/home/kueuepay/public_html/vendor/paragonie/sodium_compat/src/Core/Util.php
<?php
if (class_exists('ParagonIE_Sodium_Core_Util', false)) {
return;
}
/**
* Class ParagonIE_Sodium_Core_Util
*/
abstract class ParagonIE_Sodium_Core_Util
{
/**
* @param int $integer
* @param int $size (16, 32, 64)
* @return int
*/
public static function abs($integer, $size = 0)
{
/** @var int $realSize */
$realSize = (PHP_INT_SIZE << 3) - 1;
if ($size) {
--$size;
} else {
/** @var int $size */
$size = $realSize;
}
$negative = -(($integer >> $size) & 1);
return (int) (
($integer ^ $negative)
+
(($negative >> $realSize) & 1)
);
}
/**
* Convert a binary string into a hexadecimal string without cache-timing
* leaks
*
* @internal You should not use this directly from another application
*
* @param string $binaryString (raw binary)
* @return string
* @throws TypeError
*/
public static function bin2hex($binaryString)
{
/* Type checks: */
if (!is_string($binaryString)) {
throw new TypeError('Argument 1 must be a string, ' . gettype($binaryString) . ' given.');
}
$hex = '';
$len = self::strlen($binaryString);
for ($i = 0; $i < $len; ++$i) {
/** @var array<int, int> $chunk */
$chunk = unpack('C', $binaryString[$i]);
/** @var int $c */
$c = $chunk[1] & 0xf;
/** @var int $b */
$b = $chunk[1] >> 4;
$hex .= pack(
'CC',
(87 + $b + ((($b - 10) >> 8) & ~38)),
(87 + $c + ((($c - 10) >> 8) & ~38))
);
}
return $hex;
}
/**
* Convert a binary string into a hexadecimal string without cache-timing
* leaks, returning uppercase letters (as per RFC 4648)
*
* @internal You should not use this directly from another application
*
* @param string $bin_string (raw binary)
* @return string
* @throws TypeError
*/
public static function bin2hexUpper($bin_string)
{
$hex = '';
$len = self::strlen($bin_string);
for ($i = 0; $i < $len; ++$i) {
/** @var array<int, int> $chunk */
$chunk = unpack('C', $bin_string[$i]);
/**
* Lower 16 bits
*
* @var int $c
*/
$c = $chunk[1] & 0xf;
/**
* Upper 16 bits
* @var int $b
*/
$b = $chunk[1] >> 4;
/**
* Use pack() and binary operators to turn the two integers
* into hexadecimal characters. We don't use chr() here, because
* it uses a lookup table internally and we want to avoid
* cache-timing side-channels.
*/
$hex .= pack(
'CC',
(55 + $b + ((($b - 10) >> 8) & ~6)),
(55 + $c + ((($c - 10) >> 8) & ~6))
);
}
return $hex;
}
/**
* Cache-timing-safe variant of ord()
*
* @internal You should not use this directly from another application
*
* @param string $chr
* @return int
* @throws SodiumException
* @throws TypeError
*/
public static function chrToInt($chr)
{
/* Type checks: */
if (!is_string($chr)) {
throw new TypeError('Argument 1 must be a string, ' . gettype($chr) . ' given.');
}
if (self::strlen($chr) !== 1) {
throw new SodiumException('chrToInt() expects a string that is exactly 1 character long');
}
/** @var array<int, int> $chunk */
$chunk = unpack('C', $chr);
return (int) ($chunk[1]);
}
/**
* Compares two strings.
*
* @internal You should not use this directly from another application
*
* @param string $left
* @param string $right
* @param int $len
* @return int
* @throws SodiumException
* @throws TypeError
*/
public static function compare($left, $right, $len = null)
{
$leftLen = self::strlen($left);
$rightLen = self::strlen($right);
if ($len === null) {
$len = max($leftLen, $rightLen);
$left = str_pad($left, $len, "\x00", STR_PAD_RIGHT);
$right = str_pad($right, $len, "\x00", STR_PAD_RIGHT);
}
$gt = 0;
$eq = 1;
$i = $len;
while ($i !== 0) {
--$i;
$gt |= ((self::chrToInt($right[$i]) - self::chrToInt($left[$i])) >> 8) & $eq;
$eq &= ((self::chrToInt($right[$i]) ^ self::chrToInt($left[$i])) - 1) >> 8;
}
return ($gt + $gt + $eq) - 1;
}
/**
* If a variable does not match a given type, throw a TypeError.
*
* @param mixed $mixedVar
* @param string $type
* @param int $argumentIndex
* @throws TypeError
* @throws SodiumException
* @return void
*/
public static function declareScalarType(&$mixedVar = null, $type = 'void', $argumentIndex = 0)
{
if (func_num_args() === 0) {
/* Tautology, by default */
return;
}
if (func_num_args() === 1) {
throw new TypeError('Declared void, but passed a variable');
}
$realType = strtolower(gettype($mixedVar));
$type = strtolower($type);
switch ($type) {
case 'null':
if ($mixedVar !== null) {
throw new TypeError('Argument ' . $argumentIndex . ' must be null, ' . $realType . ' given.');
}
break;
case 'integer':
case 'int':
$allow = array('int', 'integer');
if (!in_array($type, $allow)) {
throw new TypeError('Argument ' . $argumentIndex . ' must be an integer, ' . $realType . ' given.');
}
$mixedVar = (int) $mixedVar;
break;
case 'boolean':
case 'bool':
$allow = array('bool', 'boolean');
if (!in_array($type, $allow)) {
throw new TypeError('Argument ' . $argumentIndex . ' must be a boolean, ' . $realType . ' given.');
}
$mixedVar = (bool) $mixedVar;
break;
case 'string':
if (!is_string($mixedVar)) {
throw new TypeError('Argument ' . $argumentIndex . ' must be a string, ' . $realType . ' given.');
}
$mixedVar = (string) $mixedVar;
break;
case 'decimal':
case 'double':
case 'float':
$allow = array('decimal', 'double', 'float');
if (!in_array($type, $allow)) {
throw new TypeError('Argument ' . $argumentIndex . ' must be a float, ' . $realType . ' given.');
}
$mixedVar = (float) $mixedVar;
break;
case 'object':
if (!is_object($mixedVar)) {
throw new TypeError('Argument ' . $argumentIndex . ' must be an object, ' . $realType . ' given.');
}
break;
case 'array':
if (!is_array($mixedVar)) {
if (is_object($mixedVar)) {
if ($mixedVar instanceof ArrayAccess) {
return;
}
}
throw new TypeError('Argument ' . $argumentIndex . ' must be an array, ' . $realType . ' given.');
}
break;
default:
throw new SodiumException('Unknown type (' . $realType .') does not match expect type (' . $type . ')');
}
}
/**
* Evaluate whether or not two strings are equal (in constant-time)
*
* @param string $left
* @param string $right
* @return bool
* @throws SodiumException
* @throws TypeError
*/
public static function hashEquals($left, $right)
{
/* Type checks: */
if (!is_string($left)) {
throw new TypeError('Argument 1 must be a string, ' . gettype($left) . ' given.');
}
if (!is_string($right)) {
throw new TypeError('Argument 2 must be a string, ' . gettype($right) . ' given.');
}
if (is_callable('hash_equals')) {
return hash_equals($left, $right);
}
$d = 0;
/** @var int $len */
$len = self::strlen($left);
if ($len !== self::strlen($right)) {
return false;
}
for ($i = 0; $i < $len; ++$i) {
$d |= self::chrToInt($left[$i]) ^ self::chrToInt($right[$i]);
}
if ($d !== 0) {
return false;
}
return $left === $right;
}
/**
* Catch hash_update() failures and throw instead of silently proceeding
*
* @param HashContext|resource &$hs
* @param string $data
* @return void
* @throws SodiumException
* @psalm-suppress PossiblyInvalidArgument
*/
protected static function hash_update(&$hs, $data)
{
if (!hash_update($hs, $data)) {
throw new SodiumException('hash_update() failed');
}
}
/**
* Convert a hexadecimal string into a binary string without cache-timing
* leaks
*
* @internal You should not use this directly from another application
*
* @param string $hexString
* @param string $ignore
* @param bool $strictPadding
* @return string (raw binary)
* @throws RangeException
* @throws TypeError
*/
public static function hex2bin($hexString, $ignore = '', $strictPadding = false)
{
/* Type checks: */
if (!is_string($hexString)) {
throw new TypeError('Argument 1 must be a string, ' . gettype($hexString) . ' given.');
}
if (!is_string($ignore)) {
throw new TypeError('Argument 2 must be a string, ' . gettype($hexString) . ' given.');
}
$hex_pos = 0;
$bin = '';
$c_acc = 0;
$hex_len = self::strlen($hexString);
$state = 0;
if (($hex_len & 1) !== 0) {
if ($strictPadding) {
throw new RangeException(
'Expected an even number of hexadecimal characters'
);
} else {
$hexString = '0' . $hexString;
++$hex_len;
}
}
$chunk = unpack('C*', $hexString);
while ($hex_pos < $hex_len) {
++$hex_pos;
/** @var int $c */
$c = $chunk[$hex_pos];
$c_num = $c ^ 48;
$c_num0 = ($c_num - 10) >> 8;
$c_alpha = ($c & ~32) - 55;
$c_alpha0 = (($c_alpha - 10) ^ ($c_alpha - 16)) >> 8;
if (($c_num0 | $c_alpha0) === 0) {
if ($ignore && $state === 0 && strpos($ignore, self::intToChr($c)) !== false) {
continue;
}
throw new RangeException(
'hex2bin() only expects hexadecimal characters'
);
}
$c_val = ($c_num0 & $c_num) | ($c_alpha & $c_alpha0);
if ($state === 0) {
$c_acc = $c_val * 16;
} else {
$bin .= pack('C', $c_acc | $c_val);
}
$state ^= 1;
}
return $bin;
}
/**
* Turn an array of integers into a string
*
* @internal You should not use this directly from another application
*
* @param array<int, int> $ints
* @return string
*/
public static function intArrayToString(array $ints)
{
$args = $ints;
foreach ($args as $i => $v) {
$args[$i] = (int) ($v & 0xff);
}
array_unshift($args, str_repeat('C', count($ints)));
return (string) (call_user_func_array('pack', $args));
}
/**
* Cache-timing-safe variant of ord()
*
* @internal You should not use this directly from another application
*
* @param int $int
* @return string
* @throws TypeError
*/
public static function intToChr($int)
{
return pack('C', $int);
}
/**
* Load a 3 character substring into an integer
*
* @internal You should not use this directly from another application
*
* @param string $string
* @return int
* @throws RangeException
* @throws TypeError
*/
public static function load_3($string)
{
/* Type checks: */
if (!is_string($string)) {
throw new TypeError('Argument 1 must be a string, ' . gettype($string) . ' given.');
}
/* Input validation: */
if (self::strlen($string) < 3) {
throw new RangeException(
'String must be 3 bytes or more; ' . self::strlen($string) . ' given.'
);
}
/** @var array<int, int> $unpacked */
$unpacked = unpack('V', $string . "\0");
return (int) ($unpacked[1] & 0xffffff);
}
/**
* Load a 4 character substring into an integer
*
* @internal You should not use this directly from another application
*
* @param string $string
* @return int
* @throws RangeException
* @throws TypeError
*/
public static function load_4($string)
{
/* Type checks: */
if (!is_string($string)) {
throw new TypeError('Argument 1 must be a string, ' . gettype($string) . ' given.');
}
/* Input validation: */
if (self::strlen($string) < 4) {
throw new RangeException(
'String must be 4 bytes or more; ' . self::strlen($string) . ' given.'
);
}
/** @var array<int, int> $unpacked */
$unpacked = unpack('V', $string);
return (int) $unpacked[1];
}
/**
* Load a 8 character substring into an integer
*
* @internal You should not use this directly from another application
*
* @param string $string
* @return int
* @throws RangeException
* @throws SodiumException
* @throws TypeError
*/
public static function load64_le($string)
{
/* Type checks: */
if (!is_string($string)) {
throw new TypeError('Argument 1 must be a string, ' . gettype($string) . ' given.');
}
/* Input validation: */
if (self::strlen($string) < 4) {
throw new RangeException(
'String must be 4 bytes or more; ' . self::strlen($string) . ' given.'
);
}
if (PHP_VERSION_ID >= 50603 && PHP_INT_SIZE === 8) {
/** @var array<int, int> $unpacked */
$unpacked = unpack('P', $string);
return (int) $unpacked[1];
}
/** @var int $result */
$result = (self::chrToInt($string[0]) & 0xff);
$result |= (self::chrToInt($string[1]) & 0xff) << 8;
$result |= (self::chrToInt($string[2]) & 0xff) << 16;
$result |= (self::chrToInt($string[3]) & 0xff) << 24;
$result |= (self::chrToInt($string[4]) & 0xff) << 32;
$result |= (self::chrToInt($string[5]) & 0xff) << 40;
$result |= (self::chrToInt($string[6]) & 0xff) << 48;
$result |= (self::chrToInt($string[7]) & 0xff) << 56;
return (int) $result;
}
/**
* @internal You should not use this directly from another application
*
* @param string $left
* @param string $right
* @return int
* @throws SodiumException
* @throws TypeError
*/
public static function memcmp($left, $right)
{
if (self::hashEquals($left, $right)) {
return 0;
}
return -1;
}
/**
* Multiply two integers in constant-time
*
* Micro-architecture timing side-channels caused by how your CPU
* implements multiplication are best prevented by never using the
* multiplication operators and ensuring that our code always takes
* the same number of operations to complete, regardless of the values
* of $a and $b.
*
* @internal You should not use this directly from another application
*
* @param int $a
* @param int $b
* @param int $size Limits the number of operations (useful for small,
* constant operands)
* @return int
*/
public static function mul($a, $b, $size = 0)
{
if (ParagonIE_Sodium_Compat::$fastMult) {
return (int) ($a * $b);
}
static $defaultSize = null;
/** @var int $defaultSize */
if (!$defaultSize) {
/** @var int $defaultSize */
$defaultSize = (PHP_INT_SIZE << 3) - 1;
}
if ($size < 1) {
/** @var int $size */
$size = $defaultSize;
}
/** @var int $size */
$c = 0;
/**
* Mask is either -1 or 0.
*
* -1 in binary looks like 0x1111 ... 1111
* 0 in binary looks like 0x0000 ... 0000
*
* @var int
*/
$mask = -(($b >> ((int) $defaultSize)) & 1);
/**
* Ensure $b is a positive integer, without creating
* a branching side-channel
*
* @var int $b
*/
$b = ($b & ~$mask) | ($mask & -$b);
/**
* Unless $size is provided:
*
* This loop always runs 32 times when PHP_INT_SIZE is 4.
* This loop always runs 64 times when PHP_INT_SIZE is 8.
*/
for ($i = $size; $i >= 0; --$i) {
$c += (int) ($a & -($b & 1));
$a <<= 1;
$b >>= 1;
}
$c = (int) @($c & -1);
/**
* If $b was negative, we then apply the same value to $c here.
* It doesn't matter much if $a was negative; the $c += above would
* have produced a negative integer to begin with. But a negative $b
* makes $b >>= 1 never return 0, so we would end up with incorrect
* results.
*
* The end result is what we'd expect from integer multiplication.
*/
return (int) (($c & ~$mask) | ($mask & -$c));
}
/**
* Convert any arbitrary numbers into two 32-bit integers that represent
* a 64-bit integer.
*
* @internal You should not use this directly from another application
*
* @param int|float $num
* @return array<int, int>
*/
public static function numericTo64BitInteger($num)
{
$high = 0;
/** @var int $low */
if (PHP_INT_SIZE === 4) {
$low = (int) $num;
} else {
$low = $num & 0xffffffff;
}
if ((+(abs($num))) >= 1) {
if ($num > 0) {
/** @var int $high */
$high = min((+(floor($num/4294967296))), 4294967295);
} else {
/** @var int $high */
$high = ~~((+(ceil(($num - (+((~~($num)))))/4294967296))));
}
}
return array((int) $high, (int) $low);
}
/**
* Store a 24-bit integer into a string, treating it as big-endian.
*
* @internal You should not use this directly from another application
*
* @param int $int
* @return string
* @throws TypeError
*/
public static function store_3($int)
{
/* Type checks: */
if (!is_int($int)) {
if (is_numeric($int)) {
$int = (int) $int;
} else {
throw new TypeError('Argument 1 must be an integer, ' . gettype($int) . ' given.');
}
}
/** @var string $packed */
$packed = pack('N', $int);
return self::substr($packed, 1, 3);
}
/**
* Store a 32-bit integer into a string, treating it as little-endian.
*
* @internal You should not use this directly from another application
*
* @param int $int
* @return string
* @throws TypeError
*/
public static function store32_le($int)
{
/* Type checks: */
if (!is_int($int)) {
if (is_numeric($int)) {
$int = (int) $int;
} else {
throw new TypeError('Argument 1 must be an integer, ' . gettype($int) . ' given.');
}
}
/** @var string $packed */
$packed = pack('V', $int);
return $packed;
}
/**
* Store a 32-bit integer into a string, treating it as big-endian.
*
* @internal You should not use this directly from another application
*
* @param int $int
* @return string
* @throws TypeError
*/
public static function store_4($int)
{
/* Type checks: */
if (!is_int($int)) {
if (is_numeric($int)) {
$int = (int) $int;
} else {
throw new TypeError('Argument 1 must be an integer, ' . gettype($int) . ' given.');
}
}
/** @var string $packed */
$packed = pack('N', $int);
return $packed;
}
/**
* Stores a 64-bit integer as an string, treating it as little-endian.
*
* @internal You should not use this directly from another application
*
* @param int $int
* @return string
* @throws TypeError
*/
public static function store64_le($int)
{
/* Type checks: */
if (!is_int($int)) {
if (is_numeric($int)) {
$int = (int) $int;
} else {
throw new TypeError('Argument 1 must be an integer, ' . gettype($int) . ' given.');
}
}
if (PHP_INT_SIZE === 8) {
if (PHP_VERSION_ID >= 50603) {
/** @var string $packed */
$packed = pack('P', $int);
return $packed;
}
return self::intToChr($int & 0xff) .
self::intToChr(($int >> 8) & 0xff) .
self::intToChr(($int >> 16) & 0xff) .
self::intToChr(($int >> 24) & 0xff) .
self::intToChr(($int >> 32) & 0xff) .
self::intToChr(($int >> 40) & 0xff) .
self::intToChr(($int >> 48) & 0xff) .
self::intToChr(($int >> 56) & 0xff);
}
if ($int > PHP_INT_MAX) {
list($hiB, $int) = self::numericTo64BitInteger($int);
} else {
$hiB = 0;
}
return
self::intToChr(($int ) & 0xff) .
self::intToChr(($int >> 8) & 0xff) .
self::intToChr(($int >> 16) & 0xff) .
self::intToChr(($int >> 24) & 0xff) .
self::intToChr($hiB & 0xff) .
self::intToChr(($hiB >> 8) & 0xff) .
self::intToChr(($hiB >> 16) & 0xff) .
self::intToChr(($hiB >> 24) & 0xff);
}
/**
* Safe string length
*
* @internal You should not use this directly from another application
*
* @ref mbstring.func_overload
*
* @param string $str
* @return int
* @throws TypeError
*/
public static function strlen($str)
{
/* Type checks: */
if (!is_string($str)) {
throw new TypeError('String expected');
}
return (int) (
self::isMbStringOverride()
? mb_strlen($str, '8bit')
: strlen($str)
);
}
/**
* Turn a string into an array of integers
*
* @internal You should not use this directly from another application
*
* @param string $string
* @return array<int, int>
* @throws TypeError
*/
public static function stringToIntArray($string)
{
if (!is_string($string)) {
throw new TypeError('String expected');
}
/**
* @var array<int, int>
*/
$values = array_values(
unpack('C*', $string)
);
return $values;
}
/**
* Safe substring
*
* @internal You should not use this directly from another application
*
* @ref mbstring.func_overload
*
* @param string $str
* @param int $start
* @param int $length
* @return string
* @throws TypeError
*/
public static function substr($str, $start = 0, $length = null)
{
/* Type checks: */
if (!is_string($str)) {
throw new TypeError('String expected');
}
if ($length === 0) {
return '';
}
if (self::isMbStringOverride()) {
if (PHP_VERSION_ID < 50400 && $length === null) {
$length = self::strlen($str);
}
$sub = (string) mb_substr($str, $start, $length, '8bit');
} elseif ($length === null) {
$sub = (string) substr($str, $start);
} else {
$sub = (string) substr($str, $start, $length);
}
if ($sub !== '') {
return $sub;
}
return '';
}
/**
* Compare a 16-character byte string in constant time.
*
* @internal You should not use this directly from another application
*
* @param string $a
* @param string $b
* @return bool
* @throws SodiumException
* @throws TypeError
*/
public static function verify_16($a, $b)
{
/* Type checks: */
if (!is_string($a)) {
throw new TypeError('String expected');
}
if (!is_string($b)) {
throw new TypeError('String expected');
}
return self::hashEquals(
self::substr($a, 0, 16),
self::substr($b, 0, 16)
);
}
/**
* Compare a 32-character byte string in constant time.
*
* @internal You should not use this directly from another application
*
* @param string $a
* @param string $b
* @return bool
* @throws SodiumException
* @throws TypeError
*/
public static function verify_32($a, $b)
{
/* Type checks: */
if (!is_string($a)) {
throw new TypeError('String expected');
}
if (!is_string($b)) {
throw new TypeError('String expected');
}
return self::hashEquals(
self::substr($a, 0, 32),
self::substr($b, 0, 32)
);
}
/**
* Calculate $a ^ $b for two strings.
*
* @internal You should not use this directly from another application
*
* @param string $a
* @param string $b
* @return string
* @throws TypeError
*/
public static function xorStrings($a, $b)
{
/* Type checks: */
if (!is_string($a)) {
throw new TypeError('Argument 1 must be a string');
}
if (!is_string($b)) {
throw new TypeError('Argument 2 must be a string');
}
return (string) ($a ^ $b);
}
/**
* Returns whether or not mbstring.func_overload is in effect.
*
* @internal You should not use this directly from another application
*
* Note: MB_OVERLOAD_STRING === 2, but we don't reference the constant
* (for nuisance-free PHP 8 support)
*
* @return bool
*/
protected static function isMbStringOverride()
{
static $mbstring = null;
if ($mbstring === null) {
if (!defined('MB_OVERLOAD_STRING')) {
$mbstring = false;
return $mbstring;
}
$mbstring = extension_loaded('mbstring')
&& defined('MB_OVERLOAD_STRING')
&&
((int) (ini_get('mbstring.func_overload')) & 2);
// MB_OVERLOAD_STRING === 2
}
/** @var bool $mbstring */
return $mbstring;
}
}
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Secure, Swift, and Smart Payments with NFCPay !
With NFC Pay, experience seamless and secure transactions right at your fingertips. Add your cards, load your wallet, and make payments effortlessly. Activate your merchant account to receive payments or transfer money instantly to other users. NFC Pay combines security, speed, and smart features, making every transaction smooth and reliable. Embrace the future of payments with NFC Pay.
Quick Steps to NFC Pay
Getting started with NFC Pay is simple and quick. Register your account, add your cards, and you're ready to make payments in no time. Whether you're paying at a store, sending money to a friend, or managing your merchant transactions, NFC Pay makes it easy and secure.
1
Register Your Account
Download the NFC Pay app and sign up with your email or phone number. Complete the registration process by verifying your identity, and set up your secure PIN to protect your account.
2
Add Your Cards
Link your debit or credit cards to your NFC Pay wallet. Simply scan your card or enter the details manually, and you’re set to load funds, shop, and pay with ease.
3
Make Payment
To pay, simply tap your phone or scan the QR code at checkout. You can also transfer money to other users with a few taps. Enjoy fast, contactless payments with top-notch security.
Advanced Security Features Designed to Protect Your Information Effectively
NFC Pay prioritizes your security with advanced features that safeguard every transaction. From SMS or email verification to end-to-end encryption, we've implemented robust measures to ensure your data is always protected. Our security systems are designed to prevent unauthorized access and provide you with a safe and reliable payment experience.
SMS or Email Verification
Receive instant alerts for every transaction to keep track of your account activities.
KYC Solution
Verify your identity through our Know Your Customer process to prevent fraud and enhance security.
Two Factor Authentication
Dramatically supply transparent backward deliverables before caward comp internal or "organic" sources.
End-to-End Encryption
All your data and transactions are encrypted, ensuring that your sensitive information remains private.
Behavior Tracking
Monitor unusual activity patterns to detect and prevent suspicious behavior in real-time.
Top Reasons to Choose Us for Reliable and Expert Solutions
With NFC Pay, you get a trusted platform backed by proven expertise and a commitment to quality. We put our customers first, offering innovative solutions tailored to your needs, ensuring every transaction is secure, swift, and seamless.
1
Proven Expertise
Our team brings years of experience in the digital payments industry to provide reliable services.
2
Commitment to Quality
We prioritize excellence, ensuring that every aspect of our platform meets the highest standards.
3
Customer-Centric Approach
Your needs drive our solutions, and we are dedicated to delivering a superior user experience.
4
Innovative Solutions
We continuously evolve, integrating the latest technologies to enhance your payment experience.
Customer Feedback: Real Experiences from Satisfied Clients and Partners
Hear from our users who trust NFC Pay for their everyday transactions. Our commitment to security, ease of use, and exceptional service shines through in their experiences. See why our clients choose NFC Pay for their payment needs and how it has transformed the way they manage their finances.
"NFC Pay has made my transactions incredibly simple and secure. The intuitive interface and quick payment options are game-changers for my business"
"I love how NFC Pay prioritizes security without compromising on convenience. The two-factor authentication and instant alerts give me peace of mind every time I use it."
"Setting up my merchant account was a breeze, and now I can accept payments effortlessly. NFC Pay has truly streamlined my operations, saving me time and hassle."
Get the NFC Pay App for Seamless Transactions Anytime, Anywhere
Unlock the full potential of NFC Pay by downloading our app, designed to bring secure, swift, and smart transactions to your fingertips. Whether you're paying at a store, transferring money to friends, or managing your business payments, the NFC Pay app makes it effortless. Available on both iOS and Android, it's your all-in-one solution for convenient and reliable digital payments. Download now and experience the future of payments!
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