sdk/banjo/fuchsia.hardware.usb.hci/usb-hci.fidl

// 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.usb.hci;

using zx;
using fuchsia.hardware.usb.bus;
using fuchsia.hardware.usb.descriptor;
using fuchsia.hardware.usb.hubdescriptor;
using fuchsia.hardware.usb.request;

/// The UsbHci protocol is implemented by a USB Host Controller driver.
@transport("Banjo")
@banjo_layout("ddk-protocol")
protocol UsbHci {
    /// Queues a USB request with the HCI driver.
    /// The client must allocate sufficient space in the request object
    /// by using the GetRequestSize() method.
    /// Once the request is queued, the HCI driver owns it until the callback is invoked.
    RequestQueue(resource struct {
        @in_out
        usb_request fuchsia.hardware.usb.request.UsbRequest;
        @in_out
        complete_cb client_end:fuchsia.hardware.usb.request.UsbRequestCompleteCallback;
    }) -> ();
    /// Registers callbacks to the USB bus driver with the HCI driver.
    SetBusInterface(resource struct {
        bus_intf client_end:fuchsia.hardware.usb.bus.UsbBusInterface;
    }) -> ();
    /// Returns the maximum number of USB devices that might be connected to the controller.
    GetMaxDeviceCount() -> (struct {
        count uint64;
    });
    /// Enables or disables an endpoint using parameters derived from |ep_desc|.
    EnableEndpoint(struct {
        device_id uint32;
        ep_desc fuchsia.hardware.usb.descriptor.UsbEndpointDescriptor;
        ss_com_desc fuchsia.hardware.usb.descriptor.UsbSsEpCompDescriptor;
        enable bool;
    }) -> (struct {
        s zx.status;
    });
    /// Returns the current frame (in milliseconds), used for isochronous transfers.
    GetCurrentFrame() -> (struct {
        frame uint64;
    });
    /// Called by the USB hub driver to configure a newly enumerated USB hub.
    ConfigureHub(struct {
        device_id uint32;
        speed fuchsia.hardware.usb.descriptor.UsbSpeed;
        desc fuchsia.hardware.usb.hubdescriptor.UsbHubDescriptor;
        multi_tt bool;
    }) -> (struct {
        s zx.status;
    });
    /// Called by the USB hub driver when a new device is attached.
    HubDeviceAdded(struct {
        device_id uint32;
        port uint32;
        speed fuchsia.hardware.usb.descriptor.UsbSpeed;
    }) -> (struct {
        s zx.status;
    });
    /// Called by the USB hub driver when a device has been removed.
    HubDeviceRemoved(struct {
        device_id uint32;
        port uint32;
    }) -> (struct {
        s zx.status;
    });
    /// Called by the USB hub driver when a device has been reset.
    HubDeviceReset(struct {
        device_id uint32;
        port uint32;
    }) -> (struct {
        s zx.status;
    });
    /// Resets an endpoint on the specified device.
    ResetEndpoint(struct {
        device_id uint32;
        ep_address uint8;
    }) -> (struct {
        s zx.status;
    });
    /// Resets the specified device.
    ResetDevice(struct {
        hub_address uint32;
        device_id uint32;
    }) -> (struct {
        s zx.status;
    });
    /// Returns the maximum size of a packet that can be queued on the specified endpoint.
    GetMaxTransferSize(struct {
        device_id uint32;
        ep_address uint8;
    }) -> (struct {
        size uint64;
    });
    /// Cancels all transactions currently queued on the specified endpoint.
    CancelAll(struct {
        device_id uint32;
        ep_address uint8;
    }) -> (struct {
        s zx.status;
    });
    /// Returns the size needed for a |usb_request_t|, including private storage needed by the
    /// HCI driver.
    GetRequestSize() -> (struct {
        size uint64;
    });
};