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Remove a few hacks for clock setups, which seem to no longer be needed, but fix network clock to local clock on every boot. Also fix some logging strings.

This commit is contained in:
Kelebek1 2024-01-30 19:08:47 +00:00
parent 2e65616761
commit 9ed82a280e
9 changed files with 66 additions and 84 deletions

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@ -197,32 +197,27 @@ Result TimeZoneService::ToCalendarTimeWithMyRule(
Result TimeZoneService::ToPosixTime(Out<u32> out_count, Result TimeZoneService::ToPosixTime(Out<u32> out_count,
OutArray<s64, BufferAttr_HipcPointer> out_times, OutArray<s64, BufferAttr_HipcPointer> out_times,
Out<u32> out_times_count, const Service::PSC::Time::CalendarTime& calendar_time,
Service::PSC::Time::CalendarTime& calendar_time, InRule rule) { InRule rule) {
SCOPE_EXIT({ SCOPE_EXIT({
LOG_DEBUG(Service_Time, LOG_DEBUG(Service_Time,
"called. calendar_time={} out_count={} out_times[0]={} out_times[1]={} " "called. calendar_time={} out_count={} out_times[0]={} out_times[1]={}",
"out_times_count={}", calendar_time, *out_count, out_times[0], out_times[1]);
calendar_time, *out_count, out_times[0], out_times[1], *out_times_count);
}); });
R_RETURN( R_RETURN(m_wrapped_service->ToPosixTime(out_count, out_times, calendar_time, rule));
m_wrapped_service->ToPosixTime(out_count, out_times, out_times_count, calendar_time, rule));
} }
Result TimeZoneService::ToPosixTimeWithMyRule(Out<u32> out_count, Result TimeZoneService::ToPosixTimeWithMyRule(
OutArray<s64, BufferAttr_HipcPointer> out_times, Out<u32> out_count, OutArray<s64, BufferAttr_HipcPointer> out_times,
Out<u32> out_times_count, const Service::PSC::Time::CalendarTime& calendar_time) {
Service::PSC::Time::CalendarTime& calendar_time) {
SCOPE_EXIT({ SCOPE_EXIT({
LOG_DEBUG(Service_Time, LOG_DEBUG(Service_Time,
"called. calendar_time={} out_count={} out_times[0]={} out_times[1]={} " "called. calendar_time={} out_count={} out_times[0]={} out_times[1]={}",
"out_times_count={}", calendar_time, *out_count, out_times[0], out_times[1]);
calendar_time, *out_count, out_times[0], out_times[1], *out_times_count);
}); });
R_RETURN(m_wrapped_service->ToPosixTimeWithMyRule(out_count, out_times, out_times_count, R_RETURN(m_wrapped_service->ToPosixTimeWithMyRule(out_count, out_times, calendar_time));
calendar_time));
} }
} // namespace Service::Glue::Time } // namespace Service::Glue::Time

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@ -68,12 +68,10 @@ public:
Out<Service::PSC::Time::CalendarTime> out_calendar_time, Out<Service::PSC::Time::CalendarTime> out_calendar_time,
Out<Service::PSC::Time::CalendarAdditionalInfo> out_additional_info, s64 time); Out<Service::PSC::Time::CalendarAdditionalInfo> out_additional_info, s64 time);
Result ToPosixTime(Out<u32> out_count, OutArray<s64, BufferAttr_HipcPointer> out_times, Result ToPosixTime(Out<u32> out_count, OutArray<s64, BufferAttr_HipcPointer> out_times,
Out<u32> out_times_count, Service::PSC::Time::CalendarTime& calendar_time, const Service::PSC::Time::CalendarTime& calendar_time, InRule rule);
InRule rule);
Result ToPosixTimeWithMyRule(Out<u32> out_count, Result ToPosixTimeWithMyRule(Out<u32> out_count,
OutArray<s64, BufferAttr_HipcPointer> out_times, OutArray<s64, BufferAttr_HipcPointer> out_times,
Out<u32> out_times_count, const Service::PSC::Time::CalendarTime& calendar_time);
Service::PSC::Time::CalendarTime& calendar_time);
private: private:
Core::System& m_system; Core::System& m_system;

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@ -189,7 +189,7 @@ struct fmt::formatter<Service::PSC::Time::SteadyClockTimePoint> : fmt::formatter
template <typename FormatContext> template <typename FormatContext>
auto format(const Service::PSC::Time::SteadyClockTimePoint& time_point, auto format(const Service::PSC::Time::SteadyClockTimePoint& time_point,
FormatContext& ctx) const { FormatContext& ctx) const {
return fmt::format_to(ctx.out(), "time_point={}", time_point.time_point); return fmt::format_to(ctx.out(), "[time_point={}]", time_point.time_point);
} }
}; };
@ -197,7 +197,7 @@ template <>
struct fmt::formatter<Service::PSC::Time::SystemClockContext> : fmt::formatter<fmt::string_view> { struct fmt::formatter<Service::PSC::Time::SystemClockContext> : fmt::formatter<fmt::string_view> {
template <typename FormatContext> template <typename FormatContext>
auto format(const Service::PSC::Time::SystemClockContext& context, FormatContext& ctx) const { auto format(const Service::PSC::Time::SystemClockContext& context, FormatContext& ctx) const {
return fmt::format_to(ctx.out(), "offset={} steady_time_point={}", context.offset, return fmt::format_to(ctx.out(), "[offset={} steady_time_point={}]", context.offset,
context.steady_time_point.time_point); context.steady_time_point.time_point);
} }
}; };
@ -206,8 +206,9 @@ template <>
struct fmt::formatter<Service::PSC::Time::CalendarTime> : fmt::formatter<fmt::string_view> { struct fmt::formatter<Service::PSC::Time::CalendarTime> : fmt::formatter<fmt::string_view> {
template <typename FormatContext> template <typename FormatContext>
auto format(const Service::PSC::Time::CalendarTime& calendar, FormatContext& ctx) const { auto format(const Service::PSC::Time::CalendarTime& calendar, FormatContext& ctx) const {
return fmt::format_to(ctx.out(), "{}/{}/{} {}:{}:{}", calendar.day, calendar.month, return fmt::format_to(ctx.out(), "[{:02}/{:02}/{:04} {:02}:{:02}:{:02}]", calendar.day,
calendar.year, calendar.hour, calendar.minute, calendar.second); calendar.month, calendar.year, calendar.hour, calendar.minute,
calendar.second);
} }
}; };
@ -217,7 +218,7 @@ struct fmt::formatter<Service::PSC::Time::CalendarAdditionalInfo>
template <typename FormatContext> template <typename FormatContext>
auto format(const Service::PSC::Time::CalendarAdditionalInfo& additional, auto format(const Service::PSC::Time::CalendarAdditionalInfo& additional,
FormatContext& ctx) const { FormatContext& ctx) const {
return fmt::format_to(ctx.out(), "weekday={} yearday={} name={} is_dst={} ut_offset={}", return fmt::format_to(ctx.out(), "[weekday={} yearday={} name={} is_dst={} ut_offset={}]",
additional.day_of_week, additional.day_of_year, additional.day_of_week, additional.day_of_year,
additional.name.data(), additional.is_dst, additional.ut_offset); additional.name.data(), additional.is_dst, additional.ut_offset);
} }
@ -227,8 +228,7 @@ template <>
struct fmt::formatter<Service::PSC::Time::LocationName> : fmt::formatter<fmt::string_view> { struct fmt::formatter<Service::PSC::Time::LocationName> : fmt::formatter<fmt::string_view> {
template <typename FormatContext> template <typename FormatContext>
auto format(const Service::PSC::Time::LocationName& name, FormatContext& ctx) const { auto format(const Service::PSC::Time::LocationName& name, FormatContext& ctx) const {
std::string_view n{name.data(), name.size()}; return formatter<string_view>::format(name.data(), ctx);
return formatter<string_view>::format(n, ctx);
} }
}; };
@ -236,8 +236,7 @@ template <>
struct fmt::formatter<Service::PSC::Time::RuleVersion> : fmt::formatter<fmt::string_view> { struct fmt::formatter<Service::PSC::Time::RuleVersion> : fmt::formatter<fmt::string_view> {
template <typename FormatContext> template <typename FormatContext>
auto format(const Service::PSC::Time::RuleVersion& version, FormatContext& ctx) const { auto format(const Service::PSC::Time::RuleVersion& version, FormatContext& ctx) const {
std::string_view v{version.data(), version.size()}; return formatter<string_view>::format(version.data(), ctx);
return formatter<string_view>::format(v, ctx);
} }
}; };
@ -247,10 +246,11 @@ struct fmt::formatter<Service::PSC::Time::ClockSnapshot> : fmt::formatter<fmt::s
auto format(const Service::PSC::Time::ClockSnapshot& snapshot, FormatContext& ctx) const { auto format(const Service::PSC::Time::ClockSnapshot& snapshot, FormatContext& ctx) const {
return fmt::format_to( return fmt::format_to(
ctx.out(), ctx.out(),
"user_context={} network_context={} user_time={} network_time={} user_calendar_time={} " "[user_context={} network_context={} user_time={} network_time={} "
"user_calendar_time={} "
"network_calendar_time={} user_calendar_additional_time={} " "network_calendar_time={} user_calendar_additional_time={} "
"network_calendar_additional_time={} steady_clock_time_point={} location={} " "network_calendar_additional_time={} steady_clock_time_point={} location={} "
"is_automatic_correction_enabled={} type={}", "is_automatic_correction_enabled={} type={}]",
snapshot.user_context, snapshot.network_context, snapshot.user_time, snapshot.user_context, snapshot.network_context, snapshot.user_time,
snapshot.network_time, snapshot.user_calendar_time, snapshot.network_calendar_time, snapshot.network_time, snapshot.user_calendar_time, snapshot.network_calendar_time,
snapshot.user_calendar_additional_time, snapshot.network_calendar_additional_time, snapshot.user_calendar_additional_time, snapshot.network_calendar_additional_time,
@ -266,7 +266,7 @@ struct fmt::formatter<Service::PSC::Time::ContinuousAdjustmentTimePoint>
auto format(const Service::PSC::Time::ContinuousAdjustmentTimePoint& time_point, auto format(const Service::PSC::Time::ContinuousAdjustmentTimePoint& time_point,
FormatContext& ctx) const { FormatContext& ctx) const {
return fmt::format_to(ctx.out(), return fmt::format_to(ctx.out(),
"rtc_offset={} diff_scale={} shift_amount={} lower={} upper={}", "[rtc_offset={} diff_scale={} shift_amount={} lower={} upper={}]",
time_point.rtc_offset, time_point.diff_scale, time_point.shift_amount, time_point.rtc_offset, time_point.diff_scale, time_point.shift_amount,
time_point.lower, time_point.upper); time_point.lower, time_point.upper);
} }

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@ -120,11 +120,8 @@ Result ServiceManager::SetupStandardNetworkSystemClockCore(SystemClockContext& c
context, context.steady_time_point.clock_source_id.RawString(), accuracy); context, context.steady_time_point.clock_source_id.RawString(), accuracy);
// TODO this is a hack! The network clock should be updated independently, from the ntc service // TODO this is a hack! The network clock should be updated independently, from the ntc service
// and maybe elsewhere. We do not do that, so fix the clock to the local clock on first boot // and maybe elsewhere. We do not do that, so fix the clock to the local clock.
// to avoid it being stuck at 0.
if (context == Service::PSC::Time::SystemClockContext{}) {
m_local_system_clock.GetContext(context); m_local_system_clock.GetContext(context);
}
m_network_system_clock.SetContextWriter(m_network_system_context_writer); m_network_system_clock.SetContextWriter(m_network_system_context_writer);
m_network_system_clock.Initialize(context, accuracy); m_network_system_clock.Initialize(context, accuracy);
@ -138,13 +135,6 @@ Result ServiceManager::SetupStandardUserSystemClockCore(bool automatic_correctio
LOG_DEBUG(Service_Time, "called. automatic_correction={} time_point={} clock_source_id={}", LOG_DEBUG(Service_Time, "called. automatic_correction={} time_point={} clock_source_id={}",
automatic_correction, time_point, time_point.clock_source_id.RawString()); automatic_correction, time_point, time_point.clock_source_id.RawString());
// TODO this is a hack! The user clock should be updated independently, from the ntc service
// and maybe elsewhere. We do not do that, so fix the clock to the local clock on first boot
// to avoid it being stuck at 0.
if (time_point == Service::PSC::Time::SteadyClockTimePoint{}) {
m_local_system_clock.GetCurrentTimePoint(time_point);
}
m_user_system_clock.SetAutomaticCorrection(automatic_correction); m_user_system_clock.SetAutomaticCorrection(automatic_correction);
m_user_system_clock.SetTimePointAndSignal(time_point); m_user_system_clock.SetTimePointAndSignal(time_point);
m_user_system_clock.SetInitialized(); m_user_system_clock.SetInitialized();

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@ -140,11 +140,11 @@ Result TimeZone::ParseBinaryInto(Tz::Rule& out_rule, std::span<const u8> binary)
R_RETURN(ParseBinaryImpl(out_rule, binary)); R_RETURN(ParseBinaryImpl(out_rule, binary));
} }
Result TimeZone::ToPosixTime(u32& out_count, std::span<s64> out_times, u32 out_times_count, Result TimeZone::ToPosixTime(u32& out_count, std::span<s64> out_times, size_t out_times_max_count,
CalendarTime& calendar, const Tz::Rule& rule) { const CalendarTime& calendar, const Tz::Rule& rule) {
std::scoped_lock l{m_mutex}; std::scoped_lock l{m_mutex};
auto res = ToPosixTimeImpl(out_count, out_times, out_times_count, calendar, rule, -1); auto res = ToPosixTimeImpl(out_count, out_times, out_times_max_count, calendar, rule, -1);
if (res != ResultSuccess) { if (res != ResultSuccess) {
if (res == ResultTimeZoneNotFound) { if (res == ResultTimeZoneNotFound) {
@ -158,10 +158,10 @@ Result TimeZone::ToPosixTime(u32& out_count, std::span<s64> out_times, u32 out_t
} }
Result TimeZone::ToPosixTimeWithMyRule(u32& out_count, std::span<s64> out_times, Result TimeZone::ToPosixTimeWithMyRule(u32& out_count, std::span<s64> out_times,
u32 out_times_count, CalendarTime& calendar) { size_t out_times_max_count, const CalendarTime& calendar) {
std::scoped_lock l{m_mutex}; std::scoped_lock l{m_mutex};
auto res = ToPosixTimeImpl(out_count, out_times, out_times_count, calendar, m_my_rule, -1); auto res = ToPosixTimeImpl(out_count, out_times, out_times_max_count, calendar, m_my_rule, -1);
if (res != ResultSuccess) { if (res != ResultSuccess) {
if (res == ResultTimeZoneNotFound) { if (res == ResultTimeZoneNotFound) {
@ -212,20 +212,23 @@ Result TimeZone::ToCalendarTimeImpl(CalendarTime& out_calendar_time,
R_SUCCEED(); R_SUCCEED();
} }
Result TimeZone::ToPosixTimeImpl(u32& out_count, std::span<s64> out_times, u32 out_times_count, Result TimeZone::ToPosixTimeImpl(u32& out_count, std::span<s64> out_times,
CalendarTime& calendar, const Tz::Rule& rule, s32 is_dst) { size_t out_times_max_count, const CalendarTime& calendar,
const Tz::Rule& rule, s32 is_dst) {
R_TRY(ValidateRule(rule)); R_TRY(ValidateRule(rule));
calendar.month -= 1; CalendarTime local_calendar{calendar};
calendar.year -= 1900;
local_calendar.month -= 1;
local_calendar.year -= 1900;
Tz::CalendarTimeInternal internal{ Tz::CalendarTimeInternal internal{
.tm_sec = calendar.second, .tm_sec = local_calendar.second,
.tm_min = calendar.minute, .tm_min = local_calendar.minute,
.tm_hour = calendar.hour, .tm_hour = local_calendar.hour,
.tm_mday = calendar.day, .tm_mday = local_calendar.day,
.tm_mon = calendar.month, .tm_mon = local_calendar.month,
.tm_year = calendar.year, .tm_year = local_calendar.year,
.tm_wday = 0, .tm_wday = 0,
.tm_yday = 0, .tm_yday = 0,
.tm_isdst = is_dst, .tm_isdst = is_dst,
@ -243,9 +246,9 @@ Result TimeZone::ToPosixTimeImpl(u32& out_count, std::span<s64> out_times, u32 o
R_RETURN(ResultTimeZoneNotFound); R_RETURN(ResultTimeZoneNotFound);
} }
if (internal.tm_sec != calendar.second || internal.tm_min != calendar.minute || if (internal.tm_sec != local_calendar.second || internal.tm_min != local_calendar.minute ||
internal.tm_hour != calendar.hour || internal.tm_mday != calendar.day || internal.tm_hour != local_calendar.hour || internal.tm_mday != local_calendar.day ||
internal.tm_mon != calendar.month || internal.tm_year != calendar.year) { internal.tm_mon != local_calendar.month || internal.tm_year != local_calendar.year) {
R_RETURN(ResultTimeZoneNotFound); R_RETURN(ResultTimeZoneNotFound);
} }
@ -254,7 +257,7 @@ Result TimeZone::ToPosixTimeImpl(u32& out_count, std::span<s64> out_times, u32 o
} }
out_times[0] = time; out_times[0] = time;
if (out_times_count < 2) { if (out_times_max_count < 2) {
out_count = 1; out_count = 1;
R_SUCCEED(); R_SUCCEED();
} }

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@ -38,18 +38,18 @@ public:
CalendarAdditionalInfo& calendar_additional, s64 time); CalendarAdditionalInfo& calendar_additional, s64 time);
Result ParseBinary(LocationName& name, std::span<const u8> binary); Result ParseBinary(LocationName& name, std::span<const u8> binary);
Result ParseBinaryInto(Tz::Rule& out_rule, std::span<const u8> binary); Result ParseBinaryInto(Tz::Rule& out_rule, std::span<const u8> binary);
Result ToPosixTime(u32& out_count, std::span<s64> out_times, u32 out_times_count, Result ToPosixTime(u32& out_count, std::span<s64> out_times, size_t out_times_max_count,
CalendarTime& calendar, const Tz::Rule& rule); const CalendarTime& calendar, const Tz::Rule& rule);
Result ToPosixTimeWithMyRule(u32& out_count, std::span<s64> out_times, u32 out_times_count, Result ToPosixTimeWithMyRule(u32& out_count, std::span<s64> out_times,
CalendarTime& calendar); size_t out_times_max_count, const CalendarTime& calendar);
private: private:
Result ParseBinaryImpl(Tz::Rule& out_rule, std::span<const u8> binary); Result ParseBinaryImpl(Tz::Rule& out_rule, std::span<const u8> binary);
Result ToCalendarTimeImpl(CalendarTime& out_calendar_time, Result ToCalendarTimeImpl(CalendarTime& out_calendar_time,
CalendarAdditionalInfo& out_additional_info, s64 time, CalendarAdditionalInfo& out_additional_info, s64 time,
const Tz::Rule& rule); const Tz::Rule& rule);
Result ToPosixTimeImpl(u32& out_count, std::span<s64> out_times, u32 out_times_count, Result ToPosixTimeImpl(u32& out_count, std::span<s64> out_times, size_t out_times_max_count,
CalendarTime& calendar, const Tz::Rule& rule, s32 is_dst); const CalendarTime& calendar, const Tz::Rule& rule, s32 is_dst);
bool m_initialized{}; bool m_initialized{};
std::recursive_mutex m_mutex; std::recursive_mutex m_mutex;

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@ -138,32 +138,28 @@ Result TimeZoneService::ToCalendarTimeWithMyRule(Out<CalendarTime> out_calendar_
Result TimeZoneService::ToPosixTime(Out<u32> out_count, Result TimeZoneService::ToPosixTime(Out<u32> out_count,
OutArray<s64, BufferAttr_HipcPointer> out_times, OutArray<s64, BufferAttr_HipcPointer> out_times,
Out<u32> out_times_count, CalendarTime& calendar_time, const CalendarTime& calendar_time, InRule rule) {
InRule rule) {
SCOPE_EXIT({ SCOPE_EXIT({
LOG_DEBUG(Service_Time, LOG_DEBUG(Service_Time,
"called. calendar_time={} out_count={} out_times[0]={} out_times[1]={} " "called. calendar_time={} out_count={} out_times[0]={} out_times[1]={} ",
"out_times_count={}", calendar_time, *out_count, out_times[0], out_times[1]);
calendar_time, *out_count, out_times[0], out_times[1], *out_times_count);
}); });
R_RETURN( R_RETURN(
m_time_zone.ToPosixTime(*out_count, out_times, *out_times_count, calendar_time, *rule)); m_time_zone.ToPosixTime(*out_count, out_times, out_times.size(), calendar_time, *rule));
} }
Result TimeZoneService::ToPosixTimeWithMyRule(Out<u32> out_count, Result TimeZoneService::ToPosixTimeWithMyRule(Out<u32> out_count,
OutArray<s64, BufferAttr_HipcPointer> out_times, OutArray<s64, BufferAttr_HipcPointer> out_times,
Out<u32> out_times_count, const CalendarTime& calendar_time) {
CalendarTime& calendar_time) {
SCOPE_EXIT({ SCOPE_EXIT({
LOG_DEBUG(Service_Time, LOG_DEBUG(Service_Time,
"called. calendar_time={} out_count={} out_times[0]={} out_times[1]={} " "called. calendar_time={} out_count={} out_times[0]={} out_times[1]={} ",
"out_times_count={}", calendar_time, *out_count, out_times[0], out_times[1]);
calendar_time, *out_count, out_times[0], out_times[1], *out_times_count);
}); });
R_RETURN( R_RETURN(
m_time_zone.ToPosixTimeWithMyRule(*out_count, out_times, *out_times_count, calendar_time)); m_time_zone.ToPosixTimeWithMyRule(*out_count, out_times, out_times.size(), calendar_time));
} }
} // namespace Service::PSC::Time } // namespace Service::PSC::Time

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@ -50,10 +50,10 @@ public:
Result ToCalendarTimeWithMyRule(Out<CalendarTime> out_calendar_time, Result ToCalendarTimeWithMyRule(Out<CalendarTime> out_calendar_time,
Out<CalendarAdditionalInfo> out_additional_info, s64 time); Out<CalendarAdditionalInfo> out_additional_info, s64 time);
Result ToPosixTime(Out<u32> out_count, OutArray<s64, BufferAttr_HipcPointer> out_times, Result ToPosixTime(Out<u32> out_count, OutArray<s64, BufferAttr_HipcPointer> out_times,
Out<u32> out_times_count, CalendarTime& calendar_time, InRule rule); const CalendarTime& calendar_time, InRule rule);
Result ToPosixTimeWithMyRule(Out<u32> out_count, Result ToPosixTimeWithMyRule(Out<u32> out_count,
OutArray<s64, BufferAttr_HipcPointer> out_times, OutArray<s64, BufferAttr_HipcPointer> out_times,
Out<u32> out_times_count, CalendarTime& calendar_time); const CalendarTime& calendar_time);
private: private:
Core::System& m_system; Core::System& m_system;

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@ -25,7 +25,7 @@
namespace Service::Set { namespace Service::Set {
namespace { namespace {
constexpr u32 SETTINGS_VERSION{2u}; constexpr u32 SETTINGS_VERSION{3u};
constexpr auto SETTINGS_MAGIC = Common::MakeMagic('y', 'u', 'z', 'u', '_', 's', 'e', 't'); constexpr auto SETTINGS_MAGIC = Common::MakeMagic('y', 'u', 'z', 'u', '_', 's', 'e', 't');
struct SettingsHeader { struct SettingsHeader {
u64 magic; u64 magic;