use core::intrinsics::unlikely; use alloc::sync::Arc; use crate::{ arch::MMArch, kerror, libs::align::{check_aligned, page_align_up}, mm::MemoryManagementArch, syscall::{Syscall, SystemError}, }; use super::{ allocator::page_frame::{PageFrameCount, VirtPageFrame}, ucontext::{AddressSpace, DEFAULT_MMAP_MIN_ADDR}, verify_area, VirtAddr, }; bitflags! { /// Memory protection flags pub struct ProtFlags: u64 { const PROT_NONE = 0x0; const PROT_READ = 0x1; const PROT_WRITE = 0x2; const PROT_EXEC = 0x4; } /// Memory mapping flags pub struct MapFlags: u64 { const MAP_NONE = 0x0; /// share changes const MAP_SHARED = 0x1; /// changes are private const MAP_PRIVATE = 0x2; /// Interpret addr exactly const MAP_FIXED = 0x10; /// don't use a file const MAP_ANONYMOUS = 0x20; // linux-6.1-rc5/include/uapi/asm-generic/mman.h#7 /// stack-like segment const MAP_GROWSDOWN = 0x100; /// ETXTBSY const MAP_DENYWRITE = 0x800; /// Mark it as an executable const MAP_EXECUTABLE = 0x1000; /// Pages are locked const MAP_LOCKED = 0x2000; /// don't check for reservations const MAP_NORESERVE = 0x4000; /// populate (prefault) pagetables const MAP_POPULATE = 0x8000; /// do not block on IO const MAP_NONBLOCK = 0x10000; /// give out an address that is best suited for process/thread stacks const MAP_STACK = 0x20000; /// create a huge page mapping const MAP_HUGETLB = 0x40000; /// perform synchronous page faults for the mapping const MAP_SYNC = 0x80000; /// MAP_FIXED which doesn't unmap underlying mapping const MAP_FIXED_NOREPLACE = 0x100000; /// For anonymous mmap, memory could be uninitialized const MAP_UNINITIALIZED = 0x4000000; } } impl Syscall { pub fn brk(new_addr: VirtAddr) -> Result { // kdebug!("brk: new_addr={:?}", new_addr); let address_space = AddressSpace::current()?; let mut address_space = address_space.write(); if new_addr < address_space.brk_start || new_addr >= MMArch::USER_END_VADDR { return Ok(address_space.brk); } if new_addr == address_space.brk { return Ok(address_space.brk); } unsafe { address_space .set_brk(VirtAddr::new(page_align_up(new_addr.data()))) .ok(); return Ok(address_space.sbrk(0).unwrap()); } } pub fn sbrk(incr: isize) -> Result { let address_space = AddressSpace::current()?; assert!(address_space.read().user_mapper.utable.is_current()); let mut address_space = address_space.write(); let r = unsafe { address_space.sbrk(incr) }; return r; } /// ## mmap系统调用 /// /// 该函数的实现参考了Linux内核的实现,但是并不完全相同。因为有些功能咱们还没实现 /// /// ## 参数 /// /// - `start_vaddr`:映射的起始地址 /// - `len`:映射的长度 /// - `prot`:保护标志 /// - `flags`:映射标志 /// - `fd`:文件描述符(暂时不支持) /// - `offset`:文件偏移量 (暂时不支持) /// /// ## 返回值 /// /// 成功时返回映射的起始地址,失败时返回错误码 pub fn mmap( start_vaddr: VirtAddr, len: usize, prot_flags: usize, map_flags: usize, _fd: i32, _offset: usize, ) -> Result { let map_flags = MapFlags::from_bits_truncate(map_flags as u64); let prot_flags = ProtFlags::from_bits_truncate(prot_flags as u64); if start_vaddr < VirtAddr::new(DEFAULT_MMAP_MIN_ADDR) && map_flags.contains(MapFlags::MAP_FIXED) { kerror!( "mmap: MAP_FIXED is not supported for address below {}", DEFAULT_MMAP_MIN_ADDR ); return Err(SystemError::EINVAL); } // 暂时不支持除匿名页以外的映射 if !map_flags.contains(MapFlags::MAP_ANONYMOUS) { kerror!("mmap: not support file mapping"); return Err(SystemError::EOPNOTSUPP_OR_ENOTSUP); } // 暂时不支持巨页映射 if map_flags.contains(MapFlags::MAP_HUGETLB) { kerror!("mmap: not support huge page mapping"); return Err(SystemError::EOPNOTSUPP_OR_ENOTSUP); } let current_address_space = AddressSpace::current()?; let start_page = current_address_space.write().map_anonymous( start_vaddr, len, prot_flags, map_flags, true, )?; return Ok(start_page.virt_address().data()); } /// ## munmap系统调用 /// /// ## 参数 /// /// - `start_vaddr`:取消映射的起始地址(已经对齐到页) /// - `len`:取消映射的字节数(已经对齐到页) /// /// ## 返回值 /// /// 成功时返回0,失败时返回错误码 pub fn munmap(start_vaddr: VirtAddr, len: usize) -> Result { assert!(start_vaddr.check_aligned(MMArch::PAGE_SIZE)); assert!(check_aligned(len, MMArch::PAGE_SIZE)); if unlikely(verify_area(start_vaddr, len).is_err()) { return Err(SystemError::EINVAL); } if unlikely(len == 0) { return Err(SystemError::EINVAL); } let current_address_space: Arc = AddressSpace::current()?; let start_frame = VirtPageFrame::new(start_vaddr); let page_count = PageFrameCount::new(len / MMArch::PAGE_SIZE); current_address_space .write() .munmap(start_frame, page_count) .map_err(|_| SystemError::EINVAL)?; return Ok(0); } /// ## mprotect系统调用 /// /// ## 参数 /// /// - `start_vaddr`:起始地址(已经对齐到页) /// - `len`:长度(已经对齐到页) /// - `prot_flags`:保护标志 pub fn mprotect( start_vaddr: VirtAddr, len: usize, prot_flags: usize, ) -> Result { assert!(start_vaddr.check_aligned(MMArch::PAGE_SIZE)); assert!(check_aligned(len, MMArch::PAGE_SIZE)); if unlikely(verify_area(start_vaddr, len).is_err()) { return Err(SystemError::EINVAL); } if unlikely(len == 0) { return Err(SystemError::EINVAL); } let prot_flags = ProtFlags::from_bits(prot_flags as u64).ok_or(SystemError::EINVAL)?; let current_address_space: Arc = AddressSpace::current()?; let start_frame = VirtPageFrame::new(start_vaddr); let page_count = PageFrameCount::new(len / MMArch::PAGE_SIZE); current_address_space .write() .mprotect(start_frame, page_count, prot_flags) .map_err(|_| SystemError::EINVAL)?; return Ok(0); } }