net.server_epoll: Add support for systemd socket activation
Allows creating listening sockets and accepting client connections
before Prosody starts.
This is unlike normal Prosody dynamic resource management, where ports
may added and removed at any time, and the ports defined by the config.
Weird things happen if these are closed (e.g. due to reload) so here we
prevent closing and ensure sockets are reused when opened again.
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);