#![allow(dead_code)] // Simple tests to ensure macro generated fns compile ioctl!(bad none do_bad with 0x1234); ioctl!(bad read do_bad_read with 0x1234; u16); ioctl!(bad write_int do_bad_write_int with 0x1234); ioctl!(bad write_ptr do_bad_write_ptr with 0x1234; u8); ioctl!(bad readwrite do_bad_readwrite with 0x1234; u32); ioctl!(none do_none with 0, 0); ioctl!(read read_test with 0, 0; u32); ioctl!(write_int write_ptr_int with 0, 0); ioctl!(write_ptr write_ptr_u8 with 0, 0; u8); ioctl!(write_ptr write_ptr_u32 with 0, 0; u32); ioctl!(write_ptr write_ptr_u64 with 0, 0; u64); ioctl!(readwrite readwrite_test with 0, 0; u64); ioctl!(read_buf readbuf_test with 0, 0; u32); const SPI_IOC_MAGIC: u8 = b'k'; const SPI_IOC_MESSAGE: u8 = 0; ioctl!(write_buf writebuf_test_consts with SPI_IOC_MAGIC, SPI_IOC_MESSAGE; u8); ioctl!(write_buf writebuf_test_u8 with 0, 0; u8); ioctl!(write_buf writebuf_test_u32 with 0, 0; u32); ioctl!(write_buf writebuf_test_u64 with 0, 0; u64); ioctl!(readwrite_buf readwritebuf_test with 0, 0; u32); // Make sure documentation works ioctl! { /// This documents the ioctl function bad none do_bad_docs with 0x1234 } ioctl! { /// This documents the ioctl function bad read do_bad_read_docs with 0x1234; u16 } ioctl! { /// This documents the ioctl function bad write_int do_bad_write_int_docs with 0x1234 } ioctl! { /// This documents the ioctl function bad write_ptr do_bad_write_ptr_docs with 0x1234; u8 } ioctl! { /// This documents the ioctl function bad readwrite do_bad_readwrite_docs with 0x1234; u32 } ioctl! { /// This documents the ioctl function none do_none_docs with 0, 0 } ioctl! { /// This documents the ioctl function read do_read_docs with 0, 0; u32 } ioctl! { /// This documents the ioctl function write_int do_write_int_docs with 0, 0 } ioctl! { /// This documents the ioctl function write_ptr do_write_ptr_docs with 0, 0; u32 } ioctl! { /// This documents the ioctl function readwrite do_readwrite_docs with 0, 0; u32 } ioctl! { /// This documents the ioctl function read_buf do_read_buf_docs with 0, 0; u32 } ioctl! { /// This documents the ioctl function write_buf do_write_buf_docs with 0, 0; u32 } ioctl! { /// This documents the ioctl function readwrite_buf do_readwrite_buf_docs with 0, 0; u32 } // See C code for source of values for op calculations (does NOT work for mips/powerpc): // https://gist.github.com/posborne/83ea6880770a1aef332e // // TODO: Need a way to compute these constants at test time. Using precomputed // values is fragile and needs to be maintained. #[cfg(any(target_os = "linux", target_os = "android"))] mod linux { #[test] fn test_op_none() { if cfg!(any(target_arch = "mips", target_arch = "mips64", target_arch="powerpc", target_arch="powerpc64")){ assert_eq!(io!(b'q', 10), 0x2000710A); assert_eq!(io!(b'a', 255), 0x200061FF); } else { assert_eq!(io!(b'q', 10), 0x0000710A); assert_eq!(io!(b'a', 255), 0x000061FF); } } #[test] fn test_op_write() { if cfg!(any(target_arch = "mips", target_arch = "mips64", target_arch="powerpc", target_arch="powerpc64")){ assert_eq!(iow!(b'z', 10, 1), 0x80017A0A); assert_eq!(iow!(b'z', 10, 512), 0x82007A0A); } else { assert_eq!(iow!(b'z', 10, 1), 0x40017A0A); assert_eq!(iow!(b'z', 10, 512), 0x42007A0A); } } #[cfg(target_pointer_width = "64")] #[test] fn test_op_write_64() { if cfg!(any(target_arch = "mips64", target_arch="powerpc64")){ assert_eq!(iow!(b'z', 10, (1 as u64) << 32), 0x80007A0A); } else { assert_eq!(iow!(b'z', 10, (1 as u64) << 32), 0x40007A0A); } } #[test] fn test_op_read() { if cfg!(any(target_arch = "mips", target_arch = "mips64", target_arch="powerpc", target_arch="powerpc64")){ assert_eq!(ior!(b'z', 10, 1), 0x40017A0A); assert_eq!(ior!(b'z', 10, 512), 0x42007A0A); } else { assert_eq!(ior!(b'z', 10, 1), 0x80017A0A); assert_eq!(ior!(b'z', 10, 512), 0x82007A0A); } } #[cfg(target_pointer_width = "64")] #[test] fn test_op_read_64() { if cfg!(any(target_arch = "mips64", target_arch="powerpc64")){ assert_eq!(ior!(b'z', 10, (1 as u64) << 32), 0x40007A0A); } else { assert_eq!(ior!(b'z', 10, (1 as u64) << 32), 0x80007A0A); } } #[test] fn test_op_read_write() { assert_eq!(iorw!(b'z', 10, 1), 0xC0017A0A); assert_eq!(iorw!(b'z', 10, 512), 0xC2007A0A); } #[cfg(target_pointer_width = "64")] #[test] fn test_op_read_write_64() { assert_eq!(iorw!(b'z', 10, (1 as u64) << 32), 0xC0007A0A); } } #[cfg(any(target_os = "macos", target_os = "ios", target_os = "netbsd", target_os = "openbsd", target_os = "freebsd", target_os = "dragonfly"))] mod bsd { #[test] fn test_op_none() { assert_eq!(io!(b'q', 10), 0x2000710A); assert_eq!(io!(b'a', 255), 0x200061FF); } #[test] fn test_op_write() { assert_eq!(iow!(b'z', 10, 1), 0x80017A0A); assert_eq!(iow!(b'z', 10, 512), 0x82007A0A); } #[cfg(target_pointer_width = "64")] #[test] fn test_op_write_64() { assert_eq!(iow!(b'z', 10, (1 as u64) << 32), 0x80007A0A); } #[test] fn test_op_read() { assert_eq!(ior!(b'z', 10, 1), 0x40017A0A); assert_eq!(ior!(b'z', 10, 512), 0x42007A0A); } #[cfg(target_pointer_width = "64")] #[test] fn test_op_read_64() { assert_eq!(ior!(b'z', 10, (1 as u64) << 32), 0x40007A0A); } #[test] fn test_op_read_write() { assert_eq!(iorw!(b'z', 10, 1), 0xC0017A0A); assert_eq!(iorw!(b'z', 10, 512), 0xC2007A0A); } #[cfg(target_pointer_width = "64")] #[test] fn test_op_read_write_64() { assert_eq!(iorw!(b'z', 10, (1 as u64) << 32), 0xC0007A0A); } } #[cfg(any(target_os = "android", target_os = "linux"))] mod linux_ioctls { use std::mem; use std::os::unix::io::AsRawFd; use tempfile::tempfile; use libc::{TCGETS, TCSBRK, TCSETS, TIOCNXCL, termios}; use nix::Error::Sys; use nix::errno::Errno::{ENOTTY, ENOSYS}; ioctl!(bad none tiocnxcl with TIOCNXCL); #[test] fn test_ioctl_bad_none() { let file = tempfile().unwrap(); let res = unsafe { tiocnxcl(file.as_raw_fd()) }; assert_eq!(res, Err(Sys(ENOTTY))); } ioctl!(bad read tcgets with TCGETS; termios); #[test] fn test_ioctl_bad_read() { let file = tempfile().unwrap(); let mut termios = unsafe { mem::uninitialized() }; let res = unsafe { tcgets(file.as_raw_fd(), &mut termios) }; assert_eq!(res, Err(Sys(ENOTTY))); } ioctl!(bad write_int tcsbrk with TCSBRK); #[test] fn test_ioctl_bad_write_int() { let file = tempfile().unwrap(); let res = unsafe { tcsbrk(file.as_raw_fd(), 0) }; assert_eq!(res, Err(Sys(ENOTTY))); } ioctl!(bad write_ptr tcsets with TCSETS; termios); #[test] fn test_ioctl_bad_write_ptr() { let file = tempfile().unwrap(); let termios: termios = unsafe { mem::uninitialized() }; let res = unsafe { tcsets(file.as_raw_fd(), &termios) }; assert_eq!(res, Err(Sys(ENOTTY))); } // FIXME: Find a suitable example for "bad readwrite". // From linux/videodev2.h ioctl!(none log_status with b'V', 70); #[test] fn test_ioctl_none() { let file = tempfile().unwrap(); let res = unsafe { log_status(file.as_raw_fd()) }; assert!(res == Err(Sys(ENOTTY)) || res == Err(Sys(ENOSYS))); } #[repr(C)] pub struct v4l2_audio { index: u32, name: [u8; 32], capability: u32, mode: u32, reserved: [u32; 2], } // From linux/videodev2.h ioctl!(write_ptr s_audio with b'V', 34; v4l2_audio); #[test] fn test_ioctl_read() { let file = tempfile().unwrap(); let data: v4l2_audio = unsafe { mem::uninitialized() }; let res = unsafe { g_audio(file.as_raw_fd(), &data) }; assert!(res == Err(Sys(ENOTTY)) || res == Err(Sys(ENOSYS))); } // From linux/net/bluetooth/hci_sock.h const HCI_IOC_MAGIC: u8 = b'H'; const HCI_IOC_HCIDEVUP: u8 = 201; ioctl!(write_int hcidevup with HCI_IOC_MAGIC, HCI_IOC_HCIDEVUP); #[test] fn test_ioctl_write_int() { let file = tempfile().unwrap(); let res = unsafe { hcidevup(file.as_raw_fd(), 0) }; assert!(res == Err(Sys(ENOTTY)) || res == Err(Sys(ENOSYS))); } // From linux/videodev2.h ioctl!(write_ptr g_audio with b'V', 33; v4l2_audio); #[test] fn test_ioctl_write_ptr() { let file = tempfile().unwrap(); let mut data: v4l2_audio = unsafe { mem::uninitialized() }; let res = unsafe { g_audio(file.as_raw_fd(), &mut data) }; assert!(res == Err(Sys(ENOTTY)) || res == Err(Sys(ENOSYS))); } // From linux/videodev2.h ioctl!(readwrite enum_audio with b'V', 65; v4l2_audio); #[test] fn test_ioctl_readwrite() { let file = tempfile().unwrap(); let mut data: v4l2_audio = unsafe { mem::uninitialized() }; let res = unsafe { enum_audio(file.as_raw_fd(), &mut data) }; assert!(res == Err(Sys(ENOTTY)) || res == Err(Sys(ENOSYS))); } // FIXME: Find a suitable example for read_buf. #[repr(C)] pub struct spi_ioc_transfer { tx_buf: u64, rx_buf: u64, len: u32, speed_hz: u32, delay_usecs: u16, bits_per_word: u8, cs_change: u8, tx_nbits: u8, rx_nbits: u8, pad: u16, } // From linux/spi/spidev.h ioctl!(write_buf spi_ioc_message with super::SPI_IOC_MAGIC, super::SPI_IOC_MESSAGE; spi_ioc_transfer); #[test] fn test_ioctl_write_buf() { let file = tempfile().unwrap(); let mut data: [spi_ioc_transfer; 4] = unsafe { mem::uninitialized() }; let res = unsafe { spi_ioc_message(file.as_raw_fd(), &mut data[..]) }; assert!(res == Err(Sys(ENOTTY)) || res == Err(Sys(ENOSYS))); } // FIXME: Find a suitable example for readwrite_buf. } #[cfg(target_os = "freebsd")] mod freebsd_ioctls { use std::mem; use std::os::unix::io::AsRawFd; use tempfile::tempfile; use libc::termios; use nix::Error::Sys; use nix::errno::Errno::ENOTTY; // From sys/sys/ttycom.h const TTY_IOC_MAGIC: u8 = b't'; const TTY_IOC_TYPE_NXCL: u8 = 14; const TTY_IOC_TYPE_GETA: u8 = 19; const TTY_IOC_TYPE_SETA: u8 = 20; ioctl!(none tiocnxcl with TTY_IOC_MAGIC, TTY_IOC_TYPE_NXCL); #[test] fn test_ioctl_none() { let file = tempfile().unwrap(); let res = unsafe { tiocnxcl(file.as_raw_fd()) }; assert_eq!(res, Err(Sys(ENOTTY))); } ioctl!(read tiocgeta with TTY_IOC_MAGIC, TTY_IOC_TYPE_GETA; termios); #[test] fn test_ioctl_read() { let file = tempfile().unwrap(); let mut termios = unsafe { mem::uninitialized() }; let res = unsafe { tiocgeta(file.as_raw_fd(), &mut termios) }; assert_eq!(res, Err(Sys(ENOTTY))); } ioctl!(write_ptr tiocseta with TTY_IOC_MAGIC, TTY_IOC_TYPE_SETA; termios); #[test] fn test_ioctl_write_ptr() { let file = tempfile().unwrap(); let termios: termios = unsafe { mem::uninitialized() }; let res = unsafe { tiocseta(file.as_raw_fd(), &termios) }; assert_eq!(res, Err(Sys(ENOTTY))); } }