boot/1.0/IBootControl.hal - LeafOS-Project/android_hardware_interfaces - Gitiles

 /*
  * Copyright 2016 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package android.hardware.boot@1.0;

 /**
  * The Boot Control HAL is designed to allow for managing sets of redundant
  * partitions, called slots, that can be booted from independently. Slots
  * are sets of partitions whose names differ only by a given suffix.
  * They are identified here by a 0 indexed number and associated with their
  * suffix, which is appended to the base name for any particular partition
  * to find the one associated with that slot.
  * The primary use of this set up is to allow for background updates while
  * the device is running, and to provide a fallback in the event that the
  * update fails.
  */
 interface IBootControl {
   /**
    * getNumberSlots() returns the number of available slots.
    * For instance, a system with a single set of partitions must return
    * 1, a system with A/B must return 2, A/B/C -> 3 and so on. A system with
    * less than two slots doesn't support background updates, for example if
    * running from a virtual machine with only one copy of each partition for the
    * purpose of testing.
    */
   getNumberSlots() generates (uint32_t numSlots);

   /**
    * getCurrentSlot() returns the slot number of that the current boot is booted
    * from, for example slot number 0 (Slot A). It is assumed that if the current
    * slot is A, then the block devices underlying B can be accessed directly
    * without any risk of corruption.
    * The returned value is always guaranteed to be strictly less than the
    * value returned by getNumberSlots. Slots start at 0 and finish at
    * getNumberSlots() - 1. The value returned here must match the suffix passed
    * from the bootloader, regardless of which slot is active or successful.
    */
   getCurrentSlot() generates (Slot slot);

   /**
    * markBootSuccessful() marks the current slot as having booted successfully.
    *
    * Returns whether the command succeeded.
    */
   markBootSuccessful() generates (CommandResult error);

   /**
    * setActiveBootSlot() marks the slot passed in parameter as the active boot
    * slot (see getCurrentSlot for an explanation of the "slot" parameter). This
    * overrides any previous call to setSlotAsUnbootable.
    * Returns whether the command succeeded.
    */
   setActiveBootSlot(Slot slot) generates (CommandResult error);

   /**
    * setSlotAsUnbootable() marks the slot passed in parameter as
    * an unbootable. This can be used while updating the contents of the slot's
    * partitions, so that the system must not attempt to boot a known bad set up.
    * Returns whether the command succeeded.
    */
   setSlotAsUnbootable(Slot slot) generates (CommandResult error);

   /**
    * isSlotBootable() returns if the slot passed in parameter is bootable. Note
    * that slots can be made unbootable by both the bootloader and by the OS
    * using setSlotAsUnbootable.
    * Returns TRUE if the slot is bootable, FALSE if it's not, and INVALID_SLOT
    * if slot does not exist.
    */
   isSlotBootable(Slot slot) generates (BoolResult bootable);

   /**
    * isSlotMarkedSucessful() returns if the slot passed in parameter has been
    * marked as successful using markBootSuccessful. Note that only the current
    * slot can be marked as successful but any slot can be queried.
    * Returns TRUE if the slot has been marked as successful, FALSE if it has
    * not, and INVALID_SLOT if the slot does not exist.
    */
   isSlotMarkedSuccessful(Slot slot) generates (BoolResult successful);

   /**
    * getSuffix() returns the string suffix used by partitions that correspond to
    * the slot number passed in as a parameter. The bootloader must pass the
    * suffix of the currently active slot either through a kernel command line
    * property at androidboot.slot_suffix, or the device tree at
    * /firmware/android/slot_suffix.
    * Returns the empty string "" if slot does not match an existing slot.
    */
   getSuffix(Slot slot) generates (string slotSuffix);
 };
	/*
	* Copyright 2016 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package android.hardware.boot@1.0;

	/**
	* The Boot Control HAL is designed to allow for managing sets of redundant
	* partitions, called slots, that can be booted from independently. Slots
	* are sets of partitions whose names differ only by a given suffix.
	* They are identified here by a 0 indexed number and associated with their
	* suffix, which is appended to the base name for any particular partition
	* to find the one associated with that slot.
	* The primary use of this set up is to allow for background updates while
	* the device is running, and to provide a fallback in the event that the
	* update fails.
	*/
	interface IBootControl {
	/**
	* getNumberSlots() returns the number of available slots.
	* For instance, a system with a single set of partitions must return
	* 1, a system with A/B must return 2, A/B/C -> 3 and so on. A system with
	* less than two slots doesn't support background updates, for example if
	* running from a virtual machine with only one copy of each partition for the
	* purpose of testing.
	*/
	getNumberSlots() generates (uint32_t numSlots);

	/**
	* getCurrentSlot() returns the slot number of that the current boot is booted
	* from, for example slot number 0 (Slot A). It is assumed that if the current
	* slot is A, then the block devices underlying B can be accessed directly
	* without any risk of corruption.
	* The returned value is always guaranteed to be strictly less than the
	* value returned by getNumberSlots. Slots start at 0 and finish at
	* getNumberSlots() - 1. The value returned here must match the suffix passed
	* from the bootloader, regardless of which slot is active or successful.
	*/
	getCurrentSlot() generates (Slot slot);

	/**
	* markBootSuccessful() marks the current slot as having booted successfully.
	*
	* Returns whether the command succeeded.
	*/
	markBootSuccessful() generates (CommandResult error);

	/**
	* setActiveBootSlot() marks the slot passed in parameter as the active boot
	* slot (see getCurrentSlot for an explanation of the "slot" parameter). This
	* overrides any previous call to setSlotAsUnbootable.
	* Returns whether the command succeeded.
	*/
	setActiveBootSlot(Slot slot) generates (CommandResult error);

	/**
	* setSlotAsUnbootable() marks the slot passed in parameter as
	* an unbootable. This can be used while updating the contents of the slot's
	* partitions, so that the system must not attempt to boot a known bad set up.
	* Returns whether the command succeeded.
	*/
	setSlotAsUnbootable(Slot slot) generates (CommandResult error);

	/**
	* isSlotBootable() returns if the slot passed in parameter is bootable. Note
	* that slots can be made unbootable by both the bootloader and by the OS
	* using setSlotAsUnbootable.
	* Returns TRUE if the slot is bootable, FALSE if it's not, and INVALID_SLOT
	* if slot does not exist.
	*/
	isSlotBootable(Slot slot) generates (BoolResult bootable);

	/**
	* isSlotMarkedSucessful() returns if the slot passed in parameter has been
	* marked as successful using markBootSuccessful. Note that only the current
	* slot can be marked as successful but any slot can be queried.
	* Returns TRUE if the slot has been marked as successful, FALSE if it has
	* not, and INVALID_SLOT if the slot does not exist.
	*/
	isSlotMarkedSuccessful(Slot slot) generates (BoolResult successful);

	/**
	* getSuffix() returns the string suffix used by partitions that correspond to
	* the slot number passed in as a parameter. The bootloader must pass the
	* suffix of the currently active slot either through a kernel command line
	* property at androidboot.slot_suffix, or the device tree at
	* /firmware/android/slot_suffix.
	* Returns the empty string "" if slot does not match an existing slot.
	*/
	getSuffix(Slot slot) generates (string slotSuffix);
	};