mirror of
https://github.com/RGBCube/serenity
synced 2025-05-18 03:55:08 +00:00
fc6d051dfd
The LexicalPath instance methods dirname(), basename(), title() and extension() will be changed to return StringView const& in a further commit. Due to this, users creating temporary LexicalPath objects just to call one of those getters will recieve a StringView const& pointing to a possible freed buffer. To avoid this, static methods for those APIs have been added, which will return a String by value to avoid those problems. All cases where temporary LexicalPath objects have been used as described above haven been changed to use the static APIs.
504 lines
17 KiB
C++
504 lines
17 KiB
C++
/*
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* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include "Profile.h"
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#include "DisassemblyModel.h"
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#include "ProfileModel.h"
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#include "SamplesModel.h"
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#include <AK/HashTable.h>
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#include <AK/LexicalPath.h>
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#include <AK/MappedFile.h>
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#include <AK/NonnullOwnPtrVector.h>
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#include <AK/QuickSort.h>
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#include <AK/RefPtr.h>
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#include <LibCore/File.h>
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#include <LibELF/Image.h>
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#include <sys/stat.h>
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namespace Profiler {
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static void sort_profile_nodes(Vector<NonnullRefPtr<ProfileNode>>& nodes)
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{
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quick_sort(nodes.begin(), nodes.end(), [](auto& a, auto& b) {
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return a->event_count() >= b->event_count();
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});
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for (auto& child : nodes)
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child->sort_children();
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}
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Profile::Profile(Vector<Process> processes, Vector<Event> events)
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: m_processes(move(processes))
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, m_events(move(events))
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{
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m_first_timestamp = m_events.first().timestamp;
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m_last_timestamp = m_events.last().timestamp;
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m_model = ProfileModel::create(*this);
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m_samples_model = SamplesModel::create(*this);
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rebuild_tree();
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}
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GUI::Model& Profile::model()
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{
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return *m_model;
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}
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GUI::Model& Profile::samples_model()
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{
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return *m_samples_model;
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}
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void Profile::rebuild_tree()
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{
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Vector<NonnullRefPtr<ProfileNode>> roots;
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auto find_or_create_process_node = [this, &roots](pid_t pid, EventSerialNumber serial) -> ProfileNode& {
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auto* process = find_process(pid, serial);
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if (!process) {
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dbgln("Profile contains event for unknown process with pid={}, serial={}", pid, serial.to_number());
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VERIFY_NOT_REACHED();
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}
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for (auto root : roots) {
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if (&root->process() == process)
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return root;
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}
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auto new_root = ProfileNode::create_process_node(*process);
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roots.append(new_root);
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return new_root;
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};
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HashTable<FlatPtr> live_allocations;
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for_each_event_in_filter_range([&](auto& event) {
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if (event.type == "malloc"sv)
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live_allocations.set(event.ptr);
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else if (event.type == "free"sv)
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live_allocations.remove(event.ptr);
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});
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m_filtered_event_indices.clear();
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for (size_t event_index = 0; event_index < m_events.size(); ++event_index) {
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auto& event = m_events.at(event_index);
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if (has_timestamp_filter_range()) {
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auto timestamp = event.timestamp;
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if (timestamp < m_timestamp_filter_range_start || timestamp > m_timestamp_filter_range_end)
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continue;
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}
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if (!process_filter_contains(event.pid, event.serial))
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continue;
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m_filtered_event_indices.append(event_index);
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if (event.type == "malloc"sv && !live_allocations.contains(event.ptr))
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continue;
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if (event.type == "free"sv)
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continue;
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auto for_each_frame = [&]<typename Callback>(Callback callback) {
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if (!m_inverted) {
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for (size_t i = 0; i < event.frames.size(); ++i) {
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if (callback(event.frames.at(i), i == event.frames.size() - 1) == IterationDecision::Break)
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break;
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}
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} else {
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for (ssize_t i = event.frames.size() - 1; i >= 0; --i) {
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if (callback(event.frames.at(i), static_cast<size_t>(i) == event.frames.size() - 1) == IterationDecision::Break)
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break;
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}
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}
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};
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if (!m_show_top_functions) {
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ProfileNode* node = nullptr;
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auto& process_node = find_or_create_process_node(event.pid, event.serial);
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process_node.increment_event_count();
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for_each_frame([&](const Frame& frame, bool is_innermost_frame) {
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auto& object_name = frame.object_name;
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auto& symbol = frame.symbol;
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auto& address = frame.address;
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auto& offset = frame.offset;
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if (symbol.is_empty())
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return IterationDecision::Break;
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// FIXME: More cheating with intentional mixing of TID/PID here:
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if (!node)
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node = &process_node;
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node = &node->find_or_create_child(object_name, symbol, address, offset, event.timestamp, event.pid);
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node->increment_event_count();
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if (is_innermost_frame) {
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node->add_event_address(address);
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node->increment_self_count();
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}
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return IterationDecision::Continue;
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});
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} else {
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auto& process_node = find_or_create_process_node(event.pid, event.serial);
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process_node.increment_event_count();
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for (size_t i = 0; i < event.frames.size(); ++i) {
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ProfileNode* node = nullptr;
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ProfileNode* root = nullptr;
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for (size_t j = i; j < event.frames.size(); ++j) {
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auto& frame = event.frames.at(j);
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auto& object_name = frame.object_name;
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auto& symbol = frame.symbol;
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auto& address = frame.address;
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auto& offset = frame.offset;
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if (symbol.is_empty())
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break;
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// FIXME: More PID/TID mixing cheats here:
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if (!node) {
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node = &find_or_create_process_node(event.pid, event.serial);
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node = &node->find_or_create_child(object_name, symbol, address, offset, event.timestamp, event.pid);
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root = node;
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root->will_track_seen_events(m_events.size());
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} else {
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node = &node->find_or_create_child(object_name, symbol, address, offset, event.timestamp, event.pid);
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}
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if (!root->has_seen_event(event_index)) {
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root->did_see_event(event_index);
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root->increment_event_count();
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} else if (node != root) {
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node->increment_event_count();
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}
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if (j == event.frames.size() - 1) {
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node->add_event_address(address);
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node->increment_self_count();
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}
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}
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}
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}
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}
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sort_profile_nodes(roots);
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m_roots = move(roots);
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m_model->update();
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}
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Result<NonnullOwnPtr<Profile>, String> Profile::load_from_perfcore_file(const StringView& path)
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{
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auto file = Core::File::construct(path);
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if (!file->open(Core::OpenMode::ReadOnly))
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return String::formatted("Unable to open {}, error: {}", path, file->error_string());
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auto json = JsonValue::from_string(file->read_all());
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if (!json.has_value() || !json.value().is_object())
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return String { "Invalid perfcore format (not a JSON object)" };
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auto& object = json.value().as_object();
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auto file_or_error = MappedFile::map("/boot/Kernel");
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OwnPtr<ELF::Image> kernel_elf;
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if (!file_or_error.is_error())
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kernel_elf = make<ELF::Image>(file_or_error.value()->bytes());
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auto events_value = object.get_ptr("events");
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if (!events_value || !events_value->is_array())
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return String { "Malformed profile (events is not an array)" };
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auto& perf_events = events_value->as_array();
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NonnullOwnPtrVector<Process> all_processes;
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HashMap<pid_t, Process*> current_processes;
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Vector<Event> events;
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EventSerialNumber next_serial;
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for (auto& perf_event_value : perf_events.values()) {
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auto& perf_event = perf_event_value.as_object();
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Event event;
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event.serial = next_serial;
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next_serial.increment();
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event.timestamp = perf_event.get("timestamp").to_number<u64>();
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event.lost_samples = perf_event.get("lost_samples").to_number<u32>();
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event.type = perf_event.get("type").to_string();
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event.pid = perf_event.get("pid").to_i32();
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event.tid = perf_event.get("tid").to_i32();
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if (event.type == "malloc"sv) {
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event.ptr = perf_event.get("ptr").to_number<FlatPtr>();
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event.size = perf_event.get("size").to_number<size_t>();
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} else if (event.type == "free"sv) {
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event.ptr = perf_event.get("ptr").to_number<FlatPtr>();
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} else if (event.type == "mmap"sv) {
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event.ptr = perf_event.get("ptr").to_number<FlatPtr>();
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event.size = perf_event.get("size").to_number<size_t>();
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event.name = perf_event.get("name").to_string();
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auto it = current_processes.find(event.pid);
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if (it != current_processes.end())
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it->value->library_metadata.handle_mmap(event.ptr, event.size, event.name);
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continue;
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} else if (event.type == "munmap"sv) {
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event.ptr = perf_event.get("ptr").to_number<FlatPtr>();
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event.size = perf_event.get("size").to_number<size_t>();
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continue;
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} else if (event.type == "process_create"sv) {
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event.parent_pid = perf_event.get("parent_pid").to_number<FlatPtr>();
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event.executable = perf_event.get("executable").to_string();
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auto sampled_process = adopt_own(*new Process {
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.pid = event.pid,
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.executable = event.executable,
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.basename = LexicalPath::basename(event.executable),
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.start_valid = event.serial,
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.end_valid = {},
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});
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current_processes.set(sampled_process->pid, sampled_process);
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all_processes.append(move(sampled_process));
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continue;
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} else if (event.type == "process_exec"sv) {
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event.executable = perf_event.get("executable").to_string();
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auto old_process = current_processes.get(event.pid).value();
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old_process->end_valid = event.serial;
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current_processes.remove(event.pid);
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auto sampled_process = adopt_own(*new Process {
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.pid = event.pid,
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.executable = event.executable,
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.basename = LexicalPath::basename(event.executable),
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.start_valid = event.serial,
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.end_valid = {},
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});
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current_processes.set(sampled_process->pid, sampled_process);
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all_processes.append(move(sampled_process));
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continue;
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} else if (event.type == "process_exit"sv) {
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auto old_process = current_processes.get(event.pid).value();
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old_process->end_valid = event.serial;
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current_processes.remove(event.pid);
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continue;
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} else if (event.type == "thread_create"sv) {
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event.parent_tid = perf_event.get("parent_tid").to_i32();
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auto it = current_processes.find(event.pid);
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if (it != current_processes.end())
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it->value->handle_thread_create(event.tid, event.serial);
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continue;
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} else if (event.type == "thread_exit"sv) {
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auto it = current_processes.find(event.pid);
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if (it != current_processes.end())
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it->value->handle_thread_exit(event.tid, event.serial);
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continue;
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}
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auto* stack = perf_event.get_ptr("stack");
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VERIFY(stack);
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auto& stack_array = stack->as_array();
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for (ssize_t i = stack_array.values().size() - 1; i >= 0; --i) {
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auto& frame = stack_array.at(i);
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auto ptr = frame.to_number<u32>();
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u32 offset = 0;
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FlyString object_name;
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String symbol;
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if (ptr >= 0xc0000000) {
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if (kernel_elf) {
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symbol = kernel_elf->symbolicate(ptr, &offset);
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} else {
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symbol = String::formatted("?? <{:p}>", ptr);
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}
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} else {
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auto it = current_processes.find(event.pid);
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// FIXME: This logic is kinda gnarly, find a way to clean it up.
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LibraryMetadata* library_metadata {};
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if (it != current_processes.end())
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library_metadata = &it->value->library_metadata;
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if (auto* library = library_metadata ? library_metadata->library_containing(ptr) : nullptr) {
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object_name = library->name;
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symbol = library->symbolicate(ptr, &offset);
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} else {
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symbol = String::formatted("?? <{:p}>", ptr);
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}
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}
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event.frames.append({ object_name, symbol, ptr, offset });
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}
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if (event.frames.size() < 2)
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continue;
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FlatPtr innermost_frame_address = event.frames.at(1).address;
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event.in_kernel = innermost_frame_address >= 0xc0000000;
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events.append(move(event));
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}
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if (events.is_empty())
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return String { "No events captured (targeted process was never on CPU)" };
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quick_sort(all_processes, [](auto& a, auto& b) {
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if (a.pid == b.pid)
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return a.start_valid < b.start_valid;
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else
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return a.pid < b.pid;
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});
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Vector<Process> processes;
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for (auto& it : all_processes)
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processes.append(move(it));
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return adopt_own(*new Profile(move(processes), move(events)));
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}
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void ProfileNode::sort_children()
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{
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sort_profile_nodes(m_children);
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}
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void Profile::set_timestamp_filter_range(u64 start, u64 end)
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{
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if (m_has_timestamp_filter_range && m_timestamp_filter_range_start == start && m_timestamp_filter_range_end == end)
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return;
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m_has_timestamp_filter_range = true;
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m_timestamp_filter_range_start = min(start, end);
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m_timestamp_filter_range_end = max(start, end);
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rebuild_tree();
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m_samples_model->update();
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}
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void Profile::clear_timestamp_filter_range()
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{
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if (!m_has_timestamp_filter_range)
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return;
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m_has_timestamp_filter_range = false;
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rebuild_tree();
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m_samples_model->update();
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}
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void Profile::add_process_filter(pid_t pid, EventSerialNumber start_valid, EventSerialNumber end_valid)
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{
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auto filter = ProcessFilter { pid, start_valid, end_valid };
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if (m_process_filters.contains_slow(filter))
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return;
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m_process_filters.append(move(filter));
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rebuild_tree();
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if (m_disassembly_model)
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m_disassembly_model->update();
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m_samples_model->update();
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}
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void Profile::remove_process_filter(pid_t pid, EventSerialNumber start_valid, EventSerialNumber end_valid)
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{
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auto filter = ProcessFilter { pid, start_valid, end_valid };
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if (!m_process_filters.contains_slow(filter))
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return;
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m_process_filters.remove_first_matching([&filter](ProcessFilter const& other_filter) {
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return other_filter == filter;
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});
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rebuild_tree();
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if (m_disassembly_model)
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m_disassembly_model->update();
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m_samples_model->update();
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}
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void Profile::clear_process_filter()
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{
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if (m_process_filters.is_empty())
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return;
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m_process_filters.clear();
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rebuild_tree();
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if (m_disassembly_model)
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m_disassembly_model->update();
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m_samples_model->update();
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}
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bool Profile::process_filter_contains(pid_t pid, EventSerialNumber serial)
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{
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if (!has_process_filter())
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return true;
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for (auto const& process_filter : m_process_filters)
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if (pid == process_filter.pid && serial >= process_filter.start_valid && serial <= process_filter.end_valid)
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return true;
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return false;
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}
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void Profile::set_inverted(bool inverted)
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{
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if (m_inverted == inverted)
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return;
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m_inverted = inverted;
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rebuild_tree();
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}
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void Profile::set_show_top_functions(bool show)
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{
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if (m_show_top_functions == show)
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return;
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m_show_top_functions = show;
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rebuild_tree();
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}
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void Profile::set_show_percentages(bool show_percentages)
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{
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if (m_show_percentages == show_percentages)
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return;
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m_show_percentages = show_percentages;
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}
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void Profile::set_disassembly_index(const GUI::ModelIndex& index)
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{
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if (m_disassembly_index == index)
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return;
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m_disassembly_index = index;
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auto* node = static_cast<ProfileNode*>(index.internal_data());
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if (!node)
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m_disassembly_model = nullptr;
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else
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m_disassembly_model = DisassemblyModel::create(*this, *node);
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}
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GUI::Model* Profile::disassembly_model()
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{
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return m_disassembly_model;
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}
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ProfileNode::ProfileNode(Process const& process)
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: m_root(true)
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, m_process(process)
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{
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}
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ProfileNode::ProfileNode(Process const& process, const String& object_name, String symbol, u32 address, u32 offset, u64 timestamp, pid_t pid)
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: m_process(process)
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, m_symbol(move(symbol))
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, m_pid(pid)
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, m_address(address)
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, m_offset(offset)
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, m_timestamp(timestamp)
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{
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String object;
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if (object_name.ends_with(": .text"sv)) {
|
|
object = object_name.view().substring_view(0, object_name.length() - 7);
|
|
} else {
|
|
object = object_name;
|
|
}
|
|
m_object_name = LexicalPath::basename(object);
|
|
}
|
|
|
|
}
|