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rippled/src/test/rpc/KeyGeneration_test.cpp
Pretty Printer 1d23148e6d Rewrite includes (#4997)
2024-06-20 13:57:16 -05:00

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//------------------------------------------------------------------------------
/*
This file is part of rippled: https://github.com/ripple/rippled
Copyright (c) 2015 Ripple Labs Inc.
Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
//==============================================================================
#include <test/jtx/TestSuite.h>
#include <xrpld/rpc/detail/RPCHelpers.h>
#include <xrpld/rpc/handlers/WalletPropose.h>
#include <xrpl/json/json_value.h>
#include <xrpl/json/json_writer.h>
#include <xrpl/protocol/ErrorCodes.h>
#include <xrpl/protocol/jss.h>
namespace ripple {
namespace RPC {
struct key_strings
{
char const* account_id;
char const* master_key;
char const* master_seed;
char const* master_seed_hex;
char const* public_key;
char const* public_key_hex;
char const* secret_key_hex;
char const* passphrase;
char const* passphrase_warning;
};
namespace common {
static char const* passphrase = "REINDEER FLOTILLA";
static char const* master_key =
"SCAT BERN ISLE FOR ROIL BUS SOAK AQUA FREE FOR DRAM BRIG";
static char const* master_seed = "snMwVWs2hZzfDUF3p2tHZ3EgmyhFs";
static char const* master_seed_hex = "BE6A670A19B209E112146D0A7ED2AAD7";
} // namespace common
static key_strings const secp256k1_strings = {
"r4Vtj2jrfmTVZGfSP3gH9hQPMqFPQFin8f",
common::master_key,
common::master_seed,
common::master_seed_hex,
"aBQxK2YFNqzmAaXNczYcjqDjfiKkLsJUizsr1UBf44RCF8FHdrmX",
"038AAE247B2344B1837FBED8F57389C8C11774510A3F7D784F2A09F0CB6843236C",
"1949ECD889EA71324BC7A30C8E81F4E93CB73EE19D59E9082111E78CC3DDABC2",
common::passphrase,
"This wallet was generated using a user-supplied "
"passphrase that has low entropy and is vulnerable "
"to brute-force attacks.",
};
static key_strings const ed25519_strings = {
"r4qV6xTXerqaZav3MJfSY79ynmc1BSBev1",
common::master_key,
common::master_seed,
common::master_seed_hex,
"aKEQmgLMyZPMruJFejUuedp169LgW6DbJt1rej1DJ5hWUMH4pHJ7",
"ED54C3F5BEDA8BD588B203D23A27398FAD9D20F88A974007D6994659CD7273FE1D",
"77AAED2698D56D6676323629160F4EEF21CFD9EE3D0745CC78FA291461F98278",
common::passphrase,
"This wallet was generated using a user-supplied "
"passphrase that has low entropy and is vulnerable "
"to brute-force attacks.",
};
static key_strings const strong_brain_strings = {
"rBcvXmNb7KPkNdMkpckdWPpbvkWgcV3nir",
"TED AVON CAVE HOUR BRAG JEFF RIFT NEAL TOLD FAT SEW SAN",
"shKdhWka8hS7Es3bpctCZXBiAwfUN",
"74BA8389B44F98CF41E795CD91F9C93F",
"aBRL2sqVuzrsM6zikPB4v8UBHGn1aKkrsxhYEffhcQxB2LKyywE5",
"03BD334FB9E06C58D69603E9922686528B18A754BC2F2E1ADA095FFE67DE952C64",
"84262FB16AA25BE407174C7EDAB531220C30FA4D8A28AA9D564673FB3D34502C",
"A4yKIRGdzrw0YQ$2%TFKYG9HP*&ok^!sy7E@RwICs",
"This wallet was generated using a user-supplied "
"passphrase. It may be vulnerable to brute-force "
"attacks.",
};
class WalletPropose_test : public ripple::TestSuite
{
public:
void
testRandomWallet(std::optional<std::string> const& keyType)
{
Json::Value params;
if (keyType)
params[jss::key_type] = *keyType;
Json::Value result = walletPropose(params);
BEAST_EXPECT(!contains_error(result));
BEAST_EXPECT(result.isMember(jss::account_id));
BEAST_EXPECT(result.isMember(jss::master_seed));
BEAST_EXPECT(result.isMember(jss::master_seed_hex));
BEAST_EXPECT(result.isMember(jss::public_key));
BEAST_EXPECT(result.isMember(jss::public_key_hex));
BEAST_EXPECT(result.isMember(jss::key_type));
expectEquals(
result[jss::key_type],
params.isMember(jss::key_type) ? params[jss::key_type]
: "secp256k1");
BEAST_EXPECT(!result.isMember(jss::warning));
std::string seed = result[jss::master_seed].asString();
result = walletPropose(params);
// We asked for two random seeds, so they shouldn't match.
BEAST_EXPECT(result[jss::master_seed].asString() != seed);
}
Json::Value
testSecretWallet(Json::Value const& params, key_strings const& s)
{
Json::Value result = walletPropose(params);
BEAST_EXPECT(!contains_error(result));
expectEquals(result[jss::account_id], s.account_id);
expectEquals(result[jss::master_seed], s.master_seed);
expectEquals(result[jss::master_seed_hex], s.master_seed_hex);
expectEquals(result[jss::public_key], s.public_key);
expectEquals(result[jss::public_key_hex], s.public_key_hex);
expectEquals(
result[jss::key_type],
params.isMember(jss::key_type) ? params[jss::key_type]
: "secp256k1");
return result;
}
void
testSeed(
std::optional<std::string> const& keyType,
key_strings const& strings)
{
testcase("seed");
Json::Value params;
if (keyType)
params[jss::key_type] = *keyType;
params[jss::seed] = strings.master_seed;
auto const wallet = testSecretWallet(params, strings);
BEAST_EXPECT(!wallet.isMember(jss::warning));
}
void
testSeedHex(
std::optional<std::string> const& keyType,
key_strings const& strings)
{
testcase("seed_hex");
Json::Value params;
if (keyType)
params[jss::key_type] = *keyType;
params[jss::seed_hex] = strings.master_seed_hex;
auto const wallet = testSecretWallet(params, strings);
BEAST_EXPECT(!wallet.isMember(jss::warning));
}
void
testLegacyPassphrase(
char const* value,
std::optional<std::string> const& keyType,
key_strings const& strings)
{
Json::Value params;
if (keyType)
params[jss::key_type] = *keyType;
params[jss::passphrase] = value;
auto const wallet = testSecretWallet(params, strings);
if (value == strings.passphrase)
BEAST_EXPECT(wallet[jss::warning] == strings.passphrase_warning);
else
BEAST_EXPECT(!wallet.isMember(jss::warning));
}
void
testLegacyPassphrase(
std::optional<std::string> const& keyType,
key_strings const& strings)
{
testcase("passphrase");
testLegacyPassphrase(strings.passphrase, keyType, strings);
testLegacyPassphrase(strings.master_key, keyType, strings);
testLegacyPassphrase(strings.master_seed, keyType, strings);
testLegacyPassphrase(strings.master_seed_hex, keyType, strings);
}
void
testKeyType(
std::optional<std::string> const& keyType,
key_strings const& strings)
{
testcase(keyType ? *keyType : "no key_type");
testRandomWallet(keyType);
testSeed(keyType, strings);
testSeedHex(keyType, strings);
testLegacyPassphrase(keyType, strings);
Json::Value params;
if (keyType)
params[jss::key_type] = *keyType;
params[jss::seed] = strings.master_seed;
params[jss::seed_hex] = strings.master_seed_hex;
// Secret fields are mutually exclusive.
BEAST_EXPECT(contains_error(walletPropose(params)));
}
void
testBadInput()
{
testcase("Bad inputs");
// Passing non-strings where strings are required
{
Json::Value params;
params[jss::key_type] = "secp256k1";
params[jss::passphrase] = 20160506;
auto result = walletPropose(params);
BEAST_EXPECT(contains_error(result));
BEAST_EXPECT(
result[jss::error_message] ==
"Invalid field 'passphrase', not string.");
}
{
Json::Value params;
params[jss::key_type] = "secp256k1";
params[jss::seed] = Json::objectValue;
auto result = walletPropose(params);
BEAST_EXPECT(contains_error(result));
BEAST_EXPECT(
result[jss::error_message] ==
"Invalid field 'seed', not string.");
}
{
Json::Value params;
params[jss::key_type] = "ed25519";
params[jss::seed_hex] = Json::arrayValue;
auto result = walletPropose(params);
BEAST_EXPECT(contains_error(result));
BEAST_EXPECT(
result[jss::error_message] ==
"Invalid field 'seed_hex', not string.");
}
// Specifying multiple items at once
{
Json::Value params;
params[jss::key_type] = "secp256k1";
params[jss::passphrase] = common::master_key;
params[jss::seed_hex] = common::master_seed_hex;
params[jss::seed] = common::master_seed;
auto result = walletPropose(params);
BEAST_EXPECT(contains_error(result));
BEAST_EXPECT(
result[jss::error_message] ==
"Exactly one of the following must be specified: passphrase, "
"seed or seed_hex");
}
// Specifying bad key types:
{
Json::Value params;
params[jss::key_type] = "prime256v1";
params[jss::passphrase] = common::master_key;
auto result = walletPropose(params);
BEAST_EXPECT(contains_error(result));
BEAST_EXPECT(result[jss::error_message] == "Invalid parameters.");
}
{
Json::Value params;
params[jss::key_type] = Json::objectValue;
params[jss::seed_hex] = common::master_seed_hex;
auto result = walletPropose(params);
BEAST_EXPECT(contains_error(result));
BEAST_EXPECT(
result[jss::error_message] ==
"Invalid field 'key_type', not string.");
}
{
Json::Value params;
params[jss::key_type] = Json::arrayValue;
params[jss::seed] = common::master_seed;
auto result = walletPropose(params);
BEAST_EXPECT(contains_error(result));
BEAST_EXPECT(
result[jss::error_message] ==
"Invalid field 'key_type', not string.");
}
}
void
testKeypairForSignature(
std::optional<std::string> keyType,
key_strings const& strings)
{
testcase(
"keypairForSignature - " + (keyType ? *keyType : "no key_type"));
auto const publicKey = parseBase58<PublicKey>(
TokenType::AccountPublic, strings.public_key);
BEAST_EXPECT(publicKey);
if (!keyType)
{
{
Json::Value params;
Json::Value error;
params[jss::secret] = strings.master_seed;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(!contains_error(error));
if (BEAST_EXPECT(ret))
{
BEAST_EXPECT(ret->first.size() != 0);
BEAST_EXPECT(ret->first == publicKey);
}
}
{
Json::Value params;
Json::Value error;
params[jss::secret] = strings.master_seed_hex;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(!contains_error(error));
if (BEAST_EXPECT(ret))
{
BEAST_EXPECT(ret->first.size() != 0);
BEAST_EXPECT(ret->first == publicKey);
}
}
{
Json::Value params;
Json::Value error;
params[jss::secret] = strings.master_key;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(!contains_error(error));
if (BEAST_EXPECT(ret))
{
BEAST_EXPECT(ret->first.size() != 0);
BEAST_EXPECT(ret->first == publicKey);
}
}
keyType.emplace("secp256k1");
}
{
Json::Value params;
Json::Value error;
params[jss::key_type] = *keyType;
params[jss::seed] = strings.master_seed;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(!contains_error(error));
if (BEAST_EXPECT(ret))
{
BEAST_EXPECT(ret->first.size() != 0);
BEAST_EXPECT(ret->first == publicKey);
}
}
{
Json::Value params;
Json::Value error;
params[jss::key_type] = *keyType;
params[jss::seed_hex] = strings.master_seed_hex;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(!contains_error(error));
if (BEAST_EXPECT(ret))
{
BEAST_EXPECT(ret->first.size() != 0);
BEAST_EXPECT(ret->first == publicKey);
}
}
{
Json::Value params;
Json::Value error;
params[jss::key_type] = *keyType;
params[jss::passphrase] = strings.master_key;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(!contains_error(error));
if (BEAST_EXPECT(ret))
{
BEAST_EXPECT(ret->first.size() != 0);
BEAST_EXPECT(ret->first == publicKey);
}
}
}
void
testKeypairForSignatureErrors()
{
// Specify invalid "secret"
{
Json::Value params;
Json::Value error;
params[jss::secret] = 314159265;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'secret', not string.");
}
{
Json::Value params;
Json::Value error;
params[jss::secret] = Json::arrayValue;
params[jss::secret].append("array:0");
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'secret', not string.");
}
{
Json::Value params;
Json::Value error;
params[jss::secret] = Json::objectValue;
params[jss::secret]["string"] = "string";
params[jss::secret]["number"] = 702;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'secret', not string.");
}
// Specify "secret" and "key_type"
{
Json::Value params;
Json::Value error;
params[jss::key_type] = "ed25519";
params[jss::secret] = common::master_seed;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"The secret field is not allowed if key_type is used.");
}
// Specify unknown or bad "key_type"
{
Json::Value params;
Json::Value error;
params[jss::key_type] = "prime256v1";
params[jss::passphrase] = common::master_key;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] == "Invalid field 'key_type'.");
}
{
Json::Value params;
Json::Value error;
params[jss::key_type] = Json::objectValue;
params[jss::seed_hex] = common::master_seed_hex;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'key_type', not string.");
}
{
Json::Value params;
Json::Value error;
params[jss::key_type] = Json::arrayValue;
params[jss::seed] = common::master_seed;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'key_type', not string.");
}
// Specify non-string passphrase
{ // not a passphrase: number
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::passphrase] = 1234567890;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'passphrase', not string.");
}
{ // not a passphrase: object
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::passphrase] = Json::objectValue;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'passphrase', not string.");
}
{ // not a passphrase: array
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::passphrase] = Json::arrayValue;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'passphrase', not string.");
}
{ // not a passphrase: empty string
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::passphrase] = "";
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(error[jss::error_message] == "Disallowed seed.");
}
// Specify non-string or invalid seed
{ // not a seed: number
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed] = 443556;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'seed', not string.");
}
{ // not a string: object
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed] = Json::objectValue;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'seed', not string.");
}
{ // not a string: array
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed] = Json::arrayValue;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'seed', not string.");
}
{ // not a seed: empty
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed] = "";
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(error[jss::error_message] == "Disallowed seed.");
}
{ // not a seed: invalid characters
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed] = "s M V s h z D F p t Z E m h s";
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(error[jss::error_message] == "Disallowed seed.");
}
{ // not a seed: random string
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed] = "pnnjkbnobnml43679nbvjdsklnbjs";
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(error[jss::error_message] == "Disallowed seed.");
}
// Specify non-string or invalid seed_hex
{ // not a string: number
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed_hex] = 443556;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'seed_hex', not string.");
}
{ // not a string: object
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed_hex] = Json::objectValue;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'seed_hex', not string.");
}
{ // not a string: array
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed_hex] = Json::arrayValue;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(
error[jss::error_message] ==
"Invalid field 'seed_hex', not string.");
}
{ // empty
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed_hex] = "";
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(error[jss::error_message] == "Disallowed seed.");
}
{ // short
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed_hex] = "A670A19B";
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(error[jss::error_message] == "Disallowed seed.");
}
{ // not hex
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed_hex] = common::passphrase;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(error[jss::error_message] == "Disallowed seed.");
}
{ // overlong
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed_hex] =
"BE6A670A19B209E112146D0A7ED2AAD72567D0FC913";
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(!ret);
BEAST_EXPECT(error[jss::error_message] == "Disallowed seed.");
}
}
void
testRippleLibEd25519()
{
testcase("ripple-lib encoded Ed25519 keys");
auto test = [this](char const* seed, char const* addr) {
{
Json::Value params;
Json::Value error;
params[jss::passphrase] = seed;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(!contains_error(error));
if (BEAST_EXPECT(ret))
{
BEAST_EXPECT(ret->first.size() != 0);
BEAST_EXPECT(toBase58(calcAccountID(ret->first)) == addr);
}
}
{
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::passphrase] = seed;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(
error[jss::error_message] ==
"Specified seed is for an Ed25519 wallet.");
}
{
Json::Value params;
Json::Value error;
params[jss::key_type] = "ed25519";
params[jss::seed] = seed;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(!contains_error(error));
if (BEAST_EXPECT(ret))
{
BEAST_EXPECT(ret->first.size() != 0);
BEAST_EXPECT(toBase58(calcAccountID(ret->first)) == addr);
}
}
{
Json::Value params;
Json::Value error;
params[jss::key_type] = "secp256k1";
params[jss::seed] = seed;
auto ret = keypairForSignature(params, error);
BEAST_EXPECT(contains_error(error));
BEAST_EXPECT(
error[jss::error_message] ==
"Specified seed is for an Ed25519 wallet.");
}
};
test(
"sEdVWZmeUDgQdMEFKTK9kYVX71FKB7o",
"r34XnDB2zS11NZ1wKJzpU1mjWExGVugTaQ");
test(
"sEd7zJoVnqg1FxB9EuaHC1AB5UPfHWz",
"rDw51qRrBEeMw7Na1Nh79LN7HYZDo7nZFE");
test(
"sEdSxVntbihdLyabbfttMCqsaaucVR9",
"rwiyBDfAYegXZyaQcN2L1vAbKRYn2wNFMq");
test(
"sEdSVwJjEXTYCztqDK4JD9WByH3otDX",
"rQJ4hZzNGkLQhLtKPCmu1ywEw1ai2vgUJN");
test(
"sEdV3jXjKuUoQTSr1Rb4yw8Kyn9r46U",
"rERRw2Pxbau4tevE61V5vZUwD7Rus5Y6vW");
test(
"sEdVeUZjuYT47Uy51FQCnzivsuWyiwB",
"rszewT5gRjUgWNEmnfMjvVYzJCkhvWY32i");
test(
"sEd7MHTewdw4tFYeS7rk7XT4qHiA9jH",
"rBB2rvnf4ztwjgNhinFXQJ91nAZjkFgR3p");
test(
"sEd7A5jFBSdWbNeKGriQvLr1thBScJh",
"rLAXz8Nz7aDivz7PwThsLFqaKrizepNCdA");
test(
"sEdVPU9M2uyzVNT4Yb5Dn4tUtYjbFAw",
"rHbHRFPCxD5fnn98TBzsQHJ7SsRq7eHkRj");
test(
"sEdVfF2zhAmS8gfMYzJ4yWBMeR4BZKc",
"r9PsneKHcAE7kUfiTixomM5Mnwi28tCc7h");
test(
"sEdTjRtcsQkwthDXUSLi9DHNyJcR8GW",
"rM4soF4XS3wZrmLurvE6ZmudG16Lk5Dur5");
test(
"sEdVNKeu1Lhpfh7Nf6tRDbxnmMyZ4Dv",
"r4ZwJxq6FDtWjapDtCGhjG6mtNm1nWdJcD");
test(
"sEd7bK4gf5BHJ1WbaEWx8pKMA9MLHpC",
"rD6tnn51m4o1uXeEK9CFrZ3HR7DcFhiYnp");
test(
"sEd7jCh3ppnQMsLdGcZ6TZayZaHhBLg",
"rTcBkiRQ1EfFQ4FCCwqXNHpn1yUTAACkj");
test(
"sEdTFJezurQwSJAbkLygj2gQXBut2wh",
"rnXaMacNbRwcJddbbPbqdcpSUQcfzFmrR8");
test(
"sEdSWajfQAAWFuDvVZF3AiGucReByLt",
"rBJtow6V3GTdsWMamrxetRDwWs6wwTxcKa");
}
void
run() override
{
testKeyType(std::nullopt, secp256k1_strings);
testKeyType(std::string("secp256k1"), secp256k1_strings);
testKeyType(std::string("ed25519"), ed25519_strings);
testKeyType(std::string("secp256k1"), strong_brain_strings);
testBadInput();
testKeypairForSignature(std::nullopt, secp256k1_strings);
testKeypairForSignature(std::string("secp256k1"), secp256k1_strings);
testKeypairForSignature(std::string("ed25519"), ed25519_strings);
testKeypairForSignature(std::string("secp256k1"), strong_brain_strings);
testRippleLibEd25519();
testKeypairForSignatureErrors();
}
};
BEAST_DEFINE_TESTSUITE(WalletPropose, ripple_basics, ripple);
} // namespace RPC
} // namespace ripple
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