use crate::arch::interrupt::{TrapFrame, Context as ArchContext}; use crate::memory::{MemoryArea, MemoryAttr, MemorySet, KernelStack, active_table_swap, alloc_frame, InactivePageTable0, memory_set_record}; use xmas_elf::{ElfFile, header, program::{Flags, ProgramHeader, Type}}; use core::fmt::{Debug, Error, Formatter}; use alloc::{boxed::Box, collections::BTreeMap, vec::Vec, sync::Arc, string::String}; use ucore_memory::{Page}; use ucore_memory::memory_set::*; use ucore_process::Context; use simple_filesystem::file::File; use spin::Mutex; use log::*; // TODO: avoid pub pub struct ContextImpl { pub arch: ArchContext, pub memory_set: MemorySet, pub kstack: KernelStack, pub files: BTreeMap>>, pub cwd: String, } impl Context for ContextImpl { unsafe fn switch_to(&mut self, target: &mut Context) { use core::mem::transmute; let (target, _): (&mut ContextImpl, *const ()) = transmute(target); self.arch.switch(&mut target.arch); } } impl ContextImpl { pub unsafe fn new_init() -> Box { Box::new(ContextImpl { arch: ArchContext::null(), memory_set: MemorySet::new(), kstack: KernelStack::new(), files: BTreeMap::default(), cwd: String::new(), }) } pub fn new_kernel(entry: extern fn(usize) -> !, arg: usize) -> Box { let memory_set = MemorySet::new(); let kstack = KernelStack::new(); Box::new(ContextImpl { arch: unsafe { ArchContext::new_kernel_thread(entry, arg, kstack.top(), memory_set.token()) }, memory_set, kstack, files: BTreeMap::default(), cwd: String::new(), }) } pub fn new_user_test(entry: extern fn(usize) -> !) -> Self { let ms = MemorySet::new(); let user_stack = ::memory::alloc_stack(); Context { arch: unsafe { ArchContext::new_user_thread(entry as usize, user_stack.top - 8, ms.kstack_top(), false, ms.token()) }, memory_set: ms, } } /// Make a new user thread from ELF data /* * @param: * data: the ELF data stream * @brief: * make a new thread from ELF data * @retval: * the new user thread Context */ pub fn new_user<'a, Iter>(data: &[u8], args: Iter) -> Box where Iter: Iterator { // Parse elf let elf = ElfFile::new(data).expect("failed to read elf"); let is32 = match elf.header.pt2 { header::HeaderPt2::Header32(_) => true, header::HeaderPt2::Header64(_) => false, }; assert_eq!(elf.header.pt2.type_().as_type(), header::Type::Executable, "ELF is not executable"); // User stack use crate::consts::{USER_STACK_OFFSET, USER_STACK_SIZE, USER32_STACK_OFFSET}; let (ustack_buttom, mut ustack_top) = match is32 { true => (USER32_STACK_OFFSET, USER32_STACK_OFFSET + USER_STACK_SIZE), false => (USER_STACK_OFFSET, USER_STACK_OFFSET + USER_STACK_SIZE), }; // Make page table let mut memory_set = memory_set_from(&elf); // add the new memory set to the recorder let mmset_ptr = ((&mut memory_set) as * mut MemorySet) as usize; memory_set_record().push_back(mmset_ptr); //let id = memory_set_record().iter() // .position(|x| unsafe { info!("current memory set record include {:x?}, {:x?}", x, (*(x.clone() as *mut MemorySet)).get_page_table_mut().token()); false }); memory_set.push(MemoryArea::new(ustack_buttom, ustack_top, MemoryAttr::default().user(), "user_stack")); trace!("{:#x?}", memory_set); let entry_addr = elf.header.pt2.entry_point() as usize; // Temporary switch to it, in order to copy data unsafe { memory_set.with(|| { for ph in elf.program_iter() { let virt_addr = ph.virtual_addr() as usize; let offset = ph.offset() as usize; let file_size = ph.file_size() as usize; let mem_size = ph.mem_size() as usize; let target = unsafe { ::core::slice::from_raw_parts_mut(virt_addr as *mut u8, mem_size) }; if file_size != 0 { target[..file_size].copy_from_slice(&data[offset..offset + file_size]); } target[file_size..].iter_mut().for_each(|x| *x = 0); } ustack_top = push_args_at_stack(args, ustack_top); }); } let kstack = KernelStack::new(); { let mut mmset_record = memory_set_record(); let id = mmset_record.iter() .position(|x| x.clone() == mmset_ptr).expect("id not exist"); mmset_record.remove(id); } let mut ret = Box::new(ContextImpl { arch: unsafe { ArchContext::new_user_thread( entry_addr, ustack_top, kstack.top(), is32, memory_set.token()) }, memory_set, kstack, files: BTreeMap::default(), cwd: String::new(), }); //set the user Memory pages in the memory set swappable memory_set_map_swappable(ret.get_memory_set_mut()); ret } /// Fork pub fn fork(&self, tf: &TrapFrame) -> Box { info!("COME into fork!"); // Clone memory set, make a new page table let mut memory_set = self.memory_set.clone(); info!("finish mmset clone in fork!"); // add the new memory set to the recorder info!("fork! new page table token: {:x?}", memory_set.token()); let mmset_ptr = ((&mut memory_set) as * mut MemorySet) as usize; memory_set_record().push_back(mmset_ptr); info!("before copy data to temp space"); // Copy data to temp space use alloc::vec::Vec; let datas: Vec> = memory_set.iter().map(|area| { Vec::from(unsafe { area.as_slice() }) }).collect(); info!("Finish copy data to temp space."); // Temporarily switch to it, in order to copy data unsafe { memory_set.with(|| { for (area, data) in memory_set.iter().zip(datas.iter()) { area.as_slice_mut().copy_from_slice(data.as_slice()) } }); } info!("temporary copy data!"); let kstack = KernelStack::new(); // remove the raw pointer for the memory set in memory_set_record { let mut mmset_record = memory_set_record(); let id = mmset_record.iter() .position(|x| x.clone() == mmset_ptr).expect("id not exist"); mmset_record.remove(id); } let mut ret = Box::new(ContextImpl { arch: unsafe { ArchContext::new_fork(tf, kstack.top(), memory_set.token()) }, memory_set, kstack, files: BTreeMap::default(), cwd: String::new(), }); memory_set_map_swappable(ret.get_memory_set_mut()); info!("FORK() finsihed!"); ret } pub fn get_memory_set_mut(&mut self) -> &mut MemorySet { &mut self.memory_set } } impl Drop for ContextImpl{ fn drop(&mut self){ info!("come in to drop for ContextImpl"); //set the user Memory pages in the memory set unswappable let Self {ref mut arch, ref mut memory_set, ref mut kstack, ..} = self; let pt = { memory_set.get_page_table_mut() as *mut InactivePageTable0 }; for area in memory_set.iter(){ for page in Page::range_of(area.get_start_addr(), area.get_end_addr()) { let addr = page.start_address(); unsafe { active_table_swap().remove_from_swappable(pt, addr, || alloc_frame().expect("alloc frame failed")); } } } debug!("Finishing setting pages unswappable"); } } impl Debug for ContextImpl { fn fmt(&self, f: &mut Formatter) -> Result<(), Error> { write!(f, "{:x?}", self.arch) } } /// Push a slice at the stack. Return the new sp. unsafe fn push_slice(mut sp: usize, vs: &[T]) -> usize { use core::{mem::{size_of, align_of}, slice}; sp -= vs.len() * size_of::(); sp -= sp % align_of::(); slice::from_raw_parts_mut(sp as *mut T, vs.len()) .copy_from_slice(vs); sp } unsafe fn push_args_at_stack<'a, Iter>(args: Iter, stack_top: usize) -> usize where Iter: Iterator { use core::{ptr, slice}; let mut sp = stack_top; let mut argv = Vec::new(); for arg in args { sp = push_slice(sp, &[0u8]); sp = push_slice(sp, arg.as_bytes()); argv.push(sp); } sp = push_slice(sp, argv.as_slice()); sp = push_slice(sp, &[argv.len()]); sp } /* * @param: * elf: the source ELF file * @brief: * generate a memory set according to the elf file * @retval: * the new memory set */ fn memory_set_from<'a>(elf: &'a ElfFile<'a>) -> MemorySet { debug!("come in to memory_set_from"); let mut set = MemorySet::new(); for ph in elf.program_iter() { if ph.get_type() != Ok(Type::Load) { continue; } let (virt_addr, mem_size, flags) = match ph { ProgramHeader::Ph32(ph) => (ph.virtual_addr as usize, ph.mem_size as usize, ph.flags), ProgramHeader::Ph64(ph) => (ph.virtual_addr as usize, ph.mem_size as usize, ph.flags), }; set.push(MemoryArea::new(virt_addr, virt_addr + mem_size, memory_attr_from(flags), "")); } set } fn memory_attr_from(elf_flags: Flags) -> MemoryAttr { let mut flags = MemoryAttr::default().user(); // TODO: handle readonly if elf_flags.is_execute() { flags = flags.execute(); } flags } /* * @param: * memory_set: the target MemorySet to set swappable * @brief: * map the memory area in the memory_set swappalbe, specially for the user process */ pub fn memory_set_map_swappable(memory_set: &mut MemorySet){ info!("COME INTO memory set map swappable!"); let pt = unsafe { memory_set.get_page_table_mut() as *mut InactivePageTable0 }; for area in memory_set.iter(){ for page in Page::range_of(area.get_start_addr(), area.get_end_addr()) { let addr = page.start_address(); unsafe { active_table_swap().set_swappable(pt, addr); } } } info!("Finishing setting pages swappable"); }