/** @file Copyright (c) 2014, ARM Ltd. All rights reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent **/ /* Transport protocol over which Android Fastboot transactions can be made. Fastboot is designed for USB, but this protocol is intended as an abstraction so that it can be implemented over any transport mechanism. */ #ifndef __ANDROID_FASTBOOT_TRANSPORT_H__ #define __ANDROID_FASTBOOT_TRANSPORT_H__ extern EFI_GUID gAndroidFastbootTransportProtocolGuid; /* Set up the transport system for use by Fastboot. e.g. For USB this probably means making the device enumerable. For TCP, preparing to accept incoming connections. It is _not_ the responsibility of this protocol's implementer to unite the data phase into a single buffer - that is handled by the Fastboot UEFI application. As the Fastboot protocol spec says: "Short packets are always acceptable and zero-length packets are ignored." However the commands and responses must be in a single packet, and the order of the packets must of course be maintained. If there is a fatal error in the receive channel, ReceiveEvent will be signalled, and a subsequent call to Receive() will return an error. This allows data transported prior to the error to be received. @param[in] ReceiveEvent Event to be Signalled when a packet has been received and is ready to be retrieved via Receive(). @retval EFI_SUCCESS Initialised successfully. @retval EFI_DEVICE_ERROR Error in initialising hardware @retval (other) Error return from LocateProtocol functions. */ typedef EFI_STATUS (*FASTBOOT_TRANSPORT_START) ( IN EFI_EVENT ReceiveEvent ); /* Function to be called when all Fastboot transactions are finished, to de-initialise the transport system. e.g. A USB OTG system might want to get out of peripheral mode so it can be a USB host. Note that this function will be called after an error is reported by Send or Receive @retval EFI_SUCCESS De-initialised successfully. @retval EFI_DEVICE_ERROR Error de-initialising hardware. */ typedef EFI_STATUS (*FASTBOOT_TRANSPORT_STOP) ( VOID ); /* Send data. This function can be used both for command responses like "OKAY" and for the data phase (the protocol doesn't describe any situation when the latter might be necessary, but does allow it) Transmission need not finish before the function returns. If there is an error in transmission from which the transport system cannot recover, FatalErrorEvent will be signalled. Otherwise, it is assumed that all data was delivered successfully. @param[in] BufferSize Size in bytes of data to send. @param[in] Buffer Data to send. @param[in] FatalErrorEvent Event to signal if there was an error in transmission from which the transport system cannot recover. @retval EFI_SUCCESS The data was sent or queued for send. @retval EFI_DEVICE_ERROR There was an error preparing to send the data. */ typedef EFI_STATUS (*FASTBOOT_TRANSPORT_SEND) ( IN UINTN BufferSize, IN CONST VOID *Buffer, IN EFI_EVENT *FatalErrorEvent ); /* When the event has been Signalled to say data is available from the host, this function is used to get data. In order to handle the case where several packets are received before ReceiveEvent's notify function is called, packets received are queued, and each call to this function returns the next packet in the queue. It should therefore be called in a loop, the exit condition being a return of EFI_NOT_READY. @param[out] Buffer Pointer to received data. Callee allocated - the caller must free it with FreePool. @param[out] BufferSize The size of received data in bytes @retval EFI_NOT_READY There is no data available @retval EFI_DEVICE_ERROR There was a fatal error in the receive channel. e.g. for USB the cable was unplugged or for TCP the connection was closed by the remote host.. */ typedef EFI_STATUS (*FASTBOOT_TRANSPORT_RECEIVE) ( OUT UINTN *BufferSize, OUT VOID **Buffer ); typedef struct _FASTBOOT_TRANSPORT_PROTOCOL { FASTBOOT_TRANSPORT_START Start; FASTBOOT_TRANSPORT_STOP Stop; FASTBOOT_TRANSPORT_SEND Send; FASTBOOT_TRANSPORT_RECEIVE Receive; } FASTBOOT_TRANSPORT_PROTOCOL; #endif