ hval ^= (Fnv32_t)*bp++;
+ }
+
+ /* return our new hash value */
+ return hval;
+}
+
+
+/*
+ * fnv_32_str - perform a 32 bit Fowler/Noll/Vo hash on a string
+ *
+ * input:
+ * str - string to hash
+ * hval - previous hash value or 0 if first call
+ *
+ * returns:
+ * 32 bit hash as a static hash type
+ *
+ * NOTE: To use the 32 bit FNV-0 historic hash, use FNV0_32_INIT as the hval
+ * argument on the first call to either fnv_32_buf() or fnv_32_str().
+ *
+ * NOTE: To use the recommended 32 bit FNV-1 hash, use FNV1_32_INIT as the hval
+ * argument on the first call to either fnv_32_buf() or fnv_32_str().
+ */
+Fnv32_t
+fnv_32_str(char *str, Fnv32_t hval)
+{
+ unsigned char *s = (unsigned char *)str; /* unsigned string */
+
+ /*
+ * FNV-1 hash each octet in the buffer
+ */
+ while (*s) {
+
+ /* multiply by the 32 bit FNV magic prime mod 2^32 */
+#if defined(NO_FNV_GCC_OPTIMIZATION)
+ hval *= FNV_32_PRIME;
+#else
+ hval += (hval<<1) + (hval<<4) + (hval<<7) + (hval<<8) + (hval<<24);
+#endif
+
+ /* xor the bottom with the current octet */
+ hval ^= (Fnv32_t)*s++;
+ }
+
+ /* return our new hash value */
+ return hval;
+}
diff --git a/lib/fnv/hash_32a.c b/lib/fnv/hash_32a.c
new file mode 100644
index 0000000000..8b10acf3e2
--- /dev/null
+++ b/lib/fnv/hash_32a.c
@@ -0,0 +1,144 @@
+/*
+ * hash_32 - 32 bit Fowler/Noll/Vo FNV-1a hash code
+ *
+ * @(#) $Revision: 5.1 $
+ * @(#) $Id: hash_32a.c,v 5.1 2009/06/30 09:13:32 chongo Exp $
+ * @(#) $Source: /usr/local/src/cmd/fnv/RCS/hash_32a.c,v $
+ *
+ ***
+ *
+ * Fowler/Noll/Vo hash
+ *
+ * The basis of this hash algorithm was taken from an idea sent
+ * as reviewer comments to the IEEE POSIX P1003.2 committee by:
+ *
+ * Phong Vo (http://www.research.att.com/info/kpv/)
+ * Glenn Fowler (http://www.research.att.com/~gsf/)
+ *
+ * In a subsequent ballot round:
+ *
+ * Landon Curt Noll (http://www.isthe.com/chongo/)
+ *
+ * improved on their algorithm. Some people tried this hash
+ * and found that it worked rather well. In an EMail message
+ * to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+ *
+ * FNV hashes are designed to be fast while maintaining a low
+ * collision rate. The FNV speed allows one to quickly hash lots
+ * of data while maintaining a reasonable collision rate. See:
+ *
+ * http://www.isthe.com/chongo/tech/comp/fnv/index.html
+ *
+ * for more details as well as other forms of the FNV hash.
+ ***
+ *
+ * To use the recommended 32 bit FNV-1a hash, pass FNV1_32A_INIT as the
+ * Fnv32_t hashval argument to fnv_32a_buf() or fnv_32a_str().
+ *
+ ***
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+#include <stdlib.h>
+#include "fnv.h"
+
+
+/*
+ * 32 bit magic FNV-1a prime
+ */
+#define FNV_32_PRIME ((Fnv32_t)0x01000193)
+
+
+/*
+ * fnv_32a_buf - perform a 32 bit Fowler/Noll/Vo FNV-1a hash on a buffer
+ *
+ * input:
+ * buf - start of buffer to hash
+ * len - length of buffer in octets
+ * hval - previous hash value or 0 if first call
+ *
+ * returns:
+ * 32 bit hash as a static hash type
+ *
+ * NOTE: To use the recommended 32 bit FNV-1a hash, use FNV1_32A_INIT as the
+ * hval arg on the first call to either fnv_32a_buf() or fnv_32a_str().
+ */
+Fnv32_t
+fnv_32a_buf(void *buf, size_t len, Fnv32_t hval)
+{
+ unsigned char *bp = (unsigned char *)buf; /* start of buffer */
+ unsigned char *be = bp + len; /* beyond end of buffer */
+
+ /*
+ * FNV-1a hash each octet in the buffer
+ */
+ while (bp < be) {
+
+ /* xor the bottom with the current octet */
+ hval ^= (Fnv32_t)*bp++;
+
+ /* multiply by the 32 bit FNV magic prime mod 2^32 */
+#if defined(NO_FNV_GCC_OPTIMIZATION)
+ hval *= FNV_32_PRIME;
+#else
+ hval += (hval<<1) + (hval<<4) + (hval<<7) + (hval<<8) + (hval<<24);
+#endif
+ }
+
+ /* return our new hash value */
+ return hval;
+}
+
+
+/*
+ * fnv_32a_str - perform a 32 bit Fowler/Noll/Vo FNV-1a hash on a string
+ *
+ * input:
+ * str - string to hash
+ * hval - previous hash value or 0 if first call
+ *
+ * returns:
+ * 32 bit hash as a static hash type
+ *
+ * NOTE: To use the recommended 32 bit FNV-1a hash, use FNV1_32A_INIT as the
+ * hval arg on the first call to either fnv_32a_buf() or fnv_32a_str().
+ */
+Fnv32_t
+fnv_32a_str(char *str, Fnv32_t hval)
+{
+ unsigned char *s = (unsigned char *)str; /* unsigned string */
+
+ /*
+ * FNV-1a hash each octet in the buffer
+ */
+ while (*s) {
+
+ /* xor the bottom with the current octet */
+ hval ^= (Fnv32_t)*s++;
+
+ /* multiply by the 32 bit FNV magic prime mod 2^32 */
+#if defined(NO_FNV_GCC_OPTIMIZATION)
+ hval *= FNV_32_PRIME;
+#else
+ hval += (hval<<1) + (hval<<4) + (hval<<7) + (hval<<8) + (hval<<24);
+#endif
+ }
+
+ /* return our new hash value */
+ return hval;
+}
diff --git a/lib/fnv/hash_64.c b/lib/fnv/hash_64.c
new file mode 100644
index 0000000000..4338605dca
--- /dev/null
+++ b/lib/fnv/hash_64.c
@@ -0,0 +1,312 @@
+/*
+ * hash_64 - 64 bit Fowler/Noll/Vo-0 hash code
+ *
+ * @(#) $Revision: 5.1 $
+ * @(#) $Id: hash_64.c,v 5.1 2009/06/30 09:01:38 chongo Exp $
+ * @(#) $Source: /usr/local/src/cmd/fnv/RCS/hash_64.c,v $
+ *
+ ***
+ *
+ * Fowler/Noll/Vo hash
+ *
+ * The basis of this hash algorithm was taken from an idea sent
+ * as reviewer comments to the IEEE POSIX P1003.2 committee by:
+ *
+ * Phong Vo (http://www.research.att.com/info/kpv/)
+ * Glenn Fowler (http://www.research.att.com/~gsf/)
+ *
+ * In a subsequent ballot round:
+ *
+ * Landon Curt Noll (http://www.isthe.com/chongo/)
+ *
+ * improved on their algorithm. Some people tried this hash
+ * and found that it worked rather well. In an EMail message
+ * to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+ *
+ * FNV hashes are designed to be fast while maintaining a low
+ * collision rate. The FNV speed allows one to quickly hash lots
+ * of data while maintaining a reasonable collision rate. See:
+ *
+ * http://www.isthe.com/chongo/tech/comp/fnv/index.html
+ *
+ * for more details as well as other forms of the FNV hash.
+ *
+ ***
+ *
+ * NOTE: The FNV-0 historic hash is not recommended. One should use
+ * the FNV-1 hash instead.
+ *
+ * To use the 64 bit FNV-0 historic hash, pass FNV0_64_INIT as the
+ * Fnv64_t hashval argument to fnv_64_buf() or fnv_64_str().
+ *
+ * To use the recommended 64 bit FNV-1 hash, pass FNV1_64_INIT as the
+ * Fnv64_t hashval argument to fnv_64_buf() or fnv_64_str().
+ *
+ ***
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+#include <stdlib.h>
+#include "fnv.h"
+
+
+/*
+ * FNV-0 defines the initial basis to be zero
+ */
+#if !defined(HAVE_64BIT_LONG_LONG)
+const Fnv64_t fnv0_64_init = { 0UL, 0UL };
+#endif /* ! HAVE_64BIT_LONG_LONG */
+
+
+/*
+ * FNV-1 defines the initial basis to be non-zero
+ */
+#if !defined(HAVE_64BIT_LONG_LONG)
+const Fnv64_t fnv1_64_init = { 0x84222325UL, 0xcbf29ce4UL };
+#endif /* ! HAVE_64BIT_LONG_LONG */
+
+
+/*
+ * 64 bit magic FNV-0 and FNV-1 prime
+ */
+#if defined(HAVE_64BIT_LONG_LONG)
+#define FNV_64_PRIME ((Fnv64_t)0x100000001b3ULL)
+#else /* HAVE_64BIT_LONG_LONG */
+#define FNV_64_PRIME_LOW ((unsigned long)0x1b3) /* lower bits of FNV prime */
+#define FNV_64_PRIME_SHIFT (8) /* top FNV prime shift above 2^32 */
+#endif /* HAVE_64BIT_LONG_LONG */
+
+
+/*
+ * fnv_64_buf - perform a 64 bit Fowler/Noll/Vo hash on a buffer
+ *
+ * input:
+ * buf - start of buffer to hash
+ * len - length of buffer in octets
+ * hval - previous hash value or 0 if first call
+ *
+ * returns:
+ * 64 bit hash as a static hash type
+ *
+ * NOTE: To use the 64 bit FNV-0 historic hash, use FNV0_64_INIT as the hval
+ * argument on the first call to either fnv_64_buf() or fnv_64_str().
+ *
+ * NOTE: To use the recommended 64 bit FNV-1 hash, use FNV1_64_INIT as the hval
+ * argument on the first call to either fnv_64_buf() or fnv_64_str().
+ */
+Fnv64_t
+fnv_64_buf(void *buf, size_t len, Fnv64_t hval)
+{
+ unsigned char *bp = (unsigned char *)buf; /* start of buffer */
+ unsigned char *be = bp + len; /* beyond end of buffer */
+
+#if defined(HAVE_64BIT_LONG_LONG)
+
+ /*
+ * FNV-1 hash each octet of the buffer
+ */
+ while (bp < be) {
+
+ /* multiply by the 64 bit FNV magic prime mod 2^64 */
+#if defined(NO_FNV_GCC_OPTIMIZATION)
+ hval *= FNV_64_PRIME;
+#else /* NO_FNV_GCC_OPTIMIZATION */
+ hval += (hval << 1) + (hval << 4) + (hval << 5) +
+ (hval << 7) + (hval << 8) + (hval << 40);
+#endif /* NO_FNV_GCC_OPTIMIZATION */
+
+ /* xor the bottom with the current octet */
+ hval ^= (Fnv64_t)*bp++;
+ }
+
+#else /* HAVE_64BIT_LONG_LONG */
+
+ unsigned long val[4]; /* hash value in base 2^16 */
+ unsigned long tmp[4]; /* tmp 64 bit value */
+
+ /*
+ * Convert Fnv64_t hval into a base 2^16 array
+ */
+ val[0] = hval.w32[0];
+ val[1] = (val[0] >> 16);
+ val[0] &= 0xffff;
+ val[2] = hval.w32[1];
+ val[3] = (val[2] >> 16);
+ val[2] &= 0xffff;
+
+ /*
+ * FNV-1 hash each octet of the buffer
+ */
+ while (bp < be) {
+
+ /*
+ * multiply by the 64 bit FNV magic prime mod 2^64
+ *
+ * Using 0x100000001b3 we have the following digits base 2^16:
+ *
+ * 0x0 0x100 0x0 0x1b3
+ *
+ * which is the same as:
+ *
+ * 0x0 1<<FNV_64_PRIME_SHIFT 0x0 FNV_64_PRIME_LOW
+ */
+ /* multiply by the lowest order digit base 2^16 */
+ tmp[0] = val[0] * FNV_64_PRIME_LOW;
+ tmp[1] = val[1] * FNV_64_PRIME_LOW;
+ tmp[2] = val[2] * FNV_64_PRIME_LOW;
+ tmp[3] = val[3] * FNV_64_PRIME_LOW;
+ /* multiply by the other non-zero digit */
+ tmp[2] += val[0] << FNV_64_PRIME_SHIFT; /* tmp[2] += val[0] * 0x100 */
+ tmp[3] += val[1] << FNV_64_PRIME_SHIFT; /* tmp[3] += val[1] * 0x100 */
+ /* propagate carries */
+ tmp[1] += (tmp[0] >> 16);
+ val[0] = tmp[0] & 0xffff;
+ tmp[2] += (tmp[1] >> 16);
+ val[1] = tmp[1] & 0xffff;
+ val[3] = tmp[3] + (tmp[2] >> 16);
+ val[2] = tmp[2] & 0xffff;
+ /*
+ * Doing a val[3] &= 0xffff; is not really needed since it simply
+ * removes multiples of 2^64. We can discard these excess bits
+ * outside of the loop when we convert to Fnv64_t.
+ */
+
+ /* xor the bottom with the current octet */
+ val[0] ^= (unsigned long)*bp++;
+ }
+
+ /*
+ * Convert base 2^16 array back into an Fnv64_t
+ */
+ hval.w32[1] = ((val[3]<<16) | val[2]);
+ hval.w32[0] = ((val[1]<<16) | val[0]);
+
+#endif /* HAVE_64BIT_LONG_LONG */
+
+ /* return our new hash value */
+ return hval;
+}
+
+
+/*
+ * fnv_64_str - perform a 64 bit Fowler/Noll/Vo hash on a buffer
+ *
+ * input:
+ * buf - start of buffer to hash
+ * hval - previous hash value or 0 if first call
+ *
+ * returns:
+ * 64 bit hash as a static hash type
+ *
+ * NOTE: To use the 64 bit FNV-0 historic hash, use FNV0_64_INIT as the hval
+ * argument on the first call to either fnv_64_buf() or fnv_64_str().
+ *
+ * NOTE: To use the recommended 64 bit FNV-1 hash, use FNV1_64_INIT as the hval
+ * argument on the first call to either fnv_64_buf() or fnv_64_str().
+ */
+Fnv64_t
+fnv_64_str(char *str, Fnv64_t hval)
+{
+ unsigned char *s = (unsigned char *)str; /* unsigned string */
+
+#if defined(HAVE_64BIT_LONG_LONG)
+
+ /*
+ * FNV-1 hash each octet of the string
+ */
+ while (*s) {
+
+ /* multiply by the 64 bit FNV magic prime mod 2^64 */
+#if defined(NO_FNV_GCC_OPTIMIZATION)
+ hval *= FNV_64_PRIME;
+#else /* NO_FNV_GCC_OPTIMIZATION */
+ hval += (hval << 1) + (hval << 4) + (hval << 5) +
+ (hval << 7) + (hval << 8) + (hval << 40);
+#endif /* NO_FNV_GCC_OPTIMIZATION */
+
+ /* xor the bottom with the current octet */
+ hval ^= (Fnv64_t)*s++;
+ }
+
+#else /* !HAVE_64BIT_LONG_LONG */
+
+ unsigned long val[4]; /* hash value in base 2^16 */
+ unsigned long tmp[4]; /* tmp 64 bit value */
+
+ /*
+ * Convert Fnv64_t hval into a base 2^16 array
+ */
+ val[0] = hval.w32[0];
+ val[1] = (val[0] >> 16);
+ val[0] &= 0xffff;
+ val[2] = hval.w32[1];
+ val[3] = (val[2] >> 16);
+ val[2] &= 0xffff;
+
+ /*
+ * FNV-1 hash each octet of the string
+ */
+ while (*s) {
+
+ /*
+ * multiply by the 64 bit FNV magic prime mod 2^64
+ *
+ * Using 1099511628211, we have the following digits base 2^16:
+ *
+ * 0x0 0x100 0x0 0x1b3
+ *
+ * which is the same as:
+ *
+ * 0x0 1<<FNV_64_PRIME_SHIFT 0x0 FNV_64_PRIME_LOW
+ */
+ /* multiply by the lowest order digit base 2^16 */
+ tmp[0] = val[0] * FNV_64_PRIME_LOW;
+ tmp[1] = val[1] * FNV_64_PRIME_LOW;
+ tmp[2] = val[2] * FNV_64_PRIME_LOW;
+ tmp[3] = val[3] * FNV_64_PRIME_LOW;
+ /* multiply by the other non-zero digit */
+ tmp[2] += val[0] << FNV_64_PRIME_SHIFT; /* tmp[2] += val[0] * 0x100 */
+ tmp[3] += val[1] << FNV_64_PRIME_SHIFT; /* tmp[3] += val[1] * 0x100 */
+ /* propagate carries */
+ tmp[1] += (tmp[0] >> 16);
+ val[0] = tmp[0] & 0xffff;
+ tmp[2] += (tmp[1] >> 16);
+ val[1] = tmp[1] & 0xffff;
+ val[3] = tmp[3] + (tmp[2] >> 16);
+ val[2] = tmp[2] & 0xffff;
+ /*
+ * Doing a val[3] &= 0xffff; is not really needed since it simply
+ * removes multiples of 2^64. We can discard these excess bits
+ * outside of the loop when we convert to Fnv64_t.
+ */
+
+ /* xor the bottom with the current octet */
+ val[0] ^= (unsigned long)(*s++);
+ }
+
+ /*
+ * Convert base 2^16 array back into an Fnv64_t
+ */
+ hval.w32[1] = ((val[3]<<16) | val[2]);
+ hval.w32[0] = ((val[1]<<16) | val[0]);
+
+#endif /* !HAVE_64BIT_LONG_LONG */
+
+ /* return our new hash value */
+ return hval;
+}
diff --git a/lib/fnv/hash_64a.c b/lib/fnv/hash_64a.c
new file mode 100644
index 0000000000..6660f92ddf
--- /dev/null
+++ b/lib/fnv/hash_64a.c
@@ -0,0 +1,291 @@
+/*
+ * hash_64 - 64 bit Fowler/Noll/Vo-0 FNV-1a hash code
+ *
+ * @(#) $Revision: 5.1 $
+ * @(#) $Id: hash_64a.c,v 5.1 2009/06/30 09:01:38 chongo Exp $
+ * @(#) $Source: /usr/local/src/cmd/fnv/RCS/hash_64a.c,v $
+ *
+ ***
+ *
+ * Fowler/Noll/Vo hash
+ *
+ * The basis of this hash algorithm was taken from an idea sent
+ * as reviewer comments to the IEEE POSIX P1003.2 committee by:
+ *
+ * Phong Vo (http://www.research.att.com/info/kpv/)
+ * Glenn Fowler (http://www.research.att.com/~gsf/)
+ *
+ * In a subsequent ballot round:
+ *
+ * Landon Curt Noll (http://www.isthe.com/chongo/)
+ *
+ * improved on their algorithm. Some people tried this hash
+ * and found that it worked rather well. In an EMail message
+ * to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+ *
+ * FNV hashes are designed to be fast while maintaining a low
+ * collision rate. The FNV speed allows one to quickly hash lots
+ * of data while maintaining a reasonable collision rate. See:
+ *
+ * http://www.isthe.com/chongo/tech/comp/fnv/index.html
+ *
+ * for more details as well as other forms of the FNV hash.
+ *
+ ***
+ *
+ * To use the recommended 64 bit FNV-1a hash, pass FNV1A_64_INIT as the
+ * Fnv64_t hashval argument to fnv_64a_buf() or fnv_64a_str().
+ *
+ ***
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+#include <stdlib.h>
+#include "fnv.h"
+
+
+/*
+ * FNV-1a defines the initial basis to be non-zero
+ */
+#if !defined(HAVE_64BIT_LONG_LONG)
+const Fnv64_t fnv1a_64_init = { 0x84222325, 0xcbf29ce4 };
+#endif /* ! HAVE_64BIT_LONG_LONG */
+
+
+/*
+ * 64 bit magic FNV-1a prime
+ */
+#if defined(HAVE_64BIT_LONG_LONG)
+#define FNV_64_PRIME ((Fnv64_t)0x100000001b3ULL)
+#else /* HAVE_64BIT_LONG_LONG */
+#define FNV_64_PRIME_LOW ((unsigned long)0x1b3) /* lower bits of FNV prime */
+#define FNV_64_PRIME_SHIFT (8) /* top FNV prime shift above 2^32 */
+#endif /* HAVE_64BIT_LONG_LONG */
+
+
+/*
+ * fnv_64a_buf - perform a 64 bit Fowler/Noll/Vo FNV-1a hash on a buffer
+ *
+ * input:
+ * buf - start of buffer to hash
+ * len - length of buffer in octets
+ * hval - previous hash value or 0 if first call
+ *
+ * returns:
+ * 64 bit hash as a static hash type
+ *
+ * NOTE: To use the recommended 64 bit FNV-1a hash, use FNV1A_64_INIT as the
+ * hval arg on the first call to either fnv_64a_buf() or fnv_64a_str().
+ */
+Fnv64_t
+fnv_64a_buf(void *buf, size_t len, Fnv64_t hval)
+{
+ unsigned char *bp = (unsigned char *)buf; /* start of buffer */
+ unsigned char *be = bp + len; /* beyond end of buffer */
+
+#if defined(HAVE_64BIT_LONG_LONG)
+ /*
+ * FNV-1a hash each octet of the buffer
+ */
+ while (bp < be) {
+
+ /* xor the bottom with the current octet */
+ hval ^= (Fnv64_t)*bp++;
+
+ /* multiply by the 64 bit FNV magic prime mod 2^64 */
+#if defined(NO_FNV_GCC_OPTIMIZATION)
+ hval *= FNV_64_PRIME;
+#else /* NO_FNV_GCC_OPTIMIZATION */
+ hval += (hval << 1) + (hval << 4) + (hval << 5) +
+ (hval << 7) + (hval << 8) + (hval << 40);
+#endif /* NO_FNV_GCC_OPTIMIZATION */
+ }
+
+#else /* HAVE_64BIT_LONG_LONG */
+
+ unsigned long val[4]; /* hash value in base 2^16 */
+ unsigned long tmp[4]; /* tmp 64 bit value */
+
+ /*
+ * Convert Fnv64_t hval into a base 2^16 array
+ */
+ val[0] = hval.w32[0];
+ val[1] = (val[0] >> 16);
+ val[0] &= 0xffff;
+ val[2] = hval.w32[1];
+ val[3] = (val[2] >> 16);
+ val[2] &= 0xffff;
+
+ /*
+ * FNV-1a hash each octet of the buffer
+ */
+ while (bp < be) {
+
+ /* xor the bottom with the current octet */
+ val[0] ^= (unsigned long)*bp++;
+
+ /*
+ * multiply by the 64 bit FNV magic prime mod 2^64
+ *
+ * Using 0x100000001b3 we have the following digits base 2^16:
+ *
+ * 0x0 0x100 0x0 0x1b3
+ *
+ * which is the same as:
+ *
+ * 0x0 1<<FNV_64_PRIME_SHIFT 0x0 FNV_64_PRIME_LOW
+ */
+ /* multiply by the lowest order digit base 2^16 */
+ tmp[0] = val[0] * FNV_64_PRIME_LOW;
+ tmp[1] = val[1] * FNV_64_PRIME_LOW;
+ tmp[2] = val[2] * FNV_64_PRIME_LOW;
+ tmp[3] = val[3] * FNV_64_PRIME_LOW;
+ /* multiply by the other non-zero digit */
+ tmp[2] += val[0] << FNV_64_PRIME_SHIFT; /* tmp[2] += val[0] * 0x100 */
+ tmp[3] += val[1] << FNV_64_PRIME_SHIFT; /* tmp[3] += val[1] * 0x100 */
+ /* propagate carries */
+ tmp[1] += (tmp[0] >> 16);
+ val[0] = tmp[0] & 0xffff;
+ tmp[2] += (tmp[1] >> 16);
+ val[1] = tmp[1] & 0xffff;
+ val[3] = tmp[3] + (tmp[2] >> 16);
+ val[2] = tmp[2] & 0xffff;
+ /*
+ * Doing a val[3] &= 0xffff; is not really needed since it simply
+ * removes multiples of 2^64. We can discard these excess bits
+ * outside of the loop when we convert to Fnv64_t.
+ */
+ }
+
+ /*
+ * Convert base 2^16 array back into an Fnv64_t
+ */
+ hval.w32[1] = ((val[3]<<16) | val[2]);
+ hval.w32[0] = ((val[1]<<16) | val[0]);
+
+#endif /* HAVE_64BIT_LONG_LONG */
+
+ /* return our new hash value */
+ return hval;
+}
+
+
+/*
+ * fnv_64a_str - perform a 64 bit Fowler/Noll/Vo FNV-1a hash on a buffer
+ *
+ * input:
+ * buf - start of buffer to hash
+ * hval - previous hash value or 0 if first call
+ *
+ * returns:
+ * 64 bit hash as a static hash type
+ *
+ * NOTE: To use the recommended 64 bit FNV-1a hash, use FNV1A_64_INIT as the
+ * hval arg on the first call to either fnv_64a_buf() or fnv_64a_str().
+ */
+Fnv64_t
+fnv_64a_str(char *str, Fnv64_t hval)
+{
+ unsigned char *s = (unsigned char *)str; /* unsigned string */
+
+#if defined(HAVE_64BIT_LONG_LONG)
+
+ /*
+ * FNV-1a hash each octet of the string
+ */
+ while (*s) {
+
+ /* xor the bottom with the current octet */
+ hval ^= (Fnv64_t)*s++;
+
+ /* multiply by the 64 bit FNV magic prime mod 2^64 */
+#if defined(NO_FNV_GCC_OPTIMIZATION)
+ hval *= FNV_64_PRIME;
+#else /* NO_FNV_GCC_OPTIMIZATION */
+ hval += (hval << 1) + (hval << 4) + (hval << 5) +
+ (hval << 7) + (hval << 8) + (hval << 40);
+#endif /* NO_FNV_GCC_OPTIMIZATION */
+ }
+
+#else /* !HAVE_64BIT_LONG_LONG */
+
+ unsigned long val[4]; /* hash value in base 2^16 */
+ unsigned long tmp[4]; /* tmp 64 bit value */
+
+ /*
+ * Convert Fnv64_t hval into a base 2^16 array
+ */
+ val[0] = hval.w32[0];
+ val[1] = (val[0] >> 16);
+ val[0] &= 0xffff;
+ val[2] = hval.w32[1];
+ val[3] = (val[2] >> 16);
+ val[2] &= 0xffff;
+
+ /*
+ * FNV-1a hash each octet of the string
+ */
+ while (*s) {
+
+ /* xor the bottom with the current octet */
+
+ /*
+ * multiply by the 64 bit FNV magic prime mod 2^64
+ *
+ * Using 1099511628211, we have the following digits base 2^16:
+ *
+ * 0x0 0x100 0x0 0x1b3
+ *
+ * which is the same as:
+ *
+ * 0x0 1<<FNV_64_PRIME_SHIFT 0x0 FNV_64_PRIME_LOW
+ */
+ /* multiply by the lowest order digit base 2^16 */
+ tmp[0] = val[0] * FNV_64_PRIME_LOW;
+ tmp[1] = val[1] * FNV_64_PRIME_LOW;
+ tmp[2] = val[2] * FNV_64_PRIME_LOW;
+ tmp[3] = val[3] * FNV_64_PRIME_LOW;
+ /* multiply by the other non-zero digit */
+ tmp[2] += val[0] << FNV_64_PRIME_SHIFT; /* tmp[2] += val[0] * 0x100 */
+ tmp[3] += val[1] << FNV_64_PRIME_SHIFT; /* tmp[3] += val[1] * 0x100 */
+ /* propagate carries */
+ tmp[1] += (tmp[0] >> 16);
+ val[0] = tmp[0] & 0xffff;
+ tmp[2] += (tmp[1] >> 16);
+ val[1] = tmp[1] & 0xffff;
+ val[3] = tmp[3] + (tmp[2] >> 16);
+ val[2] = tmp[2] & 0xffff;
+ /*
+ * Doing a val[3] &= 0xffff; is not really needed since it simply
+ * removes multiples of 2^64. We can discard these excess bits
+ * outside of the loop when we convert to Fnv64_t.
+ */
+ val[0] ^= (unsigned long)(*s++);
+ }
+
+ /*
+ * Convert base 2^16 array back into an Fnv64_t
+ */
+ hval.w32[1] = ((val[3]<<16) | val[2]);
+ hval.w32[0] = ((val[1]<<16) | val[0]);
+
+#endif /* !HAVE_64BIT_LONG_LONG */
+
+ /* return our new hash value */
+ return hval;
+}
diff --git a/lib/fnv/have_ulong64.c b/lib/fnv/have_ulong64.c
new file mode 100644
index 0000000000..5c06262388
--- /dev/null
+++ b/lib/fnv/have_ulong64.c
@@ -0,0 +1,58 @@
+/*
+ * have_ulong64 - Determine if we have a 64 bit unsigned long long
+ *
+ * usage:
+ * have_ulong64 > longlong.h
+ *
+ * Not all systems have a 'long long type' so this may not compile on
+ * your system.
+ *
+ * This prog outputs the define:
+ *
+ * HAVE_64BIT_LONG_LONG
+ * defined ==> we have a 64 bit unsigned long long
+ * undefined ==> we must simulate a 64 bit unsigned long long
+ */
+/*
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+/*
+ * have the compiler try its hand with unsigned and signed long longs
+ */
+#if ! defined(NO64BIT_LONG_LONG)
+unsigned long long val = 1099511628211ULL;
+#endif /* NO64BIT_LONG_LONG */
+
+int
+main(void)
+{
+ /*
+ * ensure that the length of long long val is what we expect
+ */
+#if defined(NO64BIT_LONG_LONG)
+ printf("#undef HAVE_64BIT_LONG_LONG\t/* no */\n");
+#else /* NO64BIT_LONG_LONG */
+ if (val == 1099511628211ULL && sizeof(val) == 8) {
+ printf("#define HAVE_64BIT_LONG_LONG\t/* yes */\n");
+ }
+#endif /* NO64BIT_LONG_LONG */
+
+ /* exit(0); */
+ return 0;
+}
diff --git a/lib/fnv/longlong.h b/lib/fnv/longlong.h
new file mode 100644
index 0000000000..c8cfe48f29
--- /dev/null
+++ b/lib/fnv/longlong.h
@@ -0,0 +1,18 @@
+/*
+ * DO NOT EDIT -- generated by the Makefile
+ */
+
+#if !defined(__LONGLONG_H__)
+#define __LONGLONG_H__
+
+/* do we have/want to use a long long type? */
+#define HAVE_64BIT_LONG_LONG /* yes */
+
+/*
+ * NO64BIT_LONG_LONG undef HAVE_64BIT_LONG_LONG
+ */
+#if defined(NO64BIT_LONG_LONG)
+#undef HAVE_64BIT_LONG_LONG
+#endif /* NO64BIT_LONG_LONG */
+
+#endif /* !__LONGLONG_H__ */
diff --git a/lib/fnv/qmk_fnv_type_validation.c b/lib/fnv/qmk_fnv_type_validation.c
new file mode 100644
index 0000000000..e8576617ba
--- /dev/null
+++ b/lib/fnv/qmk_fnv_type_validation.c
@@ -0,0 +1,14 @@
+// Copyright 2022 Nick Brassel (@tzarc)
+// SPDX-License-Identifier: GPL-2.0-or-later
+#include "fnv.h"
+
+// This library was originally sourced from:
+// http://www.isthe.com/chongo/tech/comp/fnv/index.html
+//
+// Version at the time of retrieval on 2022-06-26: v5.0.3
+
+_Static_assert(sizeof(long long) == 8, "long long should be 64 bits");
+_Static_assert(sizeof(unsigned long long) == 8, "unsigned long long should be 64 bits");
+
+_Static_assert(sizeof(Fnv32_t) == 4, "Fnv32_t should be 32 bits");
+_Static_assert(sizeof(Fnv64_t) == 8, "Fnv64_t should be 64 bits");
diff --git a/lib/fnv/test_fnv.c b/lib/fnv/test_fnv.c
new file mode 100644
index 0000000000..efec3dec1d
--- /dev/null
+++ b/lib/fnv/test_fnv.c
@@ -0,0 +1,2237 @@
+/*
+ * test_fnv - FNV test suite
+ *
+ * @(#) $Revision: 5.3 $
+ * @(#) $Id: test_fnv.c,v 5.3 2009/06/30 11:50:41 chongo Exp $
+ * @(#) $Source: /usr/local/src/cmd/fnv/RCS/test_fnv.c,v $
+ *
+ ***
+ *
+ * Fowler/Noll/Vo hash
+ *
+ * The basis of this hash algorithm was taken from an idea sent
+ * as reviewer comments to the IEEE POSIX P1003.2 committee by:
+ *
+ * Phong Vo (http://www.research.att.com/info/kpv/)
+ * Glenn Fowler (http://www.research.att.com/~gsf/)
+ *
+ * In a subsequent ballot round:
+ *
+ * Landon Curt Noll (http://www.isthe.com/chongo/)
+ *
+ * improved on their algorithm. Some people tried this hash
+ * and found that it worked rather well. In an EMail message
+ * to Landon, they named it the ``Fowler/Noll/Vo'' or FNV hash.
+ *
+ * FNV hashes are designed to be fast while maintaining a low
+ * collision rate. The FNV speed allows one to quickly hash lots
+ * of data while maintaining a reasonable collision rate. See:
+ *
+ * http://www.isthe.com/chongo/tech/comp/fnv/index.html
+ *
+ * for more details as well as other forms of the FNV hash.
+ *
+ ***
+ *
+ * Please do not copyright this code. This code is in the public domain.
+ *
+ * LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+ * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
+ * EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
+ * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
+ * USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
+ * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
+ * PERFORMANCE OF THIS SOFTWARE.
+ *
+ * By:
+ * chongo <Landon Curt Noll> /\oo/\
+ * http://www.isthe.com/chongo/
+ *
+ * Share and Enjoy! :-)
+ */
+
+#include <stdio.h>
+#include "longlong.h"
+#include "fnv.h"
+
+#define LEN(x) (sizeof(x)-1)
+/* TEST macro does not include trailing NUL byte in the test vector */
+#define TEST(x) {x, LEN(x)}
+/* TEST0 macro includes the trailing NUL byte in the test vector */
+#define TEST0(x) {x, sizeof(x)}
+/* REPEAT500 - repeat a string 500 times */
+#define R500(x) R100(x)R100(x)R100(x)R100(x)R100(x)
+#define R100(x) R10(x)R10(x)R10(x)R10(x)R10(x)R10(x)R10(x)R10(x)R10(x)R10(x)
+#define R10(x) x x x x x x x x x x
+
+/*
+ * FNV test vectors
+ *
+ * NOTE: A NULL pointer marks beyond the end of the test vectors.
+ *
+ * NOTE: The order of the fnv_test_str[] test vectors is 1-to-1 with:
+ *
+ * struct fnv0_32_test_vector fnv0_32_vector[];
+ * struct fnv1_32_test_vector fnv1_32_vector[];
+ * struct fnv1a_32_test_vector fnv1a_32_vector[];
+ * struct fnv0_64_test_vector fnv0_64_vector[];
+ * struct fnv1_64_test_vector fnv1_64_vector[];
+ * struct fnv1a_64_test_vector fnv1a_64_vector[];
+ *
+ * IMPORTANT NOTE:
+ *
+ * If you change the fnv_test_str[] array, you need
+ * to also change ALL of the above fnv*_vector arrays!!!
+ *
+ * To rebuild, try:
+ *
+ * make vector.c
+ *
+ * and then fold the results into the source file.
+ * Of course, you better make sure that the vaules
+ * produced by the above command are valid, otherwise
+ * you will be testing against invalid vectors!
+ */
+struct test_vector fnv_test_str[] = {
+ TEST(""),
+ TEST("a"),
+ TEST("b"),
+ TEST("c"),
+ TEST("d"),
+ TEST("e"),
+ TEST("f"),
+ TEST("fo"),
+ TEST("foo"),
+ TEST("foob"),
+ TEST("fooba"),
+ TEST("foobar"),
+ TEST0(""),
+ TEST0("a"),
+ TEST0("b"),
+ TEST0("c"),
+ TEST0("d"),
+ TEST0("e"),
+ TEST0("f"),
+ TEST0("fo"),
+ TEST0("foo"),
+ TEST0("foob"),
+ TEST0("fooba"),
+ TEST0("foobar"),
+ TEST("ch"),
+ TEST("cho"),
+ TEST("chon"),
+ TEST("chong"),
+ TEST("chongo"),
+ TEST("chongo "),
+ TEST("chongo w"),
+ TEST("chongo wa"),
+ TEST("chongo was"),
+ TEST("chongo was "),
+ TEST("chongo was h"),
+ TEST("chongo was he"),
+ TEST("chongo was her"),
+ TEST("chongo was here"),
+ TEST("chongo was here!"),
+ TEST("chongo was here!\n"),
+ TEST0("ch"),
+ TEST0("cho"),
+ TEST0("chon"),
+ TEST0("chong"),
+ TEST0("chongo"),
+ TEST0("chongo "),
+ TEST0("chongo w"),
+ TEST0("chongo wa"),
+ TEST0("chongo was"),
+ TEST0("chongo was "),
+ TEST0("chongo was h"),
+ TEST0("chongo was he"),
+ TEST0("chongo was her"),
+ TEST0("chongo was here"),
+ TEST0("chongo was here!"),
+ TEST0("chongo was here!\n"),
+ TEST("cu"),
+ TEST("cur"),
+ TEST("curd"),
+ TEST("curds"),
+ TEST("curds "),
+ TEST("curds a"),
+ TEST("curds an"),
+ TEST("curds and"),
+ TEST("curds and "),
+ TEST("curds and w"),
+ TEST("curds and wh"),
+ TEST("curds and whe"),
+ TEST("curds and whey"),
+ TEST("curds and whey\n"),
+ TEST0("cu"),
+ TEST0("cur"),
+ TEST0("curd"),
+ TEST0("curds"),
+ TEST0("curds "),
+ TEST0("curds a"),
+ TEST0("curds an"),
+ TEST0("curds and"),
+ TEST0("curds and "),
+ TEST0("curds and w"),
+ TEST0("curds and wh"),
+ TEST0("curds and whe"),
+ TEST0("curds and whey"),
+ TEST0("curds and whey\n"),
+ TEST("hi"), TEST0("hi"),
+ TEST("hello"), TEST0("hello"),
+ TEST("\xff\x00\x00\x01"), TEST("\x01\x00\x00\xff"),
+ TEST("\xff\x00\x00\x02"), TEST("\x02\x00\x00\xff"),
+ TEST("\xff\x00\x00\x03"), TEST("\x03\x00\x00\xff"),
+ TEST("\xff\x00\x00\x04"), TEST("\x04\x00\x00\xff"),
+ TEST("\x40\x51\x4e\x44"), TEST("\x44\x4e\x51\x40"),
+ TEST("\x40\x51\x4e\x4a"), TEST("\x4a\x4e\x51\x40"),
+ TEST("\x40\x51\x4e\x54"), TEST("\x54\x4e\x51\x40"),
+ TEST("127.0.0.1"), TEST0("127.0.0.1"),
+ TEST("127.0.0.2"), TEST0("127.0.0.2"),
+ TEST("127.0.0.3"), TEST0("127.0.0.3"),
+ TEST("64.81.78.68"), TEST0("64.81.78.68"),
+ TEST("64.81.78.74"), TEST0("64.81.78.74"),
+ TEST("64.81.78.84"), TEST0("64.81.78.84"),
+ TEST("feedface"), TEST0("feedface"),
+ TEST("feedfacedaffdeed"), TEST0("feedfacedaffdeed"),
+ TEST("feedfacedeadbeef"), TEST0("feedfacedeadbeef"),
+ TEST("line 1\nline 2\nline 3"),
+ TEST("chongo <Landon Curt Noll> /\\../\\"),
+ TEST0("chongo <Landon Curt Noll> /\\../\\"),
+ TEST("chongo (Landon Curt Noll) /\\../\\"),
+ TEST0("chongo (Landon Curt Noll) /\\../\\"),
+ TEST("http://antwrp.gsfc.nasa.gov/apod/astropix.html"),
+ TEST("http://en.wikipedia.org/wiki/Fowler_Noll_Vo_hash"),
+ TEST("http://epod.usra.edu/"),
+ TEST("http://exoplanet.eu/"),
+ TEST("http://hvo.wr.usgs.gov/cam3/"),
+ TEST("http://hvo.wr.usgs.gov/cams/HMcam/"),
+ TEST("http://hvo.wr.usgs.gov/kilauea/update/deformation.html"),
+ TEST("http://hvo.wr.usgs.gov/kilauea/update/images.html"),
+ TEST("http://hvo.wr.usgs.gov/kilauea/update/maps.html"),
+ TEST("http://hvo.wr.usgs.gov/volcanowatch/current_issue.html"),
+ TEST("http://neo.jpl.nasa.gov/risk/"),
+ TEST("http://norvig.com/21-days.html"),
+ TEST("http://primes.utm.edu/curios/home.php"),
+ TEST("http://slashdot.org/"),
+ TEST("http://tux.wr.usgs.gov/Maps/155.25-19.5.html"),
+ TEST("http://volcano.wr.usgs.gov/kilaueastatus.php"),
+ TEST("http://www.avo.alaska.edu/activity/Redoubt.php"),
+ TEST("http://www.dilbert.com/fast/"),
+ TEST("http://www.fourmilab.ch/gravitation/orbits/"),
+ TEST("http://www.fpoa.net/"),
+ TEST("http://www.ioccc.org/index.html"),
+ TEST("http://www.isthe.com/cgi-bin/number.cgi"),
+ TEST("http://www.isthe.com/chongo/bio.html"),
+ TEST("http://www.isthe.com/chongo/index.html"),
+ TEST("http://www.isthe.com/chongo/src/calc/lucas-calc"),
+ TEST("http://www.isthe.com/chongo/tech/astro/venus2004.html"),
+ TEST("http://www.isthe.com/chongo/tech/astro/vita.html"),
+ TEST("http://www.isthe.com/chongo/tech/comp/c/expert.html"),
+ TEST("http://www.isthe.com/chongo/tech/comp/calc/index.html"),
+ TEST("http://www.isthe.com/chongo/tech/comp/fnv/index.html"),
+ TEST("http://www.isthe.com/chongo/tech/math/number/howhigh.html"),
+ TEST("http://www.isthe.com/chongo/tech/math/number/number.html"),
+ TEST("http://www.isthe.com/chongo/tech/math/prime/mersenne.html"),
+ TEST("http://www.isthe.com/chongo/tech/math/prime/mersenne.html#largest"),
+ TEST("http://www.lavarnd.org/cgi-bin/corpspeak.cgi"),
+ TEST("http://www.lavarnd.org/cgi-bin/haiku.cgi"),
+ TEST("http://www.lavarnd.org/cgi-bin/rand-none.cgi"),
+ TEST("http://www.lavarnd.org/cgi-bin/randdist.cgi"),
+ TEST("http://www.lavarnd.org/index.html"),
+ TEST("http://www.lavarnd.org/what/nist-test.html"),
+ TEST("http://www.macosxhints.com/"),
+ TEST("http://www.mellis.com/"),
+ TEST("http://www.nature.nps.gov/air/webcams/parks/havoso2alert/havoalert.cfm"),
+ TEST("http://www.nature.nps.gov/air/webcams/parks/havoso2alert/timelines_24.cfm"),
+ TEST("http://www.paulnoll.com/"),
+ TEST("http://www.pepysdiary.com/"),
+ TEST("http://www.sciencenews.org/index/home/activity/view"),
+ TEST("http://www.skyandtelescope.com/"),
+ TEST("http://www.sput.nl/~rob/sirius.html"),
+ TEST("http://www.systemexperts.com/"),
+ TEST("http://www.tq-international.com/phpBB3/index.php"),
+ TEST("http://www.travelquesttours.com/index.htm"),
+ TEST("http://www.wunderground.com/global/stations/89606.html"),
+ TEST(R10("21701")),
+ TEST(R10("M21701")),
+ TEST(R10("2^21701-1")),
+ TEST(R10("\x54\xc5")),
+ TEST(R10("\xc5\x54")),
+ TEST(R10("23209")),
+ TEST(R10("M23209")),
+ TEST(R10("2^23209-1")),
+ TEST(R10("\x5a\xa9")),
+ TEST(R10("\xa9\x5a")),
+ TEST(R10("391581216093")),
+ TEST(R10("391581*2^216093-1")),
+ TEST(R10("\x05\xf9\x9d\x03\x4c\x81")),
+ TEST(R10("FEDCBA9876543210")),
+ TEST(R10("\xfe\xdc\xba\x98\x76\x54\x32\x10")),
+ TEST(R10("EFCDAB8967452301")),
+ TEST(R10("\xef\xcd\xab\x89\x67\x45\x23\x01")),
+ TEST(R10("0123456789ABCDEF")),
+ TEST(R10("\x01\x23\x45\x67\x89\xab\xcd\xef")),
+ TEST(R10("1032547698BADCFE")),
+ TEST(R10("\x10\x32\x54\x76\x98\xba\xdc\xfe")),
+ TEST(R500("\x00")),
+ TEST(R500("\x07")),
+ TEST(R500("~")),
+ TEST(R500("\x7f")),
+ {NULL, 0} /* MUST BE LAST */
+};
+
+
+/*
+ * insert the contents of vector.c below
+ *
+ * make vector.c
+ * :r vector.c
+ */
+/* start of output generated by make vector.c */
+
+/* FNV-0 32 bit test vectors */
+struct fnv0_32_test_vector fnv0_32_vector[] = {
+ { &fnv_test_str[0], (Fnv32_t) 0x00000000UL },
+ { &fnv_test_str[1], (Fnv32_t) 0x00000061UL },
+ { &fnv_test_str[2], (Fnv32_t) 0x00000062UL },
+ { &fnv_test_str[3], (Fnv32_t) 0x00000063UL },
+ { &fnv_test_str[4], (Fnv32_t) 0x00000064UL },
+ { &fnv_test_str[5], (Fnv32_t) 0x00000065UL },
+ { &fnv_test_str[6], (Fnv32_t) 0x00000066UL },
+ { &fnv_test_str[7], (Fnv32_t) 0x6600a0fdUL },
+ { &fnv_test_str[8], (Fnv32_t) 0x8ffd6e28UL },
+ { &fnv_test_str[9], (Fnv32_t) 0xd3f4689aUL },
+ { &fnv_test_str[10], (Fnv32_t) 0x43c0aa0fUL },
+ { &fnv_test_str[11], (Fnv32_t) 0xb74bb5efUL },
+ { &fnv_test_str[12], (Fnv32_t) 0x00000000UL },
+ { &fnv_test_str[13], (Fnv32_t) 0x610098b3UL },
+ { &fnv_test_str[14], (Fnv32_t) 0x62009a46UL },
+ { &fnv_test_str[15], (Fnv32_t) 0x63009bd9UL },
+ { &fnv_test_str[16], (Fnv32_t) 0x64009d6cUL },
+ { &fnv_test_str[17], (Fnv32_t) 0x65009effUL },
+ { &fnv_test_str[18], (Fnv32_t) 0x6600a092UL },
+ { &fnv_test_str[19], (Fnv32_t) 0x8ffd6e47UL },
+ { &fnv_test_str[20], (Fnv32_t) 0xd3f468f8UL },
+ { &fnv_test_str[21], (Fnv32_t) 0x43c0aa6eUL },
+ { &fnv_test_str[22], (Fnv32_t) 0xb74bb59dUL },
+ { &fnv_test_str[23], (Fnv32_t) 0x7b2f673dUL },
+ { &fnv_test_str[24], (Fnv32_t) 0x63009bb1UL },
+ { &fnv_test_str[25], (Fnv32_t) 0x8af517ccUL },
+ { &fnv_test_str[26], (Fnv32_t) 0x8bd4764aUL },
+ { &fnv_test_str[27], (Fnv32_t) 0x69763619UL },
+ { &fnv_test_str[28], (Fnv32_t) 0x1e172934UL },
+ { &fnv_test_str[29], (Fnv32_t) 0x9275dcfcUL },
+ { &fnv_test_str[30], (Fnv32_t) 0x8b8ae0c3UL },
+ { &fnv_test_str[31], (Fnv32_t) 0x6e9fd298UL },
+ { &fnv_test_str[32], (Fnv32_t) 0xbd98853bUL },
+ { &fnv_test_str[33], (Fnv32_t) 0xb219bbc1UL },
+ { &fnv_test_str[34], (Fnv32_t) 0x1f8290bbUL },
+ { &fnv_test_str[35], (Fnv32_t) 0x5589d604UL },
+ { &fnv_test_str[36], (Fnv32_t) 0xabfbe83eUL },
+ { &fnv_test_str[37], (Fnv32_t) 0xfb8e99ffUL },
+ { &fnv_test_str[38], (Fnv32_t) 0x007c6c4cUL },
+ { &fnv_test_str[39], (Fnv32_t) 0x0fde7baeUL },
+ { &fnv_test_str[40], (Fnv32_t) 0x8af517a3UL },
+ { &fnv_test_str[41], (Fnv32_t) 0x8bd47624UL },
+ { &fnv_test_str[42], (Fnv32_t) 0x6976367eUL },
+ { &fnv_test_str[43], (Fnv32_t) 0x1e17295bUL },
+ { &fnv_test_str[44], (Fnv32_t) 0x9275dcdcUL },
+ { &fnv_test_str[45], (Fnv32_t) 0x8b8ae0b4UL },
+ { &fnv_test_str[46], (Fnv32_t) 0x6e9fd2f9UL },
+ { &fnv_test_str[47], (Fnv32_t) 0xbd988548UL },
+ { &fnv_test_str[48], (Fnv32_t) 0xb219bbe1UL },
+ { &fnv_test_str[49], (Fnv32_t) 0x1f8290d3UL },
+ { &fnv_test_str[50], (Fnv32_t) 0x5589d661UL },
+ { &fnv_test_str[51], (Fnv32_t) 0xabfbe84cUL },
+ { &fnv_test_str[52], (Fnv32_t) 0xfb8e999aUL },
+ { &fnv_test_str[53], (Fnv32_t) 0x007c6c6dUL },
+ { &fnv_test_str[54], (Fnv32_t) 0x0fde7ba4UL },
+ { &fnv_test_str[55], (Fnv32_t) 0xa93cb2eaUL },
+ { &fnv_test_str[56], (Fnv32_t) 0x63009bacUL },
+ { &fnv_test_str[57], (Fnv32_t) 0x85f50fb6UL },
+ { &fnv_test_str[58], (Fnv32_t) 0x96c7bbe6UL },
+ { &fnv_test_str[59], (Fnv32_t) 0x426ccb61UL },
+ { &fnv_test_str[60], (Fnv32_t) 0xf2442993UL },
+ { &fnv_test_str[61], (Fnv32_t) 0xf44d7208UL },
+ { &fnv_test_str[62], (Fnv32_t) 0x9dea82f6UL },
+ { &fnv_test_str[63], (Fnv32_t) 0x8e2c2926UL },
+ { &fnv_test_str[64], (Fnv32_t) 0xf584c6f2UL },
+ { &fnv_test_str[65], (Fnv32_t) 0x72052e81UL },
+ { &fnv_test_str[66], (Fnv32_t) 0xff28357bUL },
+ { &fnv_test_str[67], (Fnv32_t) 0x274c30c4UL },
+ { &fnv_test_str[68], (Fnv32_t) 0xa0f0c4f5UL },
+ { &fnv_test_str[69], (Fnv32_t) 0x50060da5UL },
+ { &fnv_test_str[70], (Fnv32_t) 0x85f50fc4UL },
+ { &fnv_test_str[71], (Fnv32_t) 0x96c7bb82UL },
+ { &fnv_test_str[72], (Fnv32_t) 0x426ccb12UL },
+ { &fnv_test_str[73], (Fnv32_t) 0xf24429b3UL },
+ { &fnv_test_str[74], (Fnv32_t) 0xf44d7269UL },
+ { &fnv_test_str[75], (Fnv32_t) 0x9dea8298UL },
+ { &fnv_test_str[76], (Fnv32_t) 0x8e2c2942UL },
+ { &fnv_test_str[77], (Fnv32_t) 0xf584c6d2UL },
+ { &fnv_test_str[78], (Fnv32_t) 0x72052ef6UL },
+ { &fnv_test_str[79], (Fnv32_t) 0xff283513UL },
+ { &fnv_test_str[80], (Fnv32_t) 0x274c30a1UL },
+ { &fnv_test_str[81], (Fnv32_t) 0xa0f0c48cUL },
+ { &fnv_test_str[82], (Fnv32_t) 0x50060dafUL },
+ { &fnv_test_str[83], (Fnv32_t) 0x9e877abfUL },
+ { &fnv_test_str[84], (Fnv32_t) 0x6800a3d1UL },
+ { &fnv_test_str[85], (Fnv32_t) 0x8a01e203UL },
+ { &fnv_test_str[86], (Fnv32_t) 0xec6d6be8UL },
+ { &fnv_test_str[87], (Fnv32_t) 0x1840de38UL },
+ { &fnv_test_str[88], (Fnv32_t) 0xa7cc97b4UL },
+ { &fnv_test_str[89], (Fnv32_t) 0x3ee6b3b4UL },
+ { &fnv_test_str[90], (Fnv32_t) 0xa7cc97b7UL },
+ { &fnv_test_str[91], (Fnv32_t) 0x7dcd6669UL },
+ { &fnv_test_str[92], (Fnv32_t) 0xa7cc97b6UL },
+ { &fnv_test_str[93], (Fnv32_t) 0xbcb4191eUL },
+ { &fnv_test_str[94], (Fnv32_t) 0xa7cc97b1UL },
+ { &fnv_test_str[95], (Fnv32_t) 0xfb9acdd3UL },
+ { &fnv_test_str[96], (Fnv32_t) 0x89380433UL },
+ { &fnv_test_str[97], (Fnv32_t) 0x8acd2855UL },
+ { &fnv_test_str[98], (Fnv32_t) 0x8938043dUL },
+ { &fnv_test_str[99], (Fnv32_t) 0xcaeed493UL },
+ { &fnv_test_str[100], (Fnv32_t) 0x89380423UL },
+ { &fnv_test_str[101], (Fnv32_t) 0x59382a25UL },
+ { &fnv_test_str[102], (Fnv32_t) 0x567f75d7UL },
+ { &fnv_test_str[103], (Fnv32_t) 0x01a68175UL },
+ { &fnv_test_str[104], (Fnv32_t) 0x567f75d4UL },
+ { &fnv_test_str[105], (Fnv32_t) 0xfea67cbcUL },
+ { &fnv_test_str[106], (Fnv32_t) 0x567f75d5UL },
+ { &fnv_test_str[107], (Fnv32_t) 0xffa67e4fUL },
+ { &fnv_test_str[108], (Fnv32_t) 0xd131b668UL },
+ { &fnv_test_str[109], (Fnv32_t) 0xb94225b8UL },
+ { &fnv_test_str[110], (Fnv32_t) 0xd231b7d7UL },
+ { &fnv_test_str[111], (Fnv32_t) 0xbb446775UL },
+ { &fnv_test_str[112], (Fnv32_t) 0xdf31cc6eUL },
+ { &fnv_test_str[113], (Fnv32_t) 0xc964d12aUL },
+ { &fnv_test_str[114], (Fnv32_t) 0x23af8f9fUL },
+ { &fnv_test_str[115], (Fnv32_t) 0xcc5f174dUL },
+ { &fnv_test_str[116], (Fnv32_t) 0x96b29b8cUL },
+ { &fnv_test_str[117], (Fnv32_t) 0xc72add64UL },
+ { &fnv_test_str[118], (Fnv32_t) 0x528fb7efUL },
+ { &fnv_test_str[119], (Fnv32_t) 0xe73e8d3dUL },
+ { &fnv_test_str[120], (Fnv32_t) 0x876386feUL },
+ { &fnv_test_str[121], (Fnv32_t) 0x811c9dc5UL },
+ { &fnv_test_str[122], (Fnv32_t) 0x050c5d1fUL },
+ { &fnv_test_str[123], (Fnv32_t) 0x14bf7238UL },
+ { &fnv_test_str[124], (Fnv32_t) 0xe160ce28UL },
+ { &fnv_test_str[125], (Fnv32_t) 0x89dc5a75UL },
+ { &fnv_test_str[126], (Fnv32_t) 0xd89b69a0UL },
+ { &fnv_test_str[127], (Fnv32_t) 0x94471a88UL },
+ { &fnv_test_str[128], (Fnv32_t) 0xe78db65fUL },
+ { &fnv_test_str[129], (Fnv32_t) 0x0c3009a2UL },
+ { &fnv_test_str[130], (Fnv32_t) 0x122dff03UL },
+ { &fnv_test_str[131], (Fnv32_t) 0xb4cd8875UL },
+ { &fnv_test_str[132], (Fnv32_t) 0xf4dba725UL },
+ { &fnv_test_str[133], (Fnv32_t) 0x41a16560UL },
+ { &fnv_test_str[134], (Fnv32_t) 0x9c0f941fUL },
+ { &fnv_test_str[135], (Fnv32_t) 0x451a5348UL },
+ { &fnv_test_str[136], (Fnv32_t) 0x3f1d1d89UL },
+ { &fnv_test_str[137], (Fnv32_t) 0x1b91b57aUL },
+ { &fnv_test_str[138], (Fnv32_t) 0x3e99b577UL },
+ { &fnv_test_str[139], (Fnv32_t) 0x4c9de07aUL },
+ { &fnv_test_str[140], (Fnv32_t) 0x1ddf7572UL },
+ { &fnv_test_str[141], (Fnv32_t) 0x64e81976UL },
+ { &fnv_test_str[142], (Fnv32_t) 0x1106a888UL },
+ { &fnv_test_str[143], (Fnv32_t) 0xa498d8e5UL },
+ { &fnv_test_str[144], (Fnv32_t) 0x3c03d2e3UL },
+ { &fnv_test_str[145], (Fnv32_t) 0x26568b28UL },
+ { &fnv_test_str[146], (Fnv32_t) 0x70d7fb42UL },
+ { &fnv_test_str[147], (Fnv32_t) 0xd3ae1d22UL },
+ { &fnv_test_str[148], (Fnv32_t) 0xac8ea5f4UL },
+ { &fnv_test_str[149], (Fnv32_t) 0x4d0abd60UL },
+ { &fnv_test_str[150], (Fnv32_t) 0x48f5e086UL },
+ { &fnv_test_str[151], (Fnv32_t) 0xa8f6241bUL },
+ { &fnv_test_str[152], (Fnv32_t) 0x572f864fUL },
+ { &fnv_test_str[153], (Fnv32_t) 0xa5340803UL },
+ { &fnv_test_str[154], (Fnv32_t) 0x22881aa8UL },
+ { &fnv_test_str[155], (Fnv32_t) 0xc2e2f5a2UL },
+ { &fnv_test_str[156], (Fnv32_t) 0xebf5aec7UL },
+ { &fnv_test_str[157], (Fnv32_t) 0x3cdbfb85UL },
+ { &fnv_test_str[158], (Fnv32_t) 0xbb859704UL },
+ { &fnv_test_str[159], (Fnv32_t) 0xc956fe11UL },
+ { &fnv_test_str[160], (Fnv32_t) 0x8f11a7c9UL },
+ { &fnv_test_str[161], (Fnv32_t) 0x36c48ecfUL },
+ { &fnv_test_str[162], (Fnv32_t) 0x24bfa27eUL },
+ { &fnv_test_str[163], (Fnv32_t) 0xf2596ad1UL },
+ { &fnv_test_str[164], (Fnv32_t) 0xf14a9b45UL },
+ { &fnv_test_str[165], (Fnv32_t) 0x7d45835aUL },
+ { &fnv_test_str[166], (Fnv32_t) 0x6e49334dUL },
+ { &fnv_test_str[167], (Fnv32_t) 0x71767337UL },
+ { &fnv_test_str[168], (Fnv32_t) 0x858a1a8aUL },
+ { &fnv_test_str[169], (Fnv32_t) 0x16e75ac2UL },
+ { &fnv_test_str[170], (Fnv32_t) 0x409f99dfUL },
+ { &fnv_test_str[171], (Fnv32_t) 0x6d6652ddUL },
+ { &fnv_test_str[172], (Fnv32_t) 0x2761a9ffUL },
+ { &fnv_test_str[173], (Fnv32_t) 0x41f0d616UL },
+ { &fnv_test_str[174], (Fnv32_t) 0x0e2d0d0fUL },
+ { &fnv_test_str[175], (Fnv32_t) 0x06adc8fdUL },
+ { &fnv_test_str[176], (Fnv32_t) 0x60e0d4b9UL },
+ { &fnv_test_str[177], (Fnv32_t) 0x5ddc79d3UL },
+ { &fnv_test_str[178], (Fnv32_t) 0x1e6d0b46UL },
+ { &fnv_test_str[179], (Fnv32_t) 0x1d1514d8UL },
+ { &fnv_test_str[180], (Fnv32_t) 0xb1903a4eUL },
+ { &fnv_test_str[181], (Fnv32_t) 0x8200c318UL },
+ { &fnv_test_str[182], (Fnv32_t) 0x15e22888UL },
+ { &fnv_test_str[183], (Fnv32_t) 0x57591760UL },
+ { &fnv_test_str[184], (Fnv32_t) 0x02462efcUL },
+ { &fnv_test_str[185], (Fnv32_t) 0x7651ec44UL },
+ { &fnv_test_str[186], (Fnv32_t) 0x7c24e9d4UL },
+ { &fnv_test_str[187], (Fnv32_t) 0x1952a034UL },
+ { &fnv_test_str[188], (Fnv32_t) 0xd4c46864UL },
+ { &fnv_test_str[189], (Fnv32_t) 0xcb57cde0UL },
+ { &fnv_test_str[190], (Fnv32_t) 0x71136a70UL },
+ { &fnv_test_str[191], (Fnv32_t) 0x0618fb40UL },
+ { &fnv_test_str[192], (Fnv32_t) 0x69a24fc0UL },
+ { &fnv_test_str[193], (Fnv32_t) 0x6a9be510UL },
+ { &fnv_test_str[194], (Fnv32_t) 0xe0477040UL },
+ { &fnv_test_str[195], (Fnv32_t) 0x85aa94b0UL },
+ { &fnv_test_str[196], (Fnv32_t) 0xc6d76240UL },
+ { &fnv_test_str[197], (Fnv32_t) 0xa9f09e40UL },
+ { &fnv_test_str[198], (Fnv32_t) 0xa0291540UL },
+ { &fnv_test_str[199], (Fnv32_t) 0x00000000UL },
+ { &fnv_test_str[200], (Fnv32_t) 0x2e672aa4UL },
+ { &fnv_test_str[201], (Fnv32_t) 0x84b1aa48UL },
+ { &fnv_test_str[202], (Fnv32_t) 0xfc24ba24UL },
+ { NULL, 0 }
+};
+
+/* FNV-1 32 bit test vectors */
+struct fnv1_32_test_vector fnv1_32_vector[] = {
+ { &fnv_test_str[0], (Fnv32_t) 0x811c9dc5UL },
+ { &fnv_test_str[1], (Fnv32_t) 0x050c5d7eUL },
+ { &fnv_test_str[2], (Fnv32_t) 0x050c5d7dUL },
+ { &fnv_test_str[3], (Fnv32_t) 0x050c5d7cUL },
+ { &fnv_test_str[4], (Fnv32_t) 0x050c5d7bUL },
+ { &fnv_test_str[5], (Fnv32_t) 0x050c5d7aUL },
+ { &fnv_test_str[6], (Fnv32_t) 0x050c5d79UL },
+ { &fnv_test_str[7], (Fnv32_t) 0x6b772514UL },
+ { &fnv_test_str[8], (Fnv32_t) 0x408f5e13UL },
+ { &fnv_test_str[9], (Fnv32_t) 0xb4b1178bUL },
+ { &fnv_test_str[10], (Fnv32_t) 0xfdc80fb0UL },
+ { &fnv_test_str[11], (Fnv32_t) 0x31f0b262UL },
+ { &fnv_test_str[12], (Fnv32_t) 0x050c5d1fUL },
+ { &fnv_test_str[13], (Fnv32_t) 0x70772d5aUL },
+ { &fnv_test_str[14], (Fnv32_t) 0x6f772bc7UL },
+ { &fnv_test_str[15], (Fnv32_t) 0x6e772a34UL },
+ { &fnv_test_str[16], (Fnv32_t) 0x6d7728a1UL },
+ { &fnv_test_str[17], (Fnv32_t) 0x6c77270eUL },
+ { &fnv_test_str[18], (Fnv32_t) 0x6b77257bUL },
+ { &fnv_test_str[19], (Fnv32_t) 0x408f5e7cUL },
+ { &fnv_test_str[20], (Fnv32_t) 0xb4b117e9UL },
+ { &fnv_test_str[21], (Fnv32_t) 0xfdc80fd1UL },
+ { &fnv_test_str[22], (Fnv32_t) 0x31f0b210UL },
+ { &fnv_test_str[23], (Fnv32_t) 0xffe8d046UL },
+ { &fnv_test_str[24], (Fnv32_t) 0x6e772a5cUL },
+ { &fnv_test_str[25], (Fnv32_t) 0x4197aebbUL },
+ { &fnv_test_str[26], (Fnv32_t) 0xfcc8100fUL },
+ { &fnv_test_str[27], (Fnv32_t) 0xfdf147faUL },
+ { &fnv_test_str[28], (Fnv32_t) 0xbcd44ee1UL },
+ { &fnv_test_str[29], (Fnv32_t) 0x23382c13UL },
+ { &fnv_test_str[30], (Fnv32_t) 0x846d619eUL },
+ { &fnv_test_str[31], (Fnv32_t) 0x1630abdbUL },
+ { &fnv_test_str[32], (Fnv32_t) 0xc99e89b2UL },
+ { &fnv_test_str[33], (Fnv32_t) 0x1692c316UL },
+ { &fnv_test_str[34], (Fnv32_t) 0x9f091bcaUL },
+ { &fnv_test_str[35], (Fnv32_t) 0x2556be9bUL },
+ { &fnv_test_str[36], (Fnv32_t) 0x628e0e73UL },
+ { &fnv_test_str[37], (Fnv32_t) 0x98a0bf6cUL },
+ { &fnv_test_str[38], (Fnv32_t) 0xb10d5725UL },
+ { &fnv_test_str[39], (Fnv32_t) 0xdd002f35UL },
+ { &fnv_test_str[40], (Fnv32_t) 0x4197aed4UL },
+ { &fnv_test_str[41], (Fnv32_t) 0xfcc81061UL },
+ { &fnv_test_str[42], (Fnv32_t) 0xfdf1479dUL },
+ { &fnv_test_str[43], (Fnv32_t) 0xbcd44e8eUL },
+ { &fnv_test_str[44], (Fnv32_t) 0x23382c33UL },
+ { &fnv_test_str[45], (Fnv32_t) 0x846d61e9UL },
+ { &fnv_test_str[46], (Fnv32_t) 0x1630abbaUL },
+ { &fnv_test_str[47], (Fnv32_t) 0xc99e89c1UL },
+ { &fnv_test_str[48], (Fnv32_t) 0x1692c336UL },
+ { &fnv_test_str[49], (Fnv32_t) 0x9f091ba2UL },
+ { &fnv_test_str[50], (Fnv32_t) 0x2556befeUL },
+ { &fnv_test_str[51], (Fnv32_t) 0x628e0e01UL },
+ { &fnv_test_str[52], (Fnv32_t) 0x98a0bf09UL },
+ { &fnv_test_str[53], (Fnv32_t) 0xb10d5704UL },
+ { &fnv_test_str[54], (Fnv32_t) 0xdd002f3fUL },
+ { &fnv_test_str[55], (Fnv32_t) 0x1c4a506fUL },
+ { &fnv_test_str[56], (Fnv32_t) 0x6e772a41UL },
+ { &fnv_test_str[57], (Fnv32_t) 0x26978421UL },
+ { &fnv_test_str[58], (Fnv32_t) 0xe184ff97UL },
+ { &fnv_test_str[59], (Fnv32_t) 0x9b5e5ac6UL },
+ { &fnv_test_str[60], (Fnv32_t) 0x5b88e592UL },
+ { &fnv_test_str[61], (Fnv32_t) 0xaa8164b7UL },
+ { &fnv_test_str[62], (Fnv32_t) 0x20b18c7bUL },
+ { &fnv_test_str[63], (Fnv32_t) 0xf28025c5UL },
+ { &fnv_test_str[64], (Fnv32_t) 0x84bb753fUL },
+ { &fnv_test_str[65], (Fnv32_t) 0x3219925aUL },
+ { &fnv_test_str[66], (Fnv32_t) 0x384163c6UL },
+ { &fnv_test_str[67], (Fnv32_t) 0x54f010d7UL },
+ { &fnv_test_str[68], (Fnv32_t) 0x8cea820cUL },
+ { &fnv_test_str[69], (Fnv32_t) 0xe12ab8eeUL },
+ { &fnv_test_str[70], (Fnv32_t) 0x26978453UL },
+ { &fnv_test_str[71], (Fnv32_t) 0xe184fff3UL },
+ { &fnv_test_str[72], (Fnv32_t) 0x9b5e5ab5UL },
+ { &fnv_test_str[73], (Fnv32_t) 0x5b88e5b2UL },
+ { &fnv_test_str[74], (Fnv32_t) 0xaa8164d6UL },
+ { &fnv_test_str[75], (Fnv32_t) 0x20b18c15UL },
+ { &fnv_test_str[76], (Fnv32_t) 0xf28025a1UL },
+ { &fnv_test_str[77], (Fnv32_t) 0x84bb751fUL },
+ { &fnv_test_str[78], (Fnv32_t) 0x3219922dUL },
+ { &fnv_test_str[79], (Fnv32_t) 0x384163aeUL },
+ { &fnv_test_str[80], (Fnv32_t) 0x54f010b2UL },
+ { &fnv_test_str[81], (Fnv32_t) 0x8cea8275UL },
+ { &fnv_test_str[82], (Fnv32_t) 0xe12ab8e4UL },
+ { &fnv_test_str[83], (Fnv32_t) 0x64411eaaUL },
+ { &fnv_test_str[84], (Fnv32_t) 0x6977223cUL },
+ { &fnv_test_str[85], (Fnv32_t) 0x428ae474UL },
+ { &fnv_test_str[86], (Fnv32_t) 0xb6fa7167UL },
+ { &fnv_test_str[87], (Fnv32_t) 0x73408525UL },
+ { &fnv_test_str[88], (Fnv32_t) 0xb78320a1UL },
+ { &fnv_test_str[89], (Fnv32_t) 0x0caf4135UL },
+ { &fnv_test_str[90], (Fnv32_t) 0xb78320a2UL },
+ { &fnv_test_str[91], (Fnv32_t) 0xcdc88e80UL },
+ { &fnv_test_str[92], (Fnv32_t) 0xb78320a3UL },
+ { &fnv_test_str[93], (Fnv32_t) 0x8ee1dbcbUL },
+ { &fnv_test_str[94], (Fnv32_t) 0xb78320a4UL },
+ { &fnv_test_str[95], (Fnv32_t) 0x4ffb2716UL },
+ { &fnv_test_str[96], (Fnv32_t) 0x860632aaUL },
+ { &fnv_test_str[97], (Fnv32_t) 0xcc2c5c64UL },
+ { &fnv_test_str[98], (Fnv32_t) 0x860632a4UL },
+ { &fnv_test_str[99], (Fnv32_t) 0x2a7ec4a6UL },
+ { &fnv_test_str[100], (Fnv32_t) 0x860632baUL },
+ { &fnv_test_str[101], (Fnv32_t) 0xfefe8e14UL },
+ { &fnv_test_str[102], (Fnv32_t) 0x0a3cffd8UL },
+ { &fnv_test_str[103], (Fnv32_t) 0xf606c108UL },
+ { &fnv_test_str[104], (Fnv32_t) 0x0a3cffdbUL },
+ { &fnv_test_str[105], (Fnv32_t) 0xf906c5c1UL },
+ { &fnv_test_str[106], (Fnv32_t) 0x0a3cffdaUL },
+ { &fnv_test_str[107], (Fnv32_t) 0xf806c42eUL },
+ { &fnv_test_str[108], (Fnv32_t) 0xc07167d7UL },
+ { &fnv_test_str[109], (Fnv32_t) 0xc9867775UL },
+ { &fnv_test_str[110], (Fnv32_t) 0xbf716668UL },
+ { &fnv_test_str[111], (Fnv32_t) 0xc78435b8UL },
+ { &fnv_test_str[112], (Fnv32_t) 0xc6717155UL },
+ { &fnv_test_str[113], (Fnv32_t) 0xb99568cfUL },
+ { &fnv_test_str[114], (Fnv32_t) 0x7662e0d6UL },
+ { &fnv_test_str[115], (Fnv32_t) 0x33a7f0e2UL },
+ { &fnv_test_str[116], (Fnv32_t) 0xc2732f95UL },
+ { &fnv_test_str[117], (Fnv32_t) 0xb053e78fUL },
+ { &fnv_test_str[118], (Fnv32_t) 0x3a19c02aUL },
+ { &fnv_test_str[119], (Fnv32_t) 0xa089821eUL },
+ { &fnv_test_str[120], (Fnv32_t) 0x31ae8f83UL },
+ { &fnv_test_str[121], (Fnv32_t) 0x995fa9c4UL },
+ { &fnv_test_str[122], (Fnv32_t) 0x35983f8cUL },
+ { &fnv_test_str[123], (Fnv32_t) 0x5036a251UL },
+ { &fnv_test_str[124], (Fnv32_t) 0x97018583UL },
+ { &fnv_test_str[125], (Fnv32_t) 0xb4448d60UL },
+ { &fnv_test_str[126], (Fnv32_t) 0x025dfe59UL },
+ { &fnv_test_str[127], (Fnv32_t) 0xc5eab3afUL },
+ { &fnv_test_str[128], (Fnv32_t) 0x7d21ba1eUL },
+ { &fnv_test_str[129], (Fnv32_t) 0x7704cddbUL },
+ { &fnv_test_str[130], (Fnv32_t) 0xd0071bfeUL },
+ { &fnv_test_str[131], (Fnv32_t) 0x0ff3774cUL },
+ { &fnv_test_str[132], (Fnv32_t) 0xb0fea0eaUL },
+ { &fnv_test_str[133], (Fnv32_t) 0x58177303UL },
+ { &fnv_test_str[134], (Fnv32_t) 0x4f599cdaUL },
+ { &fnv_test_str[135], (Fnv32_t) 0x3e590a47UL },
+ { &fnv_test_str[136], (Fnv32_t) 0x965595f8UL },
+ { &fnv_test_str[137], (Fnv32_t) 0xc37f178dUL },
+ { &fnv_test_str[138], (Fnv32_t) 0x9711dd26UL },
+ { &fnv_test_str[139], (Fnv32_t) 0x23c99b7fUL },
+ { &fnv_test_str[140], (Fnv32_t) 0x6e568b17UL },
+ { &fnv_test_str[141], (Fnv32_t) 0x43f0245bUL },
+ { &fnv_test_str[142], (Fnv32_t) 0xbcb7a001UL },
+ { &fnv_test_str[143], (Fnv32_t) 0x12e6dffeUL },
+ { &fnv_test_str[144], (Fnv32_t) 0x0792f2d6UL },
+ { &fnv_test_str[145], (Fnv32_t) 0xb966936bUL },
+ { &fnv_test_str[146], (Fnv32_t) 0x46439ac5UL },
+ { &fnv_test_str[147], (Fnv32_t) 0x728d49afUL },
+ { &fnv_test_str[148], (Fnv32_t) 0xd33745c9UL },
+ { &fnv_test_str[149], (Fnv32_t) 0xbc382a57UL },
+ { &fnv_test_str[150], (Fnv32_t) 0x4bda1d31UL },
+ { &fnv_test_str[151], (Fnv32_t) 0xce35ccaeUL },
+ { &fnv_test_str[152], (Fnv32_t) 0x3b6eed94UL },
+ { &fnv_test_str[153], (Fnv32_t) 0x445c9c58UL },
+ { &fnv_test_str[154], (Fnv32_t) 0x3db8bf9dUL },
+ { &fnv_test_str[155], (Fnv32_t) 0x2dee116dUL },
+ { &fnv_test_str[156], (Fnv32_t) 0xc18738daUL },
+ { &fnv_test_str[157], (Fnv32_t) 0x5b156176UL },
+ { &fnv_test_str[158], (Fnv32_t) 0x2aa7d593UL },
+ { &fnv_test_str[159], (Fnv32_t) 0xb2409658UL },
+ { &fnv_test_str[160], (Fnv32_t) 0xe1489528UL },
+ { &fnv_test_str[161], (Fnv32_t) 0xfe1ee07eUL },
+ { &fnv_test_str[162], (Fnv32_t) 0xe8842315UL },
+ { &fnv_test_str[163], (Fnv32_t) 0x3a6a63a2UL },
+ { &fnv_test_str[164], (Fnv32_t) 0x06d2c18cUL },
+ { &fnv_test_str[165], (Fnv32_t) 0xf8ef7225UL },
+ { &fnv_test_str[166], (Fnv32_t) 0x843d3300UL },
+ { &fnv_test_str[167], (Fnv32_t) 0xbb24f7aeUL },
+ { &fnv_test_str[168], (Fnv32_t) 0x878c0ec9UL },
+ { &fnv_test_str[169], (Fnv32_t) 0xb557810fUL },
+ { &fnv_test_str[170], (Fnv32_t) 0x57423246UL },
+ { &fnv_test_str[171], (Fnv32_t) 0x87f7505eUL },
+ { &fnv_test_str[172], (Fnv32_t) 0xbb809f20UL },
+ { &fnv_test_str[173], (Fnv32_t) 0x8932abb5UL },
+ { &fnv_test_str[174], (Fnv32_t) 0x0a9b3aa0UL },
+ { &fnv_test_str[175], (Fnv32_t) 0xb8682a24UL },
+ { &fnv_test_str[176], (Fnv32_t) 0xa7ac1c56UL },
+ { &fnv_test_str[177], (Fnv32_t) 0x11409252UL },
+ { &fnv_test_str[178], (Fnv32_t) 0xa987f517UL },
+ { &fnv_test_str[179], (Fnv32_t) 0xf309e7edUL },
+ { &fnv_test_str[180], (Fnv32_t) 0xc9e8f417UL },
+ { &fnv_test_str[181], (Fnv32_t) 0x7f447bddUL },
+ { &fnv_test_str[182], (Fnv32_t) 0xb929adc5UL },
+ { &fnv_test_str[183], (Fnv32_t) 0x57022879UL },
+ { &fnv_test_str[184], (Fnv32_t) 0xdcfd2c49UL },
+ { &fnv_test_str[185], (Fnv32_t) 0x6edafff5UL },
+ { &fnv_test_str[186], (Fnv32_t) 0xf04fb1f1UL },
+ { &fnv_test_str[187], (Fnv32_t) 0xfb7de8b9UL },
+ { &fnv_test_str[188], (Fnv32_t) 0xc5f1d7e9UL },
+ { &fnv_test_str[189], (Fnv32_t) 0x32c1f439UL },
+ { &fnv_test_str[190], (Fnv32_t) 0x7fd3eb7dUL },
+ { &fnv_test_str[191], (Fnv32_t) 0x81597da5UL },
+ { &fnv_test_str[192], (Fnv32_t) 0x05eb7a25UL },
+ { &fnv_test_str[193], (Fnv32_t) 0x9c0fa1b5UL },
+ { &fnv_test_str[194], (Fnv32_t) 0x53ccb1c5UL },
+ { &fnv_test_str[195], (Fnv32_t) 0xfabece15UL },
+ { &fnv_test_str[196], (Fnv32_t) 0x4ad745a5UL },
+ { &fnv_test_str[197], (Fnv32_t) 0xe5bdc495UL },
+ { &fnv_test_str[198], (Fnv32_t) 0x23b3c0a5UL },
+ { &fnv_test_str[199], (Fnv32_t) 0xfa823dd5UL },
+ { &fnv_test_str[200], (Fnv32_t) 0x0c6c58b9UL },
+ { &fnv_test_str[201], (Fnv32_t) 0xe2dbccd5UL },
+ { &fnv_test_str[202], (Fnv32_t) 0xdb7f50f9UL },
+ { NULL, 0 }
+};
+
+/* FNV-1a 32 bit test vectors */
+struct fnv1a_32_test_vector fnv1a_32_vector[] = {
+ { &fnv_test_str[0], (Fnv32_t) 0x811c9dc5UL },
+ { &fnv_test_str[1], (Fnv32_t) 0xe40c292cUL },
+ { &fnv_test_str[2], (Fnv32_t) 0xe70c2de5UL },
+ { &fnv_test_str[3], (Fnv32_t) 0xe60c2c52UL },
+ { &fnv_test_str[4], (Fnv32_t) 0xe10c2473UL },
+ { &fnv_test_str[5], (Fnv32_t) 0xe00c22e0UL },
+ { &fnv_test_str[6], (Fnv32_t) 0xe30c2799UL },
+ { &fnv_test_str[7], (Fnv32_t) 0x6222e842UL },
+ { &fnv_test_str[8], (Fnv32_t) 0xa9f37ed7UL },
+ { &fnv_test_str[9], (Fnv32_t) 0x3f5076efUL },
+ { &fnv_test_str[10], (Fnv32_t) 0x39aaa18aUL },
+ { &fnv_test_str[11], (Fnv32_t) 0xbf9cf968UL },
+ { &fnv_test_str[12], (Fnv32_t) 0x050c5d1fUL },
+ { &fnv_test_str[13], (Fnv32_t) 0x2b24d044UL },
+ { &fnv_test_str[14], (Fnv32_t) 0x9d2c3f7fUL },
+ { &fnv_test_str[15], (Fnv32_t) 0x7729c516UL },
+ { &fnv_test_str[16], (Fnv32_t) 0xb91d6109UL },
+ { &fnv_test_str[17], (Fnv32_t) 0x931ae6a0UL },
+ { &fnv_test_str[18], (Fnv32_t) 0x052255dbUL },
+ { &fnv_test_str[19], (Fnv32_t) 0xbef39fe6UL },
+ { &fnv_test_str[20], (Fnv32_t) 0x6150ac75UL },
+ { &fnv_test_str[21], (Fnv32_t) 0x9aab3a3dUL },
+ { &fnv_test_str[22], (Fnv32_t) 0x519c4c3eUL },
+ { &fnv_test_str[23], (Fnv32_t) 0x0c1c9eb8UL },
+ { &fnv_test_str[24], (Fnv32_t) 0x5f299f4eUL },
+ { &fnv_test_str[25], (Fnv32_t) 0xef8580f3UL },
+ { &fnv_test_str[26], (Fnv32_t) 0xac297727UL },
+ { &fnv_test_str[27], (Fnv32_t) 0x4546b9c0UL },
+ { &fnv_test_str[28], (Fnv32_t) 0xbd564e7dUL },
+ { &fnv_test_str[29], (Fnv32_t) 0x6bdd5c67UL },
+ { &fnv_test_str[30], (Fnv32_t) 0xdd77ed30UL },
+ { &fnv_test_str[31], (Fnv32_t) 0xf4ca9683UL },
+ { &fnv_test_str[32], (Fnv32_t) 0x4aeb9bd0UL },
+ { &fnv_test_str[33], (Fnv32_t) 0xe0e67ad0UL },
+ { &fnv_test_str[34], (Fnv32_t) 0xc2d32fa8UL },
+ { &fnv_test_str[35], (Fnv32_t) 0x7f743fb7UL },
+ { &fnv_test_str[36], (Fnv32_t) 0x6900631fUL },
+ { &fnv_test_str[37], (Fnv32_t) 0xc59c990eUL },
+ { &fnv_test_str[38], (Fnv32_t) 0x448524fdUL },
+ { &fnv_test_str[39], (Fnv32_t) 0xd49930d5UL },
+ { &fnv_test_str[40], (Fnv32_t) 0x1c85c7caUL },
+ { &fnv_test_str[41], (Fnv32_t) 0x0229fe89UL },
+ { &fnv_test_str[42], (Fnv32_t) 0x2c469265UL },
+ { &fnv_test_str[43], (Fnv32_t) 0xce566940UL },
+ { &fnv_test_str[44], (Fnv32_t) 0x8bdd8ec7UL },
+ { &fnv_test_str[45], (Fnv32_t) 0x34787625UL },
+ { &fnv_test_str[46], (Fnv32_t) 0xd3ca6290UL },
+ { &fnv_test_str[47], (Fnv32_t) 0xddeaf039UL },
+ { &fnv_test_str[48], (Fnv32_t) 0xc0e64870UL },
+ { &fnv_test_str[49], (Fnv32_t) 0xdad35570UL },
+ { &fnv_test_str[50], (Fnv32_t) 0x5a740578UL },
+ { &fnv_test_str[51], (Fnv32_t) 0x5b004d15UL },
+ { &fnv_test_str[52], (Fnv32_t) 0x6a9c09cdUL },
+ { &fnv_test_str[53], (Fnv32_t) 0x2384f10aUL },
+ { &fnv_test_str[54], (Fnv32_t) 0xda993a47UL },
+ { &fnv_test_str[55], (Fnv32_t) 0x8227df4fUL },
+ { &fnv_test_str[56], (Fnv32_t) 0x4c298165UL },
+ { &fnv_test_str[57], (Fnv32_t) 0xfc563735UL },
+ { &fnv_test_str[58], (Fnv32_t) 0x8cb91483UL },
+ { &fnv_test_str[59], (Fnv32_t) 0x775bf5d0UL },
+ { &fnv_test_str[60], (Fnv32_t) 0xd5c428d0UL },
+ { &fnv_test_str[61], (Fnv32_t) 0x34cc0ea3UL },
+ { &fnv_test_str[62], (Fnv32_t) 0xea3b4cb7UL },
+ { &fnv_test_str[63], (Fnv32_t) 0x8e59f029UL },
+ { &fnv_test_str[64], (Fnv32_t) 0x2094de2bUL },
+ { &fnv_test_str[65], (Fnv32_t) 0xa65a0ad4UL },
+ { &fnv_test_str[66], (Fnv32_t) 0x9bbee5f4UL },
+ { &fnv_test_str[67], (Fnv32_t) 0xbe836343UL },
+ { &fnv_test_str[68], (Fnv32_t) 0x22d5344eUL },
+ { &fnv_test_str[69], (Fnv32_t) 0x19a1470cUL },
+ { &fnv_test_str[70], (Fnv32_t) 0x4a56b1ffUL },
+ { &fnv_test_str[71], (Fnv32_t) 0x70b8e86fUL },
+ { &fnv_test_str[72], (Fnv32_t) 0x0a5b4a39UL },
+ { &fnv_test_str[73], (Fnv32_t) 0xb5c3f670UL },
+ { &fnv_test_str[74], (Fnv32_t) 0x53cc3f70UL },
+ { &fnv_test_str[75], (Fnv32_t) 0xc03b0a99UL },
+ { &fnv_test_str[76], (Fnv32_t) 0x7259c415UL },
+ { &fnv_test_str[77], (Fnv32_t) 0x4095108bUL },
+ { &fnv_test_str[78], (Fnv32_t) 0x7559bdb1UL },
+ { &fnv_test_str[79], (Fnv32_t) 0xb3bf0bbcUL },
+ { &fnv_test_str[80], (Fnv32_t) 0x2183ff1cUL },
+ { &fnv_test_str[81], (Fnv32_t) 0x2bd54279UL },
+ { &fnv_test_str[82], (Fnv32_t) 0x23a156caUL },
+ { &fnv_test_str[83], (Fnv32_t) 0x64e2d7e4UL },
+ { &fnv_test_str[84], (Fnv32_t) 0x683af69aUL },
+ { &fnv_test_str[85], (Fnv32_t) 0xaed2346eUL },
+ { &fnv_test_str[86], (Fnv32_t) 0x4f9f2cabUL },
+ { &fnv_test_str[87], (Fnv32_t) 0x02935131UL },
+ { &fnv_test_str[88], (Fnv32_t) 0xc48fb86dUL },
+ { &fnv_test_str[89], (Fnv32_t) 0x2269f369UL },
+ { &fnv_test_str[90], (Fnv32_t) 0xc18fb3b4UL },
+ { &fnv_test_str[91], (Fnv32_t) 0x50ef1236UL },
+ { &fnv_test_str[92], (Fnv32_t) 0xc28fb547UL },
+ { &fnv_test_str[93], (Fnv32_t) 0x96c3bf47UL },
+ { &fnv_test_str[94], (Fnv32_t) 0xbf8fb08eUL },
+ { &fnv_test_str[95], (Fnv32_t) 0xf3e4d49cUL },
+ { &fnv_test_str[96], (Fnv32_t) 0x32179058UL },
+ { &fnv_test_str[97], (Fnv32_t) 0x280bfee6UL },
+ { &fnv_test_str[98], (Fnv32_t) 0x30178d32UL },
+ { &fnv_test_str[99], (Fnv32_t) 0x21addaf8UL },
+ { &fnv_test_str[100], (Fnv32_t) 0x4217a988UL },
+ { &fnv_test_str[101], (Fnv32_t) 0x772633d6UL },
+ { &fnv_test_str[102], (Fnv32_t) 0x08a3d11eUL },
+ { &fnv_test_str[103], (Fnv32_t) 0xb7e2323aUL },
+ { &fnv_test_str[104], (Fnv32_t) 0x07a3cf8bUL },
+ { &fnv_test_str[105], (Fnv32_t) 0x91dfb7d1UL },
+ { &fnv_test_str[106], (Fnv32_t) 0x06a3cdf8UL },
+ { &fnv_test_str[107], (Fnv32_t) 0x6bdd3d68UL },
+ { &fnv_test_str[108], (Fnv32_t) 0x1d5636a7UL },
+ { &fnv_test_str[109], (Fnv32_t) 0xd5b808e5UL },
+ { &fnv_test_str[110], (Fnv32_t) 0x1353e852UL },
+ { &fnv_test_str[111], (Fnv32_t) 0xbf16b916UL },
+ { &fnv_test_str[112], (Fnv32_t) 0xa55b89edUL },
+ { &fnv_test_str[113], (Fnv32_t) 0x3c1a2017UL },
+ { &fnv_test_str[114], (Fnv32_t) 0x0588b13cUL },
+ { &fnv_test_str[115], (Fnv32_t) 0xf22f0174UL },
+ { &fnv_test_str[116], (Fnv32_t) 0xe83641e1UL },
+ { &fnv_test_str[117], (Fnv32_t) 0x6e69b533UL },
+ { &fnv_test_str[118], (Fnv32_t) 0xf1760448UL },
+ { &fnv_test_str[119], (Fnv32_t) 0x64c8bd58UL },
+ { &fnv_test_str[120], (Fnv32_t) 0x97b4ea23UL },
+ { &fnv_test_str[121], (Fnv32_t) 0x9a4e92e6UL },
+ { &fnv_test_str[122], (Fnv32_t) 0xcfb14012UL },
+ { &fnv_test_str[123], (Fnv32_t) 0xf01b2511UL },
+ { &fnv_test_str[124], (Fnv32_t) 0x0bbb59c3UL },
+ { &fnv_test_str[125], (Fnv32_t) 0xce524afaUL },
+ { &fnv_test_str[126], (Fnv32_t) 0xdd16ef45UL },
+ { &fnv_test_str[127], (Fnv32_t) 0x60648bb3UL },
+ { &fnv_test_str[128], (Fnv32_t) 0x7fa4bcfcUL },
+ { &fnv_test_str[129], (Fnv32_t) 0x5053ae17UL },
+ { &fnv_test_str[130], (Fnv32_t) 0xc9302890UL },
+ { &fnv_test_str[131], (Fnv32_t) 0x956ded32UL },
+ { &fnv_test_str[132], (Fnv32_t) 0x9136db84UL },
+ { &fnv_test_str[133], (Fnv32_t) 0xdf9d3323UL },
+ { &fnv_test_str[134], (Fnv32_t) 0x32bb6cd0UL },
+ { &fnv_test_str[135], (Fnv32_t) 0xc8f8385bUL },
+ { &fnv_test_str[136], (Fnv32_t) 0xeb08bfbaUL },
+ { &fnv_test_str[137], (Fnv32_t) 0x62cc8e3dUL },
+ { &fnv_test_str[138], (Fnv32_t) 0xc3e20f5cUL },
+ { &fnv_test_str[139], (Fnv32_t) 0x39e97f17UL },
+ { &fnv_test_str[140], (Fnv32_t) 0x7837b203UL },
+ { &fnv_test_str[141], (Fnv32_t) 0x319e877bUL },
+ { &fnv_test_str[142], (Fnv32_t) 0xd3e63f89UL },
+ { &fnv_test_str[143], (Fnv32_t) 0x29b50b38UL },
+ { &fnv_test_str[144], (Fnv32_t) 0x5ed678b8UL },
+ { &fnv_test_str[145], (Fnv32_t) 0xb0d5b793UL },
+ { &fnv_test_str[146], (Fnv32_t) 0x52450be5UL },
+ { &fnv_test_str[147], (Fnv32_t) 0xfa72d767UL },
+ { &fnv_test_str[148], (Fnv32_t) 0x95066709UL },
+ { &fnv_test_str[149], (Fnv32_t) 0x7f52e123UL },
+ { &fnv_test_str[150], (Fnv32_t) 0x76966481UL },
+ { &fnv_test_str[151], (Fnv32_t) 0x063258b0UL },
+ { &fnv_test_str[152], (Fnv32_t) 0x2ded6e8aUL },
+ { &fnv_test_str[153], (Fnv32_t) 0xb07d7c52UL },
+ { &fnv_test_str[154], (Fnv32_t) 0xd0c71b71UL },
+ { &fnv_test_str[155], (Fnv32_t) 0xf684f1bdUL },
+ { &fnv_test_str[156], (Fnv32_t) 0x868ecfa8UL },
+ { &fnv_test_str[157], (Fnv32_t) 0xf794f684UL },
+ { &fnv_test_str[158], (Fnv32_t) 0xd19701c3UL },
+ { &fnv_test_str[159], (Fnv32_t) 0x346e171eUL },
+ { &fnv_test_str[160], (Fnv32_t) 0x91f8f676UL },
+ { &fnv_test_str[161], (Fnv32_t) 0x0bf58848UL },
+ { &fnv_test_str[162], (Fnv32_t) 0x6317b6d1UL },
+ { &fnv_test_str[163], (Fnv32_t) 0xafad4c54UL },
+ { &fnv_test_str[164], (Fnv32_t) 0x0f25681eUL },
+ { &fnv_test_str[165], (Fnv32_t) 0x91b18d49UL },
+ { &fnv_test_str[166], (Fnv32_t) 0x7d61c12eUL },
+ { &fnv_test_str[167], (Fnv32_t) 0x5147d25cUL },
+ { &fnv_test_str[168], (Fnv32_t) 0x9a8b6805UL },
+ { &fnv_test_str[169], (Fnv32_t) 0x4cd2a447UL },
+ { &fnv_test_str[170], (Fnv32_t) 0x1e549b14UL },
+ { &fnv_test_str[171], (Fnv32_t) 0x2fe1b574UL },
+ { &fnv_test_str[172], (Fnv32_t) 0xcf0cd31eUL },
+ { &fnv_test_str[173], (Fnv32_t) 0x6c471669UL },
+ { &fnv_test_str[174], (Fnv32_t) 0x0e5eef1eUL },
+ { &fnv_test_str[175], (Fnv32_t) 0x2bed3602UL },
+ { &fnv_test_str[176], (Fnv32_t) 0xb26249e0UL },
+ { &fnv_test_str[177], (Fnv32_t) 0x2c9b86a4UL },
+ { &fnv_test_str[178], (Fnv32_t) 0xe415e2bbUL },
+ { &fnv_test_str[179], (Fnv32_t) 0x18a98d1dUL },
+ { &fnv_test_str[180], (Fnv32_t) 0xb7df8b7bUL },
+ { &fnv_test_str[181], (Fnv32_t) 0x241e9075UL },
+ { &fnv_test_str[182], (Fnv32_t) 0x063f70ddUL },
+ { &fnv_test_str[183], (Fnv32_t) 0x0295aed9UL },
+ { &fnv_test_str[184], (Fnv32_t) 0x56a7f781UL },
+ { &fnv_test_str[185], (Fnv32_t) 0x253bc645UL },
+ { &fnv_test_str[186], (Fnv32_t) 0x46610921UL },
+ { &fnv_test_str[187], (Fnv32_t) 0x7c1577f9UL },
+ { &fnv_test_str[188], (Fnv32_t) 0x512b2851UL },
+ { &fnv_test_str[189], (Fnv32_t) 0x76823999UL },
+ { &fnv_test_str[190], (Fnv32_t) 0xc0586935UL },
+ { &fnv_test_str[191], (Fnv32_t) 0xf3415c85UL },
+ { &fnv_test_str[192], (Fnv32_t) 0x0ae4ff65UL },
+ { &fnv_test_str[193], (Fnv32_t) 0x58b79725UL },
+ { &fnv_test_str[194], (Fnv32_t) 0xdea43aa5UL },
+ { &fnv_test_str[195], (Fnv32_t) 0x2bb3be35UL },
+ { &fnv_test_str[196], (Fnv32_t) 0xea777a45UL },
+ { &fnv_test_str[197], (Fnv32_t) 0x8f21c305UL },
+ { &fnv_test_str[198], (Fnv32_t) 0x5c9d0865UL },
+ { &fnv_test_str[199], (Fnv32_t) 0xfa823dd5UL },
+ { &fnv_test_str[200], (Fnv32_t) 0x21a27271UL },
+ { &fnv_test_str[201], (Fnv32_t) 0x83c5c6d5UL },
+ { &fnv_test_str[202], (Fnv32_t) 0x813b0881UL },
+ { NULL, 0 }
+};
+
+/* FNV-0 64 bit test vectors */
+#if defined(HAVE_64BIT_LONG_LONG)
+struct fnv0_64_test_vector fnv0_64_vector[] = {
+ { &fnv_test_str[0], (Fnv64_t) 0x0000000000000000ULL },
+ { &fnv_test_str[1], (Fnv64_t) 0x0000000000000061ULL },
+ { &fnv_test_str[2], (Fnv64_t) 0x0000000000000062ULL },
+ { &fnv_test_str[3], (Fnv64_t) 0x0000000000000063ULL },
+ { &fnv_test_str[4], (Fnv64_t) 0x0000000000000064ULL },
+ { &fnv_test_str[5], (Fnv64_t) 0x0000000000000065ULL },
+ { &fnv_test_str[6], (Fnv64_t) 0x0000000000000066ULL },
+ { &fnv_test_str[7], (Fnv64_t) 0x000066000000ad3dULL },
+ { &fnv_test_str[8], (Fnv64_t) 0x015a8f0001265ec8ULL },
+ { &fnv_test_str[9], (Fnv64_t) 0x733fc501f4330dbaULL },
+ { &fnv_test_str[10], (Fnv64_t) 0x08697c51f2c0536fULL },
+ { &fnv_test_str[11], (Fnv64_t) 0x0b91ae3f7ccdc5efULL },
+ { &fnv_test_str[12], (Fnv64_t) 0x0000000000000000ULL },
+ { &fnv_test_str[13], (Fnv64_t) 0x000061000000a4d3ULL },
+ { &fnv_test_str[14], (Fnv64_t) 0x000062000000a686ULL },
+ { &fnv_test_str[15], (Fnv64_t) 0x000063000000a839ULL },
+ { &fnv_test_str[16], (Fnv64_t) 0x000064000000a9ecULL },
+ { &fnv_test_str[17], (Fnv64_t) 0x000065000000ab9fULL },
+ { &fnv_test_str[18], (Fnv64_t) 0x000066000000ad52ULL },
+ { &fnv_test_str[19], (Fnv64_t) 0x015a8f0001265ea7ULL },
+ { &fnv_test_str[20], (Fnv64_t) 0x733fc501f4330dd8ULL },
+ { &fnv_test_str[21], (Fnv64_t) 0x08697c51f2c0530eULL },
+ { &fnv_test_str[22], (Fnv64_t) 0x0b91ae3f7ccdc59dULL },
+ { &fnv_test_str[23], (Fnv64_t) 0x765104e111a7551dULL },
+ { &fnv_test_str[24], (Fnv64_t) 0x000063000000a851ULL },
+ { &fnv_test_str[25], (Fnv64_t) 0x01508a00011e01ccULL },
+ { &fnv_test_str[26], (Fnv64_t) 0x59dc4a01e5fd0dcaULL },
+ { &fnv_test_str[27], (Fnv64_t) 0xae5f8b39ccfe6e59ULL },
+ { &fnv_test_str[28], (Fnv64_t) 0x4ac7ec3754558154ULL },
+ { &fnv_test_str[29], (Fnv64_t) 0x6737b6044d4ac19cULL },
+ { &fnv_test_str[30], (Fnv64_t) 0xae6be54f5606fc63ULL },
+ { &fnv_test_str[31], (Fnv64_t) 0x685308cf2ddedc58ULL },
+ { &fnv_test_str[32], (Fnv64_t) 0x23f4500af1b069fbULL },
+ { &fnv_test_str[33], (Fnv64_t) 0xc88dfd98aec415a1ULL },
+ { &fnv_test_str[34], (Fnv64_t) 0x8d5b8b70f730c0fbULL },
+ { &fnv_test_str[35], (Fnv64_t) 0x634eebf407d7eae4ULL },
+ { &fnv_test_str[36], (Fnv64_t) 0x9705d3a953e4211eULL },
+ { &fnv_test_str[37], (Fnv64_t) 0x8307c6b98ca4459fULL },
+ { &fnv_test_str[38], (Fnv64_t) 0x4a7c4c49fb224d0cULL },
+ { &fnv_test_str[39], (Fnv64_t) 0xb382adb5bb48eb6eULL },
+ { &fnv_test_str[40], (Fnv64_t) 0x01508a00011e01a3ULL },
+ { &fnv_test_str[41], (Fnv64_t) 0x59dc4a01e5fd0da4ULL },
+ { &fnv_test_str[42], (Fnv64_t) 0xae5f8b39ccfe6e3eULL },
+ { &fnv_test_str[43], (Fnv64_t) 0x4ac7ec375455813bULL },
+ { &fnv_test_str[44], (Fnv64_t) 0x6737b6044d4ac1bcULL },
+ { &fnv_test_str[45], (Fnv64_t) 0xae6be54f5606fc14ULL },
+ { &fnv_test_str[46], (Fnv64_t) 0x685308cf2ddedc39ULL },
+ { &fnv_test_str[47], (Fnv64_t) 0x23f4500af1b06988ULL },
+ { &fnv_test_str[48], (Fnv64_t) 0xc88dfd98aec41581ULL },
+ { &fnv_test_str[49], (Fnv64_t) 0x8d5b8b70f730c093ULL },
+ { &fnv_test_str[50], (Fnv64_t) 0x634eebf407d7ea81ULL },
+ { &fnv_test_str[51], (Fnv64_t) 0x9705d3a953e4216cULL },
+ { &fnv_test_str[52], (Fnv64_t) 0x8307c6b98ca445faULL },
+ { &fnv_test_str[53], (Fnv64_t) 0x4a7c4c49fb224d2dULL },
+ { &fnv_test_str[54], (Fnv64_t) 0xb382adb5bb48eb64ULL },
+ { &fnv_test_str[55], (Fnv64_t) 0x4ff899cd3ce80beaULL },
+ { &fnv_test_str[56], (Fnv64_t) 0x000063000000a84cULL },
+ { &fnv_test_str[57], (Fnv64_t) 0x01508500011df956ULL },
+ { &fnv_test_str[58], (Fnv64_t) 0x59cb5501e5eead46ULL },
+ { &fnv_test_str[59], (Fnv64_t) 0x832eb839b4906d81ULL },
+ { &fnv_test_str[60], (Fnv64_t) 0x78d08b0dd16a1213ULL },
+ { &fnv_test_str[61], (Fnv64_t) 0xb46e5b7ad73cb628ULL },
+ { &fnv_test_str[62], (Fnv64_t) 0xd43b99bbbc298596ULL },
+ { &fnv_test_str[63], (Fnv64_t) 0xcacbd000ba8dfd86ULL },
+ { &fnv_test_str[64], (Fnv64_t) 0x264ff73cff45ca92ULL },
+ { &fnv_test_str[65], (Fnv64_t) 0x5fabaea5c3973661ULL },
+ { &fnv_test_str[66], (Fnv64_t) 0x27f024ab59f166bbULL },
+ { &fnv_test_str[67], (Fnv64_t) 0xce750a29d5318fa4ULL },
+ { &fnv_test_str[68], (Fnv64_t) 0x026fe915433713d5ULL },
+ { &fnv_test_str[69], (Fnv64_t) 0x5b3ce4213696b2e5ULL },
+ { &fnv_test_str[70], (Fnv64_t) 0x01508500011df924ULL },
+ { &fnv_test_str[71], (Fnv64_t) 0x59cb5501e5eead22ULL },
+ { &fnv_test_str[72], (Fnv64_t) 0x832eb839b4906df2ULL },
+ { &fnv_test_str[73], (Fnv64_t) 0x78d08b0dd16a1233ULL },
+ { &fnv_test_str[74], (Fnv64_t) 0xb46e5b7ad73cb649ULL },
+ { &fnv_test_str[75], (Fnv64_t) 0xd43b99bbbc2985f8ULL },
+ { &fnv_test_str[76], (Fnv64_t) 0xcacbd000ba8dfde2ULL },
+ { &fnv_test_str[77], (Fnv64_t) 0x264ff73cff45cab2ULL },
+ { &fnv_test_str[78], (Fnv64_t) 0x5fabaea5c3973616ULL },
+ { &fnv_test_str[79], (Fnv64_t) 0x27f024ab59f166d3ULL },
+ { &fnv_test_str[80], (Fnv64_t) 0xce750a29d5318fc1ULL },
+ { &fnv_test_str[81], (Fnv64_t) 0x026fe915433713acULL },
+ { &fnv_test_str[82], (Fnv64_t) 0x5b3ce4213696b2efULL },
+ { &fnv_test_str[83], (Fnv64_t) 0x9f2a896fc211fb1fULL },
+ { &fnv_test_str[84], (Fnv64_t) 0x000068000000b0d1ULL },
+ { &fnv_test_str[85], (Fnv64_t) 0x01618900012c7323ULL },
+ { &fnv_test_str[86], (Fnv64_t) 0x3fa86e63bc7d03c8ULL },
+ { &fnv_test_str[87], (Fnv64_t) 0xa8375b79486d6cd8ULL },
+ { &fnv_test_str[88], (Fnv64_t) 0xa0d18504e316ac54ULL },
+ { &fnv_test_str[89], (Fnv64_t) 0x08a97b0004e7fe54ULL },
+ { &fnv_test_str[90], (Fnv64_t) 0xa0d18504e316ac57ULL },
+ { &fnv_test_str[91], (Fnv64_t) 0x1152f60009cffda9ULL },
+ { &fnv_test_str[92], (Fnv64_t) 0xa0d18504e316ac56ULL },
+ { &fnv_test_str[93], (Fnv64_t) 0x19fc71000eb7fcfeULL },
+ { &fnv_test_str[94], (Fnv64_t) 0xa0d18504e316ac51ULL },
+ { &fnv_test_str[95], (Fnv64_t) 0x22a5ec00139ffa53ULL },
+ { &fnv_test_str[96], (Fnv64_t) 0x29bed00139779a33ULL },
+ { &fnv_test_str[97], (Fnv64_t) 0x4dbc81014e3c19f5ULL },
+ { &fnv_test_str[98], (Fnv64_t) 0x29bed00139779a3dULL },
+ { &fnv_test_str[99], (Fnv64_t) 0x81a72b016b9f7573ULL },
+ { &fnv_test_str[100], (Fnv64_t) 0x29bed00139779a23ULL },
+ { &fnv_test_str[101], (Fnv64_t) 0xd85411019cbbce45ULL },
+ { &fnv_test_str[102], (Fnv64_t) 0xf548616b8621d657ULL },
+ { &fnv_test_str[103], (Fnv64_t) 0xebd3e0b4eb7f35d5ULL },
+ { &fnv_test_str[104], (Fnv64_t) 0xf548616b8621d654ULL },
+ { &fnv_test_str[105], (Fnv64_t) 0xebd3ddb4eb7f30bcULL },
+ { &fnv_test_str[106], (Fnv64_t) 0xf548616b8621d655ULL },
+ { &fnv_test_str[107], (Fnv64_t) 0xebd3deb4eb7f326fULL },
+ { &fnv_test_str[108], (Fnv64_t) 0x581cb60340ab0968ULL },
+ { &fnv_test_str[109], (Fnv64_t) 0x63d2af86e2a0fbb8ULL },
+ { &fnv_test_str[110], (Fnv64_t) 0x581cb70340ab0b37ULL },
+ { &fnv_test_str[111], (Fnv64_t) 0x63d63186e2a40e75ULL },
+ { &fnv_test_str[112], (Fnv64_t) 0x581cc40340ab212eULL },
+ { &fnv_test_str[113], (Fnv64_t) 0x64023f86e2c9612aULL },
+ { &fnv_test_str[114], (Fnv64_t) 0xdbda6a26c33c909fULL },
+ { &fnv_test_str[115], (Fnv64_t) 0xd0b2feddbfe9be2dULL },
+ { &fnv_test_str[116], (Fnv64_t) 0x9c9eae3f5d037decULL },
+ { &fnv_test_str[117], (Fnv64_t) 0x252001ab0ceef804ULL },
+ { &fnv_test_str[118], (Fnv64_t) 0x4456a56f9e05cfefULL },
+ { &fnv_test_str[119], (Fnv64_t) 0x250b0ba983e0531dULL },
+ { &fnv_test_str[120], (Fnv64_t) 0x52b007213b27b33eULL },
+ { &fnv_test_str[121], (Fnv64_t) 0xcbf29ce484222325ULL },
+ { &fnv_test_str[122], (Fnv64_t) 0xaf63bd4c8601b7dfULL },
+ { &fnv_test_str[123], (Fnv64_t) 0x128599ccddae09f8ULL },
+ { &fnv_test_str[124], (Fnv64_t) 0x270e4f1caebaf068ULL },
+ { &fnv_test_str[125], (Fnv64_t) 0x01517d497446a395ULL },
+ { &fnv_test_str[126], (Fnv64_t) 0x9af5a29a89450b40ULL },
+ { &fnv_test_str[127], (Fnv64_t) 0xb502f6c063ba72e8ULL },
+ { &fnv_test_str[128], (Fnv64_t) 0xacf41561498ca7dfULL },
+ { &fnv_test_str[129], (Fnv64_t) 0x6be8c2423a351542ULL },
+ { &fnv_test_str[130], (Fnv64_t) 0xd04f1f6da96ce4a3ULL },
+ { &fnv_test_str[131], (Fnv64_t) 0x69eb9a8f282c7235ULL },
+ { &fnv_test_str[132], (Fnv64_t) 0x6a7e5a418f77cfc5ULL },
+ { &fnv_test_str[133], (Fnv64_t) 0xbcaf568ddc2ecba0ULL },
+ { &fnv_test_str[134], (Fnv64_t) 0xb03b5cc4c38f8b1fULL },
+ { &fnv_test_str[135], (Fnv64_t) 0xf89a9f51432db828ULL },
+ { &fnv_test_str[136], (Fnv64_t) 0x549e856be6103429ULL },
+ { &fnv_test_str[137], (Fnv64_t) 0x3cf50d224d29377aULL },
+ { &fnv_test_str[138], (Fnv64_t) 0xdb762df418c10c37ULL },
+ { &fnv_test_str[139], (Fnv64_t) 0xfeeb4226b0e9a6baULL },
+ { &fnv_test_str[140], (Fnv64_t) 0x7004a4cd9310c052ULL },
+ { &fnv_test_str[141], (Fnv64_t) 0xd1c727d7f5329276ULL },
+ { &fnv_test_str[142], (Fnv64_t) 0xbe313796596ce908ULL },
+ { &fnv_test_str[143], (Fnv64_t) 0x768f67ede090fcc5ULL },
+ { &fnv_test_str[144], (Fnv64_t) 0xa81563cc9db9bfc3ULL },
+ { &fnv_test_str[145], (Fnv64_t) 0x47194043c55197a8ULL },
+ { &fnv_test_str[146], (Fnv64_t) 0xc99d81864aebab02ULL },
+ { &fnv_test_str[147], (Fnv64_t) 0xcc1f161b235ea4a2ULL },
+ { &fnv_test_str[148], (Fnv64_t) 0xaadab0c420ecd434ULL },
+ { &fnv_test_str[149], (Fnv64_t) 0x6b3c034d6f44d740ULL },
+ { &fnv_test_str[150], (Fnv64_t) 0x73a45e850602cbc6ULL },
+ { &fnv_test_str[151], (Fnv64_t) 0x72360f04f0cd227bULL },
+ { &fnv_test_str[152], (Fnv64_t) 0xa9ca80be384a778fULL },
+ { &fnv_test_str[153], (Fnv64_t) 0xd4085e66906889e3ULL },
+ { &fnv_test_str[154], (Fnv64_t) 0x93aa8b2748efdbc8ULL },
+ { &fnv_test_str[155], (Fnv64_t) 0x6f8cd678407436a2ULL },
+ { &fnv_test_str[156], (Fnv64_t) 0xf39a43d4dc8be4c7ULL },
+ { &fnv_test_str[157], (Fnv64_t) 0xd7f5cec91125d245ULL },
+ { &fnv_test_str[158], (Fnv64_t) 0x691d7b73be18adc4ULL },
+ { &fnv_test_str[159], (Fnv64_t) 0xf4361e01caf6b691ULL },
+ { &fnv_test_str[160], (Fnv64_t) 0xde7d8264f64be089ULL },
+ { &fnv_test_str[161], (Fnv64_t) 0xa34ff43e5545c06fULL },
+ { &fnv_test_str[162], (Fnv64_t) 0x181f0b8e908a2bdeULL },
+ { &fnv_test_str[163], (Fnv64_t) 0x28a965b78ddbc071ULL },
+ { &fnv_test_str[164], (Fnv64_t) 0xead9cea0e3cc6ae5ULL },
+ { &fnv_test_str[165], (Fnv64_t) 0x0b6743153b43ebbaULL },
+ { &fnv_test_str[166], (Fnv64_t) 0xa7aa3f012c74528dULL },
+ { &fnv_test_str[167], (Fnv64_t) 0x2d5d8ad7f9dffeb7ULL },
+ { &fnv_test_str[168], (Fnv64_t) 0x00750fb6e19624eaULL },
+ { &fnv_test_str[169], (Fnv64_t) 0x01c125a4e6c76c82ULL },
+ { &fnv_test_str[170], (Fnv64_t) 0x3fde3afac0722f1fULL },
+ { &fnv_test_str[171], (Fnv64_t) 0xd7c3eaf4abaa379dULL },
+ { &fnv_test_str[172], (Fnv64_t) 0xd2217e1c923c9f3fULL },
+ { &fnv_test_str[173], (Fnv64_t) 0x82d0a2e3b725caf6ULL },
+ { &fnv_test_str[174], (Fnv64_t) 0x0a10bee8eeb72e4fULL },
+ { &fnv_test_str[175], (Fnv64_t) 0xc530e8723e72c6fdULL },
+ { &fnv_test_str[176], (Fnv64_t) 0xd8d34dcd2e7bad99ULL },
+ { &fnv_test_str[177], (Fnv64_t) 0xecf77466e9a2baf3ULL },
+ { &fnv_test_str[178], (Fnv64_t) 0xde3d2ddb043b9666ULL },
+ { &fnv_test_str[179], (Fnv64_t) 0xd1cc824e1a8157d8ULL },
+ { &fnv_test_str[180], (Fnv64_t) 0x7d5c68ecbc90512eULL },
+ { &fnv_test_str[181], (Fnv64_t) 0x2f7c691b1d7c76d8ULL },
+ { &fnv_test_str[182], (Fnv64_t) 0x5d88c2bad3a46bc8ULL },
+ { &fnv_test_str[183], (Fnv64_t) 0xdf107320276647a0ULL },
+ { &fnv_test_str[184], (Fnv64_t) 0x0f78f22e7e70e9bcULL },
+ { &fnv_test_str[185], (Fnv64_t) 0x8c67be5c80f67d04ULL },
+ { &fnv_test_str[186], (Fnv64_t) 0x07c1adfa4d019194ULL },
+ { &fnv_test_str[187], (Fnv64_t) 0xce1312420c5b1af4ULL },
+ { &fnv_test_str[188], (Fnv64_t) 0x043a41b2dc53ab24ULL },
+ { &fnv_test_str[189], (Fnv64_t) 0x0b038eebf7340860ULL },
+ { &fnv_test_str[190], (Fnv64_t) 0x1bcd837353fb69b0ULL },
+ { &fnv_test_str[191], (Fnv64_t) 0x46f992fc59eff180ULL },
+ { &fnv_test_str[192], (Fnv64_t) 0x497678ee29ae79c0ULL },
+ { &fnv_test_str[193], (Fnv64_t) 0xb10a62280ddd4450ULL },
+ { &fnv_test_str[194], (Fnv64_t) 0x35eb228db4d68140ULL },
+ { &fnv_test_str[195], (Fnv64_t) 0x8b350e86d9470870ULL },
+ { &fnv_test_str[196], (Fnv64_t) 0x4e1fbdb2812e9540ULL },
+ { &fnv_test_str[197], (Fnv64_t) 0x051e080df69a0600ULL },
+ { &fnv_test_str[198], (Fnv64_t) 0x45e1e8ae54dadb40ULL },
+ { &fnv_test_str[199], (Fnv64_t) 0x0000000000000000ULL },
+ { &fnv_test_str[200], (Fnv64_t) 0xcd73806290557064ULL },
+ { &fnv_test_str[201], (Fnv64_t) 0x2613a37bbe0317c8ULL },
+ { &fnv_test_str[202], (Fnv64_t) 0x1480e21fcf2ae5e4ULL },
+ { NULL, (Fnv64_t) 0 }
+};
+#else /* HAVE_64BIT_LONG_LONG */
+struct fnv0_64_test_vector fnv0_64_vector[] = {
+ { &fnv_test_str[0], (Fnv64_t) {0x00000000UL, 0x00000000UL} },
+ { &fnv_test_str[1], (Fnv64_t) {0x00000061UL, 0x00000000UL} },
+ { &fnv_test_str[2], (Fnv64_t) {0x00000062UL, 0x00000000UL} },
+ { &fnv_test_str[3], (Fnv64_t) {0x00000063UL, 0x00000000UL} },
+ { &fnv_test_str[4], (Fnv64_t) {0x00000064UL, 0x00000000UL} },
+ { &fnv_test_str[5], (Fnv64_t) {0x00000065UL, 0x00000000UL} },
+ { &fnv_test_str[6], (Fnv64_t) {0x00000066UL, 0x00000000UL} },
+ { &fnv_test_str[7], (Fnv64_t) {0x0000ad3dUL, 0x00006600UL} },
+ { &fnv_test_str[8], (Fnv64_t) {0x01265ec8UL, 0x015a8f00UL} },
+ { &fnv_test_str[9], (Fnv64_t) {0xf4330dbaUL, 0x733fc501UL} },
+ { &fnv_test_str[10], (Fnv64_t) {0xf2c0536fUL, 0x08697c51UL} },
+ { &fnv_test_str[11], (Fnv64_t) {0x7ccdc5efUL, 0x0b91ae3fUL} },
+ { &fnv_test_str[12], (Fnv64_t) {0x00000000UL, 0x00000000UL} },
+ { &fnv_test_str[13], (Fnv64_t) {0x0000a4d3UL, 0x00006100UL} },
+ { &fnv_test_str[14], (Fnv64_t) {0x0000a686UL, 0x00006200UL} },
+ { &fnv_test_str[15], (Fnv64_t) {0x0000a839UL, 0x00006300UL} },
+ { &fnv_test_str[16], (Fnv64_t) {0x0000a9ecUL, 0x00006400UL} },
+ { &fnv_test_str[17], (Fnv64_t) {0x0000ab9fUL, 0x00006500UL} },
+ { &fnv_test_str[18], (Fnv64_t) {0x0000ad52UL, 0x00006600UL} },
+ { &fnv_test_str[19], (Fnv64_t) {0x01265ea7UL, 0x015a8f00UL} },
+ { &fnv_test_str[20], (Fnv64_t) {0xf4330dd8UL, 0x733fc501UL} },
+ { &fnv_test_str[21], (Fnv64_t) {0xf2c0530eUL, 0x08697c51UL} },
+ { &fnv_test_str[22], (Fnv64_t) {0x7ccdc59dUL, 0x0b91ae3fUL} },
+ { &fnv_test_str[23], (Fnv64_t) {0x11a7551dUL, 0x765104e1UL} },
+ { &fnv_test_str[24], (Fnv64_t) {0x0000a851UL, 0x00006300UL} },
+ { &fnv_test_str[25], (Fnv64_t) {0x011e01ccUL, 0x01508a00UL} },
+ { &fnv_test_str[26], (Fnv64_t) {0xe5fd0dcaUL, 0x59dc4a01UL} },
+ { &fnv_test_str[27], (Fnv64_t) {0xccfe6e59UL, 0xae5f8b39UL} },
+ { &fnv_test_str[28], (Fnv64_t) {0x54558154UL, 0x4ac7ec37UL} },
+ { &fnv_test_str[29], (Fnv64_t) {0x4d4ac19cUL, 0x6737b604UL} },
+ { &fnv_test_str[30], (Fnv64_t) {0x5606fc63UL, 0xae6be54fUL} },
+ { &fnv_test_str[31], (Fnv64_t) {0x2ddedc58UL, 0x685308cfUL} },
+ { &fnv_test_str[32], (Fnv64_t) {0xf1b069fbUL, 0x23f4500aUL} },
+ { &fnv_test_str[33], (Fnv64_t) {0xaec415a1UL, 0xc88dfd98UL} },
+ { &fnv_test_str[34], (Fnv64_t) {0xf730c0fbUL, 0x8d5b8b70UL} },
+ { &fnv_test_str[35], (Fnv64_t) {0x07d7eae4UL, 0x634eebf4UL} },
+ { &fnv_test_str[36], (Fnv64_t) {0x53e4211eUL, 0x9705d3a9UL} },
+ { &fnv_test_str[37], (Fnv64_t) {0x8ca4459fUL, 0x8307c6b9UL} },
+ { &fnv_test_str[38], (Fnv64_t) {0xfb224d0cUL, 0x4a7c4c49UL} },
+ { &fnv_test_str[39], (Fnv64_t) {0xbb48eb6eUL, 0xb382adb5UL} },
+ { &fnv_test_str[40], (Fnv64_t) {0x011e01a3UL, 0x01508a00UL} },
+ { &fnv_test_str[41], (Fnv64_t) {0xe5fd0da4UL, 0x59dc4a01UL} },
+ { &fnv_test_str[42], (Fnv64_t) {0xccfe6e3eUL, 0xae5f8b39UL} },
+ { &fnv_test_str[43], (Fnv64_t) {0x5455813bUL, 0x4ac7ec37UL} },
+ { &fnv_test_str[44], (Fnv64_t) {0x4d4ac1bcUL, 0x6737b604UL} },
+ { &fnv_test_str[45], (Fnv64_t) {0x5606fc14UL, 0xae6be54fUL} },
+ { &fnv_test_str[46], (Fnv64_t) {0x2ddedc39UL, 0x685308cfUL} },
+ { &fnv_test_str[47], (Fnv64_t) {0xf1b06988UL, 0x23f4500aUL} },
+ { &fnv_test_str[48], (Fnv64_t) {0xaec41581UL, 0xc88dfd98UL} },
+ { &fnv_test_str[49], (Fnv64_t) {0xf730c093UL, 0x8d5b8b70UL} },
+ { &fnv_test_str[50], (Fnv64_t) {0x07d7ea81UL, 0x634eebf4UL} },
+ { &fnv_test_str[51], (Fnv64_t) {0x53e4216cUL, 0x9705d3a9UL} },
+ { &fnv_test_str[52], (Fnv64_t) {0x8ca445faUL, 0x8307c6b9UL} },
+ { &fnv_test_str[53], (Fnv64_t) {0xfb224d2dUL, 0x4a7c4c49UL} },
+ { &fnv_test_str[54], (Fnv64_t) {0xbb48eb64UL, 0xb382adb5UL} },
+ { &fnv_test_str[55], (Fnv64_t) {0x3ce80beaUL, 0x4ff899cdUL} },
+ { &fnv_test_str[56], (Fnv64_t) {0x0000a84cUL, 0x00006300UL} },
+ { &fnv_test_str[57], (Fnv64_t) {0x011df956UL, 0x01508500UL} },
+ { &fnv_test_str[58], (Fnv64_t) {0xe5eead46UL, 0x59cb5501UL} },
+ { &fnv_test_str[59], (Fnv64_t) {0xb4906d81UL, 0x832eb839UL} },
+ { &fnv_test_str[60], (Fnv64_t) {0xd16a1213UL, 0x78d08b0dUL} },
+ { &fnv_test_str[61], (Fnv64_t) {0xd73cb628UL, 0xb46e5b7aUL} },
+ { &fnv_test_str[62], (Fnv64_t) {0xbc298596UL, 0xd43b99bbUL} },
+ { &fnv_test_str[63], (Fnv64_t) {0xba8dfd86UL, 0xcacbd000UL} },
+ { &fnv_test_str[64], (Fnv64_t) {0xff45ca92UL, 0x264ff73cUL} },
+ { &fnv_test_str[65], (Fnv64_t) {0xc3973661UL, 0x5fabaea5UL} },
+ { &fnv_test_str[66], (Fnv64_t) {0x59f166bbUL, 0x27f024abUL} },
+ { &fnv_test_str[67], (Fnv64_t) {0xd5318fa4UL, 0xce750a29UL} },
+ { &fnv_test_str[68], (Fnv64_t) {0x433713d5UL, 0x026fe915UL} },
+ { &fnv_test_str[69], (Fnv64_t) {0x3696b2e5UL, 0x5b3ce421UL} },
+ { &fnv_test_str[70], (Fnv64_t) {0x011df924UL, 0x01508500UL} },
+ { &fnv_test_str[71], (Fnv64_t) {0xe5eead22UL, 0x59cb5501UL} },
+ { &fnv_test_str[72], (Fnv64_t) {0xb4906df2UL, 0x832eb839UL} },
+ { &fnv_test_str[73], (Fnv64_t) {0xd16a1233UL, 0x78d08b0dUL} },
+ { &fnv_test_str[74], (Fnv64_t) {0xd73cb649UL, 0xb46e5b7aUL} },
+ { &fnv_test_str[75], (Fnv64_t) {0xbc2985f8UL, 0xd43b99bbUL} },
+ { &fnv_test_str[76], (Fnv64_t) {0xba8dfde2UL, 0xcacbd000UL} },
+ { &fnv_test_str[77], (Fnv64_t) {0xff45cab2UL, 0x264ff73cUL} },
+ { &fnv_test_str[78], (Fnv64_t) {0xc3973616UL, 0x5fabaea5UL} },
+ { &fnv_test_str[79], (Fnv64_t) {0x59f166d3UL, 0x27f024abUL} },
+ { &fnv_test_str[80], (Fnv64_t) {0xd5318fc1UL, 0xce750a29UL} },
+ { &fnv_test_str[81], (Fnv64_t) {0x433713acUL, 0x026fe915UL} },
+ { &fnv_test_str[82], (Fnv64_t) {0x3696b2efUL, 0x5b3ce421UL} },
+ { &fnv_test_str[83], (Fnv64_t) {0xc211fb1fUL, 0x9f2a896fUL} },
+ { &fnv_test_str[84], (Fnv64_t) {0x0000b0d1UL, 0x00006800UL} },
+ { &fnv_test_str[85], (Fnv64_t) {0x012c7323UL, 0x01618900UL} },
+ { &fnv_test_str[86], (Fnv64_t) {0xbc7d03c8UL, 0x3fa86e63UL} },
+ { &fnv_test_str[87], (Fnv64_t) {0x486d6cd8UL, 0xa8375b79UL} },
+ { &fnv_test_str[88], (Fnv64_t) {0xe316ac54UL, 0xa0d18504UL} },
+ { &fnv_test_str[89], (Fnv64_t) {0x04e7fe54UL, 0x08a97b00UL} },
+ { &fnv_test_str[90], (Fnv64_t) {0xe316ac57UL, 0xa0d18504UL} },
+ { &fnv_test_str[91], (Fnv64_t) {0x09cffda9UL, 0x1152f600UL} },
+ { &fnv_test_str[92], (Fnv64_t) {0xe316ac56UL, 0xa0d18504UL} },
+ { &fnv_test_str[93], (Fnv64_t) {0x0eb7fcfeUL, 0x19fc7100UL} },
+ { &fnv_test_str[94], (Fnv64_t) {0xe316ac51UL, 0xa0d18504UL} },
+ { &fnv_test_str[95], (Fnv64_t) {0x139ffa53UL, 0x22a5ec00UL} },
+ { &fnv_test_str[96], (Fnv64_t) {0x39779a33UL, 0x29bed001UL} },
+ { &fnv_test_str[97], (Fnv64_t) {0x4e3c19f5UL, 0x4dbc8101UL} },
+ { &fnv_test_str[98], (Fnv64_t) {0x39779a3dUL, 0x29bed001UL} },
+ { &fnv_test_str[99], (Fnv64_t) {0x6b9f7573UL, 0x81a72b01UL} },
+ { &fnv_test_str[100], (Fnv64_t) {0x39779a23UL, 0x29bed001UL} },
+ { &fnv_test_str[101], (Fnv64_t) {0x9cbbce45UL, 0xd8541101UL} },
+ { &fnv_test_str[102], (Fnv64_t) {0x8621d657UL, 0xf548616bUL} },
+ { &fnv_test_str[103], (Fnv64_t) {0xeb7f35d5UL, 0xebd3e0b4UL} },
+ { &fnv_test_str[104], (Fnv64_t) {0x8621d654UL, 0xf548616bUL} },
+ { &fnv_test_str[105], (Fnv64_t) {0xeb7f30bcUL, 0xebd3ddb4UL} },
+ { &fnv_test_str[106], (Fnv64_t) {0x8621d655UL, 0xf548616bUL} },
+ { &fnv_test_str[107], (Fnv64_t) {0xeb7f326fUL, 0xebd3deb4UL} },
+ { &fnv_test_str[108], (Fnv64_t) {0x40ab0968UL, 0x581cb603UL} },
+ { &fnv_test_str[109], (Fnv64_t) {0xe2a0fbb8UL, 0x63d2af86UL} },
+ { &fnv_test_str[110], (Fnv64_t) {0x40ab0b37UL, 0x581cb703UL} },
+ { &fnv_test_str[111], (Fnv64_t) {0xe2a40e75UL, 0x63d63186UL} },
+ { &fnv_test_str[112], (Fnv64_t) {0x40ab212eUL, 0x581cc403UL} },
+ { &fnv_test_str[113], (Fnv64_t) {0xe2c9612aUL, 0x64023f86UL} },
+ { &fnv_test_str[114], (Fnv64_t) {0xc33c909fUL, 0xdbda6a26UL} },
+ { &fnv_test_str[115], (Fnv64_t) {0xbfe9be2dUL, 0xd0b2feddUL} },
+ { &fnv_test_str[116], (Fnv64_t) {0x5d037decUL, 0x9c9eae3fUL} },
+ { &fnv_test_str[117], (Fnv64_t) {0x0ceef804UL, 0x252001abUL} },
+ { &fnv_test_str[118], (Fnv64_t) {0x9e05cfefUL, 0x4456a56fUL} },
+ { &fnv_test_str[119], (Fnv64_t) {0x83e0531dUL, 0x250b0ba9UL} },
+ { &fnv_test_str[120], (Fnv64_t) {0x3b27b33eUL, 0x52b00721UL} },
+ { &fnv_test_str[121], (Fnv64_t) {0x84222325UL, 0xcbf29ce4UL} },
+ { &fnv_test_str[122], (Fnv64_t) {0x8601b7dfUL, 0xaf63bd4cUL} },
+ { &fnv_test_str[123], (Fnv64_t) {0xddae09f8UL, 0x128599ccUL} },
+ { &fnv_test_str[124], (Fnv64_t) {0xaebaf068UL, 0x270e4f1cUL} },
+ { &fnv_test_str[125], (Fnv64_t) {0x7446a395UL, 0x01517d49UL} },
+ { &fnv_test_str[126], (Fnv64_t) {0x89450b40UL, 0x9af5a29aUL} },
+ { &fnv_test_str[127], (Fnv64_t) {0x63ba72e8UL, 0xb502f6c0UL} },
+ { &fnv_test_str[128], (Fnv64_t) {0x498ca7dfUL, 0xacf41561UL} },
+ { &fnv_test_str[129], (Fnv64_t) {0x3a351542UL, 0x6be8c242UL} },
+ { &fnv_test_str[130], (Fnv64_t) {0xa96ce4a3UL, 0xd04f1f6dUL} },
+ { &fnv_test_str[131], (Fnv64_t) {0x282c7235UL, 0x69eb9a8fUL} },
+ { &fnv_test_str[132], (Fnv64_t) {0x8f77cfc5UL, 0x6a7e5a41UL} },
+ { &fnv_test_str[133], (Fnv64_t) {0xdc2ecba0UL, 0xbcaf568dUL} },
+ { &fnv_test_str[134], (Fnv64_t) {0xc38f8b1fUL, 0xb03b5cc4UL} },
+ { &fnv_test_str[135], (Fnv64_t) {0x432db828UL, 0xf89a9f51UL} },
+ { &fnv_test_str[136], (Fnv64_t) {0xe6103429UL, 0x549e856bUL} },
+ { &fnv_test_str[137], (Fnv64_t) {0x4d29377aUL, 0x3cf50d22UL} },
+ { &fnv_test_str[138], (Fnv64_t) {0x18c10c37UL, 0xdb762df4UL} },
+ { &fnv_test_str[139], (Fnv64_t) {0xb0e9a6baUL, 0xfeeb4226UL} },
+ { &fnv_test_str[140], (Fnv64_t) {0x9310c052UL, 0x7004a4cdUL} },
+ { &fnv_test_str[141], (Fnv64_t) {0xf5329276UL, 0xd1c727d7UL} },
+ { &fnv_test_str[142], (Fnv64_t) {0x596ce908UL, 0xbe313796UL} },
+ { &fnv_test_str[143], (Fnv64_t) {0xe090fcc5UL, 0x768f67edUL} },
+ { &fnv_test_str[144], (Fnv64_t) {0x9db9bfc3UL, 0xa81563ccUL} },
+ { &fnv_test_str[145], (Fnv64_t) {0xc55197a8UL, 0x47194043UL} },
+ { &fnv_test_str[146], (Fnv64_t) {0x4aebab02UL, 0xc99d8186UL} },
+ { &fnv_test_str[147], (Fnv64_t) {0x235ea4a2UL, 0xcc1f161bUL} },
+ { &fnv_test_str[148], (Fnv64_t) {0x20ecd434UL, 0xaadab0c4UL} },
+ { &fnv_test_str[149], (Fnv64_t) {0x6f44d740UL, 0x6b3c034dUL} },
+ { &fnv_test_str[150], (Fnv64_t) {0x0602cbc6UL, 0x73a45e85UL} },
+ { &fnv_test_str[151], (Fnv64_t) {0xf0cd227bUL, 0x72360f04UL} },
+ { &fnv_test_str[152], (Fnv64_t) {0x384a778fUL, 0xa9ca80beUL} },
+ { &fnv_test_str[153], (Fnv64_t) {0x906889e3UL, 0xd4085e66UL} },
+ { &fnv_test_str[154], (Fnv64_t) {0x48efdbc8UL, 0x93aa8b27UL} },
+ { &fnv_test_str[155], (Fnv64_t) {0x407436a2UL, 0x6f8cd678UL} },
+ { &fnv_test_str[156], (Fnv64_t) {0xdc8be4c7UL, 0xf39a43d4UL} },
+ { &fnv_test_str[157], (Fnv64_t) {0x1125d245UL, 0xd7f5cec9UL} },
+ { &fnv_test_str[158], (Fnv64_t) {0xbe18adc4UL, 0x691d7b73UL} },
+ { &fnv_test_str[159], (Fnv64_t) {0xcaf6b691UL, 0xf4361e01UL} },
+ { &fnv_test_str[160], (Fnv64_t) {0xf64be089UL, 0xde7d8264UL} },
+ { &fnv_test_str[161], (Fnv64_t) {0x5545c06fUL, 0xa34ff43eUL} },
+ { &fnv_test_str[162], (Fnv64_t) {0x908a2bdeUL, 0x181f0b8eUL} },
+ { &fnv_test_str[163], (Fnv64_t) {0x8ddbc071UL, 0x28a965b7UL} },
+ { &fnv_test_str[164], (Fnv64_t) {0xe3cc6ae5UL, 0xead9cea0UL} },
+ { &fnv_test_str[165], (Fnv64_t) {0x3b43ebbaUL, 0x0b674315UL} },
+ { &fnv_test_str[166], (Fnv64_t) {0x2c74528dUL, 0xa7aa3f01UL} },
+ { &fnv_test_str[167], (Fnv64_t) {0xf9dffeb7UL, 0x2d5d8ad7UL} },
+ { &fnv_test_str[168], (Fnv64_t) {0xe19624eaUL, 0x00750fb6UL} },
+ { &fnv_test_str[169], (Fnv64_t) {0xe6c76c82UL, 0x01c125a4UL} },
+ { &fnv_test_str[170], (Fnv64_t) {0xc0722f1fUL, 0x3fde3afaUL} },
+ { &fnv_test_str[171], (Fnv64_t) {0xabaa379dUL, 0xd7c3eaf4UL} },
+ { &fnv_test_str[172], (Fnv64_t) {0x923c9f3fUL, 0xd2217e1cUL} },
+ { &fnv_test_str[173], (Fnv64_t) {0xb725caf6UL, 0x82d0a2e3UL} },
+ { &fnv_test_str[174], (Fnv64_t) {0xeeb72e4fUL, 0x0a10bee8UL} },
+ { &fnv_test_str[175], (Fnv64_t) {0x3e72c6fdUL, 0xc530e872UL} },
+ { &fnv_test_str[176], (Fnv64_t) {0x2e7bad99UL, 0xd8d34dcdUL} },
+ { &fnv_test_str[177], (Fnv64_t) {0xe9a2baf3UL, 0xecf77466UL} },
+ { &fnv_test_str[178], (Fnv64_t) {0x043b9666UL, 0xde3d2ddbUL} },
+ { &fnv_test_str[179], (Fnv64_t) {0x1a8157d8UL, 0xd1cc824eUL} },
+ { &fnv_test_str[180], (Fnv64_t) {0xbc90512eUL, 0x7d5c68ecUL} },
+ { &fnv_test_str[181], (Fnv64_t) {0x1d7c76d8UL, 0x2f7c691bUL} },
+ { &fnv_test_str[182], (Fnv64_t) {0xd3a46bc8UL, 0x5d88c2baUL} },
+ { &fnv_test_str[183], (Fnv64_t) {0x276647a0UL, 0xdf107320UL} },
+ { &fnv_test_str[184], (Fnv64_t) {0x7e70e9bcUL, 0x0f78f22eUL} },
+ { &fnv_test_str[185], (Fnv64_t) {0x80f67d04UL, 0x8c67be5cUL} },
+ { &fnv_test_str[186], (Fnv64_t) {0x4d019194UL, 0x07c1adfaUL} },
+ { &fnv_test_str[187], (Fnv64_t) {0x0c5b1af4UL, 0xce131242UL} },
+ { &fnv_test_str[188], (Fnv64_t) {0xdc53ab24UL, 0x043a41b2UL} },
+ { &fnv_test_str[189], (Fnv64_t) {0xf7340860UL, 0x0b038eebUL} },
+ { &fnv_test_str[190], (Fnv64_t) {0x53fb69b0UL, 0x1bcd8373UL} },
+ { &fnv_test_str[191], (Fnv64_t) {0x59eff180UL, 0x46f992fcUL} },
+ { &fnv_test_str[192], (Fnv64_t) {0x29ae79c0UL, 0x497678eeUL} },
+ { &fnv_test_str[193], (Fnv64_t) {0x0ddd4450UL, 0xb10a6228UL} },
+ { &fnv_test_str[194], (Fnv64_t) {0xb4d68140UL, 0x35eb228dUL} },
+ { &fnv_test_str[195], (Fnv64_t) {0xd9470870UL, 0x8b350e86UL} },
+ { &fnv_test_str[196], (Fnv64_t) {0x812e9540UL, 0x4e1fbdb2UL} },
+ { &fnv_test_str[197], (Fnv64_t) {0xf69a0600UL, 0x051e080dUL} },
+ { &fnv_test_str[198], (Fnv64_t) {0x54dadb40UL, 0x45e1e8aeUL} },
+ { &fnv_test_str[199], (Fnv64_t) {0x00000000UL, 0x00000000UL} },
+ { &fnv_test_str[200], (Fnv64_t) {0x90557064UL, 0xcd738062UL} },
+ { &fnv_test_str[201], (Fnv64_t) {0xbe0317c8UL, 0x2613a37bUL} },
+ { &fnv_test_str[202], (Fnv64_t) {0xcf2ae5e4UL, 0x1480e21fUL} },
+ { NULL, (Fnv64_t) {0,0} }
+};
+#endif /* HAVE_64BIT_LONG_LONG */
+
+/* FNV-1 64 bit test vectors */
+#if defined(HAVE_64BIT_LONG_LONG)
+struct fnv1_64_test_vector fnv1_64_vector[] = {
+ { &fnv_test_str[0], (Fnv64_t) 0xcbf29ce484222325ULL },
+ { &fnv_test_str[1], (Fnv64_t) 0xaf63bd4c8601b7beULL },
+ { &fnv_test_str[2], (Fnv64_t) 0xaf63bd4c8601b7bdULL },
+ { &fnv_test_str[3], (Fnv64_t) 0xaf63bd4c8601b7bcULL },
+ { &fnv_test_str[4], (Fnv64_t) 0xaf63bd4c8601b7bbULL },
+ { &fnv_test_str[5], (Fnv64_t) 0xaf63bd4c8601b7baULL },
+ { &fnv_test_str[6], (Fnv64_t) 0xaf63bd4c8601b7b9ULL },
+ { &fnv_test_str[7], (Fnv64_t) 0x08326207b4eb2f34ULL },
+ { &fnv_test_str[8], (Fnv64_t) 0xd8cbc7186ba13533ULL },
+ { &fnv_test_str[9], (Fnv64_t) 0x0378817ee2ed65cbULL },
+ { &fnv_test_str[10], (Fnv64_t) 0xd329d59b9963f790ULL },
+ { &fnv_test_str[11], (Fnv64_t) 0x340d8765a4dda9c2ULL },
+ { &fnv_test_str[12], (Fnv64_t) 0xaf63bd4c8601b7dfULL },
+ { &fnv_test_str[13], (Fnv64_t) 0x08326707b4eb37daULL },
+ { &fnv_test_str[14], (Fnv64_t) 0x08326607b4eb3627ULL },
+ { &fnv_test_str[15], (Fnv64_t) 0x08326507b4eb3474ULL },
+ { &fnv_test_str[16], (Fnv64_t) 0x08326407b4eb32c1ULL },
+ { &fnv_test_str[17], (Fnv64_t) 0x08326307b4eb310eULL },
+ { &fnv_test_str[18], (Fnv64_t) 0x08326207b4eb2f5bULL },
+ { &fnv_test_str[19], (Fnv64_t) 0xd8cbc7186ba1355cULL },
+ { &fnv_test_str[20], (Fnv64_t) 0x0378817ee2ed65a9ULL },
+ { &fnv_test_str[21], (Fnv64_t) 0xd329d59b9963f7f1ULL },
+ { &fnv_test_str[22], (Fnv64_t) 0x340d8765a4dda9b0ULL },
+ { &fnv_test_str[23], (Fnv64_t) 0x50a6d3b724a774a6ULL },
+ { &fnv_test_str[24], (Fnv64_t) 0x08326507b4eb341cULL },
+ { &fnv_test_str[25], (Fnv64_t) 0xd8d5c8186ba98bfbULL },
+ { &fnv_test_str[26], (Fnv64_t) 0x1ccefc7ef118dbefULL },
+ { &fnv_test_str[27], (Fnv64_t) 0x0c92fab3ad3db77aULL },
+ { &fnv_test_str[28], (Fnv64_t) 0x9b77794f5fdec421ULL },
+ { &fnv_test_str[29], (Fnv64_t) 0x0ac742dfe7874433ULL },
+ { &fnv_test_str[30], (Fnv64_t) 0xd7dad5766ad8e2deULL },
+ { &fnv_test_str[31], (Fnv64_t) 0xa1bb96378e897f5bULL },
+ { &fnv_test_str[32], (Fnv64_t) 0x5b3f9b6733a367d2ULL },
+ { &fnv_test_str[33], (Fnv64_t) 0xb07ce25cbea969f6ULL },
+ { &fnv_test_str[34], (Fnv64_t) 0x8d9e9997f9df0d6aULL },
+ { &fnv_test_str[35], (Fnv64_t) 0x838c673d9603cb7bULL },
+ { &fnv_test_str[36], (Fnv64_t) 0x8b5ee8a5e872c273ULL },
+ { &fnv_test_str[37], (Fnv64_t) 0x4507c4e9fb00690cULL },
+ { &fnv_test_str[38], (Fnv64_t) 0x4c9ca59581b27f45ULL },
+ { &fnv_test_str[39], (Fnv64_t) 0xe0aca20b624e4235ULL },
+ { &fnv_test_str[40], (Fnv64_t) 0xd8d5c8186ba98b94ULL },
+ { &fnv_test_str[41], (Fnv64_t) 0x1ccefc7ef118db81ULL },
+ { &fnv_test_str[42], (Fnv64_t) 0x0c92fab3ad3db71dULL },
+ { &fnv_test_str[43], (Fnv64_t) 0x9b77794f5fdec44eULL },
+ { &fnv_test_str[44], (Fnv64_t) 0x0ac742dfe7874413ULL },
+ { &fnv_test_str[45], (Fnv64_t) 0xd7dad5766ad8e2a9ULL },
+ { &fnv_test_str[46], (Fnv64_t) 0xa1bb96378e897f3aULL },
+ { &fnv_test_str[47], (Fnv64_t) 0x5b3f9b6733a367a1ULL },
+ { &fnv_test_str[48], (Fnv64_t) 0xb07ce25cbea969d6ULL },
+ { &fnv_test_str[49], (Fnv64_t) 0x8d9e9997f9df0d02ULL },
+ { &fnv_test_str[50], (Fnv64_t) 0x838c673d9603cb1eULL },
+ { &fnv_test_str[51], (Fnv64_t) 0x8b5ee8a5e872c201ULL },
+ { &fnv_test_str[52], (Fnv64_t) 0x4507c4e9fb006969ULL },
+ { &fnv_test_str[53], (Fnv64_t) 0x4c9ca59581b27f64ULL },
+ { &fnv_test_str[54], (Fnv64_t) 0xe0aca20b624e423fULL },
+ { &fnv_test_str[55], (Fnv64_t) 0x13998e580afa800fULL },
+ { &fnv_test_str[56], (Fnv64_t) 0x08326507b4eb3401ULL },
+ { &fnv_test_str[57], (Fnv64_t) 0xd8d5ad186ba95dc1ULL },
+ { &fnv_test_str[58], (Fnv64_t) 0x1c72e17ef0ca4e97ULL },
+ { &fnv_test_str[59], (Fnv64_t) 0x2183c1b327c38ae6ULL },
+ { &fnv_test_str[60], (Fnv64_t) 0xb66d096c914504f2ULL },
+ { &fnv_test_str[61], (Fnv64_t) 0x404bf57ad8476757ULL },
+ { &fnv_test_str[62], (Fnv64_t) 0x887976bd815498bbULL },
+ { &fnv_test_str[63], (Fnv64_t) 0x3afd7f02c2bf85a5ULL },
+ { &fnv_test_str[64], (Fnv64_t) 0xfc4476b0eb70177fULL },
+ { &fnv_test_str[65], (Fnv64_t) 0x186d2da00f77ecbaULL },
+ { &fnv_test_str[66], (Fnv64_t) 0xf97140fa48c74066ULL },
+ { &fnv_test_str[67], (Fnv64_t) 0xa2b1cf49aa926d37ULL },
+ { &fnv_test_str[68], (Fnv64_t) 0x0690712cd6cf940cULL },
+ { &fnv_test_str[69], (Fnv64_t) 0xf7045b3102b8906eULL },
+ { &fnv_test_str[70], (Fnv64_t) 0xd8d5ad186ba95db3ULL },
+ { &fnv_test_str[71], (Fnv64_t) 0x1c72e17ef0ca4ef3ULL },
+ { &fnv_test_str[72], (Fnv64_t) 0x2183c1b327c38a95ULL },
+ { &fnv_test_str[73], (Fnv64_t) 0xb66d096c914504d2ULL },
+ { &fnv_test_str[74], (Fnv64_t) 0x404bf57ad8476736ULL },
+ { &fnv_test_str[75], (Fnv64_t) 0x887976bd815498d5ULL },
+ { &fnv_test_str[76], (Fnv64_t) 0x3afd7f02c2bf85c1ULL },
+ { &fnv_test_str[77], (Fnv64_t) 0xfc4476b0eb70175fULL },
+ { &fnv_test_str[78], (Fnv64_t) 0x186d2da00f77eccdULL },
+ { &fnv_test_str[79], (Fnv64_t) 0xf97140fa48c7400eULL },
+ { &fnv_test_str[80], (Fnv64_t) 0xa2b1cf49aa926d52ULL },
+ { &fnv_test_str[81], (Fnv64_t) 0x0690712cd6cf9475ULL },
+ { &fnv_test_str[82], (Fnv64_t) 0xf7045b3102b89064ULL },
+ { &fnv_test_str[83], (Fnv64_t) 0x74f762479f9d6aeaULL },
+ { &fnv_test_str[84], (Fnv64_t) 0x08326007b4eb2b9cULL },
+ { &fnv_test_str[85], (Fnv64_t) 0xd8c4c9186b9b1a14ULL },
+ { &fnv_test_str[86], (Fnv64_t) 0x7b495389bdbdd4c7ULL },
+ { &fnv_test_str[87], (Fnv64_t) 0x3b6dba0d69908e25ULL },
+ { &fnv_test_str[88], (Fnv64_t) 0xd6b2b17bf4b71261ULL },
+ { &fnv_test_str[89], (Fnv64_t) 0x447bfb7f98e615b5ULL },
+ { &fnv_test_str[90], (Fnv64_t) 0xd6b2b17bf4b71262ULL },
+ { &fnv_test_str[91], (Fnv64_t) 0x3bd2807f93fe1660ULL },
+ { &fnv_test_str[92], (Fnv64_t) 0xd6b2b17bf4b71263ULL },
+ { &fnv_test_str[93], (Fnv64_t) 0x3329057f8f16170bULL },
+ { &fnv_test_str[94], (Fnv64_t) 0xd6b2b17bf4b71264ULL },
+ { &fnv_test_str[95], (Fnv64_t) 0x2a7f8a7f8a2e19b6ULL },
+ { &fnv_test_str[96], (Fnv64_t) 0x23d3767e64b2f98aULL },
+ { &fnv_test_str[97], (Fnv64_t) 0xff768d7e4f9d86a4ULL },
+ { &fnv_test_str[98], (Fnv64_t) 0x23d3767e64b2f984ULL },
+ { &fnv_test_str[99], (Fnv64_t) 0xccd1837e334e4aa6ULL },
+ { &fnv_test_str[100], (Fnv64_t) 0x23d3767e64b2f99aULL },
+ { &fnv_test_str[101], (Fnv64_t) 0x7691fd7e028f6754ULL },
+ { &fnv_test_str[102], (Fnv64_t) 0x34ad3b1041204318ULL },
+ { &fnv_test_str[103], (Fnv64_t) 0xa29e749ea9d201c8ULL },
+ { &fnv_test_str[104], (Fnv64_t) 0x34ad3b104120431bULL },
+ { &fnv_test_str[105], (Fnv64_t) 0xa29e779ea9d206e1ULL },
+ { &fnv_test_str[106], (Fnv64_t) 0x34ad3b104120431aULL },
+ { &fnv_test_str[107], (Fnv64_t) 0xa29e769ea9d2052eULL },
+ { &fnv_test_str[108], (Fnv64_t) 0x02a17ebca4aa3497ULL },
+ { &fnv_test_str[109], (Fnv64_t) 0x229ef18bcd375c95ULL },
+ { &fnv_test_str[110], (Fnv64_t) 0x02a17dbca4aa32c8ULL },
+ { &fnv_test_str[111], (Fnv64_t) 0x229b6f8bcd3449d8ULL },
+ { &fnv_test_str[112], (Fnv64_t) 0x02a184bca4aa3ed5ULL },
+ { &fnv_test_str[113], (Fnv64_t) 0x22b3618bcd48c3efULL },
+ { &fnv_test_str[114], (Fnv64_t) 0x5c2c346706186f36ULL },
+ { &fnv_test_str[115], (Fnv64_t) 0xb78c410f5b84f8c2ULL },
+ { &fnv_test_str[116], (Fnv64_t) 0xed9478212b267395ULL },
+ { &fnv_test_str[117], (Fnv64_t) 0xd9bbb55c5256662fULL },
+ { &fnv_test_str[118], (Fnv64_t) 0x8c54f0203249438aULL },
+ { &fnv_test_str[119], (Fnv64_t) 0xbd9790b5727dc37eULL },
+ { &fnv_test_str[120], (Fnv64_t) 0xa64e5f36c9e2b0e3ULL },
+ { &fnv_test_str[121], (Fnv64_t) 0x8fd0680da3088a04ULL },
+ { &fnv_test_str[122], (Fnv64_t) 0x67aad32c078284ccULL },
+ { &fnv_test_str[123], (Fnv64_t) 0xb37d55d81c57b331ULL },
+ { &fnv_test_str[124], (Fnv64_t) 0x55ac0f3829057c43ULL },
+ { &fnv_test_str[125], (Fnv64_t) 0xcb27f4b8e1b6cc20ULL },
+ { &fnv_test_str[126], (Fnv64_t) 0x26caf88bcbef2d19ULL },
+ { &fnv_test_str[127], (Fnv64_t) 0x8e6e063b97e61b8fULL },
+ { &fnv_test_str[128], (Fnv64_t) 0xb42750f7f3b7c37eULL },
+ { &fnv_test_str[129], (Fnv64_t) 0xf3c6ba64cf7ca99bULL },
+ { &fnv_test_str[130], (Fnv64_t) 0xebfb69b427ea80feULL },
+ { &fnv_test_str[131], (Fnv64_t) 0x39b50c3ed970f46cULL },
+ { &fnv_test_str[132], (Fnv64_t) 0x5b9b177aa3eb3e8aULL },
+ { &fnv_test_str[133], (Fnv64_t) 0x6510063ecf4ec903ULL },
+ { &fnv_test_str[134], (Fnv64_t) 0x2b3bbd2c00797c7aULL },
+ { &fnv_test_str[135], (Fnv64_t) 0xf1d6204ff5cb4aa7ULL },
+ { &fnv_test_str[136], (Fnv64_t) 0x4836e27ccf099f38ULL },
+ { &fnv_test_str[137], (Fnv64_t) 0x82efbb0dd073b44dULL },
+ { &fnv_test_str[138], (Fnv64_t) 0x4a80c282ffd7d4c6ULL },
+ { &fnv_test_str[139], (Fnv64_t) 0x305d1a9c9ee43bdfULL },
+ { &fnv_test_str[140], (Fnv64_t) 0x15c366948ffc6997ULL },
+ { &fnv_test_str[141], (Fnv64_t) 0x80153ae218916e7bULL },
+ { &fnv_test_str[142], (Fnv64_t) 0xfa23e2bdf9e2a9e1ULL },
+ { &fnv_test_str[143], (Fnv64_t) 0xd47e8d8a2333c6deULL },
+ { &fnv_test_str[144], (Fnv64_t) 0x7e128095f688b056ULL },
+ { &fnv_test_str[145], (Fnv64_t) 0x2f5356890efcedabULL },
+ { &fnv_test_str[146], (Fnv64_t) 0x95c2b383014f55c5ULL },
+ { &fnv_test_str[147], (Fnv64_t) 0x4727a5339ce6070fULL },
+ { &fnv_test_str[148], (Fnv64_t) 0xb0555ecd575108e9ULL },
+ { &fnv_test_str[149], (Fnv64_t) 0x48d785770bb4af37ULL },
+ { &fnv_test_str[150], (Fnv64_t) 0x09d4701c12af02b1ULL },
+ { &fnv_test_str[151], (Fnv64_t) 0x79f031e78f3cf62eULL },
+ { &fnv_test_str[152], (Fnv64_t) 0x52a1ee85db1b5a94ULL },
+ { &fnv_test_str[153], (Fnv64_t) 0x6bd95b2eb37fa6b8ULL },
+ { &fnv_test_str[154], (Fnv64_t) 0x74971b7077aef85dULL },
+ { &fnv_test_str[155], (Fnv64_t) 0xb4e4fae2ffcc1aadULL },
+ { &fnv_test_str[156], (Fnv64_t) 0x2bd48bd898b8f63aULL },
+ { &fnv_test_str[157], (Fnv64_t) 0xe9966ac1556257f6ULL },
+ { &fnv_test_str[158], (Fnv64_t) 0x92a3d1cd078ba293ULL },
+ { &fnv_test_str[159], (Fnv64_t) 0xf81175a482e20ab8ULL },
+ { &fnv_test_str[160], (Fnv64_t) 0x5bbb3de722e73048ULL },
+ { &fnv_test_str[161], (Fnv64_t) 0x6b4f363492b9f2beULL },
+ { &fnv_test_str[162], (Fnv64_t) 0xc2d559df73d59875ULL },
+ { &fnv_test_str[163], (Fnv64_t) 0xf75f62284bc7a8c2ULL },
+ { &fnv_test_str[164], (Fnv64_t) 0xda8dd8e116a9f1ccULL },
+ { &fnv_test_str[165], (Fnv64_t) 0xbdc1e6ab76057885ULL },
+ { &fnv_test_str[166], (Fnv64_t) 0xfec6a4238a1224a0ULL },
+ { &fnv_test_str[167], (Fnv64_t) 0xc03f40f3223e290eULL },
+ { &fnv_test_str[168], (Fnv64_t) 0x1ed21673466ffda9ULL },
+ { &fnv_test_str[169], (Fnv64_t) 0xdf70f906bb0dd2afULL },
+ { &fnv_test_str[170], (Fnv64_t) 0xf3dcda369f2af666ULL },
+ { &fnv_test_str[171], (Fnv64_t) 0x9ebb11573cdcebdeULL },
+ { &fnv_test_str[172], (Fnv64_t) 0x81c72d9077fedca0ULL },
+ { &fnv_test_str[173], (Fnv64_t) 0x0ec074a31be5fb15ULL },
+ { &fnv_test_str[174], (Fnv64_t) 0x2a8b3280b6c48f20ULL },
+ { &fnv_test_str[175], (Fnv64_t) 0xfd31777513309344ULL },
+ { &fnv_test_str[176], (Fnv64_t) 0x194534a86ad006b6ULL },
+ { &fnv_test_str[177], (Fnv64_t) 0x3be6fdf46e0cfe12ULL },
+ { &fnv_test_str[178], (Fnv64_t) 0x017cc137a07eb057ULL },
+ { &fnv_test_str[179], (Fnv64_t) 0x9428fc6e7d26b54dULL },
+ { &fnv_test_str[180], (Fnv64_t) 0x9aaa2e3603ef8ad7ULL },
+ { &fnv_test_str[181], (Fnv64_t) 0x82c6d3f3a0ccdf7dULL },
+ { &fnv_test_str[182], (Fnv64_t) 0xc86eeea00cf09b65ULL },
+ { &fnv_test_str[183], (Fnv64_t) 0x705f8189dbb58299ULL },
+ { &fnv_test_str[184], (Fnv64_t) 0x415a7f554391ca69ULL },
+ { &fnv_test_str[185], (Fnv64_t) 0xcfe3d49fa2bdc555ULL },
+ { &fnv_test_str[186], (Fnv64_t) 0xf0f9c56039b25191ULL },
+ { &fnv_test_str[187], (Fnv64_t) 0x7075cb6abd1d32d9ULL },
+ { &fnv_test_str[188], (Fnv64_t) 0x43c94e2c8b277509ULL },
+ { &fnv_test_str[189], (Fnv64_t) 0x3cbfd4e4ea670359ULL },
+ { &fnv_test_str[190], (Fnv64_t) 0xc05887810f4d019dULL },
+ { &fnv_test_str[191], (Fnv64_t) 0x14468ff93ac22dc5ULL },
+ { &fnv_test_str[192], (Fnv64_t) 0xebed699589d99c05ULL },
+ { &fnv_test_str[193], (Fnv64_t) 0x6d99f6df321ca5d5ULL },
+ { &fnv_test_str[194], (Fnv64_t) 0x0cd410d08c36d625ULL },
+ { &fnv_test_str[195], (Fnv64_t) 0xef1b2a2c86831d35ULL },
+ { &fnv_test_str[196], (Fnv64_t) 0x3b349c4d69ee5f05ULL },
+ { &fnv_test_str[197], (Fnv64_t) 0x55248ce88f45f035ULL },
+ { &fnv_test_str[198], (Fnv64_t) 0xaa69ca6a18a4c885ULL },
+ { &fnv_test_str[199], (Fnv64_t) 0x1fe3fce62bd816b5ULL },
+ { &fnv_test_str[200], (Fnv64_t) 0x0289a488a8df69d9ULL },
+ { &fnv_test_str[201], (Fnv64_t) 0x15e96e1613df98b5ULL },
+ { &fnv_test_str[202], (Fnv64_t) 0xe6be57375ad89b99ULL },
+ { NULL, (Fnv64_t) 0 }
+};
+#else /* HAVE_64BIT_LONG_LONG */
+struct fnv1_64_test_vector fnv1_64_vector[] = {
+ { &fnv_test_str[0], (Fnv64_t) {0x84222325UL, 0xcbf29ce4UL} },
+ { &fnv_test_str[1], (Fnv64_t) {0x8601b7beUL, 0xaf63bd4cUL} },
+ { &fnv_test_str[2], (Fnv64_t) {0x8601b7bdUL, 0xaf63bd4cUL} },
+ { &fnv_test_str[3], (Fnv64_t) {0x8601b7bcUL, 0xaf63bd4cUL} },
+ { &fnv_test_str[4], (Fnv64_t) {0x8601b7bbUL, 0xaf63bd4cUL} },
+ { &fnv_test_str[5], (Fnv64_t) {0x8601b7baUL, 0xaf63bd4cUL} },
+ { &fnv_test_str[6], (Fnv64_t) {0x8601b7b9UL, 0xaf63bd4cUL} },
+ { &fnv_test_str[7], (Fnv64_t) {0xb4eb2f34UL, 0x08326207UL} },
+ { &fnv_test_str[8], (Fnv64_t) {0x6ba13533UL, 0xd8cbc718UL} },
+ { &fnv_test_str[9], (Fnv64_t) {0xe2ed65cbUL, 0x0378817eUL} },
+ { &fnv_test_str[10], (Fnv64_t) {0x9963f790UL, 0xd329d59bUL} },
+ { &fnv_test_str[11], (Fnv64_t) {0xa4dda9c2UL, 0x340d8765UL} },
+ { &fnv_test_str[12], (Fnv64_t) {0x8601b7dfUL, 0xaf63bd4cUL} },
+ { &fnv_test_str[13], (Fnv64_t) {0xb4eb37daUL, 0x08326707UL} },
+ { &fnv_test_str[14], (Fnv64_t) {0xb4eb3627UL, 0x08326607UL} },
+ { &fnv_test_str[15], (Fnv64_t) {0xb4eb3474UL, 0x08326507UL} },
+ { &fnv_test_str[16], (Fnv64_t) {0xb4eb32c1UL, 0x08326407UL} },
+ { &fnv_test_str[17], (Fnv64_t) {0xb4eb310eUL, 0x08326307UL} },
+ { &fnv_test_str[18], (Fnv64_t) {0xb4eb2f5bUL, 0x08326207UL} },
+ { &fnv_test_str[19], (Fnv64_t) {0x6ba1355cUL, 0xd8cbc718UL} },
+ { &fnv_test_str[20], (Fnv64_t) {0xe2ed65a9UL, 0x0378817eUL} },
+ { &fnv_test_str[21], (Fnv64_t) {0x9963f7f1UL, 0xd329d59bUL} },
+ { &fnv_test_str[22], (Fnv64_t) {0xa4dda9b0UL, 0x340d8765UL} },
+ { &fnv_test_str[23], (Fnv64_t) {0x24a774a6UL, 0x50a6d3b7UL} },
+ { &fnv_test_str[24], (Fnv64_t) {0xb4eb341cUL, 0x08326507UL} },
+ { &fnv_test_str[25], (Fnv64_t) {0x6ba98bfbUL, 0xd8d5c818UL} },
+ { &fnv_test_str[26], (Fnv64_t) {0xf118dbefUL, 0x1ccefc7eUL} },
+ { &fnv_test_str[27], (Fnv64_t) {0xad3db77aUL, 0x0c92fab3UL} },
+ { &fnv_test_str[28], (Fnv64_t) {0x5fdec421UL, 0x9b77794fUL} },
+ { &fnv_test_str[29], (Fnv64_t) {0xe7874433UL, 0x0ac742dfUL} },
+ { &fnv_test_str[30], (Fnv64_t) {0x6ad8e2deUL, 0xd7dad576UL} },
+ { &fnv_test_str[31], (Fnv64_t) {0x8e897f5bUL, 0xa1bb9637UL} },
+ { &fnv_test_str[32], (Fnv64_t) {0x33a367d2UL, 0x5b3f9b67UL} },
+ { &fnv_test_str[33], (Fnv64_t) {0xbea969f6UL, 0xb07ce25cUL} },
+ { &fnv_test_str[34], (Fnv64_t) {0xf9df0d6aUL, 0x8d9e9997UL} },
+ { &fnv_test_str[35], (Fnv64_t) {0x9603cb7bUL, 0x838c673dUL} },
+ { &fnv_test_str[36], (Fnv64_t) {0xe872c273UL, 0x8b5ee8a5UL} },
+ { &fnv_test_str[37], (Fnv64_t) {0xfb00690cUL, 0x4507c4e9UL} },
+ { &fnv_test_str[38], (Fnv64_t) {0x81b27f45UL, 0x4c9ca595UL} },
+ { &fnv_test_str[39], (Fnv64_t) {0x624e4235UL, 0xe0aca20bUL} },
+ { &fnv_test_str[40], (Fnv64_t) {0x6ba98b94UL, 0xd8d5c818UL} },
+ { &fnv_test_str[41], (Fnv64_t) {0xf118db81UL, 0x1ccefc7eUL} },
+ { &fnv_test_str[42], (Fnv64_t) {0xad3db71dUL, 0x0c92fab3UL} },
+ { &fnv_test_str[43], (Fnv64_t) {0x5fdec44eUL, 0x9b77794fUL} },
+ { &fnv_test_str[44], (Fnv64_t) {0xe7874413UL, 0x0ac742dfUL} },
+ { &fnv_test_str[45], (Fnv64_t) {0x6ad8e2a9UL, 0xd7dad576UL} },
+ { &fnv_test_str[46], (Fnv64_t) {0x8e897f3aUL, 0xa1bb9637UL} },
+ { &fnv_test_str[47], (Fnv64_t) {0x33a367a1UL, 0x5b3f9b67UL} },
+ { &fnv_test_str[48], (Fnv64_t) {0xbea969d6UL, 0xb07ce25cUL} },
+ { &fnv_test_str[49], (Fnv64_t) {0xf9df0d02UL, 0x8d9e9997UL} },
+ { &fnv_test_str[50], (Fnv64_t) {0x9603cb1eUL, 0x838c673dUL} },
+ { &fnv_test_str[51], (Fnv64_t) {0xe872c201UL, 0x8b5ee8a5UL} },
+ { &fnv_test_str[52], (Fnv64_t) {0xfb006969UL, 0x4507c4e9UL} },
+ { &fnv_test_str[53], (Fnv64_t) {0x81b27f64UL, 0x4c9ca595UL} },
+ { &fnv_test_str[54], (Fnv64_t) {0x624e423fUL, 0xe0aca20bUL} },
+ { &fnv_test_str[55], (Fnv64_t) {0x0afa800fUL, 0x13998e58UL} },
+ { &fnv_test_str[56], (Fnv64_t) {0xb4eb3401UL, 0x08326507UL} },
+ { &fnv_test_str[57], (Fnv64_t) {0x6ba95dc1UL, 0xd8d5ad18UL} },
+ { &fnv_test_str[58], (Fnv64_t) {0xf0ca4e97UL, 0x1c72e17eUL} },
+ { &fnv_test_str[59], (Fnv64_t) {0x27c38ae6UL, 0x2183c1b3UL} },
+ { &fnv_test_str[60], (Fnv64_t) {0x914504f2UL, 0xb66d096cUL} },
+ { &fnv_test_str[61], (Fnv64_t) {0xd8476757UL, 0x404bf57aUL} },
+ { &fnv_test_str[62], (Fnv64_t) {0x815498bbUL, 0x887976bdUL} },
+ { &fnv_test_str[63], (Fnv64_t) {0xc2bf85a5UL, 0x3afd7f02UL} },
+ { &fnv_test_str[64], (Fnv64_t) {0xeb70177fUL, 0xfc4476b0UL} },
+ { &fnv_test_str[65], (Fnv64_t) {0x0f77ecbaUL, 0x186d2da0UL} },
+ { &fnv_test_str[66], (Fnv64_t) {0x48c74066UL, 0xf97140faUL} },
+ { &fnv_test_str[67], (Fnv64_t) {0xaa926d37UL, 0xa2b1cf49UL} },
+ { &fnv_test_str[68], (Fnv64_t) {0xd6cf940cUL, 0x0690712cUL} },
+ { &fnv_test_str[69], (Fnv64_t) {0x02b8906eUL, 0xf7045b31UL} },
+ { &fnv_test_str[70], (Fnv64_t) {0x6ba95db3UL, 0xd8d5ad18UL} },
+ { &fnv_test_str[71], (Fnv64_t) {0xf0ca4ef3UL, 0x1c72e17eUL} },
+ { &fnv_test_str[72], (Fnv64_t) {0x27c38a95UL, 0x2183c1b3UL} },
+ { &fnv_test_str[73], (Fnv64_t) {0x914504d2UL, 0xb66d096cUL} },
+ { &fnv_test_str[74], (Fnv64_t) {0xd8476736UL, 0x404bf57aUL} },
+ { &fnv_test_str[75], (Fnv64_t) {0x815498d5UL, 0x887976bdUL} },
+ { &fnv_test_str[76], (Fnv64_t) {0xc2bf85c1UL, 0x3afd7f02UL} },
+ { &fnv_test_str[77], (Fnv64_t) {0xeb70175fUL, 0xfc4476b0UL} },
+ { &fnv_test_str[78], (Fnv64_t) {0x0f77eccdUL, 0x186d2da0UL} },
+ { &fnv_test_str[79], (Fnv64_t) {0x48c7400eUL, 0xf97140faUL} },
+ { &fnv_test_str[80], (Fnv64_t) {0xaa926d52UL, 0xa2b1cf49UL} },
+ { &fnv_test_str[81], (Fnv64_t) {0xd6cf9475UL, 0x0690712cUL} },
+ { &fnv_test_str[82], (Fnv64_t) {0x02b89064UL, 0xf7045b31UL} },
+ { &fnv_test_str[83], (Fnv64_t) {0x9f9d6aeaUL, 0x74f76247UL} },
+ { &fnv_test_str[84], (Fnv64_t) {0xb4eb2b9cUL, 0x08326007UL} },
+ { &fnv_test_str[85], (Fnv64_t) {0x6b9b1a14UL, 0xd8c4c918UL} },
+ { &fnv_test_str[86], (Fnv64_t) {0xbdbdd4c7UL, 0x7b495389UL} },
+ { &fnv_test_str[87], (Fnv64_t) {0x69908e25UL, 0x3b6dba0dUL} },
+ { &fnv_test_str[88], (Fnv64_t) {0xf4b71261UL, 0xd6b2b17bUL} },
+ { &fnv_test_str[89], (Fnv64_t) {0x98e615b5UL, 0x447bfb7fUL} },
+ { &fnv_test_str[90], (Fnv64_t) {0xf4b71262UL, 0xd6b2b17bUL} },
+ { &fnv_test_str[91], (Fnv64_t) {0x93fe1660UL, 0x3bd2807fUL} },
+ { &fnv_test_str[92], (Fnv64_t) {0xf4b71263UL, 0xd6b2b17bUL} },
+ { &fnv_test_str[93], (Fnv64_t) {0x8f16170bUL, 0x3329057fUL} },
+ { &fnv_test_str[94], (Fnv64_t) {0xf4b71264UL, 0xd6b2b17bUL} },
+ { &fnv_test_str[95], (Fnv64_t) {0x8a2e19b6UL, 0x2a7f8a7fUL} },
+ { &fnv_test_str[96], (Fnv64_t) {0x64b2f98aUL, 0x23d3767eUL} },
+ { &fnv_test_str[97], (Fnv64_t) {0x4f9d86a4UL, 0xff768d7eUL} },
+ { &fnv_test_str[98], (Fnv64_t) {0x64b2f984UL, 0x23d3767eUL} },
+ { &fnv_test_str[99], (Fnv64_t) {0x334e4aa6UL, 0xccd1837eUL} },
+ { &fnv_test_str[100], (Fnv64_t) {0x64b2f99aUL, 0x23d3767eUL} },
+ { &fnv_test_str[101], (Fnv64_t) {0x028f6754UL, 0x7691fd7eUL} },
+ { &fnv_test_str[102], (Fnv64_t) {0x41204318UL, 0x34ad3b10UL} },
+ { &fnv_test_str[103], (Fnv64_t) {0xa9d201c8UL, 0xa29e749eUL} },
+ { &fnv_test_str[104], (Fnv64_t) {0x4120431bUL, 0x34ad3b10UL} },
+ { &fnv_test_str[105], (Fnv64_t) {0xa9d206e1UL, 0xa29e779eUL} },
+ { &fnv_test_str[106], (Fnv64_t) {0x4120431aUL, 0x34ad3b10UL} },
+ { &fnv_test_str[107], (Fnv64_t) {0xa9d2052eUL, 0xa29e769eUL} },
+ { &fnv_test_str[108], (Fnv64_t) {0xa4aa3497UL, 0x02a17ebcUL} },
+ { &fnv_test_str[109], (Fnv64_t) {0xcd375c95UL, 0x229ef18bUL} },
+ { &fnv_test_str[110], (Fnv64_t) {0xa4aa32c8UL, 0x02a17dbcUL} },
+ { &fnv_test_str[111], (Fnv64_t) {0xcd3449d8UL, 0x229b6f8bUL} },
+ { &fnv_test_str[112], (Fnv64_t) {0xa4aa3ed5UL, 0x02a184bcUL} },
+ { &fnv_test_str[113], (Fnv64_t) {0xcd48c3efUL, 0x22b3618bUL} },
+ { &fnv_test_str[114], (Fnv64_t) {0x06186f36UL, 0x5c2c3467UL} },
+ { &fnv_test_str[115], (Fnv64_t) {0x5b84f8c2UL, 0xb78c410fUL} },
+ { &fnv_test_str[116], (Fnv64_t) {0x2b267395UL, 0xed947821UL} },
+ { &fnv_test_str[117], (Fnv64_t) {0x5256662fUL, 0xd9bbb55cUL} },
+ { &fnv_test_str[118], (Fnv64_t) {0x3249438aUL, 0x8c54f020UL} },
+ { &fnv_test_str[119], (Fnv64_t) {0x727dc37eUL, 0xbd9790b5UL} },
+ { &fnv_test_str[120], (Fnv64_t) {0xc9e2b0e3UL, 0xa64e5f36UL} },
+ { &fnv_test_str[121], (Fnv64_t) {0xa3088a04UL, 0x8fd0680dUL} },
+ { &fnv_test_str[122], (Fnv64_t) {0x078284ccUL, 0x67aad32cUL} },
+ { &fnv_test_str[123], (Fnv64_t) {0x1c57b331UL, 0xb37d55d8UL} },
+ { &fnv_test_str[124], (Fnv64_t) {0x29057c43UL, 0x55ac0f38UL} },
+ { &fnv_test_str[125], (Fnv64_t) {0xe1b6cc20UL, 0xcb27f4b8UL} },
+ { &fnv_test_str[126], (Fnv64_t) {0xcbef2d19UL, 0x26caf88bUL} },
+ { &fnv_test_str[127], (Fnv64_t) {0x97e61b8fUL, 0x8e6e063bUL} },
+ { &fnv_test_str[128], (Fnv64_t) {0xf3b7c37eUL, 0xb42750f7UL} },
+ { &fnv_test_str[129], (Fnv64_t) {0xcf7ca99bUL, 0xf3c6ba64UL} },
+ { &fnv_test_str[130], (Fnv64_t) {0x27ea80feUL, 0xebfb69b4UL} },
+ { &fnv_test_str[131], (Fnv64_t) {0xd970f46cUL, 0x39b50c3eUL} },
+ { &fnv_test_str[132], (Fnv64_t) {0xa3eb3e8aUL, 0x5b9b177aUL} },
+ { &fnv_test_str[133], (Fnv64_t) {0xcf4ec903UL, 0x6510063eUL} },
+ { &fnv_test_str[134], (Fnv64_t) {0x00797c7aUL, 0x2b3bbd2cUL} },
+ { &fnv_test_str[135], (Fnv64_t) {0xf5cb4aa7UL, 0xf1d6204fUL} },
+ { &fnv_test_str[136], (Fnv64_t) {0xcf099f38UL, 0x4836e27cUL} },
+ { &fnv_test_str[137], (Fnv64_t) {0xd073b44dUL, 0x82efbb0dUL} },
+ { &fnv_test_str[138], (Fnv64_t) {0xffd7d4c6UL, 0x4a80c282UL} },
+ { &fnv_test_str[139], (Fnv64_t) {0x9ee43bdfUL, 0x305d1a9cUL} },
+ { &fnv_test_str[140], (Fnv64_t) {0x8ffc6997UL, 0x15c36694UL} },
+ { &fnv_test_str[141], (Fnv64_t) {0x18916e7bUL, 0x80153ae2UL} },
+ { &fnv_test_str[142], (Fnv64_t) {0xf9e2a9e1UL, 0xfa23e2bdUL} },
+ { &fnv_test_str[143], (Fnv64_t) {0x2333c6deUL, 0xd47e8d8aUL} },
+ { &fnv_test_str[144], (Fnv64_t) {0xf688b056UL, 0x7e128095UL} },
+ { &fnv_test_str[145], (Fnv64_t) {0x0efcedabUL, 0x2f535689UL} },
+ { &fnv_test_str[146], (Fnv64_t) {0x014f55c5UL, 0x95c2b383UL} },
+ { &fnv_test_str[147], (Fnv64_t) {0x9ce6070fUL, 0x4727a533UL} },
+ { &fnv_test_str[148], (Fnv64_t) {0x575108e9UL, 0xb0555ecdUL} },
+ { &fnv_test_str[149], (Fnv64_t) {0x0bb4af37UL, 0x48d78577UL} },
+ { &fnv_test_str[150], (Fnv64_t) {0x12af02b1UL, 0x09d4701cUL} },
+ { &fnv_test_str[151], (Fnv64_t) {0x8f3cf62eUL, 0x79f031e7UL} },
+ { &fnv_test_str[152], (Fnv64_t) {0xdb1b5a94UL, 0x52a1ee85UL} },
+ { &fnv_test_str[153], (Fnv64_t) {0xb37fa6b8UL, 0x6bd95b2eUL} },
+ { &fnv_test_str[154], (Fnv64_t) {0x77aef85dUL, 0x74971b70UL} },
+ { &fnv_test_str[155], (Fnv64_t) {0xffcc1aadUL, 0xb4e4fae2UL} },
+ { &fnv_test_str[156], (Fnv64_t) {0x98b8f63aUL, 0x2bd48bd8UL} },
+ { &fnv_test_str[157], (Fnv64_t) {0x556257f6UL, 0xe9966ac1UL} },
+ { &fnv_test_str[158], (Fnv64_t) {0x078ba293UL, 0x92a3d1cdUL} },
+ { &fnv_test_str[159], (Fnv64_t) {0x82e20ab8UL, 0xf81175a4UL} },
+ { &fnv_test_str[160], (Fnv64_t) {0x22e73048UL, 0x5bbb3de7UL} },
+ { &fnv_test_str[161], (Fnv64_t) {0x92b9f2beUL, 0x6b4f3634UL} },
+ { &fnv_test_str[162], (Fnv64_t) {0x73d59875UL, 0xc2d559dfUL} },
+ { &fnv_test_str[163], (Fnv64_t) {0x4bc7a8c2UL, 0xf75f6228UL} },
+ { &fnv_test_str[164], (Fnv64_t) {0x16a9f1ccUL, 0xda8dd8e1UL} },
+ { &fnv_test_str[165], (Fnv64_t) {0x76057885UL, 0xbdc1e6abUL} },
+ { &fnv_test_str[166], (Fnv64_t) {0x8a1224a0UL, 0xfec6a423UL} },
+ { &fnv_test_str[167], (Fnv64_t) {0x223e290eUL, 0xc03f40f3UL} },
+ { &fnv_test_str[168], (Fnv64_t) {0x466ffda9UL, 0x1ed21673UL} },
+ { &fnv_test_str[169], (Fnv64_t) {0xbb0dd2afUL, 0xdf70f906UL} },
+ { &fnv_test_str[170], (Fnv64_t) {0x9f2af666UL, 0xf3dcda36UL} },
+ { &fnv_test_str[171], (Fnv64_t) {0x3cdcebdeUL, 0x9ebb1157UL} },
+ { &fnv_test_str[172], (Fnv64_t) {0x77fedca0UL, 0x81c72d90UL} },
+ { &fnv_test_str[173], (Fnv64_t) {0x1be5fb15UL, 0x0ec074a3UL} },
+ { &fnv_test_str[174], (Fnv64_t) {0xb6c48f20UL, 0x2a8b3280UL} },
+ { &fnv_test_str[175], (Fnv64_t) {0x13309344UL, 0xfd317775UL} },
+ { &fnv_test_str[176], (Fnv64_t) {0x6ad006b6UL, 0x194534a8UL} },
+ { &fnv_test_str[177], (Fnv64_t) {0x6e0cfe12UL, 0x3be6fdf4UL} },
+ { &fnv_test_str[178], (Fnv64_t) {0xa07eb057UL, 0x017cc137UL} },
+ { &fnv_test_str[179], (Fnv64_t) {0x7d26b54dUL, 0x9428fc6eUL} },
+ { &fnv_test_str[180], (Fnv64_t) {0x03ef8ad7UL, 0x9aaa2e36UL} },
+ { &fnv_test_str[181], (Fnv64_t) {0xa0ccdf7dUL, 0x82c6d3f3UL} },
+ { &fnv_test_str[182], (Fnv64_t) {0x0cf09b65UL, 0xc86eeea0UL} },
+ { &fnv_test_str[183], (Fnv64_t) {0xdbb58299UL, 0x705f8189UL} },
+ { &fnv_test_str[184], (Fnv64_t) {0x4391ca69UL, 0x415a7f55UL} },
+ { &fnv_test_str[185], (Fnv64_t) {0xa2bdc555UL, 0xcfe3d49fUL} },
+ { &fnv_test_str[186], (Fnv64_t) {0x39b25191UL, 0xf0f9c560UL} },
+ { &fnv_test_str[187], (Fnv64_t) {0xbd1d32d9UL, 0x7075cb6aUL} },
+ { &fnv_test_str[188], (Fnv64_t) {0x8b277509UL, 0x43c94e2cUL} },
+ { &fnv_test_str[189], (Fnv64_t) {0xea670359UL, 0x3cbfd4e4UL} },
+ { &fnv_test_str[190], (Fnv64_t) {0x0f4d019dUL, 0xc0588781UL} },
+ { &fnv_test_str[191], (Fnv64_t) {0x3ac22dc5UL, 0x14468ff9UL} },
+ { &fnv_test_str[192], (Fnv64_t) {0x89d99c05UL, 0xebed6995UL} },
+ { &fnv_test_str[193], (Fnv64_t) {0x321ca5d5UL, 0x6d99f6dfUL} },
+ { &fnv_test_str[194], (Fnv64_t) {0x8c36d625UL, 0x0cd410d0UL} },
+ { &fnv_test_str[195], (Fnv64_t) {0x86831d35UL, 0xef1b2a2cUL} },
+ { &fnv_test_str[196], (Fnv64_t) {0x69ee5f05UL, 0x3b349c4dUL} },
+ { &fnv_test_str[197], (Fnv64_t) {0x8f45f035UL, 0x55248ce8UL} },
+ { &fnv_test_str[198], (Fnv64_t) {0x18a4c885UL, 0xaa69ca6aUL} },
+ { &fnv_test_str[199], (Fnv64_t) {0x2bd816b5UL, 0x1fe3fce6UL} },
+ { &fnv_test_str[200], (Fnv64_t) {0xa8df69d9UL, 0x0289a488UL} },
+ { &fnv_test_str[201], (Fnv64_t) {0x13df98b5UL, 0x15e96e16UL} },
+ { &fnv_test_str[202], (Fnv64_t) {0x5ad89b99UL, 0xe6be5737UL} },
+ { NULL, (Fnv64_t) {0,0} }
+};
+#endif /* HAVE_64BIT_LONG_LONG */
+
+/* FNV-1a 64 bit test vectors */
+#if defined(HAVE_64BIT_LONG_LONG)
+struct fnv1a_64_test_vector fnv1a_64_vector[] = {
+ { &fnv_test_str[0], (Fnv64_t) 0xcbf29ce484222325ULL },
+ { &fnv_test_str[1], (Fnv64_t) 0xaf63dc4c8601ec8cULL },
+ { &fnv_test_str[2], (Fnv64_t) 0xaf63df4c8601f1a5ULL },
+ { &fnv_test_str[3], (Fnv64_t) 0xaf63de4c8601eff2ULL },
+ { &fnv_test_str[4], (Fnv64_t) 0xaf63d94c8601e773ULL },
+ { &fnv_test_str[5], (Fnv64_t) 0xaf63d84c8601e5c0ULL },
+ { &fnv_test_str[6], (Fnv64_t) 0xaf63db4c8601ead9ULL },
+ { &fnv_test_str[7], (Fnv64_t) 0x08985907b541d342ULL },
+ { &fnv_test_str[8], (Fnv64_t) 0xdcb27518fed9d577ULL },
+ { &fnv_test_str[9], (Fnv64_t) 0xdd120e790c2512afULL },
+ { &fnv_test_str[10], (Fnv64_t) 0xcac165afa2fef40aULL },
+ { &fnv_test_str[11], (Fnv64_t) 0x85944171f73967e8ULL },
+ { &fnv_test_str[12], (Fnv64_t) 0xaf63bd4c8601b7dfULL },
+ { &fnv_test_str[13], (Fnv64_t) 0x089be207b544f1e4ULL },
+ { &fnv_test_str[14], (Fnv64_t) 0x08a61407b54d9b5fULL },
+ { &fnv_test_str[15], (Fnv64_t) 0x08a2ae07b54ab836ULL },
+ { &fnv_test_str[16], (Fnv64_t) 0x0891b007b53c4869ULL },
+ { &fnv_test_str[17], (Fnv64_t) 0x088e4a07b5396540ULL },
+ { &fnv_test_str[18], (Fnv64_t) 0x08987c07b5420ebbULL },
+ { &fnv_test_str[19], (Fnv64_t) 0xdcb28a18fed9f926ULL },
+ { &fnv_test_str[20], (Fnv64_t) 0xdd1270790c25b935ULL },
+ { &fnv_test_str[21], (Fnv64_t) 0xcac146afa2febf5dULL },
+ { &fnv_test_str[22], (Fnv64_t) 0x8593d371f738acfeULL },
+ { &fnv_test_str[23], (Fnv64_t) 0x34531ca7168b8f38ULL },
+ { &fnv_test_str[24], (Fnv64_t) 0x08a25607b54a22aeULL },
+ { &fnv_test_str[25], (Fnv64_t) 0xf5faf0190cf90df3ULL },
+ { &fnv_test_str[26], (Fnv64_t) 0xf27397910b3221c7ULL },
+ { &fnv_test_str[27], (Fnv64_t) 0x2c8c2b76062f22e0ULL },
+ { &fnv_test_str[28], (Fnv64_t) 0xe150688c8217b8fdULL },
+ { &fnv_test_str[29], (Fnv64_t) 0xf35a83c10e4f1f87ULL },
+ { &fnv_test_str[30], (Fnv64_t) 0xd1edd10b507344d0ULL },
+ { &fnv_test_str[31], (Fnv64_t) 0x2a5ee739b3ddb8c3ULL },
+ { &fnv_test_str[32], (Fnv64_t) 0xdcfb970ca1c0d310ULL },
+ { &fnv_test_str[33], (Fnv64_t) 0x4054da76daa6da90ULL },
+ { &fnv_test_str[34], (Fnv64_t) 0xf70a2ff589861368ULL },
+ { &fnv_test_str[35], (Fnv64_t) 0x4c628b38aed25f17ULL },
+ { &fnv_test_str[36], (Fnv64_t) 0x9dd1f6510f78189fULL },
+ { &fnv_test_str[37], (Fnv64_t) 0xa3de85bd491270ceULL },
+ { &fnv_test_str[38], (Fnv64_t) 0x858e2fa32a55e61dULL },
+ { &fnv_test_str[39], (Fnv64_t) 0x46810940eff5f915ULL },
+ { &fnv_test_str[40], (Fnv64_t) 0xf5fadd190cf8edaaULL },
+ { &fnv_test_str[41], (Fnv64_t) 0xf273ed910b32b3e9ULL },
+ { &fnv_test_str[42], (Fnv64_t) 0x2c8c5276062f6525ULL },
+ { &fnv_test_str[43], (Fnv64_t) 0xe150b98c821842a0ULL },
+ { &fnv_test_str[44], (Fnv64_t) 0xf35aa3c10e4f55e7ULL },
+ { &fnv_test_str[45], (Fnv64_t) 0xd1ed680b50729265ULL },
+ { &fnv_test_str[46], (Fnv64_t) 0x2a5f0639b3dded70ULL },
+ { &fnv_test_str[47], (Fnv64_t) 0xdcfbaa0ca1c0f359ULL },
+ { &fnv_test_str[48], (Fnv64_t) 0x4054ba76daa6a430ULL },
+ { &fnv_test_str[49], (Fnv64_t) 0xf709c7f5898562b0ULL },
+ { &fnv_test_str[50], (Fnv64_t) 0x4c62e638aed2f9b8ULL },
+ { &fnv_test_str[51], (Fnv64_t) 0x9dd1a8510f779415ULL },
+ { &fnv_test_str[52], (Fnv64_t) 0xa3de2abd4911d62dULL },
+ { &fnv_test_str[53], (Fnv64_t) 0x858e0ea32a55ae0aULL },
+ { &fnv_test_str[54], (Fnv64_t) 0x46810f40eff60347ULL },
+ { &fnv_test_str[55], (Fnv64_t) 0xc33bce57bef63eafULL },
+ { &fnv_test_str[56], (Fnv64_t) 0x08a24307b54a0265ULL },
+ { &fnv_test_str[57], (Fnv64_t) 0xf5b9fd190cc18d15ULL },
+ { &fnv_test_str[58], (Fnv64_t) 0x4c968290ace35703ULL },
+ { &fnv_test_str[59], (Fnv64_t) 0x07174bd5c64d9350ULL },
+ { &fnv_test_str[60], (Fnv64_t) 0x5a294c3ff5d18750ULL },
+ { &fnv_test_str[61], (Fnv64_t) 0x05b3c1aeb308b843ULL },
+ { &fnv_test_str[62], (Fnv64_t) 0xb92a48da37d0f477ULL },
+ { &fnv_test_str[63], (Fnv64_t) 0x73cdddccd80ebc49ULL },
+ { &fnv_test_str[64], (Fnv64_t) 0xd58c4c13210a266bULL },
+ { &fnv_test_str[65], (Fnv64_t) 0xe78b6081243ec194ULL },
+ { &fnv_test_str[66], (Fnv64_t) 0xb096f77096a39f34ULL },
+ { &fnv_test_str[67], (Fnv64_t) 0xb425c54ff807b6a3ULL },
+ { &fnv_test_str[68], (Fnv64_t) 0x23e520e2751bb46eULL },
+ { &fnv_test_str[69], (Fnv64_t) 0x1a0b44ccfe1385ecULL },
+ { &fnv_test_str[70], (Fnv64_t) 0xf5ba4b190cc2119fULL },
+ { &fnv_test_str[71], (Fnv64_t) 0x4c962690ace2baafULL },
+ { &fnv_test_str[72], (Fnv64_t) 0x0716ded5c64cda19ULL },
+ { &fnv_test_str[73], (Fnv64_t) 0x5a292c3ff5d150f0ULL },
+ { &fnv_test_str[74], (Fnv64_t) 0x05b3e0aeb308ecf0ULL },
+ { &fnv_test_str[75], (Fnv64_t) 0xb92a5eda37d119d9ULL },
+ { &fnv_test_str[76], (Fnv64_t) 0x73ce41ccd80f6635ULL },
+ { &fnv_test_str[77], (Fnv64_t) 0xd58c2c132109f00bULL },
+ { &fnv_test_str[78], (Fnv64_t) 0xe78baf81243f47d1ULL },
+ { &fnv_test_str[79], (Fnv64_t) 0xb0968f7096a2ee7cULL },
+ { &fnv_test_str[80], (Fnv64_t) 0xb425a84ff807855cULL },
+ { &fnv_test_str[81], (Fnv64_t) 0x23e4e9e2751b56f9ULL },
+ { &fnv_test_str[82], (Fnv64_t) 0x1a0b4eccfe1396eaULL },
+ { &fnv_test_str[83], (Fnv64_t) 0x54abd453bb2c9004ULL },
+ { &fnv_test_str[84], (Fnv64_t) 0x08ba5f07b55ec3daULL },
+ { &fnv_test_str[85], (Fnv64_t) 0x337354193006cb6eULL },
+ { &fnv_test_str[86], (Fnv64_t) 0xa430d84680aabd0bULL },
+ { &fnv_test_str[87], (Fnv64_t) 0xa9bc8acca21f39b1ULL },
+ { &fnv_test_str[88], (Fnv64_t) 0x6961196491cc682dULL },
+ { &fnv_test_str[89], (Fnv64_t) 0xad2bb1774799dfe9ULL },
+ { &fnv_test_str[90], (Fnv64_t) 0x6961166491cc6314ULL },
+ { &fnv_test_str[91], (Fnv64_t) 0x8d1bb3904a3b1236ULL },
+ { &fnv_test_str[92], (Fnv64_t) 0x6961176491cc64c7ULL },
+ { &fnv_test_str[93], (Fnv64_t) 0xed205d87f40434c7ULL },
+ { &fnv_test_str[94], (Fnv64_t) 0x6961146491cc5faeULL },
+ { &fnv_test_str[95], (Fnv64_t) 0xcd3baf5e44f8ad9cULL },
+ { &fnv_test_str[96], (Fnv64_t) 0xe3b36596127cd6d8ULL },
+ { &fnv_test_str[97], (Fnv64_t) 0xf77f1072c8e8a646ULL },
+ { &fnv_test_str[98], (Fnv64_t) 0xe3b36396127cd372ULL },
+ { &fnv_test_str[99], (Fnv64_t) 0x6067dce9932ad458ULL },
+ { &fnv_test_str[100], (Fnv64_t) 0xe3b37596127cf208ULL },
+ { &fnv_test_str[101], (Fnv64_t) 0x4b7b10fa9fe83936ULL },
+ { &fnv_test_str[102], (Fnv64_t) 0xaabafe7104d914beULL },
+ { &fnv_test_str[103], (Fnv64_t) 0xf4d3180b3cde3edaULL },
+ { &fnv_test_str[104], (Fnv64_t) 0xaabafd7104d9130bULL },
+ { &fnv_test_str[105], (Fnv64_t) 0xf4cfb20b3cdb5bb1ULL },
+ { &fnv_test_str[106], (Fnv64_t) 0xaabafc7104d91158ULL },
+ { &fnv_test_str[107], (Fnv64_t) 0xf4cc4c0b3cd87888ULL },
+ { &fnv_test_str[108], (Fnv64_t) 0xe729bac5d2a8d3a7ULL },
+ { &fnv_test_str[109], (Fnv64_t) 0x74bc0524f4dfa4c5ULL },
+ { &fnv_test_str[110], (Fnv64_t) 0xe72630c5d2a5b352ULL },
+ { &fnv_test_str[111], (Fnv64_t) 0x6b983224ef8fb456ULL },
+ { &fnv_test_str[112], (Fnv64_t) 0xe73042c5d2ae266dULL },
+ { &fnv_test_str[113], (Fnv64_t) 0x8527e324fdeb4b37ULL },
+ { &fnv_test_str[114], (Fnv64_t) 0x0a83c86fee952abcULL },
+ { &fnv_test_str[115], (Fnv64_t) 0x7318523267779d74ULL },
+ { &fnv_test_str[116], (Fnv64_t) 0x3e66d3d56b8caca1ULL },
+ { &fnv_test_str[117], (Fnv64_t) 0x956694a5c0095593ULL },
+ { &fnv_test_str[118], (Fnv64_t) 0xcac54572bb1a6fc8ULL },
+ { &fnv_test_str[119], (Fnv64_t) 0xa7a4c9f3edebf0d8ULL },
+ { &fnv_test_str[120], (Fnv64_t) 0x7829851fac17b143ULL },
+ { &fnv_test_str[121], (Fnv64_t) 0x2c8f4c9af81bcf06ULL },
+ { &fnv_test_str[122], (Fnv64_t) 0xd34e31539740c732ULL },
+ { &fnv_test_str[123], (Fnv64_t) 0x3605a2ac253d2db1ULL },
+ { &fnv_test_str[124], (Fnv64_t) 0x08c11b8346f4a3c3ULL },
+ { &fnv_test_str[125], (Fnv64_t) 0x6be396289ce8a6daULL },
+ { &fnv_test_str[126], (Fnv64_t) 0xd9b957fb7fe794c5ULL },
+ { &fnv_test_str[127], (Fnv64_t) 0x05be33da04560a93ULL },
+ { &fnv_test_str[128], (Fnv64_t) 0x0957f1577ba9747cULL },
+ { &fnv_test_str[129], (Fnv64_t) 0xda2cc3acc24fba57ULL },
+ { &fnv_test_str[130], (Fnv64_t) 0x74136f185b29e7f0ULL },
+ { &fnv_test_str[131], (Fnv64_t) 0xb2f2b4590edb93b2ULL },
+ { &fnv_test_str[132], (Fnv64_t) 0xb3608fce8b86ae04ULL },
+ { &fnv_test_str[133], (Fnv64_t) 0x4a3a865079359063ULL },
+ { &fnv_test_str[134], (Fnv64_t) 0x5b3a7ef496880a50ULL },
+ { &fnv_test_str[135], (Fnv64_t) 0x48fae3163854c23bULL },
+ { &fnv_test_str[136], (Fnv64_t) 0x07aaa640476e0b9aULL },
+ { &fnv_test_str[137], (Fnv64_t) 0x2f653656383a687dULL },
+ { &fnv_test_str[138], (Fnv64_t) 0xa1031f8e7599d79cULL },
+ { &fnv_test_str[139], (Fnv64_t) 0xa31908178ff92477ULL },
+ { &fnv_test_str[140], (Fnv64_t) 0x097edf3c14c3fb83ULL },
+ { &fnv_test_str[141], (Fnv64_t) 0xb51ca83feaa0971bULL },
+ { &fnv_test_str[142], (Fnv64_t) 0xdd3c0d96d784f2e9ULL },
+ { &fnv_test_str[143], (Fnv64_t) 0x86cd26a9ea767d78ULL },
+ { &fnv_test_str[144], (Fnv64_t) 0xe6b215ff54a30c18ULL },
+ { &fnv_test_str[145], (Fnv64_t) 0xec5b06a1c5531093ULL },
+ { &fnv_test_str[146], (Fnv64_t) 0x45665a929f9ec5e5ULL },
+ { &fnv_test_str[147], (Fnv64_t) 0x8c7609b4a9f10907ULL },
+ { &fnv_test_str[148], (Fnv64_t) 0x89aac3a491f0d729ULL },
+ { &fnv_test_str[149], (Fnv64_t) 0x32ce6b26e0f4a403ULL },
+ { &fnv_test_str[150], (Fnv64_t) 0x614ab44e02b53e01ULL },
+ { &fnv_test_str[151], (Fnv64_t) 0xfa6472eb6eef3290ULL },
+ { &fnv_test_str[152], (Fnv64_t) 0x9e5d75eb1948eb6aULL },
+ { &fnv_test_str[153], (Fnv64_t) 0xb6d12ad4a8671852ULL },
+ { &fnv_test_str[154], (Fnv64_t) 0x88826f56eba07af1ULL },
+ { &fnv_test_str[155], (Fnv64_t) 0x44535bf2645bc0fdULL },
+ { &fnv_test_str[156], (Fnv64_t) 0x169388ffc21e3728ULL },
+ { &fnv_test_str[157], (Fnv64_t) 0xf68aac9e396d8224ULL },
+ { &fnv_test_str[158], (Fnv64_t) 0x8e87d7e7472b3883ULL },
+ { &fnv_test_str[159], (Fnv64_t) 0x295c26caa8b423deULL },
+ { &fnv_test_str[160], (Fnv64_t) 0x322c814292e72176ULL },
+ { &fnv_test_str[161], (Fnv64_t) 0x8a06550eb8af7268ULL },
+ { &fnv_test_str[162], (Fnv64_t) 0xef86d60e661bcf71ULL },
+ { &fnv_test_str[163], (Fnv64_t) 0x9e5426c87f30ee54ULL },
+ { &fnv_test_str[164], (Fnv64_t) 0xf1ea8aa826fd047eULL },
+ { &fnv_test_str[165], (Fnv64_t) 0x0babaf9a642cb769ULL },
+ { &fnv_test_str[166], (Fnv64_t) 0x4b3341d4068d012eULL },
+ { &fnv_test_str[167], (Fnv64_t) 0xd15605cbc30a335cULL },
+ { &fnv_test_str[168], (Fnv64_t) 0x5b21060aed8412e5ULL },
+ { &fnv_test_str[169], (Fnv64_t) 0x45e2cda1ce6f4227ULL },
+ { &fnv_test_str[170], (Fnv64_t) 0x50ae3745033ad7d4ULL },
+ { &fnv_test_str[171], (Fnv64_t) 0xaa4588ced46bf414ULL },
+ { &fnv_test_str[172], (Fnv64_t) 0xc1b0056c4a95467eULL },
+ { &fnv_test_str[173], (Fnv64_t) 0x56576a71de8b4089ULL },
+ { &fnv_test_str[174], (Fnv64_t) 0xbf20965fa6dc927eULL },
+ { &fnv_test_str[175], (Fnv64_t) 0x569f8383c2040882ULL },
+ { &fnv_test_str[176], (Fnv64_t) 0xe1e772fba08feca0ULL },
+ { &fnv_test_str[177], (Fnv64_t) 0x4ced94af97138ac4ULL },
+ { &fnv_test_str[178], (Fnv64_t) 0xc4112ffb337a82fbULL },
+ { &fnv_test_str[179], (Fnv64_t) 0xd64a4fd41de38b7dULL },
+ { &fnv_test_str[180], (Fnv64_t) 0x4cfc32329edebcbbULL },
+ { &fnv_test_str[181], (Fnv64_t) 0x0803564445050395ULL },
+ { &fnv_test_str[182], (Fnv64_t) 0xaa1574ecf4642ffdULL },
+ { &fnv_test_str[183], (Fnv64_t) 0x694bc4e54cc315f9ULL },
+ { &fnv_test_str[184], (Fnv64_t) 0xa3d7cb273b011721ULL },
+ { &fnv_test_str[185], (Fnv64_t) 0x577c2f8b6115bfa5ULL },
+ { &fnv_test_str[186], (Fnv64_t) 0xb7ec8c1a769fb4c1ULL },
+ { &fnv_test_str[187], (Fnv64_t) 0x5d5cfce63359ab19ULL },
+ { &fnv_test_str[188], (Fnv64_t) 0x33b96c3cd65b5f71ULL },
+ { &fnv_test_str[189], (Fnv64_t) 0xd845097780602bb9ULL },
+ { &fnv_test_str[190], (Fnv64_t) 0x84d47645d02da3d5ULL },
+ { &fnv_test_str[191], (Fnv64_t) 0x83544f33b58773a5ULL },
+ { &fnv_test_str[192], (Fnv64_t) 0x9175cbb2160836c5ULL },
+ { &fnv_test_str[193], (Fnv64_t) 0xc71b3bc175e72bc5ULL },
+ { &fnv_test_str[194], (Fnv64_t) 0x636806ac222ec985ULL },
+ { &fnv_test_str[195], (Fnv64_t) 0xb6ef0e6950f52ed5ULL },
+ { &fnv_test_str[196], (Fnv64_t) 0xead3d8a0f3dfdaa5ULL },
+ { &fnv_test_str[197], (Fnv64_t) 0x922908fe9a861ba5ULL },
+ { &fnv_test_str[198], (Fnv64_t) 0x6d4821de275fd5c5ULL },
+ { &fnv_test_str[199], (Fnv64_t) 0x1fe3fce62bd816b5ULL },
+ { &fnv_test_str[200], (Fnv64_t) 0xc23e9fccd6f70591ULL },
+ { &fnv_test_str[201], (Fnv64_t) 0xc1af12bdfe16b5b5ULL },
+ { &fnv_test_str[202], (Fnv64_t) 0x39e9f18f2f85e221ULL },
+ { NULL, (Fnv64_t) 0 }
+};
+#else /* HAVE_64BIT_LONG_LONG */
+struct fnv1a_64_test_vector fnv1a_64_vector[] = {
+ { &fnv_test_str[0], (Fnv64_t) {0x84222325UL, 0xcbf29ce4UL} },
+ { &fnv_test_str[1], (Fnv64_t) {0x8601ec8cUL, 0xaf63dc4cUL} },
+ { &fnv_test_str[2], (Fnv64_t) {0x8601f1a5UL, 0xaf63df4cUL} },
+ { &fnv_test_str[3], (Fnv64_t) {0x8601eff2UL, 0xaf63de4cUL} },
+ { &fnv_test_str[4], (Fnv64_t) {0x8601e773UL, 0xaf63d94cUL} },
+ { &fnv_test_str[5], (Fnv64_t) {0x8601e5c0UL, 0xaf63d84cUL} },
+ { &fnv_test_str[6], (Fnv64_t) {0x8601ead9UL, 0xaf63db4cUL} },
+ { &fnv_test_str[7], (Fnv64_t) {0xb541d342UL, 0x08985907UL} },
+ { &fnv_test_str[8], (Fnv64_t) {0xfed9d577UL, 0xdcb27518UL} },
+ { &fnv_test_str[9], (Fnv64_t) {0x0c2512afUL, 0xdd120e79UL} },
+ { &fnv_test_str[10], (Fnv64_t) {0xa2fef40aUL, 0xcac165afUL} },
+ { &fnv_test_str[11], (Fnv64_t) {0xf73967e8UL, 0x85944171UL} },
+ { &fnv_test_str[12], (Fnv64_t) {0x8601b7dfUL, 0xaf63bd4cUL} },
+ { &fnv_test_str[13], (Fnv64_t) {0xb544f1e4UL, 0x089be207UL} },
+ { &fnv_test_str[14], (Fnv64_t) {0xb54d9b5fUL, 0x08a61407UL} },
+ { &fnv_test_str[15], (Fnv64_t) {0xb54ab836UL, 0x08a2ae07UL} },
+ { &fnv_test_str[16], (Fnv64_t) {0xb53c4869UL, 0x0891b007UL} },
+ { &fnv_test_str[17], (Fnv64_t) {0xb5396540UL, 0x088e4a07UL} },
+ { &fnv_test_str[18], (Fnv64_t) {0xb5420ebbUL, 0x08987c07UL} },
+ { &fnv_test_str[19], (Fnv64_t) {0xfed9f926UL, 0xdcb28a18UL} },
+ { &fnv_test_str[20], (Fnv64_t) {0x0c25b935UL, 0xdd127079UL} },
+ { &fnv_test_str[21], (Fnv64_t) {0xa2febf5dUL, 0xcac146afUL} },
+ { &fnv_test_str[22], (Fnv64_t) {0xf738acfeUL, 0x8593d371UL} },
+ { &fnv_test_str[23], (Fnv64_t) {0x168b8f38UL, 0x34531ca7UL} },
+ { &fnv_test_str[24], (Fnv64_t) {0xb54a22aeUL, 0x08a25607UL} },
+ { &fnv_test_str[25], (Fnv64_t) {0x0cf90df3UL, 0xf5faf019UL} },
+ { &fnv_test_str[26], (Fnv64_t) {0x0b3221c7UL, 0xf2739791UL} },
+ { &fnv_test_str[27], (Fnv64_t) {0x062f22e0UL, 0x2c8c2b76UL} },
+ { &fnv_test_str[28], (Fnv64_t) {0x8217b8fdUL, 0xe150688cUL} },
+ { &fnv_test_str[29], (Fnv64_t) {0x0e4f1f87UL, 0xf35a83c1UL} },
+ { &fnv_test_str[30], (Fnv64_t) {0x507344d0UL, 0xd1edd10bUL} },
+ { &fnv_test_str[31], (Fnv64_t) {0xb3ddb8c3UL, 0x2a5ee739UL} },
+ { &fnv_test_str[32], (Fnv64_t) {0xa1c0d310UL, 0xdcfb970cUL} },
+ { &fnv_test_str[33], (Fnv64_t) {0xdaa6da90UL, 0x4054da76UL} },
+ { &fnv_test_str[34], (Fnv64_t) {0x89861368UL, 0xf70a2ff5UL} },
+ { &fnv_test_str[35], (Fnv64_t) {0xaed25f17UL, 0x4c628b38UL} },
+ { &fnv_test_str[36], (Fnv64_t) {0x0f78189fUL, 0x9dd1f651UL} },
+ { &fnv_test_str[37], (Fnv64_t) {0x491270ceUL, 0xa3de85bdUL} },
+ { &fnv_test_str[38], (Fnv64_t) {0x2a55e61dUL, 0x858e2fa3UL} },
+ { &fnv_test_str[39], (Fnv64_t) {0xeff5f915UL, 0x46810940UL} },
+ { &fnv_test_str[40], (Fnv64_t) {0x0cf8edaaUL, 0xf5fadd19UL} },
+ { &fnv_test_str[41], (Fnv64_t) {0x0b32b3e9UL, 0xf273ed91UL} },
+ { &fnv_test_str[42], (Fnv64_t) {0x062f6525UL, 0x2c8c5276UL} },
+ { &fnv_test_str[43], (Fnv64_t) {0x821842a0UL, 0xe150b98cUL} },
+ { &fnv_test_str[44], (Fnv64_t) {0x0e4f55e7UL, 0xf35aa3c1UL} },
+ { &fnv_test_str[45], (Fnv64_t) {0x50729265UL, 0xd1ed680bUL} },
+ { &fnv_test_str[46], (Fnv64_t) {0xb3dded70UL, 0x2a5f0639UL} },
+ { &fnv_test_str[47], (Fnv64_t) {0xa1c0f359UL, 0xdcfbaa0cUL} },
+ { &fnv_test_str[48], (Fnv64_t) {0xdaa6a430UL, 0x4054ba76UL} },
+ { &fnv_test_str[49], (Fnv64_t) {0x898562b0UL, 0xf709c7f5UL} },
+ { &fnv_test_str[50], (Fnv64_t) {0xaed2f9b8UL, 0x4c62e638UL} },
+ { &fnv_test_str[51], (Fnv64_t) {0x0f779415UL, 0x9dd1a851UL} },
+ { &fnv_test_str[52], (Fnv64_t) {0x4911d62dUL, 0xa3de2abdUL} },
+ { &fnv_test_str[53], (Fnv64_t) {0x2a55ae0aUL, 0x858e0ea3UL} },
+ { &fnv_test_str[54], (Fnv64_t) {0xeff60347UL, 0x46810f40UL} },
+ { &fnv_test_str[55], (Fnv64_t) {0xbef63eafUL, 0xc33bce57UL} },
+ { &fnv_test_str[56], (Fnv64_t) {0xb54a0265UL, 0x08a24307UL} },
+ { &fnv_test_str[57], (Fnv64_t) {0x0cc18d15UL, 0xf5b9fd19UL} },
+ { &fnv_test_str[58], (Fnv64_t) {0xace35703UL, 0x4c968290UL} },
+ { &fnv_test_str[59], (Fnv64_t) {0xc64d9350UL, 0x07174bd5UL} },
+ { &fnv_test_str[60], (Fnv64_t) {0xf5d18750UL, 0x5a294c3fUL} },
+ { &fnv_test_str[61], (Fnv64_t) {0xb308b843UL, 0x05b3c1aeUL} },
+ { &fnv_test_str[62], (Fnv64_t) {0x37d0f477UL, 0xb92a48daUL} },
+ { &fnv_test_str[63], (Fnv64_t) {0xd80ebc49UL, 0x73cdddccUL} },
+ { &fnv_test_str[64], (Fnv64_t) {0x210a266bUL, 0xd58c4c13UL} },
+ { &fnv_test_str[65], (Fnv64_t) {0x243ec194UL, 0xe78b6081UL} },
+ { &fnv_test_str[66], (Fnv64_t) {0x96a39f34UL, 0xb096f770UL} },
+ { &fnv_test_str[67], (Fnv64_t) {0xf807b6a3UL, 0xb425c54fUL} },
+ { &fnv_test_str[68], (Fnv64_t) {0x751bb46eUL, 0x23e520e2UL} },
+ { &fnv_test_str[69], (Fnv64_t) {0xfe1385ecUL, 0x1a0b44ccUL} },
+ { &fnv_test_str[70], (Fnv64_t) {0x0cc2119fUL, 0xf5ba4b19UL} },
+ { &fnv_test_str[71], (Fnv64_t) {0xace2baafUL, 0x4c962690UL} },
+ { &fnv_test_str[72], (Fnv64_t) {0xc64cda19UL, 0x0716ded5UL} },
+ { &fnv_test_str[73], (Fnv64_t) {0xf5d150f0UL, 0x5a292c3fUL} },
+ { &fnv_test_str[74], (Fnv64_t) {0xb308ecf0UL, 0x05b3e0aeUL} },
+ { &fnv_test_str[75], (Fnv64_t) {0x37d119d9UL, 0xb92a5edaUL} },
+ { &fnv_test_str[76], (Fnv64_t) {0xd80f6635UL, 0x73ce41ccUL} },
+ { &fnv_test_str[77], (Fnv64_t) {0x2109f00bUL, 0xd58c2c13UL} },
+ { &fnv_test_str[78], (Fnv64_t) {0x243f47d1UL, 0xe78baf81UL} },
+ { &fnv_test_str[79], (Fnv64_t) {0x96a2ee7cUL, 0xb0968f70UL} },
+ { &fnv_test_str[80], (Fnv64_t) {0xf807855cUL, 0xb425a84fUL} },
+ { &fnv_test_str[81], (Fnv64_t) {0x751b56f9UL, 0x23e4e9e2UL} },
+ { &fnv_test_str[82], (Fnv64_t) {0xfe1396eaUL, 0x1a0b4eccUL} },
+ { &fnv_test_str[83], (Fnv64_t) {0xbb2c9004UL, 0x54abd453UL} },
+ { &fnv_test_str[84], (Fnv64_t) {0xb55ec3daUL, 0x08ba5f07UL} },
+ { &fnv_test_str[85], (Fnv64_t) {0x3006cb6eUL, 0x33735419UL} },
+ { &fnv_test_str[86], (Fnv64_t) {0x80aabd0bUL, 0xa430d846UL} },
+ { &fnv_test_str[87], (Fnv64_t) {0xa21f39b1UL, 0xa9bc8accUL} },
+ { &fnv_test_str[88], (Fnv64_t) {0x91cc682dUL, 0x69611964UL} },
+ { &fnv_test_str[89], (Fnv64_t) {0x4799dfe9UL, 0xad2bb177UL} },
+ { &fnv_test_str[90], (Fnv64_t) {0x91cc6314UL, 0x69611664UL} },
+ { &fnv_test_str[91], (Fnv64_t) {0x4a3b1236UL, 0x8d1bb390UL} },
+ { &fnv_test_str[92], (Fnv64_t) {0x91cc64c7UL, 0x69611764UL} },
+ { &fnv_test_str[93], (Fnv64_t) {0xf40434c7UL, 0xed205d87UL} },
+ { &fnv_test_str[94], (Fnv64_t) {0x91cc5faeUL, 0x69611464UL} },
+ { &fnv_test_str[95], (Fnv64_t) {0x44f8ad9cUL, 0xcd3baf5eUL} },
+ { &fnv_test_str[96], (Fnv64_t) {0x127cd6d8UL, 0xe3b36596UL} },
+ { &fnv_test_str[97], (Fnv64_t) {0xc8e8a646UL, 0xf77f1072UL} },
+ { &fnv_test_str[98], (Fnv64_t) {0x127cd372UL, 0xe3b36396UL} },
+ { &fnv_test_str[99], (Fnv64_t) {0x932ad458UL, 0x6067dce9UL} },
+ { &fnv_test_str[100], (Fnv64_t) {0x127cf208UL, 0xe3b37596UL} },
+ { &fnv_test_str[101], (Fnv64_t) {0x9fe83936UL, 0x4b7b10faUL} },
+ { &fnv_test_str[102], (Fnv64_t) {0x04d914beUL, 0xaabafe71UL} },
+ { &fnv_test_str[103], (Fnv64_t) {0x3cde3edaUL, 0xf4d3180bUL} },
+ { &fnv_test_str[104], (Fnv64_t) {0x04d9130bUL, 0xaabafd71UL} },
+ { &fnv_test_str[105], (Fnv64_t) {0x3cdb5bb1UL, 0xf4cfb20bUL} },
+ { &fnv_test_str[106], (Fnv64_t) {0x04d91158UL, 0xaabafc71UL} },
+ { &fnv_test_str[107], (Fnv64_t) {0x3cd87888UL, 0xf4cc4c0bUL} },
+ { &fnv_test_str[108], (Fnv64_t) {0xd2a8d3a7UL, 0xe729bac5UL} },
+ { &fnv_test_str[109], (Fnv64_t) {0xf4dfa4c5UL, 0x74bc0524UL} },
+ { &fnv_test_str[110], (Fnv64_t) {0xd2a5b352UL, 0xe72630c5UL} },
+ { &fnv_test_str[111], (Fnv64_t) {0xef8fb456UL, 0x6b983224UL} },
+ { &fnv_test_str[112], (Fnv64_t) {0xd2ae266dUL, 0xe73042c5UL} },
+ { &fnv_test_str[113], (Fnv64_t) {0xfdeb4b37UL, 0x8527e324UL} },
+ { &fnv_test_str[114], (Fnv64_t) {0xee952abcUL, 0x0a83c86fUL} },
+ { &fnv_test_str[115], (Fnv64_t) {0x67779d74UL, 0x73185232UL} },
+ { &fnv_test_str[116], (Fnv64_t) {0x6b8caca1UL, 0x3e66d3d5UL} },
+ { &fnv_test_str[117], (Fnv64_t) {0xc0095593UL, 0x956694a5UL} },
+ { &fnv_test_str[118], (Fnv64_t) {0xbb1a6fc8UL, 0xcac54572UL} },
+ { &fnv_test_str[119], (Fnv64_t) {0xedebf0d8UL, 0xa7a4c9f3UL} },
+ { &fnv_test_str[120], (Fnv64_t) {0xac17b143UL, 0x7829851fUL} },
+ { &fnv_test_str[121], (Fnv64_t) {0xf81bcf06UL, 0x2c8f4c9aUL} },
+ { &fnv_test_str[122], (Fnv64_t) {0x9740c732UL, 0xd34e3153UL} },
+ { &fnv_test_str[123], (Fnv64_t) {0x253d2db1UL, 0x3605a2acUL} },
+ { &fnv_test_str[124], (Fnv64_t) {0x46f4a3c3UL, 0x08c11b83UL} },
+ { &fnv_test_str[125], (Fnv64_t) {0x9ce8a6daUL, 0x6be39628UL} },
+ { &fnv_test_str[126], (Fnv64_t) {0x7fe794c5UL, 0xd9b957fbUL} },
+ { &fnv_test_str[127], (Fnv64_t) {0x04560a93UL, 0x05be33daUL} },
+ { &fnv_test_str[128], (Fnv64_t) {0x7ba9747cUL, 0x0957f157UL} },
+ { &fnv_test_str[129], (Fnv64_t) {0xc24fba57UL, 0xda2cc3acUL} },
+ { &fnv_test_str[130], (Fnv64_t) {0x5b29e7f0UL, 0x74136f18UL} },
+ { &fnv_test_str[131], (Fnv64_t) {0x0edb93b2UL, 0xb2f2b459UL} },
+ { &fnv_test_str[132], (Fnv64_t) {0x8b86ae04UL, 0xb3608fceUL} },
+ { &fnv_test_str[133], (Fnv64_t) {0x79359063UL, 0x4a3a8650UL} },
+ { &fnv_test_str[134], (Fnv64_t) {0x96880a50UL, 0x5b3a7ef4UL} },
+ { &fnv_test_str[135], (Fnv64_t) {0x3854c23bUL, 0x48fae316UL} },
+ { &fnv_test_str[136], (Fnv64_t) {0x476e0b9aUL, 0x07aaa640UL} },
+ { &fnv_test_str[137], (Fnv64_t) {0x383a687dUL, 0x2f653656UL} },
+ { &fnv_test_str[138], (Fnv64_t) {0x7599d79cUL, 0xa1031f8eUL} },
+ { &fnv_test_str[139], (Fnv64_t) {0x8ff92477UL, 0xa3190817UL} },
+ { &fnv_test_str[140], (Fnv64_t) {0x14c3fb83UL, 0x097edf3cUL} },
+ { &fnv_test_str[141], (Fnv64_t) {0xeaa0971bUL, 0xb51ca83fUL} },
+ { &fnv_test_str[142], (Fnv64_t) {0xd784f2e9UL, 0xdd3c0d96UL} },
+ { &fnv_test_str[143], (Fnv64_t) {0xea767d78UL, 0x86cd26a9UL} },
+ { &fnv_test_str[144], (Fnv64_t) {0x54a30c18UL, 0xe6b215ffUL} },
+ { &fnv_test_str[145], (Fnv64_t) {0xc5531093UL, 0xec5b06a1UL} },
+ { &fnv_test_str[146], (Fnv64_t) {0x9f9ec5e5UL, 0x45665a92UL} },
+ { &fnv_test_str[147], (Fnv64_t) {0xa9f10907UL, 0x8c7609b4UL} },
+ { &fnv_test_str[148], (Fnv64_t) {0x91f0d729UL, 0x89aac3a4UL} },
+ { &fnv_test_str[149], (Fnv64_t) {0xe0f4a403UL, 0x32ce6b26UL} },
+ { &fnv_test_str[150], (Fnv64_t) {0x02b53e01UL, 0x614ab44eUL} },
+ { &fnv_test_str[151], (Fnv64_t) {0x6eef3290UL, 0xfa6472ebUL} },
+ { &fnv_test_str[152], (Fnv64_t) {0x1948eb6aUL, 0x9e5d75ebUL} },
+ { &fnv_test_str[153], (Fnv64_t) {0xa8671852UL, 0xb6d12ad4UL} },
+ { &fnv_test_str[154], (Fnv64_t) {0xeba07af1UL, 0x88826f56UL} },
+ { &fnv_test_str[155], (Fnv64_t) {0x645bc0fdUL, 0x44535bf2UL} },
+ { &fnv_test_str[156], (Fnv64_t) {0xc21e3728UL, 0x169388ffUL} },
+ { &fnv_test_str[157], (Fnv64_t) {0x396d8224UL, 0xf68aac9eUL} },
+ { &fnv_test_str[158], (Fnv64_t) {0x472b3883UL, 0x8e87d7e7UL} },
+ { &fnv_test_str[159], (Fnv64_t) {0xa8b423deUL, 0x295c26caUL} },
+ { &fnv_test_str[160], (Fnv64_t) {0x92e72176UL, 0x322c8142UL} },
+ { &fnv_test_str[161], (Fnv64_t) {0xb8af7268UL, 0x8a06550eUL} },
+ { &fnv_test_str[162], (Fnv64_t) {0x661bcf71UL, 0xef86d60eUL} },
+ { &fnv_test_str[163], (Fnv64_t) {0x7f30ee54UL, 0x9e5426c8UL} },
+ { &fnv_test_str[164], (Fnv64_t) {0x26fd047eUL, 0xf1ea8aa8UL} },
+ { &fnv_test_str[165], (Fnv64_t) {0x642cb769UL, 0x0babaf9aUL} },
+ { &fnv_test_str[166], (Fnv64_t) {0x068d012eUL, 0x4b3341d4UL} },
+ { &fnv_test_str[167], (Fnv64_t) {0xc30a335cUL, 0xd15605cbUL} },
+ { &fnv_test_str[168], (Fnv64_t) {0xed8412e5UL, 0x5b21060aUL} },
+ { &fnv_test_str[169], (Fnv64_t) {0xce6f4227UL, 0x45e2cda1UL} },
+ { &fnv_test_str[170], (Fnv64_t) {0x033ad7d4UL, 0x50ae3745UL} },
+ { &fnv_test_str[171], (Fnv64_t) {0xd46bf414UL, 0xaa4588ceUL} },
+ { &fnv_test_str[172], (Fnv64_t) {0x4a95467eUL, 0xc1b0056cUL} },
+ { &fnv_test_str[173], (Fnv64_t) {0xde8b4089UL, 0x56576a71UL} },
+ { &fnv_test_str[174], (Fnv64_t) {0xa6dc927eUL, 0xbf20965fUL} },
+ { &fnv_test_str[175], (Fnv64_t) {0xc2040882UL, 0x569f8383UL} },
+ { &fnv_test_str[176], (Fnv64_t) {0xa08feca0UL, 0xe1e772fbUL} },
+ { &fnv_test_str[177], (Fnv64_t) {0x97138ac4UL, 0x4ced94afUL} },
+ { &fnv_test_str[178], (Fnv64_t) {0x337a82fbUL, 0xc4112ffbUL} },
+ { &fnv_test_str[179], (Fnv64_t) {0x1de38b7dUL, 0xd64a4fd4UL} },
+ { &fnv_test_str[180], (Fnv64_t) {0x9edebcbbUL, 0x4cfc3232UL} },
+ { &fnv_test_str[181], (Fnv64_t) {0x45050395UL, 0x08035644UL} },
+ { &fnv_test_str[182], (Fnv64_t) {0xf4642ffdUL, 0xaa1574ecUL} },
+ { &fnv_test_str[183], (Fnv64_t) {0x4cc315f9UL, 0x694bc4e5UL} },
+ { &fnv_test_str[184], (Fnv64_t) {0x3b011721UL, 0xa3d7cb27UL} },
+ { &fnv_test_str[185], (Fnv64_t) {0x6115bfa5UL, 0x577c2f8bUL} },
+ { &fnv_test_str[186], (Fnv64_t) {0x769fb4c1UL, 0xb7ec8c1aUL} },
+ { &fnv_test_str[187], (Fnv64_t) {0x3359ab19UL, 0x5d5cfce6UL} },
+ { &fnv_test_str[188], (Fnv64_t) {0xd65b5f71UL, 0x33b96c3cUL} },
+ { &fnv_test_str[189], (Fnv64_t) {0x80602bb9UL, 0xd8450977UL} },
+ { &fnv_test_str[190], (Fnv64_t) {0xd02da3d5UL, 0x84d47645UL} },
+ { &fnv_test_str[191], (Fnv64_t) {0xb58773a5UL, 0x83544f33UL} },
+ { &fnv_test_str[192], (Fnv64_t) {0x160836c5UL, 0x9175cbb2UL} },
+ { &fnv_test_str[193], (Fnv64_t) {0x75e72bc5UL, 0xc71b3bc1UL} },
+ { &fnv_test_str[194], (Fnv64_t) {0x222ec985UL, 0x636806acUL} },
+ { &fnv_test_str[195], (Fnv64_t) {0x50f52ed5UL, 0xb6ef0e69UL} },
+ { &fnv_test_str[196], (Fnv64_t) {0xf3dfdaa5UL, 0xead3d8a0UL} },
+ { &fnv_test_str[197], (Fnv64_t) {0x9a861ba5UL, 0x922908feUL} },
+ { &fnv_test_str[198], (Fnv64_t) {0x275fd5c5UL, 0x6d4821deUL} },
+ { &fnv_test_str[199], (Fnv64_t) {0x2bd816b5UL, 0x1fe3fce6UL} },
+ { &fnv_test_str[200], (Fnv64_t) {0xd6f70591UL, 0xc23e9fccUL} },
+ { &fnv_test_str[201], (Fnv64_t) {0xfe16b5b5UL, 0xc1af12bdUL} },
+ { &fnv_test_str[202], (Fnv64_t) {0x2f85e221UL, 0x39e9f18fUL} },
+ { NULL, (Fnv64_t) {0,0} }
+};
+#endif /* HAVE_64BIT_LONG_LONG */
+
+/* end of output generated by make vector.c */
+/*
+ * insert the contents of vector.c above
+ */
+
+
+/*
+ * unknown_hash_type - report an unknown hash type error
+ *
+ * NOTE: Does not return.
+ */
+void
+unknown_hash_type(char *prog, enum fnv_type type, int code)
+{
+ fprintf(stderr, "%s: unknown or unexpexted hash type: %d\n", prog, type);
+ exit(code);
+}
+
+
+/*
+ * print_fnv32 - print an FNV hash
+ *
+ * given:
+ * hval the hash value to print
+ * mask lower bit mask
+ * verbose 1 => print arg with hash
+ * arg string or filename arg
+ */
+void
+print_fnv32(Fnv32_t hval, Fnv32_t mask, int verbose, char *arg)
+{
+ if (verbose) {
+ printf("0x%08lx %s\n", hval & mask, arg);
+ } else {
+ printf("0x%08lx\n", hval & mask);
+ }
+}
+
+
+/*
+ * print_fnv64 - print an FNV hash
+ *
+ * given:
+ * hval the hash value to print
+ * mask lower bit mask
+ * verbose 1 => print arg with hash
+ * arg string or filename arg
+ */
+void
+print_fnv64(Fnv64_t hval, Fnv64_t mask, int verbose, char *arg)
+{
+#if defined(HAVE_64BIT_LONG_LONG)
+ if (verbose) {
+ printf("0x%016llx %s\n", hval & mask, arg);
+ } else {
+ printf("0x%016llx\n", hval & mask);
+ }
+#else
+ if (verbose) {
+ printf("0x%08lx%08lx %s\n",
+ hval.w32[1] & mask.w32[1],
+ hval.w32[0] & mask.w32[0],
+ arg);
+ } else {
+ printf("0x%08lx%08lx\n",
+ hval.w32[1] & mask.w32[1],
+ hval.w32[0] & mask.w32[0]);
+ }
+#endif
+}