ladybird/Userland/Utilities/ps.cpp
Lucas CHOLLET 3f35ffb648 Userland: Prefer _string over _short_string
As `_string` can't fail anymore (since 3434412), there are no real
benefits to use the short variant in most cases.
2023-08-08 07:37:21 +02:00

395 lines
15 KiB
C++

/*
* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2023, Sam Atkins <atkinssj@serenityos.org>
* Copyright (c) 2023, Tim Ledbetter <timledbetter@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/QuickSort.h>
#include <AK/String.h>
#include <LibCore/Account.h>
#include <LibCore/ArgsParser.h>
#include <LibCore/ProcessStatisticsReader.h>
#include <LibCore/System.h>
#include <LibMain/Main.h>
#include <sys/sysmacros.h>
#include <unistd.h>
#define ENUMERATE_COLUMN_DESCRIPTIONS \
COLUMN(UserId, "uid", "UID", Alignment::Left) \
COLUMN(ProcessId, "pid", "PID", Alignment::Right) \
COLUMN(ParentProcessId, "ppid", "PPID", Alignment::Right) \
COLUMN(ProcessGroupId, "pgid", "PGID", Alignment::Right) \
COLUMN(SessionId, "sid", "SID", Alignment::Right) \
COLUMN(State, "state", "STATE", Alignment::Left) \
COLUMN(TTY, "tty", "TTY", Alignment::Left) \
COLUMN(Command, "cmd", "CMD", Alignment::Left)
enum class ColumnId {
#define COLUMN(column_id, lookup_name, default_title, alignment) column_id,
ENUMERATE_COLUMN_DESCRIPTIONS
#undef COLUMN
__Count
};
enum class Alignment {
Left,
Right,
};
struct ColumnDescription {
StringView lookup_name;
StringView default_title;
Alignment alignment;
};
struct Column {
ColumnId id;
String title;
Alignment alignment;
int width { 0 };
String buffer {};
};
static Optional<ColumnId> column_name_to_id(StringView column_name)
{
#define COLUMN(column_id, lookup_name, default_title, alignment) \
if (column_name == lookup_name) \
return ColumnId::column_id;
ENUMERATE_COLUMN_DESCRIPTIONS
#undef COLUMN
return {};
}
static ErrorOr<Column> column_from_id(ColumnId column_id, Optional<String> const& custom_title = {})
{
constexpr Array<ColumnDescription, static_cast<size_t>(ColumnId::__Count)> available_columns { {
#define COLUMN(column_id, lookup_name, default_title, alignment) { lookup_name##sv, default_title##sv, alignment },
ENUMERATE_COLUMN_DESCRIPTIONS
#undef COLUMN
} };
auto const& column_description = available_columns[static_cast<size_t>(column_id)];
auto title = custom_title.has_value()
? custom_title.value()
: TRY(String::from_utf8(column_description.default_title));
return Column { column_id, title, column_description.alignment };
}
static ErrorOr<String> column_to_string(ColumnId column_id, Core::ProcessStatistics process)
{
switch (column_id) {
case ColumnId::UserId:
return String::from_deprecated_string(process.username);
case ColumnId::ProcessId:
return String::number(process.pid);
case ColumnId::ParentProcessId:
return String::number(process.ppid);
case ColumnId::ProcessGroupId:
return String::number(process.pgid);
case ColumnId::SessionId:
return String::number(process.sid);
case ColumnId::TTY:
return process.tty == "" ? "n/a"_string : String::from_deprecated_string(process.tty);
case ColumnId::State:
return process.threads.is_empty()
? "Zombie"_string
: String::from_deprecated_string(process.threads.first().state);
case ColumnId::Command:
return String::from_deprecated_string(process.name);
default:
VERIFY_NOT_REACHED();
}
}
static ErrorOr<Column> parse_column_format_specifier(StringView column_format_specifier)
{
auto column_specification_parts = column_format_specifier.split_view('=', SplitBehavior::KeepEmpty);
if (column_specification_parts.size() > 2)
return Error::from_string_literal("Invalid column specifier format");
auto column_name = column_specification_parts[0];
auto maybe_column_id = column_name_to_id(column_name);
if (!maybe_column_id.has_value())
return Error::from_string_literal("Unknown column");
Optional<String> column_title;
if (column_specification_parts.size() == 2)
column_title = TRY(String::from_utf8(column_specification_parts[1]));
return column_from_id(maybe_column_id.value(), column_title);
}
static ErrorOr<Optional<String>> tty_stat_to_pseudo_name(struct stat tty_stat)
{
int tty_device_major = major(tty_stat.st_rdev);
int tty_device_minor = minor(tty_stat.st_rdev);
if (tty_device_major == 201)
return String::formatted("pts:{}", tty_device_minor);
if (tty_device_major == 4)
return String::formatted("tty:{}", tty_device_minor);
return OptionalNone {};
}
static ErrorOr<String> determine_tty_pseudo_name()
{
auto tty_stat = TRY(Core::System::fstat(STDIN_FILENO));
auto maybe_tty_pseudo_name = TRY(tty_stat_to_pseudo_name(tty_stat));
return maybe_tty_pseudo_name.value_or("n/a"_string);
}
static ErrorOr<String> parse_tty_pseudo_name(StringView tty_name)
{
auto tty_name_parts = tty_name.split_view(":"sv, AK::SplitBehavior::KeepEmpty);
String tty_full_name;
StringView tty_full_name_view;
if (tty_name_parts.size() == 1) {
tty_full_name_view = tty_name;
} else {
if (tty_name_parts.size() != 2)
return Error::from_errno(ENOTTY);
auto tty_device_type = tty_name_parts[0];
auto tty_number = tty_name_parts[1];
if (tty_device_type == "tty"sv)
tty_full_name = TRY(String::formatted("/dev/tty{}", tty_number));
else if (tty_device_type == "pts"sv)
tty_full_name = TRY(String::formatted("/dev/pts/{}", tty_number));
else
return Error::from_errno(ENOTTY);
tty_full_name_view = tty_full_name.bytes_as_string_view();
}
auto tty_stat = TRY(Core::System::stat(tty_full_name_view));
auto maybe_tty_pseudo_name = TRY(tty_stat_to_pseudo_name(tty_stat));
if (!maybe_tty_pseudo_name.has_value())
return Error::from_errno(ENOTTY);
return maybe_tty_pseudo_name.release_value();
}
template<typename Value, typename ParseValue>
Core::ArgsParser::Option make_list_option(Vector<Value>& value_list, char const* help_string, char const* long_name, char short_name, char const* value_name, ParseValue parse_value)
{
return Core::ArgsParser::Option {
.argument_mode = Core::ArgsParser::OptionArgumentMode::Required,
.help_string = help_string,
.long_name = long_name,
.short_name = short_name,
.value_name = value_name,
.accept_value = [&](StringView s) {
auto parts = s.split_view_if([](char c) { return c == ',' || c == ' '; });
for (auto const& part : parts) {
auto value = parse_value(part);
if (!value.has_value())
return false;
value_list.append(value.value());
}
return true;
},
};
}
ErrorOr<int> serenity_main(Main::Arguments arguments)
{
TRY(Core::System::pledge("stdio rpath tty"));
auto this_pseudo_tty_name = TRY(determine_tty_pseudo_name());
TRY(Core::System::pledge("stdio rpath"));
TRY(Core::System::unveil("/sys/kernel/processes", "r"));
TRY(Core::System::unveil("/etc/passwd", "r"));
TRY(Core::System::unveil("/etc/group", "r"));
TRY(Core::System::unveil("/dev/", "r"));
TRY(Core::System::unveil(nullptr, nullptr));
bool every_process_flag = false;
bool every_terminal_process_flag = false;
bool full_format_flag = false;
bool provided_filtering_option = false;
bool provided_quick_pid_list = false;
Vector<Column> columns;
Vector<pid_t> pid_list;
Vector<pid_t> parent_pid_list;
Vector<DeprecatedString> tty_list;
Vector<uid_t> uid_list;
Core::ArgsParser args_parser;
args_parser.add_option(every_terminal_process_flag, "Show every process associated with terminals", nullptr, 'a');
args_parser.add_option(every_process_flag, "Show every process", nullptr, 'A');
args_parser.add_option(every_process_flag, "Show every process (Equivalent to -A)", nullptr, 'e');
args_parser.add_option(full_format_flag, "Full format", nullptr, 'f');
args_parser.add_option(make_list_option(columns, "Specify a user-defined format.", nullptr, 'o', "column-format", [&](StringView column_format_specifier) -> Optional<Column> {
auto column_or_error = parse_column_format_specifier(column_format_specifier);
if (column_or_error.is_error()) {
warnln("Could not parse '{}' as a column format specifier", column_format_specifier);
return {};
}
return column_or_error.release_value();
}));
args_parser.add_option(make_list_option(pid_list, "Show processes with a matching PID. (Comma- or space-separated list)", nullptr, 'p', "pid-list", [&](StringView pid_string) {
provided_filtering_option = true;
auto pid = pid_string.to_int();
if (!pid.has_value())
warnln("Could not parse '{}' as a PID.", pid_string);
return pid;
}));
args_parser.add_option(make_list_option(parent_pid_list, "Show processes with a matching PPID. (Comma- or space-separated list.)", "ppid", {}, "pid-list", [&](StringView pid_string) {
provided_filtering_option = true;
auto pid = pid_string.to_int();
if (!pid.has_value())
warnln("Could not parse '{}' as a PID.", pid_string);
return pid;
}));
args_parser.add_option(make_list_option(pid_list, "Show processes with a matching PID. (Comma- or space-separated list.) Processes will be listed in the order given.", nullptr, 'q', "pid-list", [&](StringView pid_string) {
provided_quick_pid_list = true;
auto pid = pid_string.to_int();
if (!pid.has_value())
warnln("Could not parse '{}' as a PID.", pid_string);
return pid;
}));
args_parser.add_option(make_list_option(tty_list, "Show processes associated with the given terminal. (Comma- or space-separated list.) The short TTY name or the full device path may be used.", "tty", 't', "tty-list", [&](StringView tty_string) -> Optional<DeprecatedString> {
provided_filtering_option = true;
auto tty_pseudo_name_or_error = parse_tty_pseudo_name(tty_string);
if (tty_pseudo_name_or_error.is_error()) {
warnln("Could not parse '{}' as a TTY", tty_string);
return {};
}
return tty_pseudo_name_or_error.release_value().to_deprecated_string();
}));
args_parser.add_option(make_list_option(uid_list, "Show processes with a matching user ID or login name. (Comma- or space-separated list.)", nullptr, 'u', "user-list", [&](StringView user_string) -> Optional<uid_t> {
provided_filtering_option = true;
if (auto uid = user_string.to_uint<uid_t>(); uid.has_value()) {
return uid.value();
}
auto maybe_account = Core::Account::from_name(user_string, Core::Account::Read::PasswdOnly);
if (maybe_account.is_error()) {
warnln("Could not find user '{}': {}", user_string, maybe_account.error());
return {};
}
return maybe_account.value().uid();
}));
args_parser.parse(arguments);
if (provided_filtering_option && provided_quick_pid_list) {
warnln("The -q option cannot be combined with other filtering options.");
return 1;
}
if (columns.is_empty()) {
auto add_default_column = [&](ColumnId column_id) -> ErrorOr<void> {
auto column = TRY(column_from_id(column_id));
columns.unchecked_append(move(column));
return {};
};
if (full_format_flag) {
TRY(columns.try_ensure_capacity(8));
TRY(add_default_column(ColumnId::UserId));
TRY(add_default_column(ColumnId::ProcessId));
TRY(add_default_column(ColumnId::ParentProcessId));
TRY(add_default_column(ColumnId::ProcessGroupId));
TRY(add_default_column(ColumnId::SessionId));
TRY(add_default_column(ColumnId::State));
TRY(add_default_column(ColumnId::TTY));
TRY(add_default_column(ColumnId::Command));
} else {
TRY(columns.try_ensure_capacity(3));
TRY(add_default_column(ColumnId::ProcessId));
TRY(add_default_column(ColumnId::TTY));
TRY(add_default_column(ColumnId::Command));
}
}
auto all_processes = TRY(Core::ProcessStatisticsReader::get_all());
auto& processes = all_processes.processes;
// Filter
Vector<Core::ProcessStatistics> filtered_processes;
if (provided_quick_pid_list) {
for (auto pid : pid_list) {
auto maybe_process = processes.first_matching([=](auto const& process) { return process.pid == pid; });
if (maybe_process.has_value())
filtered_processes.append(maybe_process.release_value());
}
processes = move(filtered_processes);
} else if (!every_process_flag) {
for (auto const& process : processes) {
// Default is to show processes from the current TTY
if ((!provided_filtering_option && process.tty == this_pseudo_tty_name.bytes_as_string_view())
|| (!pid_list.is_empty() && pid_list.contains_slow(process.pid))
|| (!parent_pid_list.is_empty() && parent_pid_list.contains_slow(process.ppid))
|| (!uid_list.is_empty() && uid_list.contains_slow(process.uid))
|| (!tty_list.is_empty() && tty_list.contains_slow(process.tty))
|| (every_terminal_process_flag && !process.tty.is_empty())) {
filtered_processes.append(process);
}
}
processes = move(filtered_processes);
}
// Sort
if (!provided_quick_pid_list)
quick_sort(processes, [](auto& a, auto& b) { return a.pid < b.pid; });
Vector<Vector<String>> rows;
TRY(rows.try_ensure_capacity(1 + processes.size()));
Vector<String> header;
TRY(header.try_ensure_capacity(columns.size()));
auto header_is_empty = true;
for (auto& column : columns) {
if (!column.title.is_empty())
header_is_empty = false;
header.unchecked_append(column.title);
}
if (!header_is_empty)
rows.unchecked_append(move(header));
for (auto const& process : processes) {
Vector<String> row;
TRY(row.try_ensure_capacity(columns.size()));
for (auto const& column : columns)
row.unchecked_append(TRY(column_to_string(column.id, process)));
rows.unchecked_append(move(row));
}
for (size_t i = 0; i < columns.size(); i++) {
auto& column = columns[i];
for (auto& row : rows)
column.width = max(column.width, static_cast<int>(row[i].code_points().length()));
}
for (auto& row : rows) {
for (size_t i = 0; i < columns.size(); i++) {
auto& column = columns[i];
auto& cell_text = row[i];
if (!column.width) {
out("{}", cell_text);
continue;
}
if (column.alignment == Alignment::Right)
out("{1:>{0}} ", column.width, cell_text);
else
out("{1:{0}} ", column.width, cell_text);
if (i != columns.size() - 1)
out(" ");
}
outln();
}
return 0;
}