sim/mcuboot-sys/src/api.rs - mirror/mcuboot - TrustedFirmware Git Browser

 //! HAL api for MyNewt applications

 use simflash::{Result, Flash};
 use libc;
 use log::LogLevel;
 use std::mem;
 use std::slice;

 // The current active flash device.  The 'static is a lie, and we manage the lifetime ourselves.
 static mut FLASH: Option<*mut Flash> = None;

 // Set the flash device to be used by the simulation.  The pointer is unsafely stashed away.
 pub unsafe fn set_flash(dev: &mut Flash) {
     let dev: &'static mut Flash = mem::transmute(dev);
     FLASH = Some(dev as *mut Flash);
 }

 pub unsafe fn clear_flash() {
     FLASH = None;
 }

 // Retrieve the flash, returning an error from the enclosing function.  We can't panic here because
 // we've called through C and unwinding is prohibited (it seems to just exit the program).
 macro_rules! get_flash {
     () => {
         match FLASH {
             Some(x) => &mut *x,
             None => return -19,
         }
     }
 }

 // This isn't meant to call directly, but by a wrapper.

 #[no_mangle]
 pub extern fn sim_flash_erase(offset: u32, size: u32) -> libc::c_int {
     let dev = unsafe { get_flash!() };
     map_err(dev.erase(offset as usize, size as usize))
 }

 #[no_mangle]
 pub extern fn sim_flash_read(offset: u32, dest: *mut u8, size: u32) -> libc::c_int {
     let dev = unsafe { get_flash!() };
     let mut buf: &mut[u8] = unsafe { slice::from_raw_parts_mut(dest, size as usize) };
     map_err(dev.read(offset as usize, &mut buf))
 }

 #[no_mangle]
 pub extern fn sim_flash_write(offset: u32, src: *const u8, size: u32) -> libc::c_int {
     let dev = unsafe { get_flash!() };
     let buf: &[u8] = unsafe { slice::from_raw_parts(src, size as usize) };
     map_err(dev.write(offset as usize, &buf))
 }

 fn map_err(err: Result<()>) -> libc::c_int {
     match err {
         Ok(()) => 0,
         Err(e) => {
             warn!("{}", e);
             -1
         },
     }
 }

 /// Called by C code to determine if we should log at this level.  Levels are defined in
 /// bootutil/bootutil_log.h.  This makes the logging from the C code controlled by bootsim::api, so
 /// for example, it can be enabled with something like:
 ///     RUST_LOG=bootsim::api=info cargo run --release runall
 /// or
 ///     RUST_LOG=bootsim=info cargo run --release runall
 #[no_mangle]
 pub extern fn sim_log_enabled(level: libc::c_int) -> libc::c_int {
     let res = match level {
         1 => log_enabled!(LogLevel::Error),
         2 => log_enabled!(LogLevel::Warn),
         3 => log_enabled!(LogLevel::Info),
         4 => log_enabled!(LogLevel::Trace),
         _ => false,
     };
     if res {
         1
     } else {
         0
     }
 }
	//! HAL api for MyNewt applications

	use simflash::{Result, Flash};
	use libc;
	use log::LogLevel;
	use std::mem;
	use std::slice;

	// The current active flash device. The 'static is a lie, and we manage the lifetime ourselves.
	static mut FLASH: Option<*mut Flash> = None;

	// Set the flash device to be used by the simulation. The pointer is unsafely stashed away.
	pub unsafe fn set_flash(dev: &mut Flash) {
	let dev: &'static mut Flash = mem::transmute(dev);
	FLASH = Some(dev as *mut Flash);
	}

	pub unsafe fn clear_flash() {
	FLASH = None;
	}

	// Retrieve the flash, returning an error from the enclosing function. We can't panic here because
	// we've called through C and unwinding is prohibited (it seems to just exit the program).
	macro_rules! get_flash {
	() => {
	match FLASH {
	Some(x) => &mut *x,
	None => return -19,
	}
	}
	}

	// This isn't meant to call directly, but by a wrapper.

	#[no_mangle]
	pub extern fn sim_flash_erase(offset: u32, size: u32) -> libc::c_int {
	let dev = unsafe { get_flash!() };
	map_err(dev.erase(offset as usize, size as usize))
	}

	#[no_mangle]
	pub extern fn sim_flash_read(offset: u32, dest: *mut u8, size: u32) -> libc::c_int {
	let dev = unsafe { get_flash!() };
	let mut buf: &mut[u8] = unsafe { slice::from_raw_parts_mut(dest, size as usize) };
	map_err(dev.read(offset as usize, &mut buf))
	}

	#[no_mangle]
	pub extern fn sim_flash_write(offset: u32, src: *const u8, size: u32) -> libc::c_int {
	let dev = unsafe { get_flash!() };
	let buf: &[u8] = unsafe { slice::from_raw_parts(src, size as usize) };
	map_err(dev.write(offset as usize, &buf))
	}

	fn map_err(err: Result<()>) -> libc::c_int {
	match err {
	Ok(()) => 0,
	Err(e) => {
	warn!("{}", e);
	-1
	},
	}
	}

	/// Called by C code to determine if we should log at this level. Levels are defined in
	/// bootutil/bootutil_log.h. This makes the logging from the C code controlled by bootsim::api, so
	/// for example, it can be enabled with something like:
	/// RUST_LOG=bootsim::api=info cargo run --release runall
	/// or
	/// RUST_LOG=bootsim=info cargo run --release runall
	#[no_mangle]
	pub extern fn sim_log_enabled(level: libc::c_int) -> libc::c_int {
	let res = match level {
	1 => log_enabled!(LogLevel::Error),
	2 => log_enabled!(LogLevel::Warn),
	3 => log_enabled!(LogLevel::Info),
	4 => log_enabled!(LogLevel::Trace),
	_ => false,
	};
	if res {
	1
	} else {
	0
	}
	}