// This file was autogenerated by some hot garbage in the `uniffi` crate. // Trust me, you don't want to mess with it! // swiftlint:disable all import Foundation // Depending on the consumer's build setup, the low-level FFI code // might be in a separate module, or it might be compiled inline into // this module. This is a bit of light hackery to work with both. #if canImport(MozillaRustComponents) import MozillaRustComponents #endif fileprivate extension RustBuffer { // Allocate a new buffer, copying the contents of a `UInt8` array. init(bytes: [UInt8]) { let rbuf = bytes.withUnsafeBufferPointer { ptr in RustBuffer.from(ptr) } self.init(capacity: rbuf.capacity, len: rbuf.len, data: rbuf.data) } static func empty() -> RustBuffer { RustBuffer(capacity: 0, len:0, data: nil) } static func from(_ ptr: UnsafeBufferPointer<UInt8>) -> RustBuffer { try! rustCall { ffi_rust_log_forwarder_rustbuffer_from_bytes(ForeignBytes(bufferPointer: ptr), $0) } } // Frees the buffer in place. // The buffer must not be used after this is called. func deallocate() { try! rustCall { ffi_rust_log_forwarder_rustbuffer_free(self, $0) } } } fileprivate extension ForeignBytes { init(bufferPointer: UnsafeBufferPointer<UInt8>) { self.init(len: Int32(bufferPointer.count), data: bufferPointer.baseAddress) } } // For every type used in the interface, we provide helper methods for conveniently // lifting and lowering that type from C-compatible data, and for reading and writing // values of that type in a buffer. // Helper classes/extensions that don't change. // Someday, this will be in a library of its own. fileprivate extension Data { init(rustBuffer: RustBuffer) { self.init( bytesNoCopy: rustBuffer.data!, count: Int(rustBuffer.len), deallocator: .none ) } } // Define reader functionality. Normally this would be defined in a class or // struct, but we use standalone functions instead in order to make external // types work. // // With external types, one swift source file needs to be able to call the read // method on another source file's FfiConverter, but then what visibility // should Reader have? // - If Reader is fileprivate, then this means the read() must also // be fileprivate, which doesn't work with external types. // - If Reader is internal/public, we'll get compile errors since both source // files will try define the same type. // // Instead, the read() method and these helper functions input a tuple of data fileprivate func createReader(data: Data) -> (data: Data, offset: Data.Index) { (data: data, offset: 0) } // Reads an integer at the current offset, in big-endian order, and advances // the offset on success. Throws if reading the integer would move the // offset past the end of the buffer. fileprivate func readInt<T: FixedWidthInteger>(_ reader: inout (data: Data, offset: Data.Index)) throws -> T { let range = reader.offset..<reader.offset + MemoryLayout<T>.size guard reader.data.count >= range.upperBound else { throw UniffiInternalError.bufferOverflow } if T.self == UInt8.self { let value = reader.data[reader.offset] reader.offset += 1 return value as! T } var value: T = 0 let _ = withUnsafeMutableBytes(of: &value, { reader.data.copyBytes(to: $0, from: range)}) reader.offset = range.upperBound return value.bigEndian } // Reads an arbitrary number of bytes, to be used to read // raw bytes, this is useful when lifting strings fileprivate func readBytes(_ reader: inout (data: Data, offset: Data.Index), count: Int) throws -> Array<UInt8> { let range = reader.offset..<(reader.offset+count) guard reader.data.count >= range.upperBound else { throw UniffiInternalError.bufferOverflow } var value = [UInt8](repeating: 0, count: count) value.withUnsafeMutableBufferPointer({ buffer in reader.data.copyBytes(to: buffer, from: range) }) reader.offset = range.upperBound return value } // Reads a float at the current offset. fileprivate func readFloat(_ reader: inout (data: Data, offset: Data.Index)) throws -> Float { return Float(bitPattern: try readInt(&reader)) } // Reads a float at the current offset. fileprivate func readDouble(_ reader: inout (data: Data, offset: Data.Index)) throws -> Double { return Double(bitPattern: try readInt(&reader)) } // Indicates if the offset has reached the end of the buffer. fileprivate func hasRemaining(_ reader: (data: Data, offset: Data.Index)) -> Bool { return reader.offset < reader.data.count } // Define writer functionality. Normally this would be defined in a class or // struct, but we use standalone functions instead in order to make external // types work. See the above discussion on Readers for details. fileprivate func createWriter() -> [UInt8] { return [] } fileprivate func writeBytes<S>(_ writer: inout [UInt8], _ byteArr: S) where S: Sequence, S.Element == UInt8 { writer.append(contentsOf: byteArr) } // Writes an integer in big-endian order. // // Warning: make sure what you are trying to write // is in the correct type! fileprivate func writeInt<T: FixedWidthInteger>(_ writer: inout [UInt8], _ value: T) { var value = value.bigEndian withUnsafeBytes(of: &value) { writer.append(contentsOf: $0) } } fileprivate func writeFloat(_ writer: inout [UInt8], _ value: Float) { writeInt(&writer, value.bitPattern) } fileprivate func writeDouble(_ writer: inout [UInt8], _ value: Double) { writeInt(&writer, value.bitPattern) } // Protocol for types that transfer other types across the FFI. This is // analogous to the Rust trait of the same name. fileprivate protocol FfiConverter { associatedtype FfiType associatedtype SwiftType static func lift(_ value: FfiType) throws -> SwiftType static func lower(_ value: SwiftType) -> FfiType static func read(from buf: inout (data: Data, offset: Data.Index)) throws -> SwiftType static func write(_ value: SwiftType, into buf: inout [UInt8]) } // Types conforming to `Primitive` pass themselves directly over the FFI. fileprivate protocol FfiConverterPrimitive: FfiConverter where FfiType == SwiftType { } extension FfiConverterPrimitive { #if swift(>=5.8) @_documentation(visibility: private) #endif public static func lift(_ value: FfiType) throws -> SwiftType { return value } #if swift(>=5.8) @_documentation(visibility: private) #endif public static func lower(_ value: SwiftType) -> FfiType { return value } } // Types conforming to `FfiConverterRustBuffer` lift and lower into a `RustBuffer`. // Used for complex types where it's hard to write a custom lift/lower. fileprivate protocol FfiConverterRustBuffer: FfiConverter where FfiType == RustBuffer {} extension FfiConverterRustBuffer { #if swift(>=5.8) @_documentation(visibility: private) #endif public static func lift(_ buf: RustBuffer) throws -> SwiftType { var reader = createReader(data: Data(rustBuffer: buf)) let value = try read(from: &reader) if hasRemaining(reader) { throw UniffiInternalError.incompleteData } buf.deallocate() return value } #if swift(>=5.8) @_documentation(visibility: private) #endif public static func lower(_ value: SwiftType) -> RustBuffer { var writer = createWriter() write(value, into: &writer) return RustBuffer(bytes: writer) } } // An error type for FFI errors. These errors occur at the UniFFI level, not // the library level. fileprivate enum UniffiInternalError: LocalizedError { case bufferOverflow case incompleteData case unexpectedOptionalTag case unexpectedEnumCase case unexpectedNullPointer case unexpectedRustCallStatusCode case unexpectedRustCallError case unexpectedStaleHandle case rustPanic(_ message: String) public var errorDescription: String? { switch self { case .bufferOverflow: return "Reading the requested value would read past the end of the buffer" case .incompleteData: return "The buffer still has data after lifting its containing value" case .unexpectedOptionalTag: return "Unexpected optional tag; should be 0 or 1" case .unexpectedEnumCase: return "Raw enum value doesn't match any cases" case .unexpectedNullPointer: return "Raw pointer value was null" case .unexpectedRustCallStatusCode: return "Unexpected RustCallStatus code" case .unexpectedRustCallError: return "CALL_ERROR but no errorClass specified" case .unexpectedStaleHandle: return "The object in the handle map has been dropped already" case let .rustPanic(message): return message } } } fileprivate extension NSLock { func withLock<T>(f: () throws -> T) rethrows -> T { self.lock() defer { self.unlock() } return try f() } } fileprivate let CALL_SUCCESS: Int8 = 0 fileprivate let CALL_ERROR: Int8 = 1 fileprivate let CALL_UNEXPECTED_ERROR: Int8 = 2 fileprivate let CALL_CANCELLED: Int8 = 3 fileprivate extension RustCallStatus { init() { self.init( code: CALL_SUCCESS, errorBuf: RustBuffer.init( capacity: 0, len: 0, data: nil ) ) } } private func rustCall<T>(_ callback: (UnsafeMutablePointer<RustCallStatus>) -> T) throws -> T { let neverThrow: ((RustBuffer) throws -> Never)? = nil return try makeRustCall(callback, errorHandler: neverThrow) } private func rustCallWithError<T, E: Swift.Error>( _ errorHandler: @escaping (RustBuffer) throws -> E, _ callback: (UnsafeMutablePointer<RustCallStatus>) -> T) throws -> T { try makeRustCall(callback, errorHandler: errorHandler) } private func makeRustCall<T, E: Swift.Error>( _ callback: (UnsafeMutablePointer<RustCallStatus>) -> T, errorHandler: ((RustBuffer) throws -> E)? ) throws -> T { uniffiEnsureRustLogForwarderInitialized() var callStatus = RustCallStatus.init() let returnedVal = callback(&callStatus) try uniffiCheckCallStatus(callStatus: callStatus, errorHandler: errorHandler) return returnedVal } private func uniffiCheckCallStatus<E: Swift.Error>( callStatus: RustCallStatus, errorHandler: ((RustBuffer) throws -> E)? ) throws { switch callStatus.code { case CALL_SUCCESS: return case CALL_ERROR: if let errorHandler = errorHandler { throw try errorHandler(callStatus.errorBuf) } else { callStatus.errorBuf.deallocate() throw UniffiInternalError.unexpectedRustCallError } case CALL_UNEXPECTED_ERROR: // When the rust code sees a panic, it tries to construct a RustBuffer // with the message. But if that code panics, then it just sends back // an empty buffer. if callStatus.errorBuf.len > 0 { throw UniffiInternalError.rustPanic(try FfiConverterString.lift(callStatus.errorBuf)) } else { callStatus.errorBuf.deallocate() throw UniffiInternalError.rustPanic("Rust panic") } case CALL_CANCELLED: fatalError("Cancellation not supported yet") default: throw UniffiInternalError.unexpectedRustCallStatusCode } } private func uniffiTraitInterfaceCall<T>( callStatus: UnsafeMutablePointer<RustCallStatus>, makeCall: () throws -> T, writeReturn: (T) -> () ) { do { try writeReturn(makeCall()) } catch let error { callStatus.pointee.code = CALL_UNEXPECTED_ERROR callStatus.pointee.errorBuf = FfiConverterString.lower(String(describing: error)) } } private func uniffiTraitInterfaceCallWithError<T, E>( callStatus: UnsafeMutablePointer<RustCallStatus>, makeCall: () throws -> T, writeReturn: (T) -> (), lowerError: (E) -> RustBuffer ) { do { try writeReturn(makeCall()) } catch let error as E { callStatus.pointee.code = CALL_ERROR callStatus.pointee.errorBuf = lowerError(error) } catch { callStatus.pointee.code = CALL_UNEXPECTED_ERROR callStatus.pointee.errorBuf = FfiConverterString.lower(String(describing: error)) } } fileprivate final class UniffiHandleMap<T>: @unchecked Sendable { // All mutation happens with this lock held, which is why we implement @unchecked Sendable. private let lock = NSLock() private var map: [UInt64: T] = [:] private var currentHandle: UInt64 = 1 func insert(obj: T) -> UInt64 { lock.withLock { let handle = currentHandle currentHandle += 1 map[handle] = obj return handle } } func get(handle: UInt64) throws -> T { try lock.withLock { guard let obj = map[handle] else { throw UniffiInternalError.unexpectedStaleHandle } return obj } } @discardableResult func remove(handle: UInt64) throws -> T { try lock.withLock { guard let obj = map.removeValue(forKey: handle) else { throw UniffiInternalError.unexpectedStaleHandle } return obj } } var count: Int { get { map.count } } } // Public interface members begin here. #if swift(>=5.8) @_documentation(visibility: private) #endif fileprivate struct FfiConverterString: FfiConverter { typealias SwiftType = String typealias FfiType = RustBuffer public static func lift(_ value: RustBuffer) throws -> String { defer { value.deallocate() } if value.data == nil { return String() } let bytes = UnsafeBufferPointer<UInt8>(start: value.data!, count: Int(value.len)) return String(bytes: bytes, encoding: String.Encoding.utf8)! } public static func lower(_ value: String) -> RustBuffer { return value.utf8CString.withUnsafeBufferPointer { ptr in // The swift string gives us int8_t, we want uint8_t. ptr.withMemoryRebound(to: UInt8.self) { ptr in // The swift string gives us a trailing null byte, we don't want it. let buf = UnsafeBufferPointer(rebasing: ptr.prefix(upTo: ptr.count - 1)) return RustBuffer.from(buf) } } } public static func read(from buf: inout (data: Data, offset: Data.Index)) throws -> String { let len: Int32 = try readInt(&buf) return String(bytes: try readBytes(&buf, count: Int(len)), encoding: String.Encoding.utf8)! } public static func write(_ value: String, into buf: inout [UInt8]) { let len = Int32(value.utf8.count) writeInt(&buf, len) writeBytes(&buf, value.utf8) } } public struct Record { public var level: Level /** * The target field from the Rust log crate. Usually the Rust module name, however log! calls can manually override the target name. */ public var target: String public var message: String // Default memberwise initializers are never public by default, so we // declare one manually. public init(level: Level, /** * The target field from the Rust log crate. Usually the Rust module name, however log! calls can manually override the target name. */target: String, message: String) { self.level = level self.target = target self.message = message } } #if compiler(>=6) extension Record: Sendable {} #endif extension Record: Equatable, Hashable { public static func ==(lhs: Record, rhs: Record) -> Bool { if lhs.level != rhs.level { return false } if lhs.target != rhs.target { return false } if lhs.message != rhs.message { return false } return true } public func hash(into hasher: inout Hasher) { hasher.combine(level) hasher.combine(target) hasher.combine(message) } } #if swift(>=5.8) @_documentation(visibility: private) #endif public struct FfiConverterTypeRecord: FfiConverterRustBuffer { public static func read(from buf: inout (data: Data, offset: Data.Index)) throws -> Record { return try Record( level: FfiConverterTypeLevel.read(from: &buf), target: FfiConverterString.read(from: &buf), message: FfiConverterString.read(from: &buf) ) } public static func write(_ value: Record, into buf: inout [UInt8]) { FfiConverterTypeLevel.write(value.level, into: &buf) FfiConverterString.write(value.target, into: &buf) FfiConverterString.write(value.message, into: &buf) } } #if swift(>=5.8) @_documentation(visibility: private) #endif public func FfiConverterTypeRecord_lift(_ buf: RustBuffer) throws -> Record { return try FfiConverterTypeRecord.lift(buf) } #if swift(>=5.8) @_documentation(visibility: private) #endif public func FfiConverterTypeRecord_lower(_ value: Record) -> RustBuffer { return FfiConverterTypeRecord.lower(value) } // Note that we don't yet support `indirect` for enums. // See https://github.com/mozilla/uniffi-rs/issues/396 for further discussion. public enum Level { case error case warn case info case debug case trace } #if compiler(>=6) extension Level: Sendable {} #endif #if swift(>=5.8) @_documentation(visibility: private) #endif public struct FfiConverterTypeLevel: FfiConverterRustBuffer { typealias SwiftType = Level public static func read(from buf: inout (data: Data, offset: Data.Index)) throws -> Level { let variant: Int32 = try readInt(&buf) switch variant { case 1: return .error case 2: return .warn case 3: return .info case 4: return .debug case 5: return .trace default: throw UniffiInternalError.unexpectedEnumCase } } public static func write(_ value: Level, into buf: inout [UInt8]) { switch value { case .error: writeInt(&buf, Int32(1)) case .warn: writeInt(&buf, Int32(2)) case .info: writeInt(&buf, Int32(3)) case .debug: writeInt(&buf, Int32(4)) case .trace: writeInt(&buf, Int32(5)) } } } #if swift(>=5.8) @_documentation(visibility: private) #endif public func FfiConverterTypeLevel_lift(_ buf: RustBuffer) throws -> Level { return try FfiConverterTypeLevel.lift(buf) } #if swift(>=5.8) @_documentation(visibility: private) #endif public func FfiConverterTypeLevel_lower(_ value: Level) -> RustBuffer { return FfiConverterTypeLevel.lower(value) } extension Level: Equatable, Hashable {} public protocol AppServicesLogger: AnyObject { func log(record: Record) } // Magic number for the Rust proxy to call using the same mechanism as every other method, // to free the callback once it's dropped by Rust. private let IDX_CALLBACK_FREE: Int32 = 0 // Callback return codes private let UNIFFI_CALLBACK_SUCCESS: Int32 = 0 private let UNIFFI_CALLBACK_ERROR: Int32 = 1 private let UNIFFI_CALLBACK_UNEXPECTED_ERROR: Int32 = 2 // Put the implementation in a struct so we don't pollute the top-level namespace fileprivate struct UniffiCallbackInterfaceAppServicesLogger { // Create the VTable using a series of closures. // Swift automatically converts these into C callback functions. // // This creates 1-element array, since this seems to be the only way to construct a const // pointer that we can pass to the Rust code. static let vtable: [UniffiVTableCallbackInterfaceAppServicesLogger] = [UniffiVTableCallbackInterfaceAppServicesLogger( log: { ( uniffiHandle: UInt64, record: RustBuffer, uniffiOutReturn: UnsafeMutableRawPointer, uniffiCallStatus: UnsafeMutablePointer<RustCallStatus> ) in let makeCall = { () throws -> () in guard let uniffiObj = try? FfiConverterCallbackInterfaceAppServicesLogger.handleMap.get(handle: uniffiHandle) else { throw UniffiInternalError.unexpectedStaleHandle } return uniffiObj.log( record: try FfiConverterTypeRecord_lift(record) ) } let writeReturn = { () } uniffiTraitInterfaceCall( callStatus: uniffiCallStatus, makeCall: makeCall, writeReturn: writeReturn ) }, uniffiFree: { (uniffiHandle: UInt64) -> () in let result = try? FfiConverterCallbackInterfaceAppServicesLogger.handleMap.remove(handle: uniffiHandle) if result == nil { print("Uniffi callback interface AppServicesLogger: handle missing in uniffiFree") } } )] } private func uniffiCallbackInitAppServicesLogger() { uniffi_rust_log_forwarder_fn_init_callback_vtable_appserviceslogger(UniffiCallbackInterfaceAppServicesLogger.vtable) } // FfiConverter protocol for callback interfaces #if swift(>=5.8) @_documentation(visibility: private) #endif fileprivate struct FfiConverterCallbackInterfaceAppServicesLogger { fileprivate static let handleMap = UniffiHandleMap<AppServicesLogger>() } #if swift(>=5.8) @_documentation(visibility: private) #endif extension FfiConverterCallbackInterfaceAppServicesLogger : FfiConverter { typealias SwiftType = AppServicesLogger typealias FfiType = UInt64 #if swift(>=5.8) @_documentation(visibility: private) #endif public static func lift(_ handle: UInt64) throws -> SwiftType { try handleMap.get(handle: handle) } #if swift(>=5.8) @_documentation(visibility: private) #endif public static func read(from buf: inout (data: Data, offset: Data.Index)) throws -> SwiftType { let handle: UInt64 = try readInt(&buf) return try lift(handle) } #if swift(>=5.8) @_documentation(visibility: private) #endif public static func lower(_ v: SwiftType) -> UInt64 { return handleMap.insert(obj: v) } #if swift(>=5.8) @_documentation(visibility: private) #endif public static func write(_ v: SwiftType, into buf: inout [UInt8]) { writeInt(&buf, lower(v)) } } #if swift(>=5.8) @_documentation(visibility: private) #endif public func FfiConverterCallbackInterfaceAppServicesLogger_lift(_ handle: UInt64) throws -> AppServicesLogger { return try FfiConverterCallbackInterfaceAppServicesLogger.lift(handle) } #if swift(>=5.8) @_documentation(visibility: private) #endif public func FfiConverterCallbackInterfaceAppServicesLogger_lower(_ v: AppServicesLogger) -> UInt64 { return FfiConverterCallbackInterfaceAppServicesLogger.lower(v) } #if swift(>=5.8) @_documentation(visibility: private) #endif fileprivate struct FfiConverterOptionCallbackInterfaceAppServicesLogger: FfiConverterRustBuffer { typealias SwiftType = AppServicesLogger? public static func write(_ value: SwiftType, into buf: inout [UInt8]) { guard let value = value else { writeInt(&buf, Int8(0)) return } writeInt(&buf, Int8(1)) FfiConverterCallbackInterfaceAppServicesLogger.write(value, into: &buf) } public static func read(from buf: inout (data: Data, offset: Data.Index)) throws -> SwiftType { switch try readInt(&buf) as Int8 { case 0: return nil case 1: return try FfiConverterCallbackInterfaceAppServicesLogger.read(from: &buf) default: throw UniffiInternalError.unexpectedOptionalTag } } } /** * Set the logger to forward to. * * Pass in null to disable logging. */ public func setLogger(logger: AppServicesLogger?) {try! rustCall() { uniffi_rust_log_forwarder_fn_func_set_logger( FfiConverterOptionCallbackInterfaceAppServicesLogger.lower(logger),$0 ) } } /** * Set the maximum log level filter. Records below this level will not be sent to the logger. */ public func setMaxLevel(level: Level) {try! rustCall() { uniffi_rust_log_forwarder_fn_func_set_max_level( FfiConverterTypeLevel_lower(level),$0 ) } } private enum InitializationResult { case ok case contractVersionMismatch case apiChecksumMismatch } // Use a global variable to perform the versioning checks. Swift ensures that // the code inside is only computed once. private let initializationResult: InitializationResult = { // Get the bindings contract version from our ComponentInterface let bindings_contract_version = 29 // Get the scaffolding contract version by calling the into the dylib let scaffolding_contract_version = ffi_rust_log_forwarder_uniffi_contract_version() if bindings_contract_version != scaffolding_contract_version { return InitializationResult.contractVersionMismatch } if (uniffi_rust_log_forwarder_checksum_func_set_logger() != 4525) { return InitializationResult.apiChecksumMismatch } if (uniffi_rust_log_forwarder_checksum_func_set_max_level() != 753) { return InitializationResult.apiChecksumMismatch } if (uniffi_rust_log_forwarder_checksum_method_appserviceslogger_log() != 39206) { return InitializationResult.apiChecksumMismatch } uniffiCallbackInitAppServicesLogger() return InitializationResult.ok }() // Make the ensure init function public so that other modules which have external type references to // our types can call it. public func uniffiEnsureRustLogForwarderInitialized() { switch initializationResult { case .ok: break case .contractVersionMismatch: fatalError("UniFFI contract version mismatch: try cleaning and rebuilding your project") case .apiChecksumMismatch: fatalError("UniFFI API checksum mismatch: try cleaning and rebuilding your project") } } // swiftlint:enable all