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spec/util_crypto_spec.lua @ 13154:6cf5c215825d
mod_storage_sql: Enable UPSERT with PostgreSQL
Tested. Works.
author | Kim Alvefur <zash@zash.se> |
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date | Fri, 16 Jun 2023 13:03:34 +0200 |
parent | 12837:d3ae47d8a7a7 |
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local test_keys = require "spec.inputs.test_keys"; describe("util.crypto", function () local crypto = require "util.crypto"; local random = require "util.random"; describe("generate_ed25519_keypair", function () local keypair = crypto.generate_ed25519_keypair(); assert.is_not_nil(keypair); assert.equal("ED25519", keypair:get_type()); end) describe("import_private_pem", function () it("can import ECDSA keys", function () local ecdsa_key = crypto.import_private_pem(test_keys.ecdsa_private_pem); assert.equal("id-ecPublicKey", ecdsa_key:get_type()); end); it("can import EdDSA (Ed25519) keys", function () local ed25519_key = crypto.import_private_pem(crypto.generate_ed25519_keypair():private_pem()); assert.equal("ED25519", ed25519_key:get_type()); end); it("can import RSA keys", function () -- TODO end); it("rejects invalid keys", function () assert.is_nil(crypto.import_private_pem(test_keys.eddsa_public_pem)); assert.is_nil(crypto.import_private_pem(test_keys.ecdsa_public_pem)); assert.is_nil(crypto.import_private_pem("foo")); assert.is_nil(crypto.import_private_pem("")); end); end); describe("import_public_pem", function () it("can import ECDSA public keys", function () local ecdsa_key = crypto.import_public_pem(test_keys.ecdsa_public_pem); assert.equal("id-ecPublicKey", ecdsa_key:get_type()); end); it("can import EdDSA (Ed25519) public keys", function () local ed25519_key = crypto.import_public_pem(test_keys.eddsa_public_pem); assert.equal("ED25519", ed25519_key:get_type()); end); it("can import RSA public keys", function () -- TODO end); end); describe("PEM export", function () it("works", function () local ecdsa_key = crypto.import_public_pem(test_keys.ecdsa_public_pem); assert.equal("id-ecPublicKey", ecdsa_key:get_type()); assert.equal(test_keys.ecdsa_public_pem, ecdsa_key:public_pem()); assert.has_error(function () -- Fails because private key is not available ecdsa_key:private_pem(); end); local ecdsa_private_key = crypto.import_private_pem(test_keys.ecdsa_private_pem); assert.equal(test_keys.ecdsa_private_pem, ecdsa_private_key:private_pem()); end); end); describe("sign/verify with", function () local test_cases = { ed25519 = { crypto.ed25519_sign, crypto.ed25519_verify; key = crypto.import_private_pem(test_keys.eddsa_private_pem); sig_length = 64; }; ecdsa = { crypto.ecdsa_sha256_sign, crypto.ecdsa_sha256_verify; key = crypto.import_private_pem(test_keys.ecdsa_private_pem); }; }; for test_name, test in pairs(test_cases) do local key = test.key; describe(test_name, function () it("works", function () local sign, verify = test[1], test[2]; local sig = assert(sign(key, "Hello world")); assert.is_string(sig); if test.sig_length then assert.equal(test.sig_length, #sig); end do local ok = verify(key, "Hello world", sig); assert.is_truthy(ok); end do -- Incorrect signature local ok = verify(key, "Hello world", sig:sub(1, -2)..string.char((sig:byte(-1)+1)%255)); assert.is_falsy(ok); end do -- Incorrect message local ok = verify(key, "Hello earth", sig); assert.is_falsy(ok); end do -- Incorrect message (embedded NUL) local ok = verify(key, "Hello world\0foo", sig); assert.is_falsy(ok); end end); end); end end); describe("ECDSA signatures", function () local hex = require "util.hex"; local sig = hex.decode((([[ 304402203e936e7b0bc62887e0e9d675afd08531a930384cfcf301 f25d13053a2ebf141d02205a5a7c7b7ac5878d004cb79b17b39346 6b0cd1043718ffc31c153b971d213a8e ]]):gsub("%s+", ""))); it("can be parsed", function () local r, s = crypto.parse_ecdsa_signature(sig, 32); assert.is_string(r); assert.is_string(s); assert.equal(32, #r); assert.equal(32, #s); end); it("fails to parse invalid signatures", function () local invalid_sigs = { ""; "\000"; string.rep("\000", 64); string.rep("\000", 72); string.rep("\000", 256); string.rep("\255", 72); string.rep("\255", 3); }; for _, invalid_sig in ipairs(invalid_sigs) do local r, s = crypto.parse_ecdsa_signature(invalid_sig, 32); assert.is_nil(r); assert.is_nil(s); end end); it("can be built", function () local r, s = crypto.parse_ecdsa_signature(sig, 32); local rebuilt_sig = crypto.build_ecdsa_signature(r, s); assert.equal(sig, rebuilt_sig); end); end); describe("AES-GCM encryption", function () it("works", function () local message = "foo\0bar"; local key_128_bit = random.bytes(16); local key_256_bit = random.bytes(32); local test_cases = { { crypto.aes_128_gcm_encrypt, crypto.aes_128_gcm_decrypt, key = key_128_bit }; { crypto.aes_256_gcm_encrypt, crypto.aes_256_gcm_decrypt, key = key_256_bit }; }; for _, params in pairs(test_cases) do local iv = params.iv or random.bytes(12); local encrypted = params[1](params.key, iv, message); assert.not_equal(message, encrypted); local decrypted = params[2](params.key, iv, encrypted); assert.equal(message, decrypted); end end); end); describe("AES-CTR encryption", function () it("works", function () local message = "foo\0bar hello world"; local key_256_bit = random.bytes(32); local test_cases = { { crypto.aes_256_ctr_decrypt, crypto.aes_256_ctr_decrypt, key = key_256_bit }; }; for _, params in pairs(test_cases) do local iv = params.iv or random.bytes(16); local encrypted = params[1](params.key, iv, message); assert.not_equal(message, encrypted); local decrypted = params[2](params.key, iv, encrypted); assert.equal(message, decrypted); end end); end); end);