Crate riscv_semihosting

source ·
Expand description

Semihosting for RISCV processors

What is semihosting?

“Semihosting is a technique where an application running in a debug or simulation environment can access elements of the system hosting the debugger or simulator including console, file system, time and other functions. This allows for diagnostics, interaction and measurement of a target system without requiring significant infrastructure to exist in that target environment.” - RISC-V Semihosting Spec

Interface

This crate provides implementations of core::fmt::Write, so you can use it, in conjunction with core::format_args! or the write! macro, for user-friendly construction and printing of formatted strings.

Since semihosting operations are modeled as system calls, this crate exposes an untyped syscall! interface just like the sc crate does.

Forewarning

Semihosting operations are very slow. Like, each WRITE operation can take hundreds of milliseconds.

Example

Using hio::hstdout

This example will demonstrate how to print formatted strings.

use riscv_semihosting::hio;
use core::fmt::Write;

// This function will be called by the application
fn print() -> Result<(), core::fmt::Error> {
    let mut stdout = hio::hstdout().map_err(|_| core::fmt::Error)?;
    let language = "Rust";
    let ranking = 1;

    write!(stdout, "{} on embedded is #{}!", language, ranking)?;

    Ok(())
}

On the host side:

$ openocd -f $INTERFACE -f $TARGET -l /tmp/openocd.log
Open On-Chip Debugger 0.9.0 (2016-04-27-23:18)
Licensed under GNU GPL v2
For bug reports, read
        http://openocd.org/doc/doxygen/bugs.html
# the command will block at this point

The OpenOCD logs will be redirected to /tmp/openocd.log. You can view those logs in “real time” using tail

$ tail -f /tmp/openocd.log
Info : Unable to match requested speed 1000 kHz, using 950 kHz
Info : Unable to match requested speed 1000 kHz, using 950 kHz
Info : clock speed 950 kHz
Info : STLINK v1 JTAG v11 API v2 SWIM v0 VID 0x0483 PID 0x3744
Info : using stlink api v2
Info : nrf51.cpu: hardware has 4 breakpoints, 2 watchpoints

Alternatively you could omit the -l flag from the openocd call, and the tail -f command but the OpenOCD output will have intermingled in it logs from its normal operation.

Then, we run the program:

$ arm-none-eabi-gdb hello-world
(gdb) # Connect to OpenOCD
(gdb) target remote :3333

(gdb) # Enable OpenOCD's semihosting support
(gdb) monitor arm semihosting enable

(gdb) # Flash the program
(gdb) load

(gdb) # Run the program
(gdb) continue

And you’ll see the output under OpenOCD’s terminal

# openocd -f $INTERFACE -f $TARGET -l /tmp/openocd.log
(..)
Rust on embedded is #1!

Using the syscall interface

This example will show how to print “Hello, world!” on the host.

Target program:

use riscv_semihosting::syscall;

// This function will be called by the application
fn print() {
    // File descriptor (on the host)
    const STDOUT: usize = 1; // NOTE the host stdout may not always be fd 1
    static MSG: &'static [u8] = b"Hello, world!\n";

    // Signature: fn write(fd: usize, ptr: *const u8, len: usize) -> usize
    let r = unsafe { syscall!(WRITE, STDOUT, MSG.as_ptr(), MSG.len()) };
}

Output and monitoring proceed as in the above example.

The dbg! macro

Analogous to std::dbg the macro dbg! returns a given expression and prints it using heprintln! including context for quick and dirty debugging.

Panics if heprintln! returns an error.

Example:

const UUID: *mut u32 = 0x0009_FC70 as *mut u32;
dbg!(UUID);
let mut uuid: [u32; 4] = [0; 4];
for i in 0..4 {
    dbg!(i);
    uuid[i] = unsafe { dbg!(UUID.offset(i as isize).read_volatile()) };
}

outputs

[examples/semihosting.rs:37] UUID = 0x0009fc70
[examples/semihosting.rs:40] i = 0
[examples/semihosting.rs:41] UUID.offset(i as isize).read_volatile() = 3370045464
[examples/semihosting.rs:40] i = 1
[examples/semihosting.rs:41] UUID.offset(i as isize).read_volatile() = 1426218275
[examples/semihosting.rs:40] i = 2
[examples/semihosting.rs:41] UUID.offset(i as isize).read_volatile() = 2422621116
[examples/semihosting.rs:40] i = 3
[examples/semihosting.rs:41] UUID.offset(i as isize).read_volatile() = 1044138593

Optional features

When this feature is enabled, return values above 0xfffffff0 from semihosting operation SYS_WRITE (0x05) are interpreted as if the entire buffer had been written. The current latest version 6.48b of J-Link exhibits such behaviour, causing a panic if this feature is not enabled.

no-semihosting

When this feature is enabled, the underlying system calls are patched out.

Reference

For documentation about the semihosting operations, check ‘Semihosting for AArch32 and AArch64’. The RISC-V Semihosting spec is identical to Arm’s with the exception of the assembly sequence necessary to trigger a semihosting call, so their documentation is sufficient.

Modules

  • debug
    Interacting with debugging agent
  • hio
    Host I/O
  • nr
    Semihosting operations

Macros

  • dbg
    Macro that prints and returns the value of a given expression for quick and dirty debugging.
  • heprint
    Macro for printing to the HOST standard error.
  • heprintln
    Macro for printing to the HOST standard error, with a newline.
  • hprint
    Macro for printing to the HOST standard output.
  • hprintln
    Macro for printing to the HOST standard output, with a newline.
  • syscall
    Variable argument version of syscall
  • syscall1
    Macro version of syscall1.

Functions

  • syscall
    Performs a semihosting operation, takes a pointer to an argument block
  • syscall1
    Performs a semihosting operation, takes one integer as an argument