2018-03-02 18:58:50 +00:00
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<!--
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2018-05-07 21:02:21 +00:00
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SPDX-License-Identifier: GPL-2.0+
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2018-03-02 18:58:50 +00:00
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2018-05-07 21:02:21 +00:00
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Copyright (c) 2018 Heinrich Schuchardt
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2018-03-02 18:58:50 +00:00
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-->
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# UEFI on U-Boot
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The Unified Extensible Firmware Interface Specification (UEFI) [1] has become
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the default for booting on AArch64 and x86 systems. It provides a stable API for
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the interaction of drivers and applications with the firmware. The API comprises
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access to block storage, network, and console to name a few. The Linux kernel
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and boot loaders like GRUB or the FreeBSD loader can be executed.
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## Building for UEFI
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The UEFI standard supports only little endian systems. The UEFI support can be
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activated for ARM and x86 by specifying
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CONFIG_CMD_BOOTEFI=y
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CONFIG_EFI_LOADER=y
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in the .config file.
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Support for attaching virtual block devices, e.g. iSCSI drives connected by the
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loaded UEFI application [3], requires
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CONFIG_BLK=y
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CONFIG_PARTITIONS=y
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### Executing a UEFI binary
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The bootefi command is used to start UEFI applications or to install UEFI
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drivers. It takes two parameters
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bootefi <image address> [fdt address]
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* image address - the memory address of the UEFI binary
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* fdt address - the memory address of the flattened device tree
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Below you find the output of an example session starting GRUB.
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=> load mmc 0:2 ${fdt_addr_r} boot/dtb
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29830 bytes read in 14 ms (2 MiB/s)
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=> load mmc 0:1 ${kernel_addr_r} efi/debian/grubaa64.efi
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reading efi/debian/grubaa64.efi
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120832 bytes read in 7 ms (16.5 MiB/s)
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=> bootefi ${kernel_addr_r} ${fdt_addr_r}
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The environment variable 'bootargs' is passed as load options in the UEFI system
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table. The Linux kernel EFI stub uses the load options as command line
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arguments.
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### Executing the boot manager
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The UEFI specfication foresees to define boot entries and boot sequence via UEFI
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variables. Booting according to these variables is possible via
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bootefi bootmgr [fdt address]
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As of U-Boot v2018.03 UEFI variables are not persisted and cannot be set at
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runtime.
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### Executing the built in hello world application
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A hello world UEFI application can be built with
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CONFIG_CMD_BOOTEFI_HELLO_COMPILE=y
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It can be embedded into the U-Boot binary with
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CONFIG_CMD_BOOTEFI_HELLO=y
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The bootefi command is used to start the embedded hello world application.
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bootefi hello [fdt address]
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Below you find the output of an example session.
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=> bootefi hello ${fdtcontroladdr}
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## Starting EFI application at 01000000 ...
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WARNING: using memory device/image path, this may confuse some payloads!
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Hello, world!
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Running on UEFI 2.7
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Have SMBIOS table
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Have device tree
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Load options: root=/dev/sdb3 init=/sbin/init rootwait ro
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## Application terminated, r = 0
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The environment variable fdtcontroladdr points to U-Boot's internal device tree
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(if available).
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### Executing the built-in selftest
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An UEFI selftest suite can be embedded in U-Boot by building with
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CONFIG_CMD_BOOTEFI_SELFTEST=y
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For testing the UEFI implementation the bootefi command can be used to start the
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selftest.
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bootefi selftest [fdt address]
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The environment variable 'efi_selftest' can be used to select a single test. If
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it is not provided all tests are executed except those marked as 'on request'.
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If the environment variable is set to 'list' a list of all tests is shown.
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Below you can find the output of an example session.
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=> setenv efi_selftest simple network protocol
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=> bootefi selftest
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Testing EFI API implementation
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Selected test: 'simple network protocol'
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Setting up 'simple network protocol'
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Setting up 'simple network protocol' succeeded
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Executing 'simple network protocol'
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DHCP Discover
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DHCP reply received from 192.168.76.2 (52:55:c0:a8:4c:02)
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as broadcast message.
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Executing 'simple network protocol' succeeded
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Tearing down 'simple network protocol'
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Tearing down 'simple network protocol' succeeded
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Boot services terminated
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Summary: 0 failures
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Preparing for reset. Press any key.
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## The UEFI life cycle
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After the U-Boot platform has been initialized the UEFI API provides two kinds
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of services
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* boot services and
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* runtime services.
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The API can be extended by loading UEFI drivers which come in two variants
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* boot drivers and
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* runtime drivers.
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UEFI drivers are installed with U-Boot's bootefi command. With the same command
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UEFI applications can be executed.
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Loaded images of UEFI drivers stay in memory after returning to U-Boot while
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loaded images of applications are removed from memory.
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An UEFI application (e.g. an operating system) that wants to take full control
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of the system calls ExitBootServices. After a UEFI application calls
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ExitBootServices
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* boot services are not available anymore
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* timer events are stopped
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* the memory used by U-Boot except for runtime services is released
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* the memory used by boot time drivers is released
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So this is a point of no return. Afterwards the UEFI application can only return
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to U-Boot by rebooting.
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## The UEFI object model
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UEFI offers a flexible and expandable object model. The objects in the UEFI API
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are devices, drivers, and loaded images. These objects are referenced by
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handles.
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The interfaces implemented by the objects are referred to as protocols. These
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are identified by GUIDs. They can be installed and uninstalled by calling the
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appropriate boot services.
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Handles are created by the InstallProtocolInterface or the
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InstallMultipleProtocolinterfaces service if NULL is passed as handle.
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Handles are deleted when the last protocol has been removed with the
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UninstallProtocolInterface or the UninstallMultipleProtocolInterfaces service.
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Devices offer the EFI_DEVICE_PATH_PROTOCOL. A device path is the concatenation
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of device nodes. By their device paths all devices of a system are arranged in a
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tree.
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Drivers offer the EFI_DRIVER_BINDING_PROTOCOL. This protocol is used to connect
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a driver to devices (which are referenced as controllers in this context).
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Loaded images offer the EFI_LOADED_IMAGE_PROTOCOL. This protocol provides meta
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information about the image and a pointer to the unload callback function.
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## The UEFI events
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In the UEFI terminology an event is a data object referencing a notification
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function which is queued for calling when the event is signaled. The following
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types of events exist:
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* periodic and single shot timer events
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* exit boot services events, triggered by calling the ExitBootServices() service
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* virtual address change events
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* memory map change events
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* read to boot events
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* reset system events
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* system table events
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* events that are only triggered programmatically
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Events can be created with the CreateEvent service and deleted with CloseEvent
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service.
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Events can be assigned to an event group. If any of the events in a group is
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signaled, all other events in the group are also set to the signaled state.
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## The UEFI driver model
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A driver is specific for a single protocol installed on a device. To install a
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driver on a device the ConnectController service is called. In this context
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controller refers to the device for which the driver is installed.
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The relevant drivers are identified using the EFI_DRIVER_BINDING_PROTOCOL. This
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protocol has has three functions:
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* supported - determines if the driver is compatible with the device
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* start - installs the driver by opening the relevant protocol with
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attribute EFI_OPEN_PROTOCOL_BY_DRIVER
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* stop - uninstalls the driver
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The driver may create child controllers (child devices). E.g. a driver for block
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IO devices will create the device handles for the partitions. The child
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controllers will open the supported protocol with the attribute
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EFI_OPEN_PROTOCOL_BY_CHILD_CONTROLLER.
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A driver can be detached from a device using the DisconnectController service.
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## U-Boot devices mapped as UEFI devices
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Some of the U-Boot devices are mapped as UEFI devices
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* block IO devices
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* console
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* graphical output
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* network adapter
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As of U-Boot 2018.03 the logic for doing this is hard coded.
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The development target is to integrate the setup of these UEFI devices with the
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U-Boot driver model. So when a U-Boot device is discovered a handle should be
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created and the device path protocol and the relevant IO protocol should be
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installed. The UEFI driver then would be attached by calling ConnectController.
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When a U-Boot device is removed DisconnectController should be called.
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## UEFI devices mapped as U-Boot devices
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UEFI drivers binaries and applications may create new (virtual) devices, install
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a protocol and call the ConnectController service. Now the matching UEFI driver
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is determined by iterating over the implementations of the
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EFI_DRIVER_BINDING_PROTOCOL.
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It is the task of the UEFI driver to create a corresponding U-Boot device and to
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proxy calls for this U-Boot device to the controller.
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In U-Boot 2018.03 this has only been implemented for block IO devices.
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### UEFI uclass
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An UEFI uclass driver (lib/efi_driver/efi_uclass.c) has been created that
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takes care of initializing the UEFI drivers and providing the
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EFI_DRIVER_BINDING_PROTOCOL implementation for the UEFI drivers.
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A linker created list is used to keep track of the UEFI drivers. To create an
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entry in the list the UEFI driver uses the U_BOOT_DRIVER macro specifying
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UCLASS_EFI as the ID of its uclass, e.g.
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/* Identify as UEFI driver */
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U_BOOT_DRIVER(efi_block) = {
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.name = "EFI block driver",
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.id = UCLASS_EFI,
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.ops = &driver_ops,
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};
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The available operations are defined via the structure struct efi_driver_ops.
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struct efi_driver_ops {
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const efi_guid_t *protocol;
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const efi_guid_t *child_protocol;
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int (*bind)(efi_handle_t handle, void *interface);
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};
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When the supported() function of the EFI_DRIVER_BINDING_PROTOCOL is called the
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uclass checks if the protocol GUID matches the protocol GUID of the UEFI driver.
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In the start() function the bind() function of the UEFI driver is called after
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checking the GUID.
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The stop() function of the EFI_DRIVER_BINDING_PROTOCOL disconnects the child
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controllers created by the UEFI driver and the UEFI driver. (In U-Boot v2013.03
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this is not yet completely implemented.)
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### UEFI block IO driver
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The UEFI block IO driver supports devices exposing the EFI_BLOCK_IO_PROTOCOL.
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When connected it creates a new U-Boot block IO device with interface type
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IF_TYPE_EFI, adds child controllers mapping the partitions, and installs the
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EFI_SIMPLE_FILE_SYSTEM_PROTOCOL on these. This can be used together with the
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software iPXE to boot from iSCSI network drives [3].
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This driver is only available if U-Boot is configured with
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CONFIG_BLK=y
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CONFIG_PARTITIONS=y
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2018-05-12 01:28:44 +00:00
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## TODOs as of U-Boot 2018.07
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2018-03-02 18:58:50 +00:00
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* unimplemented or incompletely implemented boot services
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* Exit - call unload function, unload applications only
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2018-05-12 01:28:44 +00:00
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* ProtocolRegisterNotify
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2018-03-02 18:58:50 +00:00
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* UnloadImage
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2018-05-12 01:28:44 +00:00
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* unimplemented or incompletely implemented runtime services
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* SetVariable() ignores attribute EFI_VARIABLE_APPEND_WRITE
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* GetNextVariableName is not implemented
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* QueryVariableInfo is not implemented
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2018-03-02 18:58:50 +00:00
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* unimplemented events
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* EVT_RUNTIME
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* EVT_SIGNAL_VIRTUAL_ADDRESS_CHANGE
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* event groups
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* data model
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* manage events in a linked list
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* manage configuration tables in a linked list
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* UEFI drivers
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* support DisconnectController for UEFI block devices.
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* support for CONFIG_EFI_LOADER in the sandbox (CONFIG_SANDBOX=y)
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* UEFI variables
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* persistence
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* runtime support
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2018-04-10 22:41:52 +00:00
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* support bootefi booting ARMv7 in non-secure mode (CONFIG_ARMV7_NONSEC=y)
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2018-03-02 18:58:50 +00:00
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## Links
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* [1](http://uefi.org/specifications)
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http://uefi.org/specifications - UEFI specifications
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* [2](./driver-model/README.txt) doc/driver-model/README.txt - Driver model
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* [3](./README.iscsi) doc/README.iscsi - iSCSI booting with U-Boot and iPXE
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