//! Utilities for parsing DWARF-encoded data streams. //! See , //! DWARF-4 standard, Section 7 - "Data Representation" // This module is used only by x86_64-pc-windows-gnu for now, but we // are compiling it everywhere to avoid regressions. #![allow(unused)] pub mod eh; use core::mem; pub struct DwarfReader { pub ptr: *const u8, } #[repr(C,packed)] struct Unaligned(T); impl DwarfReader { pub fn new(ptr: *const u8) -> DwarfReader { DwarfReader { ptr } } // DWARF streams are packed, so e.g., a u32 would not necessarily be aligned // on a 4-byte boundary. This may cause problems on platforms with strict // alignment requirements. By wrapping data in a "packed" struct, we are // telling the backend to generate "misalignment-safe" code. pub unsafe fn read(&mut self) -> T { let Unaligned(result) = *(self.ptr as *const Unaligned); self.ptr = self.ptr.add(mem::size_of::()); result } // ULEB128 and SLEB128 encodings are defined in Section 7.6 - "Variable // Length Data". pub unsafe fn read_uleb128(&mut self) -> u64 { let mut shift: usize = 0; let mut result: u64 = 0; let mut byte: u8; loop { byte = self.read::(); result |= ((byte & 0x7F) as u64) << shift; shift += 7; if byte & 0x80 == 0 { break; } } result } pub unsafe fn read_sleb128(&mut self) -> i64 { let mut shift: usize = 0; let mut result: u64 = 0; let mut byte: u8; loop { byte = self.read::(); result |= ((byte & 0x7F) as u64) << shift; shift += 7; if byte & 0x80 == 0 { break; } } // sign-extend if shift < 8 * mem::size_of::() && (byte & 0x40) != 0 { result |= (!0 as u64) << shift; } result as i64 } }