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AC_PREREQ([2.60])
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# The package (a.k.a. release) version is based on semantic versioning 2.0.0 of
# the API. All changes in experimental modules are treated as
# backwards-compatible and therefore at most increase the minor version.
define(_PKG_VERSION_MAJOR, 0)
define(_PKG_VERSION_MINOR, 1)
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define(_PKG_VERSION_PATCH, 0)
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define(_PKG_VERSION_IS_RELEASE, false)
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# The library version is based on libtool versioning of the ABI. The set of
# rules for updating the version can be found here:
# https://www.gnu.org/software/libtool/manual/html_node/Updating-version-info.html
# All changes in experimental modules are treated as if they don't affect the
# interface and therefore only increase the revision.
define(_LIB_VERSION_CURRENT, 0)
define(_LIB_VERSION_REVISION, 0)
define(_LIB_VERSION_AGE, 0)
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AC_INIT([libsecp256k1],m4_join([.], _PKG_VERSION_MAJOR, _PKG_VERSION_MINOR, _PKG_VERSION_PATCH)m4_if(_PKG_VERSION_IS_RELEASE, [true], [], [-dev]),[https://github.com/bitcoin-core/secp256k1/issues],[libsecp256k1],[https://github.com/bitcoin-core/secp256k1])
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AC_CONFIG_AUX_DIR([build-aux])
AC_CONFIG_MACRO_DIR([build-aux/m4])
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AC_CANONICAL_HOST
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# Require Automake 1.11.2 for AM_PROG_AR
AM_INIT_AUTOMAKE([1.11.2 foreign subdir-objects])
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# Make the compilation flags quiet unless V=1 is used.
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m4_ifdef([AM_SILENT_RULES], [AM_SILENT_RULES([yes])])
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if test "${CFLAGS+set}" = "set"; then
CFLAGS_overridden=yes
else
CFLAGS_overridden=no
fi
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AC_PROG_CC
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AM_PROG_AS
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AM_PROG_AR
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# Clear some cache variables as a workaround for a bug that appears due to a bad
# interaction between AM_PROG_AR and LT_INIT when combining MSVC's archiver lib.exe.
# https://debbugs.gnu.org/cgi/bugreport.cgi?bug=54421
AS_UNSET(ac_cv_prog_AR)
AS_UNSET(ac_cv_prog_ac_ct_AR)
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LT_INIT([win32-dll])
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build_windows=no
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case $host_os in
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*darwin*)
if test x$cross_compiling != xyes; then
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AC_CHECK_PROG([BREW], brew, brew)
if test x$BREW = xbrew; then
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# These Homebrew packages may be keg-only, meaning that they won't be found
# in expected paths because they may conflict with system files. Ask
# Homebrew where each one is located, then adjust paths accordingly.
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if $BREW list --versions valgrind >/dev/null; then
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valgrind_prefix=$($BREW --prefix valgrind 2>/dev/null)
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VALGRIND_CPPFLAGS="-I$valgrind_prefix/include"
fi
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else
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AC_CHECK_PROG([PORT], port, port)
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# If homebrew isn't installed and macports is, add the macports default paths
# as a last resort.
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if test x$PORT = xport; then
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CPPFLAGS="$CPPFLAGS -isystem /opt/local/include"
LDFLAGS="$LDFLAGS -L/opt/local/lib"
fi
fi
fi
;;
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cygwin*|mingw*)
build_windows=yes
;;
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esac
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# Try if some desirable compiler flags are supported and append them to SECP_CFLAGS.
#
# These are our own flags, so we append them to our own SECP_CFLAGS variable (instead of CFLAGS) as
# recommended in the automake manual (Section "Flag Variables Ordering"). CFLAGS belongs to the user
# and we are not supposed to touch it. In the Makefile, we will need to ensure that SECP_CFLAGS
# is prepended to CFLAGS when invoking the compiler so that the user always has the last word (flag).
#
# Another advantage of not touching CFLAGS is that the contents of CFLAGS will be picked up by
# libtool for compiling helper executables. For example, when compiling for Windows, libtool will
# generate entire wrapper executables (instead of simple wrapper scripts as on Unix) to ensure
# proper operation of uninstalled programs linked by libtool against the uninstalled shared library.
# These executables are compiled from C source file for which our flags may not be appropriate,
# e.g., -std=c89 flag has lead to undesirable warnings in the past.
#
# TODO We should analogously not touch CPPFLAGS and LDFLAGS but currently there are no issues.
AC_DEFUN([SECP_TRY_APPEND_DEFAULT_CFLAGS], [
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# GCC and compatible (incl. clang)
if test "x$GCC" = "xyes"; then
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# Try to append -Werror to CFLAGS temporarily. Otherwise checks for some unsupported
# flags will succeed.
# Note that failure to append -Werror does not necessarily mean that -Werror is not
# supported. The compiler may already be warning about something unrelated, for example
# about some path issue. If that is the case, -Werror cannot be used because all
# of those warnings would be turned into errors.
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SECP_TRY_APPEND_DEFAULT_CFLAGS_saved_CFLAGS="$CFLAGS"
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SECP_TRY_APPEND_CFLAGS([-Werror], CFLAGS)
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SECP_TRY_APPEND_CFLAGS([-std=c89 -pedantic -Wno-long-long -Wnested-externs -Wshadow -Wstrict-prototypes -Wundef], $1) # GCC >= 3.0, -Wlong-long is implied by -pedantic.
SECP_TRY_APPEND_CFLAGS([-Wno-overlength-strings], $1) # GCC >= 4.2, -Woverlength-strings is implied by -pedantic.
SECP_TRY_APPEND_CFLAGS([-Wall], $1) # GCC >= 2.95 and probably many other compilers
SECP_TRY_APPEND_CFLAGS([-Wno-unused-function], $1) # GCC >= 3.0, -Wunused-function is implied by -Wall.
SECP_TRY_APPEND_CFLAGS([-Wextra], $1) # GCC >= 3.4, this is the newer name of -W, which we don't use because older GCCs will warn about unused functions.
SECP_TRY_APPEND_CFLAGS([-Wcast-align], $1) # GCC >= 2.95
SECP_TRY_APPEND_CFLAGS([-Wcast-align=strict], $1) # GCC >= 8.0
SECP_TRY_APPEND_CFLAGS([-Wconditional-uninitialized], $1) # Clang >= 3.0 only
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SECP_TRY_APPEND_CFLAGS([-Wreserved-identifier], $1) # Clang >= 13.0 only
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SECP_TRY_APPEND_CFLAGS([-fvisibility=hidden], $1) # GCC >= 4.0
CFLAGS="$SECP_TRY_APPEND_DEFAULT_CFLAGS_saved_CFLAGS"
fi
# MSVC
# Assume MSVC if we're building for Windows but not with GCC or compatible;
# libtool makes the same assumption internally.
# Note that "/opt" and "-opt" are equivalent for MSVC; we use "-opt" because "/opt" looks like a path.
if test x"$GCC" != x"yes" && test x"$build_windows" = x"yes"; then
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SECP_TRY_APPEND_CFLAGS([-W3], $1) # Production quality warning level.
SECP_TRY_APPEND_CFLAGS([-wd4146], $1) # Disable warning C4146 "unary minus operator applied to unsigned type, result still unsigned".
SECP_TRY_APPEND_CFLAGS([-wd4244], $1) # Disable warning C4244 "'conversion' conversion from 'type1' to 'type2', possible loss of data".
SECP_TRY_APPEND_CFLAGS([-wd4267], $1) # Disable warning C4267 "'var' : conversion from 'size_t' to 'type', possible loss of data".
# Eliminate deprecation warnings for the older, less secure functions.
CPPFLAGS="-D_CRT_SECURE_NO_WARNINGS $CPPFLAGS"
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fi
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])
SECP_TRY_APPEND_DEFAULT_CFLAGS(SECP_CFLAGS)
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###
### Define config arguments
###
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# In dev mode, we enable all binaries and modules by default but individual options can still be overridden explicitly.
# Check for dev mode first because SECP_SET_DEFAULT needs enable_dev_mode set.
AC_ARG_ENABLE(dev_mode, [], [],
[enable_dev_mode=no])
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AC_ARG_ENABLE(benchmark,
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AS_HELP_STRING([--enable-benchmark],[compile benchmark [default=yes]]), [],
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[SECP_SET_DEFAULT([enable_benchmark], [yes], [yes])])
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AC_ARG_ENABLE(coverage,
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AS_HELP_STRING([--enable-coverage],[enable compiler flags to support kcov coverage analysis [default=no]]), [],
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[SECP_SET_DEFAULT([enable_coverage], [no], [no])])
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AC_ARG_ENABLE(tests,
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AS_HELP_STRING([--enable-tests],[compile tests [default=yes]]), [],
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[SECP_SET_DEFAULT([enable_tests], [yes], [yes])])
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AC_ARG_ENABLE(ctime_tests,
AS_HELP_STRING([--enable-ctime-tests],[compile constant-time tests [default=yes if valgrind enabled]]), [],
[SECP_SET_DEFAULT([enable_ctime_tests], [auto], [auto])])
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AC_ARG_ENABLE(experimental,
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AS_HELP_STRING([--enable-experimental],[allow experimental configure options [default=no]]), [],
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[SECP_SET_DEFAULT([enable_experimental], [no], [yes])])
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AC_ARG_ENABLE(exhaustive_tests,
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AS_HELP_STRING([--enable-exhaustive-tests],[compile exhaustive tests [default=yes]]), [],
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[SECP_SET_DEFAULT([enable_exhaustive_tests], [yes], [yes])])
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2020-04-30 14:34:24 +03:00
AC_ARG_ENABLE(examples,
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AS_HELP_STRING([--enable-examples],[compile the examples [default=no]]), [],
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[SECP_SET_DEFAULT([enable_examples], [no], [yes])])
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2015-06-29 15:06:28 -05:00
AC_ARG_ENABLE(module_ecdh,
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AS_HELP_STRING([--enable-module-ecdh],[enable ECDH module [default=yes]]), [],
[SECP_SET_DEFAULT([enable_module_ecdh], [yes], [yes])])
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AC_ARG_ENABLE(module_recovery,
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AS_HELP_STRING([--enable-module-recovery],[enable ECDSA pubkey recovery module [default=no]]), [],
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[SECP_SET_DEFAULT([enable_module_recovery], [no], [yes])])
2015-08-27 03:42:57 +02:00
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AC_ARG_ENABLE(module_extrakeys,
AS_HELP_STRING([--enable-module-extrakeys],[enable extrakeys module [default=yes]]), [],
[SECP_SET_DEFAULT([enable_module_extrakeys], [yes], [yes])])
AC_ARG_ENABLE(module_schnorrsig,
AS_HELP_STRING([--enable-module-schnorrsig],[enable schnorrsig module [default=yes]]), [],
[SECP_SET_DEFAULT([enable_module_schnorrsig], [yes], [yes])])
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AC_ARG_ENABLE(module_schnorrsig_halfagg,
AS_HELP_STRING([--enable-module-schnorrsig-halfagg],[enable schnorrsig half-aggregation module (experimental) [default=no]]), [],
[SECP_SET_DEFAULT([enable_module_schnorrsig_halfagg], [no], [yes])])
2024-02-05 17:00:18 +01:00
AC_ARG_ENABLE(module_ellswift,
AS_HELP_STRING([--enable-module-ellswift],[enable ElligatorSwift module [default=yes]]), [],
[SECP_SET_DEFAULT([enable_module_ellswift], [yes], [yes])])
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AC_ARG_ENABLE(module_generator,
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AS_HELP_STRING([--enable-module-generator],[enable NUMS generator module [default=no]]),
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[],
[SECP_SET_DEFAULT([enable_module_generator], [no], [yes])])
Pedersen commitments, borromean ring signatures, and ZK range proofs.
This commit adds three new cryptosystems to libsecp256k1:
Pedersen commitments are a system for making blinded commitments
to a value. Functionally they work like:
commit_b,v = H(blind_b || value_v),
except they are additively homorphic, e.g.
C(b1, v1) - C(b2, v2) = C(b1 - b2, v1 - v2) and
C(b1, v1) - C(b1, v1) = 0, etc.
The commitments themselves are EC points, serialized as 33 bytes.
In addition to the commit function this implementation includes
utility functions for verifying that a set of commitments sums
to zero, and for picking blinding factors that sum to zero.
If the blinding factors are uniformly random, pedersen commitments
have information theoretic privacy.
Borromean ring signatures are a novel efficient ring signature
construction for AND/OR admissions policies (the code here implements
an AND of ORs, each of any size). This construction requires
32 bytes of signature per pubkey used plus 32 bytes of constant
overhead. With these you can construct signatures like "Given pubkeys
A B C D E F G, the signer knows the discrete logs
satisifying (A || B) & (C || D || E) & (F || G)".
ZK range proofs allow someone to prove a pedersen commitment is in
a particular range (e.g. [0..2^64)) without revealing the specific
value. The construction here is based on the above borromean
ring signature and uses a radix-4 encoding and other optimizations
to maximize efficiency. It also supports encoding proofs with a
non-private base-10 exponent and minimum-value to allow trading
off secrecy for size and speed (or just avoiding wasting space
keeping data private that was already public due to external
constraints).
A proof for a 32-bit mantissa takes 2564 bytes, but 2048 bytes of
this can be used to communicate a private message to a receiver
who shares a secret random seed with the prover.
Also: get rid of precomputed H tables (Pieter Wuille)
2015-08-05 19:04:14 +02:00
AC_ARG_ENABLE(module_rangeproof,
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AS_HELP_STRING([--enable-module-rangeproof],[enable Pedersen / zero-knowledge range proofs module [default=no]]),
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[],
[SECP_SET_DEFAULT([enable_module_rangeproof], [no], [yes])])
Pedersen commitments, borromean ring signatures, and ZK range proofs.
This commit adds three new cryptosystems to libsecp256k1:
Pedersen commitments are a system for making blinded commitments
to a value. Functionally they work like:
commit_b,v = H(blind_b || value_v),
except they are additively homorphic, e.g.
C(b1, v1) - C(b2, v2) = C(b1 - b2, v1 - v2) and
C(b1, v1) - C(b1, v1) = 0, etc.
The commitments themselves are EC points, serialized as 33 bytes.
In addition to the commit function this implementation includes
utility functions for verifying that a set of commitments sums
to zero, and for picking blinding factors that sum to zero.
If the blinding factors are uniformly random, pedersen commitments
have information theoretic privacy.
Borromean ring signatures are a novel efficient ring signature
construction for AND/OR admissions policies (the code here implements
an AND of ORs, each of any size). This construction requires
32 bytes of signature per pubkey used plus 32 bytes of constant
overhead. With these you can construct signatures like "Given pubkeys
A B C D E F G, the signer knows the discrete logs
satisifying (A || B) & (C || D || E) & (F || G)".
ZK range proofs allow someone to prove a pedersen commitment is in
a particular range (e.g. [0..2^64)) without revealing the specific
value. The construction here is based on the above borromean
ring signature and uses a radix-4 encoding and other optimizations
to maximize efficiency. It also supports encoding proofs with a
non-private base-10 exponent and minimum-value to allow trading
off secrecy for size and speed (or just avoiding wasting space
keeping data private that was already public due to external
constraints).
A proof for a 32-bit mantissa takes 2564 bytes, but 2048 bytes of
this can be used to communicate a private message to a receiver
who shares a secret random seed with the prover.
Also: get rid of precomputed H tables (Pieter Wuille)
2015-08-05 19:04:14 +02:00
2024-02-05 17:00:18 +01:00
AC_ARG_ENABLE(module_surjectionproof,
AS_HELP_STRING([--enable-module-surjectionproof],[enable surjection proof module [default=no]]),
[],
[SECP_SET_DEFAULT([enable_module_surjectionproof], [no], [yes])])
AC_ARG_ENABLE(reduced_surjection_proof_size,
AS_HELP_STRING([--enable-reduced-surjection-proof-size],[use reduced surjection proof size (disabling parsing and verification) [default=no]]),
[],
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[SECP_SET_DEFAULT([enable_reduced_surjection_proof_size], [no], [no])])
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AC_ARG_ENABLE(module_whitelist,
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AS_HELP_STRING([--enable-module-whitelist],[enable key whitelisting module [default=no]]),
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[],
[SECP_SET_DEFAULT([enable_module_whitelist], [no], [yes])])
2016-04-21 22:22:39 +00:00
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AC_ARG_ENABLE(module_musig,
AS_HELP_STRING([--enable-module-musig],[enable MuSig module (experimental)]),
[],
[SECP_SET_DEFAULT([enable_module_musig], [no], [yes])])
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AC_ARG_ENABLE(module_ecdsa_s2c,
AS_HELP_STRING([--enable-module-ecdsa-s2c],[enable ECDSA sign-to-contract module [default=no]]),
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[],
[SECP_SET_DEFAULT([enable_module_ecdsa_s2c], [no], [yes])])
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AC_ARG_ENABLE(module_bppp,
AS_HELP_STRING([--enable-module-bppp],[enable Bulletproofs++ module (experimental)]),
[],
[SECP_SET_DEFAULT([enable_module_bppp], [no], [yes])])
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AC_ARG_ENABLE(module_ecdsa-adaptor,
AS_HELP_STRING([--enable-module-ecdsa-adaptor],[enable ECDSA adaptor module [default=no]]),
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[],
[SECP_SET_DEFAULT([enable_module_ecdsa_adaptor], [no], [yes])])
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AC_ARG_ENABLE(module_frost,
AS_HELP_STRING([--enable-module-frost],[enable FROST module [default=no]]),
[],
[SECP_SET_DEFAULT([enable_module_frost], [no], [yes])])
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AC_ARG_ENABLE(external_default_callbacks,
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AS_HELP_STRING([--enable-external-default-callbacks],[enable external default callback functions [default=no]]), [],
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[SECP_SET_DEFAULT([enable_external_default_callbacks], [no], [no])])
2019-03-04 15:36:35 +01:00
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# Test-only override of the (autodetected by the C code) "widemul" setting.
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# Legal values are:
# * int64 (for [u]int64_t),
# * int128 (for [unsigned] __int128),
# * int128_struct (for int128 implemented as a structure),
# * and auto (the default).
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AC_ARG_WITH([test-override-wide-multiply], [] ,[set_widemul=$withval], [set_widemul=auto])
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AC_ARG_WITH([asm], [AS_HELP_STRING([--with-asm=x86_64|arm32|no|auto],
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[assembly to use (experimental: arm32) [default=auto]])],[req_asm=$withval], [req_asm=auto])
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2019-03-06 13:12:33 +01:00
AC_ARG_WITH([ecmult-window], [AS_HELP_STRING([--with-ecmult-window=SIZE|auto],
[window size for ecmult precomputation for verification, specified as integer in range [2..24].]
[Larger values result in possibly better performance at the cost of an exponentially larger precomputed table.]
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[The table will store 2^(SIZE-1) * 64 bytes of data but can be larger in memory due to platform-specific padding and alignment.]
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[A window size larger than 15 will require you delete the prebuilt precomputed_ecmult.c file so that it can be rebuilt.]
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[For very large window sizes, use "make -j 1" to reduce memory use during compilation.]
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["auto" is a reasonable setting for desktop machines (currently 15). [default=auto]]
)],
[req_ecmult_window=$withval], [req_ecmult_window=auto])
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AC_ARG_WITH([ecmult-gen-precision], [AS_HELP_STRING([--with-ecmult-gen-precision=2|4|8|auto],
[Precision bits to tune the precomputed table size for signing.]
[The size of the table is 32kB for 2 bits, 64kB for 4 bits, 512kB for 8 bits of precision.]
[A larger table size usually results in possible faster signing.]
["auto" is a reasonable setting for desktop machines (currently 4). [default=auto]]
)],
[req_ecmult_gen_precision=$withval], [req_ecmult_gen_precision=auto])
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AC_ARG_WITH([valgrind], [AS_HELP_STRING([--with-valgrind=yes|no|auto],
[Build with extra checks for running inside Valgrind [default=auto]]
)],
[req_valgrind=$withval], [req_valgrind=auto])
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###
### Handle config options (except for modules)
###
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if test x"$req_valgrind" = x"no"; then
enable_valgrind=no
else
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SECP_VALGRIND_CHECK
if test x"$has_valgrind" != x"yes"; then
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if test x"$req_valgrind" = x"yes"; then
AC_MSG_ERROR([Valgrind support explicitly requested but valgrind/memcheck.h header not available])
fi
enable_valgrind=no
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else
enable_valgrind=yes
fi
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fi
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if test x"$enable_ctime_tests" = x"auto"; then
enable_ctime_tests=$enable_valgrind
fi
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if test x"$enable_coverage" = x"yes"; then
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DCOVERAGE=1"
2021-05-13 19:34:16 +02:00
SECP_CFLAGS="-O0 --coverage $SECP_CFLAGS"
2023-03-14 18:56:24 +00:00
# If coverage is enabled, and the user has not overridden CFLAGS,
# override Autoconf's value "-g -O2" with "-g". Otherwise we'd end up
# with "-O0 --coverage -g -O2".
if test "$CFLAGS_overridden" = "no"; then
CFLAGS="-g"
fi
2019-12-17 12:37:48 +00:00
LDFLAGS="--coverage $LDFLAGS"
2016-11-26 20:34:15 +00:00
else
2021-05-13 19:34:16 +02:00
# Most likely the CFLAGS already contain -O2 because that is autoconf's default.
# We still add it here because passing it twice is not an issue, and handling
# this case would just add unnecessary complexity (see #896).
SECP_CFLAGS="-O2 $SECP_CFLAGS"
2016-11-26 20:34:15 +00:00
fi
2016-07-01 15:51:07 +00:00
AC_MSG_CHECKING([for __builtin_popcount])
2022-03-31 17:41:54 +02:00
AC_LINK_IFELSE([AC_LANG_SOURCE([[void myfunc() {__builtin_popcount(0);}]])],
2023-07-19 19:58:09 +00:00
[ AC_MSG_RESULT([yes]); SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DHAVE_BUILTIN_POPCOUNT=1"],
2016-07-01 15:51:07 +00:00
[ AC_MSG_RESULT([no])
])
2015-08-05 16:17:50 +02:00
AC_MSG_CHECKING([for __builtin_clzll])
2022-03-31 17:41:54 +02:00
AC_LINK_IFELSE([AC_LANG_SOURCE([[void myfunc() { __builtin_clzll(1);}]])],
2023-07-19 19:58:09 +00:00
[ AC_MSG_RESULT([yes]); SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DHAVE_BUILTIN_CLZLL=1"],
2015-08-05 16:17:50 +02:00
[ AC_MSG_RESULT([no])
])
2014-12-12 16:20:47 +01:00
if test x"$req_asm" = x"auto"; then
2023-05-12 10:50:18 +01:00
SECP_X86_64_ASM_CHECK
if test x"$has_x86_64_asm" = x"yes"; then
2014-12-12 16:20:47 +01:00
set_asm=x86_64
fi
if test x"$set_asm" = x; then
set_asm=no
2014-01-17 22:52:33 -05:00
fi
2014-12-12 16:20:47 +01:00
else
set_asm=$req_asm
case $set_asm in
x86_64)
2023-05-12 10:50:18 +01:00
SECP_X86_64_ASM_CHECK
if test x"$has_x86_64_asm" != x"yes"; then
2023-11-23 22:51:48 +01:00
AC_MSG_ERROR([x86_64 assembly requested but not available])
2014-12-12 16:20:47 +01:00
fi
;;
2023-05-11 10:03:23 +01:00
arm32)
2023-05-11 19:21:51 +01:00
SECP_ARM32_ASM_CHECK
if test x"$has_arm32_asm" != x"yes"; then
2023-11-23 22:51:48 +01:00
AC_MSG_ERROR([ARM32 assembly requested but not available])
2023-05-11 19:21:51 +01:00
fi
2014-12-24 12:12:37 +01:00
;;
2014-12-12 16:20:47 +01:00
no)
;;
*)
2023-11-23 22:51:48 +01:00
AC_MSG_ERROR([invalid assembly selection])
2014-12-12 16:20:47 +01:00
;;
esac
fi
2014-01-17 22:52:33 -05:00
2023-11-23 22:51:48 +01:00
# Select assembly
2022-02-23 20:40:18 +01:00
enable_external_asm=no
2014-12-24 12:12:37 +01:00
2014-12-12 16:20:47 +01:00
case $set_asm in
x86_64)
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DUSE_ASM_X86_64=1"
2014-12-12 16:20:47 +01:00
;;
2023-05-11 10:03:23 +01:00
arm32)
2022-02-23 20:40:18 +01:00
enable_external_asm=yes
2014-12-24 12:12:37 +01:00
;;
2014-12-12 16:20:47 +01:00
no)
;;
*)
2023-11-23 22:51:48 +01:00
AC_MSG_ERROR([invalid assembly selection])
2014-12-12 16:20:47 +01:00
;;
esac
2022-02-23 20:40:18 +01:00
if test x"$enable_external_asm" = x"yes"; then
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DUSE_EXTERNAL_ASM=1"
2021-01-08 15:18:08 +01:00
fi
# Select wide multiplication implementation
2020-08-09 10:58:40 -07:00
case $set_widemul in
2022-07-27 11:09:51 -04:00
int128_struct)
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DUSE_FORCE_WIDEMUL_INT128_STRUCT=1"
2022-07-27 11:09:51 -04:00
;;
2020-08-09 10:58:40 -07:00
int128)
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DUSE_FORCE_WIDEMUL_INT128=1"
2014-01-17 22:52:33 -05:00
;;
2020-08-09 10:58:40 -07:00
int64)
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DUSE_FORCE_WIDEMUL_INT64=1"
2014-01-17 22:52:33 -05:00
;;
2020-08-09 10:58:40 -07:00
auto)
2014-01-17 22:52:33 -05:00
;;
*)
2020-08-09 10:58:40 -07:00
AC_MSG_ERROR([invalid wide multiplication implementation])
2014-01-17 22:52:33 -05:00
;;
esac
2021-01-08 15:18:08 +01:00
# Set ecmult window size
2019-03-06 13:12:33 +01:00
if test x"$req_ecmult_window" = x"auto"; then
set_ecmult_window=15
else
set_ecmult_window=$req_ecmult_window
fi
error_window_size=['window size for ecmult precomputation not an integer in range [2..24] or "auto"']
case $set_ecmult_window in
''|*[[!0-9]]*)
# no valid integer
AC_MSG_ERROR($error_window_size)
;;
*)
if test "$set_ecmult_window" -lt 2 -o "$set_ecmult_window" -gt 24 ; then
# not in range
AC_MSG_ERROR($error_window_size)
fi
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DECMULT_WINDOW_SIZE=$set_ecmult_window"
2019-03-06 13:12:33 +01:00
;;
esac
2021-01-08 15:18:08 +01:00
# Set ecmult gen precision
2015-10-18 10:35:16 +02:00
if test x"$req_ecmult_gen_precision" = x"auto"; then
set_ecmult_gen_precision=4
else
set_ecmult_gen_precision=$req_ecmult_gen_precision
fi
case $set_ecmult_gen_precision in
2|4|8)
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DECMULT_GEN_PREC_BITS=$set_ecmult_gen_precision"
2015-10-18 10:35:16 +02:00
;;
*)
AC_MSG_ERROR(['ecmult gen precision not 2, 4, 8 or "auto"'])
;;
esac
2020-12-23 22:08:03 +01:00
if test x"$enable_valgrind" = x"yes"; then
2022-12-06 23:35:30 -05:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES $VALGRIND_CPPFLAGS -DVALGRIND"
2020-12-23 22:08:03 +01:00
fi
2022-06-29 11:12:00 +02:00
# Add -Werror and similar flags passed from the outside (for testing, e.g., in CI).
# We don't want to set the user variable CFLAGS in CI because this would disable
# autoconf's logic for setting default CFLAGS, which we would like to test in CI.
2021-05-06 14:02:00 +02:00
SECP_CFLAGS="$SECP_CFLAGS $WERROR_CFLAGS"
2021-01-08 15:18:08 +01:00
###
### Handle module options
###
2024-01-16 14:36:41 +01:00
# Processing must be done in a reverse topological sorting of the dependency graph
# (dependent module first).
2023-11-26 16:44:23 +01:00
if test x"$enable_module_schnorrsig_halfagg" = x"yes"; then
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_SCHNORRSIG_HALFAGG=1"
enable_module_schnorrsig=yes
fi
2024-01-18 10:25:34 +01:00
if test x"$enable_module_bppp" = x"yes"; then
if test x"$enable_module_generator" = x"no"; then
AC_MSG_ERROR([Module dependency error: You have disabled the generator module explicitly, but it is required by the bppp module.])
fi
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_BPPP=1"
enable_module_generator=yes
fi
2022-08-09 19:17:30 +00:00
2024-01-18 10:25:34 +01:00
if test x"$enable_module_ecdsa_s2c" = x"yes"; then
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_ECDSA_S2C=1"
2015-06-29 15:06:28 -05:00
fi
2024-01-25 15:57:16 +01:00
if test x"$enable_module_ecdsa_adaptor" = x"yes"; then
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_ECDSA_ADAPTOR=1"
fi
2023-11-23 10:57:08 -07:00
if test x"$enable_module_frost" = x"yes"; then
if test x"$enable_module_schnorrsig" = x"no"; then
AC_MSG_ERROR([Module dependency error: You have disabled the schnorrsig module explicitly, but it is required by the musig module.])
fi
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_FROST=1"
enable_module_schnorrsig=yes
fi
2020-10-14 15:03:26 +00:00
if test x"$enable_module_musig" = x"yes"; then
2024-01-18 10:25:34 +01:00
if test x"$enable_module_schnorrsig" = x"no"; then
AC_MSG_ERROR([Module dependency error: You have disabled the schnorrsig module explicitly, but it is required by the musig module.])
fi
2023-07-19 19:58:09 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_MUSIG=1"
2021-04-03 22:03:09 +00:00
enable_module_schnorrsig=yes
2020-10-14 15:03:26 +00:00
fi
2018-12-22 22:12:35 +00:00
2022-08-09 19:17:30 +00:00
if test x"$enable_module_whitelist" = x"yes"; then
2024-01-18 10:25:34 +01:00
if test x"$enable_module_rangeproof" = x"no"; then
AC_MSG_ERROR([Module dependency error: You have disabled the rangeproof module explicitly, but it is required by the whitelist module.])
fi
2023-07-19 19:58:09 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_WHITELIST=1"
2022-08-09 19:17:30 +00:00
enable_module_rangeproof=yes
fi
if test x"$enable_module_surjectionproof" = x"yes"; then
2024-01-18 10:25:34 +01:00
if test x"$enable_module_rangeproof" = x"no"; then
AC_MSG_ERROR([Module dependency error: You have disabled the rangeproof module explicitly, but it is required by the surjectionproof module.])
fi
2023-07-19 19:58:09 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_SURJECTIONPROOF=1"
2022-08-09 19:17:30 +00:00
enable_module_rangeproof=yes
2016-07-07 00:47:41 +02:00
fi
Pedersen commitments, borromean ring signatures, and ZK range proofs.
This commit adds three new cryptosystems to libsecp256k1:
Pedersen commitments are a system for making blinded commitments
to a value. Functionally they work like:
commit_b,v = H(blind_b || value_v),
except they are additively homorphic, e.g.
C(b1, v1) - C(b2, v2) = C(b1 - b2, v1 - v2) and
C(b1, v1) - C(b1, v1) = 0, etc.
The commitments themselves are EC points, serialized as 33 bytes.
In addition to the commit function this implementation includes
utility functions for verifying that a set of commitments sums
to zero, and for picking blinding factors that sum to zero.
If the blinding factors are uniformly random, pedersen commitments
have information theoretic privacy.
Borromean ring signatures are a novel efficient ring signature
construction for AND/OR admissions policies (the code here implements
an AND of ORs, each of any size). This construction requires
32 bytes of signature per pubkey used plus 32 bytes of constant
overhead. With these you can construct signatures like "Given pubkeys
A B C D E F G, the signer knows the discrete logs
satisifying (A || B) & (C || D || E) & (F || G)".
ZK range proofs allow someone to prove a pedersen commitment is in
a particular range (e.g. [0..2^64)) without revealing the specific
value. The construction here is based on the above borromean
ring signature and uses a radix-4 encoding and other optimizations
to maximize efficiency. It also supports encoding proofs with a
non-private base-10 exponent and minimum-value to allow trading
off secrecy for size and speed (or just avoiding wasting space
keeping data private that was already public due to external
constraints).
A proof for a 32-bit mantissa takes 2564 bytes, but 2048 bytes of
this can be used to communicate a private message to a receiver
who shares a secret random seed with the prover.
Also: get rid of precomputed H tables (Pieter Wuille)
2015-08-05 19:04:14 +02:00
if test x"$enable_module_rangeproof" = x"yes"; then
2024-01-18 10:25:34 +01:00
if test x"$enable_module_generator" = x"no"; then
AC_MSG_ERROR([Module dependency error: You have disabled the generator module explicitly, but it is required by the rangeproof module.])
fi
2023-07-19 19:58:09 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_RANGEPROOF=1"
2022-08-09 19:17:30 +00:00
enable_module_generator=yes
Pedersen commitments, borromean ring signatures, and ZK range proofs.
This commit adds three new cryptosystems to libsecp256k1:
Pedersen commitments are a system for making blinded commitments
to a value. Functionally they work like:
commit_b,v = H(blind_b || value_v),
except they are additively homorphic, e.g.
C(b1, v1) - C(b2, v2) = C(b1 - b2, v1 - v2) and
C(b1, v1) - C(b1, v1) = 0, etc.
The commitments themselves are EC points, serialized as 33 bytes.
In addition to the commit function this implementation includes
utility functions for verifying that a set of commitments sums
to zero, and for picking blinding factors that sum to zero.
If the blinding factors are uniformly random, pedersen commitments
have information theoretic privacy.
Borromean ring signatures are a novel efficient ring signature
construction for AND/OR admissions policies (the code here implements
an AND of ORs, each of any size). This construction requires
32 bytes of signature per pubkey used plus 32 bytes of constant
overhead. With these you can construct signatures like "Given pubkeys
A B C D E F G, the signer knows the discrete logs
satisifying (A || B) & (C || D || E) & (F || G)".
ZK range proofs allow someone to prove a pedersen commitment is in
a particular range (e.g. [0..2^64)) without revealing the specific
value. The construction here is based on the above borromean
ring signature and uses a radix-4 encoding and other optimizations
to maximize efficiency. It also supports encoding proofs with a
non-private base-10 exponent and minimum-value to allow trading
off secrecy for size and speed (or just avoiding wasting space
keeping data private that was already public due to external
constraints).
A proof for a 32-bit mantissa takes 2564 bytes, but 2048 bytes of
this can be used to communicate a private message to a receiver
who shares a secret random seed with the prover.
Also: get rid of precomputed H tables (Pieter Wuille)
2015-08-05 19:04:14 +02:00
fi
2022-08-09 19:17:30 +00:00
if test x"$enable_module_generator" = x"yes"; then
2023-07-19 19:58:09 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_GENERATOR=1"
2016-04-21 22:22:39 +00:00
fi
2022-11-04 16:18:40 -04:00
if test x"$enable_module_ellswift" = x"yes"; then
2023-07-26 14:44:20 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_ELLSWIFT=1"
2022-11-04 16:18:40 -04:00
fi
2020-05-12 21:19:03 +00:00
if test x"$enable_module_schnorrsig" = x"yes"; then
2024-01-16 14:51:00 +01:00
if test x"$enable_module_extrakeys" = x"no"; then
AC_MSG_ERROR([Module dependency error: You have disabled the extrakeys module explicitly, but it is required by the schnorrsig module.])
fi
2020-05-12 21:19:03 +00:00
enable_module_extrakeys=yes
2024-01-16 14:36:41 +01:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_SCHNORRSIG=1"
2020-05-12 21:19:03 +00:00
fi
2020-05-12 13:58:47 +00:00
if test x"$enable_module_extrakeys" = x"yes"; then
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_EXTRAKEYS=1"
2020-05-12 13:58:47 +00:00
fi
2024-01-16 14:36:41 +01:00
if test x"$enable_module_recovery" = x"yes"; then
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_RECOVERY=1"
fi
if test x"$enable_module_ecdh" = x"yes"; then
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DENABLE_MODULE_ECDH=1"
2020-12-05 23:18:54 +00:00
fi
2022-02-23 20:40:18 +01:00
if test x"$enable_external_default_callbacks" = x"yes"; then
2022-12-15 10:56:16 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DUSE_EXTERNAL_DEFAULT_CALLBACKS=1"
2019-03-04 15:36:35 +01:00
fi
2024-02-05 17:01:12 +01:00
if test x"$enable_reduced_surjection_proof_size" = x"yes"; then
2023-07-19 19:58:09 +00:00
SECP_CONFIG_DEFINES="$SECP_CONFIG_DEFINES -DUSE_REDUCED_SURJECTION_PROOF_SIZE=1"
2019-05-30 09:04:40 +03:00
fi
2021-01-08 15:18:08 +01:00
###
### Check for --enable-experimental if necessary
###
2015-11-26 00:06:41 +01:00
if test x"$enable_experimental" = x"yes"; then
AC_MSG_NOTICE([******])
AC_MSG_NOTICE([WARNING: experimental build])
AC_MSG_NOTICE([Experimental features do not have stable APIs or properties, and may not be safe for production use.])
AC_MSG_NOTICE([******])
else
2022-08-10 09:20:26 +00:00
# The order of the following tests matters. If the user enables a dependent
# module (which automatically enables the module dependencies) we want to
# print an error for the dependent module, not the module dependency. Hence,
# we first test dependent modules.
2023-11-26 16:44:23 +01:00
if test x"$enable_module_schnorrsig_halfagg" = x"yes"; then
AC_MSG_ERROR([Schnorrsig Half-Aggregation module is experimental. Use --enable-experimental to allow.])
fi
2023-02-06 13:53:02 -08:00
if test x"$enable_module_bppp" = x"yes"; then
AC_MSG_ERROR([Bulletproofs++ module is experimental. Use --enable-experimental to allow.])
2022-08-27 15:02:44 +00:00
fi
2024-01-18 10:25:34 +01:00
if test x"$enable_module_ecdsa_adaptor" = x"yes"; then
AC_MSG_ERROR([ecdsa adaptor signatures module is experimental. Use --enable-experimental to allow.])
fi
if test x"$enable_module_ecdsa_s2c" = x"yes"; then
AC_MSG_ERROR([ECDSA sign-to-contract module module is experimental. Use --enable-experimental to allow.])
fi
if test x"$enable_module_musig" = x"yes"; then
AC_MSG_ERROR([MuSig module is experimental. Use --enable-experimental to allow.])
fi
2022-08-10 09:20:26 +00:00
if test x"$enable_module_whitelist" = x"yes"; then
AC_MSG_ERROR([Key whitelisting module is experimental. Use --enable-experimental to allow.])
fi
if test x"$enable_module_surjectionproof" = x"yes"; then
AC_MSG_ERROR([Surjection proof module is experimental. Use --enable-experimental to allow.])
fi
if test x"$enable_module_rangeproof" = x"yes"; then
AC_MSG_ERROR([Range proof module is experimental. Use --enable-experimental to allow.])
fi
if test x"$enable_module_generator" = x"yes"; then
AC_MSG_ERROR([NUMS generator module is experimental. Use --enable-experimental to allow.])
fi
2023-11-23 10:57:08 -07:00
if test x"$enable_module_frost" = x"yes"; then
AC_MSG_ERROR([FROST module is experimental. Use --enable-experimental to allow.])
fi
2023-05-11 10:03:23 +01:00
if test x"$set_asm" = x"arm32"; then
2023-11-23 22:51:48 +01:00
AC_MSG_ERROR([ARM32 assembly is experimental. Use --enable-experimental to allow.])
2014-12-24 12:12:37 +01:00
fi
2015-11-26 00:06:41 +01:00
fi
2021-01-08 15:18:08 +01:00
###
### Generate output
###
2014-05-07 06:10:08 +00:00
AC_CONFIG_FILES([Makefile libsecp256k1.pc])
2021-05-13 17:06:16 +02:00
AC_SUBST(SECP_CFLAGS)
2022-12-15 10:56:16 +00:00
AC_SUBST(SECP_CONFIG_DEFINES)
2016-11-26 20:34:15 +00:00
AM_CONDITIONAL([ENABLE_COVERAGE], [test x"$enable_coverage" = x"yes"])
2022-02-23 20:40:18 +01:00
AM_CONDITIONAL([USE_TESTS], [test x"$enable_tests" != x"no"])
2022-12-06 23:12:15 -05:00
AM_CONDITIONAL([USE_CTIME_TESTS], [test x"$enable_ctime_tests" = x"yes"])
2022-02-23 20:40:18 +01:00
AM_CONDITIONAL([USE_EXHAUSTIVE_TESTS], [test x"$enable_exhaustive_tests" != x"no"])
AM_CONDITIONAL([USE_EXAMPLES], [test x"$enable_examples" != x"no"])
AM_CONDITIONAL([USE_BENCHMARK], [test x"$enable_benchmark" = x"yes"])
2015-06-29 15:06:28 -05:00
AM_CONDITIONAL([ENABLE_MODULE_ECDH], [test x"$enable_module_ecdh" = x"yes"])
2015-08-27 03:42:57 +02:00
AM_CONDITIONAL([ENABLE_MODULE_RECOVERY], [test x"$enable_module_recovery" = x"yes"])
2020-05-12 21:19:03 +00:00
AM_CONDITIONAL([ENABLE_MODULE_EXTRAKEYS], [test x"$enable_module_extrakeys" = x"yes"])
AM_CONDITIONAL([ENABLE_MODULE_SCHNORRSIG], [test x"$enable_module_schnorrsig" = x"yes"])
2022-11-04 16:18:40 -04:00
AM_CONDITIONAL([ENABLE_MODULE_ELLSWIFT], [test x"$enable_module_ellswift" = x"yes"])
2024-01-18 10:25:34 +01:00
AM_CONDITIONAL([ENABLE_MODULE_GENERATOR], [test x"$enable_module_generator" = x"yes"])
AM_CONDITIONAL([ENABLE_MODULE_RANGEPROOF], [test x"$enable_module_rangeproof" = x"yes"])
AM_CONDITIONAL([ENABLE_MODULE_SURJECTIONPROOF], [test x"$enable_module_surjectionproof" = x"yes"])
AM_CONDITIONAL([ENABLE_MODULE_WHITELIST], [test x"$enable_module_whitelist" = x"yes"])
AM_CONDITIONAL([ENABLE_MODULE_MUSIG], [test x"$enable_module_musig" = x"yes"])
2020-12-05 23:18:54 +00:00
AM_CONDITIONAL([ENABLE_MODULE_ECDSA_S2C], [test x"$enable_module_ecdsa_s2c" = x"yes"])
2021-03-04 23:38:48 -08:00
AM_CONDITIONAL([ENABLE_MODULE_ECDSA_ADAPTOR], [test x"$enable_module_ecdsa_adaptor" = x"yes"])
2024-01-18 10:25:34 +01:00
AM_CONDITIONAL([ENABLE_MODULE_BPPP], [test x"$enable_module_bppp" = x"yes"])
2023-11-26 16:44:23 +01:00
AM_CONDITIONAL([ENABLE_MODULE_SCHNORRSIG_HALFAGG], [test x"$enable_module_schnorrsig_halfagg" = x"yes"])
2023-11-23 10:57:08 -07:00
AM_CONDITIONAL([ENABLE_MODULE_FROST], [test x"$enable_module_frost" = x"yes"])
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AM_CONDITIONAL([USE_REDUCED_SURJECTION_PROOF_SIZE], [test x"$use_reduced_surjection_proof_size" = x"yes"])
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AM_CONDITIONAL([USE_EXTERNAL_ASM], [test x"$enable_external_asm" = x"yes"])
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AM_CONDITIONAL([USE_ASM_ARM], [test x"$set_asm" = x"arm32"])
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AM_CONDITIONAL([BUILD_WINDOWS], [test "$build_windows" = "yes"])
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AC_SUBST(LIB_VERSION_CURRENT, _LIB_VERSION_CURRENT)
AC_SUBST(LIB_VERSION_REVISION, _LIB_VERSION_REVISION)
AC_SUBST(LIB_VERSION_AGE, _LIB_VERSION_AGE)
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AC_OUTPUT
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# The order in which all modules are listed here should be considered the
# canonical order. This order (or, when appropriate, its reserve) should be used
# everywhere we list or process modules, i.e., here and in other build system
# files and docs.
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echo
echo "Build Options:"
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echo " with external callbacks = $enable_external_default_callbacks"
echo " with benchmarks = $enable_benchmark"
echo " with tests = $enable_tests"
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echo " with ctime tests = $enable_ctime_tests"
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echo " with coverage = $enable_coverage"
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echo " with examples = $enable_examples"
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echo " module ecdh = $enable_module_ecdh"
echo " module recovery = $enable_module_recovery"
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echo " module extrakeys = $enable_module_extrakeys"
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echo " module schnorrsig = $enable_module_schnorrsig"
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echo " module ellswift = $enable_module_ellswift"
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# libsecp256k1-zkp modules, in the order they were added to the libsecp256k1-zkp
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echo " module generator = $enable_module_generator"
echo " module rangeproof = $enable_module_rangeproof"
echo " module surjectionproof = $enable_module_surjectionproof"
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if test x"$enable_module_surjectionproof" = x"yes" && test x"$enable_reduced_surjection_proof_size" = x"yes"; then
echo " reduced proof size = $enable_reduced_surjection_proof_size"
fi
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echo " module whitelist = $enable_module_whitelist"
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echo " module musig = $enable_module_musig"
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echo " module ecdsa-s2c = $enable_module_ecdsa_s2c"
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echo " module ecdsa-adaptor = $enable_module_ecdsa_adaptor"
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echo " module frost = $enable_module_frost"
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echo " module bppp = $enable_module_bppp"
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echo " module schnorrsig-halfagg = $enable_module_schnorrsig_halfagg"
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echo
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echo " asm = $set_asm"
echo " ecmult window size = $set_ecmult_window"
echo " ecmult gen prec. bits = $set_ecmult_gen_precision"
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# Hide test-only options unless they're used.
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if test x"$set_widemul" != xauto; then
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echo " wide multiplication = $set_widemul"
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fi
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echo
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echo " valgrind = $enable_valgrind"
echo " CC = $CC"
echo " CPPFLAGS = $CPPFLAGS"
echo " SECP_CFLAGS = $SECP_CFLAGS"
echo " CFLAGS = $CFLAGS"
echo " LDFLAGS = $LDFLAGS"
