mirror of
https://github.com/GreemDev/Ryujinx.git
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cf6cd71488
* IPC refactor part 2: Use ReplyAndReceive on HLE services and remove special handling from kernel * Fix for applet transfer memory + some nits * Keep handles if possible to avoid server handle table exhaustion * Fix IPC ZeroFill bug * am: Correctly implement CreateManagedDisplayLayer and implement CreateManagedDisplaySeparableLayer CreateManagedDisplaySeparableLayer is requires since 10.x+ when appletResourceUserId != 0 * Make it exit properly * Make ServiceNotImplementedException show the full message again * Allow yielding execution to avoid starving other threads * Only wait if active * Merge IVirtualMemoryManager and IAddressSpaceManager * Fix Ro loading data from the wrong process Co-authored-by: Thog <me@thog.eu>
223 lines
8.9 KiB
C#
223 lines
8.9 KiB
C#
using Ryujinx.Common;
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using Ryujinx.HLE.Exceptions;
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using Ryujinx.HLE.HOS.Ipc;
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using Ryujinx.HLE.HOS.Kernel.Common;
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using Ryujinx.HLE.HOS.Services.Time.Clock;
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using Ryujinx.HLE.Utilities;
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using System;
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using System.IO;
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using System.Text;
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namespace Ryujinx.HLE.HOS.Services.Time
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{
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[Service("time:m")] // 9.0.0+
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class ITimeServiceManager : IpcService
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{
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private TimeManager _timeManager;
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private int _automaticCorrectionEvent;
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public ITimeServiceManager(ServiceCtx context)
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{
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_timeManager = TimeManager.Instance;
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_automaticCorrectionEvent = 0;
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}
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[Command(0)]
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// GetUserStaticService() -> object<nn::timesrv::detail::service::IStaticService>
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public ResultCode GetUserStaticService(ServiceCtx context)
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{
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MakeObject(context, new IStaticServiceForPsc(_timeManager, TimePermissions.User));
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return ResultCode.Success;
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}
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[Command(5)]
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// GetAdminStaticService() -> object<nn::timesrv::detail::service::IStaticService>
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public ResultCode GetAdminStaticService(ServiceCtx context)
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{
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MakeObject(context, new IStaticServiceForPsc(_timeManager, TimePermissions.Admin));
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return ResultCode.Success;
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}
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[Command(6)]
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// GetRepairStaticService() -> object<nn::timesrv::detail::service::IStaticService>
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public ResultCode GetRepairStaticService(ServiceCtx context)
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{
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MakeObject(context, new IStaticServiceForPsc(_timeManager, TimePermissions.Repair));
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return ResultCode.Success;
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}
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[Command(9)]
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// GetManufactureStaticService() -> object<nn::timesrv::detail::service::IStaticService>
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public ResultCode GetManufactureStaticService(ServiceCtx context)
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{
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MakeObject(context, new IStaticServiceForPsc(_timeManager, TimePermissions.Manufacture));
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return ResultCode.Success;
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}
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[Command(10)]
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// SetupStandardSteadyClock(nn::util::Uuid clock_source_id, nn::TimeSpanType setup_value, nn::TimeSpanType internal_offset, nn::TimeSpanType test_offset, bool is_rtc_reset_detected)
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public ResultCode SetupStandardSteadyClock(ServiceCtx context)
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{
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UInt128 clockSourceId = context.RequestData.ReadStruct<UInt128>();
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TimeSpanType setupValue = context.RequestData.ReadStruct<TimeSpanType>();
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TimeSpanType internalOffset = context.RequestData.ReadStruct<TimeSpanType>();
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TimeSpanType testOffset = context.RequestData.ReadStruct<TimeSpanType>();
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bool isRtcResetDetected = context.RequestData.ReadBoolean();
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_timeManager.SetupStandardSteadyClock(context.Thread, clockSourceId, setupValue, internalOffset, testOffset, isRtcResetDetected);
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return ResultCode.Success;
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}
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[Command(11)]
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// SetupStandardLocalSystemClock(nn::time::SystemClockContext context, nn::time::PosixTime posix_time)
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public ResultCode SetupStandardLocalSystemClock(ServiceCtx context)
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{
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SystemClockContext clockContext = context.RequestData.ReadStruct<SystemClockContext>();
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long posixTime = context.RequestData.ReadInt64();
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_timeManager.SetupStandardLocalSystemClock(context.Thread, clockContext, posixTime);
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return ResultCode.Success;
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}
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[Command(12)]
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// SetupStandardNetworkSystemClock(nn::time::SystemClockContext context, nn::TimeSpanType sufficient_accuracy)
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public ResultCode SetupStandardNetworkSystemClock(ServiceCtx context)
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{
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SystemClockContext clockContext = context.RequestData.ReadStruct<SystemClockContext>();
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TimeSpanType sufficientAccuracy = context.RequestData.ReadStruct<TimeSpanType>();
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_timeManager.SetupStandardNetworkSystemClock(clockContext, sufficientAccuracy);
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return ResultCode.Success;
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}
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[Command(13)]
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// SetupStandardUserSystemClock(bool automatic_correction_enabled, nn::time::SteadyClockTimePoint steady_clock_timepoint)
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public ResultCode SetupStandardUserSystemClock(ServiceCtx context)
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{
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bool isAutomaticCorrectionEnabled = context.RequestData.ReadBoolean();
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context.RequestData.BaseStream.Position += 7;
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SteadyClockTimePoint steadyClockTimePoint = context.RequestData.ReadStruct<SteadyClockTimePoint>();
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_timeManager.SetupStandardUserSystemClock(context.Thread, isAutomaticCorrectionEnabled, steadyClockTimePoint);
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return ResultCode.Success;
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}
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[Command(14)]
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// SetupTimeZoneManager(nn::time::LocationName location_name, nn::time::SteadyClockTimePoint timezone_update_timepoint, u32 total_location_name_count, nn::time::TimeZoneRuleVersion timezone_rule_version, buffer<nn::time::TimeZoneBinary, 0x21> timezone_binary)
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public ResultCode SetupTimeZoneManager(ServiceCtx context)
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{
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string locationName = Encoding.ASCII.GetString(context.RequestData.ReadBytes(0x24)).TrimEnd('\0');
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SteadyClockTimePoint timeZoneUpdateTimePoint = context.RequestData.ReadStruct<SteadyClockTimePoint>();
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uint totalLocationNameCount = context.RequestData.ReadUInt32();
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UInt128 timeZoneRuleVersion = context.RequestData.ReadStruct<UInt128>();
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(long bufferPosition, long bufferSize) = context.Request.GetBufferType0x21();
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byte[] temp = new byte[bufferSize];
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context.Memory.Read((ulong)bufferPosition, temp);
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using (MemoryStream timeZoneBinaryStream = new MemoryStream(temp))
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{
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_timeManager.SetupTimeZoneManager(locationName, timeZoneUpdateTimePoint, totalLocationNameCount, timeZoneRuleVersion, timeZoneBinaryStream);
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}
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return ResultCode.Success;
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}
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[Command(15)]
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// SetupEphemeralNetworkSystemClock()
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public ResultCode SetupEphemeralNetworkSystemClock(ServiceCtx context)
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{
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_timeManager.SetupEphemeralNetworkSystemClock();
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return ResultCode.Success;
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}
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[Command(50)]
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// Unknown50() -> handle<copy>
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public ResultCode Unknown50(ServiceCtx context)
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{
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// TODO: figure out the usage of this event
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throw new ServiceNotImplementedException(this, context);
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}
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[Command(51)]
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// Unknown51() -> handle<copy>
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public ResultCode Unknown51(ServiceCtx context)
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{
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// TODO: figure out the usage of this event
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throw new ServiceNotImplementedException(this, context);
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}
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[Command(52)]
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// Unknown52() -> handle<copy>
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public ResultCode Unknown52(ServiceCtx context)
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{
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// TODO: figure out the usage of this event
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throw new ServiceNotImplementedException(this, context);
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}
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[Command(60)]
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// GetStandardUserSystemClockAutomaticCorrectionEvent() -> handle<copy>
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public ResultCode GetStandardUserSystemClockAutomaticCorrectionEvent(ServiceCtx context)
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{
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if (_automaticCorrectionEvent == 0)
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{
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if (context.Process.HandleTable.GenerateHandle(_timeManager.StandardUserSystemClock.GetAutomaticCorrectionReadableEvent(), out _automaticCorrectionEvent) != KernelResult.Success)
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{
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throw new InvalidOperationException("Out of handles!");
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}
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}
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context.Response.HandleDesc = IpcHandleDesc.MakeCopy(_automaticCorrectionEvent);
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return ResultCode.Success;
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}
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[Command(100)]
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// SetStandardSteadyClockRtcOffset(nn::TimeSpanType rtc_offset)
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public ResultCode SetStandardSteadyClockRtcOffset(ServiceCtx context)
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{
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TimeSpanType rtcOffset = context.RequestData.ReadStruct<TimeSpanType>();
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_timeManager.SetStandardSteadyClockRtcOffset(context.Thread, rtcOffset);
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return ResultCode.Success;
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}
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[Command(200)]
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// GetAlarmRegistrationEvent() -> handle<copy>
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public ResultCode GetAlarmRegistrationEvent(ServiceCtx context)
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{
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// TODO
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throw new ServiceNotImplementedException(this, context);
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}
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[Command(201)]
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// UpdateSteadyAlarms()
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public ResultCode UpdateSteadyAlarms(ServiceCtx context)
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{
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// TODO
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throw new ServiceNotImplementedException(this, context);
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}
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[Command(202)]
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// TryGetNextSteadyClockAlarmSnapshot() -> (bool, nn::time::SteadyClockAlarmSnapshot)
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public ResultCode TryGetNextSteadyClockAlarmSnapshot(ServiceCtx context)
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{
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// TODO
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throw new ServiceNotImplementedException(this, context);
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}
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}
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}
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