// // VMime library (http://www.vmime.org) // Copyright (C) 2002 Vincent Richard // // 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, write to the Free Software Foundation, Inc., // 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. // // Linking this library statically or dynamically with other modules is making // a combined work based on this library. Thus, the terms and conditions of // the GNU General Public License cover the whole combination. // #include "tests/testUtils.hpp" #include #include VMIME_TEST_SUITE_BEGIN(textTest) VMIME_TEST_LIST_BEGIN VMIME_TEST(testConstructors) VMIME_TEST(testCopy) VMIME_TEST(testNewFromString) VMIME_TEST(testDisplayForm) VMIME_TEST(testParse) VMIME_TEST(testGenerate) VMIME_TEST(testWordConstructors) VMIME_TEST(testWordParse) VMIME_TEST(testWordGenerate) VMIME_TEST(testWordGenerateSpace) VMIME_TEST(testWordGenerateSpace2) VMIME_TEST(testWordGenerateMultiBytes) VMIME_TEST(testWordGenerateQuote) VMIME_TEST(testWordGenerateSpecialCharsets) VMIME_TEST(testWordGenerateSpecials) VMIME_TEST(testWhitespace) VMIME_TEST(testWhitespaceMBox) VMIME_TEST(testFoldingAscii) VMIME_TEST(testForcedNonEncoding) VMIME_TEST(testBugFix20110511) VMIME_TEST(testInternationalizedEmail_specialChars) VMIME_TEST(testInternationalizedEmail_UTF8) VMIME_TEST(testInternationalizedEmail_nonUTF8) VMIME_TEST(testInternationalizedEmail_folding) VMIME_TEST(testInternationalizedEmail_whitespace) VMIME_TEST(testWronglyPaddedB64Words) VMIME_TEST(testFixBrokenWords) VMIME_TEST(testUnknownCharset) VMIME_TEST_LIST_END static const vmime::string getDisplayText(const vmime::text& t) { return t.getWholeBuffer(); } static const vmime::string cleanGeneratedWords(const std::string& str) { std::istringstream iss(str); std::string res; std::string x; while (std::getline(iss, x)) { res += vmime::utility::stringUtils::trim(x); } return res; } void setUp() { // Set the global C and C++ locale to the user-configured locale. // The locale should use UTF-8 encoding for these tests to run successfully. try { std::locale::global(std::locale("")); } catch (std::exception &) { std::setlocale(LC_ALL, ""); } } void tearDown() { // Restore default locale std::locale::global(std::locale("C")); } void testConstructors() { vmime::text t1; VASSERT_EQ("1.1", 0, t1.getWordCount()); vmime::text t2("Test\xa9\xc3"); VASSERT_EQ("2.1", 1, t2.getWordCount()); VASSERT_EQ("2.2", "Test\xa9\xc3", t2.getWordAt(0)->getBuffer()); VASSERT_EQ("2.3", vmime::charset::getLocalCharset(), t2.getWordAt(0)->getCharset()); vmime::text t3("Test\xa9\xc3", vmime::charset(vmime::charsets::ISO8859_13)); VASSERT_EQ("3.1", 1, t3.getWordCount()); VASSERT_EQ("3.2", "Test\xa9\xc3", t3.getWordAt(0)->getBuffer()); VASSERT_EQ("3.3", vmime::charset(vmime::charsets::ISO8859_13), t3.getWordAt(0)->getCharset()); vmime::word w1("Test", vmime::charset(vmime::charsets::UTF_8)); vmime::text t4(w1); VASSERT_EQ("4.1", 1, t4.getWordCount()); VASSERT_EQ("4.2", w1.getBuffer(), t4.getWordAt(0)->getBuffer()); VASSERT_EQ("4.3", w1.getCharset(), t4.getWordAt(0)->getCharset()); vmime::word w2("Other", vmime::charset(vmime::charsets::US_ASCII)); t4.appendWord(vmime::make_shared (w2)); vmime::text t5(t4); VASSERT_EQ("5.1", 2, t5.getWordCount()); VASSERT_EQ("5.2", w1.getBuffer(), t5.getWordAt(0)->getBuffer()); VASSERT_EQ("5.3", w1.getCharset(), t5.getWordAt(0)->getCharset()); VASSERT_EQ("5.4", w2.getBuffer(), t5.getWordAt(1)->getBuffer()); VASSERT_EQ("5.5", w2.getCharset(), t5.getWordAt(1)->getCharset()); } void testCopy() { vmime::text t1("Test: \xa9\xc3"); VASSERT("operator==", t1 == t1); VASSERT("clone", *vmime::clone(t1) == t1); vmime::text t2; t2.copyFrom(t1); VASSERT("copyFrom", t1 == t2); } void testNewFromString() { vmime::string s1 = "only ASCII characters"; vmime::charset c1("test"); vmime::text t1; t1.createFromString(s1, c1); VASSERT_EQ("1.1", 1, t1.getWordCount()); VASSERT_EQ("1.2", s1, t1.getWordAt(0)->getBuffer()); VASSERT_EQ("1.3", vmime::charset(vmime::charsets::US_ASCII), t1.getWordAt(0)->getCharset()); vmime::string s2_1 = "some ASCII characters and special chars: "; vmime::string s2_2 = "\xf1\xf2\xf3\xf4 "; vmime::string s2_3 = "and then more ASCII chars."; vmime::string s2 = s2_1 + s2_2 + s2_3; vmime::charset c2("test"); vmime::text t2; t2.createFromString(s2, c2); VASSERT_EQ("2.1", 3, t2.getWordCount()); VASSERT_EQ("2.2", "some ASCII characters and special chars: ", t2.getWordAt(0)->getBuffer()); VASSERT_EQ("2.3", vmime::charset(vmime::charsets::US_ASCII), t2.getWordAt(0)->getCharset()); VASSERT_EQ("2.4", "\xf1\xf2\xf3\xf4", t2.getWordAt(1)->getBuffer()); VASSERT_EQ("2.5", c2, t2.getWordAt(1)->getCharset()); VASSERT_EQ("2.6", "and then more ASCII chars.", t2.getWordAt(2)->getBuffer()); VASSERT_EQ("2.7", vmime::charset(vmime::charsets::US_ASCII), t2.getWordAt(2)->getCharset()); } static const vmime::string parseText(const vmime::string& buffer) { vmime::text t; t.parse(buffer); std::ostringstream oss; oss << t; return oss.str(); } void testParse() { // From RFC-2047 VASSERT_EQ( "1", "[text: [[word: charset=US-ASCII, buffer=Keith Moore]]]", parseText("=?US-ASCII?Q?Keith_Moore?=") ); VASSERT_EQ( "2", "[text: [[word: charset=ISO-8859-1, buffer=Keld J\xf8rn Simonsen]]]", parseText("=?ISO-8859-1?Q?Keld_J=F8rn_Simonsen?=") ); VASSERT_EQ( "3", "[text: [[word: charset=ISO-8859-1, buffer=Andr\xe9]," \ "[word: charset=us-ascii, buffer= Pirard]]]", parseText("=?ISO-8859-1?Q?Andr=E9?= Pirard") ); VASSERT_EQ( "4", "[text: [[word: charset=ISO-8859-1, buffer=If you can read this yo]," \ "[word: charset=ISO-8859-2, buffer=u understand the example.]]]", parseText( "=?ISO-8859-1?B?SWYgeW91IGNhbiByZWFkIHRoaXMgeW8=?=\r\n " \ "=?ISO-8859-2?B?dSB1bmRlcnN0YW5kIHRoZSBleGFtcGxlLg==?=" ) ); // Bugfix: in "=?charset?q?=XX=YY?=", the "?=" finish // sequence was not correctly found (should be the one // after '=YY' and not the one after '?q'). VASSERT_EQ( "5", "[text: [[word: charset=abc, buffer=\xe9\xe9]]]", parseText("=?abc?q?=E9=E9?=") ); // Question marks (?) in the middle of the string VASSERT_EQ( "6", "[text: [[word: charset=iso-8859-1, buffer=Know wh\xe4t? It works!]]]", parseText("=?iso-8859-1?Q?Know_wh=E4t?_It_works!?=") ); // With language specifier VASSERT_EQ( "7", "[text: [[word: charset=US-ASCII, buffer=Keith Moore, lang=EN]]]", parseText("=?US-ASCII*EN?Q?Keith_Moore?=") ); } void testGenerate() { // TODO // With language specifier vmime::word wlang1("Émeline", vmime::charset("UTF-8"), "FR"); VASSERT_EQ("lang1", "=?UTF-8*FR?Q?=C3=89meline?=", wlang1.generate()); vmime::word wlang2("Keith Moore", vmime::charset("US-ASCII"), "EN"); VASSERT_EQ("lang2", "=?US-ASCII*EN?Q?Keith_Moore?=", wlang2.generate()); } void testDisplayForm() { #define DISPLAY_FORM(x) getDisplayText(*vmime::text::decodeAndUnfold(x)) // From RFC-2047 VASSERT_EQ("1", "a", DISPLAY_FORM("=?ISO-8859-1?Q?a?=")); VASSERT_EQ("2", "a b", DISPLAY_FORM("=?ISO-8859-1?Q?a?= b")); VASSERT_EQ("3", "ab", DISPLAY_FORM("=?ISO-8859-1?Q?a?= =?ISO-8859-1?Q?b?=")); VASSERT_EQ("4", "ab", DISPLAY_FORM("=?ISO-8859-1?Q?a?= \t =?ISO-8859-1?Q?b?=")); VASSERT_EQ("5", "ab", DISPLAY_FORM("=?ISO-8859-1?Q?a?= \r\n \t =?ISO-8859-1?Q?b?=")); VASSERT_EQ("6", "a b", DISPLAY_FORM("=?ISO-8859-1?Q?a_b?=")); VASSERT_EQ("7", "a b", DISPLAY_FORM("=?ISO-8859-1?Q?a?= =?ISO-8859-2?Q?_b?=")); // Some more tests... VASSERT_EQ("8", "a b", DISPLAY_FORM(" a =?ISO-8859-1?Q?b?= ")); VASSERT_EQ("9", "a b ", DISPLAY_FORM(" \t =?ISO-8859-1?Q?a?= b ")); VASSERT_EQ("10", "a b", DISPLAY_FORM(" a\r\n\t b")); VASSERT_EQ("11", "a b c", DISPLAY_FORM("a =?ISO-8859-1?Q?b?= c")); VASSERT_EQ("12", "a b c ", DISPLAY_FORM("a =?ISO-8859-1?Q?b?= c ")); VASSERT_EQ("13", "a b c ", DISPLAY_FORM(" a =?ISO-8859-1?Q?b?= c ")); VASSERT_EQ("14", "a b c d", DISPLAY_FORM("a =?ISO-8859-1?Q?b?= c =?ISO-8859-1?Q?d?= ")); VASSERT_EQ("15", "a b c d e", DISPLAY_FORM("a =?ISO-8859-1?Q?b?= c =?ISO-8859-1?Q?d?= e")); // Whitespaces and multiline VASSERT_EQ("16", "a b c d e", DISPLAY_FORM("=?ISO-8859-1?Q?a_b_?=c\n\t=?ISO-8859-1?Q?d_?=e")); // Ignored newlines VASSERT_EQ("17", "ab", DISPLAY_FORM("=?ISO-8859-1?Q?a?=\r\nb")); VASSERT_EQ("18", "a b", DISPLAY_FORM("=?ISO-8859-1?Q?a?= \r\nb")); #undef DISPLAY_FORM } void testWordConstructors() { VASSERT_EQ("1.1", vmime::charset::getLocalCharset(), vmime::word().getCharset()); VASSERT_EQ("1.2", "", vmime::word().getBuffer()); VASSERT_EQ("2.1", vmime::charset::getLocalCharset(), vmime::word("foo").getCharset()); VASSERT_EQ("2.2", "foo", vmime::word("foo").getBuffer()); VASSERT_EQ("3.1", "bar", vmime::word("foo", vmime::charset("bar")).getCharset().getName()); VASSERT_EQ("3.2", "foo", vmime::word("foo", vmime::charset("bar")).getBuffer()); } void testWordParse() { // Simple encoded word vmime::word w1; w1.parse("=?foo?q?bar=E9 baz?="); VASSERT_EQ("1.1", "foo", w1.getCharset().getName()); VASSERT_EQ("1.2", "bar\xe9 baz", w1.getBuffer()); // Unencoded text vmime::word w2; w2.parse(" foo bar \tbaz..."); VASSERT_EQ("2.1", vmime::charset(vmime::charsets::US_ASCII), w2.getCharset()); VASSERT_EQ("2.2", " foo bar \tbaz...", w2.getBuffer()); // Malformed word vmime::word w3; w3.parse("=?foo bar"); VASSERT_EQ("3.1", vmime::charset(vmime::charsets::US_ASCII), w3.getCharset()); VASSERT_EQ("3.2", "=?foo bar", w3.getBuffer()); // Unknown encoding vmime::word w4; w4.parse("=?whatever?not_q_or_b?whatever?="); VASSERT_EQ("4.1", vmime::charset(vmime::charsets::US_ASCII), w4.getCharset()); VASSERT_EQ("4.2", "=?whatever?not_q_or_b?whatever?=", w4.getBuffer()); } void testWordGenerate() { VASSERT_EQ( "1", "=?foo?Q?bar=E9_baz?=", vmime::word("bar\xe9 baz", vmime::charset("foo")).generate() ); VASSERT_EQ( "2", "=?foo?B?8fLz9PU=?=", vmime::word("\xf1\xf2\xf3\xf4\xf5", vmime::charset("foo")).generate() ); } void testWordGenerateSpace() { // No white-space between an unencoded word and a encoded one VASSERT_EQ( "1", "Bonjour =?utf-8?Q?Fran=C3=A7ois?=", vmime::text::newFromString( "Bonjour Fran\xc3\xa7ois", vmime::charset("utf-8") )->generate() ); // White-space between two encoded words vmime::text txt; txt.appendWord(vmime::make_shared ("\xc3\x89t\xc3\xa9", "utf-8")); txt.appendWord(vmime::make_shared ("Fran\xc3\xa7ois", "utf-8")); const vmime::string decoded = "\xc3\x89t\xc3\xa9""Fran\xc3\xa7ois"; const vmime::string encoded = "=?utf-8?B?w4l0w6k=?= =?utf-8?Q?Fran=C3=A7ois?="; // -- test encoding VASSERT_EQ("2", encoded, txt.generate()); // -- ensure no space is added when decoding vmime::text txt2; txt2.parse(encoded, 0, encoded.length()); VASSERT_EQ("3", decoded, txt2.getWholeBuffer()); // -- test rencoding VASSERT_EQ("4", encoded, txt2.generate()); } void testWordGenerateSpace2() { // White-space between two encoded words (#2) vmime::text txt; txt.appendWord(vmime::make_shared ("Facture ", "utf-8")); txt.appendWord(vmime::make_shared ("\xc3\xa0", "utf-8")); txt.appendWord(vmime::make_shared (" envoyer ", "utf-8")); txt.appendWord(vmime::make_shared ("\xc3\xa0", "utf-8")); txt.appendWord(vmime::make_shared (" Martine", "utf-8")); const vmime::string decoded = "Facture ""\xc3\xa0"" envoyer ""\xc3\xa0"" Martine"; const vmime::string encoded = "Facture =?utf-8?B?w6A=?= envoyer =?utf-8?B?w6A=?= Martine"; // -- test encoding VASSERT_EQ("1", encoded, txt.generate()); // -- ensure no space is added when decoding vmime::text txt2; txt2.parse(encoded, 0, encoded.length()); VASSERT_EQ("2", decoded, txt2.getWholeBuffer()); // -- test rencoding VASSERT_EQ("3", encoded, txt2.generate()); } void testWordGenerateMultiBytes() { // Ensure we don't encode a non-integral number of characters VASSERT_EQ( "1", "=?utf-8?Q?aaa?==?utf-8?Q?=C3=A9?==?utf-8?Q?zzz?=", cleanGeneratedWords( vmime::word("aaa\xc3\xa9zzz", vmime::charset("utf-8")).generate(16) ) ); VASSERT_EQ( "2", "=?utf-8?Q?aaa=C3=A9?==?utf-8?Q?zzz?=", cleanGeneratedWords( vmime::word("aaa\xc3\xa9zzz", vmime::charset("utf-8")).generate(17) ) ); } void testWordGenerateQuote() { std::string str; vmime::utility::outputStreamStringAdapter os(str); vmime::generationContext ctx; ctx.setMaxLineLength(1000); // ASCII-only text is quotable str.clear(); vmime::word("Quoted text") .generate(ctx, os, 0, NULL, vmime::text::QUOTE_IF_POSSIBLE, NULL); VASSERT_EQ("1", "\"Quoted text\"", cleanGeneratedWords(str)); // Text with CR/LF is not quotable str.clear(); vmime::word("Non-quotable\ntext", "us-ascii") .generate(ctx, os, 0, NULL, vmime::text::QUOTE_IF_POSSIBLE, NULL); VASSERT_EQ("2", "=?us-ascii?Q?Non-quotable=0Atext?=", cleanGeneratedWords(str)); // Text with non-ASCII chars is not quotable str.clear(); vmime::word("Non-quotable text \xc3\xa9") .generate(ctx, os, 0, NULL, vmime::text::QUOTE_IF_POSSIBLE, NULL); VASSERT_EQ("3", "=?UTF-8?Q?Non-quotable_text_=C3=A9?=", cleanGeneratedWords(str)); } void testWordGenerateSpecialCharsets() { // ISO-2022-JP only uses 7-bit chars but should be encoded in Base64 VASSERT_EQ( "1", "=?iso-2022-jp?B?XlskQiVRITwlPSVKJWshJiU9JVUlSCUmJSclIl5bKEI=?=", cleanGeneratedWords( vmime::word( "^[$B%Q!<%=%J%k!&%=%U%H%&%'%\"^[(B", vmime::charset("iso-2022-jp") ).generate(100) ) ); } void testWordGenerateSpecials() { // In RFC-2047, quotation marks (ASCII 22h) should be encoded VASSERT_EQ( "1", "=?UTF-8?Q?=22=C3=9Cml=C3=A4ute=22?=", vmime::word( "\x22\xC3\x9Cml\xC3\xA4ute\x22", vmime::charset("UTF-8") ).generate() ); } void testWhitespace() { // Create vmime::text text; text.createFromString("Achim Br\xc3\xa4ndt", vmime::charsets::UTF_8); VASSERT_EQ("1", 2, text.getWordCount()); VASSERT_EQ("2", "Achim ", text.getWordAt(0)->getBuffer()); VASSERT_EQ("3", "us-ascii", text.getWordAt(0)->getCharset()); VASSERT_EQ("4", "Br\xc3\xa4ndt", text.getWordAt(1)->getBuffer()); VASSERT_EQ("5", "utf-8", text.getWordAt(1)->getCharset()); // Generate VASSERT_EQ("6", "Achim =?utf-8?Q?Br=C3=A4ndt?=", text.generate()); // Parse text.parse("=?us-ascii?Q?Achim_?= =?utf-8?Q?Br=C3=A4ndt?="); VASSERT_EQ("7", 2, text.getWordCount()); VASSERT_EQ("8", "Achim ", text.getWordAt(0)->getBuffer()); VASSERT_EQ("9", "us-ascii", text.getWordAt(0)->getCharset()); VASSERT_EQ("10", "Br\xc3\xa4ndt", text.getWordAt(1)->getBuffer()); VASSERT_EQ("11", "utf-8", text.getWordAt(1)->getCharset()); } void testWhitespaceMBox() { // Space MUST be encoded inside a word vmime::mailbox mbox(vmime::text("Achim Br\xc3\xa4ndt", vmime::charsets::UTF_8), "me@vmime.org"); VASSERT_EQ("generate1", "=?us-ascii?Q?Achim_?= =?utf-8?Q?Br=C3=A4ndt?= ", mbox.generate()); vmime::text txt; txt.appendWord(vmime::make_shared ("Achim ", "us-ascii")); txt.appendWord(vmime::make_shared ("Br\xc3\xa4ndt", "utf-8")); mbox = vmime::mailbox(txt, "me@vmime.org"); VASSERT_EQ("generate2", "=?us-ascii?Q?Achim_?= =?utf-8?Q?Br=C3=A4ndt?= ", mbox.generate()); mbox.parse("=?us-ascii?Q?Achim?= =?utf-8?Q?Br=C3=A4ndt?= "); VASSERT_EQ("parse.name.count", 2, mbox.getName().getWordCount()); VASSERT_EQ("parse.name.word1.buffer", "Achim", mbox.getName().getWordAt(0)->getBuffer()); VASSERT_EQ("parse.name.word1.charset", "us-ascii", mbox.getName().getWordAt(0)->getCharset()); VASSERT_EQ("parse.name.word2.buffer", "Br\xc3\xa4ndt", mbox.getName().getWordAt(1)->getBuffer()); VASSERT_EQ("parse.name.word2.charset", "utf-8", mbox.getName().getWordAt(1)->getCharset()); VASSERT_EQ("parse.email", "me@vmime.org", mbox.getEmail()); } void testFoldingAscii() { // In this test, no encoding is needed, but line should be folded anyway vmime::word w("01234567890123456789012345678901234567890123456789" "01234567890123456789012345678901234567890123456789", vmime::charset("us-ascii")); VASSERT_EQ( "fold.ascii", "=?us-ascii?Q?01234567890123456789012345678901234?=\r\n" " =?us-ascii?Q?5678901234567890123456789012345678?=\r\n" " =?us-ascii?Q?9012345678901234567890123456789?=", w.generate(50) ); } void testForcedNonEncoding() { // Testing long unbreakable and unencodable header vmime::relay r; r.parse( " from User (Ee9GMqZQ8t7IQwftfAFHd2KyScCYRrFSJ50tKEoXv2bVCG4HcPU80GGWiFabAvG77FekpGgF1h@[127.0.0.1]) by servername.hostname.com\n\t" "with esmtp id 1NGTS9-2C0sqG0; Fri, 4 Dec 2009 09:23:49 +0100" ); VASSERT_EQ( "received.long", "from User\r\n (Ee9GMqZQ8t7IQwftfAFHd2KyScCYRrFSJ50tKEoXv2bVCG4HcPU80GGWiFabAvG77FekpGgF1h@[127.0.0.1])\r\n by servername.hostname.com with esmtp id 1NGTS9-2C0sqG0; Fri, 4 Dec 2009\r\n 09:23:49 +0100", r.generate(78) ); } void testBugFix20110511() { /* Using the latest version of vmime (0.9.1), encoding the following string: Jean Gwenaël Dutourd will result in: Jean =?utf-8?Q?Gwena=C3=ABl_?= Dutourd However, decoding this will result in Jean Gwenaël Dutourd (notice two spaces between the last 2 words). The encoder adds a _ after the second word, but since the last word is not encoded, the space between them is not ignored, and is decoded into an additional space. See: http://sourceforge.net/projects/vmime/forums/forum/237357/topic/4531365 */ const std::string DECODED_TEXT = "Jean Gwenaël Dutourd"; const std::string ENCODED_TEXT = "Jean =?utf-8?Q?Gwena=C3=ABl?= Dutourd"; // Encode VASSERT_EQ( "encode", ENCODED_TEXT, vmime::text::newFromString(DECODED_TEXT, vmime::charset("utf-8"))->generate() ); // Decode vmime::text t; t.parse(ENCODED_TEXT); // -- words std::ostringstream oss; oss << t; VASSERT_EQ( "decode1", "[text: [[word: charset=us-ascii, buffer=Jean ]," "[word: charset=utf-8, buffer=Gwenaël]," "[word: charset=us-ascii, buffer= Dutourd]]]", oss.str() ); // -- getWholeBuffer VASSERT_EQ("decode2", DECODED_TEXT, t.getWholeBuffer()); } void testInternationalizedEmail_specialChars() { vmime::generationContext ctx(vmime::generationContext::getDefaultContext()); ctx.setInternationalizedEmailSupport(true); vmime::generationContext::switcher contextSwitcher(ctx); // Special sequence/chars should still be encoded VASSERT_EQ( "1", "=?us-ascii?Q?Test=3D=3Frfc2047_sequence?=", vmime::word("Test=?rfc2047 sequence", vmime::charset("us-ascii")).generate() ); VASSERT_EQ( "2", "=?us-ascii?Q?Line_One=0ALine_Two?=", vmime::word("Line One\nLine Two", vmime::charset("us-ascii")).generate() ); } void testInternationalizedEmail_UTF8() { vmime::generationContext ctx(vmime::generationContext::getDefaultContext()); ctx.setInternationalizedEmailSupport(true); vmime::generationContext::switcher contextSwitcher(ctx); // Already UTF-8 encoded text should be left as is VASSERT_EQ( "1", "Achim Br\xc3\xa4ndt", vmime::word("Achim Br\xc3\xa4ndt", vmime::charset("utf-8")).generate() ); } void testInternationalizedEmail_nonUTF8() { vmime::generationContext ctx(vmime::generationContext::getDefaultContext()); ctx.setInternationalizedEmailSupport(true); vmime::generationContext::switcher contextSwitcher(ctx); // Non UTF-8 encoded text should first be converted to UTF-8 VASSERT_EQ( "1", "Achim Br\xc3\xa4ndt", vmime::word("Achim Br\xe4ndt", vmime::charset("iso-8859-1")).generate() ); } void testInternationalizedEmail_folding() { vmime::generationContext ctx(vmime::generationContext::getDefaultContext()); ctx.setInternationalizedEmailSupport(true); vmime::generationContext::switcher contextSwitcher(ctx); // RFC-2047 encoding must be performed, as line folding is needed vmime::word w1("01234567890123456789\xc3\xa0x012345678901234567890123456789" "01234567890123456789\xc3\xa0x012345678901234567890123456789", vmime::charset("utf-8")); VASSERT_EQ( "1", "=?utf-8?Q?01234567890123456789=C3=A0x01234567890?=\r\n" " =?utf-8?Q?1234567890123456789012345678901234567?=\r\n" " =?utf-8?Q?89=C3=A0x0123456789012345678901234567?=\r\n" " =?utf-8?Q?89?=", w1.generate(50) ); // RFC-2047 encoding will not be forced, as words can be wrapped in a new line vmime::word w2("bla bla bla This is some '\xc3\xa0\xc3\xa7' UTF-8 encoded text", vmime::charset("utf-8")); VASSERT_EQ( "2", "bla bla bla This is\r\n" " some '\xc3\xa0\xc3\xa7' UTF-8\r\n" " encoded text", w2.generate(20) ); } void testInternationalizedEmail_whitespace() { // Sanity checks for running this test { vmime::text t; t.parse("=?utf-8?Q?Adquisi=C3=B3n?= de Laptop y celular"); VASSERT_EQ("parse", "Adquisión de Laptop y celular", t.getWholeBuffer()); } { vmime::text t("Adquisi\xc3\xb3n de Laptop y celular", vmime::charset("UTF-8")); VASSERT_EQ("generate", "=?UTF-8?Q?Adquisi=C3=B3n?= de Laptop y celular", t.generate()); } // Ensure a whitespace is added between encoded words in intl email support enabled { vmime::text t; t.parse("=?utf-8?Q?Adquisi=C3=B3n?= de Laptop y celular"); std::ostringstream oss; vmime::utility::outputStreamAdapter ossAdapter(oss); vmime::generationContext gctx(vmime::generationContext::getDefaultContext()); gctx.setInternationalizedEmailSupport(true); t.generate(gctx, ossAdapter); VASSERT_EQ("generate", "Adquisi\xc3\xb3n de Laptop y celular", oss.str()); } { vmime::text t; t.parse("=?utf-8?Q?Adquisi=C3=B3n?= de Laptop =?utf-8?Q?y?= celular"); std::ostringstream oss; vmime::utility::outputStreamAdapter ossAdapter(oss); vmime::generationContext gctx(vmime::generationContext::getDefaultContext()); gctx.setInternationalizedEmailSupport(true); t.generate(gctx, ossAdapter); VASSERT_EQ("generate", "Adquisi\xc3\xb3n de Laptop y celular", oss.str()); } { vmime::text t; t.parse("=?utf-8?Q?Adquisi=C3=B3n?= de Laptop =?utf-8?Q?y_celular?="); std::ostringstream oss; vmime::utility::outputStreamAdapter ossAdapter(oss); vmime::generationContext gctx(vmime::generationContext::getDefaultContext()); gctx.setInternationalizedEmailSupport(true); t.generate(gctx, ossAdapter); VASSERT_EQ("generate", "Adquisi\xc3\xb3n de Laptop y celular", oss.str()); } // Ensure no whitespace is added with non-encoded words { vmime::text t; t.parse("Laptop y celular"); std::ostringstream oss; vmime::utility::outputStreamAdapter ossAdapter(oss); vmime::generationContext gctx(vmime::generationContext::getDefaultContext()); gctx.setInternationalizedEmailSupport(true); t.generate(gctx, ossAdapter); VASSERT_EQ("generate", "Laptop y celular", oss.str()); } { vmime::text t; t.parse("=?utf-8?Q?Laptop_y_celular?="); std::ostringstream oss; vmime::utility::outputStreamAdapter ossAdapter(oss); vmime::generationContext gctx(vmime::generationContext::getDefaultContext()); gctx.setInternationalizedEmailSupport(true); t.generate(gctx, ossAdapter); VASSERT_EQ("generate", "Laptop y celular", oss.str()); } } void testWronglyPaddedB64Words() { vmime::text outText; vmime::text::decodeAndUnfold("=?utf-8?B?5Lit5?=\n =?utf-8?B?paH?=", &outText); VASSERT_EQ( "1", "\xe4\xb8\xad\xe6\x96\x87", outText.getConvertedText(vmime::charset("utf-8")) ); vmime::text::decodeAndUnfold("=?utf-8?B?5Lit5p?=\n =?utf-8?B?aH?=", &outText); VASSERT_EQ( "2", "\xe4\xb8\xad\xe6\x96\x87", outText.getConvertedText(vmime::charset("utf-8")) ); vmime::text::decodeAndUnfold("=?utf-8?B?5Lit5pa?=\n =?utf-8?B?H?=", &outText); VASSERT_EQ( "3", "\xe4\xb8\xad\xe6\x96\x87", outText.getConvertedText(vmime::charset("utf-8")) ); } // Ensure that words which encode a non-integral number of characters // are correctly decoded. void testFixBrokenWords() { vmime::text outText; vmime::charsetConverterOptions opts; opts.silentlyReplaceInvalidSequences = false; // just to be sure that broken words are actually fixed // Test case 1 vmime::text::decodeAndUnfold( "=?utf-8?Q?Gwena=C3?=" "=?utf-8?Q?=ABl?=", &outText ); VASSERT_EQ("1.1", 1, outText.getWordCount()); VASSERT_EQ("1.2", "Gwena\xc3\xabl", outText.getWordAt(0)->getBuffer()); VASSERT_EQ("1.3", vmime::charset("utf-8"), outText.getWordAt(0)->getCharset()); // Test case 2 vmime::text::decodeAndUnfold( "=?utf-8?B?5Lit6Yu85qmf5qKw6JGj5LqL5pyDMTAz5bm056ysMDXlsYbn?=" "=?utf-8?B?rKwwN+asoeitsOeoiw==?=", &outText ); VASSERT_EQ("2.1", 1, outText.getWordCount()); VASSERT_EQ("2.2", "\xe4\xb8\xad\xe9\x8b\xbc\xe6\xa9\x9f\xe6\xa2\xb0" "\xe8\x91\xa3\xe4\xba\x8b\xe6\x9c\x83\x31\x30\x33\xe5\xb9\xb4" "\xe7\xac\xac\x30\x35\xe5\xb1\x86\xe7\xac\xac\x30\x37\xe6\xac" "\xa1\xe8\xad\xb0\xe7\xa8\x8b", outText.getWordAt(0)->getBuffer()); VASSERT_EQ("2.3", vmime::charset("utf-8"), outText.getWordAt(0)->getCharset()); // Test case 3 (a character spanning over 3 words: 'を' = E3 82 92) vmime::text::decodeAndUnfold( "=?utf-8?Q?abc=E3?=" "=?utf-8?Q?=82?=" "=?utf-8?Q?=92xyz?=", &outText ); VASSERT_EQ("3.1", 1, outText.getWordCount()); VASSERT_EQ("3.2", "abc\xe3\x82\x92xyz", outText.getWordAt(0)->getBuffer()); VASSERT_EQ("3.3", vmime::charset("utf-8"), outText.getWordAt(0)->getCharset()); // Test case 4 (remains invalid) vmime::text::decodeAndUnfold( "=?utf-8?Q?abc=E3?=" "=?utf-8?Q?=82?=" "=?utf-8?Q?xy?=" "=?utf-8?Q?z?=", &outText ); VASSERT_EQ("4.1", 2, outText.getWordCount()); VASSERT_EQ("4.2", "abc", outText.getWordAt(0)->getBuffer()); VASSERT_EQ("4.3", vmime::charset("utf-8"), outText.getWordAt(0)->getCharset()); VASSERT_EQ("4.4", "\xe3\x82xyz", outText.getWordAt(1)->getBuffer()); VASSERT_EQ("4.5", vmime::charset("utf-8"), outText.getWordAt(1)->getCharset()); // Test case 5 (remains partially invalid) vmime::text::decodeAndUnfold( "=?utf-8?Q?abc=E3?=" "=?utf-8?Q?=82?=" "=?utf-8?Q?\x92xy?=" "=?utf-8?Q?z\xc3?=", &outText ); VASSERT_EQ("5.1", 2, outText.getWordCount()); VASSERT_EQ("5.2", "abc\xe3\x82\x92xyz", outText.getWordAt(0)->getBuffer()); VASSERT_EQ("5.3", vmime::charset("utf-8"), outText.getWordAt(0)->getCharset()); VASSERT_EQ("5.4", "\xc3", outText.getWordAt(1)->getBuffer()); VASSERT_EQ("5.5", vmime::charset("utf-8"), outText.getWordAt(1)->getCharset()); } void testUnknownCharset() { vmime::text t; vmime::text::decodeAndUnfold("=?gb2312?B?wdaRY8PA?=", &t); VASSERT_EQ("1.1", 1, t.getWordCount()); VASSERT_EQ("1.2", "\xc1\xd6\x91\x63\xc3\xc0", t.getWordAt(0)->getBuffer()); VASSERT_EQ("1.3", vmime::charset("gb2312"), t.getWordAt(0)->getCharset()); vmime::parsingContext ctx; const vmime::string hfieldBuffer = "From: '=?gb2312?B?wdaRY8PA?=' "; vmime::shared_ptr hfield = vmime::headerField::parseNext(ctx, hfieldBuffer, 0, hfieldBuffer.size()); vmime::shared_ptr hvalue = hfield->getValue (); VASSERT_EQ("2.1", 3, hvalue->getName().getWordCount()); VASSERT_EQ("2.2", "'", hvalue->getName().getWordAt(0)->getBuffer()); VASSERT_EQ("2.3", vmime::charset("us-ascii"), hvalue->getName().getWordAt(0)->getCharset()); VASSERT_EQ("2.4", "\xc1\xd6\x91\x63\xc3\xc0", hvalue->getName().getWordAt(1)->getBuffer()); VASSERT_EQ("2.5", vmime::charset("gb2312"), hvalue->getName().getWordAt(1)->getCharset()); VASSERT_EQ("2.6", "'", hvalue->getName().getWordAt(2)->getBuffer()); VASSERT_EQ("2.7", vmime::charset("us-ascii"), hvalue->getName().getWordAt(2)->getCharset()); } VMIME_TEST_SUITE_END