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//! Some common traits used by minidump-related crates.
use debugid::{CodeId, DebugId};
use range_map::{Range, RangeMap};
use std::borrow::Cow;
use std::cmp;
use std::fmt::Debug;
/// An executable or shared library loaded in a process.
pub trait Module {
/// The base address of this code module as it was loaded by the process.
fn base_address(&self) -> u64;
/// The size of the code module.
fn size(&self) -> u64;
/// The path or file name that the code module was loaded from.
fn code_file(&self) -> Cow<str>;
/// An identifying string used to discriminate between multiple versions and
/// builds of the same code module. This may contain a uuid, timestamp,
/// version number, or any combination of this or other information, in an
/// implementation-defined format.
fn code_identifier(&self) -> Option<CodeId>;
/// The filename containing debugging information associated with the code
/// module. If debugging information is stored in a file separate from the
/// code module itself (as is the case when .pdb or .dSYM files are used),
/// this will be different from code_file. If debugging information is
/// stored in the code module itself (possibly prior to stripping), this
/// will be the same as code_file.
fn debug_file(&self) -> Option<Cow<str>>;
/// An identifying string similar to code_identifier, but identifies a
/// specific version and build of the associated debug file. This may be
/// the same as code_identifier when the debug_file and code_file are
/// identical or when the same identifier is used to identify distinct
/// debug and code files.
fn debug_identifier(&self) -> Option<DebugId>;
/// A human-readable representation of the code module's version.
fn version(&self) -> Option<Cow<str>>;
}
/// Implement Module for 2-tuples of (&str, DebugId) for convenience.
/// `breakpad-symbols`' `Symbolizer::get_symbol_at_address` uses this.
impl<'a> Module for (&'a str, DebugId) {
fn base_address(&self) -> u64 {
0
}
fn size(&self) -> u64 {
0
}
fn code_file(&self) -> Cow<str> {
Cow::Borrowed("")
}
fn code_identifier(&self) -> Option<CodeId> {
None
}
fn debug_file(&self) -> Option<Cow<str>> {
let &(file, _id) = self;
Some(Cow::Borrowed(file))
}
fn debug_identifier(&self) -> Option<DebugId> {
let &(_file, id) = self;
Some(id)
}
fn version(&self) -> Option<Cow<str>> {
None
}
}
/// This trait exists to allow creating `RangeMap`s from possibly-overlapping input data.
///
/// The `RangeMap` struct will panic if you attempt to initialize it with overlapping data,
/// and we deal with many sources of untrusted input data that could run afoul of this.
pub trait IntoRangeMapSafe<V>: IntoIterator<Item = (Option<Range<u64>>, V)> + Sized
where
V: Clone + Debug + Eq,
{
fn into_rangemap_safe(self) -> RangeMap<u64, V> {
let mut input: Vec<_> = self.into_iter().collect();
input.sort_by_key(|x| x.0);
let mut vec: Vec<(Range<u64>, V)> = Vec::with_capacity(input.len());
for (range, val) in input.into_iter() {
if range.is_none() {
// warn!("Unable to create valid range for {:?}", val);
continue;
}
let range = range.unwrap();
if let Some(&mut (ref mut last_range, ref last_val)) = vec.last_mut() {
if range.start <= last_range.end && &val != last_val {
// This logging is nice to have but some symbol files are absolutely
// horribly polluted with duplicate entries with different values(!!!)
// and this generates literally a gigabyte of logs, yikes!
/*
warn!("overlapping ranges {:?} and {:?}", last_range, range);
warn!(" value1: {:?}", last_val);
warn!(" value2: {:?}\n", val);
*/
continue;
}
if range.start <= last_range.end.saturating_add(1) && &val == last_val {
last_range.end = cmp::max(range.end, last_range.end);
continue;
}
}
vec.push((range, val));
}
RangeMap::try_from_iter(vec).unwrap()
}
}
impl<I, V> IntoRangeMapSafe<V> for I
where
I: IntoIterator<Item = (Option<Range<u64>>, V)> + Sized,
V: Clone + Debug + Eq,
{
}