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/*
* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2022, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "ProcessModel.h"
#include <AK/JsonObject.h>
#include <AK/JsonValue.h>
#include <AK/NonnullRefPtr.h>
#include <AK/NumberFormat.h>
#include <LibCore/DeprecatedFile.h>
#include <LibCore/ProcessStatisticsReader.h>
#include <LibGUI/FileIconProvider.h>
#include <LibGUI/Icon.h>
#include <LibGUI/ModelIndex.h>
#include <LibGUI/ModelRole.h>
#include <unistd.h>
static ProcessModel* s_the;
ProcessModel& ProcessModel::the()
{
VERIFY(s_the);
return *s_the;
}
ProcessModel::ProcessModel()
{
VERIFY(!s_the);
s_the = this;
auto file = Core::DeprecatedFile::construct("/sys/kernel/cpuinfo");
if (file->open(Core::OpenMode::ReadOnly)) {
auto buffer = file->read_all();
auto json = JsonValue::from_string({ buffer });
auto cpuinfo_array = json.value().as_array();
cpuinfo_array.for_each([&](auto& value) {
auto& cpu_object = value.as_object();
auto cpu_id = cpu_object.get_u32("processor"sv).value();
m_cpus.append(make<CpuInfo>(cpu_id));
});
}
if (m_cpus.is_empty())
m_cpus.append(make<CpuInfo>(0));
m_kernel_process_icon = GUI::Icon::default_icon("gear"sv);
}
int ProcessModel::row_count(GUI::ModelIndex const& index) const
{
if (!index.is_valid())
return m_processes.size();
// Anything in the second level (threads of processes) doesn't have children.
// This way, we don't get infinitely recursing main threads without having to handle that special case elsewhere.
if (index.parent().is_valid())
return 0;
auto const& thread = *static_cast<Thread const*>(index.internal_data());
// Only the main thread has the other threads as its children.
// Also, if there's not more than one thread, we won't draw that.
if (thread.is_main_thread() && thread.current_state.process.threads.size() > 1)
return thread.current_state.process.threads.size() - 1;
return 0;
}
int ProcessModel::column_count(GUI::ModelIndex const&) const
{
return Column::__Count;
}
DeprecatedString ProcessModel::column_name(int column) const
{
switch (column) {
case Column::Icon:
return "";
case Column::PID:
return "PID";
case Column::TID:
return "TID";
case Column::PPID:
return "PPID";
case Column::PGID:
return "PGID";
case Column::SID:
return "SID";
case Column::State:
return "State";
case Column::User:
return "User";
case Column::Priority:
return "Pr";
case Column::Virtual:
return "Virtual";
case Column::Physical:
return "Physical";
case Column::DirtyPrivate:
return "Private";
case Column::CleanInode:
return "CleanI";
case Column::PurgeableVolatile:
return "Purg:V";
case Column::PurgeableNonvolatile:
return "Purg:N";
case Column::CPU:
return "CPU";
case Column::Processor:
return "Processor";
case Column::Name:
return "Name";
case Column::Syscalls:
return "Syscalls";
case Column::InodeFaults:
return "F:Inode";
case Column::ZeroFaults:
return "F:Zero";
case Column::CowFaults:
return "F:CoW";
case Column::IPv4SocketReadBytes:
return "IPv4 In";
case Column::IPv4SocketWriteBytes:
return "IPv4 Out";
case Column::UnixSocketReadBytes:
return "Unix In";
case Column::UnixSocketWriteBytes:
return "Unix Out";
case Column::FileReadBytes:
return "File In";
case Column::FileWriteBytes:
return "File Out";
case Column::Pledge:
return "Pledge";
case Column::Veil:
return "Veil";
case Column::Command:
return "Command";
default:
VERIFY_NOT_REACHED();
}
}
GUI::Variant ProcessModel::data(GUI::ModelIndex const& index, GUI::ModelRole role) const
{
VERIFY(is_within_range(index));
if (role == GUI::ModelRole::TextAlignment) {
switch (index.column()) {
case Column::Icon:
case Column::Name:
case Column::State:
case Column::User:
case Column::Pledge:
case Column::Veil:
case Column::Command:
return Gfx::TextAlignment::CenterLeft;
case Column::PID:
case Column::TID:
case Column::PPID:
case Column::PGID:
case Column::SID:
case Column::Priority:
case Column::Virtual:
case Column::Physical:
case Column::DirtyPrivate:
case Column::CleanInode:
case Column::PurgeableVolatile:
case Column::PurgeableNonvolatile:
case Column::CPU:
case Column::Processor:
case Column::Syscalls:
case Column::InodeFaults:
case Column::ZeroFaults:
case Column::CowFaults:
case Column::FileReadBytes:
case Column::FileWriteBytes:
case Column::UnixSocketReadBytes:
case Column::UnixSocketWriteBytes:
case Column::IPv4SocketReadBytes:
case Column::IPv4SocketWriteBytes:
return Gfx::TextAlignment::CenterRight;
default:
VERIFY_NOT_REACHED();
}
}
auto const& thread = *static_cast<Thread const*>(index.internal_data());
if (role == GUI::ModelRole::Sort) {
switch (index.column()) {
case Column::Icon:
return 0;
case Column::PID:
return thread.current_state.pid;
case Column::TID:
return thread.current_state.tid;
case Column::PPID:
return thread.current_state.ppid;
case Column::PGID:
return thread.current_state.pgid;
case Column::SID:
return thread.current_state.sid;
case Column::State:
return thread.current_state.state;
case Column::User:
return thread.current_state.user;
case Column::Priority:
return thread.current_state.priority;
case Column::Virtual:
return (int)thread.current_state.amount_virtual;
case Column::Physical:
return (int)thread.current_state.amount_resident;
case Column::DirtyPrivate:
return (int)thread.current_state.amount_dirty_private;
case Column::CleanInode:
return (int)thread.current_state.amount_clean_inode;
case Column::PurgeableVolatile:
return (int)thread.current_state.amount_purgeable_volatile;
case Column::PurgeableNonvolatile:
return (int)thread.current_state.amount_purgeable_nonvolatile;
case Column::CPU:
return thread.current_state.cpu_percent;
case Column::Processor:
return thread.current_state.cpu;
case Column::Name:
return thread.current_state.name;
case Column::Command:
return thread.current_state.command;
case Column::Syscalls:
return thread.current_state.syscall_count;
case Column::InodeFaults:
return thread.current_state.inode_faults;
case Column::ZeroFaults:
return thread.current_state.zero_faults;
case Column::CowFaults:
return thread.current_state.cow_faults;
case Column::IPv4SocketReadBytes:
return thread.current_state.ipv4_socket_read_bytes;
case Column::IPv4SocketWriteBytes:
return thread.current_state.ipv4_socket_write_bytes;
case Column::UnixSocketReadBytes:
return thread.current_state.unix_socket_read_bytes;
case Column::UnixSocketWriteBytes:
return thread.current_state.unix_socket_write_bytes;
case Column::FileReadBytes:
return thread.current_state.file_read_bytes;
case Column::FileWriteBytes:
return thread.current_state.file_write_bytes;
case Column::Pledge:
return thread.current_state.pledge;
case Column::Veil:
return thread.current_state.veil;
}
VERIFY_NOT_REACHED();
}
if (role == GUI::ModelRole::Display) {
switch (index.column()) {
case Column::Icon:
return icon_for(thread);
case Column::PID:
return thread.current_state.pid;
case Column::TID:
return thread.current_state.tid;
case Column::PPID:
return thread.current_state.ppid;
case Column::PGID:
return thread.current_state.pgid;
case Column::SID:
return thread.current_state.sid;
case Column::State:
return thread.current_state.state;
case Column::User:
return thread.current_state.user;
case Column::Priority:
return thread.current_state.priority;
case Column::Virtual:
return human_readable_size(thread.current_state.amount_virtual);
case Column::Physical:
return human_readable_size(thread.current_state.amount_resident);
case Column::DirtyPrivate:
return human_readable_size(thread.current_state.amount_dirty_private);
case Column::CleanInode:
return human_readable_size(thread.current_state.amount_clean_inode);
case Column::PurgeableVolatile:
return human_readable_size(thread.current_state.amount_purgeable_volatile);
case Column::PurgeableNonvolatile:
return human_readable_size(thread.current_state.amount_purgeable_nonvolatile);
case Column::CPU:
return DeprecatedString::formatted("{:.2}", thread.current_state.cpu_percent);
case Column::Processor:
return thread.current_state.cpu;
case Column::Name:
if (thread.current_state.kernel)
return DeprecatedString::formatted("{} (*)", thread.current_state.name);
return thread.current_state.name;
case Column::Command:
return thread.current_state.command;
case Column::Syscalls:
return thread.current_state.syscall_count;
case Column::InodeFaults:
return thread.current_state.inode_faults;
case Column::ZeroFaults:
return thread.current_state.zero_faults;
case Column::CowFaults:
return thread.current_state.cow_faults;
case Column::IPv4SocketReadBytes:
return thread.current_state.ipv4_socket_read_bytes;
case Column::IPv4SocketWriteBytes:
return thread.current_state.ipv4_socket_write_bytes;
case Column::UnixSocketReadBytes:
return thread.current_state.unix_socket_read_bytes;
case Column::UnixSocketWriteBytes:
return thread.current_state.unix_socket_write_bytes;
case Column::FileReadBytes:
return thread.current_state.file_read_bytes;
case Column::FileWriteBytes:
return thread.current_state.file_write_bytes;
case Column::Pledge:
return thread.current_state.pledge;
case Column::Veil:
return thread.current_state.veil;
}
}
if (role == GUI::ModelRole::Icon)
return icon_for(thread);
if (role == GUI::ModelRole::IconOpacity) {
if (thread.current_state.uid != getuid())
return 0.5f;
return {};
}
return {};
}
GUI::Icon ProcessModel::icon_for(Thread const& thread) const
{
if (thread.current_state.kernel)
return m_kernel_process_icon;
return GUI::FileIconProvider::icon_for_executable(thread.current_state.executable);
}
GUI::ModelIndex ProcessModel::index(int row, int column, GUI::ModelIndex const& parent) const
{
if (row < 0 || column < 0)
return {};
// Process index; we display the main thread here.
if (!parent.is_valid()) {
if (row >= static_cast<int>(m_processes.size()))
return {};
auto corresponding_thread = m_processes[row].main_thread();
if (!corresponding_thread.has_value())
return {};
return create_index(row, column, corresponding_thread.release_value().ptr());
}
// Thread under process.
auto const& parent_thread = *static_cast<Thread const*>(parent.internal_data());
auto const& process = parent_thread.current_state.process;
// dbgln("Getting thread model index in process {} for col {} row {}", process.pid, column, row);
if (row >= static_cast<int>(process.threads.size()))
return {};
return create_index(row, column, &process.non_main_thread(row));
}
int ProcessModel::thread_model_row(Thread const& thread) const
{
auto const& process = thread.current_state.process;
// A process's main thread uses the global process index.
if (process.pid == thread.current_state.pid)
return m_processes.find_first_index(process).value_or(0);
return process.threads.find_first_index(thread).value_or(0);
}
GUI::ModelIndex ProcessModel::parent_index(GUI::ModelIndex const& index) const
{
if (!index.is_valid())
return {};
auto const& thread = *static_cast<Thread*>(index.internal_data());
// There's no parent for the main thread.
if (thread.current_state.pid == thread.current_state.tid)
return {};
// FIXME: We can't use first_matching here (not even a const version) because Optional cannot contain references.
auto const& parent = thread.current_state.process;
if (!parent.main_thread().has_value())
return {};
return create_index(m_processes.find_first_index(parent).release_value(), index.column(), parent.main_thread().value().ptr());
}
Vector<GUI::ModelIndex> ProcessModel::matches(StringView searching, unsigned flags, GUI::ModelIndex const&)
{
Vector<GUI::ModelIndex> found_indices;
for (auto const& thread : m_threads) {
if (string_matches(thread.value->current_state.name, searching, flags)) {
auto tid_row = thread_model_row(thread.value);
found_indices.append(create_index(tid_row, Column::Name, reinterpret_cast<void const*>(thread.value.ptr())));
if (flags & FirstMatchOnly)
break;
}
}
return found_indices;
}
static ErrorOr<DeprecatedString> try_read_command_line(pid_t pid)
{
auto file = TRY(Core::File::open(DeprecatedString::formatted("/proc/{}/cmdline", pid), Core::File::OpenMode::Read));
auto data = TRY(file->read_until_eof());
auto json = TRY(JsonValue::from_string(StringView { data.bytes() }));
auto array = json.as_array().values();
return DeprecatedString::join(" "sv, array);
}
static DeprecatedString read_command_line(pid_t pid)
{
auto string_or_error = try_read_command_line(pid);
if (string_or_error.is_error()) {
return "";
}
return string_or_error.release_value();
}
void ProcessModel::update()
{
auto previous_tid_count = m_threads.size();
auto all_processes = Core::ProcessStatisticsReader::get_all(m_proc_all);
HashTable<int> live_tids;
u64 total_time_scheduled_diff = 0;
if (!all_processes.is_error()) {
if (m_has_total_scheduled_time)
total_time_scheduled_diff = all_processes.value().total_time_scheduled - m_total_time_scheduled;
m_total_time_scheduled = all_processes.value().total_time_scheduled;
m_total_time_scheduled_kernel = all_processes.value().total_time_scheduled_kernel;
m_has_total_scheduled_time = true;
for (size_t i = 0; i < all_processes.value().processes.size(); ++i) {
auto const& process = all_processes.value().processes[i];
NonnullOwnPtr<Process>* process_state = nullptr;
for (size_t i = 0; i < m_processes.size(); ++i) {
auto* other_process = &m_processes.ptr_at(i);
if ((*other_process)->pid == process.pid) {
process_state = other_process;
break;
}
}
if (!process_state) {
m_processes.append(make<Process>());
process_state = &m_processes.ptr_at(m_processes.size() - 1);
}
(*process_state)->pid = process.pid;
for (auto& thread : process.threads) {
ThreadState state(**process_state);
state.tid = thread.tid;
state.pid = process.pid;
state.ppid = process.ppid;
state.pgid = process.pgid;
state.sid = process.sid;
state.time_user = thread.time_user;
state.time_kernel = thread.time_kernel;
state.kernel = process.kernel;
state.executable = process.executable;
state.name = thread.name;
state.command = read_command_line(process.pid);
state.uid = process.uid;
state.state = thread.state;
state.user = process.username;
state.pledge = process.pledge;
state.veil = process.veil;
state.cpu = thread.cpu;
state.priority = thread.priority;
state.amount_virtual = process.amount_virtual;
state.amount_resident = process.amount_resident;
state.amount_dirty_private = process.amount_dirty_private;
state.amount_clean_inode = process.amount_clean_inode;
state.amount_purgeable_volatile = process.amount_purgeable_volatile;
state.amount_purgeable_nonvolatile = process.amount_purgeable_nonvolatile;
state.syscall_count = thread.syscall_count;
state.inode_faults = thread.inode_faults;
state.zero_faults = thread.zero_faults;
state.cow_faults = thread.cow_faults;
state.unix_socket_read_bytes = thread.unix_socket_read_bytes;
state.unix_socket_write_bytes = thread.unix_socket_write_bytes;
state.ipv4_socket_read_bytes = thread.ipv4_socket_read_bytes;
state.ipv4_socket_write_bytes = thread.ipv4_socket_write_bytes;
state.file_read_bytes = thread.file_read_bytes;
state.file_write_bytes = thread.file_write_bytes;
state.cpu_percent = 0;
auto thread_data = m_threads.ensure(thread.tid, [&] { return make_ref_counted<Thread>(**process_state); });
thread_data->previous_state = move(thread_data->current_state);
thread_data->current_state = move(state);
if (auto maybe_thread_index = (*process_state)->threads.find_first_index(thread_data); maybe_thread_index.has_value()) {
(*process_state)->threads.ptr_at(maybe_thread_index.value()) = thread_data;
} else {
(*process_state)->threads.append(thread_data);
}
live_tids.set(thread.tid);
}
}
}
for (auto& c : m_cpus) {
c.total_cpu_percent = 0.0;
c.total_cpu_percent_kernel = 0.0;
}
Vector<int, 16> tids_to_remove;
for (auto& it : m_threads) {
if (!live_tids.contains(it.key)) {
tids_to_remove.append(it.key);
continue;
}
auto& thread = *it.value;
u64 time_scheduled_diff = (thread.current_state.time_user + thread.current_state.time_kernel)
- (thread.previous_state.time_user + thread.previous_state.time_kernel);
u64 time_scheduled_diff_kernel = thread.current_state.time_kernel - thread.previous_state.time_kernel;
thread.current_state.cpu_percent = total_time_scheduled_diff > 0 ? (float)((time_scheduled_diff * 1000) / total_time_scheduled_diff) / 10.0f : 0;
thread.current_state.cpu_percent_kernel = total_time_scheduled_diff > 0 ? (float)((time_scheduled_diff_kernel * 1000) / total_time_scheduled_diff) / 10.0f : 0;
if (it.value->current_state.pid != 0) {
auto& cpu_info = m_cpus[thread.current_state.cpu];
cpu_info.total_cpu_percent += thread.current_state.cpu_percent;
cpu_info.total_cpu_percent_kernel += thread.current_state.cpu_percent_kernel;
}
}
// FIXME: Also remove dead threads from processes
for (auto tid : tids_to_remove) {
m_threads.remove(tid);
for (size_t i = 0; i < m_processes.size(); ++i) {
auto& process = m_processes[i];
process.threads.remove_all_matching([&](auto const& thread) { return thread->current_state.tid == tid; });
if (process.threads.size() == 0) {
m_processes.remove(i);
--i;
}
}
}
if (on_cpu_info_change)
on_cpu_info_change(m_cpus);
if (on_state_update)
on_state_update(!all_processes.is_error() ? all_processes.value().processes.size() : 0, m_threads.size());
// FIXME: This is a rather hackish way of invalidating indices.
// It would be good if GUI::Model had a way to orchestrate removal/insertion while preserving indices.
did_update(previous_tid_count == m_threads.size() ? GUI::Model::UpdateFlag::DontInvalidateIndices : GUI::Model::UpdateFlag::InvalidateAllIndices);
}
bool ProcessModel::is_default_column(int index) const
{
switch (index) {
case Column::PID:
case Column::TID:
case Column::Name:
case Column::CPU:
case Column::User:
case Column::Virtual:
case Column::DirtyPrivate:
return true;
default:
return false;
}
}
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