syntax = "proto2";
package NV.Profiler.Messages;
import "CpuStacktrace/CpuStacktrace.proto";
import "Nvtx/Nvtx.proto";
import "Profiler/ProfilerMetricOptions.proto";
import "Profiler/ProfilerResultsCommon.proto";
import "Profiler/ProfilerStringTable.proto";
import "ProfilerReport/ProfilerReportCommon.proto";
import "ProfilerSection/ProfilerSection.proto";
import "RuleSystem/RuleResults.proto";
// enable arenas for better allocation performance
option cc_enable_arenas = true;
message DeviceProperty
{
    required string Key = 1;
    required string Value = 2;
}
message DeviceProperties
{
    repeated DeviceProperty Properties = 1;
}
message DeviceAttribute
{
    required string Name = 1;
    required ProfileMetricValue Value = 2;
}
message DeviceAttributes
{
    required uint32 ID = 1;
    optional string Name = 2;
    repeated DeviceAttribute Attributes = 3;
}
// has to match with SystemInfo.proto!
enum PlatformType
{
    Unknown = 0;
    Windows = 1;
    Linux = 2;
    Android = 3;
    OSX = 4;
    QNX = 5;
    Hos = 6;
    Integrity = 7;
    LinuxPPC = 8;
}
enum IPAddressType
{
    IPV4 = 1;
    IPV6 = 2;
}
message IPAddress
{
    required string Address = 1;
    optional IPAddressType Type = 2;
}
message SystemInfo
{
    optional string OSName = 1;
    optional string Build = 2;
    optional string Processor = 3;
    optional string Architecture = 4;
    optional string ComputerName = 5;
    optional PlatformType Platform = 6;
    repeated IPAddress IPAddresses = 7;
}
message VersionInfo
{
    required string Provider = 1;
    required string Version = 2;
}
message FilterOptions
{
    optional string KernelName = 1;
    optional string KernelNameBase = 2;
    optional string KernelId = 3;
    optional uint32 SkipCount = 4;
    optional uint32 SkipBeforeMatchCount = 5;
    optional uint32 CaptureCount = 6;
}
message PmSamplingOptions
{
    optional uint64 Interval = 1;
    optional uint64 BufferSize = 2;
    optional uint64 MaxPasses = 3;
}
message WarpSamplingOptions
{
    optional bool IntervalAuto = 1;
    optional uint64 Interval = 2;
    optional uint64 MaxPasses = 3;
    optional uint64 BufferSize = 4;
}
message OtherOptions
{
    optional bool ApplyRules = 1;
    optional string Metrics = 2;
}
message ProfilerSettings
{
    optional bool EnableNvtx = 1;
    optional bool DisableProfilingStartStop = 2;
    optional bool EnableProfilingFromStart = 3;
    optional string ActivityType = 4;
    optional FilterOptions FilterOptions = 5;
    optional OtherOptions OtherOptions = 6;
    optional string EnabledSections = 7;
    optional string ClockControlMode = 8;
    optional WarpSamplingOptions WarpSamplingOptions = 9;
    optional bool ImportSource = 10;
    optional string ReplayMode = 11;
    optional bool EnableCpuStack = 12;
    optional PmSamplingOptions PmSamplingOptions = 13;
}
message ReportSessionDetails
{
    optional uint32 ProcessID = 1;
    // Represented as a Unix time since Jan 1 1970
    optional uint64 CreationTime = 2;
    optional SystemInfo HostSystemInfo = 3;
    optional SystemInfo TargetSystemInfo = 4;
    optional DeviceProperties DeviceProperties = 5;
    repeated DeviceAttributes DeviceAttributes = 6;
    // User can modify these to give themselves some hints about the report.
    optional string Comments = 7;
    repeated VersionInfo VersionInfo = 8;
    optional ExecutableSettings ExecutableSettings = 9;
    optional ProfilerSettings ProfilerSettings = 10;
    optional string ProfilerCmdline = 11;
}
message CommentID
{
    required string SectionID = 1;
    // In the future, this could also include something like:
    // optional string TableID = 2;
    // optional uint32 TableRow = 3;
    // optional uint32 TableCol = 4;
}
message Comment
{
    required CommentID ID = 1;
    required string DisplayName = 2;
    required string Text = 3;
}
message ProfileSeriesInfoMessage
{
    required uint32 SeriesID = 1;
    // Is set iff the current result is not the result for the default settings
    optional string CombinationStr = 2;
}
message ProfilerClockStatusMessage
{
    required bool RequestedLock = 1;
    required bool ExecutedLocked = 2;
}
// Result representing a single kernel launch.
message ProfileResult
{
    required uint32 ThreadID = 1;
    required uint64 APICallID = 2;
    required uint64 ProgramHandle = 3;
    required uint64 KernelID = 4;
    required string KernelMangledName = 5;
    required string KernelFunctionName = 6;
    required string KernelDemangledName = 7;
    required uint32 WorkDimensions = 8;
    // x,y,z descriptions
    // work offset
    required Uint64x3 GlobalWorkOffset = 9;
    // CUDA grid dims
    required Uint64x3 GridSize = 10;
    // CUDA block dims
    required Uint64x3 BlockSize = 11;
    optional string Comments = 12;
    repeated ProfileMetricResult MetricResults = 13;
    // Represented as a Unix time since Jan 1 1970
    optional uint64 CreationTime = 14;
    required SourceData Source = 15;
    // This field is only set to optional in order to be backwards compatible with
    // older report files. Maybe we can switch that once we rename file name endings.
    optional APIType Api = 16;
    // Note: Optional for now; will become required once everything is in place
    // Hint: Stored here so that any report can be opened with any version of the tool, independent
    //       of the actual configured template for data collection. I assume this is very common that
    //       old reports would have different sections than newer reports. Same is true if multiple
    //       people share their reports.
    repeated NV.Profiler.ProfilerSection Sections = 17;
    repeated Comment SectionComments = 18;
    // Note: Optional for now, similar to Sections
    repeated NV.RuleSystem.RuleResult RuleResults = 19;
    // set to true if the target was not (fully) supported
    optional bool UnsupportedDevice = 20;
    optional NV.Nvtx.NvtxState Nvtx = 21;
    // the CUDA context ID of the kernel
    optional uint32 ContextID = 22;
    // the CUDA stream ID of the kernel
    optional uint32 StreamID = 23;
    optional ProfileSeriesInfoMessage SeriesInfo = 24;
    optional ProfilerClockStatusMessage ClockStatus = 25;
    // the CUDA context's NVTX name
    optional string ContextName = 26;
    // the CUDA stream's NVTX name
    optional string StreamName = 27;
    // the stack frames of the host/cpu code for this CUDA launch
    optional NV.CpuStacktrace.CpuStacktraceStackMessage CpuStack = 28;
    optional CollectionScope CollectionScope = 29;
    // set to true if launch was on a Green Context
    optional bool UsesGreenContext = 30;
}
// Result representing a replayed range including multiple API calls and kernel launches.
message RangeResult
{
    // thread and api call ID of the start marker
    required uint32 ThreadID = 1;
    required uint64 APICallID = 2;
    optional string Comments = 3;
    repeated ProfileMetricResult MetricResults = 4;
    // Represented as a Unix time since Jan 1 1970
    optional uint64 CreationTime = 5;
    optional APIType Api = 6;
    repeated NV.Profiler.ProfilerSection Sections = 7;
    repeated Comment SectionComments = 8;
    // set to true if the target was not (fully) supported
    optional bool UnsupportedDevice = 9;
    optional NV.Nvtx.NvtxState Nvtx = 10;
    // the CUDA context ID of the kernel
    optional uint32 ContextID = 11;
    optional ProfilerClockStatusMessage ClockStatus = 12;
    // the CUDA context's NVTX name
    optional string ContextName = 13;
    // the stack frames of the host/cpu code for this range (start marker)
    optional NV.CpuStacktrace.CpuStacktraceStackMessage CpuStack = 14;
    // store source data references. A range can have more than one associated SourceData.
    repeated uint64 References = 15;
    // set to true if launch was on a Green Context
    optional bool UsesGreenContext = 16;
}
// Result representing a command list with one or more launched functions.
message CmdlistResult
{
    // thread and api call ID of the start marker
    required uint32 ThreadID = 1;
    required uint64 APICallID = 2;
    optional string Comments = 3;
    repeated ProfileMetricResult MetricResults = 4;
    // Represented as a Unix time since Jan 1 1970
    optional uint64 CreationTime = 5;
    optional APIType Api = 6;
    repeated NV.Profiler.ProfilerSection Sections = 7;
    repeated Comment SectionComments = 8;
    // set to true if the target was not (fully) supported
    optional bool UnsupportedDevice = 9;
    optional NV.Nvtx.NvtxState Nvtx = 10;
    // the CUDA context ID of the cmdlist
    optional uint32 ContextID = 11;
    // the CUDA stream ID of the cmdlist
    optional uint32 StreamID = 12;
    optional ProfilerClockStatusMessage ClockStatus = 13;
    // the CUDA context's NVTX name
    optional string ContextName = 14;
    // the CUDA stream's NVTX name
    optional string StreamName = 15;
    // the stack frames of the host/cpu code for this cmdlist (start marker)
    optional NV.CpuStacktrace.CpuStacktraceStackMessage CpuStack = 16;
    // store source data references. A cmdlist can have more than one associated SourceData.
    repeated uint64 References = 17;
    // display name which may contain the original API call name
    optional string DisplayName = 18;
    optional uint32 WorkDimensions = 19;
    message CblQmdLaunchInfo
    {
        optional Uint64x3 GridSize = 1;
        optional Uint64x3 BlockSize = 2;
    }
    repeated CblQmdLaunchInfo LaunchInfos = 20;
    // Note: Optional for now, similar to Sections
    repeated NV.RuleSystem.RuleResult RuleResults = 21;
}
// Result representing a CUDA Graph
message GraphResult
{
    // thread and api call ID of the start marker
    required uint32 ThreadID = 1;
    required uint64 APICallID = 2;
    optional string Comments = 3;
    repeated ProfileMetricResult MetricResults = 4;
    // Represented as a Unix time since Jan 1 1970
    optional uint64 CreationTime = 5;
    optional APIType Api = 6;
    repeated NV.Profiler.ProfilerSection Sections = 7;
    repeated Comment SectionComments = 8;
    // set to true if the target was not (fully) supported
    optional bool UnsupportedDevice = 9;
    optional NV.Nvtx.NvtxState Nvtx = 10;
    // the CUDA context ID of the graph
    optional uint32 ContextID = 11;
    // the CUDA stream ID of the graph
    optional uint32 StreamID = 12;
    optional ProfilerClockStatusMessage ClockStatus = 13;
    // the CUDA context's NVTX name
    optional string ContextName = 14;
    // the CUDA stream's NVTX name
    optional string StreamName = 15;
    // the stack frames of the host/cpu code for this graph (start marker)
    optional NV.CpuStacktrace.CpuStacktraceStackMessage CpuStack = 16;
    // store source data references. A graph can have more than one associated SourceData.
    repeated uint64 References = 17;
    // set to true if launch was on a Green Context
    optional bool UsesGreenContext = 18;
}
message ProcessInfo
{
    required uint32 ProcessID = 1;
    optional string Hostname = 2;
    optional string ProcessName = 3;
}
message BlockHeader
{
    // The data for the following two fields is encoded sequentially after this header.
    // They are not *in* the header, since a large protobuf would error out. (100000 results or so)
    // Contains the number of profile sources in this block.
    // Payload is of type NV.Profiler.SourceData
    optional uint32 NumSources = 1;
    // Contains the number of profile results in this block.
    // Payload is of type NV.Profiler.Messages.ProfileResult
    optional uint32 NumResults = 2;
    optional ReportSessionDetails SessionDetails = 3;
    // The master string table to resolve strings stored as IDs
    optional ProfilerStringTable StringTable = 4;
    // Size of the following payload block in bytes
    optional uint32 PayloadSize = 5;
    // Process this block is associated with
    // If not present, the block is considered to be associated
    // with the default process, identified by ReportSessionDetails
    optional ProcessInfo Process = 6;
    // Contains the number of range results in this block.
    // Payload is of type NV.Profiler.Messages.RangeResult
    optional uint32 NumRangeResults = 7;
    // Contains the number of cmdlist results in this block.
    // Payload is of type NV.Profiler.Messages.CmdlistResult
    optional uint32 NumCmdlistResults = 8;
    // Contains the number of CUDA graph results in this block.
    // Payload is of type NV.Profiler.Messages.GraphResult
    optional uint32 NumGraphResults = 9;
}
message FileHeader
{
    required uint32 Version = 1;
}
message BaselineColor
{
    enum BaselineColorType
    {
        BaselineColorTypeUnknown = 0;
        BaselineColorTypeArgb = 1;
    }
    required BaselineColorType ColorType = 1 [default = BaselineColorTypeUnknown];
    optional uint32 ColorValue = 2;
}
message ExtendedBaselineData
{
    optional bool IsVisible = 1;
    optional BaselineColor Color = 2;
    optional string Name = 3;
    optional string KernelName = 4;
    optional string ProcessName = 5;
    optional string ReportMoniker = 6;
}
message BaselineResult
{
    oneof ValueType
    {
        ProfileResult ProfileResult = 1;
        RangeResult RangeResult = 2;
        CmdlistResult CmdlistResult = 3;
        GraphResult GraphResult = 4;
    }
}
message BaselinePersistenceData
{
    // deprecated in favor of more versatile BaselineResults entry
    repeated ProfileResult DeprecatedBaselineResults = 1;
    repeated ProfilerStringTable StringTables = 2;
    repeated ExtendedBaselineData ExtendedBaselineData = 3;
    repeated BaselineResult BaselineResults = 4;
}