use mingling::{ macros::{group, renderer}, res::ResExitCode, RenderResult, }; use std::io::Write as _; use crate::eformat_cargo; group!(ErrorIo = std::io::Error); // Error code constants for each std::io::ErrorKind variant pub const EC_IO_ERR_NOT_FOUND: i32 = 1000; pub const EC_IO_ERR_PERMISSION_DENIED: i32 = 1001; pub const EC_IO_ERR_CONNECTION_REFUSED: i32 = 1002; pub const EC_IO_ERR_CONNECTION_RESET: i32 = 1003; pub const EC_IO_ERR_HOST_UNREACHABLE: i32 = 1004; pub const EC_IO_ERR_NETWORK_UNREACHABLE: i32 = 1005; pub const EC_IO_ERR_CONNECTION_ABORTED: i32 = 1006; pub const EC_IO_ERR_NOT_CONNECTED: i32 = 1007; pub const EC_IO_ERR_ADDR_IN_USE: i32 = 1008; pub const EC_IO_ERR_ADDR_NOT_AVAILABLE: i32 = 1009; pub const EC_IO_ERR_NETWORK_DOWN: i32 = 1010; pub const EC_IO_ERR_BROKEN_PIPE: i32 = 1011; pub const EC_IO_ERR_ALREADY_EXISTS: i32 = 1012; pub const EC_IO_ERR_WOULD_BLOCK: i32 = 1013; pub const EC_IO_ERR_NOT_A_DIRECTORY: i32 = 1014; pub const EC_IO_ERR_IS_A_DIRECTORY: i32 = 1015; pub const EC_IO_ERR_DIRECTORY_NOT_EMPTY: i32 = 1016; pub const EC_IO_ERR_READ_ONLY_FILESYSTEM: i32 = 1017; pub const EC_IO_ERR_STALE_NETWORK_FILE_HANDLE: i32 = 1018; pub const EC_IO_ERR_INVALID_INPUT: i32 = 1019; pub const EC_IO_ERR_INVALID_DATA: i32 = 1020; pub const EC_IO_ERR_TIMED_OUT: i32 = 1021; pub const EC_IO_ERR_WRITE_ZERO: i32 = 1022; pub const EC_IO_ERR_STORAGE_FULL: i32 = 1023; pub const EC_IO_ERR_NOT_SEEKABLE: i32 = 1024; pub const EC_IO_ERR_QUOTA_EXCEEDED: i32 = 1025; pub const EC_IO_ERR_FILE_TOO_LARGE: i32 = 1026; pub const EC_IO_ERR_RESOURCE_BUSY: i32 = 1027; pub const EC_IO_ERR_EXECUTABLE_FILE_BUSY: i32 = 1028; pub const EC_IO_ERR_DEADLOCK: i32 = 1029; pub const EC_IO_ERR_CROSSES_DEVICES: i32 = 1030; pub const EC_IO_ERR_TOO_MANY_LINKS: i32 = 1031; pub const EC_IO_ERR_INVALID_FILENAME: i32 = 1032; pub const EC_IO_ERR_ARGUMENT_LIST_TOO_LONG: i32 = 1033; pub const EC_IO_ERR_INTERRUPTED: i32 = 1034; pub const EC_IO_ERR_UNSUPPORTED: i32 = 1035; pub const EC_IO_ERR_UNEXPECTED_EOF: i32 = 1036; pub const EC_IO_ERR_OUT_OF_MEMORY: i32 = 1037; pub const EC_IO_ERR_OTHER: i32 = 1038; #[renderer] pub fn render_error_io(err: ErrorIo, ec: &mut ResExitCode) -> RenderResult { let mut result = RenderResult::default(); match err.kind() { std::io::ErrorKind::NotFound => { writeln!(result, "{}", eformat_cargo!("file or directory not found")).ok(); ec.exit_code = EC_IO_ERR_NOT_FOUND; } std::io::ErrorKind::PermissionDenied => { writeln!(result, "{}", eformat_cargo!("permission denied")).ok(); ec.exit_code = EC_IO_ERR_PERMISSION_DENIED; } std::io::ErrorKind::ConnectionRefused => { writeln!(result, "{}", eformat_cargo!("connection refused")).ok(); ec.exit_code = EC_IO_ERR_CONNECTION_REFUSED; } std::io::ErrorKind::ConnectionReset => { writeln!(result, "{}", eformat_cargo!("connection reset")).ok(); ec.exit_code = EC_IO_ERR_CONNECTION_RESET; } std::io::ErrorKind::HostUnreachable => { writeln!(result, "{}", eformat_cargo!("host unreachable")).ok(); ec.exit_code = EC_IO_ERR_HOST_UNREACHABLE; } std::io::ErrorKind::NetworkUnreachable => { writeln!(result, "{}", eformat_cargo!("network unreachable")).ok(); ec.exit_code = EC_IO_ERR_NETWORK_UNREACHABLE; } std::io::ErrorKind::ConnectionAborted => { writeln!(result, "{}", eformat_cargo!("connection aborted")).ok(); ec.exit_code = EC_IO_ERR_CONNECTION_ABORTED; } std::io::ErrorKind::NotConnected => { writeln!(result, "{}", eformat_cargo!("not connected")).ok(); ec.exit_code = EC_IO_ERR_NOT_CONNECTED; } std::io::ErrorKind::AddrInUse => { writeln!(result, "{}", eformat_cargo!("address in use")).ok(); ec.exit_code = EC_IO_ERR_ADDR_IN_USE; } std::io::ErrorKind::AddrNotAvailable => { writeln!(result, "{}", eformat_cargo!("address not available")).ok(); ec.exit_code = EC_IO_ERR_ADDR_NOT_AVAILABLE; } std::io::ErrorKind::NetworkDown => { writeln!(result, "{}", eformat_cargo!("network down")).ok(); ec.exit_code = EC_IO_ERR_NETWORK_DOWN; } std::io::ErrorKind::BrokenPipe => { writeln!(result, "{}", eformat_cargo!("broken pipe")).ok(); ec.exit_code = EC_IO_ERR_BROKEN_PIPE; } std::io::ErrorKind::AlreadyExists => { writeln!( result, "{}", eformat_cargo!("file or directory already exists") ) .ok(); ec.exit_code = EC_IO_ERR_ALREADY_EXISTS; } std::io::ErrorKind::WouldBlock => { writeln!(result, "{}", eformat_cargo!("operation would block")).ok(); ec.exit_code = EC_IO_ERR_WOULD_BLOCK; } std::io::ErrorKind::NotADirectory => { writeln!(result, "{}", eformat_cargo!("not a directory")).ok(); ec.exit_code = EC_IO_ERR_NOT_A_DIRECTORY; } std::io::ErrorKind::IsADirectory => { writeln!(result, "{}", eformat_cargo!("is a directory")).ok(); ec.exit_code = EC_IO_ERR_IS_A_DIRECTORY; } std::io::ErrorKind::DirectoryNotEmpty => { writeln!(result, "{}", eformat_cargo!("directory not empty")).ok(); ec.exit_code = EC_IO_ERR_DIRECTORY_NOT_EMPTY; } std::io::ErrorKind::ReadOnlyFilesystem => { writeln!(result, "{}", eformat_cargo!("read-only filesystem")).ok(); ec.exit_code = EC_IO_ERR_READ_ONLY_FILESYSTEM; } std::io::ErrorKind::StaleNetworkFileHandle => { writeln!(result, "{}", eformat_cargo!("stale network file handle")).ok(); ec.exit_code = EC_IO_ERR_STALE_NETWORK_FILE_HANDLE; } std::io::ErrorKind::InvalidInput => { writeln!(result, "{}", eformat_cargo!("invalid input")).ok(); ec.exit_code = EC_IO_ERR_INVALID_INPUT; } std::io::ErrorKind::InvalidData => { writeln!(result, "{}", eformat_cargo!("invalid data")).ok(); ec.exit_code = EC_IO_ERR_INVALID_DATA; } std::io::ErrorKind::TimedOut => { writeln!(result, "{}", eformat_cargo!("timed out")).ok(); ec.exit_code = EC_IO_ERR_TIMED_OUT; } std::io::ErrorKind::WriteZero => { writeln!(result, "{}", eformat_cargo!("write zero")).ok(); ec.exit_code = EC_IO_ERR_WRITE_ZERO; } std::io::ErrorKind::StorageFull => { writeln!(result, "{}", eformat_cargo!("storage full")).ok(); ec.exit_code = EC_IO_ERR_STORAGE_FULL; } std::io::ErrorKind::NotSeekable => { writeln!(result, "{}", eformat_cargo!("not seekable")).ok(); ec.exit_code = EC_IO_ERR_NOT_SEEKABLE; } std::io::ErrorKind::QuotaExceeded => { writeln!(result, "{}", eformat_cargo!("quota exceeded")).ok(); ec.exit_code = EC_IO_ERR_QUOTA_EXCEEDED; } std::io::ErrorKind::FileTooLarge => { writeln!(result, "{}", eformat_cargo!("file too large")).ok(); ec.exit_code = EC_IO_ERR_FILE_TOO_LARGE; } std::io::ErrorKind::ResourceBusy => { writeln!(result, "{}", eformat_cargo!("resource busy")).ok(); ec.exit_code = EC_IO_ERR_RESOURCE_BUSY; } std::io::ErrorKind::ExecutableFileBusy => { writeln!(result, "{}", eformat_cargo!("executable file busy")).ok(); ec.exit_code = EC_IO_ERR_EXECUTABLE_FILE_BUSY; } std::io::ErrorKind::Deadlock => { writeln!(result, "{}", eformat_cargo!("deadlock")).ok(); ec.exit_code = EC_IO_ERR_DEADLOCK; } std::io::ErrorKind::CrossesDevices => { writeln!(result, "{}", eformat_cargo!("crosses devices")).ok(); ec.exit_code = EC_IO_ERR_CROSSES_DEVICES; } std::io::ErrorKind::TooManyLinks => { writeln!(result, "{}", eformat_cargo!("too many links")).ok(); ec.exit_code = EC_IO_ERR_TOO_MANY_LINKS; } std::io::ErrorKind::InvalidFilename => { writeln!(result, "{}", eformat_cargo!("invalid filename")).ok(); ec.exit_code = EC_IO_ERR_INVALID_FILENAME; } std::io::ErrorKind::ArgumentListTooLong => { writeln!(result, "{}", eformat_cargo!("argument list too long")).ok(); ec.exit_code = EC_IO_ERR_ARGUMENT_LIST_TOO_LONG; } std::io::ErrorKind::Interrupted => { writeln!(result, "{}", eformat_cargo!("interrupted")).ok(); ec.exit_code = EC_IO_ERR_INTERRUPTED; } std::io::ErrorKind::Unsupported => { writeln!(result, "{}", eformat_cargo!("unsupported")).ok(); ec.exit_code = EC_IO_ERR_UNSUPPORTED; } std::io::ErrorKind::UnexpectedEof => { writeln!(result, "{}", eformat_cargo!("unexpected end of file")).ok(); ec.exit_code = EC_IO_ERR_UNEXPECTED_EOF; } std::io::ErrorKind::OutOfMemory => { writeln!(result, "{}", eformat_cargo!("out of memory")).ok(); ec.exit_code = EC_IO_ERR_OUT_OF_MEMORY; } std::io::ErrorKind::Other => { writeln!(result, "{}", eformat_cargo!(err.to_string())).ok(); ec.exit_code = EC_IO_ERR_OTHER; } _ => { writeln!(result, "{}", eformat_cargo!(err.to_string())).ok(); ec.exit_code = EC_IO_ERR_OTHER; } } result }