_createCharStream(); $this->_checking(Expectations::create() -> one($charStream)->flushContents() -> one($charStream)->importString($char) -> one($charStream)->readBytes(optional()) -> returns(array($ordinal)) -> atLeast(1)->of($charStream)->readBytes(optional()) -> returns(false) ); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertIdenticalBinary($char, $encoder->encodeString($char)); } } public function testWhiteSpaceAtLineEndingIsEncoded() { /* -- RFC 2045, 6.7 -- (3) (White Space) Octets with values of 9 and 32 MAY be represented as US-ASCII TAB (HT) and SPACE characters, respectively, but MUST NOT be so represented at the end of an encoded line. Any TAB (HT) or SPACE characters on an encoded line MUST thus be followed on that line by a printable character. In particular, an "=" at the end of an encoded line, indicating a soft line break (see rule #5) may follow one or more TAB (HT) or SPACE characters. It follows that an octet with decimal value 9 or 32 appearing at the end of an encoded line must be represented according to Rule #1. This rule is necessary because some MTAs (Message Transport Agents, programs which transport messages from one user to another, or perform a portion of such transfers) are known to pad lines of text with SPACEs, and others are known to remove "white space" characters from the end of a line. Therefore, when decoding a Quoted-Printable body, any trailing white space on a line must be deleted, as it will necessarily have been added by intermediate transport agents. */ $HT = chr(0x09); //9 $SPACE = chr(0x20); //32 //HT $string = 'a' . $HT . $HT . "\r\n" . 'b'; $seq = $this->_mockery()->sequence('byte-sequence'); $charStream = $this->_createCharStream(); $this->_checking(Expectations::create() -> one($charStream)->flushContents() -> one($charStream)->importString($string) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('a'))) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x09)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x09)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0D)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0A)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('b'))) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(false) ); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual( 'a' . $HT . '=09' . "\r\n" . 'b', $encoder->encodeString($string) ); //SPACE $string = 'a' . $SPACE . $SPACE . "\r\n" . 'b'; $seq = $this->_mockery()->sequence('byte-sequence'); $charStream = $this->_createCharStream(); $this->_checking(Expectations::create() -> one($charStream)->flushContents() -> one($charStream)->importString($string) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('a'))) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x20)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x20)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0D)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0A)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('b'))) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(false) ); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual( 'a' . $SPACE . '=20' . "\r\n" . 'b', $encoder->encodeString($string) ); } public function testCRLFIsLeftAlone() { /* (4) (Line Breaks) A line break in a text body, represented as a CRLF sequence in the text canonical form, must be represented by a (RFC 822) line break, which is also a CRLF sequence, in the Quoted-Printable encoding. Since the canonical representation of media types other than text do not generally include the representation of line breaks as CRLF sequences, no hard line breaks (i.e. line breaks that are intended to be meaningful and to be displayed to the user) can occur in the quoted-printable encoding of such types. Sequences like "=0D", "=0A", "=0A=0D" and "=0D=0A" will routinely appear in non-text data represented in quoted- printable, of course. Note that many implementations may elect to encode the local representation of various content types directly rather than converting to canonical form first, encoding, and then converting back to local representation. In particular, this may apply to plain text material on systems that use newline conventions other than a CRLF terminator sequence. Such an implementation optimization is permissible, but only when the combined canonicalization-encoding step is equivalent to performing the three steps separately. */ $string = 'a' . "\r\n" . 'b' . "\r\n" . 'c' . "\r\n"; $seq = $this->_mockery()->sequence('byte-sequence'); $charStream = $this->_createCharStream(); $this->_checking(Expectations::create() -> one($charStream)->flushContents() -> one($charStream)->importString($string) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('a'))) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0D)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0A)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('b'))) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0D)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0A)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('c'))) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0D)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(0x0A)) -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(false) ); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual($string, $encoder->encodeString($string)); } public function testLinesLongerThan76CharactersAreSoftBroken() { /* (5) (Soft Line Breaks) The Quoted-Printable encoding REQUIRES that encoded lines be no more than 76 characters long. If longer lines are to be encoded with the Quoted-Printable encoding, "soft" line breaks must be used. An equal sign as the last character on a encoded line indicates such a non-significant ("soft") line break in the encoded text. */ $input = str_repeat('a', 140); $charStream = $this->_createCharStream(); $seq = $this->_mockery()->sequence('byte-sequence'); $exps = Expectations::create(); $exps -> one($charStream)->flushContents() -> one($charStream)->importString($input) ; $output = ''; for ($i = 0; $i < 140; ++$i) { $exps -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('a'))); if (75 == $i) { $output .= "=\r\n"; } $output .= 'a'; } $exps -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(false); $this->_checking($exps); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual($output, $encoder->encodeString($input)); } public function testMaxLineLengthCanBeSpecified() { $input = str_repeat('a', 100); $charStream = $this->_createCharStream(); $seq = $this->_mockery()->sequence('byte-sequence'); $exps = Expectations::create(); $exps -> one($charStream)->flushContents() -> one($charStream)->importString($input) ; $output = ''; for ($i = 0; $i < 100; ++$i) { $exps -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('a'))); if (53 == $i) { $output .= "=\r\n"; } $output .= 'a'; } $exps -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(false); $this->_checking($exps); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual($output, $encoder->encodeString($input, 0, 54)); } public function testBytesBelowPermittedRangeAreEncoded() { /* According to Rule (1 & 2) */ foreach (range(0, 32) as $ordinal) { $char = chr($ordinal); $charStream = $this->_createCharStream(); $this->_checking(Expectations::create() -> one($charStream)->flushContents() -> one($charStream)->importString($char) -> one($charStream)->readBytes(optional()) -> returns(array($ordinal)) -> atLeast(1)->of($charStream)->readBytes(optional()) -> returns(false) ); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual( sprintf('=%02X', $ordinal), $encoder->encodeString($char) ); } } public function testDecimalByte61IsEncoded() { /* According to Rule (1 & 2) */ $char = '='; $charStream = $this->_createCharStream(); $this->_checking(Expectations::create() -> one($charStream)->flushContents() -> one($charStream)->importString($char) -> one($charStream)->readBytes(optional()) -> returns(array(61)) -> atLeast(1)->of($charStream)->readBytes(optional()) -> returns(false) ); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual('=3D', $encoder->encodeString('=')); } public function testBytesAbovePermittedRangeAreEncoded() { /* According to Rule (1 & 2) */ foreach (range(127, 255) as $ordinal) { $char = chr($ordinal); $charStream = $this->_createCharStream(); $this->_checking(Expectations::create() -> one($charStream)->flushContents() -> one($charStream)->importString($char) -> one($charStream)->readBytes(optional()) -> returns(array($ordinal)) -> atLeast(1)->of($charStream)->readBytes(optional()) -> returns(false) ); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual( sprintf('=%02X', $ordinal), $encoder->encodeString($char) ); } } public function testFirstLineLengthCanBeDifferent() { $input = str_repeat('a', 140); $charStream = $this->_createCharStream(); $seq = $this->_mockery()->sequence('byte-sequence'); $exps = Expectations::create(); $exps -> one($charStream)->flushContents(); $exps -> one($charStream)->importString($input); $output = ''; for ($i = 0; $i < 140; ++$i) { $exps -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(array(ord('a'))); if (53 == $i || 53 + 75 == $i) { $output .= "=\r\n"; } $output .= 'a'; } $exps -> one($charStream)->readBytes(optional()) -> inSequence($seq) -> returns(false); $this->_checking($exps); $encoder = new Swift_Encoder_QpEncoder($charStream); $this->assertEqual( $output, $encoder->encodeString($input, 22), '%s: First line should start at offset 22 so can only have max length 54' ); } // -- Creation methods private function _createCharStream() { return $this->_mock('Swift_CharacterStream'); } }