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<?php declare(strict_types=1); namespace GuzzleHttp\Psr7; use InvalidArgumentException; use Psr\Http\Message\ServerRequestInterface; use Psr\Http\Message\StreamInterface; use Psr\Http\Message\UploadedFileInterface; use Psr\Http\Message\UriInterface; /** * Server-side HTTP request * * Extends the Request definition to add methods for accessing incoming data, * specifically server parameters, cookies, matched path parameters, query * string arguments, body parameters, and upload file information. * * "Attributes" are discovered via decomposing the request (and usually * specifically the URI path), and typically will be injected by the application. * * Requests are considered immutable; all methods that might change state are * implemented such that they retain the internal state of the current * message and return a new instance that contains the changed state. */ class ServerRequest extends Request implements ServerRequestInterface { /** * @var array */ private $attributes = []; /** * @var array */ private $cookieParams = []; /** * @var array|object|null */ private $parsedBody; /** * @var array */ private $queryParams = []; /** * @var array */ private $serverParams; /** * @var array */ private $uploadedFiles = []; /** * @param string $method HTTP method * @param string|UriInterface $uri URI * @param (string|string[])[] $headers Request headers * @param string|resource|StreamInterface|null $body Request body * @param string $version Protocol version * @param array $serverParams Typically the $_SERVER superglobal */ public function __construct( string $method, $uri, array $headers = [], $body = null, string $version = '1.1', array $serverParams = [] ) { $this->serverParams = $serverParams; parent::__construct($method, $uri, $headers, $body, $version); } /** * Return an UploadedFile instance array. * * @param array $files An array which respect $_FILES structure * * @throws InvalidArgumentException for unrecognized values */ public static function normalizeFiles(array $files): array { $normalized = []; foreach ($files as $key => $value) { if ($value instanceof UploadedFileInterface) { $normalized[$key] = $value; } elseif (is_array($value) && isset($value['tmp_name'])) { $normalized[$key] = self::createUploadedFileFromSpec($value); } elseif (is_array($value)) { $normalized[$key] = self::normalizeFiles($value); continue; } else { throw new InvalidArgumentException('Invalid value in files specification'); } } return $normalized; } /** * Create and return an UploadedFile instance from a $_FILES specification. * * If the specification represents an array of values, this method will * delegate to normalizeNestedFileSpec() and return that return value. * * @param array $value $_FILES struct * * @return UploadedFileInterface|UploadedFileInterface[] */ private static function createUploadedFileFromSpec(array $value) { if (is_array($value['tmp_name'])) { return self::normalizeNestedFileSpec($value); } return new UploadedFile( $value['tmp_name'], (int) $value['size'], (int) $value['error'], $value['name'], $value['type'] ); } /** * Normalize an array of file specifications. * * Loops through all nested files and returns a normalized array of * UploadedFileInterface instances. * * @return UploadedFileInterface[] */ private static function normalizeNestedFileSpec(array $files = []): array { $normalizedFiles = []; foreach (array_keys($files['tmp_name']) as $key) { $spec = [ 'tmp_name' => $files['tmp_name'][$key], 'size' => $files['size'][$key] ?? null, 'error' => $files['error'][$key] ?? null, 'name' => $files['name'][$key] ?? null, 'type' => $files['type'][$key] ?? null, ]; $normalizedFiles[$key] = self::createUploadedFileFromSpec($spec); } return $normalizedFiles; } /** * Return a ServerRequest populated with superglobals: * $_GET * $_POST * $_COOKIE * $_FILES * $_SERVER */ public static function fromGlobals(): ServerRequestInterface { $method = $_SERVER['REQUEST_METHOD'] ?? 'GET'; $headers = getallheaders(); $uri = self::getUriFromGlobals(); $body = new CachingStream(new LazyOpenStream('php://input', 'r+')); $protocol = isset($_SERVER['SERVER_PROTOCOL']) ? str_replace('HTTP/', '', $_SERVER['SERVER_PROTOCOL']) : '1.1'; $serverRequest = new ServerRequest($method, $uri, $headers, $body, $protocol, $_SERVER); return $serverRequest ->withCookieParams($_COOKIE) ->withQueryParams($_GET) ->withParsedBody($_POST) ->withUploadedFiles(self::normalizeFiles($_FILES)); } private static function extractHostAndPortFromAuthority(string $authority): array { $uri = 'http://'.$authority; $parts = parse_url($uri); if (false === $parts) { return [null, null]; } $host = $parts['host'] ?? null; $port = $parts['port'] ?? null; return [$host, $port]; } /** * Get a Uri populated with values from $_SERVER. */ public static function getUriFromGlobals(): UriInterface { $uri = new Uri(''); $uri = $uri->withScheme(!empty($_SERVER['HTTPS']) && $_SERVER['HTTPS'] !== 'off' ? 'https' : 'http'); $hasPort = false; if (isset($_SERVER['HTTP_HOST'])) { [$host, $port] = self::extractHostAndPortFromAuthority($_SERVER['HTTP_HOST']); if ($host !== null) { $uri = $uri->withHost($host); } if ($port !== null) { $hasPort = true; $uri = $uri->withPort($port); } } elseif (isset($_SERVER['SERVER_NAME'])) { $uri = $uri->withHost($_SERVER['SERVER_NAME']); } elseif (isset($_SERVER['SERVER_ADDR'])) { $uri = $uri->withHost($_SERVER['SERVER_ADDR']); } if (!$hasPort && isset($_SERVER['SERVER_PORT'])) { $uri = $uri->withPort($_SERVER['SERVER_PORT']); } $hasQuery = false; if (isset($_SERVER['REQUEST_URI'])) { $requestUriParts = explode('?', $_SERVER['REQUEST_URI'], 2); $uri = $uri->withPath($requestUriParts[0]); if (isset($requestUriParts[1])) { $hasQuery = true; $uri = $uri->withQuery($requestUriParts[1]); } } if (!$hasQuery && isset($_SERVER['QUERY_STRING'])) { $uri = $uri->withQuery($_SERVER['QUERY_STRING']); } return $uri; } public function getServerParams(): array { return $this->serverParams; } public function getUploadedFiles(): array { return $this->uploadedFiles; } public function withUploadedFiles(array $uploadedFiles): ServerRequestInterface { $new = clone $this; $new->uploadedFiles = $uploadedFiles; return $new; } public function getCookieParams(): array { return $this->cookieParams; } public function withCookieParams(array $cookies): ServerRequestInterface { $new = clone $this; $new->cookieParams = $cookies; return $new; } public function getQueryParams(): array { return $this->queryParams; } public function withQueryParams(array $query): ServerRequestInterface { $new = clone $this; $new->queryParams = $query; return $new; } /** * @return array|object|null */ public function getParsedBody() { return $this->parsedBody; } public function withParsedBody($data): ServerRequestInterface { $new = clone $this; $new->parsedBody = $data; return $new; } public function getAttributes(): array { return $this->attributes; } /** * @return mixed */ public function getAttribute($attribute, $default = null) { if (false === array_key_exists($attribute, $this->attributes)) { return $default; } return $this->attributes[$attribute]; } public function withAttribute($attribute, $value): ServerRequestInterface { $new = clone $this; $new->attributes[$attribute] = $value; return $new; } public function withoutAttribute($attribute): ServerRequestInterface { if (false === array_key_exists($attribute, $this->attributes)) { return $this; } $new = clone $this; unset($new->attributes[$attribute]); return $new; } }

Enhancing Payment Security: The Role of Encryption and Tokenization in Digital Transactions

As digital transactions proliferate, ensuring robust payment security is more critical than ever. Two foundational technologies that are pivotal in this effort are encryption and tokenization.
Encryption is a process that transforms data into a secure format, known as ciphertext, which can only be deciphered using a specific decryption key. This means that even if data is intercepted during transmission, it remains unreadable and protected from unauthorized access. Encryption is essential in safeguarding sensitive payment information, such as credit card details and personal data, during online transactions.
Tokenization, on the other hand, involves substituting sensitive data with unique identifiers or "tokens." These tokens serve as placeholders and have no value outside of the specific transaction context. If intercepted, tokens are meaningless and cannot be used to access the original sensitive data. This method significantly reduces the risk of fraud and data breaches, as the actual payment information is not stored or transmitted.
Together, encryption and tokenization form a powerful security framework. Encryption ensures that data is protected during transmission, while tokenization minimizes the risk of exposing sensitive information by replacing it with secure, non-sensitive tokens.
These technologies are integral to modern payment platforms, providing a robust defense against cyber threats. By implementing advanced encryption and tokenization techniques, businesses can enhance the security of digital transactions, ensuring that users' financial and personal information remains safe. This comprehensive approach not only builds user trust but also fortifies the overall security infrastructure of digital payment systems. As cyber threats evolve, the continued advancement of encryption and tokenization will be crucial in maintaining secure and reliable payment processes.

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