2022-06-08 21:28:55 +00:00
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import unittest
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import time
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import RNS
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import os
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signed_message = "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"
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sig_from_key_0 = "3020ef58f861591826a61c3d2d4a25b949cdb3094085ba6b1177a6f2a05f3cdd24d1095d6fdd078f0b2826e80b261c93c1ff97fbfd4857f25706d57dd073590c"
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encrypted_message = "71884a271ead43558fcf1e331c5aebcd43498f16da16f8056b0893ce6b15d521eaa4f31639cd34da1b57995944076c4f14f300f2d2612111d21a3429a9966ac1da68545c00c7887d8b26f6c1ab9defa020b9519849ca41b7904199882802b6542771df85144a79890289d3c02daef6c26652c5ce9de231a2"
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2022-06-30 18:37:51 +00:00
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fixed_token = "54d6ba347f3f2fe74fa52d6844a9090c049a6f437d7d151b9bd7db3e6785dd40286c451babda82660cbb4827517365b740675adf60d4b82778d7f7815a0e9818f2f2d3f15c0365e9d4f08df4f8261e5549c8c398e92bc66750fcd4ce7ea150f8a8761936341129e89afd22eaa57c303ccbe045d0b2fc7b8637946e16627419ef1fea0a0fef974c418a98af046d61e8e064f42c4948b0c81701106583c8f224329c0b475cb2168dc2e3fbf649edb79c58b7c839a509e146ec8d26589cb990c76c756fdefd0110410a6ab84fa3a722db74"
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2022-06-08 21:28:55 +00:00
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fixed_keys = [
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2022-06-30 18:37:51 +00:00
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("f8953ffaf607627e615603ff1530c82c434cf87c07179dd7689ea776f30b964cfb7ba6164af00c5111a45e69e57d885e1285f8dbfe3a21e95ae17cf676b0f8b7", "650b5d76b6bec0390d1f8cfca5bd33f9"),
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("d85d036245436a3c33d3228affae06721f8203bc364ee0ee7556368ac62add650ebf8f926abf628da9d92baaa12db89bd6516ee92ec29765f3afafcb8622d697", "1469e89450c361b253aefb0c606b6111"),
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("8893e2bfd30fc08455997caf7abb7a6341716768dbbf9a91cc1455bd7eeaf74cdc10ec72a4d4179696040bac620ee97ebc861e2443e5270537ae766d91b58181", "e5fe93ee4acba095b3b9b6541515ed3e"),
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("b82c7a4f047561d974de7e38538281d7f005d3663615f30d9663bad35a716063c931672cd452175d55bcdd70bb7aa35a9706872a97963dc52029938ea7341b39", "1333b911fa8ebb16726996adbe3c6262"),
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("08bb35f92b06a0832991165a0d9b4fd91af7b7765ce4572aa6222070b11b767092b61b0fd18b3a59cae6deb9db6d4bfb1c7fcfe076cfd66eea7ddd5f877543b9", "d13712efc45ef87674fb5ac26c37c912"),
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2022-06-08 21:28:55 +00:00
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]
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class TestIdentity(unittest.TestCase):
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2022-06-09 19:12:26 +00:00
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def test_0_create_from_bytes(self):
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2022-06-08 21:28:55 +00:00
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for entry in fixed_keys:
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key, id_hash = entry
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i = RNS.Identity.from_bytes(bytes.fromhex(key))
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self.assertEqual(i.hash, bytes.fromhex(id_hash))
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self.assertEqual(i.get_private_key(), bytes.fromhex(key))
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2022-06-10 09:27:52 +00:00
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def test_1_sign(self):
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print("")
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# Test known signature
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fid = RNS.Identity.from_bytes(bytes.fromhex(fixed_keys[0][0]))
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sig = fid.sign(signed_message.encode("utf-8"))
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self.assertEqual(sig, bytes.fromhex(sig_from_key_0))
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# Test signature time jitter
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id1 = RNS.Identity()
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id2 = RNS.Identity(create_keys=False)
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id2.load_public_key(id1.get_public_key())
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if RNS.Cryptography.backend() == "internal":
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rounds = 2000
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else:
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rounds = 20000
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times = []
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for i in range(1, rounds):
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msg = os.urandom(512)
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start = time.time()
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signature = id1.sign(msg)
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t = time.time() - start
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times.append(t)
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import statistics
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tmin = min(times)*1000
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tmax = max(times)*1000
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tmean = (sum(times)/len(times))*1000
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tmed = statistics.median(times)*1000
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tmdev = tmax - tmin
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mpct = (tmax/tmed)*100
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print("Random messages:")
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2024-10-07 08:44:18 +00:00
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print(f" Signature timing min/avg/med/max/mdev: {round(tmin, 3)}/{round(tmean, 3)}/{round(tmed, 3)}/{round(tmax, 3)}/{round(tmdev, 3)}")
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print(f" Max deviation from median: {round(mpct, 1)}%")
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2022-06-10 09:27:52 +00:00
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print()
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id1 = RNS.Identity()
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id2 = RNS.Identity(create_keys=False)
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id2.load_public_key(id1.get_public_key())
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times = []
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for i in range(1, rounds):
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msg = bytes([0x00])*512
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start = time.time()
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signature = id1.sign(msg)
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t = time.time() - start
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times.append(t)
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tmin = min(times)*1000
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tmax = max(times)*1000
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tmean = (sum(times)/len(times))*1000
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tmed = statistics.median(times)*1000
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tmdev = tmax - tmin
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mpct = (tmax/tmed)*100
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print("All 0xff messages:")
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2024-10-07 08:44:18 +00:00
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print(f" Signature timing min/avg/med/max/mdev: {round(tmin, 3)}/{round(tmean, 3)}/{round(tmed, 3)}/{round(tmax, 3)}/{round(tmdev, 3)}")
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print(f" Max deviation from median: {round(mpct, 1)}%")
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2022-06-10 09:27:52 +00:00
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print()
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id1 = RNS.Identity()
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id2 = RNS.Identity(create_keys=False)
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id2.load_public_key(id1.get_public_key())
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times = []
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for i in range(1, rounds):
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msg = bytes([0xff])*512
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start = time.time()
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signature = id1.sign(msg)
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t = time.time() - start
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times.append(t)
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tmin = min(times)*1000
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tmax = max(times)*1000
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tmean = (sum(times)/len(times))*1000
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tmed = statistics.median(times)*1000
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tmdev = tmax - tmin
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mpct = (tmax/tmed)*100
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print("All 0x00 messages:")
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2024-10-07 08:44:18 +00:00
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print(f" Signature timing min/avg/med/max/mdev: {round(tmin, 3)}/{round(tmean, 3)}/{round(tmed, 3)}/{round(tmax, 3)}/{round(tmdev, 3)}")
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print(f" Max deviation from median: {round(mpct, 1)}%")
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2022-06-10 09:27:52 +00:00
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print()
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b = 0
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t = 0
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for i in range(1, 500):
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mlen = i % (RNS.Reticulum.MTU//2) + (RNS.Reticulum.MTU//2)
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msg = os.urandom(mlen)
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b += mlen
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id1 = RNS.Identity()
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id2 = RNS.Identity(create_keys=False)
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id2.load_public_key(id1.get_public_key())
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start = time.time()
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signature = id1.sign(msg)
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self.assertEqual(True, id2.validate(signature, msg))
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t += time.time() - start
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2024-10-07 08:44:18 +00:00
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print(f"Sign/validate chunks < MTU: {self.size_str(b / t, 'b')}ps")
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2022-06-10 09:27:52 +00:00
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for i in range(1, 500):
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mlen = 16*1024
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msg = os.urandom(mlen)
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b += mlen
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id1 = RNS.Identity()
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id2 = RNS.Identity(create_keys=False)
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id2.load_public_key(id1.get_public_key())
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start = time.time()
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signature = id1.sign(msg)
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self.assertEqual(True, id2.validate(signature, msg))
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t += time.time() - start
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2024-10-07 08:44:18 +00:00
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print(f"Sign/validate 16KB chunks: {self.size_str(b / t, 'b')}ps")
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2022-06-10 09:27:52 +00:00
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def test_2_encrypt(self):
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2022-06-08 21:28:55 +00:00
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print("")
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# Test decryption of known token
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fid = RNS.Identity.from_bytes(bytes.fromhex(fixed_keys[0][0]))
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self.assertEqual(fid.hash, bytes.fromhex(fixed_keys[0][1]))
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plaintext = fid.decrypt(bytes.fromhex(fixed_token))
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self.assertEqual(plaintext, bytes.fromhex(encrypted_message))
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# Test encrypt and decrypt of random chunks
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2022-06-09 19:12:26 +00:00
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print("Testing random small chunk encrypt/decrypt")
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2022-06-08 21:28:55 +00:00
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b = 0
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e_t = 0
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d_t = 0
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for i in range(1, 500):
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mlen = i % (RNS.Reticulum.MTU//2) + (RNS.Reticulum.MTU//2)
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msg = os.urandom(mlen)
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b += mlen
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id1 = RNS.Identity()
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id2 = RNS.Identity(create_keys=False)
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id2.load_public_key(id1.get_public_key())
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e_start = time.time()
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token = id2.encrypt(msg)
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e_t += time.time() - e_start
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d_start = time.time()
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2022-06-09 19:12:26 +00:00
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decrypted = id1.decrypt(token)
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self.assertEqual(msg, decrypted)
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2022-06-08 21:28:55 +00:00
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d_t += time.time() - d_start
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2024-10-07 08:44:18 +00:00
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print(f"Encrypt chunks < MTU: {self.size_str(b / e_t, 'b')}ps")
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print(f"Decrypt chunks < MTU: {self.size_str(b / d_t, 'b')}ps")
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2022-06-08 21:28:55 +00:00
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print("")
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# Test encrypt and decrypt of large chunks
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2022-06-09 19:12:26 +00:00
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print("Testing large chunk encrypt/decrypt")
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2022-06-08 21:28:55 +00:00
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mlen = 8*1000*1000
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2022-06-10 14:36:30 +00:00
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if RNS.Cryptography.backend() == "internal":
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lb = 1
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else:
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lb = 8
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2024-10-07 08:52:43 +00:00
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2022-06-10 14:36:30 +00:00
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for i in range(1, lb):
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2022-06-08 21:28:55 +00:00
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msg = os.urandom(mlen)
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b += mlen
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id1 = RNS.Identity()
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id2 = RNS.Identity(create_keys=False)
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id2.load_public_key(id1.get_public_key())
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e_start = time.time()
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token = id2.encrypt(msg)
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e_t += time.time() - e_start
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d_start = time.time()
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self.assertEqual(msg, id1.decrypt(token))
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d_t += time.time() - d_start
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2024-10-07 08:44:18 +00:00
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print(f"Encrypt {self.size_str(mlen)} chunks: {self.size_str(b / e_t, 'b')}ps")
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print(f"Decrypt {self.size_str(mlen)} chunks: {self.size_str(b / d_t, 'b')}ps")
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2022-06-08 21:28:55 +00:00
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def size_str(self, num, suffix='B'):
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units = ['','K','M','G','T','P','E','Z']
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last_unit = 'Y'
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if suffix == 'b':
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num *= 8
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units = ['','K','M','G','T','P','E','Z']
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last_unit = 'Y'
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for unit in units:
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if abs(num) < 1000.0:
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if unit == "":
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2024-10-07 08:44:18 +00:00
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return f"{num:.0f} {unit}{suffix}"
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2022-06-08 21:28:55 +00:00
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else:
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2024-10-07 08:44:18 +00:00
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return f"{num:.2f} {unit}{suffix}"
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2022-06-08 21:28:55 +00:00
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num /= 1000.0
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2024-10-07 08:44:18 +00:00
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return f"{num:.2f}{last_unit}{suffix}"
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2022-06-08 21:28:55 +00:00
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if __name__ == '__main__':
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2022-06-09 19:12:26 +00:00
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unittest.main(verbosity=2)
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