/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#include
#include "erpt_srv_reporter.hpp"
#include "erpt_srv_report.hpp"
#include "erpt_srv_journal.hpp"
#include "erpt_srv_context_record.hpp"
#include "erpt_srv_context.hpp"
namespace ams::erpt::srv {
constinit bool Reporter::s_redirect_new_reports = true;
constinit char Reporter::s_serial_number[24] = "Unknown";
constinit char Reporter::s_os_version[24] = "Unknown";
constinit char Reporter::s_private_os_version[96] = "Unknown";
constinit util::optional Reporter::s_application_launch_time;
constinit util::optional Reporter::s_awake_time;
constinit util::optional Reporter::s_power_on_time;
constinit util::optional Reporter::s_initial_launch_settings_completion_time;
namespace {
constinit os::SdkMutex g_limit_mutex;
constinit bool g_submitted_limit = false;
class AppletActiveTimeInfoList {
private:
struct AppletActiveTimeInfo {
ncm::ProgramId program_id;
os::Tick register_tick;
TimeSpan suspended_duration;
};
static constexpr AppletActiveTimeInfo InvalidAppletActiveTimeInfo = { ncm::InvalidProgramId, os::Tick{}, TimeSpan::FromNanoSeconds(0) };
private:
std::array m_list;
public:
constexpr AppletActiveTimeInfoList() : m_list{InvalidAppletActiveTimeInfo, InvalidAppletActiveTimeInfo, InvalidAppletActiveTimeInfo, InvalidAppletActiveTimeInfo, InvalidAppletActiveTimeInfo, InvalidAppletActiveTimeInfo, InvalidAppletActiveTimeInfo, InvalidAppletActiveTimeInfo} {
m_list.fill(InvalidAppletActiveTimeInfo);
}
public:
void Register(ncm::ProgramId program_id) {
/* Find an unused entry. */
auto entry = util::range::find_if(m_list, [](const AppletActiveTimeInfo &info) { return info.program_id == ncm::InvalidProgramId; });
AMS_ASSERT(entry != m_list.end());
/* Create the entry. */
*entry = { program_id, os::GetSystemTick(), TimeSpan::FromNanoSeconds(0) };
}
void Unregister(ncm::ProgramId program_id) {
/* Find a matching entry. */
auto entry = util::range::find_if(m_list, [&](const AppletActiveTimeInfo &info) { return info.program_id == program_id; });
AMS_ASSERT(entry != m_list.end());
/* Clear the entry. */
*entry = InvalidAppletActiveTimeInfo;
}
void UpdateSuspendedDuration(ncm::ProgramId program_id, TimeSpan suspended_duration) {
/* Find a matching entry. */
auto entry = util::range::find_if(m_list, [&](const AppletActiveTimeInfo &info) { return info.program_id == program_id; });
AMS_ASSERT(entry != m_list.end());
/* Set the suspended duration. */
entry->suspended_duration = suspended_duration;
}
util::optional GetActiveDuration(ncm::ProgramId program_id) const {
/* Try to find a matching entry. */
const auto entry = util::range::find_if(m_list, [&](const AppletActiveTimeInfo &info) { return info.program_id == program_id; });
if (entry != m_list.end()) {
return (os::GetSystemTick() - entry->register_tick).ToTimeSpan() - entry->suspended_duration;
} else {
return util::nullopt;
}
}
};
constinit AppletActiveTimeInfoList g_applet_active_time_info_list;
Result PullErrorContext(size_t *out_total_size, size_t *out_size, void *dst, size_t dst_size, const err::ContextDescriptor &descriptor, Result result) {
s32 unk0;
u32 total_size, size;
R_TRY(::ectxrPullContext(std::addressof(unk0), std::addressof(total_size), std::addressof(size), dst, dst_size, descriptor.value, result.GetValue()));
*out_total_size = total_size;
*out_size = size;
return ResultSuccess();
}
void SubmitErrorContext(ContextRecord *record, Result result) {
/* Only support submitting context on 11.x. */
if (hos::GetVersion() < hos::Version_11_0_0) {
return;
}
/* Get the context descriptor. */
const auto descriptor = err::GetContextDescriptorFromResult(result);
if (descriptor == err::InvalidContextDescriptor) {
return;
}
/* Pull the error context. */
u8 error_context[0x200];
size_t error_context_total_size;
size_t error_context_size;
if (R_FAILED(PullErrorContext(std::addressof(error_context_total_size), std::addressof(error_context_size), error_context, util::size(error_context), descriptor, result))) {
return;
}
/* Set the total size. */
if (error_context_total_size == 0) {
return;
}
record->Add(FieldId_ErrorContextTotalSize, error_context_total_size);
/* Set the context. */
if (error_context_size == 0) {
return;
}
record->Add(FieldId_ErrorContextSize, error_context_size);
record->Add(FieldId_ErrorContext, error_context, error_context_size);
}
void SubmitResourceLimitLimitContext() {
std::scoped_lock lk(g_limit_mutex);
if (g_submitted_limit) {
return;
}
ON_SCOPE_EXIT { g_submitted_limit = true; };
/* Create and populate the record. */
auto record = std::make_unique(CategoryId_ResourceLimitLimitInfo);
if (record == nullptr) {
return;
}
u64 reslimit_handle_value;
if (R_FAILED(svc::GetInfo(std::addressof(reslimit_handle_value), svc::InfoType_ResourceLimit, svc::InvalidHandle, 0))) {
return;
}
const auto handle = static_cast(reslimit_handle_value);
ON_SCOPE_EXIT { R_ABORT_UNLESS(svc::CloseHandle(handle)); };
#define ADD_RESOURCE(__RESOURCE__) \
do { \
s64 limit_value; \
if (R_FAILED(svc::GetResourceLimitLimitValue(std::addressof(limit_value), handle, svc::LimitableResource_##__RESOURCE__##Max))) { \
return; \
} \
if (R_FAILED(record->Add(FieldId_System##__RESOURCE__##Limit, limit_value))) { \
return; \
} \
} while (0)
ADD_RESOURCE(PhysicalMemory);
ADD_RESOURCE(ThreadCount);
ADD_RESOURCE(EventCount);
ADD_RESOURCE(TransferMemoryCount);
ADD_RESOURCE(SessionCount);
#undef ADD_RESOURCE
Context::SubmitContextRecord(std::move(record));
g_submitted_limit = true;
}
void SubmitResourceLimitPeakContext() {
/* Create and populate the record. */
auto record = std::make_unique(CategoryId_ResourceLimitPeakInfo);
if (record == nullptr) {
return;
}
u64 reslimit_handle_value;
if (R_FAILED(svc::GetInfo(std::addressof(reslimit_handle_value), svc::InfoType_ResourceLimit, svc::InvalidHandle, 0))) {
return;
}
const auto handle = static_cast(reslimit_handle_value);
ON_SCOPE_EXIT { R_ABORT_UNLESS(svc::CloseHandle(handle)); };
#define ADD_RESOURCE(__RESOURCE__) \
do { \
s64 peak_value; \
if (R_FAILED(svc::GetResourceLimitPeakValue(std::addressof(peak_value), handle, svc::LimitableResource_##__RESOURCE__##Max))) { \
return; \
} \
if (R_FAILED(record->Add(FieldId_System##__RESOURCE__##Peak, peak_value))) { \
return; \
} \
} while (0)
ADD_RESOURCE(PhysicalMemory);
ADD_RESOURCE(ThreadCount);
ADD_RESOURCE(EventCount);
ADD_RESOURCE(TransferMemoryCount);
ADD_RESOURCE(SessionCount);
#undef ADD_RESOURCE
Context::SubmitContextRecord(std::move(record));
}
void SubmitResourceLimitContexts() {
SubmitResourceLimitLimitContext();
SubmitResourceLimitPeakContext();
}
Result ValidateCreateReportContext(const ContextEntry *ctx) {
R_UNLESS(ctx->category == CategoryId_ErrorInfo, erpt::ResultRequiredContextMissing());
R_UNLESS(ctx->field_count <= FieldsPerContext, erpt::ResultInvalidArgument());
const bool found_error_code = util::range::any_of(MakeSpan(ctx->fields, ctx->field_count), [] (const FieldEntry &entry) {
return entry.id == FieldId_ErrorCode;
});
R_UNLESS(found_error_code, erpt::ResultRequiredFieldMissing());
return ResultSuccess();
}
Result SubmitReportDefaults(const ContextEntry *ctx) {
AMS_ASSERT(ctx->category == CategoryId_ErrorInfo);
auto record = std::make_unique(CategoryId_ErrorInfoDefaults);
R_UNLESS(record != nullptr, erpt::ResultOutOfMemory());
bool found_abort_flag = false, found_syslog_flag = false;
for (u32 i = 0; i < ctx->field_count; i++) {
if (ctx->fields[i].id == FieldId_AbortFlag) {
found_abort_flag = true;
}
if (ctx->fields[i].id == FieldId_HasSyslogFlag) {
found_syslog_flag = true;
}
if (found_abort_flag && found_syslog_flag) {
break;
}
}
if (!found_abort_flag) {
record->Add(FieldId_AbortFlag, false);
}
if (!found_syslog_flag) {
record->Add(FieldId_HasSyslogFlag, true);
}
R_TRY(Context::SubmitContextRecord(std::move(record)));
return ResultSuccess();
}
void SaveSyslogReportIfRequired(const ContextEntry *ctx, const ReportId &report_id) {
bool needs_save_syslog = true;
for (u32 i = 0; i < ctx->field_count; i++) {
static_assert(FieldToTypeMap[FieldId_HasSyslogFlag] == FieldType_Bool);
if (ctx->fields[i].id == FieldId_HasSyslogFlag && !ctx->fields[i].value_bool) {
needs_save_syslog = false;
break;
}
}
if (needs_save_syslog) {
/* Here nintendo sends a report to srepo:u (vtable offset 0xE8) with data report_id. */
/* We will not send report ids to srepo:u. */
AMS_UNUSED(report_id);
}
}
void SubmitAppletActiveDurationForCrashReport(const ContextEntry *error_info_ctx, const void *data, u32 data_size, ContextRecord *error_info_auto_record) {
/* Check pre-conditions. */
AMS_ASSERT(error_info_ctx != nullptr);
AMS_ASSERT(error_info_ctx->category == CategoryId_ErrorInfo);
AMS_ASSERT(data != nullptr);
AMS_ASSERT(error_info_auto_record != nullptr);
/* Find the program id entry. */
const auto fields_span = MakeSpan(error_info_ctx->fields, error_info_ctx->field_count);
const auto program_id_entry = util::range::find_if(fields_span, [](const FieldEntry &entry) { return entry.id == FieldId_ProgramId; });
if (program_id_entry == fields_span.end()) {
return;
}
/* Check that the report has abort flag set. */
AMS_ASSERT(util::range::any_of(fields_span, [](const FieldEntry &entry) { return entry.id == FieldId_AbortFlag && entry.value_bool; }));
/* Check that the program id's value is a string. */
AMS_ASSERT(program_id_entry->type == FieldType_String);
/* Check that the program id's length is valid/in bounds. */
const auto program_id_ofs = program_id_entry->value_array.start_idx;
const auto program_id_len = program_id_entry->value_array.size;
AMS_ASSERT(16 <= program_id_len && program_id_len <= 17);
AMS_ASSERT(program_id_ofs + program_id_len <= data_size);
AMS_UNUSED(data_size);
/* Get the program id string. */
char program_id_str[17];
std::memcpy(program_id_str, static_cast(data) + program_id_ofs, std::min(program_id_len, sizeof(program_id_str)));
program_id_str[sizeof(program_id_str) - 1] = '\x00';
/* Convert the string to an integer. */
char *end_ptr = nullptr;
const ncm::ProgramId program_id = { std::strtoull(program_id_str, std::addressof(end_ptr), 16) };
AMS_ASSERT(*end_ptr == '\x00');
/* Get the active duration. */
const auto active_duration = g_applet_active_time_info_list.GetActiveDuration(program_id);
if (!active_duration.has_value()) {
return;
}
/* Add the active applet time. */
const auto result = error_info_auto_record->Add(FieldId_AppletTotalActiveTime, (*active_duration).GetSeconds());
R_ASSERT(result);
}
Result LinkAttachments(const ReportId &report_id, const AttachmentId *attachments, u32 num_attachments) {
for (u32 i = 0; i < num_attachments; i++) {
R_TRY(JournalForAttachments::SetOwner(attachments[i], report_id));
}
return ResultSuccess();
}
Result CreateReportFile(const ReportId &report_id, ReportType type, const ReportMetaData *meta, u32 num_attachments, const time::PosixTime ×tamp_user, const time::PosixTime ×tamp_network, bool redirect_new_reports) {
/* Define journal record deleter. */
struct JournalRecordDeleter {
void operator()(JournalRecord *record) {
if (record != nullptr) {
if (record->RemoveReference()) {
delete record;
}
}
}
};
/* Make a journal record. */
auto record = std::unique_ptr, JournalRecordDeleter>{new JournalRecord, JournalRecordDeleter{}};
R_UNLESS(record != nullptr, erpt::ResultOutOfMemory());
record->AddReference();
record->info.type = type;
record->info.id = report_id;
record->info.flags = erpt::srv::MakeNoReportFlags();
record->info.timestamp_user = timestamp_user;
record->info.timestamp_network = timestamp_network;
if (meta != nullptr) {
record->info.meta_data = *meta;
}
if (num_attachments > 0) {
record->info.flags.Set();
}
auto report = std::make_unique(record.get(), redirect_new_reports);
R_UNLESS(report != nullptr, erpt::ResultOutOfMemory());
auto report_guard = SCOPE_GUARD { report->Delete(); };
R_TRY(Context::WriteContextsToReport(report.get()));
R_TRY(report->GetSize(std::addressof(record->info.report_size)));
if (!redirect_new_reports) {
/* If we're not redirecting new reports, then we want to store the report in the journal. */
R_TRY(Journal::Store(record.get()));
} else {
/* If we are redirecting new reports, we don't want to store the report in the journal. */
/* We should take this opportunity to delete any attachments associated with the report. */
R_ABORT_UNLESS(JournalForAttachments::DeleteAttachments(report_id));
}
R_TRY(Journal::Commit());
report_guard.Cancel();
return ResultSuccess();
}
}
Result Reporter::RegisterRunningApplet(ncm::ProgramId program_id) {
g_applet_active_time_info_list.Register(program_id);
return ResultSuccess();
}
Result Reporter::UnregisterRunningApplet(ncm::ProgramId program_id) {
g_applet_active_time_info_list.Unregister(program_id);
return ResultSuccess();
}
Result Reporter::UpdateAppletSuspendedDuration(ncm::ProgramId program_id, TimeSpan duration) {
g_applet_active_time_info_list.UpdateSuspendedDuration(program_id, duration);
return ResultSuccess();
}
Result Reporter::CreateReport(ReportType type, Result ctx_result, const ContextEntry *ctx, const u8 *data, u32 data_size, const ReportMetaData *meta, const AttachmentId *attachments, u32 num_attachments) {
/* Create a context record for the report. */
auto record = std::make_unique();
R_UNLESS(record != nullptr, erpt::ResultOutOfMemory());
/* Initialize the record. */
R_TRY(record->Initialize(ctx, data, data_size));
/* Create the report. */
return CreateReport(type, ctx_result, std::move(record), meta, attachments, num_attachments);
}
Result Reporter::CreateReport(ReportType type, Result ctx_result, std::unique_ptr record, const ReportMetaData *meta, const AttachmentId *attachments, u32 num_attachments) {
/* Clear the automatic categories, when we're done with our report. */
ON_SCOPE_EXIT {
Context::ClearContext(CategoryId_ErrorInfo);
Context::ClearContext(CategoryId_ErrorInfoAuto);
Context::ClearContext(CategoryId_ErrorInfoDefaults);
};
/* Get the context entry pointer. */
const ContextEntry *ctx = record->GetContextEntryPtr();
/* Validate the context. */
R_TRY(ValidateCreateReportContext(ctx));
/* Submit report defaults. */
R_TRY(SubmitReportDefaults(ctx));
/* Generate report id. */
const ReportId report_id = { .uuid = util::GenerateUuid() };
/* Get posix timestamps. */
time::PosixTime timestamp_user;
time::PosixTime timestamp_network;
R_TRY(time::StandardUserSystemClock::GetCurrentTime(std::addressof(timestamp_user)));
if (R_FAILED(time::StandardNetworkSystemClock::GetCurrentTime(std::addressof(timestamp_network)))) {
timestamp_network = {};
}
/* Save syslog report, if required. */
SaveSyslogReportIfRequired(ctx, report_id);
/* Submit report contexts. */
R_TRY(SubmitReportContexts(report_id, type, ctx_result, std::move(record), timestamp_user, timestamp_network));
/* Link attachments to the report. */
R_TRY(LinkAttachments(report_id, attachments, num_attachments));
/* Create the report file. */
R_TRY(CreateReportFile(report_id, type, meta, num_attachments, timestamp_user, timestamp_network, s_redirect_new_reports));
return ResultSuccess();
}
Result Reporter::SubmitReportContexts(const ReportId &report_id, ReportType type, Result ctx_result, std::unique_ptr record, const time::PosixTime ×tamp_user, const time::PosixTime ×tamp_network) {
/* Create automatic record. */
auto auto_record = std::make_unique(CategoryId_ErrorInfoAuto, 0x300);
R_UNLESS(auto_record != nullptr, erpt::ResultOutOfMemory());
/* Handle error context. */
if (R_FAILED(ctx_result)) {
SubmitErrorContext(auto_record.get(), ctx_result);
}
/* Collect unique report fields. */
char identifier_str[0x40];
report_id.uuid.ToString(identifier_str, sizeof(identifier_str));
const auto occurrence_tick = os::GetSystemTick();
const s64 steady_clock_internal_offset_seconds = (hos::GetVersion() >= hos::Version_5_0_0) ? time::GetStandardSteadyClockInternalOffset().GetSeconds() : 0;
time::SteadyClockTimePoint steady_clock_current_timepoint;
R_ABORT_UNLESS(time::GetStandardSteadyClockCurrentTimePoint(std::addressof(steady_clock_current_timepoint)));
/* Add automatic fields. */
auto_record->Add(FieldId_OsVersion, s_os_version, util::Strnlen(s_os_version, sizeof(s_os_version)));
auto_record->Add(FieldId_PrivateOsVersion, s_private_os_version, util::Strnlen(s_private_os_version, sizeof(s_private_os_version)));
auto_record->Add(FieldId_SerialNumber, s_serial_number, util::Strnlen(s_serial_number, sizeof(s_serial_number)));
auto_record->Add(FieldId_ReportIdentifier, identifier_str, util::Strnlen(identifier_str, sizeof(identifier_str)));
auto_record->Add(FieldId_OccurrenceTimestamp, timestamp_user.value);
auto_record->Add(FieldId_OccurrenceTimestampNet, timestamp_network.value);
auto_record->Add(FieldId_ReportVisibilityFlag, type == ReportType_Visible);
auto_record->Add(FieldId_OccurrenceTick, occurrence_tick.GetInt64Value());
auto_record->Add(FieldId_SteadyClockInternalOffset, steady_clock_internal_offset_seconds);
auto_record->Add(FieldId_SteadyClockCurrentTimePointValue, steady_clock_current_timepoint.value);
auto_record->Add(FieldId_ElapsedTimeSincePowerOn, (occurrence_tick - *s_power_on_time).ToTimeSpan().GetSeconds());
auto_record->Add(FieldId_ElapsedTimeSinceLastAwake, (occurrence_tick - *s_awake_time).ToTimeSpan().GetSeconds());
if (s_initial_launch_settings_completion_time) {
s64 elapsed_seconds;
if (R_SUCCEEDED(time::GetElapsedSecondsBetween(std::addressof(elapsed_seconds), *s_initial_launch_settings_completion_time, steady_clock_current_timepoint))) {
auto_record->Add(FieldId_ElapsedTimeSinceInitialLaunch, elapsed_seconds);
}
}
if (s_application_launch_time) {
auto_record->Add(FieldId_ApplicationAliveTime, (occurrence_tick - *s_application_launch_time).ToTimeSpan().GetSeconds());
}
/* Submit applet active duration information. */
{
const auto *error_info_ctx = record->GetContextEntryPtr();
SubmitAppletActiveDurationForCrashReport(error_info_ctx, error_info_ctx->array_buffer, error_info_ctx->array_buffer_size - error_info_ctx->array_free_count, auto_record.get());
}
/* Submit the auto record. */
R_TRY(Context::SubmitContextRecord(std::move(auto_record)));
/* Submit the info record. */
R_TRY(Context::SubmitContextRecord(std::move(record)));
/* Submit context for resource limits. */
SubmitResourceLimitContexts();
return ResultSuccess();
}
}