/*
* Copyright 2012 the original author or authors.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
package com.google.bitcoin.uri;
import com.google.bitcoin.core.Address;
import com.google.bitcoin.core.Utils;
import com.google.bitcoin.params.MainNetParams;
import com.google.bitcoin.params.TestNet3Params;
import org.junit.Test;
import com.google.bitcoin.core.CoinDefinition;
import java.io.UnsupportedEncodingException;
import java.math.BigInteger;
import static org.junit.Assert.*;
public class BitcoinURITest {
private BitcoinURI testObject = null;
private static final String MAINNET_GOOD_ADDRESS = CoinDefinition.UNITTEST_ADDRESS; //"1KzTSfqjF2iKCduwz59nv2uqh1W2JsTxZH";
@Test
public void testConvertToBitcoinURI() throws Exception {
Address goodAddress = new Address(MainNetParams.get(), MAINNET_GOOD_ADDRESS);
// simple example
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?amount=12.34&label=Hello&message=AMessage", BitcoinURI.convertToBitcoinURI(goodAddress, Utils.toNanoCoins("12.34"), "Hello", "AMessage"));
// example with spaces, ampersand and plus
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?amount=12.34&label=Hello%20World&message=Mess%20%26%20age%20%2B%20hope", BitcoinURI.convertToBitcoinURI(goodAddress, Utils.toNanoCoins("12.34"), "Hello World", "Mess & age + hope"));
// no amount, label present, message present
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?label=Hello&message=glory", BitcoinURI.convertToBitcoinURI(goodAddress, null, "Hello", "glory"));
// amount present, no label, message present
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?amount=0.1&message=glory", BitcoinURI.convertToBitcoinURI(goodAddress, Utils.toNanoCoins("0.1"), null, "glory"));
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?amount=0.1&message=glory", BitcoinURI.convertToBitcoinURI(goodAddress, Utils.toNanoCoins("0.1"), "", "glory"));
// amount present, label present, no message
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?amount=12.34&label=Hello", BitcoinURI.convertToBitcoinURI(goodAddress, Utils.toNanoCoins("12.34"), "Hello", null));
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?amount=12.34&label=Hello", BitcoinURI.convertToBitcoinURI(goodAddress, Utils.toNanoCoins("12.34"), "Hello", ""));
// amount present, no label, no message
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?amount=1000", BitcoinURI.convertToBitcoinURI(goodAddress, Utils.toNanoCoins("1000"), null, null));
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?amount=1000", BitcoinURI.convertToBitcoinURI(goodAddress, Utils.toNanoCoins("1000"), "", ""));
// no amount, label present, no message
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?label=Hello", BitcoinURI.convertToBitcoinURI(goodAddress, null, "Hello", null));
// no amount, no label, message present
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?message=Agatha", BitcoinURI.convertToBitcoinURI(goodAddress, null, null, "Agatha"));
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS + "?message=Agatha", BitcoinURI.convertToBitcoinURI(goodAddress, null, "", "Agatha"));
// no amount, no label, no message
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS, BitcoinURI.convertToBitcoinURI(goodAddress, null, null, null));
assertEquals(CoinDefinition.coinURIScheme + ":" + MAINNET_GOOD_ADDRESS, BitcoinURI.convertToBitcoinURI(goodAddress, null, "", ""));
}
@Test
public void testGood_Simple() throws BitcoinURIParseException {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS);
assertNotNull(testObject);
assertNull("Unexpected amount", testObject.getAmount());
assertNull("Unexpected label", testObject.getLabel());
assertEquals("Unexpected label", 20, testObject.getAddress().getHash160().length);
}
/**
* Test a broken URI (bad scheme)
*/
@Test
public void testBad_Scheme() {
try {
testObject = new BitcoinURI(MainNetParams.get(), "blimpcoin:" + MAINNET_GOOD_ADDRESS);
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
}
}
/**
* Test a broken URI (bad syntax)
*/
@Test
public void testBad_BadSyntax() {
// Various illegal characters
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + "|" + MAINNET_GOOD_ADDRESS);
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("Bad URI syntax"));
}
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS + "\\");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("Bad URI syntax"));
}
// Separator without field
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("Bad URI syntax"));
}
}
/**
* Test a broken URI (missing address)
*/
@Test
public void testBad_Address() {
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME);
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
}
}
/**
* Test a broken URI (bad address type)
*/
@Test
public void testBad_IncorrectAddressType() {
try {
testObject = new BitcoinURI(TestNet3Params.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS);
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("Bad address"));
}
}
/**
* Handles a simple amount
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testGood_Amount() throws BitcoinURIParseException {
// Test the decimal parsing
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount=6543210.12345678");
assertEquals("654321012345678", testObject.getAmount().toString());
// Test the decimal parsing
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount=.12345678");
assertEquals("12345678", testObject.getAmount().toString());
// Test the integer parsing
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount=6543210");
assertEquals("654321000000000", testObject.getAmount().toString());
}
/**
* Handles a simple label
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testGood_Label() throws BitcoinURIParseException {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?label=Hello%20World");
assertEquals("Hello World", testObject.getLabel());
}
/**
* Handles a simple label with an embedded ampersand and plus
*
* @throws BitcoinURIParseException
* If something goes wrong
* @throws UnsupportedEncodingException
*/
@Test
public void testGood_LabelWithAmpersandAndPlus() throws Exception {
String testString = "Hello Earth & Mars + Venus";
String encodedLabel = BitcoinURI.encodeURLString(testString);
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS + "?label="
+ encodedLabel);
assertEquals(testString, testObject.getLabel());
}
/**
* Handles a Russian label (Unicode test)
*
* @throws BitcoinURIParseException
* If something goes wrong
* @throws UnsupportedEncodingException
*/
@Test
public void testGood_LabelWithRussian() throws Exception {
// Moscow in Russian in Cyrillic
String moscowString = "\u041c\u043e\u0441\u043a\u0432\u0430";
String encodedLabel = BitcoinURI.encodeURLString(moscowString);
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS + "?label="
+ encodedLabel);
assertEquals(moscowString, testObject.getLabel());
}
/**
* Handles a simple message
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testGood_Message() throws BitcoinURIParseException {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?message=Hello%20World");
assertEquals("Hello World", testObject.getMessage());
}
/**
* Handles various well-formed combinations
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testGood_Combinations() throws BitcoinURIParseException {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount=6543210&label=Hello%20World&message=Be%20well");
assertEquals(
"BitcoinURI['amount'='654321000000000','label'='Hello World','message'='Be well','address'='"+CoinDefinition.UNITTEST_ADDRESS+"']",
testObject.toString());
}
/**
* Handles a badly formatted amount field
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testBad_Amount() throws BitcoinURIParseException {
// Missing
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount=");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("amount"));
}
// Non-decimal (BIP 21)
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount=12X4");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("amount"));
}
}
/**
* Handles a badly formatted label field
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testBad_Label() throws BitcoinURIParseException {
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?label=");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("label"));
}
}
/**
* Handles a badly formatted message field
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testBad_Message() throws BitcoinURIParseException {
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?message=");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("message"));
}
}
/**
* Handles duplicated fields (sneaky address overwrite attack)
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testBad_Duplicated() throws BitcoinURIParseException {
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?address=aardvark");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("address"));
}
}
/**
* Handles case when there are too many equals
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testBad_TooManyEquals() throws BitcoinURIParseException {
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?label=aardvark=zebra");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("cannot parse name value pair"));
}
}
/**
* Handles case when there are too many question marks
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testBad_TooManyQuestionMarks() throws BitcoinURIParseException {
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?label=aardvark?message=zebra");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("Too many question marks"));
}
}
/**
* Handles unknown fields (required and not required)
*
* @throws BitcoinURIParseException
* If something goes wrong
*/
@Test
public void testUnknown() throws BitcoinURIParseException {
// Unknown not required field
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?aardvark=true");
assertEquals("BitcoinURI['aardvark'='true','address'='"+CoinDefinition.UNITTEST_ADDRESS+"']", testObject.toString());
assertEquals("true", (String) testObject.getParameterByName("aardvark"));
// Unknown not required field (isolated)
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?aardvark");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("cannot parse name value pair"));
}
// Unknown and required field
try {
testObject = new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?req-aardvark=true");
fail("Expecting BitcoinURIParseException");
} catch (BitcoinURIParseException e) {
assertTrue(e.getMessage().contains("req-aardvark"));
}
}
@Test
public void brokenURIs() throws BitcoinURIParseException {
// Check we can parse the incorrectly formatted URIs produced by blockchain.info and its iPhone app.
String str = CoinDefinition.coinURIScheme + "://"+CoinDefinition.UNITTEST_ADDRESS+"?amount=0.01000000";
BitcoinURI uri = new BitcoinURI(str);
assertEquals(CoinDefinition.UNITTEST_ADDRESS, uri.getAddress().toString());
assertEquals(Utils.toNanoCoins(0, 1), uri.getAmount());
}
@Test(expected = BitcoinURIParseException.class)
public void testBad_AmountTooPrecise() throws BitcoinURIParseException {
new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount=0.123456789");
}
@Test(expected = BitcoinURIParseException.class)
public void testBad_NegativeAmount() throws BitcoinURIParseException {
new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount=-1");
}
@Test(expected = BitcoinURIParseException.class)
public void testBad_TooLargeAmount() throws BitcoinURIParseException {
new BitcoinURI(MainNetParams.get(), BitcoinURI.BITCOIN_SCHEME + ":" + MAINNET_GOOD_ADDRESS
+ "?amount="+(CoinDefinition.MAX_MONEY.multiply(BigInteger.valueOf(5))));
}
@Test
public void testPaymentProtocolReq() throws Exception {
// Non-backwards compatible form ...
BitcoinURI uri = new BitcoinURI(TestNet3Params.get(), CoinDefinition.coinURIScheme + ":?r=https%3A%2F%2Fbitcoincore.org%2F%7Egavin%2Ff.php%3Fh%3Db0f02e7cea67f168e25ec9b9f9d584f9");
assertEquals("https://bitcoincore.org/~gavin/f.php?h=b0f02e7cea67f168e25ec9b9f9d584f9", uri.getPaymentRequestUrl());
assertNull(uri.getAddress());
}
}