if IOSSecuritySuite.amIJailbroken() {	print("This device is jailbroken")} else {	print("This device is not jailbroken")}

let jailbreakStatus = IOSSecuritySuite.amIJailbrokenWithFailMessage()if jailbreakStatus.jailbroken {	print("This device is jailbroken")	print("Because: \(jailbreakStatus.failMessage)")} else {	print("This device is not jailbroken")}

let jailbreakStatus = IOSSecuritySuite.amIJailbrokenWithFailedChecks()if jailbreakStatus.jailbroken {   if (jailbreakStatus.failedChecks.contains { $0.check == .existenceOfSuspiciousFiles }) && (jailbreakStatus.failedChecks.contains { $0.check == .suspiciousFilesCanBeOpened }) {         print("This is real jailbroken device")   }}

// If we want to deny symbol hook of Swift function, we have to pass mangled name of that functiondenySymbolHook("$s10Foundation5NSLogyySS_s7CVarArg_pdtF")   // denying hooking for the NSLog functionNSLog("Hello Symbol Hook")     denySymbolHook("abort") abort()

// Function declarationfunc someFunction(takes: Int) -> Bool {	return false} // Defining FunctionType : @convention(thin) indicates a “thin” function reference, which uses the Swift calling convention with no special “self” or “context” parameters.typealias FunctionType = @convention(thin) (Int) -> (Bool)// Getting pointer address of function we want to verifyfunc getSwiftFunctionAddr(_ function: @escaping FunctionType) -> UnsafeMutableRawPointer {	return unsafeBitCast(function, to: UnsafeMutableRawPointer.self)}let funcAddr = getSwiftFunctionAddr(someFunction)let amIMSHooked = IOSSecuritySuite.amIMSHooked(funcAddr)

// Function declarationfunc denyDebugger(value: Int) {}// Defining FunctionType : @convention(thin) indicates a “thin” function reference, which uses the Swift calling convention with no special “self” or “context” parameters.typealias FunctionType = @convention(thin) (Int)->()// Getting original function addresslet funcDenyDebugger: FunctionType = denyDebugger let funcAddr = unsafeBitCast(funcDenyDebugger, to: UnsafeMutableRawPointer.self)if let originalDenyDebugger = denyMSHook(funcAddr) {// Call the original function with 1337 as Int argument     unsafeBitCast(originalDenyDebugger, to: FunctionType.self)(1337) } else {     denyDebugger() }

// Determine if application has been tampered with if IOSSecuritySuite.amITampered([.bundleID("biz.securing.FrameworkClientApp"),    .mobileProvision("2976c70b56e9ae1e2c8e8b231bf6b0cff12bbbd0a593f21846d9a004dd181be3"),    .machO("IOSSecuritySuite", "6d8d460b9a4ee6c0f378e30f137cebaf2ce12bf31a2eef3729c36889158aa7fc")]).result {    print("I have been Tampered.")}else {    print("I have not been Tampered.")}// Manually verify SHA256 hash value of a loaded dylibif let hashValue = IOSSecuritySuite.getMachOFileHashValue(.custom("IOSSecuritySuite")), hashValue == "6d8d460b9a4ee6c0f378e30f137cebaf2ce12bf31a2eef3729c36889158aa7fc" {    print("I have not been Tampered.")}else {    print("I have been Tampered.")} // Check SHA256 hash value of the main executable// Tip: Your application may retrieve this value from the serverif let hashValue = IOSSecuritySuite.getMachOFileHashValue(.d   efault), hashValue == "your-application-executable-hash-value" {    print("I have not been Tampered.")}else {    print("I have been Tampered.")}

func denyDebugger() {    // Set breakpoint here}     typealias FunctionType = @convention(thin) ()->()let func_denyDebugger: FunctionType = denyDebugger   // `: FunctionType` is a mustlet func_addr = unsafeBitCast(func_denyDebugger, to: UnsafeMutableRawPointer.self)let hasBreakpoint = IOSSecuritySuite.hasBreakpointAt(func_addr, functionSize: nil)if hasBreakpoint {    print("Breakpoint found in the specified function")} else {    print("Breakpoint not found in the specified function")}

// Set a breakpoint at the testWatchpoint functionfunc testWatchpoint() -> Bool{		// lldb: watchpoint set expression ptr    var ptr = malloc(9)    // lldb: watchpoint set variable count    var count = 3    return IOSSecuritySuite.hasWatchpoint()}