From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- vendor/rustix/src/backend/linux_raw/vdso.rs | 313 ---------------------------- 1 file changed, 313 deletions(-) delete mode 100644 vendor/rustix/src/backend/linux_raw/vdso.rs (limited to 'vendor/rustix/src/backend/linux_raw/vdso.rs') diff --git a/vendor/rustix/src/backend/linux_raw/vdso.rs b/vendor/rustix/src/backend/linux_raw/vdso.rs deleted file mode 100644 index 102fa6b..0000000 --- a/vendor/rustix/src/backend/linux_raw/vdso.rs +++ /dev/null @@ -1,313 +0,0 @@ -//! Parse the Linux vDSO. -//! -//! The following code is transliterated from -//! tools/testing/selftests/vDSO/parse_vdso.c in Linux 5.11, which is licensed -//! with Creative Commons Zero License, version 1.0, -//! available at -//! -//! # Safety -//! -//! Parsing the vDSO involves a lot of raw pointer manipulation. This -//! implementation follows Linux's reference implementation, and adds several -//! additional safety checks. -#![allow(unsafe_code)] - -use super::c; -use crate::ffi::CStr; -use crate::utils::check_raw_pointer; -use core::ffi::c_void; -use core::mem::size_of; -use core::ptr::{null, null_mut}; -use linux_raw_sys::elf::*; - -pub(super) struct Vdso { - // Load information - load_addr: *const Elf_Ehdr, - load_end: *const c_void, // the end of the `PT_LOAD` segment - pv_offset: usize, // recorded paddr - recorded vaddr - - // Symbol table - symtab: *const Elf_Sym, - symstrings: *const u8, - bucket: *const u32, - chain: *const u32, - nbucket: u32, - //nchain: u32, - - // Version table - versym: *const u16, - verdef: *const Elf_Verdef, -} - -// Straight from the ELF specification. -fn elf_hash(name: &CStr) -> u32 { - let mut h: u32 = 0; - for b in name.to_bytes() { - h = (h << 4).wrapping_add(u32::from(*b)); - let g = h & 0xf000_0000; - if g != 0 { - h ^= g >> 24; - } - h &= !g; - } - h -} - -/// Create a `Vdso` value by parsing the vDSO at the `sysinfo_ehdr` address. -fn init_from_sysinfo_ehdr() -> Option { - // SAFETY: The auxv initialization code does extensive checks to ensure - // that the value we get really is an `AT_SYSINFO_EHDR` value from the - // kernel. - unsafe { - let hdr = super::param::auxv::sysinfo_ehdr(); - - // If the platform doesn't provide a `AT_SYSINFO_EHDR`, we can't locate - // the vDSO. - if hdr.is_null() { - return None; - } - - let mut vdso = Vdso { - load_addr: hdr, - load_end: hdr.cast(), - pv_offset: 0, - symtab: null(), - symstrings: null(), - bucket: null(), - chain: null(), - nbucket: 0, - //nchain: 0, - versym: null(), - verdef: null(), - }; - - let hdr = &*hdr; - let pt = check_raw_pointer::(vdso.base_plus(hdr.e_phoff)? as *mut _)?.as_ptr(); - let mut dyn_: *const Elf_Dyn = null(); - let mut num_dyn = 0; - - // We need two things from the segment table: the load offset - // and the dynamic table. - let mut found_vaddr = false; - for i in 0..hdr.e_phnum { - let phdr = &*pt.add(i as usize); - if phdr.p_flags & PF_W != 0 { - // Don't trust any vDSO that claims to be loading writable - // segments into memory. - return None; - } - if phdr.p_type == PT_LOAD && !found_vaddr { - // The segment should be readable and executable, because it - // contains the symbol table and the function bodies. - if phdr.p_flags & (PF_R | PF_X) != (PF_R | PF_X) { - return None; - } - found_vaddr = true; - vdso.load_end = vdso.base_plus(phdr.p_offset.checked_add(phdr.p_memsz)?)?; - vdso.pv_offset = phdr.p_offset.wrapping_sub(phdr.p_vaddr); - } else if phdr.p_type == PT_DYNAMIC { - // If `p_offset` is zero, it's more likely that we're looking - // at memory that has been zeroed than that the kernel has - // somehow aliased the `Ehdr` and the `Elf_Dyn` array. - if phdr.p_offset < size_of::() { - return None; - } - - dyn_ = check_raw_pointer::(vdso.base_plus(phdr.p_offset)? as *mut _)? - .as_ptr(); - num_dyn = phdr.p_memsz / size_of::(); - } else if phdr.p_type == PT_INTERP || phdr.p_type == PT_GNU_RELRO { - // Don't trust any ELF image that has an “interpreter” or - // that uses RELRO, which is likely to be a user ELF image - // rather and not the kernel vDSO. - return None; - } - } - - if !found_vaddr || dyn_.is_null() { - return None; // Failed - } - - // Fish out the useful bits of the dynamic table. - let mut hash: *const u32 = null(); - vdso.symstrings = null(); - vdso.symtab = null(); - vdso.versym = null(); - vdso.verdef = null(); - let mut i = 0; - loop { - if i == num_dyn { - return None; - } - let d = &*dyn_.add(i); - match d.d_tag { - DT_STRTAB => { - vdso.symstrings = - check_raw_pointer::(vdso.addr_from_elf(d.d_un.d_ptr)? as *mut _)? - .as_ptr(); - } - DT_SYMTAB => { - vdso.symtab = - check_raw_pointer::(vdso.addr_from_elf(d.d_un.d_ptr)? as *mut _)? - .as_ptr(); - } - DT_HASH => { - hash = check_raw_pointer::(vdso.addr_from_elf(d.d_un.d_ptr)? as *mut _)? - .as_ptr(); - } - DT_VERSYM => { - vdso.versym = - check_raw_pointer::(vdso.addr_from_elf(d.d_un.d_ptr)? as *mut _)? - .as_ptr(); - } - DT_VERDEF => { - vdso.verdef = check_raw_pointer::( - vdso.addr_from_elf(d.d_un.d_ptr)? as *mut _, - )? - .as_ptr(); - } - DT_SYMENT => { - if d.d_un.d_ptr != size_of::() { - return None; // Failed - } - } - DT_NULL => break, - _ => {} - } - i = i.checked_add(1)?; - } - // The upstream code checks `symstrings`, `symtab`, and `hash` for - // null; here, `check_raw_pointer` has already done that. - - if vdso.verdef.is_null() { - vdso.versym = null(); - } - - // Parse the hash table header. - vdso.nbucket = *hash.add(0); - //vdso.nchain = *hash.add(1); - vdso.bucket = hash.add(2); - vdso.chain = hash.add(vdso.nbucket as usize + 2); - - // That's all we need. - Some(vdso) - } -} - -impl Vdso { - /// Parse the vDSO. - /// - /// Returns `None` if the vDSO can't be located or if it doesn't conform to - /// our expectations. - #[inline] - pub(super) fn new() -> Option { - init_from_sysinfo_ehdr() - } - - /// Check the version for a symbol. - /// - /// # Safety - /// - /// The raw pointers inside `self` must be valid. - unsafe fn match_version(&self, mut ver: u16, name: &CStr, hash: u32) -> bool { - // This is a helper function to check if the version indexed by - // ver matches name (which hashes to hash). - // - // The version definition table is a mess, and I don't know how - // to do this in better than linear time without allocating memory - // to build an index. I also don't know why the table has - // variable size entries in the first place. - // - // For added fun, I can't find a comprehensible specification of how - // to parse all the weird flags in the table. - // - // So I just parse the whole table every time. - - // First step: find the version definition - ver &= 0x7fff; // Apparently bit 15 means "hidden" - let mut def = self.verdef; - loop { - if (*def).vd_version != VER_DEF_CURRENT { - return false; // Failed - } - - if ((*def).vd_flags & VER_FLG_BASE) == 0 && ((*def).vd_ndx & 0x7fff) == ver { - break; - } - - if (*def).vd_next == 0 { - return false; // No definition. - } - - def = def - .cast::() - .add((*def).vd_next as usize) - .cast::(); - } - - // Now figure out whether it matches. - let aux = &*(def.cast::()) - .add((*def).vd_aux as usize) - .cast::(); - (*def).vd_hash == hash - && (name == CStr::from_ptr(self.symstrings.add(aux.vda_name as usize).cast())) - } - - /// Look up a symbol in the vDSO. - pub(super) fn sym(&self, version: &CStr, name: &CStr) -> *mut c::c_void { - let ver_hash = elf_hash(version); - let name_hash = elf_hash(name); - - // SAFETY: The pointers in `self` must be valid. - unsafe { - let mut chain = *self.bucket.add((name_hash % self.nbucket) as usize); - - while chain != STN_UNDEF { - let sym = &*self.symtab.add(chain as usize); - - // Check for a defined global or weak function w/ right name. - // - // The reference parser in Linux's parse_vdso.c requires - // symbols to have type `STT_FUNC`, but on powerpc64, the vDSO - // uses `STT_NOTYPE`, so allow that too. - if (ELF_ST_TYPE(sym.st_info) != STT_FUNC && - ELF_ST_TYPE(sym.st_info) != STT_NOTYPE) - || (ELF_ST_BIND(sym.st_info) != STB_GLOBAL - && ELF_ST_BIND(sym.st_info) != STB_WEAK) - || sym.st_shndx == SHN_UNDEF - || sym.st_shndx == SHN_ABS - || ELF_ST_VISIBILITY(sym.st_other) != STV_DEFAULT - || (name != CStr::from_ptr(self.symstrings.add(sym.st_name as usize).cast())) - // Check symbol version. - || (!self.versym.is_null() - && !self.match_version(*self.versym.add(chain as usize), version, ver_hash)) - { - chain = *self.chain.add(chain as usize); - continue; - } - - let sum = self.addr_from_elf(sym.st_value).unwrap(); - assert!( - sum as usize >= self.load_addr as usize - && sum as usize <= self.load_end as usize - ); - return sum as *mut c::c_void; - } - } - - null_mut() - } - - /// Add the given address to the vDSO base address. - unsafe fn base_plus(&self, offset: usize) -> Option<*const c_void> { - // Check for overflow. - let _ = (self.load_addr as usize).checked_add(offset)?; - // Add the offset to the base. - Some(self.load_addr.cast::().add(offset).cast()) - } - - /// Translate an ELF-address-space address into a usable virtual address. - unsafe fn addr_from_elf(&self, elf_addr: usize) -> Option<*const c_void> { - self.base_plus(elf_addr.wrapping_add(self.pv_offset)) - } -} -- cgit v1.2.3