ladybird/Kernel/Syscalls/profiled_syscalls.cpp

275 lines
9.4 KiB
C++

/*
* Copyright (c) 2022-2023, Jakub Berkop <jakub.berkop@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <Kernel/FileSystem/OpenFileDescription.h>
#include <Kernel/Tasks/PerformanceManager.h>
#include <Kernel/Tasks/Process.h>
namespace Kernel {
ErrorOr<NonnullRefPtr<OpenFileDescription>> open_readable_file_description(auto& fds, int fd);
static ErrorOr<size_t> get_path_index(auto& fds, int fd, PerformanceEventBuffer* event_buffer)
{
auto description = TRY(open_readable_file_description(fds, fd));
if (auto path = description->original_absolute_path(); !path.is_error()) {
return TRY(event_buffer->register_string(move(path.value())));
} else if (auto pseudo_path = description->pseudo_path(); !pseudo_path.is_error()) {
return TRY(event_buffer->register_string(move(pseudo_path.value())));
} else {
auto invalid_path_string = TRY(KString::try_create("<INVALID_FILE_PATH>"sv)); // TODO: Performance, unecessary allocations.
return TRY(event_buffer->register_string(move(invalid_path_string)));
}
}
// FIXME: Following functions are very similar, and could be refactored into a more generic solution.
// However, it's not clear how to do it in a way that would be easy to read and understand.
ErrorOr<FlatPtr> Process::sys$open(Userspace<Syscall::SC_open_params const*> user_params)
{
Optional<MonotonicTime> start_timestamp = {};
// We have to check whether profiling is enabled at before going into the syscall implementation
// so that we can measure the time it took to execute the syscall.
// This approach ensures that we don't have a race condition in case profiling was enabled during
// the execution of the syscall.
// If profiling is disabled at the beginning, we don't want to call TimeManagement::the().monotonic_time()
// because of the overhead it would introduce for every syscall.
bool const profiling_enabled_at_entry = !Thread::current()->is_profiling_suppressed();
if (profiling_enabled_at_entry) {
start_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
}
auto const params = TRY(copy_typed_from_user(user_params));
auto result = open_impl(user_params);
if (!profiling_enabled_at_entry || Thread::current()->is_profiling_suppressed())
return result;
auto* event_buffer = current_perf_events_buffer();
if (event_buffer == nullptr)
return result;
auto const end_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
auto const duration = end_timestamp - start_timestamp.value();
FilesystemEvent data;
data.type = FilesystemEventType::Open;
data.durationNs = static_cast<u64>(duration.to_nanoseconds());
if (result.is_error()) {
data.result.is_error = true;
data.result.value = result.error().code();
} else {
data.result.is_error = false;
data.result.value = 0;
}
auto path = get_syscall_path_argument(params.path);
if (!path.is_error()) {
auto value = event_buffer->register_string(move(path.value()));
data.data.open.filename_index = value.value();
}
data.data.open.dirfd = params.dirfd;
data.data.open.options = params.options;
data.data.open.mode = params.mode;
(void)event_buffer->append(PERF_EVENT_FILESYSTEM, 0, 0, {}, Thread::current(), data);
return result;
}
ErrorOr<FlatPtr> Process::sys$close(int fd)
{
Optional<MonotonicTime> start_timestamp = {};
bool const profiling_enabled_at_entry = !Thread::current()->is_profiling_suppressed();
if (profiling_enabled_at_entry) {
start_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
}
auto result = close_impl(fd);
if (Thread::current()->is_profiling_suppressed())
return result;
if (!profiling_enabled_at_entry || Thread::current()->is_profiling_suppressed())
return result;
auto* event_buffer = current_perf_events_buffer();
if (event_buffer == nullptr)
return result;
auto const end_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
auto const duration = end_timestamp - start_timestamp.value();
FilesystemEvent data;
data.type = FilesystemEventType::Close;
data.durationNs = static_cast<u64>(duration.to_nanoseconds());
data.data.close.fd = fd;
if (result.is_error()) {
data.result.is_error = true;
data.result.value = result.error().code();
} else {
data.result.is_error = false;
data.result.value = 0;
}
auto maybe_path_index = get_path_index(fds(), fd, event_buffer);
if (maybe_path_index.is_error())
return result;
data.data.close.filename_index = maybe_path_index.value();
(void)event_buffer->append(PERF_EVENT_FILESYSTEM, 0, 0, {}, Thread::current(), data);
return result;
}
ErrorOr<FlatPtr> Process::sys$readv(int fd, Userspace<const struct iovec*> iov, int iov_count)
{
Optional<MonotonicTime> start_timestamp = {};
bool const profiling_enabled_at_entry = !Thread::current()->is_profiling_suppressed();
if (profiling_enabled_at_entry) {
start_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
}
auto result = readv_impl(fd, iov, iov_count);
if (!profiling_enabled_at_entry || Thread::current()->is_profiling_suppressed())
return result;
if (Thread::current()->is_profiling_suppressed())
return result;
auto* event_buffer = current_perf_events_buffer();
if (event_buffer == nullptr)
return result;
auto const end_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
auto const duration = end_timestamp - start_timestamp.value();
FilesystemEvent data;
data.type = FilesystemEventType::Readv;
data.durationNs = static_cast<u64>(duration.to_nanoseconds());
data.data.readv.fd = fd;
if (result.is_error()) {
data.result.is_error = true;
data.result.value = result.error().code();
} else {
data.result.is_error = false;
data.result.value = 0;
}
auto maybe_path_index = get_path_index(fds(), fd, event_buffer);
if (maybe_path_index.is_error())
return result;
data.data.readv.filename_index = maybe_path_index.value();
(void)event_buffer->append(PERF_EVENT_FILESYSTEM, 0, 0, {}, Thread::current(), data);
return result;
}
ErrorOr<FlatPtr> Process::sys$read(int fd, Userspace<u8*> buffer, size_t size)
{
Optional<MonotonicTime> start_timestamp = {};
bool const profiling_enabled_at_entry = !Thread::current()->is_profiling_suppressed();
if (profiling_enabled_at_entry) {
start_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
}
auto result = read_impl(fd, buffer, size);
if (!profiling_enabled_at_entry || Thread::current()->is_profiling_suppressed())
return result;
auto* event_buffer = current_perf_events_buffer();
if (event_buffer == nullptr)
return result;
auto const end_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
auto const duration = end_timestamp - start_timestamp.value();
FilesystemEvent data;
data.type = FilesystemEventType::Read;
data.durationNs = static_cast<u64>(duration.to_nanoseconds());
data.data.read.fd = fd;
if (result.is_error()) {
data.result.is_error = true;
data.result.value = result.error().code();
} else {
data.result.is_error = false;
data.result.value = 0;
}
auto maybe_path_index = get_path_index(fds(), fd, event_buffer);
if (maybe_path_index.is_error())
return result;
data.data.read.filename_index = maybe_path_index.value();
(void)event_buffer->append(PERF_EVENT_FILESYSTEM, 0, 0, {}, Thread::current(), data);
return result;
}
ErrorOr<FlatPtr> Process::sys$pread(int fd, Userspace<u8*> buffer, size_t size, off_t userspace_offset)
{
Optional<MonotonicTime> start_timestamp = {};
bool const profiling_enabled_at_entry = !Thread::current()->is_profiling_suppressed();
if (profiling_enabled_at_entry) {
start_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
}
auto result = pread_impl(fd, buffer, size, userspace_offset);
if (!profiling_enabled_at_entry || Thread::current()->is_profiling_suppressed())
return result;
auto* event_buffer = current_perf_events_buffer();
if (event_buffer == nullptr)
return result;
auto const end_timestamp = TimeManagement::the().monotonic_time(TimePrecision::Precise);
auto const duration = end_timestamp - start_timestamp.value();
FilesystemEvent data;
data.type = FilesystemEventType::Pread;
data.durationNs = static_cast<u64>(duration.to_nanoseconds());
data.data.pread.fd = fd;
data.data.pread.buffer_ptr = buffer.ptr();
data.data.pread.size = size;
data.data.pread.offset = userspace_offset;
if (result.is_error()) {
data.result.is_error = true;
data.result.value = result.error().code();
} else {
data.result.is_error = false;
data.result.value = 0;
}
auto maybe_path_index = get_path_index(fds(), fd, event_buffer);
if (maybe_path_index.is_error())
return result;
data.data.pread.filename_index = maybe_path_index.value();
(void)event_buffer->append(PERF_EVENT_FILESYSTEM, 0, 0, {}, Thread::current(), data);
return result;
}
}