82 lines
2.6 KiB
Python
82 lines
2.6 KiB
Python
import ckzg
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import random
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import ssz
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# Simple test of bytes_to_bls_field
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bs = (329).to_bytes(32, "little")
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assert 329 == ckzg.int_from_bls_field(ckzg.bytes_to_bls_field(bs))
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# Simple test of compute_powers
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x = 32930439
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n = 11
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powers = ckzg.compute_powers(ckzg.bytes_to_bls_field(x.to_bytes(32, "little")), n)
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p_check = 1
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for p in powers:
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assert p_check == ckzg.int_from_bls_field(p)
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p_check *= x
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p_check %= 2**256
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# Commit to a few random blobs
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BLOB_SIZE = 4096
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MAX_BLOBS_PER_BLOCK = 16
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blobs_sedes = ssz.List(ssz.Vector(ssz.uint256, BLOB_SIZE), MAX_BLOBS_PER_BLOCK)
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kzg_commitments_sedes = ssz.List(ssz.bytes48, MAX_BLOBS_PER_BLOCK)
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blobs = [[ckzg.bytes_to_bls_field(random.randbytes(32)) for _ in range(BLOB_SIZE)] for _ in range(3)]
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ts = ckzg.load_trusted_setup("../../src/trusted_setup.txt")
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kzg_commitments = [ckzg.blob_to_kzg_commitment(blob, ts) for blob in blobs]
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# Compute polynomial commitments for these blobs
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# We don't follow the spec exactly to get the hash, but it shouldn't matter since it's random data
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encoded_blobs = ssz.encode([[ckzg.int_from_bls_field(fr) for fr in blob] for blob in blobs], blobs_sedes)
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encoded_commitments = ssz.encode([ckzg.bytes_from_g1(c) for c in kzg_commitments], kzg_commitments_sedes)
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hashed = ssz.hash.hashlib.sha256(encoded_blobs + encoded_commitments).digest()
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r = ckzg.bytes_to_bls_field(hashed)
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r_powers = ckzg.compute_powers(r, len(blobs))
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values = ckzg.vector_lincomb(blobs, r_powers)
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aggregated_poly = ckzg.alloc_polynomial(values)
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aggregated_poly_commitment = ckzg.g1_lincomb(kzg_commitments, r_powers)
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simple_commitment = ckzg.blob_to_kzg_commitment(values, ts)
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# Compute proof
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values_sedes = ssz.List(ssz.uint256, MAX_BLOBS_PER_BLOCK)
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encoded_polynomial = ssz.encode([ckzg.int_from_bls_field(fr) for fr in values], values_sedes)
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encoded_polynomial_length = ssz.encode(len(values), ssz.uint64)
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encoded_commitment = ssz.encode(ckzg.bytes_from_g1(aggregated_poly_commitment), ssz.bytes48)
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hashed_polynomial_and_commitment = ssz.hash.hashlib.sha256(
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encoded_polynomial + encoded_polynomial_length + encoded_commitment).digest()
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x = ckzg.bytes_to_bls_field(hashed_polynomial_and_commitment)
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proof = ckzg.compute_kzg_proof(aggregated_poly, x, ts)
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# Verify proof
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y = ckzg.evaluate_polynomial_in_evaluation_form(aggregated_poly, x, ts)
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assert ckzg.bytes_from_g1(simple_commitment) == ckzg.bytes_from_g1(aggregated_poly_commitment)
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assert ckzg.verify_kzg_proof(simple_commitment, x, y, proof, ts), 'Simple verification failed'
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assert ckzg.verify_kzg_proof(aggregated_poly_commitment, x, y, proof, ts), 'Verification failed'
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# Verification fails at wrong value
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print('Tests passed')
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