$captcha_sid) )->fetchField(); // Only generate captcha if code exists in the session. if ($code !== FALSE) { // Seed the random generators used for image CAPTCHA distortion based on session and code // to counter attacks that re-request the same challenge and pick the simplest image one or combine info. $seed = (int) hexdec(substr(md5($captcha_sid . $code), 0, 8)); srand($seed); mt_srand($seed); // Generate the image. $image = @_image_captcha_generate_image($code); // Check of generation was successful. if (!$image) { watchdog('CAPTCHA', 'Generation of image CAPTCHA failed. Check your image CAPTCHA configuration and especially the used font.', array(), WATCHDOG_ERROR); exit(); } // Send the image resource as an image file to the client. $file_format = variable_get('image_captcha_file_format', IMAGE_CAPTCHA_FILE_FORMAT_JPG); if ($file_format == IMAGE_CAPTCHA_FILE_FORMAT_JPG) { drupal_add_http_header('Content-Type', 'image/jpeg'); imagejpeg($image); } else { drupal_add_http_header('Content-Type', 'image/png'); imagepng($image); } // Clean up the image resource. imagedestroy($image); } exit(); } /** * Small helper function for parsing a hexadecimal color to a RGB tuple. */ function _image_captcha_hex_to_rgb($hex) { // Handle #RGB format/ if (strlen($hex) == 4) { $hex = $hex[1] . $hex[1] . $hex[2] . $hex[2] . $hex[3] . $hex[3]; } $c = hexdec($hex); $rgb = array(); for ($i = 16; $i >= 0; $i -= 8) { $rgb[] = ($c >> $i) & 0xFF; } return $rgb; } /** * Base function for generating a image CAPTCHA. */ function _image_captcha_generate_image($code) { // Get font. $fonts = _image_captcha_get_enabled_fonts(); // Get other settings. $font_size = (int) variable_get('image_captcha_font_size', 30); list($width, $height) = _image_captcha_image_size($code); // Create image resource. $image = imagecreatetruecolor($width, $height); if (!$image) { return FALSE; } // Get the background color and paint the background. $background_rgb = _image_captcha_hex_to_rgb(variable_get('image_captcha_background_color', '#ffffff')); $background_color = imagecolorallocate($image, $background_rgb[0], $background_rgb[1], $background_rgb[2]); // Set transparency if needed. $file_format = variable_get('image_captcha_file_format', IMAGE_CAPTCHA_FILE_FORMAT_JPG); if ($file_format == IMAGE_CAPTCHA_FILE_FORMAT_TRANSPARENT_PNG) { imagecolortransparent($image, $background_color); } imagefilledrectangle($image, 0, 0, $width, $height, $background_color); // Do we need to draw in RTL mode? global $language; $rtl = $language->direction && ((bool) variable_get('image_captcha_rtl_support', 0)); // Draw text. $result = _image_captcha_image_generator_print_string($image, $width, $height, $fonts, $font_size, $code, $rtl); if (!$result) { return FALSE; } // Add noise. $noise_colors = array(); for ($i = 0; $i < 20; $i++) { $noise_colors[] = imagecolorallocate($image, mt_rand(0, 255), mt_rand(0, 255), mt_rand(0, 255)); } // Add additional noise. if (variable_get('image_captcha_dot_noise', 0)) { _image_captcha_image_generator_add_dots($image, $width, $height, $noise_colors); } if (variable_get('image_captcha_line_noise', 0)) { _image_captcha_image_generator_add_lines($image, $width, $height, $noise_colors); } // Distort the image. $distortion_amplitude = .25 * $font_size * variable_get('image_captcha_distortion_amplitude', 0) / 10.0; if ($distortion_amplitude > 1) { // Distortion parameters. $wavelength_xr = (2 + 3 * mt_rand(0, 1000) / 1000) * $font_size; $wavelength_yr = (2 + 3 * mt_rand(0, 1000) / 1000) * $font_size; $freq_xr = 2 * 3.141592 / $wavelength_xr; $freq_yr = 2 * 3.141592 / $wavelength_yr; $wavelength_xt = (2 + 3 * mt_rand(0, 1000) / 1000) * $font_size; $wavelength_yt = (2 + 3 * mt_rand(0, 1000) / 1000) * $font_size; $freq_xt = 2 * 3.141592 / $wavelength_xt; $freq_yt = 2 * 3.141592 / $wavelength_yt; $distorted_image = imagecreatetruecolor($width, $height); if ($file_format == IMAGE_CAPTCHA_FILE_FORMAT_TRANSPARENT_PNG) { imagecolortransparent($distorted_image, $background_color); } if (!$distorted_image) { return FALSE; } if (variable_get('image_captcha_bilinear_interpolation', FALSE)) { // Distortion with bilinear interpolation. for ($x = 0; $x < $width; $x++) { for ($y = 0; $y < $height; $y++) { // Get distorted sample point in source image. $r = $distortion_amplitude * sin($x * $freq_xr + $y * $freq_yr); $theta = $x * $freq_xt + $y * $freq_yt; $sx = $x + $r * cos($theta); $sy = $y + $r * sin($theta); $sxf = (int) floor($sx); $syf = (int) floor($sy); if ($sxf < 0 || $syf < 0 || $sxf >= $width - 1 || $syf >= $height - 1) { $color = $background_color; } else { // Bilinear interpolation: sample at four corners. $color_00 = imagecolorat($image, $sxf, $syf); $color_00_r = ($color_00 >> 16) & 0xFF; $color_00_g = ($color_00 >> 8) & 0xFF; $color_00_b = $color_00 & 0xFF; $color_10 = imagecolorat($image, $sxf + 1, $syf); $color_10_r = ($color_10 >> 16) & 0xFF; $color_10_g = ($color_10 >> 8) & 0xFF; $color_10_b = $color_10 & 0xFF; $color_01 = imagecolorat($image, $sxf, $syf + 1); $color_01_r = ($color_01 >> 16) & 0xFF; $color_01_g = ($color_01 >> 8) & 0xFF; $color_01_b = $color_01 & 0xFF; $color_11 = imagecolorat($image, $sxf + 1, $syf + 1); $color_11_r = ($color_11 >> 16) & 0xFF; $color_11_g = ($color_11 >> 8) & 0xFF; $color_11_b = $color_11 & 0xFF; // Interpolation factors. $u = $sx - $sxf; $v = $sy - $syf; // Interpolate. $r = (int) ((1 - $v) * ((1 - $u) * $color_00_r + $u * $color_10_r) + $v * ((1 - $u) * $color_01_r + $u * $color_11_r)); $g = (int) ((1 - $v) * ((1 - $u) * $color_00_g + $u * $color_10_g) + $v * ((1 - $u) * $color_01_g + $u * $color_11_g)); $b = (int) ((1 - $v) * ((1 - $u) * $color_00_b + $u * $color_10_b) + $v * ((1 - $u) * $color_01_b + $u * $color_11_b)); // Build color. $color = ($r<<16) + ($g<<8) + $b; } imagesetpixel($distorted_image, $x, $y, $color); } } } else { // Distortion with nearest neighbor interpolation. for ($x = 0; $x < $width; $x++) { for ($y = 0; $y < $height; $y++) { // Get distorted sample point in source image. $r = $distortion_amplitude * sin($x * $freq_xr + $y * $freq_yr); $theta = $x * $freq_xt + $y * $freq_yt; $sx = $x + $r * cos($theta); $sy = $y + $r * sin($theta); $sxf = (int) floor($sx); $syf = (int) floor($sy); if ($sxf < 0 || $syf < 0 || $sxf >= $width - 1 || $syf >= $height - 1) { $color = $background_color; } else { $color = imagecolorat($image, $sxf, $syf); } imagesetpixel($distorted_image, $x, $y, $color); } } } // Release undistorted image. imagedestroy($image); // Return distorted image. return $distorted_image; } else { return $image; } } /** * Add lines. */ function _image_captcha_image_generator_add_lines(&$image, $width, $height, $colors) { $line_quantity = $width * $height / 200.0 * ((int) variable_get('image_captcha_noise_level', 5)) / 10.0; for ($i = 0; $i < $line_quantity; $i++) { imageline($image, mt_rand(0, $width), mt_rand(0, $height), mt_rand(0, $width), mt_rand(0, $height), $colors[array_rand($colors)]); } } /** * Add dots. */ function _image_captcha_image_generator_add_dots(&$image, $width, $height, $colors) { $noise_quantity = $width * $height * ((int) variable_get('image_captcha_noise_level', 5)) / 10.0; for ($i = 0; $i < $noise_quantity; $i++) { imagesetpixel($image, mt_rand(0, $width), mt_rand(0, $height), $colors[array_rand($colors)]); } } /** * Helper function for drawing text on the image. */ function _image_captcha_image_generator_print_string(&$image, $width, $height, $fonts, $font_size, $text, $rtl = FALSE) { // Get characters. $characters = _image_captcha_utf8_split($text); $character_quantity = count($characters); // Get colors. $background_rgb = _image_captcha_hex_to_rgb(variable_get('image_captcha_background_color', '#ffffff')); $foreground_rgb = _image_captcha_hex_to_rgb(variable_get('image_captcha_foreground_color', '#000000')); $background_color = imagecolorallocate($image, $background_rgb[0], $background_rgb[1], $background_rgb[2]); $foreground_color = imagecolorallocate($image, $foreground_rgb[0], $foreground_rgb[1], $foreground_rgb[2]); // Precalculate the value ranges for color randomness. $foreground_randomness = (int) (variable_get('image_captcha_foreground_color_randomness', 100)); if ($foreground_randomness) { $foreground_color_range = array(); for ($i = 0; $i < 3; $i++) { $foreground_color_range[$i] = array( max(0, $foreground_rgb[$i] - $foreground_randomness), min(255, $foreground_rgb[$i] + $foreground_randomness), ); } } // Set default text color. $color = $foreground_color; // The image is seperated in different character cages, one for each character, // each character will be somewhere inside that cage. $ccage_width = $width / $character_quantity; $ccage_height = $height; foreach ($characters as $c => $character) { // Initial position of character: in the center of its cage. $center_x = ($c + 0.5) * $ccage_width; if ($rtl) { $center_x = $width - $center_x; } $center_y = 0.5 * $height; // Pick a random font from the list. $font = $fonts[array_rand($fonts)]; // Get character dimensions for TrueType fonts. if ($font != 'BUILTIN') { $bbox = imagettfbbox($font_size, 0, drupal_realpath($font), $character); // In very rare cases with some versions of the GD library, the x-value // of the left side of the bounding box as returned by the first call of // imagettfbbox is corrupt (value -2147483648 = 0x80000000). // The weird thing is that calling the function a second time // can be used as workaround. // This issue is discussed at http://drupal.org/node/349218. if ($bbox[2] < 0) { $bbox = imagettfbbox($font_size, 0, drupal_realpath($font), $character); } } else { $character_width = imagefontwidth(5); $character_height = imagefontheight(5); $bbox = array( 0, $character_height, $character_width, $character_height, $character_width, 0, 0, 0, ); } // Random (but small) rotation of the character. // TODO: add a setting for this? $angle = mt_rand(-10, 10); // Determine print position: at what coordinate should the character be // printed so that the bounding box would be nicely centered in the cage? $bb_center_x = .5 * ($bbox[0] + $bbox[2]); $bb_center_y = .5 * ($bbox[1] + $bbox[7]); $angle_cos = cos($angle * 3.1415 / 180); $angle_sin = sin($angle * 3.1415 / 180); $pos_x = $center_x - ($angle_cos * $bb_center_x + $angle_sin * $bb_center_y); $pos_y = $center_y - (-$angle_sin * $bb_center_x + $angle_cos * $bb_center_y); // Calculate available room to jitter: how much can the character be moved // so that it stays inside its cage? $bb_width = $bbox[2] - $bbox[0]; $bb_height = $bbox[1] - $bbox[7]; $dev_x = .5 * max(0, $ccage_width - abs($angle_cos) * $bb_width - abs($angle_sin) * $bb_height); $dev_y = .5 * max(0, $ccage_height - abs($angle_cos) * $bb_height - abs($angle_sin) * $bb_width); // Add jitter to position. $pos_x = $pos_x + mt_rand(-$dev_x, $dev_x); $pos_y = $pos_y + mt_rand(-$dev_y, $dev_y); // Calculate text color in case of randomness. if ($foreground_randomness) { $color = imagecolorallocate($image, mt_rand($foreground_color_range[0][0], $foreground_color_range[0][1]), mt_rand($foreground_color_range[1][0], $foreground_color_range[1][1]), mt_rand($foreground_color_range[2][0], $foreground_color_range[2][1]) ); } // Draw character. if ($font == 'BUILTIN') { imagestring($image, 5, $pos_x, $pos_y, $character, $color); } else { imagettftext($image, $font_size, $angle, $pos_x, $pos_y, $color, drupal_realpath($font), $character); } // For debugging purposes: draw character bounding box (only valid when rotation is disabled). // imagerectangle($image, $pos_x + $bbox[0], $pos_y + $bbox[1], $pos_x + $bbox[2], $pos_y + $bbox[7], $color); } // Return a sign of success. return TRUE; }