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/*
* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include "DisassemblyModel.h"
#include "Process.h"
#include "Profile.h"
#include "ProfileModel.h"
#include "SamplesModel.h"
#include "SignpostsModel.h"
#include <AK/Bitmap.h>
#include <AK/FlyString.h>
#include <AK/JsonArray.h>
#include <AK/JsonObject.h>
#include <AK/JsonValue.h>
#include <AK/MappedFile.h>
#include <AK/NonnullRefPtrVector.h>
#include <AK/OwnPtr.h>
#include <AK/Variant.h>
#include <LibELF/Image.h>
#include <LibGUI/Forward.h>
#include <LibGUI/ModelIndex.h>
namespace Profiler {
extern Optional<MappedObject> g_kernel_debuginfo_object;
extern OwnPtr<Debug::DebugInfo> g_kernel_debug_info;
class ProfileNode : public RefCounted<ProfileNode> {
public:
static NonnullRefPtr<ProfileNode> create(Process const& process, FlyString object_name, String symbol, FlatPtr address, u32 offset, u64 timestamp, pid_t pid)
{
return adopt_ref(*new ProfileNode(process, move(object_name), move(symbol), address, offset, timestamp, pid));
}
static NonnullRefPtr<ProfileNode> create_process_node(Process const& process)
{
return adopt_ref(*new ProfileNode(process));
}
// These functions are only relevant for root nodes
void will_track_seen_events(size_t profile_event_count)
{
if (m_seen_events.size() != profile_event_count)
m_seen_events = Bitmap { profile_event_count, false };
}
bool has_seen_event(size_t event_index) const { return m_seen_events.get(event_index); }
void did_see_event(size_t event_index) { m_seen_events.set(event_index, true); }
const FlyString& object_name() const { return m_object_name; }
const String& symbol() const { return m_symbol; }
FlatPtr address() const { return m_address; }
u32 offset() const { return m_offset; }
u64 timestamp() const { return m_timestamp; }
u32 event_count() const { return m_event_count; }
u32 self_count() const { return m_self_count; }
int child_count() const { return m_children.size(); }
const Vector<NonnullRefPtr<ProfileNode>>& children() const { return m_children; }
void add_child(ProfileNode& child)
{
if (child.m_parent == this)
return;
VERIFY(!child.m_parent);
child.m_parent = this;
m_children.append(child);
}
ProfileNode& find_or_create_child(FlyString object_name, String symbol, FlatPtr address, u32 offset, u64 timestamp, pid_t pid)
{
for (size_t i = 0; i < m_children.size(); ++i) {
auto& child = m_children[i];
if (child->symbol() == symbol) {
return child;
}
}
auto new_child = ProfileNode::create(m_process, move(object_name), move(symbol), address, offset, timestamp, pid);
add_child(new_child);
return new_child;
};
ProfileNode* parent() { return m_parent; }
const ProfileNode* parent() const { return m_parent; }
void increment_event_count() { ++m_event_count; }
void increment_self_count() { ++m_self_count; }
void sort_children();
const HashMap<FlatPtr, size_t>& events_per_address() const { return m_events_per_address; }
void add_event_address(FlatPtr address)
{
auto it = m_events_per_address.find(address);
if (it == m_events_per_address.end())
m_events_per_address.set(address, 1);
else
m_events_per_address.set(address, it->value + 1);
}
pid_t pid() const { return m_pid; }
Process const& process() const { return m_process; }
bool is_root() const { return m_root; }
private:
explicit ProfileNode(Process const&);
explicit ProfileNode(Process const&, const String& object_name, String symbol, FlatPtr address, u32 offset, u64 timestamp, pid_t);
bool m_root { false };
Process const& m_process;
ProfileNode* m_parent { nullptr };
FlyString m_object_name;
String m_symbol;
pid_t m_pid { 0 };
FlatPtr m_address { 0 };
u32 m_offset { 0 };
u32 m_event_count { 0 };
u32 m_self_count { 0 };
u64 m_timestamp { 0 };
Vector<NonnullRefPtr<ProfileNode>> m_children;
HashMap<FlatPtr, size_t> m_events_per_address;
Bitmap m_seen_events;
};
struct ProcessFilter {
pid_t pid { 0 };
EventSerialNumber start_valid;
EventSerialNumber end_valid;
bool operator==(ProcessFilter const& rhs) const
{
return pid == rhs.pid && start_valid == rhs.start_valid && end_valid == rhs.end_valid;
}
};
class Profile {
public:
static ErrorOr<NonnullOwnPtr<Profile>> load_from_perfcore_file(StringView path);
GUI::Model& model();
GUI::Model& samples_model();
GUI::Model& signposts_model();
GUI::Model* disassembly_model();
const Process* find_process(pid_t pid, EventSerialNumber serial) const
{
auto it = m_processes.find_if([&pid, &serial](auto& entry) {
return entry.pid == pid && entry.valid_at(serial);
});
return it.is_end() ? nullptr : &(*it);
}
void set_disassembly_index(const GUI::ModelIndex&);
const Vector<NonnullRefPtr<ProfileNode>>& roots() const { return m_roots; }
struct Frame {
FlyString object_name;
String symbol;
FlatPtr address { 0 };
u32 offset { 0 };
};
struct Event {
u64 timestamp { 0 };
EventSerialNumber serial;
pid_t pid { 0 };
pid_t tid { 0 };
u32 lost_samples { 0 };
bool in_kernel { false };
Vector<Frame> frames;
struct SampleData {
};
struct MallocData {
FlatPtr ptr {};
size_t size {};
};
struct FreeData {
FlatPtr ptr {};
};
struct SignpostData {
String string;
FlatPtr arg {};
};
struct MmapData {
FlatPtr ptr {};
size_t size {};
String name;
};
struct MunmapData {
FlatPtr ptr {};
size_t size {};
};
struct ProcessCreateData {
pid_t parent_pid { 0 };
String executable;
};
struct ProcessExecData {
String executable;
};
struct ThreadCreateData {
pid_t parent_tid {};
};
Variant<std::nullptr_t, SampleData, MallocData, FreeData, SignpostData, MmapData, MunmapData, ProcessCreateData, ProcessExecData, ThreadCreateData> data { nullptr };
};
Vector<Event> const& events() const { return m_events; }
const Vector<size_t>& filtered_event_indices() const { return m_filtered_event_indices; }
const Vector<size_t>& filtered_signpost_indices() const { return m_filtered_signpost_indices; }
u64 length_in_ms() const { return m_last_timestamp - m_first_timestamp; }
u64 first_timestamp() const { return m_first_timestamp; }
u64 last_timestamp() const { return m_last_timestamp; }
void set_timestamp_filter_range(u64 start, u64 end);
void clear_timestamp_filter_range();
bool has_timestamp_filter_range() const { return m_has_timestamp_filter_range; }
void add_process_filter(pid_t pid, EventSerialNumber start_valid, EventSerialNumber end_valid);
void remove_process_filter(pid_t pid, EventSerialNumber start_valid, EventSerialNumber end_valid);
void clear_process_filter();
bool has_process_filter() const { return !m_process_filters.is_empty(); }
bool process_filter_contains(pid_t pid, EventSerialNumber serial);
bool is_inverted() const { return m_inverted; }
void set_inverted(bool);
void set_show_top_functions(bool);
bool show_percentages() const { return m_show_percentages; }
void set_show_percentages(bool);
const Vector<Process>& processes() const { return m_processes; }
template<typename Callback>
void for_each_event_in_filter_range(Callback callback)
{
for (auto& event : m_events) {
if (has_timestamp_filter_range()) {
auto timestamp = event.timestamp;
if (timestamp < m_timestamp_filter_range_start || timestamp > m_timestamp_filter_range_end)
continue;
}
callback(event);
}
}
template<typename Callback>
void for_each_signpost(Callback callback) const
{
for (auto index : m_signpost_indices) {
auto& event = m_events[index];
if (callback(event) == IterationDecision::Break)
break;
}
}
private:
Profile(Vector<Process>, Vector<Event>);
void rebuild_tree();
RefPtr<ProfileModel> m_model;
RefPtr<SamplesModel> m_samples_model;
RefPtr<SignpostsModel> m_signposts_model;
RefPtr<DisassemblyModel> m_disassembly_model;
GUI::ModelIndex m_disassembly_index;
Vector<NonnullRefPtr<ProfileNode>> m_roots;
Vector<size_t> m_filtered_event_indices;
u64 m_first_timestamp { 0 };
u64 m_last_timestamp { 0 };
Vector<Process> m_processes;
Vector<Event> m_events;
Vector<size_t> m_signpost_indices;
Vector<size_t> m_filtered_signpost_indices;
bool m_has_timestamp_filter_range { false };
u64 m_timestamp_filter_range_start { 0 };
u64 m_timestamp_filter_range_end { 0 };
Vector<ProcessFilter> m_process_filters;
bool m_inverted { false };
bool m_show_top_functions { false };
bool m_show_percentages { false };
};
}
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