//===-- PathMappingList.cpp -----------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include #include #include #include "lldb/Host/FileSystem.h" #include "lldb/Host/PosixApi.h" #include "lldb/Target/PathMappingList.h" #include "lldb/Utility/FileSpec.h" #include "lldb/Utility/Status.h" #include "lldb/Utility/Stream.h" #include "lldb/lldb-private-enumerations.h" using namespace lldb; using namespace lldb_private; namespace { // We must normalize our path pairs that we store because if we don't then // things won't always work. We found a case where if we did: // (lldb) settings set target.source-map . /tmp // We would store a path pairs of "." and "/tmp" as raw strings. If the debug // info contains "./foo/bar.c", the path will get normalized to "foo/bar.c". // When PathMappingList::RemapPath() is called, it expects the path to start // with the raw path pair, which doesn't work anymore because the paths have // been normalized when the debug info was loaded. So we need to store // nomalized path pairs to ensure things match up. std::string NormalizePath(llvm::StringRef path) { // If we use "path" to construct a FileSpec, it will normalize the path for // us. We then grab the string. return FileSpec(path).GetPath(); } } // PathMappingList constructor PathMappingList::PathMappingList() : m_pairs() {} PathMappingList::PathMappingList(ChangedCallback callback, void *callback_baton) : m_pairs(), m_callback(callback), m_callback_baton(callback_baton) {} PathMappingList::PathMappingList(const PathMappingList &rhs) : m_pairs(rhs.m_pairs) {} const PathMappingList &PathMappingList::operator=(const PathMappingList &rhs) { if (this != &rhs) { std::scoped_lock locks(m_mutex, rhs.m_mutex); m_pairs = rhs.m_pairs; m_callback = nullptr; m_callback_baton = nullptr; m_mod_id = rhs.m_mod_id; } return *this; } PathMappingList::~PathMappingList() = default; void PathMappingList::Append(llvm::StringRef path, llvm::StringRef replacement, bool notify) { std::lock_guard lock(m_mutex); ++m_mod_id; m_pairs.emplace_back(pair(NormalizePath(path), NormalizePath(replacement))); if (notify && m_callback) m_callback(*this, m_callback_baton); } void PathMappingList::Append(const PathMappingList &rhs, bool notify) { std::scoped_lock locks(m_mutex, rhs.m_mutex); ++m_mod_id; if (!rhs.m_pairs.empty()) { const_iterator pos, end = rhs.m_pairs.end(); for (pos = rhs.m_pairs.begin(); pos != end; ++pos) m_pairs.push_back(*pos); if (notify && m_callback) m_callback(*this, m_callback_baton); } } bool PathMappingList::AppendUnique(llvm::StringRef path, llvm::StringRef replacement, bool notify) { auto normalized_path = NormalizePath(path); auto normalized_replacement = NormalizePath(replacement); std::lock_guard lock(m_mutex); for (const auto &pair : m_pairs) { if (pair.first.GetStringRef() == normalized_path && pair.second.GetStringRef() == normalized_replacement) return false; } Append(path, replacement, notify); return true; } void PathMappingList::Insert(llvm::StringRef path, llvm::StringRef replacement, uint32_t index, bool notify) { std::lock_guard lock(m_mutex); ++m_mod_id; iterator insert_iter; if (index >= m_pairs.size()) insert_iter = m_pairs.end(); else insert_iter = m_pairs.begin() + index; m_pairs.emplace(insert_iter, pair(NormalizePath(path), NormalizePath(replacement))); if (notify && m_callback) m_callback(*this, m_callback_baton); } bool PathMappingList::Replace(llvm::StringRef path, llvm::StringRef replacement, uint32_t index, bool notify) { std::lock_guard lock(m_mutex); if (index >= m_pairs.size()) return false; ++m_mod_id; m_pairs[index] = pair(NormalizePath(path), NormalizePath(replacement)); if (notify && m_callback) m_callback(*this, m_callback_baton); return true; } bool PathMappingList::Remove(size_t index, bool notify) { std::lock_guard lock(m_mutex); if (index >= m_pairs.size()) return false; ++m_mod_id; iterator iter = m_pairs.begin() + index; m_pairs.erase(iter); if (notify && m_callback) m_callback(*this, m_callback_baton); return true; } // For clients which do not need the pair index dumped, pass a pair_index >= 0 // to only dump the indicated pair. void PathMappingList::Dump(Stream *s, int pair_index) { std::lock_guard lock(m_mutex); unsigned int numPairs = m_pairs.size(); if (pair_index < 0) { unsigned int index; for (index = 0; index < numPairs; ++index) s->Printf("[%d] \"%s\" -> \"%s\"\n", index, m_pairs[index].first.GetCString(), m_pairs[index].second.GetCString()); } else { if (static_cast(pair_index) < numPairs) s->Printf("%s -> %s", m_pairs[pair_index].first.GetCString(), m_pairs[pair_index].second.GetCString()); } } llvm::json::Value PathMappingList::ToJSON() { llvm::json::Array entries; std::lock_guard lock(m_mutex); for (const auto &pair : m_pairs) { llvm::json::Array entry{pair.first.GetStringRef().str(), pair.second.GetStringRef().str()}; entries.emplace_back(std::move(entry)); } return entries; } void PathMappingList::Clear(bool notify) { std::lock_guard lock(m_mutex); if (!m_pairs.empty()) ++m_mod_id; m_pairs.clear(); if (notify && m_callback) m_callback(*this, m_callback_baton); } bool PathMappingList::RemapPath(ConstString path, ConstString &new_path) const { if (std::optional remapped = RemapPath(path.GetStringRef())) { new_path.SetString(remapped->GetPath()); return true; } return false; } /// Append components to path, applying style. static void AppendPathComponents(FileSpec &path, llvm::StringRef components, llvm::sys::path::Style style) { auto component = llvm::sys::path::begin(components, style); auto e = llvm::sys::path::end(components); while (component != e && llvm::sys::path::is_separator(*component->data(), style)) ++component; for (; component != e; ++component) path.AppendPathComponent(*component); } std::optional PathMappingList::RemapPath(llvm::StringRef mapping_path, bool only_if_exists) const { std::lock_guard lock(m_mutex); if (m_pairs.empty() || mapping_path.empty()) return {}; LazyBool path_is_relative = eLazyBoolCalculate; for (const auto &it : m_pairs) { llvm::StringRef prefix = it.first.GetStringRef(); // We create a copy of mapping_path because StringRef::consume_from // effectively modifies the instance itself. llvm::StringRef path = mapping_path; if (!path.consume_front(prefix)) { // Relative paths won't have a leading "./" in them unless "." is the // only thing in the relative path so we need to work around "." // carefully. if (prefix != ".") continue; // We need to figure out if the "path" argument is relative. If it is, // then we should remap, else skip this entry. if (path_is_relative == eLazyBoolCalculate) { path_is_relative = FileSpec(path).IsRelative() ? eLazyBoolYes : eLazyBoolNo; } if (!path_is_relative) continue; } FileSpec remapped(it.second.GetStringRef()); auto orig_style = FileSpec::GuessPathStyle(prefix).value_or( llvm::sys::path::Style::native); AppendPathComponents(remapped, path, orig_style); if (!only_if_exists || FileSystem::Instance().Exists(remapped)) return remapped; } return {}; } std::optional PathMappingList::ReverseRemapPath(const FileSpec &file, FileSpec &fixed) const { std::string path = file.GetPath(); llvm::StringRef path_ref(path); std::lock_guard lock(m_mutex); for (const auto &it : m_pairs) { llvm::StringRef removed_prefix = it.second.GetStringRef(); if (!path_ref.consume_front(it.second.GetStringRef())) continue; auto orig_file = it.first.GetStringRef(); auto orig_style = FileSpec::GuessPathStyle(orig_file).value_or( llvm::sys::path::Style::native); fixed.SetFile(orig_file, orig_style); AppendPathComponents(fixed, path_ref, orig_style); return removed_prefix; } return std::nullopt; } std::optional PathMappingList::FindFile(const FileSpec &orig_spec) const { // We must normalize the orig_spec again using the host's path style, // otherwise there will be mismatch between the host and remote platform // if they use different path styles. if (auto remapped = RemapPath(NormalizePath(orig_spec.GetPath()), /*only_if_exists=*/true)) return remapped; return {}; } bool PathMappingList::Replace(llvm::StringRef path, llvm::StringRef new_path, bool notify) { std::lock_guard lock(m_mutex); uint32_t idx = FindIndexForPath(path); if (idx < m_pairs.size()) { ++m_mod_id; m_pairs[idx].second = ConstString(new_path); if (notify && m_callback) m_callback(*this, m_callback_baton); return true; } return false; } bool PathMappingList::Remove(ConstString path, bool notify) { std::lock_guard lock(m_mutex); iterator pos = FindIteratorForPath(path); if (pos != m_pairs.end()) { ++m_mod_id; m_pairs.erase(pos); if (notify && m_callback) m_callback(*this, m_callback_baton); return true; } return false; } PathMappingList::const_iterator PathMappingList::FindIteratorForPath(ConstString path) const { std::lock_guard lock(m_mutex); const_iterator pos; const_iterator begin = m_pairs.begin(); const_iterator end = m_pairs.end(); for (pos = begin; pos != end; ++pos) { if (pos->first == path) break; } return pos; } PathMappingList::iterator PathMappingList::FindIteratorForPath(ConstString path) { std::lock_guard lock(m_mutex); iterator pos; iterator begin = m_pairs.begin(); iterator end = m_pairs.end(); for (pos = begin; pos != end; ++pos) { if (pos->first == path) break; } return pos; } bool PathMappingList::GetPathsAtIndex(uint32_t idx, ConstString &path, ConstString &new_path) const { std::lock_guard lock(m_mutex); if (idx < m_pairs.size()) { path = m_pairs[idx].first; new_path = m_pairs[idx].second; return true; } return false; } uint32_t PathMappingList::FindIndexForPath(llvm::StringRef orig_path) const { const ConstString path = ConstString(NormalizePath(orig_path)); std::lock_guard lock(m_mutex); const_iterator pos; const_iterator begin = m_pairs.begin(); const_iterator end = m_pairs.end(); for (pos = begin; pos != end; ++pos) { if (pos->first == path) return std::distance(begin, pos); } return UINT32_MAX; }