packageName = "constantine" version = "0.0.1" author = "Status Research & Development GmbH" description = "This library provides thoroughly tested and highly-optimized implementations of cryptography protocols." license = "MIT or Apache License 2.0" # Dependencies # ---------------------------------------------------------------- requires "nim >= 1.1.0" # Test config # ---------------------------------------------------------------- const buildParallel = "test_parallel.txt" # Testing strategy: to reduce CI time we test leaf functionality # and skip testing codepath that would be exercised by leaves. # While debugging, relevant unit-test can be reactivated. # New features should stay on. # Code refactoring requires re-enabling the full suite. # Basic primitives should stay on to catch compiler regressions. const testDesc: seq[tuple[path: string, useGMP: bool]] = @[ # Hashing vs OpenSSL # ---------------------------------------------------------- ("tests/t_hash_sha256_vs_openssl.nim", true), # skip OpenSSL tests on Windows # Ciphers # ---------------------------------------------------------- ("tests/t_cipher_chacha20.nim", false), # Message Authentication Code # ---------------------------------------------------------- ("tests/t_mac_poly1305.nim", false), ("tests/t_mac_hmac_sha256.nim", false), # KDF # ---------------------------------------------------------- ("tests/t_kdf_hkdf.nim", false), # Primitives # ---------------------------------------------------------- ("tests/math/t_primitives.nim", false), ("tests/math/t_primitives_extended_precision.nim", false), # Big ints # ---------------------------------------------------------- ("tests/math/t_io_bigints.nim", false), ("tests/math/t_io_unsaturated.nim", false), # ("tests/math/t_bigints.nim", false), # ("tests/math/t_bigints_multimod.nim", false), # ("tests/math/t_bigints_mod_vs_gmp.nim", true), # ("tests/math/t_bigints_mul_vs_gmp.nim", true), # ("tests/math/t_bigints_mul_high_words_vs_gmp.nim", true), # Field # ---------------------------------------------------------- ("tests/math/t_io_fields", false), # ("tests/math/t_finite_fields.nim", false), # ("tests/math/t_finite_fields_conditional_arithmetic.nim", false), # ("tests/math/t_finite_fields_mulsquare.nim", false), # ("tests/math/t_finite_fields_sqrt.nim", false), # ("tests/math/t_finite_fields_powinv.nim", false), # ("tests/math/t_finite_fields_vs_gmp.nim", true), # ("tests/math/t_fp_cubic_root.nim", false), # Double-precision finite fields # ---------------------------------------------------------- # ("tests/math/t_finite_fields_double_precision.nim", false), # Towers of extension fields # ---------------------------------------------------------- # ("tests/math/t_fp2.nim", false), # ("tests/math/t_fp2_sqrt.nim", false), # ("tests/math/t_fp4.nim", false), # ("tests/math/t_fp6_bn254_nogami.nim", false), # ("tests/math/t_fp6_bn254_snarks.nim", false), # ("tests/math/t_fp6_bls12_377.nim", false), # ("tests/math/t_fp6_bls12_381.nim", false), # ("tests/math/t_fp6_bw6_761.nim", false), # ("tests/math/t_fp12_bn254_nogami.nim", false), # ("tests/math/t_fp12_bn254_snarks.nim", false), # ("tests/math/t_fp12_bls12_377.nim", false), # ("tests/math/t_fp12_bls12_381.nim", false), # ("tests/math/t_fp12_exponentiation.nim", false), ("tests/math/t_fp12_anti_regression.nim", false), # ("tests/math/t_fp4_frobenius.nim", false), # ("tests/math/t_fp6_frobenius.nim", false), # ("tests/math/t_fp12_frobenius.nim", false), # Elliptic curve arithmetic # ---------------------------------------------------------- # ("tests/math/t_ec_conversion.nim", false), # Elliptic curve arithmetic G1 # ---------------------------------------------------------- # ("tests/math/t_ec_shortw_prj_g1_add_double.nim", false), # ("tests/math/t_ec_shortw_prj_g1_mul_sanity.nim", false), # ("tests/math/t_ec_shortw_prj_g1_mul_distri.nim", false), # ("tests/math/t_ec_shortw_prj_g1_mul_vs_ref.nim", false), # ("tests/math/t_ec_shortw_prj_g1_mixed_add.nim", false), # ("tests/math/t_ec_shortw_jac_g1_add_double.nim", false), # ("tests/math/t_ec_shortw_jac_g1_mul_sanity.nim", false), # ("tests/math/t_ec_shortw_jac_g1_mul_distri.nim", false), # ("tests/math/t_ec_shortw_jac_g1_mul_vs_ref.nim", false), # ("tests/math/t_ec_shortw_jac_g1_mixed_add.nim", false), # ("tests/math/t_ec_twedwards_prj_add_double", false), # ("tests/math/t_ec_twedwards_prj_mul_sanity", false), # ("tests/math/t_ec_twedwards_prj_mul_distri", false), # Elliptic curve arithmetic G2 # ---------------------------------------------------------- # ("tests/math/t_ec_shortw_prj_g2_add_double_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_sanity_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_distri_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_vs_ref_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mixed_add_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_prj_g2_add_double_bls12_381.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_sanity_bls12_381.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_distri_bls12_381.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_vs_ref_bls12_381.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mixed_add_bls12_381.nim", false), # ("tests/math/t_ec_shortw_prj_g2_add_double_bls12_377.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_sanity_bls12_377.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_distri_bls12_377.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_vs_ref_bls12_377.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mixed_add_bls12_377.nim", false), # ("tests/math/t_ec_shortw_prj_g2_add_double_bw6_761.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_sanity_bw6_761.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_distri_bw6_761.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mul_vs_ref_bw6_761.nim", false), # ("tests/math/t_ec_shortw_prj_g2_mixed_add_bw6_761.nim", false), # ("tests/math/t_ec_shortw_jac_g2_add_double_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_sanity_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_distri_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_vs_ref_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mixed_add_bn254_snarks.nim", false), # ("tests/math/t_ec_shortw_jac_g2_add_double_bls12_381.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_sanity_bls12_381.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_distri_bls12_381.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_vs_ref_bls12_381.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mixed_add_bls12_381.nim", false), # ("tests/math/t_ec_shortw_jac_g2_add_double_bls12_377.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_sanity_bls12_377.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_distri_bls12_377.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_vs_ref_bls12_377.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mixed_add_bls12_377.nim", false), # ("tests/math/t_ec_shortw_jac_g2_add_double_bw6_761.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_sanity_bw6_761.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_distri_bw6_761.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mul_vs_ref_bw6_761.nim", false), # ("tests/math/t_ec_shortw_jac_g2_mixed_add_bw6_761.nim", false), # Elliptic curve arithmetic vs Sagemath # ---------------------------------------------------------- ("tests/math/t_ec_frobenius.nim", false), ("tests/math/t_ec_sage_bn254_nogami.nim", false), ("tests/math/t_ec_sage_bn254_snarks.nim", false), ("tests/math/t_ec_sage_bls12_377.nim", false), ("tests/math/t_ec_sage_bls12_381.nim", false), ("tests/math/t_ec_sage_pallas.nim", false), ("tests/math/t_ec_sage_vesta.nim", false), # Edge cases highlighted by past bugs # ---------------------------------------------------------- ("tests/math/t_ec_shortw_prj_edge_cases.nim", false), # Elliptic curve arithmetic - batch computation # ---------------------------------------------------------- ("tests/math/t_ec_shortw_prj_g1_batch_add.nim", false), ("tests/math/t_ec_shortw_jac_g1_batch_add.nim", false), # Subgroups and cofactors # ---------------------------------------------------------- # ("tests/math/t_ec_subgroups_bn254_nogami.nim", false), # ("tests/math/t_ec_subgroups_bn254_snarks.nim", false), # ("tests/math/t_ec_subgroups_bls12_377.nim", false), # ("tests/math/t_ec_subgroups_bls12_381.nim", false), # ("tests/math/t_pairing_bn254_nogami_gt_subgroup.nim", false), # ("tests/math/t_pairing_bn254_snarks_gt_subgroup.nim", false), # ("tests/math/t_pairing_bls12_377_gt_subgroup.nim", false), # ("tests/math/t_pairing_bls12_381_gt_subgroup.nim", false), # ("tests/math/t_pairing_bw6_761_gt_subgroup.nim", false), # Pairing # ---------------------------------------------------------- # ("tests/math/t_pairing_bls12_377_line_functions.nim", false), # ("tests/math/t_pairing_bls12_381_line_functions.nim", false), # ("tests/math/t_pairing_mul_fp12_by_lines.nim", false), # ("tests/math/t_pairing_cyclotomic_subgroup.nim", false), ("tests/math/t_pairing_bn254_nogami_optate.nim", false), ("tests/math/t_pairing_bn254_snarks_optate.nim", false), ("tests/math/t_pairing_bls12_377_optate.nim", false), ("tests/math/t_pairing_bls12_381_optate.nim", false), # Multi-Pairing # ---------------------------------------------------------- ("tests/math/t_pairing_bn254_nogami_multi.nim", false), ("tests/math/t_pairing_bn254_snarks_multi.nim", false), ("tests/math/t_pairing_bls12_381_multi.nim", false), # Prime order fields # ---------------------------------------------------------- ("tests/math/t_fr.nim", false), # Hashing to elliptic curves # ---------------------------------------------------------- ("tests/t_hash_to_field.nim", false), # ("tests/t_hash_to_curve_random.nim", false), ("tests/t_hash_to_curve.nim", false), # Protocols # ---------------------------------------------------------- ("tests/t_ethereum_evm_precompiles.nim", false), ("tests/t_blssig_pop_on_bls12381_g2.nim", false), ("tests/t_ethereum_eip2333_bls12381_key_derivation.nim", false), ] const testDescNvidia: seq[string] = @[ "tests/gpu/t_nvidia_fp.nim", ] const testDescThreadpool: seq[string] = @[ "constantine/platforms/threadpool/examples/e01_simple_tasks.nim", "constantine/platforms/threadpool/examples/e02_parallel_pi.nim", # "constantine/platforms/threadpool/benchmarks/bouncing_producer_consumer/threadpool_bpc.nim", # Need timing not implemented on Windows "constantine/platforms/threadpool/benchmarks/dfs/threadpool_dfs.nim", "constantine/platforms/threadpool/benchmarks/fibonacci/threadpool_fib.nim", "constantine/platforms/threadpool/benchmarks/heat/threadpool_heat.nim", # "constantine/platforms/threadpool/benchmarks/matmul_cache_oblivious/threadpool_matmul_co.nim", "constantine/platforms/threadpool/benchmarks/nqueens/threadpool_nqueens.nim", # "constantine/platforms/threadpool/benchmarks/single_task_producer/threadpool_spc.nim", # Need timing not implemented on Windows ] const testDescMultithreadedCrypto: seq[string] = @[ "tests/parallel/t_ec_shortw_jac_g1_batch_add_parallel.nim", "tests/parallel/t_ec_shortw_prj_g1_batch_add_parallel.nim" ] const benchDesc = [ "bench_fp", "bench_fp_double_precision", "bench_fp2", "bench_fp4", "bench_fp6", "bench_fp12", "bench_ec_g1", "bench_ec_g1_batch", "bench_ec_g2", "bench_pairing_bls12_377", "bench_pairing_bls12_381", "bench_pairing_bn254_nogami", "bench_pairing_bn254_snarks", "bench_summary_bls12_377", "bench_summary_bls12_381", "bench_summary_bn254_nogami", "bench_summary_bn254_snarks", "bench_summary_pasta", "bench_poly1305", "bench_sha256", "bench_hash_to_curve", "bench_blssig_on_bls12_381_g2" ] # For temporary (hopefully) investigation that can only be reproduced in CI const useDebug = [ "tests/math/t_bigints.nim", "tests/math/t_hash_sha256_vs_openssl.nim", ] # Tests that uses sequences require Nim GC, stack scanning and nil pointer passed to openarray # In particular the tests that uses the json test vectors, don't sanitize them. # we do use gc:none to help const skipSanitizers = [ "tests/math/t_ec_sage_bn254_nogami.nim", "tests/math/t_ec_sage_bn254_snarks.nim", "tests/math/t_ec_sage_bls12_377.nim", "tests/math/t_ec_sage_bls12_381.nim", "tests/t_blssig_pop_on_bls12381_g2.nim", "tests/t_hash_to_field.nim", "tests/t_hash_to_curve.nim", "tests/t_hash_to_curve_random.nim", "tests/t_mac_poly1305.nim", "tests/t_mac_hmac.nim", "tests/t_kdf_hkdf.nim", "tests/t_ethereum_eip2333_bls12381_key_derivation.nim" ] when defined(windows): # UBSAN is not available on mingw const sanitizers = "" else: const sanitizers = " --passC:-fsanitize=undefined --passL:-fsanitize=undefined" & " --passC:-fno-sanitize-recover" & # Enforce crash on undefined behaviour " --gc:none" # The conservative stack scanning of Nim default GC triggers, alignment UB and stack-buffer-overflow check. # " --passC:-fsanitize=address --passL:-fsanitize=address" & # Requires too much stack for the inline assembly # Helper functions # ---------------------------------------------------------------- proc clearParallelBuild() = # Support clearing from non POSIX shell like CMD, Powershell or MSYS2 if fileExists(buildParallel): rmFile(buildParallel) template setupCommand(): untyped {.dirty.} = var lang = "c" if existsEnv"TEST_LANG": lang = getEnv"TEST_LANG" var cc = "" if existsEnv"CC": cc = " --cc:" & getEnv"CC" var flags = flags when not defined(windows): # Not available in MinGW https://github.com/libressl-portable/portable/issues/54 flags &= " --passC:-fstack-protector-strong" let command = "nim " & lang & cc & " -d:release " & flags & " --panics:on " & # Defects are not catchable " --verbosity:0 --outdir:build/testsuite -r --hints:off --warnings:off " & " --nimcache:nimcache/" & path & " " & path proc test(cmd: string) = echo "\n==============================================================================================" echo "Running '", cmd, "'" echo "==============================================================================================" exec cmd proc testBatch(commands: var string, flags, path: string) = setupCommand() commands &= command & '\n' template setupBench(): untyped {.dirty.} = let runFlag = if run: " -r " else: " " var lang = " c " if existsEnv"TEST_LANG": lang = getEnv"TEST_LANG" var cc = "" if compiler != "": cc = "--cc:" & compiler elif existsEnv"CC": cc = " --cc:" & getEnv"CC" if not useAsm: cc &= " -d:CttASM=false" let command = "nim " & lang & cc & " --panics:on " & # Defects are not catchable " -d:danger --verbosity:0 -o:build/bench/" & benchName & "_" & compiler & "_" & (if useAsm: "useASM" else: "noASM") & " --nimcache:nimcache/benches/" & benchName & "_" & compiler & "_" & (if useAsm: "useASM" else: "noASM") & runFlag & "--hints:off --warnings:off benchmarks/" & benchName & ".nim" proc runBench(benchName: string, compiler = "", useAsm = true) = if not dirExists "build": mkDir "build" let run = true setupBench() exec command proc buildBenchBatch(commands: var string, benchName: string, compiler = "", useAsm = true) = let run = false let compiler = "" setupBench() commands &= command & '\n' proc addTestSet(cmdFile: var string, requireGMP: bool, test32bit = false, testASM = true) = if not dirExists "build": mkDir "build" echo "Found " & $testDesc.len & " tests to run." for td in testDesc: if not(td.useGMP and not requireGMP): var flags = "" if not testASM: flags &= " -d:CttASM=false" if test32bit: flags &= " -d:Constantine32" if td.path in useDebug: flags &= " -d:debugConstantine" if td.path notin skipSanitizers: flags &= sanitizers cmdFile.testBatch(flags, td.path) proc addTestSetNvidia(cmdFile: var string) = if not dirExists "build": mkDir "build" echo "Found " & $testDescNvidia.len & " tests to run." for path in testDescNvidia: cmdFile.testBatch(flags = "", path) proc addTestSetThreadpool(cmdFile: var string) = if not dirExists "build": mkDir "build" echo "Found " & $testDescThreadpool.len & " tests to run." for path in testDescThreadpool: cmdFile.testBatch(flags = "--threads:on --linetrace:on --debugger:native", path) proc addTestSetMultithreadedCrypto(cmdFile: var string, test32bit = false, testASM = true) = if not dirExists "build": mkDir "build" echo "Found " & $testDescMultithreadedCrypto.len & " tests to run." for td in testDescMultithreadedCrypto: var flags = " --threads:on --debugger:native" if not testASM: flags &= " -d:CttASM=false" if test32bit: flags &= " -d:Constantine32" if td in useDebug: flags &= " -d:debugConstantine" if td notin skipSanitizers: flags &= sanitizers cmdFile.testBatch(flags, td) proc addBenchSet(cmdFile: var string, useAsm = true) = if not dirExists "build": mkDir "build" echo "Found " & $benchDesc.len & " benches to compile. (compile-only to ensure they stay relevant)" for bd in benchDesc: cmdFile.buildBenchBatch(bd, useASM = useASM) proc genDynamicBindings(bindingsName, prefixNimMain: string) = proc compile(libName: string, flags = "") = # -d:danger to avoid boundsCheck, overflowChecks that would trigger exceptions or allocations in a crypto library. # Those are internally guaranteed at compile-time by fixed-sized array # and checked at runtime with an appropriate error code if any for user-input. # -gc:arc Constantine stack allocates everything. Inputs are through unmanaged ptr+len. # In the future, Constantine might use: # - heap-allocated sequences and objects manually managed or managed by destructors for multithreading. # - heap-allocated strings for hex-string or decimal strings echo "Compiling dynamic library: bindings/generated/" & libName exec "nim c -f " & flags & " --noMain -d:danger --app:lib --gc:arc " & " --panics:on " & # Defects are not catchable " --verbosity:0 --hints:off --warnings:off " & " --nimMainPrefix:" & prefixNimMain & " --out:" & libName & " --outdir:bindings/generated " & " --nimcache:nimcache/bindings/" & bindingsName & " bindings/" & bindingsName & ".nim" when defined(windows): compile bindingsName & ".dll" elif defined(macosx): compile "lib" & bindingsName & ".dylib.arm", "--cpu:arm64 -l:'-target arm64-apple-macos11' -t:'-target arm64-apple-macos11'" compile "lib" & bindingsName & ".dylib.x64", "--cpu:amd64 -l:'-target x86_64-apple-macos10.12' -t:'-target x86_64-apple-macos10.12'" exec "lipo bindings/generated/lib" & bindingsName & ".dylib.arm " & " bindings/generated/lib" & bindingsName & ".dylib.x64 " & " -output bindings/generated/lib" & bindingsName & ".dylib -create" else: compile "lib" & bindingsName & ".so" proc genStaticBindings(bindingsName, prefixNimMain: string) = proc compile(libName: string, flags = "") = # -d:danger to avoid boundsCheck, overflowChecks that would trigger exceptions or allocations in a crypto library. # Those are internally guaranteed at compile-time by fixed-sized array # and checked at runtime with an appropriate error code if any for user-input. # -gc:arc Constantine stack allocates everything. Inputs are through unmanaged ptr+len. # In the future, Constantine might use: # - heap-allocated sequences and objects manually managed or managed by destructors for multithreading. # - heap-allocated strings for hex-string or decimal strings echo "Compiling static library: bindings/generated/" & libName exec "nim c -f " & flags & " --noMain -d:danger --app:staticLib --gc:arc " & " --panics:on " & # Defects are not catchable " --verbosity:0 --hints:off --warnings:off " & " --nimMainPrefix:" & prefixNimMain & " --out:" & libName & " --outdir:bindings/generated " & " --nimcache:nimcache/bindings/" & bindingsName & " bindings/" & bindingsName & ".nim" when defined(windows): compile bindingsName & ".lib" elif defined(macosx): compile "lib" & bindingsName & ".a.arm", "--cpu:arm64 -l:'-target arm64-apple-macos11' -t:'-target arm64-apple-macos11'" compile "lib" & bindingsName & ".a.x64", "--cpu:amd64 -l:'-target x86_64-apple-macos10.12' -t:'-target x86_64-apple-macos10.12'" exec "lipo bindings/generated/lib" & bindingsName & ".a.arm " & " bindings/generated/lib" & bindingsName & ".a.x64 " & " -output bindings/generated/lib" & bindingsName & ".a -create" else: compile "lib" & bindingsName & ".a" proc genHeaders(bindingsName: string) = echo "Generating header: bindings/generated/" & bindingsName & ".h" exec "nim c -d:release -d:CttGenerateHeaders " & " --verbosity:0 --hints:off --warnings:off " & " --out:" & bindingsName & "_gen_header.exe --outdir:bindings/generated " & " --nimcache:nimcache/bindings/" & bindingsName & "_header" & " bindings/" & bindingsName & ".nim" exec "bindings/generated/" & bindingsName & "_gen_header.exe bindings/generated" proc genParallelCmdRunner() = exec "nim c --verbosity:0 --hints:off --warnings:off -d:release --out:build/pararun --nimcache:nimcache/pararun helpers/pararun.nim" # Tasks # ---------------------------------------------------------------- task bindings, "Generate Constantine bindings": genDynamicBindings("constantine_bls12_381", "ctt_bls12381_init_") genStaticBindings("constantine_bls12_381", "ctt_bls12381_init_") genHeaders("constantine_bls12_381") echo "" genDynamicBindings("constantine_pasta", "ctt_pasta_init_") genStaticBindings("constantine_pasta", "ctt_pasta_init_") genHeaders("constantine_pasta") task test_bindings, "Test C bindings": exec "mkdir -p build/testsuite" echo "--> Testing dynamically linked library" when not defined(windows): exec "gcc -Ibindings/generated -Lbindings/generated -o build/testsuite/t_libctt_bls12_381_dl tests/bindings/t_libctt_bls12_381.c -lgmp -lconstantine_bls12_381" exec "LD_LIBRARY_PATH=bindings/generated ./build/testsuite/t_libctt_bls12_381_dl" else: # Put DLL near the exe as LD_LIBRARY_PATH doesn't work even in an POSIX compatible shell exec "gcc -Ibindings/generated -Lbindings/generated -o build/testsuite/t_libctt_bls12_381_dl.exe tests/bindings/t_libctt_bls12_381.c -lgmp -lconstantine_bls12_381" exec "./build/testsuite/t_libctt_bls12_381_dl.exe" echo "--> Testing statically linked library" when not defined(windows): # Beware MacOS annoying linker with regards to static libraries # The following standard way cannot be used on MacOS # exec "gcc -Ibindings/generated -Lbindings/generated -o build/t_libctt_bls12_381_sl.exe tests/bindings/t_libctt_bls12_381.c -lgmp -Wl,-Bstatic -lconstantine_bls12_381 -Wl,-Bdynamic" exec "gcc -Ibindings/generated -o build/testsuite/t_libctt_bls12_381_sl tests/bindings/t_libctt_bls12_381.c bindings/generated/libconstantine_bls12_381.a -lgmp" exec "./build/testsuite/t_libctt_bls12_381_sl" else: exec "gcc -Ibindings/generated -o build/testsuite/t_libctt_bls12_381_sl.exe tests/bindings/t_libctt_bls12_381.c bindings/generated/constantine_bls12_381.lib -lgmp" exec "./build/testsuite/t_libctt_bls12_381_sl.exe" task test, "Run all tests": # -d:testingCurves is configured in a *.nim.cfg for convenience var cmdFile: string cmdFile.addTestSet(requireGMP = true, testASM = true) cmdFile.addBenchSet(useASM = true) # Build (but don't run) benches to ensure they stay relevant cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_no_asm, "Run all tests (no assembly)": # -d:testingCurves is configured in a *.nim.cfg for convenience var cmdFile: string cmdFile.addTestSet(requireGMP = true, testASM = false) cmdFile.addBenchSet(useASM = false) # Build (but don't run) benches to ensure they stay relevant cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_no_gmp, "Run tests that don't require GMP": # -d:testingCurves is configured in a *.nim.cfg for convenience var cmdFile: string cmdFile.addTestSet(requireGMP = false, testASM = true) cmdFile.addBenchSet(useASM = true) # Build (but don't run) benches to ensure they stay relevant cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_no_gmp_no_asm, "Run tests that don't require GMP using a pure Nim backend": # -d:testingCurves is configured in a *.nim.cfg for convenience var cmdFile: string cmdFile.addTestSet(requireGMP = false, testASM = false) cmdFile.addBenchSet(useASM = false) # Build (but don't run) benches to ensure they stay relevant cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_parallel, "Run all tests in parallel (via GNU parallel)": # -d:testingCurves is configured in a *.nim.cfg for convenience clearParallelBuild() genParallelCmdRunner() var cmdFile: string cmdFile.addTestSet(requireGMP = true, testASM = true) cmdFile.addBenchSet(useASM = true) # Build (but don't run) benches to ensure they stay relevant writeFile(buildParallel, cmdFile) exec "build/pararun " & buildParallel # Threadpool tests done serially cmdFile = "" cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_parallel_no_asm, "Run all tests (without macro assembler) in parallel (via GNU parallel)": # -d:testingCurves is configured in a *.nim.cfg for convenience clearParallelBuild() genParallelCmdRunner() var cmdFile: string cmdFile.addTestSet(requireGMP = true, testASM = false) cmdFile.addBenchSet(useASM = false) writeFile(buildParallel, cmdFile) exec "build/pararun " & buildParallel # Threadpool tests done serially cmdFile = "" cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_parallel_no_gmp, "Run all tests in parallel (via GNU parallel)": # -d:testingCurves is configured in a *.nim.cfg for convenience clearParallelBuild() genParallelCmdRunner() var cmdFile: string cmdFile.addTestSet(requireGMP = false, testASM = true) cmdFile.addBenchSet(useASM = true) # Build (but don't run) benches to ensure they stay relevant writeFile(buildParallel, cmdFile) exec "build/pararun " & buildParallel # Threadpool tests done serially cmdFile = "" cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_parallel_no_gmp_no_asm, "Run all tests in parallel (via GNU parallel)": # -d:testingCurves is configured in a *.nim.cfg for convenience clearParallelBuild() genParallelCmdRunner() var cmdFile: string cmdFile.addTestSet(requireGMP = false, testASM = false) cmdFile.addBenchSet(useASM = false) # Build (but don't run) benches to ensure they stay relevant writeFile(buildParallel, cmdFile) exec "build/pararun " & buildParallel # Threadpool tests done serially cmdFile = "" cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_threadpool, "Run all tests for the builtin threadpool": var cmdFile: string cmdFile.addTestSetThreadpool() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_multithreaded_crypto, "Run all tests for multithreaded cryptography": var cmdFile: string cmdFile.addTestSetMultithreadedCrypto() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd task test_nvidia, "Run all tests for Nvidia GPUs": var cmdFile: string cmdFile.addTestSetNvidia() for cmd in cmdFile.splitLines(): if cmd != "": # Windows doesn't like empty commands exec cmd # Finite field 𝔽p # ------------------------------------------ task bench_fp, "Run benchmark 𝔽p with your default compiler": runBench("bench_fp") task bench_fp_gcc, "Run benchmark 𝔽p with gcc": runBench("bench_fp", "gcc") task bench_fp_clang, "Run benchmark 𝔽p with clang": runBench("bench_fp", "clang") task bench_fp_gcc_noasm, "Run benchmark 𝔽p with gcc - no Assembly": runBench("bench_fp", "gcc", useAsm = false) task bench_fp_clang_noasm, "Run benchmark 𝔽p with clang - no Assembly": runBench("bench_fp", "clang", useAsm = false) # Double-precision field 𝔽pDbl # ------------------------------------------ task bench_fpdbl, "Run benchmark 𝔽pDbl with your default compiler": runBench("bench_fp_double_precision") task bench_fpdbl_gcc, "Run benchmark 𝔽p with gcc": runBench("bench_fp_double_precision", "gcc") task bench_fpdbl_clang, "Run benchmark 𝔽p with clang": runBench("bench_fp_double_precision", "clang") task bench_fpdbl_gcc_noasm, "Run benchmark 𝔽p with gcc - no Assembly": runBench("bench_fp_double_precision", "gcc", useAsm = false) task bench_fpdbl_clang_noasm, "Run benchmark 𝔽p with clang - no Assembly": runBench("bench_fp_double_precision", "clang", useAsm = false) # Extension field 𝔽p2 # ------------------------------------------ task bench_fp2, "Run benchmark with 𝔽p2 your default compiler": runBench("bench_fp2") task bench_fp2_gcc, "Run benchmark 𝔽p2 with gcc": runBench("bench_fp2", "gcc") task bench_fp2_clang, "Run benchmark 𝔽p2 with clang": runBench("bench_fp2", "clang") task bench_fp2_gcc_noasm, "Run benchmark 𝔽p2 with gcc - no Assembly": runBench("bench_fp2", "gcc", useAsm = false) task bench_fp2_clang_noasm, "Run benchmark 𝔽p2 with clang - no Assembly": runBench("bench_fp2", "clang", useAsm = false) # Extension field 𝔽p4 # ------------------------------------------ task bench_fp4, "Run benchmark with 𝔽p4 your default compiler": runBench("bench_fp4") task bench_fp4_gcc, "Run benchmark 𝔽p4 with gcc": runBench("bench_fp4", "gcc") task bench_fp4_clang, "Run benchmark 𝔽p4 with clang": runBench("bench_fp4", "clang") task bench_fp4_gcc_noasm, "Run benchmark 𝔽p4 with gcc - no Assembly": runBench("bench_fp4", "gcc", useAsm = false) task bench_fp4_clang_noasm, "Run benchmark 𝔽p4 with clang - no Assembly": runBench("bench_fp4", "clang", useAsm = false) # Extension field 𝔽p6 # ------------------------------------------ task bench_fp6, "Run benchmark with 𝔽p6 your default compiler": runBench("bench_fp6") task bench_fp6_gcc, "Run benchmark 𝔽p6 with gcc": runBench("bench_fp6", "gcc") task bench_fp6_clang, "Run benchmark 𝔽p6 with clang": runBench("bench_fp6", "clang") task bench_fp6_gcc_noasm, "Run benchmark 𝔽p6 with gcc - no Assembly": runBench("bench_fp6", "gcc", useAsm = false) task bench_fp6_clang_noasm, "Run benchmark 𝔽p6 with clang - no Assembly": runBench("bench_fp6", "clang", useAsm = false) # Extension field 𝔽p12 # ------------------------------------------ task bench_fp12, "Run benchmark with 𝔽p12 your default compiler": runBench("bench_fp12") task bench_fp12_gcc, "Run benchmark 𝔽p12 with gcc": runBench("bench_fp12", "gcc") task bench_fp12_clang, "Run benchmark 𝔽p12 with clang": runBench("bench_fp12", "clang") task bench_fp12_gcc_noasm, "Run benchmark 𝔽p12 with gcc - no Assembly": runBench("bench_fp12", "gcc", useAsm = false) task bench_fp12_clang_noasm, "Run benchmark 𝔽p12 with clang - no Assembly": runBench("bench_fp12", "clang", useAsm = false) # Elliptic curve G1 # ------------------------------------------ task bench_ec_g1, "Run benchmark on Elliptic Curve group 𝔾1 - Default compiler": runBench("bench_ec_g1") task bench_ec_g1_gcc, "Run benchmark on Elliptic Curve group 𝔾1 - GCC": runBench("bench_ec_g1", "gcc") task bench_ec_g1_clang, "Run benchmark on Elliptic Curve group 𝔾1 - Clang": runBench("bench_ec_g1", "clang") task bench_ec_g1_gcc_noasm, "Run benchmark on Elliptic Curve group 𝔾1 - GCC no Assembly": runBench("bench_ec_g1", "gcc", useAsm = false) task bench_ec_g1_clang_noasm, "Run benchmark on Elliptic Curve group 𝔾1 - Clang no Assembly": runBench("bench_ec_g1", "clang", useAsm = false) # Elliptic curve G1 - batch operations # ------------------------------------------ task bench_ec_g1_batch, "Run benchmark on Elliptic Curve group 𝔾1 (batch ops) - Default compiler": runBench("bench_ec_g1_batch") task bench_ec_g1_batch_gcc, "Run benchmark on Elliptic Curve group 𝔾1 (batch ops) - GCC": runBench("bench_ec_g1_batch", "gcc") task bench_ec_g1_batch_clang, "Run benchmark on Elliptic Curve group 𝔾1 (batch ops) - Clang": runBench("bench_ec_g1_batch", "clang") task bench_ec_g1_batch_gcc_noasm, "Run benchmark on Elliptic Curve group 𝔾1 (batch ops) - GCC no Assembly": runBench("bench_ec_g1_batch", "gcc", useAsm = false) task bench_ec_g1_batch_clang_noasm, "Run benchmark on Elliptic Curve group 𝔾1 (batch ops) - Clang no Assembly": runBench("bench_ec_g1", "clang", useAsm = false) # Elliptic curve G2 # ------------------------------------------ task bench_ec_g2, "Run benchmark on Elliptic Curve group 𝔾2 - Default compiler": runBench("bench_ec_g2") task bench_ec_g2_gcc, "Run benchmark on Elliptic Curve group 𝔾2 - GCC": runBench("bench_ec_g2", "gcc") task bench_ec_g2_clang, "Run benchmark on Elliptic Curve group 𝔾2 - Clang": runBench("bench_ec_g2", "clang") task bench_ec_g2_gcc_noasm, "Run benchmark on Elliptic Curve group 𝔾2 - GCC no Assembly": runBench("bench_ec_g2", "gcc", useAsm = false) task bench_ec_g2_clang_noasm, "Run benchmark on Elliptic Curve group 𝔾2 - Clang no Assembly": runBench("bench_ec_g2", "clang", useAsm = false) # Pairings # ------------------------------------------ task bench_pairing_bls12_377, "Run pairings benchmarks for BLS12-377 - Default compiler": runBench("bench_pairing_bls12_377") task bench_pairing_bls12_377_gcc, "Run pairings benchmarks for BLS12-377 - GCC": runBench("bench_pairing_bls12_377", "gcc") task bench_pairing_bls12_377_clang, "Run pairings benchmarks for BLS12-377 - Clang": runBench("bench_pairing_bls12_377", "clang") task bench_pairing_bls12_377_gcc_noasm, "Run pairings benchmarks for BLS12-377 - GCC no Assembly": runBench("bench_pairing_bls12_377", "gcc", useAsm = false) task bench_pairing_bls12_377_clang_noasm, "Run pairings benchmarks for BLS12-377 - Clang no Assembly": runBench("bench_pairing_bls12_377", "clang", useAsm = false) # -- task bench_pairing_bls12_381, "Run pairings benchmarks for BLS12-381 - Default compiler": runBench("bench_pairing_bls12_381") task bench_pairing_bls12_381_gcc, "Run pairings benchmarks for BLS12-381 - GCC": runBench("bench_pairing_bls12_381", "gcc") task bench_pairing_bls12_381_clang, "Run pairings benchmarks for BLS12-381 - Clang": runBench("bench_pairing_bls12_381", "clang") task bench_pairing_bls12_381_gcc_noasm, "Run pairings benchmarks for BLS12-381 - GCC no Assembly": runBench("bench_pairing_bls12_381", "gcc", useAsm = false) task bench_pairing_bls12_381_clang_noasm, "Run pairings benchmarks for BLS12-381 - Clang no Assembly": runBench("bench_pairing_bls12_381", "clang", useAsm = false) # -- task bench_pairing_bn254_nogami, "Run pairings benchmarks for BN254-Nogami - Default compiler": runBench("bench_pairing_bn254_nogami") task bench_pairing_bn254_nogami_gcc, "Run pairings benchmarks for BN254-Nogami - GCC": runBench("bench_pairing_bn254_nogami", "gcc") task bench_pairing_bn254_nogami_clang, "Run pairings benchmarks for BN254-Nogami - Clang": runBench("bench_pairing_bn254_nogami", "clang") task bench_pairing_bn254_nogami_gcc_noasm, "Run pairings benchmarks for BN254-Nogami - GCC no Assembly": runBench("bench_pairing_bn254_nogami", "gcc", useAsm = false) task bench_pairing_bn254_nogami_clang_noasm, "Run pairings benchmarks for BN254-Nogami - Clang no Assembly": runBench("bench_pairing_bn254_nogami", "clang", useAsm = false) # -- task bench_pairing_bn254_snarks, "Run pairings benchmarks for BN254-Snarks - Default compiler": runBench("bench_pairing_bn254_snarks") task bench_pairing_bn254_snarks_gcc, "Run pairings benchmarks for BN254-Snarks - GCC": runBench("bench_pairing_bn254_snarks", "gcc") task bench_pairing_bn254_snarks_clang, "Run pairings benchmarks for BN254-Snarks - Clang": runBench("bench_pairing_bn254_snarks", "clang") task bench_pairing_bn254_snarks_gcc_noasm, "Run pairings benchmarks for BN254-Snarks - GCC no Assembly": runBench("bench_pairing_bn254_snarks", "gcc", useAsm = false) task bench_pairing_bn254_snarks_clang_noasm, "Run pairings benchmarks for BN254-Snarks - Clang no Assembly": runBench("bench_pairing_bn254_snarks", "clang", useAsm = false) # Curve summaries # ------------------------------------------ task bench_summary_bls12_377, "Run summary benchmarks for BLS12-377 - Default compiler": runBench("bench_summary_bls12_377") task bench_summary_bls12_377_gcc, "Run summary benchmarks for BLS12-377 - GCC": runBench("bench_summary_bls12_377", "gcc") task bench_summary_bls12_377_clang, "Run summary benchmarks for BLS12-377 - Clang": runBench("bench_summary_bls12_377", "clang") task bench_summary_bls12_377_gcc_noasm, "Run summary benchmarks for BLS12-377 - GCC no Assembly": runBench("bench_summary_bls12_377", "gcc", useAsm = false) task bench_summary_bls12_377_clang_noasm, "Run summary benchmarks for BLS12-377 - Clang no Assembly": runBench("bench_summary_bls12_377", "clang", useAsm = false) # -- task bench_summary_bls12_381, "Run summary benchmarks for BLS12-381 - Default compiler": runBench("bench_summary_bls12_381") task bench_summary_bls12_381_gcc, "Run summary benchmarks for BLS12-381 - GCC": runBench("bench_summary_bls12_381", "gcc") task bench_summary_bls12_381_clang, "Run summary benchmarks for BLS12-381 - Clang": runBench("bench_summary_bls12_381", "clang") task bench_summary_bls12_381_gcc_noasm, "Run summary benchmarks for BLS12-381 - GCC no Assembly": runBench("bench_summary_bls12_381", "gcc", useAsm = false) task bench_summary_bls12_381_clang_noasm, "Run summary benchmarks for BLS12-381 - Clang no Assembly": runBench("bench_summary_bls12_381", "clang", useAsm = false) # -- task bench_summary_bn254_nogami, "Run summary benchmarks for BN254-Nogami - Default compiler": runBench("bench_summary_bn254_nogami") task bench_summary_bn254_nogami_gcc, "Run summary benchmarks for BN254-Nogami - GCC": runBench("bench_summary_bn254_nogami", "gcc") task bench_summary_bn254_nogami_clang, "Run summary benchmarks for BN254-Nogami - Clang": runBench("bench_summary_bn254_nogami", "clang") task bench_summary_bn254_nogami_gcc_noasm, "Run summary benchmarks for BN254-Nogami - GCC no Assembly": runBench("bench_summary_bn254_nogami", "gcc", useAsm = false) task bench_summary_bn254_nogami_clang_noasm, "Run summary benchmarks for BN254-Nogami - Clang no Assembly": runBench("bench_summary_bn254_nogami", "clang", useAsm = false) # -- task bench_summary_bn254_snarks, "Run summary benchmarks for BN254-Snarks - Default compiler": runBench("bench_summary_bn254_snarks") task bench_summary_bn254_snarks_gcc, "Run summary benchmarks for BN254-Snarks - GCC": runBench("bench_summary_bn254_snarks", "gcc") task bench_summary_bn254_snarks_clang, "Run summary benchmarks for BN254-Snarks - Clang": runBench("bench_summary_bn254_snarks", "clang") task bench_summary_bn254_snarks_gcc_noasm, "Run summary benchmarks for BN254-Snarks - GCC no Assembly": runBench("bench_summary_bn254_snarks", "gcc", useAsm = false) task bench_summary_bn254_snarks_clang_noasm, "Run summary benchmarks for BN254-Snarks - Clang no Assembly": runBench("bench_summary_bn254_snarks", "clang", useAsm = false) # -- task bench_summary_pasta, "Run summary benchmarks for the Pasta curves - Default compiler": runBench("bench_summary_pasta") task bench_summary_pasta_gcc, "Run summary benchmarks for the Pasta curves - GCC": runBench("bench_summary_pasta", "gcc") task bench_summary_pasta_clang, "Run summary benchmarks for the Pasta curves - Clang": runBench("bench_summary_pasta", "clang") task bench_summary_pasta_gcc_noasm, "Run summary benchmarks for the Pasta curves - GCC no Assembly": runBench("bench_summary_pasta", "gcc", useAsm = false) task bench_summary_pasta_clang_noasm, "Run summary benchmarks for the Pasta curves - Clang no Assembly": runBench("bench_summary_pasta", "clang", useAsm = false) # Hashes # ------------------------------------------ task bench_sha256, "Run SHA256 benchmarks": runBench("bench_sha256") # Hash-to-curve # ------------------------------------------ task bench_hash_to_curve, "Run Hash-to-Curve benchmarks": runBench("bench_hash_to_curve") task bench_hash_to_curve_gcc, "Run Hash-to-Curve benchmarks": runBench("bench_hash_to_curve", "gcc") task bench_hash_to_curve_clang, "Run Hash-to-Curve benchmarks": runBench("bench_hash_to_curve", "clang") task bench_hash_to_curve_gcc_noasm, "Run Hash-to-Curve benchmarks": runBench("bench_hash_to_curve", "gcc", useAsm = false) task bench_hash_to_curve_clang_noasm, "Run Hash-to-Curve benchmarks": runBench("bench_hash_to_curve", "clang", useAsm = false) # BLS signatures # ------------------------------------------ task bench_blssig_on_bls12_381_g2, "Run Hash-to-Curve benchmarks": runBench("bench_blssig_on_bls12_381_g2") task bench_blssig_on_bls12_381_g2_gcc, "Run Hash-to-Curve benchmarks": runBench("bench_blssig_on_bls12_381_g2", "gcc") task bench_blssig_on_bls12_381_g2_clang, "Run Hash-to-Curve benchmarks": runBench("bench_blssig_on_bls12_381_g2", "clang") task bench_blssig_on_bls12_381_g2_gcc_noasm, "Run Hash-to-Curve benchmarks": runBench("bench_blssig_on_bls12_381_g2", "gcc", useAsm = false) task bench_blssig_on_bls12_381_g2_clang_noasm, "Run Hash-to-Curve benchmarks": runBench("bench_blssig_on_bls12_381_g2", "clang", useAsm = false)