| /* |
| ******************************************************************************* |
| * Copyright (C) 2009-2014, International Business Machines Corporation and |
| * others. All Rights Reserved. |
| ******************************************************************************* |
| */ |
| package com.ibm.icu.dev.test.text; |
| |
| import java.io.BufferedReader; |
| import java.io.IOException; |
| import java.io.Reader; |
| import java.io.StringReader; |
| import java.text.ParseException; |
| import java.util.Arrays; |
| import java.util.BitSet; |
| import java.util.Comparator; |
| import java.util.HashSet; |
| import java.util.LinkedHashSet; |
| import java.util.Locale; |
| import java.util.Random; |
| import java.util.Set; |
| import java.util.regex.Matcher; |
| import java.util.regex.Pattern; |
| |
| import com.ibm.icu.dev.test.TestFmwk; |
| import com.ibm.icu.dev.test.TestUtil; |
| import com.ibm.icu.dev.test.TestUtil.JavaVendor; |
| import com.ibm.icu.impl.Utility; |
| import com.ibm.icu.lang.UScript; |
| import com.ibm.icu.text.IdentifierInfo; |
| import com.ibm.icu.text.Normalizer2; |
| import com.ibm.icu.text.SpoofChecker; |
| import com.ibm.icu.text.SpoofChecker.CheckResult; |
| import com.ibm.icu.text.SpoofChecker.RestrictionLevel; |
| import com.ibm.icu.text.UnicodeSet; |
| import com.ibm.icu.util.ULocale; |
| |
| public class SpoofCheckerTest extends TestFmwk { |
| |
| public static void main(String[] args) throws Exception { |
| new SpoofCheckerTest().run(args); |
| } |
| |
| /* |
| * Identifiers for verifying that spoof checking is minimally alive and working. |
| */ |
| char[] goodLatinChars = { (char) 0x75, (char) 0x7a }; |
| String goodLatin = new String(goodLatinChars); /* "uz", all ASCII */ |
| /* (not confusable) */ |
| char[] scMixedChars = { (char) 0x73, (char) 0x0441 }; |
| String scMixed = new String(scMixedChars); /* "sc", with Cyrillic 'c' */ |
| /* (mixed script, confusable */ |
| |
| String scLatin = "sc"; /* "sc", plain ascii. */ |
| String goodCyrl = "\u0438\u043B"; // "Cyrillic small letter i and el" Plain lower case Cyrillic letters, no latin confusables |
| String goodGreek = "\u03c0\u03c6"; // "Greek small letter pi and phi" Plain lower case Greek letters |
| |
| // Various 1 l I look-alikes |
| String lll_Latin_a = "lI1"; // small letter l, cap I, digit 1, all ASCII |
| // "\uFF29\u217C\u0196" Full-width I, Small Roman Numeral fifty, Latin Cap Letter IOTA |
| String lll_Latin_b = "\uff29\u217c\u0196"; |
| String lll_Cyrl = "\u0406\u04C0\u0031"; // "\u0406\u04C01" |
| /* The skeleton transform for all of the 'lll' lookalikes is ascii lower case letter l. */ |
| String lll_Skel = "lll"; |
| |
| String han_Hiragana = "\u3086\u308A \u77F3\u7530"; // Hiragana, space, Han |
| |
| |
| /* |
| * Test basic constructor. |
| */ |
| public void TestUSpoof() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| if (sc == null) { |
| errln("FAIL: null SpoofChecker"); |
| } |
| } |
| |
| /* |
| * Test build from source rules. |
| */ |
| public void TestOpenFromSourceRules() { |
| if (TestUtil.getJavaVendor() == JavaVendor.IBM && TestUtil.getJavaVersion() == 5) { |
| // Note: IBM Java 5 has a bug reading a large UTF-8 text contents |
| logln("Skip this test case because of the IBM Java 5 bug"); |
| return; |
| } |
| String fileName; |
| Reader confusables; |
| Reader confusablesWholeScript; |
| |
| try { |
| fileName = "unicode/confusables.txt"; |
| confusables = TestUtil.getDataReader(fileName, "UTF-8"); |
| fileName = "unicode/confusablesWholeScript.txt"; |
| confusablesWholeScript = TestUtil.getDataReader(fileName, "UTF-8"); |
| |
| SpoofChecker rsc = new SpoofChecker.Builder().setData(confusables, confusablesWholeScript) |
| .build(); |
| if (rsc == null) { |
| errln("FAIL: null SpoofChecker"); |
| return; |
| } |
| // Check that newly built-from-rules SpoofChecker is able to function. |
| checkSkeleton(rsc, "TestOpenFromSourceRules"); |
| |
| SpoofChecker.CheckResult result = new SpoofChecker.CheckResult(); |
| rsc.failsChecks("Hello", result); |
| |
| // The checker we just built from source rules should be equivalent to the |
| // default checker created from prebuilt rules baked into the ICU data. |
| SpoofChecker defaultChecker = new SpoofChecker.Builder().build(); |
| assertTrue("Checker built from rules equals default", defaultChecker.equals(rsc)); |
| |
| SpoofChecker optionChecker = new SpoofChecker.Builder(). |
| setRestrictionLevel(RestrictionLevel.UNRESTRICTIVE).build(); |
| assertFalse("", optionChecker.equals(rsc)); |
| |
| // Stub source data to build into a test SpoofChecker |
| String stubWSConfusables = |
| "# Stub Whole Script Confusable data\n" + |
| "0561 ; Armn; Cyrl; L # (ա) ARMENIAN SMALL LETTER AYB\n"; |
| |
| String stubConfusables = |
| "# Stub confusables data\n" + |
| "05AD ; 0596 ; SL # ( ֭ → ֖ ) HEBREW ACCENT DEHI → HEBREW ACCENT TIPEHA #\n"; |
| |
| // Verify that re-using a builder doesn't alter SpoofCheckers that were |
| // previously created by that builder. (The builder could modify data |
| // being used by the existing checker) |
| |
| SpoofChecker.Builder builder = new SpoofChecker.Builder(); |
| SpoofChecker testChecker1 = builder.build(); |
| assertTrue("", testChecker1.equals(defaultChecker)); |
| |
| builder.setData(new StringReader(stubConfusables), new StringReader(stubWSConfusables)); |
| builder.setRestrictionLevel(RestrictionLevel.UNRESTRICTIVE); |
| builder.setChecks(SpoofChecker.SINGLE_SCRIPT_CONFUSABLE); |
| Set<ULocale>allowedLocales = new HashSet<ULocale>(); |
| allowedLocales.add(ULocale.JAPANESE); |
| allowedLocales.add(ULocale.FRENCH); |
| builder.setAllowedLocales(allowedLocales); |
| SpoofChecker testChecker2 = builder.build(); |
| SpoofChecker testChecker3 = builder.build(); |
| |
| assertTrue("", testChecker1.equals(defaultChecker)); |
| assertFalse("", testChecker2.equals(defaultChecker)); |
| assertTrue("", testChecker2.equals(testChecker3)); |
| |
| } catch (java.io.IOException e) { |
| errln(e.toString()); |
| } catch (ParseException e) { |
| errln(e.toString()); |
| } |
| } |
| |
| /* |
| * Set & Get Check Flags |
| */ |
| public void TestGetSetChecks1() { |
| SpoofChecker sc = new SpoofChecker.Builder().setChecks(SpoofChecker.ALL_CHECKS).build(); |
| int t; |
| t = sc.getChecks(); |
| assertEquals("", SpoofChecker.ALL_CHECKS, t); |
| |
| sc = new SpoofChecker.Builder().setChecks(0).build(); |
| t = sc.getChecks(); |
| assertEquals("", 0, t); |
| |
| int checks = SpoofChecker.WHOLE_SCRIPT_CONFUSABLE | SpoofChecker.MIXED_SCRIPT_CONFUSABLE |
| | SpoofChecker.ANY_CASE; |
| sc = new SpoofChecker.Builder().setChecks(checks).build(); |
| t = sc.getChecks(); |
| assertEquals("", checks, t); |
| } |
| |
| /* |
| * get & setAllowedChars |
| */ |
| public void TestGetSetAllowedChars() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| UnicodeSet us; |
| UnicodeSet uset; |
| |
| uset = sc.getAllowedChars(); |
| assertTrue("", uset.isFrozen()); |
| us = new UnicodeSet((int) 0x41, (int) 0x5A); /* [A-Z] */ |
| sc = new SpoofChecker.Builder().setAllowedChars(us).build(); |
| assertEquals("", us, sc.getAllowedChars()); |
| } |
| |
| /* |
| * get & set Checks |
| */ |
| public void TestGetSetChecks() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| int checks; |
| int checks2; |
| boolean checkResults; |
| |
| checks = sc.getChecks(); |
| assertEquals("", SpoofChecker.ALL_CHECKS, checks); |
| |
| checks &= ~(SpoofChecker.SINGLE_SCRIPT | SpoofChecker.MIXED_SCRIPT_CONFUSABLE); |
| sc = new SpoofChecker.Builder().setChecks(checks).build(); |
| checks2 = sc.getChecks(); |
| assertEquals("", checks, checks2); |
| |
| /* |
| * The checks that were disabled just above are the same ones that the "scMixed" test fails. So with those tests |
| * gone checking that Identifier should now succeed |
| */ |
| checkResults = sc.failsChecks(scMixed); |
| assertFalse("", checkResults); |
| } |
| |
| /* |
| * AllowedLocales |
| */ |
| public void TestAllowedLocales() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| Set<ULocale> allowedLocales = null; |
| Set<Locale> allowedJavaLocales = null; |
| boolean checkResults; |
| |
| /* Default allowed locales list should be empty */ |
| allowedLocales = sc.getAllowedLocales(); |
| assertTrue("Empty allowed locales", allowedLocales.isEmpty()); |
| |
| allowedJavaLocales = sc.getAllowedJavaLocales(); |
| assertTrue("Empty allowed Java locales", allowedJavaLocales.isEmpty()); |
| |
| /* Allow en and ru, which should enable Latin and Cyrillic only to pass */ |
| ULocale enloc = new ULocale("en"); |
| ULocale ruloc = new ULocale("ru_RU"); |
| allowedLocales = new HashSet<ULocale>(); |
| allowedLocales.add(enloc); |
| allowedLocales.add(ruloc); |
| sc = new SpoofChecker.Builder().setAllowedLocales(allowedLocales).build(); |
| allowedLocales = sc.getAllowedLocales(); |
| assertTrue("en in allowed locales", allowedLocales.contains(enloc)); |
| assertTrue("ru_RU in allowed locales", allowedLocales.contains(ruloc)); |
| |
| Locale frlocJ = new Locale("fr"); |
| allowedJavaLocales = new HashSet<Locale>(); |
| allowedJavaLocales.add(frlocJ); |
| sc = new SpoofChecker.Builder().setAllowedJavaLocales(allowedJavaLocales).build(); |
| assertFalse("no en in allowed Java locales", allowedJavaLocales.contains(new Locale("en"))); |
| assertTrue("fr in allowed Java locales", allowedJavaLocales.contains(frlocJ)); |
| |
| /* |
| * Limit checks to SpoofChecker.CHAR_LIMIT. Some of the test data has whole script confusables also, which we |
| * don't want to see in this test. |
| */ |
| sc = new SpoofChecker.Builder().setChecks(SpoofChecker.CHAR_LIMIT).setAllowedLocales(allowedLocales).build(); |
| |
| SpoofChecker.CheckResult result = new SpoofChecker.CheckResult(); |
| checkResults = sc.failsChecks(goodLatin); |
| assertFalse("", checkResults); |
| |
| checkResults = sc.failsChecks(goodGreek, result); |
| assertEquals("", SpoofChecker.CHAR_LIMIT, result.checks); |
| |
| checkResults = sc.failsChecks(goodCyrl); |
| assertFalse("", checkResults); |
| |
| /* Reset with an empty locale list, which should allow all characters to pass */ |
| allowedLocales = new LinkedHashSet<ULocale>(); |
| sc = new SpoofChecker.Builder().setChecks(SpoofChecker.CHAR_LIMIT).setAllowedLocales(allowedLocales).build(); |
| |
| checkResults = sc.failsChecks(goodGreek); |
| assertFalse("", checkResults); |
| } |
| |
| /* |
| * AllowedChars set/get the UnicodeSet of allowed characters. |
| */ |
| public void TestAllowedChars() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| UnicodeSet set; |
| UnicodeSet tmpSet; |
| boolean checkResults; |
| |
| /* By default, we should see no restriction; the UnicodeSet should allow all characters. */ |
| set = sc.getAllowedChars(); |
| tmpSet = new UnicodeSet(0, 0x10ffff); |
| assertEquals("", tmpSet, set); |
| |
| /* Setting the allowed chars should enable the check. */ |
| sc = new SpoofChecker.Builder().setChecks(SpoofChecker.ALL_CHECKS & ~SpoofChecker.CHAR_LIMIT).build(); |
| |
| /* Remove a character that is in our good Latin test identifier from the allowed chars set. */ |
| tmpSet.remove(goodLatin.charAt(1)); |
| sc = new SpoofChecker.Builder().setAllowedChars(tmpSet).build(); |
| |
| /* Latin Identifier should now fail; other non-latin test cases should still be OK */ |
| SpoofChecker.CheckResult result = new SpoofChecker.CheckResult(); |
| checkResults = sc.failsChecks(goodLatin, result); |
| assertTrue("", checkResults); |
| assertEquals("", SpoofChecker.CHAR_LIMIT | SpoofChecker.RESTRICTION_LEVEL, result.checks); |
| |
| checkResults = sc.failsChecks(goodGreek, result); |
| assertTrue("", checkResults); |
| assertEquals("", SpoofChecker.WHOLE_SCRIPT_CONFUSABLE, result.checks); |
| } |
| |
| public void TestCheck() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| SpoofChecker.CheckResult result = new SpoofChecker.CheckResult(); |
| boolean checkResults; |
| |
| result.position = 666; |
| checkResults = sc.failsChecks(goodLatin, result); |
| assertFalse("", checkResults); |
| assertEquals("", 0, result.position); |
| |
| checkResults = sc.failsChecks(goodCyrl, result); |
| assertFalse("", checkResults); |
| |
| result.position = 666; |
| checkResults = sc.failsChecks(scMixed, result); |
| assertTrue("", checkResults); |
| assertEquals("", SpoofChecker.MIXED_SCRIPT_CONFUSABLE | SpoofChecker.SINGLE_SCRIPT, result.checks); |
| assertEquals("", 0, result.position); |
| |
| result.position = 666; |
| checkResults = sc.failsChecks(han_Hiragana, result); |
| assertFalse("", checkResults); |
| assertEquals("", 0, result.position); |
| assertEquals("", 0, result.checks); |
| } |
| |
| public void TestAreConfusable1() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| int checkResults; |
| checkResults = sc.areConfusable(scLatin, scMixed); |
| assertEquals("", SpoofChecker.MIXED_SCRIPT_CONFUSABLE, checkResults); |
| |
| checkResults = sc.areConfusable(goodGreek, scLatin); |
| assertEquals("", 0, checkResults); |
| |
| checkResults = sc.areConfusable(lll_Latin_a, lll_Latin_b); |
| assertEquals("", SpoofChecker.SINGLE_SCRIPT_CONFUSABLE, checkResults); |
| } |
| |
| public void TestGetSkeleton() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| String dest; |
| dest = sc.getSkeleton(SpoofChecker.ANY_CASE, lll_Latin_a); |
| assertEquals("", lll_Skel, dest); |
| } |
| |
| /** |
| * IntlTestSpoof is the top level test class for the Unicode Spoof detection tests |
| */ |
| |
| // Test the USpoofDetector API functions that require C++ |
| // The pure C part of the API, which is most of it, is tested in cintltst |
| /** |
| * IntlTestSpoof tests for USpoofDetector |
| */ |
| public void TestSpoofAPI() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| String s = "xyz"; // Many latin ranges are whole-script confusable with other scripts. |
| // If this test starts failing, consult confusablesWholeScript.txt |
| SpoofChecker.CheckResult result = new SpoofChecker.CheckResult(); |
| result.position = 666; |
| boolean checkResults = sc.failsChecks(s, result); |
| assertFalse("", checkResults); |
| assertEquals("", 0, result.position); |
| |
| sc = new SpoofChecker.Builder().build(); |
| String s1 = "cxs"; |
| String s2 = Utility.unescape("\\u0441\\u0445\\u0455"); // Cyrillic "cxs" |
| int checkResult = sc.areConfusable(s1, s2); |
| assertEquals("", SpoofChecker.MIXED_SCRIPT_CONFUSABLE | SpoofChecker.WHOLE_SCRIPT_CONFUSABLE, checkResult); |
| |
| sc = new SpoofChecker.Builder().build(); |
| s = "I1l0O"; |
| String dest = sc.getSkeleton(SpoofChecker.ANY_CASE, s); |
| assertEquals("", dest, "lllOO"); |
| } |
| |
| public void TestSkeleton() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| checkSkeleton(sc, "TestSkeleton"); |
| } |
| |
| // testSkeleton. Spot check a number of confusable skeleton substitutions from the |
| // Unicode data file confusables.txt |
| // Test cases chosen for substitutions of various lengths, and |
| // membership in different mapping tables. |
| public void checkSkeleton(SpoofChecker sc, String testName) { |
| int ML = 0; |
| int SL = SpoofChecker.SINGLE_SCRIPT_CONFUSABLE; |
| int MA = SpoofChecker.ANY_CASE; |
| int SA = SpoofChecker.SINGLE_SCRIPT_CONFUSABLE | SpoofChecker.ANY_CASE; |
| |
| checkSkeleton(sc, MA, "\\u02b9identifier'", "'identifier'", testName); |
| |
| checkSkeleton(sc, SL, "nochange", "\\u213C\\u2134\\U0001D41C\\u210E\\u237A\\u213C\\u210A\\u212E", testName); |
| checkSkeleton(sc, SA, "nochange", "\\u213C\\u2134\\U0001D41C\\u210E\\u237A\\u213C\\u210A\\u212E", testName); |
| checkSkeleton(sc, ML, "nochange", "\\u213C\\u2134\\U0001D41C\\u210E\\u237A\\u213C\\u210A\\u212E", testName); |
| checkSkeleton(sc, MA, "nochange", "nochange", testName); |
| checkSkeleton(sc, MA, "love", "love", testName); |
| checkSkeleton(sc, MA, "1ove", "love", testName); // Digit 1 to letter l |
| checkSkeleton(sc, ML, "OOPS", "OOPS", testName); |
| checkSkeleton(sc, ML, "00PS", "00PS", testName); // Digit 0 unchanged in lower case mode. |
| checkSkeleton(sc, MA, "OOPS", "OOPS", testName); |
| checkSkeleton(sc, MA, "00PS", "OOPS", testName); // Digit 0 to letter O in any case mode only |
| checkSkeleton(sc, SL, "\\u059c", "\\u0301", testName); |
| checkSkeleton(sc, SL, "\\u2A74", "\\u003A\\u003A\\u003D", testName); |
| checkSkeleton(sc, SL, "\\u247E", "\\u0028\\u0031\\u0031\\u0029", testName); // "(11)" |
| checkSkeleton(sc, SL, "\\uFDFB", "\\u062C\\u0644\\u0020\\u062C\\u0644\\u0031\\u0644\\u2134", testName); |
| |
| // This mapping exists in the ML and MA tables, does not exist in SL, SA |
| // 0C83 ; 0983 ; ML # KANNADA SIGN VISARGA to |
| checkSkeleton(sc, SL, "\\u0C83", "\\u0C83", testName); |
| checkSkeleton(sc, SA, "\\u0C83", "\\u0C83", testName); |
| checkSkeleton(sc, ML, "\\u0C83", "\\u0983", testName); |
| checkSkeleton(sc, MA, "\\u0C83", "\\u0983", testName); |
| |
| // 0391 mappings exist only in MA and SA tables. |
| checkSkeleton(sc, MA, "\\u0391", "A", testName); |
| checkSkeleton(sc, SA, "\\u0391", "\\U0001D400", testName); |
| checkSkeleton(sc, ML, "\\u0391", "\\u0391", testName); |
| checkSkeleton(sc, SL, "\\u0391", "\\u0391", testName); |
| |
| // 13CF Mappings in all four tables, different in MA. |
| checkSkeleton(sc, ML, "\\u13CF", "\\U0001D41B", testName); |
| checkSkeleton(sc, MA, "\\u13CF", "b", testName); |
| checkSkeleton(sc, SL, "\\u13CF", "\\U0001D41B", testName); |
| checkSkeleton(sc, SA, "\\u13CF", "\\U0001D41B", testName); |
| |
| // 0022 ; 0027 0027 ; |
| // all tables |
| checkSkeleton(sc, SL, "\"", "\\u0027\\u0027", testName); |
| checkSkeleton(sc, SA, "\"", "\\u0027\\u0027", testName); |
| checkSkeleton(sc, ML, "\"", "\\u0027\\u0027", testName); |
| checkSkeleton(sc, MA, "\"", "\\u0027\\u0027", testName); |
| |
| } |
| |
| // Internal function to run a single skeleton test case. |
| // |
| // Run a single confusable skeleton transformation test case. |
| // |
| void checkSkeleton(SpoofChecker sc, int type, String input, String expected, String testName) { |
| String uInput = Utility.unescape(input); |
| String uExpected = Utility.unescape(expected); |
| String actual; |
| actual = sc.getSkeleton(type, uInput); |
| Throwable t = new Throwable(); |
| int lineNumberOfTest = t.getStackTrace()[1].getLineNumber(); |
| |
| assertEquals(testName + " test at line " + lineNumberOfTest + " : Expected (escaped): " + expected, uExpected, actual); |
| } |
| |
| public void TestAreConfusable() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| String s1 = "A long string that will overflow stack buffers. A long string that will overflow stack buffers. " |
| + "A long string that will overflow stack buffers. A long string that will overflow stack buffers. "; |
| String s2 = "A long string that wi11 overflow stack buffers. A long string that will overflow stack buffers. " |
| + "A long string that wi11 overflow stack buffers. A long string that will overflow stack buffers. "; |
| assertEquals("", SpoofChecker.SINGLE_SCRIPT_CONFUSABLE, sc.areConfusable(s1, s2)); |
| } |
| |
| public void TestInvisible() { |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| String s = Utility.unescape("abcd\\u0301ef"); |
| SpoofChecker.CheckResult result = new SpoofChecker.CheckResult(); |
| result.position = -42; |
| assertFalse("", sc.failsChecks(s, result)); |
| assertEquals("", 0, result.checks); |
| assertEquals("", result.position, 0); |
| |
| String s2 = Utility.unescape("abcd\\u0301\\u0302\\u0301ef"); |
| assertTrue("", sc.failsChecks(s2, result)); |
| assertEquals("", SpoofChecker.INVISIBLE, result.checks); |
| assertEquals("", 0, result.position); |
| |
| // Two acute accents, one from the composed a with acute accent, \u00e1, |
| // and one separate. |
| result.position = -42; |
| String s3 = Utility.unescape("abcd\\u00e1\\u0301xyz"); |
| assertTrue("", sc.failsChecks(s3, result)); |
| assertEquals("", SpoofChecker.INVISIBLE, result.checks); |
| assertEquals("", 0, result.position); |
| } |
| |
| public void TestRestrictionLevel() { |
| Object[][] tests = { |
| {"aγ♥", RestrictionLevel.UNRESTRICTIVE}, |
| {"a", RestrictionLevel.ASCII}, |
| {"γ", RestrictionLevel.SINGLE_SCRIPT_RESTRICTIVE}, |
| {"aアー", RestrictionLevel.HIGHLY_RESTRICTIVE}, |
| {"aऄ", RestrictionLevel.MODERATELY_RESTRICTIVE}, |
| {"aγ", RestrictionLevel.MINIMALLY_RESTRICTIVE}, |
| }; |
| IdentifierInfo idInfo = new IdentifierInfo().setIdentifierProfile(SpoofChecker.RECOMMENDED); |
| CheckResult checkResult = new CheckResult(); |
| for (Object[] test : tests) { |
| String testString = (String) test[0]; |
| RestrictionLevel expectedLevel = (RestrictionLevel) test[1]; |
| idInfo.setIdentifier(testString); |
| assertEquals("Testing restriction level for '" + testString + "'", expectedLevel, idInfo.getRestrictionLevel()); |
| for (RestrictionLevel levelSetInSpoofChecker : RestrictionLevel.values()) { |
| SpoofChecker sc = new SpoofChecker.Builder() |
| .setChecks(SpoofChecker.RESTRICTION_LEVEL) // only check this |
| .setAllowedChars(SpoofChecker.RECOMMENDED) |
| .setRestrictionLevel(levelSetInSpoofChecker) |
| .build(); |
| boolean actualValue = sc.failsChecks(testString, checkResult); |
| |
| // we want to fail if the text is (say) MODERATE and the testLevel is ASCII |
| boolean expectedFailure = expectedLevel.compareTo(levelSetInSpoofChecker) > 0 || !SpoofChecker.RECOMMENDED.containsAll(testString); |
| boolean t = assertEquals("Testing spoof restriction level for '" + testString + "', " + levelSetInSpoofChecker, expectedFailure, actualValue); |
| if (!t) { // debugging |
| actualValue = sc.failsChecks(testString, checkResult); |
| // we want to fail if the text is (say) MODERATE and the testLevel is ASCII |
| expectedFailure = expectedLevel.compareTo(levelSetInSpoofChecker) > 0 || !SpoofChecker.RECOMMENDED.containsAll(testString); |
| } |
| } |
| } |
| } |
| |
| public void TestMixedNumbers() { |
| Object[][] tests = { |
| {"1", "[0]"}, |
| {"१", "[०]"}, |
| {"1१", "[0०]"}, |
| {"١۱", "[٠۰]"}, |
| }; |
| IdentifierInfo idInfo = new IdentifierInfo(); |
| CheckResult checkResult = new CheckResult(); |
| for (Object[] test : tests) { |
| String testString = (String) test[0]; |
| UnicodeSet expected = new UnicodeSet((String)test[1]); |
| idInfo.setIdentifier(testString); |
| assertEquals("", expected, idInfo.getNumerics()); |
| |
| SpoofChecker sc = new SpoofChecker.Builder() |
| .setChecks(SpoofChecker.MIXED_NUMBERS) // only check this |
| .build(); |
| boolean actualValue = sc.failsChecks(testString, checkResult); |
| assertEquals("Testing spoof mixed numbers for '" + testString + "', ", expected.size() > 1, actualValue); |
| } |
| } |
| |
| public void TestIdentifierInfo() { |
| // contains(BitSet, BitSet) |
| BitSet bitset12 = IdentifierInfo.set(new BitSet(), UScript.LATIN, UScript.HANGUL); |
| BitSet bitset2 = IdentifierInfo.set(new BitSet(), UScript.HANGUL); |
| assertTrue("", IdentifierInfo.contains(bitset12, bitset2)); |
| assertTrue("", IdentifierInfo.contains(bitset12, bitset12)); |
| assertTrue("", !IdentifierInfo.contains(bitset2, bitset12)); |
| |
| assertTrue("", IdentifierInfo.BITSET_COMPARATOR.compare( |
| IdentifierInfo.set(new BitSet(), UScript.ARABIC), |
| IdentifierInfo.set(new BitSet(), UScript.LATIN)) < 0); |
| // displayAlternates(Collection<BitSet>) |
| // displayScripts(BitSet) |
| String scriptString = IdentifierInfo.displayScripts(bitset12); |
| assertEquals("", "Hang Latn", scriptString); |
| Set<BitSet> alternates = new HashSet(Arrays.asList(bitset12, bitset2)); |
| String alternatesString = IdentifierInfo.displayAlternates(alternates); |
| assertEquals("", "Hang; Hang Latn", alternatesString); |
| |
| // parseAlternates(String) |
| // parseScripts(String) |
| assertEquals("", bitset12, IdentifierInfo.parseScripts(scriptString)); |
| assertEquals("", alternates, IdentifierInfo.parseAlternates(alternatesString)); |
| |
| String[][] tests = { |
| // String, restriction-level, numerics, scripts, alternates, common-alternates |
| {"a♥", "UNRESTRICTIVE", "[]", "Latn", "", ""}, |
| {"a〆", "HIGHLY_RESTRICTIVE", "[]", "Latn", "Hani Hira Kana", "Hani Hira Kana"}, |
| {"aー〆", "HIGHLY_RESTRICTIVE", "[]", "Latn", "Hira Kana", "Hira Kana"}, |
| {"aー〆ア", "HIGHLY_RESTRICTIVE", "[]", "Latn Kana", "", ""}, |
| {"アaー〆", "HIGHLY_RESTRICTIVE", "[]", "Latn Kana", "", ""}, |
| {"a1١", "UNRESTRICTIVE", "[0٠]", "Latn", "Arab Thaa", "Arab Thaa"}, |
| {"a1١۱", "UNRESTRICTIVE", "[0٠۰]", "Latn Arab", "", ""}, |
| {"١ー〆aア1१۱", "UNRESTRICTIVE", "[0٠۰०]", "Latn Kana Arab", "Deva Kthi Mahj", "Deva Kthi Mahj"}, |
| {"aアー〆1१١۱", "UNRESTRICTIVE", "[0٠۰०]", "Latn Kana Arab", "Deva Kthi Mahj", "Deva Kthi Mahj"}, |
| }; |
| for (String[] test : tests) { |
| String testString = test[0]; |
| IdentifierInfo idInfo = new IdentifierInfo(); |
| idInfo.setIdentifierProfile(SpoofChecker.RECOMMENDED); |
| idInfo.setIdentifier(testString); |
| assertEquals("Identifier " + testString, testString, idInfo.getIdentifier()); |
| |
| RestrictionLevel restrictionLevel = RestrictionLevel.valueOf(test[1]); |
| assertEquals("RestrictionLevel " + testString, restrictionLevel, idInfo.getRestrictionLevel()); |
| |
| UnicodeSet numerics = new UnicodeSet(test[2]); |
| assertEquals("Numerics " + testString, numerics, idInfo.getNumerics()); |
| |
| BitSet scripts = IdentifierInfo.parseScripts(test[3]); |
| assertEquals("Scripts " + testString, scripts, idInfo.getScripts()); |
| |
| Set<BitSet> alternates2 = IdentifierInfo.parseAlternates(test[4]); |
| assertEquals("Alternates " + testString, alternates2, idInfo.getAlternates()); |
| |
| BitSet commonAlternates = IdentifierInfo.parseScripts(test[5]); |
| assertEquals("Common Alternates " + testString, commonAlternates, idInfo.getCommonAmongAlternates()); |
| } |
| |
| // TODO |
| // getIdentifierProfile() |
| // setIdentifierProfile(UnicodeSet) |
| } |
| |
| public void TestComparator() { |
| Random random = new Random(0); |
| for (int i = 0; i < 100; ++i) { |
| BitSet[] items = new BitSet[random.nextInt(5)+3]; |
| for (int j = 0; j < items.length; ++j) { |
| items[j] = new BitSet(); |
| int countInBitset = random.nextInt(5); |
| for (int k = 0; k < countInBitset; ++k) { |
| items[j].set(random.nextInt(10)); |
| } |
| } |
| checkComparator(IdentifierInfo.BITSET_COMPARATOR, items); |
| } |
| } |
| |
| // Dumb implementation for now |
| private <T> void checkComparator(Comparator<T> comparator, T... items) { |
| logln("Checking " + Arrays.asList(items)); |
| /* |
| * The relation is transitive: a < b and b < c implies a < c. We test here. |
| * The relation is trichotomous: exactly one of a < b, b < a and a = b is true. Guaranteed by comparator. |
| */ |
| for (int i = 0; i < items.length-2; ++i) { |
| T a = items[i]; |
| for (int j = i+1; j < items.length-1; ++j) { |
| T b = items[j]; |
| for (int k = j+1; k < items.length; ++k) { |
| T c = items[k]; |
| checkTransitivity(comparator, a, b, c); |
| checkTransitivity(comparator, a, c, b); |
| checkTransitivity(comparator, b, a, b); |
| checkTransitivity(comparator, b, c, a); |
| checkTransitivity(comparator, c, a, b); |
| checkTransitivity(comparator, c, b, a); |
| } |
| } |
| } |
| } |
| |
| private <T> void checkTransitivity(Comparator<T> comparator, T a, T b, T c) { |
| int ab = comparator.compare(a,b); |
| int bc = comparator.compare(b,c); |
| int ca = comparator.compare(c,a); |
| if (!assertFalse("Transitive: " + a + ", " + b + ", " + c, |
| ab < 0 && bc < 0 && ca <= 0)) { |
| // for debugging |
| comparator.compare(a,b); |
| comparator.compare(b,c); |
| comparator.compare(c,a); |
| assertFalse("Transitive: " + a + ", " + b + ", " + c, |
| ab < 0 && bc < 0 && ca <= 0); |
| } |
| } |
| |
| private String parseHex(String in) { |
| StringBuilder sb = new StringBuilder(); |
| for (String oneCharAsHexString : in.split("\\s+")) { |
| if (oneCharAsHexString.length() > 0) { |
| sb.appendCodePoint(Integer.parseInt(oneCharAsHexString, 16)); |
| } |
| } |
| return sb.toString(); |
| } |
| |
| private String escapeString(String in) { |
| StringBuilder out = new StringBuilder(); |
| for (int i = 0; i < in.length(); i++) { |
| int c = in.codePointAt(i); |
| if (c <= 0x7f) { |
| out.append((char) c); |
| } else if (c <= 0xffff) { |
| out.append(String.format("\\u%04x", c)); |
| } else { |
| out.append(String.format("\\U%06x", c)); |
| i++; |
| } |
| } |
| return out.toString(); |
| } |
| |
| // Verify that each item from the Unicode confusables.txt file |
| // transforms into the expected skeleton. |
| public void testConfData() { |
| if (TestUtil.getJavaVendor() == JavaVendor.IBM && TestUtil.getJavaVersion() == 5) { |
| // Note: IBM Java 5 has a bug reading a large UTF-8 text contents |
| logln("Skip this test case because of the IBM Java 5 bug"); |
| return; |
| } |
| try { |
| // Read in the confusables.txt file. (Distributed by Unicode.org) |
| String fileName = "unicode/confusables.txt"; |
| BufferedReader confusablesRdr = TestUtil.getDataReader(fileName, "UTF-8"); |
| |
| // Create a default spoof checker to use in this test. |
| SpoofChecker sc = new SpoofChecker.Builder().build(); |
| |
| // Parse lines from the confusables.txt file. Example Line: |
| // FF44 ; 0064 ; SL # ( d -> d ) FULLWIDTH .... |
| // Lines have three fields. The hex fields can contain more than one character, |
| // and each character may be more than 4 digits (for supplemntals) |
| // This regular expression matches lines and splits the fields into capture groups. |
| // Capture group 1: map from chars |
| // 2: map to chars |
| // 3: table type, SL, ML, SA or MA |
| // 4: Comment Lines Only |
| // 5: Error Lines Only |
| Matcher parseLine = Pattern.compile( |
| "\\ufeff?" + "(?:([0-9A-F\\s]+);([0-9A-F\\s]+);\\s*(SL|ML|SA|MA)\\s*(?:#.*?)?$)" |
| + "|\\ufeff?(\\s*(?:#.*)?)"). // Comment line |
| matcher(""); |
| Normalizer2 normalizer = Normalizer2.getNFDInstance(); |
| int lineNum = 0; |
| String inputLine; |
| while ((inputLine = confusablesRdr.readLine()) != null) { |
| lineNum++; |
| parseLine.reset(inputLine); |
| if (!parseLine.matches()) { |
| errln("Syntax error in confusable data file at line " + lineNum); |
| errln(inputLine); |
| break; |
| } |
| if (parseLine.group(4) != null) { |
| continue; // comment line |
| } |
| String from = parseHex(parseLine.group(1)); |
| |
| if (!normalizer.isNormalized(from)) { |
| // The source character was not NFD. |
| // Skip this case; the first step in obtaining a skeleton is to NFD the input, |
| // so the mapping in this line of confusables.txt will never be applied. |
| continue; |
| } |
| |
| String rawExpected = parseHex(parseLine.group(2)); |
| String expected = normalizer.normalize(rawExpected); |
| |
| int skeletonType = 0; |
| String tableType = parseLine.group(3); |
| if (tableType.equals("SL")) { |
| skeletonType = SpoofChecker.SINGLE_SCRIPT_CONFUSABLE; |
| } else if (tableType.indexOf("SA") >= 0) { |
| skeletonType = SpoofChecker.SINGLE_SCRIPT_CONFUSABLE | SpoofChecker.ANY_CASE; |
| } else if (tableType.indexOf("ML") >= 0) { |
| skeletonType = 0; |
| } else if (tableType.indexOf("MA") >= 0) { |
| skeletonType = SpoofChecker.ANY_CASE; |
| } |
| |
| String actual; |
| actual = sc.getSkeleton(skeletonType, from); |
| |
| if (!actual.equals(expected)) { |
| errln("confusables.txt: " + lineNum + ": " + parseLine.group(0)); |
| errln("Actual: " + escapeString(actual)); |
| } |
| } |
| confusablesRdr.close(); |
| } catch (IOException e) { |
| errln(e.toString()); |
| } |
| } |
| } |