ajout lecteur redacteur

Updated makefile to add demos

See merge request simpleos/burritos!20

Makefile

@@ -1,6 +1,13 @@
 TOPDIR=.
 include $(TOPDIR)/Makefile.config
 
+#
+# Demo vars
+#
+FLAGS=--offline -r --
+CARGO=RUSTFLAGS=-Awarnings cargo run ${FLAGS}
+
+
 
 all: dumps user_lib instruction_tests syscall
 # 
@@ -29,3 +36,20 @@ clean:
 	$(MAKE) clean -C test/
 	$(RM) -rf $(TOPDIR)/target
 
+#
+# Demo targets
+#
+halt: syscall
+	${CARGO} -x ./target/guac/halt.guac -d3
+
+pc: syscall
+	${CARGO} -x ./target/guac/producteur_consommateur.guac -d2
+
+matmult: syscall
+	${CARGO} -x ./target/guac/matmult.guac -d2
+
+lr: syscall
+	${CARGO} -x ./target/guac/lecteur_redacteur.guac -d2
+
+prints: syscall
+	${CARGO} -x ./target/guac/prints.guac -d2

burritos.cfg

@@ -2,7 +2,7 @@
 # BurritOS configuration file
 ##################################################
 
-NumPhysPages      = 400
+NumPhysPages      = 40000000
 UserStackSize     = 4096
 MaxFileNameSize   = 256
 NumDirEntries     = 30

src/kernel/exception.rs

@@ -3,7 +3,7 @@ use std::{cell::RefCell, rc::Rc};
 use crate::{simulator::{machine::{ExceptionType, Machine}, error::{MachineOk, MachineError}}};
 use crate::kernel::synch::{Lock, Semaphore};
 
-use super::{system::{System, self}, thread::Thread};
+use super::{system::System, thread::Thread};
 
 /// The halt system call. Stops Burritos.
 pub const SC_SHUTDOWN: u8 =	0;
@@ -138,7 +138,8 @@ fn syscall(machine: &mut Machine, system: &mut System) -> Result<MachineOk, Mach
                 Some(th) => th.clone(),
                 None => Err("Current thread is None")?
             };
-            system.get_thread_manager().thread_finish(machine, th);
+            let code = machine.read_int_register(10);
+            system.get_thread_manager().thread_finish(machine, th, code);
             Ok(MachineOk::Ok)
         },
         SC_EXEC => todo!(),
@@ -154,13 +155,17 @@ fn syscall(machine: &mut Machine, system: &mut System) -> Result<MachineOk, Mach
             let f = machine.read_int_register(12);
 
             // load buffer
-            let mut buffer = "".to_string();
+            let mut buffer = String::new();
+            let mut val: [u8; 4] = [0; 4];
+            for (j, elem) in val.iter_mut().enumerate() {
+                *elem = machine.read_memory(1, address as usize + j) as u8;
+            }
             for i in 0..size {
                 buffer.push((machine.read_memory(1, (address + i) as usize)) as u8 as char);
             }
 
             if f as u8 == CONSOLE_OUTPUT {
-                println!("{}", buffer); // todo replace with console driver in the future
+                print!("{}", buffer); // todo replace with console driver in the future
                 Ok(MachineOk::Ok)
             } else {
                 Err("SC_WRITE to file is not yet implemented")?
@@ -278,7 +283,9 @@ fn sc_new_thread(machine: &mut Machine, system: &mut System) -> Result<MachineOk
     };
     let current_thread = current_thread.borrow_mut();
     if let Some(process) = current_thread.get_process_owner() {
-        system.get_thread_manager().start_thread(n_thread, Rc::clone(&process), func as u64, current_thread.thread_context.int_registers[2] as u64, args);
+        let sp_max = system.get_thread_manager().get_sp_max() + machine.user_stack_size;
+        system.get_thread_manager().set_sp_max(sp_max);
+        system.get_thread_manager().start_thread(n_thread, Rc::clone(&process), func as u64, sp_max, args);
         // TODO changé la valeur de sp quand on supportera les addresses virtuels
         machine.write_int_register(10, tid as i64);
         Ok(MachineOk::Ok)
@@ -319,7 +326,6 @@ fn get_length_param(addr: usize, machine: & Machine) -> usize {
         i += 1;
 
     }
-    println!("addr: {:x}, i: {}", addr, i + 1);
     i + 1
 }
 
@@ -334,7 +340,6 @@ fn get_string_param(addr: usize, maxlen: usize, machine: &Machine) -> Vec<char>
         dest.push(c as char);
         i += 1;
     }
-    dest.push('\0');
 
     dest
 }
@@ -351,9 +356,18 @@ mod test {
         let mut machine = Machine::new(true, get_debug_configuration());
         machine.write_int_register(17, SC_SHUTDOWN as i64); // Set type to shutdown
         // let ecall = Instruction::new(0b000000000000_00000_000_00000_1110011);
-
+        let insts: [u8; 4] = 0b000000000000_00000_000_00000_1110011_u32.to_le_bytes();
-        machine.write_memory(4, 0, 0b000000000000_00000_000_00000_1110011); // ecall
+        machine.write_memory(1, 0, insts[0] as u64);
-        machine.write_memory(4, 4, 0b000000001010_00000_000_00001_0010011); // r1 <- 10
+        machine.write_memory(1, 1, insts[1] as u64);
+        machine.write_memory(1, 2, insts[2] as u64);
+        machine.write_memory(1, 3, insts[3] as u64); // ecall
+        // machine.write_memory(4, 0, 0b000000000000_00000_000_00000_1110011_u64.to_be()); // ecall
+        let insts: [u8; 4] = 0b000000001010_00000_000_00001_0010011_u32.to_le_bytes();
+        machine.write_memory(1, 4, insts[0] as u64);
+        machine.write_memory(1, 5, insts[1] as u64);
+        machine.write_memory(1, 6, insts[2] as u64);
+        machine.write_memory(1, 7, insts[3] as u64); // r1 <- 10
+        // machine.write_memory(4, 4, 0b000000001010_00000_000_00001_0010011_u64.to_be()); // r1 <- 10
         let mut system = System::new(true);
         machine.run(&mut system);
         // If the machine was stopped with no error, the shutdown worked

src/kernel/thread.rs

@@ -1,7 +1,7 @@
 use std::{rc::Rc, cell::RefCell};
 
-use super::process::Process;
+use super::{process::Process, thread_manager::ThreadRef};
-use crate::{simulator::machine::{NUM_INT_REGS, NUM_FP_REGS, STACK_REG}};
+use crate::{simulator::machine::{NUM_INT_REGS, NUM_FP_REGS, STACK_REG}, utility::list::List};
 
 const STACK_FENCEPOST: u32 = 0xdeadbeef;
 
@@ -26,7 +26,7 @@ pub struct Thread {
     name: String,
     pub process: Option<Rc<RefCell<Process>>>,
     pub thread_context: ThreadContext,
-    pub stack_pointer: i32,
+    pub join_thread: List<ThreadRef>,
 }
 
 impl Thread {
@@ -40,9 +40,9 @@ impl Thread {
             thread_context: ThreadContext { 
                 int_registers: [0; NUM_INT_REGS], 
                 float_registers: [0f32; NUM_FP_REGS], 
-                pc: 0 
+                pc: 0,
             },
-            stack_pointer: 0,
+            join_thread: List::default(),
         }
     }
 
@@ -94,7 +94,6 @@ mod test {
                 float_registers: [0f32; NUM_FP_REGS], 
                 pc: 0 
             };
-            x.stack_pointer = 0;
             x }
         };
     }

src/kernel/thread_manager.rs

@@ -1,13 +1,15 @@
 //! # Thread manager
 //!
 //! This module describes the data structure and the methods used for thread scheduling
-//! in the BurritOS operating system. A struct named `ThreadManager` holds the list of
+//! in the BurritOS operating system. A struct named [`ThreadManager`] holds the list of
-//! all existing threads and synchronization objects, such as `Locks`, `Semaphores` and
+//! all existing [`Thread`] instances and synchronization objects, such as
-//! `Conditions`.
+//! [`Lock`](crate::kernel::synch::Lock),
+//! [`Semaphore`](crate::kernel::synch::Semaphore) and
+//! [`Condition`](crate::kernel::synch::Condition).
 //!
 //! ## Purpose
 //!
-//! `ThreadManager` holds the state of the system processes using the following subcomponents:
+//! [`ThreadManager`] holds the state of the system processes using the following subcomponents:
 //!
 //! ### Two lists of threads
 //!
@@ -24,21 +26,23 @@
 //!
 //! Locks, Semaphores and Conditions allow resource sharing among running threads. Since resources
 //! can only be accessed by a single thread at a time, we need data structures to signal other
-//! threads that a resource may be busy or unavailable; say for example that thread **A** wants to
+//! threads that a resource may be busy or unavailable; say for example that:
-//! write to a file while **B** is currently reading said file. Thread **A** mutating the state of
+//! 
-//! the file could cause issues for **B**. Therefore **B** needs to lock the file in question to
+//! - Thread **A** wants to write to a file while **B** is currently reading said file.
-//! avoid such issues. Thread **A** will have to wait for **B** to finish reading the file.
+//! - Thread **A** mutating the state of the file could cause issues for **B**.
+//! - Therefore **B** needs to lock the file in question to avoid such issues.
+//! - Thread **A** will have to wait for **B** to finish reading the file.
 //!
 //! These synchronization objects are held in an instance of the ObjAddr structure held by
 //! ThreadManager. Their state is mutated depending on the actions of the currently running thread
-//! through methods such as `ThreadManager::sem_p`.
+//! through methods such as [`ThreadManager::sem_p`].
 //!
 //! ## Usage
 //!
-//! `ThreadManager` is thought as a subcomponent of the `System` struct. Instanciating
+//! [`ThreadManager`] is thought as a subcomponent of the [`System`](crate::kernel::system::System) struct.
-//! `System` will automatically instanciate a `ThreadManager`
+//! Instanciating [`System`](crate::kernel::system::System) will automatically instanciate a [`ThreadManager`]
 //!
-//! Manually loading a Thread into ThreadManager to execute a program with BurritOS could look like
+//! Manually loading a [`Thread`] into [`ThreadManager`] to execute a program with BurritOS could look like
 //! this:
 //!
 //! ```
@@ -62,8 +66,8 @@
 //!
 //! ## Imports
 //!
-//! The `List` and `ObjAddr` submodules used in this module are defined in the utility
+//! The [`List`] and [`ObjAddr`] submodules used in this module are defined in the utility
-//! module. The source code of ObjAddr has been decoupled from thread_manager in an effort
+//! module. The source code of [`ObjAddr`] has been decoupled from thread_manager in an effort
 //! to keep this module concise.
 
 use std::{
@@ -98,7 +102,7 @@ use crate::{
 };
 
 /// Using this type alias to simplify struct and method definitions
-type ThreadRef = Rc<RefCell<Thread>>;
+pub type ThreadRef = Rc<RefCell<Thread>>;
 
 /// # Thread manager
 /// 
@@ -114,7 +118,8 @@ pub struct ThreadManager {
     /// List of objects created by the thread manager (such as Locks and Semaphores)
     obj_addrs: ObjAddr,
     /// If true, enables debug mode
-    debug: bool
+    debug: bool,
+    sp_max: u64,
 }
 
 impl ThreadManager {
@@ -126,7 +131,8 @@ impl ThreadManager {
             g_alive: List::default(),
             ready_list: List::default(),
             obj_addrs: ObjAddr::init(),
-            debug
+            debug,
+            sp_max: 0
         }
     }
 
@@ -182,6 +188,8 @@ impl ThreadManager {
 
     /// Start a thread, attaching it to a process
     pub fn start_thread(&mut self, thread: ThreadRef, owner: Rc<RefCell<Process>>, func_pc: u64, sp_loc: u64, argument: i64) {
+        self.debug(format!("starting thread \"{}\"", thread.borrow().get_name()));
+
         let mut thread_m = thread.borrow_mut();
         assert_eq!(thread_m.process, Option::None);
         thread_m.process = Option::Some(Rc::clone(&owner));
@@ -195,23 +203,29 @@ impl ThreadManager {
     /// Wait for another thread to finish its execution
     pub fn thread_join(&mut self, machine: &mut Machine, waiter: ThreadRef, waiting_for: ThreadRef) {
         let waiting_for = Rc::clone(&waiting_for);
-        while self.get_g_alive().contains(&waiting_for) {
+        if self.get_g_alive().contains(&waiting_for) {
-            self.debug(format!("Joining \"{}\" to \"{}\"", waiter.borrow().get_name(), waiting_for.borrow().get_name()));
+            waiting_for.borrow_mut().join_thread.push(Rc::clone(&waiter));
-            self.thread_yield(machine, Rc::clone(&waiter));
+            self.thread_yield(machine, Rc::clone(&waiter), false);
         }
     }
 
     /// Relinquish the CPU if any other thread is runnable.
     /// 
     /// Cannot use yield as a function name -> reserved name in rust
-    pub fn thread_yield(&mut self, machine: &mut Machine, thread: ThreadRef) {
+    /// 
+    /// ## Parameters
+    /// 
+    /// **is_ready** true if **thread** should be readded to ready_to_run list, false otherwise. Typically false when joining per example
+    pub fn thread_yield(&mut self, machine: &mut Machine, thread: ThreadRef, is_ready: bool) {
         let old_status = machine.interrupt.set_status(crate::simulator::interrupt::InterruptStatus::InterruptOff);
         
-        self.debug(format!("Yeilding thread: {}", thread.borrow().get_name()));
+        self.debug(format!("Yeilding thread: \"{}\"", thread.borrow().get_name()));
         debug_assert_eq!(&Option::Some(Rc::clone(&thread)), self.get_g_current_thread());
         let next_thread = self.find_next_to_run();
         if let Some(next_thread) = next_thread {
+            if is_ready {
                 self.ready_to_run(thread);
+            }
             self.switch_to(machine, next_thread);
         }
         machine.interrupt.set_status(old_status);    
@@ -222,22 +236,30 @@ impl ThreadManager {
         debug_assert_eq!(Option::Some(Rc::clone(&thread)), self.g_current_thread);
         debug_assert_eq!(machine.interrupt.get_status(), InterruptStatus::InterruptOff);
 
+        self.debug(format!("Sleeping thread {}", thread.borrow().get_name()));
         let mut next_thread = self.find_next_to_run();
         while next_thread.is_none() {
             eprintln!("Nobody to run => idle");
             machine.interrupt.idle();
-            next_thread = self.find_next_to_run();
+            if let Some(t) = self.find_next_to_run() {
+                next_thread = Some(t);
+            } else {
+                panic!("Couldn't find next thread to run.\nShutting down...");
+            }
         }
         self.switch_to(machine, Rc::clone(&next_thread.unwrap()));
         
     }
 
     /// Finish the execution of the thread and prepare its deallocation
-    pub fn thread_finish(&mut self, machine: &mut Machine, thread: ThreadRef) {
+    pub fn thread_finish(&mut self, machine: &mut Machine, thread: ThreadRef, exit_code: i64) {
         let old_status = machine.interrupt.set_status(InterruptStatus::InterruptOff);
         assert!(self.g_alive.remove(Rc::clone(&thread)));
-        self.debug(format!("Sleeping thread {}", thread.borrow().get_name()));
+        self.debug(format!("Finishing thread {} with code {}", thread.borrow().get_name(), exit_code));
         // g_objets_addrs->removeObject(self.thread) // a ajouté plus tard
+        for (_, el) in thread.borrow().join_thread.iter().enumerate() {
+            self.ready_to_run(Rc::clone(&el));
+        }
         self.thread_sleep(machine, Rc::clone(&thread));
         machine.interrupt.set_status(old_status);
     }
@@ -351,29 +373,31 @@ impl ThreadManager {
 
     ///     Wake up a waiter if necessary, or release it if no thread is waiting.
     pub fn lock_release(&mut self, id: i32, machine: &mut Machine) -> Result<MachineOk, MachineError> {
+        let old_status = machine.interrupt.set_status(InterruptStatus::InterruptOff);
         let current_thread = match self.get_g_current_thread() {
             Some(thread) => Rc::clone(thread),
             None => Err(String::from("lock_release error: current_thread should not be None."))?
         };
-        let mut lock = match self.get_obj_addrs().search_lock(id).cloned() {
+        let mut lock = match self.get_obj_addrs().search_lock(id) {
             Some(lock) => lock,
             None => Err(String::from("lock_release error: cannot find lock."))?
         };
-        let old_status = machine.interrupt.set_status(InterruptStatus::InterruptOff);
         if let Some(lock_owner) = &lock.owner {
-            if Rc::ptr_eq(&current_thread, lock_owner) {
+            if current_thread.eq(lock_owner) { // is_held_by_current_thread
-                if let Some(thread) = lock.waiting_queue.pop() {
+                match lock.waiting_queue.pop() {
-                    let clone = Rc::clone(&thread);
+                    Some(th) => {
-                    lock.owner = Some(thread);
+                        lock.owner = Some(Rc::clone(&th));
-                    self.ready_to_run(clone);
+                        self.ready_to_run(Rc::clone(&th));
-                    lock.free = true;
+                    },
-                } else {
+                    None => {
                         lock.free = true;
                         lock.owner = None;
                     }
                 }
+            }
         };
-        self.get_obj_addrs().update_lock(id, lock);
+        // self.get_obj_addrs().update_lock(id, lock);
+       
         machine.interrupt.set_status(old_status);
         Ok(MachineOk::Ok)
     }
@@ -405,6 +429,14 @@ impl ThreadManager {
         }
     }
 
+    pub fn get_sp_max(&self) -> u64 {
+        self.sp_max
+    }
+
+    pub fn set_sp_max(&mut self, sp_max: u64) {
+        self.sp_max = sp_max;
+    }
+
 }
 
 #[cfg(test)]
@@ -428,7 +460,7 @@ mod test {
 
         let owner1 = Process { num_thread: 0 };
         let owner1 = Rc::new(RefCell::new(owner1));
-        system.get_thread_manager().start_thread(Rc::clone(&thread1), owner1, loader.elf_header.entrypoint, ptr, -1);
+        system.get_thread_manager().start_thread(Rc::clone(&thread1), owner1, loader.elf_header.entrypoint, ptr + machine.page_size, -1);
         debug_assert_eq!(thread1.borrow_mut().thread_context.pc, start_pc);
         debug_assert!(system.get_thread_manager().get_g_alive().contains(&Rc::clone(&thread1)));
 
@@ -443,7 +475,7 @@ mod test {
     }
 
     #[test]
-    fn test_lock(){
+    fn test_lock_single(){
         let mut machine = Machine::new(true, get_debug_configuration());
         let mut thread_manager = ThreadManager::new(true);
         let lock = Lock::new();
@@ -470,6 +502,54 @@ mod test {
         }
     }
 
+    #[test]
+    fn test_lock_multiple() {
+        let mut machine = Machine::new(true, get_debug_configuration());
+        let mut thread_manager = ThreadManager::new(true);
+        let lock = Lock::new();
+        let lock_id = thread_manager.get_obj_addrs().add_lock(lock);
+        let thread_1 = Rc::new(RefCell::new(Thread::new("test_lock_1")));
+        let thread_2 = Rc::new(RefCell::new(Thread::new("test_lock_2")));
+        thread_manager.ready_to_run(thread_1.clone());
+        thread_manager.ready_to_run(thread_2.clone());
+        thread_manager.set_g_current_thread(Some(thread_1.clone()));
+
+        thread_manager.lock_acquire(lock_id, &mut machine).expect("lock acquire return an error at first iteration: ");
+        {
+            let lock = thread_manager.get_obj_addrs().search_lock(lock_id).unwrap();
+            assert_eq!(lock.owner,Some(thread_1.clone()));
+            assert!(!lock.free);
+            assert!(lock.waiting_queue.is_empty());
+        }
+
+        thread_manager.set_g_current_thread(Some(thread_2.clone()));
+        thread_manager.lock_acquire(lock_id, &mut machine).expect("lock acquire return an error at second iteration: ");
+        {
+            let lock = thread_manager.get_obj_addrs().search_lock(lock_id).unwrap();
+            assert_eq!(lock.owner,Some(thread_1.clone()));
+            assert!(!lock.free);
+            assert_eq!(lock.waiting_queue.iter().count(),1);
+        }
+        
+        thread_manager.lock_release(lock_id, &mut machine).expect("lock release return an error at first iteration: ");
+        {
+            let lock = thread_manager.get_obj_addrs().search_lock(lock_id).unwrap();
+            assert_eq!(lock.owner, Some(thread_2.clone()));
+            assert!(!lock.free);
+            assert!(lock.waiting_queue.is_empty());
+        }
+
+        thread_manager.set_g_current_thread(Some(thread_2.clone()));
+        thread_manager.lock_release(lock_id, &mut machine).expect("lock release return an error at second iteration: ");
+        {
+            let lock = thread_manager.get_obj_addrs().search_lock(lock_id).unwrap();
+            assert!(lock.waiting_queue.is_empty());
+            assert_eq!(lock.owner, None);
+            assert!(lock.free);
+        }
+    }
+
+
     #[test]
     fn test_semaphore_single() {
         // Init

src/main.rs

@@ -20,7 +20,7 @@ use simulator::{machine::Machine, loader};
 
 
 use clap::Parser;
-use utility::cfg::{get_debug_configuration, read_settings};
+use utility::cfg::read_settings;
 
 #[derive(Parser, Debug)]
 #[command(name = "BurritOS", author, version, about = "Burritos (BurritOS Using Rust Really Improves The Operating System)
@@ -29,9 +29,13 @@ Burritos is an educational operating system written in Rust
 running on RISC-V emulator.", long_about = None)]
 /// Launch argument parser
 struct Args {
-    /// Enable debug mode
+    /// Enable debug mode.
-    #[arg(short, long)]
+    /// 0 to disable debug,
-    debug: bool,
+    /// 1 to enable machine debug,
+    /// 2 to enable system debug,
+    /// 3 to enable all debug
+    #[arg(short, long, value_parser = clap::value_parser!(u8).range(0..=3), default_value_t = 0)]
+    debug: u8,
     /// Path to the executable binary file to execute
     #[arg(short = 'x', long, value_name = "PATH")]
     executable: String
@@ -40,10 +44,10 @@ struct Args {
 fn main() {
     let args = Args::parse();
 
-    let mut machine = Machine::new(args.debug, read_settings().unwrap());
+    let mut machine = Machine::new(args.debug & 1 != 0, read_settings().unwrap());
     let (loader, ptr) = loader::Loader::new(args.executable.as_str(), &mut machine, 0).expect("An error occured while parsing the program");
     
-    let mut system = System::new(args.debug);
+    let mut system = System::new(args.debug & 2 != 0);
 
     let thread_exec = Thread::new(args.executable.as_str());
     let thread_exec = Rc::new(RefCell::new(thread_exec));
@@ -51,7 +55,10 @@ fn main() {
 
     let owner1 = Process { num_thread: 0 };
     let owner1 = Rc::new(RefCell::new(owner1));
-    system.get_thread_manager().start_thread(Rc::clone(&thread_exec), owner1, loader.elf_header.entrypoint, ptr, -1);
+    let sp_max = ptr + machine.user_stack_size;
+    system.get_thread_manager().set_sp_max(sp_max);
+    system.get_thread_manager().start_thread(Rc::clone(&thread_exec), owner1, loader.elf_header.entrypoint, sp_max, -1);
+    
     
     let to_run = system.get_thread_manager().find_next_to_run().unwrap();
     system.get_thread_manager().switch_to(&mut machine, Rc::clone(&to_run));

src/simulator/instruction.rs

@@ -349,11 +349,11 @@ mod test {
 
     #[test]
     fn test_op() {
-        let sub = Instruction::new(0b0100000_10000_10001_000_11100_0110011);
+        let sub = Instruction::new(0b0100000_10000_10001_000_11100_0110011_u64.to_le());
-        let add = Instruction::new(0b0000000_10000_10001_000_11100_0110011);
+        let add = Instruction::new(0b0000000_10000_10001_000_11100_0110011_u64.to_le());
-        let xor = Instruction::new(0b0000000_10000_10001_100_11100_0110011);
+        let xor = Instruction::new(0b0000000_10000_10001_100_11100_0110011_u64.to_le());
-        let slr = Instruction::new(0b0000000_10000_10001_101_11100_0110011);
+        let slr = Instruction::new(0b0000000_10000_10001_101_11100_0110011_u64.to_le());
-        let sra = Instruction::new(0b0100000_10000_10001_101_11100_0110011);
+        let sra = Instruction::new(0b0100000_10000_10001_101_11100_0110011_u64.to_le());
 
         assert_eq!("sub\tt3,a7,a6", instruction_debug(&sub, 0));
         assert_eq!("xor\tt3,a7,a6", instruction_debug(&xor, 0));
@@ -365,13 +365,13 @@ mod test {
 
     #[test]
     fn test_opi() {
-        let addi = Instruction::new(0b0000000000_10001_000_11100_0010011);
+        let addi = Instruction::new(0b0000000000_10001_000_11100_0010011_u64.to_le());
-        let slli = Instruction::new(0b0000000000_10001_001_11100_0010011);
+        let slli = Instruction::new(0b0000000000_10001_001_11100_0010011_u64.to_le());
-        let slti = Instruction::new(0b0000000000_10001_010_11100_0010011);
+        let slti = Instruction::new(0b0000000000_10001_010_11100_0010011_u64.to_le());
-        let sltiu = Instruction::new(0b0000000000_10001_011_11100_0010011);
+        let sltiu = Instruction::new(0b0000000000_10001_011_11100_0010011_u64.to_le());
-        let xori = Instruction::new(0b_0000000000010001_100_11100_0010011);
+        let xori = Instruction::new(0b_0000000000010001_100_11100_0010011_u64.to_le());
-        let ori = Instruction::new(0b00000000000_10001_110_11100_0010011);
+        let ori = Instruction::new(0b00000000000_10001_110_11100_0010011_u64.to_le());
-        let andi = Instruction::new(0b000000000000_10001_111_11100_0010011);
+        let andi = Instruction::new(0b000000000000_10001_111_11100_0010011_u64.to_le());
         assert_eq!("andi\tt3,a7,0", instruction_debug(&andi, 0));
         assert_eq!("addi\tt3,a7,0", instruction_debug(&addi, 0));
         assert_eq!("slli\tt3,a7,0", instruction_debug(&slli, 0));
@@ -383,8 +383,8 @@ mod test {
 
     #[test]
     fn test_lui() {
-        let lui = Instruction::new(0b01110001000011111000_11100_0110111);
+        let lui = Instruction::new(0b01110001000011111000_11100_0110111_u64.to_le());
-        let lui_negatif = Instruction::new(0b11110001000011111000_11100_0110111);
+        let lui_negatif = Instruction::new(0b11110001000011111000_11100_0110111_u64.to_le());
         assert_eq!("lui\tt3,710f8000", instruction_debug(&lui, 0));
         assert_eq!("lui\tt3,f10f8000", instruction_debug(&lui_negatif, 0));
     }
@@ -392,13 +392,13 @@ mod test {
     #[test]
     fn test_ld() {
         //                      imm            rs1   f3    rd    opcode
-        let lb = Instruction::new(0b010111110000_10001_000_11100_0000011);
+        let lb = Instruction::new(0b010111110000_10001_000_11100_0000011_u64.to_le());
-        let lh = Instruction::new(0b010111110000_10001_001_11100_0000011);
+        let lh = Instruction::new(0b010111110000_10001_001_11100_0000011_u64.to_le());
-        let lw = Instruction::new(0b010111110000_10001_010_11100_0000011);
+        let lw = Instruction::new(0b010111110000_10001_010_11100_0000011_u64.to_le());
-        let lbu = Instruction::new(0b010111110000_10001_100_11100_0000011);
+        let lbu = Instruction::new(0b010111110000_10001_100_11100_0000011_u64.to_le());
-        let lhu = Instruction::new(0b010111110000_10001_101_11100_0000011);
+        let lhu = Instruction::new(0b010111110000_10001_101_11100_0000011_u64.to_le());
-        let ld = Instruction::new(0b010111110000_10001_011_11100_0000011);
+        let ld = Instruction::new(0b010111110000_10001_011_11100_0000011_u64.to_le());
-        let lwu = Instruction::new(0b010111110000_10001_110_11100_0000011);
+        let lwu = Instruction::new(0b010111110000_10001_110_11100_0000011_u64.to_le());
 
         assert_eq!("lb\tt3,1520(a7)", instruction_debug(&lb, 0));
         assert_eq!("lh\tt3,1520(a7)", instruction_debug(&lh, 0));
@@ -411,10 +411,10 @@ mod test {
 
     #[test]
     fn test_opw() {                                         
-        let addw: Instruction = Instruction::new(0b0000000_10000_10001_000_11100_0111011);
+        let addw: Instruction = Instruction::new(0b0000000_10000_10001_000_11100_0111011_u64.to_le());
-        let sllw: Instruction = Instruction::new(0b0000000_10000_10001_001_11100_0111011);
+        let sllw: Instruction = Instruction::new(0b0000000_10000_10001_001_11100_0111011_u64.to_le());
-        let srlw: Instruction = Instruction::new(0b0000000_10000_10001_101_11100_0111011);
+        let srlw: Instruction = Instruction::new(0b0000000_10000_10001_101_11100_0111011_u64.to_le());
-        let sraw: Instruction = Instruction::new(0b0100000_10000_10001_101_11100_0111011);
+        let sraw: Instruction = Instruction::new(0b0100000_10000_10001_101_11100_0111011_u64.to_le());
 
         assert_eq!("addw\tt3,a7,a6", instruction_debug(&addw, 0));
         assert_eq!("sllw\tt3,a7,a6", instruction_debug(&sllw, 0));
@@ -424,9 +424,9 @@ mod test {
 
     #[test]
     fn test_opwi() {
-        let addiw: Instruction =Instruction::new(0b000000000000_10001_000_11100_0011011);
+        let addiw: Instruction =Instruction::new(0b000000000000_10001_000_11100_0011011_u64.to_le());
-        let slliw: Instruction = Instruction::new(0b0000000_10000_10001_001_11100_0011011);
+        let slliw: Instruction = Instruction::new(0b0000000_10000_10001_001_11100_0011011_u64.to_le());
-        let srai: Instruction = Instruction::new(0b010000010001_10001_101_11100_0010011);
+        let srai: Instruction = Instruction::new(0b010000010001_10001_101_11100_0010011_u64.to_le());
         assert_eq!("addiw\tt3,a7,0x0", instruction_debug(&addiw, 0));
         assert_eq!("slliw\tt3,a7,0x10", instruction_debug(&slliw, 0));
         assert_eq!("srai\tt3,a7,17", instruction_debug(&srai, 0));
@@ -435,13 +435,13 @@ mod test {
 
     #[test]
     fn test_br() {                                     
-        let beq: Instruction = Instruction::new(0b0000000_10000_10001_000_00000_1100011);
+        let beq: Instruction = Instruction::new(0b0000000_10000_10001_000_00000_1100011_u64.to_le());
-        let bne: Instruction = Instruction::new(0b0000000_10000_10001_001_00000_1100011);
+        let bne: Instruction = Instruction::new(0b0000000_10000_10001_001_00000_1100011_u64.to_le());
-        let blt: Instruction = Instruction::new(0b0000000_10000_10001_100_00000_1100011);
+        let blt: Instruction = Instruction::new(0b0000000_10000_10001_100_00000_1100011_u64.to_le());
-        let bge: Instruction = Instruction::new(0b0000000_10000_10001_101_00000_1100011);
+        let bge: Instruction = Instruction::new(0b0000000_10000_10001_101_00000_1100011_u64.to_le());
-        let bge2: Instruction = Instruction::new(0x00f75863);
+        let bge2: Instruction = Instruction::new(0x00f75863_u64.to_le());
-        let bltu: Instruction = Instruction::new(0b0000000_10000_10001_110_00000_1100011);
+        let bltu: Instruction = Instruction::new(0b0000000_10000_10001_110_00000_1100011_u64.to_le());
-        let bgeu: Instruction = Instruction::new(0b0000000_10000_10001_111_00000_1100011);
+        let bgeu: Instruction = Instruction::new(0b0000000_10000_10001_111_00000_1100011_u64.to_le());
         assert_eq!("blt\ta7,a6,0", instruction_debug(&blt, 0));
         assert_eq!("bge\ta7,a6,0", instruction_debug(&bge, 0));
         assert_eq!("bge\ta4,a5,104d4", instruction_debug(&bge2, 0x104c4));
@@ -461,72 +461,72 @@ mod test {
             a = a + b;
             b = a - b;
          */
-        assert_eq!("addi	sp,sp,-32", instruction_debug(&Instruction::new(0xfe010113), 0));
+        assert_eq!("addi	sp,sp,-32", instruction_debug(&Instruction::new(0xfe010113_u64.to_le()), 0));
-        assert_eq!("sd	s0,24(sp)", instruction_debug(&Instruction::new(0x00813c23), 0));
+        assert_eq!("sd	s0,24(sp)", instruction_debug(&Instruction::new(0x00813c23_u64.to_le()), 0));
-        assert_eq!("addi	s0,sp,32", instruction_debug(&Instruction::new(0x02010413), 0));
+        assert_eq!("addi	s0,sp,32", instruction_debug(&Instruction::new(0x02010413_u64.to_le()), 0));
-        assert_eq!("sw	zero,-20(s0)", instruction_debug(&Instruction::new(0xfe042623), 0));
+        assert_eq!("sw	zero,-20(s0)", instruction_debug(&Instruction::new(0xfe042623_u64.to_le()), 0));
-        assert_eq!("addi	a5,zero,5", instruction_debug(&Instruction::new(0x00500793), 0));
+        assert_eq!("addi	a5,zero,5", instruction_debug(&Instruction::new(0x00500793_u64.to_le()), 0));
-        assert_eq!("sw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfef42423), 0));
+        assert_eq!("sw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfef42423_u64.to_le()), 0));
-        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783), 0));
+        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783_u64.to_le()), 0));
-        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623), 0));
+        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623_u64.to_le()), 0));
-        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783), 0));
+        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783_u64.to_le()), 0));
-        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713), 0));
+        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713_u64.to_le()), 0));
-        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783), 0));
+        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783_u64.to_le()), 0));
-        assert_eq!("mulw	a5,a4,a5", instruction_debug(&Instruction::new(0x02f707bb), 0));
+        assert_eq!("mulw	a5,a4,a5", instruction_debug(&Instruction::new(0x02f707bb_u64.to_le()), 0));
-        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623), 0));
+        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623_u64.to_le()), 0));
-        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783), 0));
+        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783_u64.to_le()), 0));
-        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713), 0));
+        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713_u64.to_le()), 0));
-        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783), 0));
+        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783_u64.to_le()), 0));
-        assert_eq!("addw	a5,a4,a5", instruction_debug(&Instruction::new(0x00f707bb), 0));
+        assert_eq!("addw	a5,a4,a5", instruction_debug(&Instruction::new(0x00f707bb_u64.to_le()), 0));
-        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623), 0));
+        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623_u64.to_le()), 0));
-        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783), 0));
+        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783_u64.to_le()), 0));
-        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713), 0));
+        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713_u64.to_le()), 0));
-        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783), 0));
+        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783_u64.to_le()), 0));
-        assert_eq!("subw	a5,a4,a5", instruction_debug(&Instruction::new(0x40f707bb), 0));
+        assert_eq!("subw	a5,a4,a5", instruction_debug(&Instruction::new(0x40f707bb_u64.to_le()), 0));
-        assert_eq!("sw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfef42423), 0));
+        assert_eq!("sw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfef42423_u64.to_le()), 0));
-        assert_eq!("addi	a5,zero,0", instruction_debug(&Instruction::new(0x00000793), 0));
+        assert_eq!("addi	a5,zero,0", instruction_debug(&Instruction::new(0x00000793_u64.to_le()), 0));
-        assert_eq!("addi	a0,a5,0", instruction_debug(&Instruction::new(0x00078513), 0));
+        assert_eq!("addi	a0,a5,0", instruction_debug(&Instruction::new(0x00078513_u64.to_le()), 0));
-        assert_eq!("ld	s0,24(sp)", instruction_debug(&Instruction::new(0x01813403), 0));
+        assert_eq!("ld	s0,24(sp)", instruction_debug(&Instruction::new(0x01813403_u64.to_le()), 0));
-        assert_eq!("addi	sp,sp,32", instruction_debug(&Instruction::new(0x02010113), 0));
+        assert_eq!("addi	sp,sp,32", instruction_debug(&Instruction::new(0x02010113_u64.to_le()), 0));
-        assert_eq!("jalr	zero,0(ra)", instruction_debug(&Instruction::new(0x00008067), 0));
+        assert_eq!("jalr	zero,0(ra)", instruction_debug(&Instruction::new(0x00008067_u64.to_le()), 0));
 
     }
 
 
     #[test]
     fn test_fibo() {
-        assert_eq!("jal	zero,10504", instruction_debug(&Instruction::new(0x0500006f), 0x104b4));
+        assert_eq!("jal	zero,10504", instruction_debug(&Instruction::new(0x0500006f_u64.to_le()), 0x104b4));
-        assert_eq!("blt	a4,a5,104b8", instruction_debug(&Instruction::new(0xfaf740e3), 0x10518));
+        assert_eq!("blt	a4,a5,104b8", instruction_debug(&Instruction::new(0xfaf740e3_u64.to_le()), 0x10518));
     }
 
     #[test]
     fn test_mul_prog() {
-        assert_eq!("addi	sp,sp,-32", instruction_debug(&Instruction::new(0xfe010113), 0));
+        assert_eq!("addi	sp,sp,-32", instruction_debug(&Instruction::new(0xfe010113_u64.to_le()), 0));
-        assert_eq!("sd	s0,24(sp)", instruction_debug(&Instruction::new(0x00813c23), 0));
+        assert_eq!("sd	s0,24(sp)", instruction_debug(&Instruction::new(0x00813c23_u64.to_le()), 0));
-        assert_eq!("addi	s0,sp,32", instruction_debug(&Instruction::new(0x02010413), 0));
+        assert_eq!("addi	s0,sp,32", instruction_debug(&Instruction::new(0x02010413_u64.to_le()), 0));
-        assert_eq!("addi	a5,zero,5", instruction_debug(&Instruction::new(0x00500793), 0));
+        assert_eq!("addi	a5,zero,5", instruction_debug(&Instruction::new(0x00500793_u64.to_le()), 0));
-        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623), 0));
+        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623_u64.to_le()), 0));
-        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783), 0));
+        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783_u64.to_le()), 0));
-        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713), 0));
+        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713_u64.to_le()), 0));
-        assert_eq!("addi	a5,a4,0", instruction_debug(&Instruction::new(0x00070793), 0));
+        assert_eq!("addi	a5,a4,0", instruction_debug(&Instruction::new(0x00070793_u64.to_le()), 0));
-        assert_eq!("slliw	a5,a5,0x2", instruction_debug(&Instruction::new(0x0027979b), 0));
+        assert_eq!("slliw	a5,a5,0x2", instruction_debug(&Instruction::new(0x0027979b_u64.to_le()), 0));
-        assert_eq!("addw	a5,a5,a4", instruction_debug(&Instruction::new(0x00e787bb), 0));
+        assert_eq!("addw	a5,a5,a4", instruction_debug(&Instruction::new(0x00e787bb_u64.to_le()), 0));
-        assert_eq!("sw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfef42423), 0));
+        assert_eq!("sw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfef42423_u64.to_le()), 0));
-        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783), 0));
+        assert_eq!("lw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfec42783_u64.to_le()), 0));
-        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713), 0));
+        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713_u64.to_le()), 0));
-        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783), 0));
+        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783_u64.to_le()), 0));
-        assert_eq!("mulw	a5,a4,a5", instruction_debug(&Instruction::new(0x02f707bb), 0));
+        assert_eq!("mulw	a5,a4,a5", instruction_debug(&Instruction::new(0x02f707bb_u64.to_le()), 0));
-        assert_eq!("sw	a5,-28(s0)", instruction_debug(&Instruction::new(0xfef42223), 0));
+        assert_eq!("sw	a5,-28(s0)", instruction_debug(&Instruction::new(0xfef42223_u64.to_le()), 0));
-        assert_eq!("lw	a5,-28(s0)", instruction_debug(&Instruction::new(0xfe442783), 0));
+        assert_eq!("lw	a5,-28(s0)", instruction_debug(&Instruction::new(0xfe442783_u64.to_le()), 0));
-        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713), 0));
+        assert_eq!("addi	a4,a5,0", instruction_debug(&Instruction::new(0x00078713_u64.to_le()), 0));
-        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783), 0));
+        assert_eq!("lw	a5,-24(s0)", instruction_debug(&Instruction::new(0xfe842783_u64.to_le()), 0));
-        assert_eq!("divw	a5,a4,a5", instruction_debug(&Instruction::new(0x02f747bb), 0));
+        assert_eq!("divw	a5,a4,a5", instruction_debug(&Instruction::new(0x02f747bb_u64.to_le()), 0));
-        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623), 0));
+        assert_eq!("sw	a5,-20(s0)", instruction_debug(&Instruction::new(0xfef42623_u64.to_le()), 0));
-        assert_eq!("addi	a5,zero,0", instruction_debug(&Instruction::new(0x00000793), 0));
+        assert_eq!("addi	a5,zero,0", instruction_debug(&Instruction::new(0x00000793_u64.to_le()), 0));
-        assert_eq!("addi	a0,a5,0", instruction_debug(&Instruction::new(0x00078513), 0));
+        assert_eq!("addi	a0,a5,0", instruction_debug(&Instruction::new(0x00078513_u64.to_le()), 0));
-        assert_eq!("ld	s0,24(sp)", instruction_debug(&Instruction::new(0x01813403), 0));
+        assert_eq!("ld	s0,24(sp)", instruction_debug(&Instruction::new(0x01813403_u64.to_le()), 0));
-        assert_eq!("addi	sp,sp,32", instruction_debug(&Instruction::new(0x02010113), 0));
+        assert_eq!("addi	sp,sp,32", instruction_debug(&Instruction::new(0x02010113_u64.to_le()), 0));
-        assert_eq!("jalr	zero,0(ra)", instruction_debug(&Instruction::new(0x00008067), 0));
+        assert_eq!("jalr	zero,0(ra)", instruction_debug(&Instruction::new(0x00008067_u64.to_le()), 0));
     }
 
 }

src/simulator/loader.rs

@@ -463,7 +463,12 @@ impl Loader {
                             buf[k] = self.bytes.get(section.image_offset as usize + j + k).copied().ok_or(LoaderError::ParsingError(format!("index 0x{:x} is out of bound because list have a size of 0x{:x} (image offset 0x{:x}, j 0x{:x}, k 0x{:x})", section.image_offset as usize + j + k, self.bytes.len(), section.image_offset, j, k)))?;
                         }
                     }
-                    machine.write_memory(4, start_index + section.virt_addr as usize + j, u32::from_le_bytes(buf) as u64);
+
+                    machine.write_memory(1, start_index + section.virt_addr as usize + j, buf[0] as u64);
+                    machine.write_memory(1, start_index + section.virt_addr as usize + j + 1, buf[1] as u64);
+                    machine.write_memory(1, start_index + section.virt_addr as usize + j + 2, buf[2] as u64);
+                    machine.write_memory(1, start_index + section.virt_addr as usize + j + 3, buf[3] as u64);
+                    
                 }
             }
         }

src/simulator/machine.rs

@@ -95,7 +95,8 @@ pub struct Machine {
 	// futur taille à calculer int memSize = g_cfg->NumPhysPages * g_cfg->PageSize;
 	//creer une struct cfg(configuration) qui s'initialise avec valeur dans un fichier cfg
 	num_phy_page: u64,
-	page_size: u64,
+	pub page_size: u64,
+	pub user_stack_size: u64,
 	/// Current machine status
 	pub status: MachineStatus
 }
@@ -115,7 +116,8 @@ impl Machine {
 
 		let num_phy_page = *settings.get(&MachineSettingKey::NumPhysPages).unwrap();
 		let page_size = *settings.get(&MachineSettingKey::PageSize).unwrap();
-		let mem_size = (page_size*num_phy_page*100_000) as usize;
+		let user_stack_size = *settings.get(&MachineSettingKey::UserStackSize).unwrap();
+		let mem_size = (page_size*num_phy_page) as usize;
 
 		Machine {
 			debug,
@@ -129,7 +131,8 @@ impl Machine {
 			registers_trace : String::from(""),
 			status: MachineStatus::SystemMode,
 			num_phy_page,
-			page_size
+			page_size,
+			user_stack_size
 		}
 	}
 
@@ -284,7 +287,7 @@ impl Machine {
 			*elem = self.main_memory[self.pc as usize + i];
 		}
 		
-		let val = u32::from_be_bytes(val) as u64;
+		let val = u32::from_le_bytes(val) as u64;
 		let inst : Instruction = Instruction::new(val);
 		if self.debug {
 			self.print_status();
@@ -425,10 +428,10 @@ impl Machine {
 			RISCV_OPI_XORI => compute(&core::ops::BitXor::bitxor, rs1, imm12),
 			RISCV_OPI_ORI => compute(&core::ops::BitOr::bitor, rs1, imm12),
 			RISCV_OPI_ANDI => compute(&core::ops::BitAnd::bitand, rs1, imm12),
-			RISCV_OPI_SLLI => compute(&core::ops::Shl::shl, rs1, imm12),
+			RISCV_OPI_SLLI => compute(&core::ops::Shl::shl, rs1, shamt),
 			RISCV_OPI_SRI => if inst.funct7_smaller == RISCV_OPI_SRI_SRLI {
 								compute(&|a, b| { (a >> b) & self.shiftmask[inst.shamt as usize] as i64 }, rs1, shamt)
-							} else {
+							} else { // SRAI
 								compute(&core::ops::Shr::shr, rs1, shamt)
 							}
 			_ => Err(format!("Unreachable in opi_instruction match! Instruction was {:?}", inst))?
@@ -501,8 +504,8 @@ impl Machine {
 		let local_data = self.int_reg.get_reg(inst.rs1);
 		let result = match inst.funct3 {
 			RISCV_OPIW_ADDIW =>	local_data + inst.imm12_I_signed as i64,
-			RISCV_OPIW_SLLIW =>	local_data << inst.shamt,
+			RISCV_OPIW_SLLIW =>	local_data << inst.rs2,
-			RISCV_OPIW_SRW => (local_data >> inst.shamt) & if inst.funct7 == RISCV_OPIW_SRW_SRLIW { self.shiftmask[32 + inst.shamt as usize] as i64 } else { 1 },
+			RISCV_OPIW_SRW => (local_data >> inst.rs2) & if inst.funct7 == RISCV_OPIW_SRW_SRLIW { self.shiftmask[32 + inst.rs2 as usize] as i64 } else { 1 },
 			_ => Err(format!("Unreachable in op_instruction match! Instruction was {:?}", inst))?
 		};
 		self.int_reg.set_reg(inst.rd, result);
@@ -519,7 +522,7 @@ impl Machine {
 
 			// Match case for multiplication operations (in standard extension RV32M)
 			match inst.funct3 {
-				RISCV_OPW_M_MULW =>	self.int_reg.set_reg(inst.rd, local_data_a * local_data_b),
+				RISCV_OPW_M_MULW =>	self.int_reg.set_reg(inst.rd, (local_data_a * local_data_b) & 0xffffffff),
 				RISCV_OPW_M_DIVW =>	self.int_reg.set_reg(inst.rd, local_data_a / local_data_b),
 				RISCV_OPW_M_DIVUW => self.int_reg.set_reg(inst.rd, local_data_a_unsigned / local_data_b_unsigned),
 				RISCV_OPW_M_REMW => self.int_reg.set_reg(inst.rd, local_data_a % local_data_b),
@@ -538,9 +541,9 @@ impl Machine {
 									},
 				RISCV_OPW_SLLW => self.int_reg.set_reg(inst.rd, local_dataa << (local_datab & 0x1f)),
 				RISCV_OPW_SRW => if inst.funct7 == RISCV_OPW_SRW_SRLW {
-									self.int_reg.set_reg(inst.rd, local_dataa >> (local_datab & 0x1f) & self.shiftmask[32 + local_datab as usize] as i64)
+									self.int_reg.set_reg(inst.rd, local_dataa >> (local_datab /* & 0x1f */) & self.shiftmask[32 + local_datab as usize] as i64)
 								} else { // SRAW
-									self.int_reg.set_reg(inst.rd, local_dataa >> (local_datab & 0x1f))
+									self.int_reg.set_reg(inst.rd, local_dataa >> (local_datab /* & 0x1f */))
 								},
 				_ => Err(format!("Unreachable in opw_instruction match! Instruction was {:?}", inst))?
 			}

src/simulator/mem_cmp.rs

@@ -36,14 +36,22 @@ pub struct Section{
 }
 
 impl Section {
-
     /// Creates a memory section from a SectionFormat
-    fn from(section: &SectionFormat) -> Section {
+    fn from(section: &mut SectionFormat) -> Section {
         let addr = usize::from_str_radix(&section.addr, 16).unwrap_or_default();
         let len = usize::from_str_radix(&section.len, 16).unwrap_or_default();
-        let content: Vec<u8> = section.content.as_bytes().chunks(2).map(|x| {
+        let content: Vec<u8>;
-            u8::from_str_radix(std::str::from_utf8(x).unwrap_or_default(), 16).unwrap_or_default()
+        unsafe {
-        }).collect();
+            content = section.content.as_bytes_mut()
+                .chunks_mut(4).map(
+                    |x| {
+                        x.reverse();
+                        u8::from_str_radix(
+                            std::str::from_utf8(x).unwrap_or_default(), 16
+                        ).unwrap_or_default()
+                    }
+                ).collect();
+        }
         Section { addr, len, content }
     }
 
@@ -126,12 +134,12 @@ impl MemChecker{
             }
             else {
                 //lecture ligne CONTENT
-                let section_f = SectionFormat{
+                let mut section_f = SectionFormat {
                     addr: tmp_addr_str.clone(),
                     len: tmp_len_str.clone(),
                     content: current_line.clone().replace(' ', ""),
                 };
-                sections.push(Section::from(&section_f));
+                sections.push(Section::from(&mut section_f));
             }
 
         }
@@ -235,12 +243,12 @@ mod tests {
 
     #[test]
     fn test_create_section_content(){
-        let section_format = SectionFormat{
+        let mut section_format = SectionFormat{
             addr: "0".to_string(),
             len: "0".to_string(),
             content: "00FF0AA0A5".to_string(),
         };
-        let section = Section::from(&section_format);
+        let section = Section::from(&mut section_format);
         let expected_vec:  Vec<u8> = vec![0u8, 255u8, 10u8, 160u8, 165u8];
         assert_eq!(section.content, expected_vec);
     }

src/simulator/mod.rs

@@ -214,7 +214,7 @@ pub mod global {
     /// 
     /// Shift left logical immediate
     /// 
-    /// `SLLI rd, rs1, shamt` => `rd <- rs1 >> shamt`
+    /// `SLLI rd, rs1, shamt` => `rd <- rs1 << shamt`
     pub const RISCV_OPI_SLLI: u8 = 0x1;
     /// Shift right immediate, may be SRAI or SRLI
     pub const RISCV_OPI_SRI: u8 = 0x5;

src/utility/cfg.rs

@@ -93,24 +93,29 @@ pub fn read_settings() -> Result<Settings, Error> {
 }
 
 /// Returns a mock configuration for Machine unit testing
+/// 
 /// FIXME: Does not cover the whole configuration yet
 pub fn get_debug_configuration() -> Settings {
     let mut settings_map = Settings::new();
-    settings_map.insert(MachineSettingKey::PageSize, 128);
+    settings_map.insert(MachineSettingKey::PageSize, 2048);
-    settings_map.insert(MachineSettingKey::NumPhysPages, 400);
+    settings_map.insert(MachineSettingKey::NumPhysPages, 8192);
+    settings_map.insert(MachineSettingKey::UserStackSize, 4096);
     settings_map
 }
 
+/// Removes comments and empty lines
 fn filter_garbage<R: std::io::Read>(reader: BufReader<R>) -> Vec<String> {
     reader.lines()
         .map(|l| l.unwrap())
-        .filter(|l| !l.is_empty() && !l.starts_with("#"))
+        .filter(|l| !l.is_empty() && !l.starts_with('#'))
         .collect()
 }
 
+
+/// Inserts user settings into setting map
 fn update_settings_map(mut settings_map: Settings, key: &str, setting: &str) -> Settings {
     let key = MachineSettingKey::from(key);
-    let setting = u64::from_str_radix(setting, 10).unwrap_or(0);
+    let setting = setting.parse::<u64>().unwrap_or(0);
     settings_map.insert(key, setting);
     settings_map
 }

src/utility/list.rs

@@ -9,11 +9,10 @@ use std::ptr;
 /// These methods wrap unsafe instructions because it doesn't respect borrow rules per example
 /// but everything has been tested with miri to assure there's no Undefined Behaviour (use-after-free, double free, etc.)
 /// or memory leak
-#[derive(PartialEq)]
+#[derive(PartialEq, Clone, Debug)]
-#[derive(Clone)]
 pub struct List<T: PartialEq> {
     head: Link<T>,
-    tail: *mut Node<T>,
+    tail: Link<T>,
 }
 
 type Link<T> = *mut Node<T>;

test/riscv_instructions/boolean_logic/comparisons.c

@@ -1,15 +1,13 @@
 int main() {
     int x = 0;
     int y = 1;
-    while (x <= y) {
     if (x > y) {
         x += 1;
-        } else if (x == y) {
+    }
+    if (x == y) {
         x += y;
-        } else if (x < y) {
+    }
+    if (x < y) {
         y += 1;
-        } else {
-            return 0;
-        }
     }
 }

test/syscall_tests/Makefile

@@ -1,4 +1,4 @@
-PROGRAMS = halt.guac prints.guac producteur_consommateur.guac
+PROGRAMS = halt.guac prints.guac producteur_consommateur.guac lecteur_redacteur.guac join.guac matmult.guac
 TOPDIR = ../..
 include $(TOPDIR)/Makefile.rules
 

test/syscall_tests/join.c

@@ -0,0 +1,26 @@
+#include "userlib/syscall.h"
+#include "userlib/libnachos.h"
+
+void thread1() {
+    for(int i = 0; i < 10; i++) 
+    {
+        n_printf("Hello from th1\n");
+    }
+}
+
+void thread2() {
+    for(int i = 0; i < 10; i++) 
+    {
+        n_printf("Hello from th2\n");
+    }
+}
+
+
+int main() {
+    ThreadId th1 = threadCreate("thread 1", thread1);
+    ThreadId th2 = threadCreate("thread 2", thread2);
+    Join(th1);
+    Join(th2);
+    Shutdown();
+    return 0;
+}

test/syscall_tests/lecteur_redacteur.c

@@ -0,0 +1,60 @@
+#include "userlib/syscall.h"
+#include "userlib/libnachos.h"
+
+SemId red;
+SemId mutex;
+SemId util;
+int nblect = 0;
+int nbWrite = 0;
+
+void lecteur() {
+    while(1) {
+        P(red);
+        P(mutex);
+        if (nblect == 0) {
+            V(util);
+        }
+        nblect++;
+        V(mutex);
+        V(red);
+        n_printf("Lecture de l'information \n");
+        if(nbWrite == 10)
+            return;
+        P(mutex);
+        nblect--;
+        if(nblect == 0) {
+            V(util);
+        }
+        V(mutex);
+    }
+    Exit(nblect);
+}
+
+void redacteur() {
+    while(1) {
+        P(red);
+        P(util);
+        V(red);
+        n_printf((char*)"Ecriture de l'information\n");
+        nbWrite++;
+        if(nbWrite == 10)
+            return;
+        V(util);
+    }
+    Exit(nbWrite);
+}
+
+int main() {
+    red = SemCreate((char*)"redacteur", 1);
+    mutex = SemCreate((char*)"mutex lecteur redacteur", 1);
+    util = SemCreate((char*)"Mutex util lecteur redacteur", 1);
+    ThreadId lecteurTh = threadCreate((char*)"Lecteur", (VoidNoArgFunctionPtr) lecteur);
+    ThreadId lecteur1 = threadCreate((char*)"Lecteur", (VoidNoArgFunctionPtr) lecteur);
+    ThreadId lecteur2 = threadCreate((char*)"Lecteur", (VoidNoArgFunctionPtr) lecteur);
+    ThreadId redacteurTh = threadCreate((char*)"redacteur", (VoidNoArgFunctionPtr) redacteur);
+    Join(lecteurTh);
+    Join(lecteur1);
+    Join(lecteur2);
+    Join(redacteurTh);
+    return 0;
+}

test/syscall_tests/matmult.c

@@ -0,0 +1,60 @@
+/* matmult.c 
+ *    Test program to do matrix multiplication on large arrays.
+ *
+ *    Intended to stress virtual memory system.
+ *
+ *    Ideally, we could read the matrices off of the file system,
+ *	and store the result back to the file system!
+ *
+ * -----------------------------------------------------
+ * This file is part of the Nachos-RiscV distribution
+ * Copyright (c) 2022 University of Rennes 1.
+ * 
+ * This program is free software: you can redistribute it and/or modify  
+ * it under the terms of the GNU General Public License as published by  
+ * the Free Software Foundation, version 3.
+ *
+ * This program is distributed in the hope that it will be useful, but 
+ * WITHOUT ANY WARRANTY; without even the implied warranty of 
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 
+ * General Public License for more details 
+ * (see see <http://www.gnu.org/licenses/>).
+ * -----------------------------------------------------
+
+ */
+
+#include "userlib/syscall.h"
+
+#define Dim 	10	/* sum total of the arrays doesn't fit in 
+			 * physical memory 
+			 */
+
+/* The matrices to be filled-in and multiplied */
+int A[Dim][Dim];
+int B[Dim][Dim];
+int C[Dim][Dim];
+
+int
+main()
+{
+    int i, j, k;
+
+    Write("Start matmult\n",14,CONSOLE_OUTPUT);
+    
+    for (i = 0; i < Dim; i++)		/* first initialize the matrices */
+	for (j = 0; j < Dim; j++) {
+	     A[i][j] = i;
+	     B[i][j] = j;
+	     C[i][j] = 0;
+	}
+
+    for (i = 0; i < Dim; i++)		/* then multiply them together */
+	for (j = 0; j < Dim; j++)
+            for (k = 0; k < Dim; k++)
+		 C[i][j] += A[i][k] * B[k][j];
+
+  
+    Exit(C[Dim-1][Dim-1]);		/* and then we're done */
+
+    return 0;
+}

test/syscall_tests/prints.c

@@ -2,9 +2,10 @@
 #include "userlib/libnachos.h"
 
 int main() {
-    n_printf("Hello World 1");
+    n_printf("Hello World 1\n");
-    n_printf("Hello World 2");
+    n_printf("Hello World 2\n");
-    n_printf("Hello World 3");
+    n_printf("Hello World 3\n");
-    n_printf("Hello World 4");
+    n_printf("Hello World 4\n");
+    Shutdown();
     return 0;
 }

test/syscall_tests/producteur_consommateur.c

@@ -9,9 +9,32 @@ int tab[3];
 SemId svide;
 SemId splein;
 
-void producteur();
+void producteur() {
+    for(int i = 0; i < 10; i++) 
+    {
+        n_printf("batir une information\n");
+        P(svide);
+        iplein = (iplein + 1) % N;
+        // n_printf("communique une information : %d\n", i);
+        tab[iplein] = i;
+        V(splein);
+    }
+}
 
-void consommateur();
+void consommateur() {
+    int sum = 0;
+    for(int i = 0; i < 10; i++) 
+    {
+        P(splein);
+        ivide = (ivide +1) % N;
+        n_printf("recevoir une information\n");
+        int info = tab[ivide];
+        V(svide);
+        sum += info;
+        // n_printf("exploiter l'information : %d\n", info);
+    }
+    Exit(sum);
+}
 
 int main() {
     svide = SemCreate("producteur", N);
@@ -20,29 +43,6 @@ int main() {
     ThreadId consommateurTh = threadCreate("consommateur", consommateur);
     Join(producteurTh);
     Join(consommateurTh);
+    Shutdown();
     return 0;
 }
-
-void producteur() {
-    for(int i = 0; i < 10; i++) 
-    {
-        n_printf("batir une information\n");
-        P(svide);
-        iplein = (iplein + 1) % N;
-        n_printf("communique une information : %d\n", i);
-        tab[iplein] = i;
-        V(splein);
-    }
-}
-
-void consommateur() {
-    for(int i = 0; i < 10; i++) 
-    {
-        P(splein);
-        ivide = (ivide +1) % N;
-        n_printf("recevoir une information\n");
-        int info = tab[ivide];
-        V(svide);
-        n_printf("exploiter l'information : %d\n", info);
-    }
-}

userlib/sys.s

@@ -1,5 +1,5 @@
 /* Start.s 
- *	Assembly language assist for user programs running on top of Nachos.
+ *	Assembly language assist for user programs running on top of BurritOS.
  *
  *	Since we don't want to pull in the entire C library, we define
  *	what we need for a user program here, namely Start and the system