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ableos/kernel/src/host.rs
2023-07-08 23:22:44 -05:00

112 lines
2.8 KiB
Rust

//! the system interface
// use {
// crate::ipc::message::Message,
// alloc::vec::Vec,
// crossbeam_queue::{ArrayQueue, SegQueue},
// // hbvm::engine::Engine,
// log::trace,
// HostError::MemoryError,
// };
/// Host errors
pub enum HostError {
/// A host memory error
MemoryError,
}
// / Check f0 register for the handle
// / check f1 for the message ptr
// / check f2 for the message length
// pub fn ipc_send(engine: &mut Engine) -> Result<(), HostError> {
// let _handle = engine.registers.f0;
// let message_start = engine.registers.f1;
// let message_length = engine.registers.f2;
// let mut ipc_msg: Vec<u8> = alloc::vec![];
// for x in message_start..message_start + message_length {
// let byte = engine.read_mem_addr_8(x);
// match byte {
// Ok(byte) => ipc_msg.push(byte),
// Err(_) => return Err(MemoryError),
// }
// }
// log::trace!("Message bytes {:?}", ipc_msg);
// Ok(())
// }
// // pub fn ipc_recv(_engine: &mut Engine) {}
// /// Check f0 for the buffer type
// /// 0 means an unbound buffer
// /// 1 means a bound buffer
// /// Check f1 if the buffer is bound
// ///
// /// f2 Return a handle to the sender
// /// f3 returns a handle the the reciever
// pub fn ipc_mkbuf(engine: &mut Engine) {
// match engine.registers.f0 as usize {
// 0 => {
// trace!("Making a new ipc unbound buffer");
// let _buf: SegQueue<Message> = SegQueue::new();
// }
// 1 => {
// let buf_len = engine.registers.f1 as usize;
// trace!("Making a new ipc buffer with capacity {}", buf_len);
// let _buf: ArrayQueue<Message> = ArrayQueue::new(buf_len);
// }
// _ => {}
// }
// }
// // pub fn rpc_discover(_engine: &mut Engine) {}
// // pub fn rpc_register(_engine: &mut Engine) {}
// // pub fn rpc_call(_engine: &mut Engine) {}
use log::error;
use hbvm::vm::{
mem::{Memory, MemoryAccessReason, PageSize},
trap::HandleTrap,
value::Value,
};
/// AbleOS HBVM traphandler
pub struct TrapHandler;
impl HandleTrap for TrapHandler {
fn page_fault(
&mut self,
mar: MemoryAccessReason,
memory: &mut Memory,
vaddr: u64,
size: PageSize,
dataptr: *mut u8,
) -> bool {
error!(
"MemoryAccessReason: {}
Memory: {:?}
VAddr: {}
Size: {:?}
DataPTR: {:?}",
mar, memory, vaddr, size, dataptr
);
false
}
fn invalid_op(&mut self, _: &mut [Value; 256], _: &mut usize, _: &mut Memory, _: u8) -> bool
where
Self: Sized,
{
log::trace!("Invalid opcode");
false
}
fn ecall(&mut self, _: &mut [Value; 256], _: &mut usize, _: &mut Memory)
where
Self: Sized,
{
log::trace!("ableOS system call made");
}
}