third_party/fuchsia-sdk/fidl/fuchsia.tracing.provider/provider.fidl - fuchsia-benchmarks - Git at Google

 // Copyright 2016 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 library fuchsia.tracing.provider;

 using zx;

 /// The maximum length of a provider's name.
 const uint32 MAX_PROVIDER_NAME_LENGTH = 100;

 /// The maximum number of categories supported.
 const uint32 MAX_NUM_CATEGORIES = 100;

 /// The maximum length of a category name.
 const uint32 MAX_CATEGORY_NAME_LENGTH = 100;

 /// The provider interface which applications must implement and register
 /// with the `TraceRegistry` to participate in tracing.
 ///
 /// See //zircon/system/ulib/trace-provider/ for a C++ implementation of
 /// this interface which can easily be configured by an application.
 protocol Provider {
     /// Initialize tracing and prepare for writing trace records for events in
     /// the specified `categories` into `buffer` using `fifo` for signaling.
     /// Tracing hasn't started yet, a `Start()` call is still required.
     ///
     ///
     /// At most one trace can be active at a time. Subsequent `Initialize()`
     /// requests received prior to a `Terminate()` call must be ignored.
     Initialize(ProviderConfig config);

     /// Begin tracing.
     ///
     /// If tracing has already started the provider must ignore the request.
     ///
     /// There is no result. The provider must send a `TRACE_PROVIDER_STARTED`
     /// packet on `fifo` to indicate success/failure of starting.
     Start(StartOptions options);

     /// Stop tracing.
     ///
     /// If tracing has already stopped the provider must ignore the request.
     ///
     /// Once the provider has finished writing any final events to the trace
     /// buffer, it must send a `TRACE_PROVIDER_STOPPED` packet on `fifo`.
     /// Note that multiple `Start,Stop` requests can be received between
     /// `Initialize,Terminate`.
     Stop();

     /// Terminate tracing.
     ///
     /// Tracing is stopped first if not already stopped.
     /// After tracing has fully terminated the provider must close both
     /// `buffer` and `fifo` to indicate to the trace manager that tracing is
     /// finished.
     Terminate();
 };

 /// The service which trace providers use to register themselves with
 /// the tracing system.
 /// Note that one property of this interface is that once registration is made
 /// the provider can drop this connection.
 [Discoverable, Layout = "Simple"]
 protocol Registry {
     /// Registers the trace provider.
     /// Note: Registration is asynchronous, it's only at some point after this
     /// returns that the provider is actually registered.
     /// To unregister, simply close the Provider pipe.
     /// `pid` is the process id of the provider, `name` is the name of the
     /// provider. Both of these are used in logging and diagnostic messages.
     RegisterProvider(Provider provider, zx.koid pid, string:MAX_PROVIDER_NAME_LENGTH name);

     /// Registers the trace provider synchronously. The call doesn't return
     /// until the provider is registered.
     /// On return `s` is `ZX_OK` if registration was successful.
     /// `started` is true if tracing has already started, which is a hint to
     /// the provider to wait for the Start() message before continuing if it
     /// wishes to not drop trace records before Start() is received.
     /// To unregister, simply close the Provider pipe.
     /// `pid` is the process id of the provider, `name` is the name of the
     /// provider. Both of these are used in logging and diagnostic messages.
     RegisterProviderSynchronously(Provider provider, zx.koid pid, string:MAX_PROVIDER_NAME_LENGTH name) -> (zx.status s, bool started);
 };

 /// The trace buffering mode.
 enum BufferingMode : uint8 {
     /// In oneshot mode there is only one buffer that is not reused. When the
     /// buffer fills the provider just keeps dropping records, keeping a count,
     /// and then when tracing stops the header is updated to record final
     /// state.
     ONESHOT = 1;

     /// In circular mode, the buffer is continually written to until tracing
     /// stops. When the buffer fills older records are discarded as needed.
     CIRCULAR = 2;

     /// In streaming mode, the buffer is effectively split into two pieces.
     /// When one half of the buffer fills the provider notifies the trace
     /// manager via the provided fifo, and then starts filling the other half
     /// of the buffer. When the buffer is saved, the manager responds via the
     /// provided fifo. If trace manager hasn't saved the buffer in time, and
     /// the other buffer fills, then the provider is required to drop records
     /// until space becomes available.
     STREAMING = 3;
 };

 /// Trace provider configuration.
 // The configuration of a provider is split out into a struct so that we can
 // add configuration data without changing the method signature. Structs still
 // introduce ABI compatibility issues, this will be switched to a table when
 // tables are ready for use in zircon.
 struct ProviderConfig {
     /// `buffering_mode` specifies what happens when the buffer fills.
     BufferingMode buffering_mode;

     /// The buffer to write trace records into.
     handle<vmo> buffer;

     /// When the trace provider observes `ZX_FIFO_PEER_CLOSED` on `fifo`, it
     /// must assume the trace manager has terminated abnormally (since `Stop`
     /// was not received as usual) and stop tracing automatically, discarding
     /// any in-flight trace data.
     handle<fifo> fifo;

     /// What trace categories to collect data for.
     vector<string:MAX_CATEGORY_NAME_LENGTH>:MAX_NUM_CATEGORIES categories;
 };

 /// Choices for clearing/retaining trace buffer contents at Start.
 /// A brief summary of buffer contents:
 /// The trace buffer is divided into two main pieces: durable and non-durable.
 /// The durable portion contains things like the string and thread data for
 /// their respective references (trace_encoded_string_ref_t and
 /// trace_encoded_thread_ref_t). The non-durable portion contains the rest of
 /// the trace data like events); this is the portion that, for example, is
 /// discarded in circular buffering mode when the (non-durable) buffer fills.
 enum BufferDisposition : uint8 {
     /// Clear the entire buffer, including durable buffer contents.
     /// N.B. If this is done mid-session, then string and thread references
     /// from prior to this point will become invalid - the underlying data
     /// will be gone. To prevent this save buffer contents before clearing.
     ///
     /// This is typically used when buffer contents were saved after the
     /// preceding Stop.
     CLEAR_ENTIRE = 1;

     /// Clear the non-durable portion of the buffer, retaining the durable
     /// portion.
     ///
     /// This is typically used when buffer contents were not saved after the
     /// preceding Stop and the current contents are to be discarded.
     CLEAR_NONDURABLE = 2;

     /// Retain buffer contents. New trace data is added where the previous
     /// trace run left off.
     ///
     /// This is typically used when buffer contents were not saved after the
     /// preceding Stop and the current contents are to be retained.
     RETAIN = 3;
 };

 /// Additional options to control tracing at start.
 struct StartOptions {
     /// Whether and how to clear the buffer when starting data collection.
     /// This allows, for example, multiple Start/Stop trace runs to be
     /// collected in the same buffer.
     BufferDisposition buffer_disposition;

     /// The trace categories to add to the initial set provided in
     /// `ProviderConfig`.
     vector<string:MAX_CATEGORY_NAME_LENGTH>:MAX_NUM_CATEGORIES additional_categories;
 };
	// Copyright 2016 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	library fuchsia.tracing.provider;

	using zx;

	/// The maximum length of a provider's name.
	const uint32 MAX_PROVIDER_NAME_LENGTH = 100;

	/// The maximum number of categories supported.
	const uint32 MAX_NUM_CATEGORIES = 100;

	/// The maximum length of a category name.
	const uint32 MAX_CATEGORY_NAME_LENGTH = 100;

	/// The provider interface which applications must implement and register
	/// with the `TraceRegistry` to participate in tracing.
	///
	/// See //zircon/system/ulib/trace-provider/ for a C++ implementation of
	/// this interface which can easily be configured by an application.
	protocol Provider {
	/// Initialize tracing and prepare for writing trace records for events in
	/// the specified `categories` into `buffer` using `fifo` for signaling.
	/// Tracing hasn't started yet, a `Start()` call is still required.
	///
	///
	/// At most one trace can be active at a time. Subsequent `Initialize()`
	/// requests received prior to a `Terminate()` call must be ignored.
	Initialize(ProviderConfig config);

	/// Begin tracing.
	///
	/// If tracing has already started the provider must ignore the request.
	///
	/// There is no result. The provider must send a `TRACE_PROVIDER_STARTED`
	/// packet on `fifo` to indicate success/failure of starting.
	Start(StartOptions options);

	/// Stop tracing.
	///
	/// If tracing has already stopped the provider must ignore the request.
	///
	/// Once the provider has finished writing any final events to the trace
	/// buffer, it must send a `TRACE_PROVIDER_STOPPED` packet on `fifo`.
	/// Note that multiple `Start,Stop` requests can be received between
	/// `Initialize,Terminate`.
	Stop();

	/// Terminate tracing.
	///
	/// Tracing is stopped first if not already stopped.
	/// After tracing has fully terminated the provider must close both
	/// `buffer` and `fifo` to indicate to the trace manager that tracing is
	/// finished.
	Terminate();
	};

	/// The service which trace providers use to register themselves with
	/// the tracing system.
	/// Note that one property of this interface is that once registration is made
	/// the provider can drop this connection.
	[Discoverable, Layout = "Simple"]
	protocol Registry {
	/// Registers the trace provider.
	/// Note: Registration is asynchronous, it's only at some point after this
	/// returns that the provider is actually registered.
	/// To unregister, simply close the Provider pipe.
	/// `pid` is the process id of the provider, `name` is the name of the
	/// provider. Both of these are used in logging and diagnostic messages.
	RegisterProvider(Provider provider, zx.koid pid, string:MAX_PROVIDER_NAME_LENGTH name);

	/// Registers the trace provider synchronously. The call doesn't return
	/// until the provider is registered.
	/// On return `s` is `ZX_OK` if registration was successful.
	/// `started` is true if tracing has already started, which is a hint to
	/// the provider to wait for the Start() message before continuing if it
	/// wishes to not drop trace records before Start() is received.
	/// To unregister, simply close the Provider pipe.
	/// `pid` is the process id of the provider, `name` is the name of the
	/// provider. Both of these are used in logging and diagnostic messages.
	RegisterProviderSynchronously(Provider provider, zx.koid pid, string:MAX_PROVIDER_NAME_LENGTH name) -> (zx.status s, bool started);
	};

	/// The trace buffering mode.
	enum BufferingMode : uint8 {
	/// In oneshot mode there is only one buffer that is not reused. When the
	/// buffer fills the provider just keeps dropping records, keeping a count,
	/// and then when tracing stops the header is updated to record final
	/// state.
	ONESHOT = 1;

	/// In circular mode, the buffer is continually written to until tracing
	/// stops. When the buffer fills older records are discarded as needed.
	CIRCULAR = 2;

	/// In streaming mode, the buffer is effectively split into two pieces.
	/// When one half of the buffer fills the provider notifies the trace
	/// manager via the provided fifo, and then starts filling the other half
	/// of the buffer. When the buffer is saved, the manager responds via the
	/// provided fifo. If trace manager hasn't saved the buffer in time, and
	/// the other buffer fills, then the provider is required to drop records
	/// until space becomes available.
	STREAMING = 3;
	};

	/// Trace provider configuration.
	// The configuration of a provider is split out into a struct so that we can
	// add configuration data without changing the method signature. Structs still
	// introduce ABI compatibility issues, this will be switched to a table when
	// tables are ready for use in zircon.
	struct ProviderConfig {
	/// `buffering_mode` specifies what happens when the buffer fills.
	BufferingMode buffering_mode;

	/// The buffer to write trace records into.
	handle<vmo> buffer;

	/// When the trace provider observes `ZX_FIFO_PEER_CLOSED` on `fifo`, it
	/// must assume the trace manager has terminated abnormally (since `Stop`
	/// was not received as usual) and stop tracing automatically, discarding
	/// any in-flight trace data.
	handle<fifo> fifo;

	/// What trace categories to collect data for.
	vector<string:MAX_CATEGORY_NAME_LENGTH>:MAX_NUM_CATEGORIES categories;
	};

	/// Choices for clearing/retaining trace buffer contents at Start.
	/// A brief summary of buffer contents:
	/// The trace buffer is divided into two main pieces: durable and non-durable.
	/// The durable portion contains things like the string and thread data for
	/// their respective references (trace_encoded_string_ref_t and
	/// trace_encoded_thread_ref_t). The non-durable portion contains the rest of
	/// the trace data like events); this is the portion that, for example, is
	/// discarded in circular buffering mode when the (non-durable) buffer fills.
	enum BufferDisposition : uint8 {
	/// Clear the entire buffer, including durable buffer contents.
	/// N.B. If this is done mid-session, then string and thread references
	/// from prior to this point will become invalid - the underlying data
	/// will be gone. To prevent this save buffer contents before clearing.
	///
	/// This is typically used when buffer contents were saved after the
	/// preceding Stop.
	CLEAR_ENTIRE = 1;

	/// Clear the non-durable portion of the buffer, retaining the durable
	/// portion.
	///
	/// This is typically used when buffer contents were not saved after the
	/// preceding Stop and the current contents are to be discarded.
	CLEAR_NONDURABLE = 2;

	/// Retain buffer contents. New trace data is added where the previous
	/// trace run left off.
	///
	/// This is typically used when buffer contents were not saved after the
	/// preceding Stop and the current contents are to be retained.
	RETAIN = 3;
	};

	/// Additional options to control tracing at start.
	struct StartOptions {
	/// Whether and how to clear the buffer when starting data collection.
	/// This allows, for example, multiple Start/Stop trace runs to be
	/// collected in the same buffer.
	BufferDisposition buffer_disposition;

	/// The trace categories to add to the initial set provided in
	/// `ProviderConfig`.
	vector<string:MAX_CATEGORY_NAME_LENGTH>:MAX_NUM_CATEGORIES additional_categories;
	};