sdk/fidl/fuchsia.hardware.input/input.fidl - fuchsia - Git at Google

 // Copyright 2018 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.hardware.input;

 using zx;

 alias ReportId = uint8;

 const MAX_DESC_LEN uint16 = 8192;
 const MAX_REPORT_LEN uint16 = 8192;
 const MAX_REPORT_DATA uint16 = 8192;
 const MAX_REPORTS_COUNT uint32 = 50;

 type ReportType = strict enum : uint8 {
     INPUT = 1;
     OUTPUT = 2;
     FEATURE = 3;
 };

 /// Each `DeviceReportsReader` has its own FIFO of reports in the driver.
 /// Calling `ReadReports` drains the Report FIFO. If the Report FIFO fills up
 /// between calls to `ReadReports` the channel will be closed.
 protocol DeviceReportsReader {
     /// This is a Hanging-Get function to read the reports in the Report FIFO.
     /// This will block until there is at least one report available.
     /// If there is already one outstanding Hanging-Get, calling this again will
     /// return ZX_ERR_ALREADY_BOUND.
     ReadReports() -> (struct {
         reports vector<@generated_name("Report") struct {
             /// The time the report was created, from the view of the monotonic
             /// clock.
             time zx.Time;
             /// The HID report data. This is guaranteed to always be a full HID
             /// report.
             data vector<uint8>:MAX_REPORT_DATA;
         }>:MAX_REPORTS_COUNT;
     }) error zx.Status;
 };

 // TODO(fxbug.dev/49329): This API doesn't follow best practices and needs to be
 // cleaned up.
 protocol Device {
     /// Get the HID boot interface protocol this device supports
     GetBootProtocol() -> (struct {
         protocol @generated_name("BootProtocol") strict enum : uint32 {
             NONE = 0;
             KBD = 1;
             MOUSE = 2;
         };
     });

     /// Get the Device's IDs.
     ///
     /// If this is a real HID device, then the id information will come from the
     /// device itself. Mock HID devices may assign the ids in the driver. If the
     /// mock HID driver does not assign ids, zeros will be used instead.
     GetDeviceIds() -> (struct {
         ids @generated_name("DeviceIds") struct {
             vendor_id uint32;
             product_id uint32;
             version uint32;
         };
     });

     /// Get the report descriptor
     GetReportDesc() -> (struct {
         desc vector<uint8>:MAX_DESC_LEN;
     });

     /// Open a new DeviceReportsReader on this device. Opening a DeviceReportsReader
     /// allocates a new FIFO for receiving input reports.
     GetDeviceReportsReader(resource struct {
         reader server_end:DeviceReportsReader;
     }) -> () error zx.Status;

     /// Read one report out of the report FIFO. Only a single report will be
     /// returned in this API. `time` is the time the report was created, from
     /// the view of the monotonic clock.
     /// If status is ZX_ERR_SHOULD_WAIT the client can wait on the event
     /// from `GetReportsEvent`.
     ReadReport() -> (struct {
         status zx.Status;
         data vector<uint8>:MAX_REPORT_DATA;
         time zx.Time;
     });

     /// Read up to MAX_REPORT_DATA bytes of reports that have been sent from a device.
     /// This is the interface that is supposed to be used for continuous polling.
     /// Multiple reports can be returned from this API at a time, it is up to the client
     /// to do the parsing of the reports with the correct sizes and offset.
     /// It is guaranteed that only whole reports will be sent.
     /// If there are no reports, this will return ZX_ERR_SHOULD_WAIT, and the client can
     /// wait on the event from `GetReportsEvent`.
     ReadReports() -> (struct {
         status zx.Status;
         data vector<uint8>:MAX_REPORT_DATA;
     });

     /// Receive an event that will signal on `ZX_USER_SIGNAL_0` when there are reports in the
     /// Device's report FIFO. This signal will be de-asserted when there are no
     /// reports in the Device's report FIFO. This event can be re-used each time
     /// the client wishes to know if there are reports in the FIFO.
     GetReportsEvent() -> (resource struct {
         status zx.Status;
         event zx.Handle:EVENT;
     });

     /// Send a request to the hardware for a given report described by type and id.
     /// Returns the hardware's response. This interface is not intended
     /// to be used for continuous polling of the reports.
     GetReport(struct {
         type ReportType;
         id ReportId;
     }) -> (struct {
         status zx.Status;
         report vector<uint8>:MAX_REPORT_LEN;
     });

     /// Set a single report of the given (type, id) pair.
     SetReport(struct {
         type ReportType;
         id ReportId;
         report vector<uint8>:MAX_REPORT_LEN;
     }) -> (struct {
         status zx.Status;
     });

     /// Set the trace ID that is used for HID report flow events.
     SetTraceId(struct {
         id uint32;
     });
 };

 protocol Controller {
     /// Opens a new session on the device.
     OpenSession(resource struct {
         session server_end:Device;
     });
 };
	// Copyright 2018 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.hardware.input;

	using zx;

	alias ReportId = uint8;

	const MAX_DESC_LEN uint16 = 8192;
	const MAX_REPORT_LEN uint16 = 8192;
	const MAX_REPORT_DATA uint16 = 8192;
	const MAX_REPORTS_COUNT uint32 = 50;

	type ReportType = strict enum : uint8 {
	INPUT = 1;
	OUTPUT = 2;
	FEATURE = 3;
	};

	/// Each `DeviceReportsReader` has its own FIFO of reports in the driver.
	/// Calling `ReadReports` drains the Report FIFO. If the Report FIFO fills up
	/// between calls to `ReadReports` the channel will be closed.
	protocol DeviceReportsReader {
	/// This is a Hanging-Get function to read the reports in the Report FIFO.
	/// This will block until there is at least one report available.
	/// If there is already one outstanding Hanging-Get, calling this again will
	/// return ZX_ERR_ALREADY_BOUND.
	ReadReports() -> (struct {
	reports vector<@generated_name("Report") struct {
	/// The time the report was created, from the view of the monotonic
	/// clock.
	time zx.Time;
	/// The HID report data. This is guaranteed to always be a full HID
	/// report.
	data vector<uint8>:MAX_REPORT_DATA;
	}>:MAX_REPORTS_COUNT;
	}) error zx.Status;
	};

	// TODO(fxbug.dev/49329): This API doesn't follow best practices and needs to be
	// cleaned up.
	protocol Device {
	/// Get the HID boot interface protocol this device supports
	GetBootProtocol() -> (struct {
	protocol @generated_name("BootProtocol") strict enum : uint32 {
	NONE = 0;
	KBD = 1;
	MOUSE = 2;
	};
	});

	/// Get the Device's IDs.
	///
	/// If this is a real HID device, then the id information will come from the
	/// device itself. Mock HID devices may assign the ids in the driver. If the
	/// mock HID driver does not assign ids, zeros will be used instead.
	GetDeviceIds() -> (struct {
	ids @generated_name("DeviceIds") struct {
	vendor_id uint32;
	product_id uint32;
	version uint32;
	};
	});

	/// Get the report descriptor
	GetReportDesc() -> (struct {
	desc vector<uint8>:MAX_DESC_LEN;
	});

	/// Open a new DeviceReportsReader on this device. Opening a DeviceReportsReader
	/// allocates a new FIFO for receiving input reports.
	GetDeviceReportsReader(resource struct {
	reader server_end:DeviceReportsReader;
	}) -> () error zx.Status;

	/// Read one report out of the report FIFO. Only a single report will be
	/// returned in this API. `time` is the time the report was created, from
	/// the view of the monotonic clock.
	/// If status is ZX_ERR_SHOULD_WAIT the client can wait on the event
	/// from `GetReportsEvent`.
	ReadReport() -> (struct {
	status zx.Status;
	data vector<uint8>:MAX_REPORT_DATA;
	time zx.Time;
	});

	/// Read up to MAX_REPORT_DATA bytes of reports that have been sent from a device.
	/// This is the interface that is supposed to be used for continuous polling.
	/// Multiple reports can be returned from this API at a time, it is up to the client
	/// to do the parsing of the reports with the correct sizes and offset.
	/// It is guaranteed that only whole reports will be sent.
	/// If there are no reports, this will return ZX_ERR_SHOULD_WAIT, and the client can
	/// wait on the event from `GetReportsEvent`.
	ReadReports() -> (struct {
	status zx.Status;
	data vector<uint8>:MAX_REPORT_DATA;
	});

	/// Receive an event that will signal on `ZX_USER_SIGNAL_0` when there are reports in the
	/// Device's report FIFO. This signal will be de-asserted when there are no
	/// reports in the Device's report FIFO. This event can be re-used each time
	/// the client wishes to know if there are reports in the FIFO.
	GetReportsEvent() -> (resource struct {
	status zx.Status;
	event zx.Handle:EVENT;
	});

	/// Send a request to the hardware for a given report described by type and id.
	/// Returns the hardware's response. This interface is not intended
	/// to be used for continuous polling of the reports.
	GetReport(struct {
	type ReportType;
	id ReportId;
	}) -> (struct {
	status zx.Status;
	report vector<uint8>:MAX_REPORT_LEN;
	});

	/// Set a single report of the given (type, id) pair.
	SetReport(struct {
	type ReportType;
	id ReportId;
	report vector<uint8>:MAX_REPORT_LEN;
	}) -> (struct {
	status zx.Status;
	});

	/// Set the trace ID that is used for HID report flow events.
	SetTraceId(struct {
	id uint32;
	});
	};

	protocol Controller {
	/// Opens a new session on the device.
	OpenSession(resource struct {
	session server_end:Device;
	});
	};