platform_system_core/fastboot/task.h
David Anderson adb91b0e59 remount: Detect when flashall has happened in the bootloader.
This adds a new metadata header flag to the super partition. This flag
is set when "adb remount" is used, and is implicitly cleared when
flashing.

If there is a scratch partition present on /data, we require that the
flag be set in order to proceed using overlays. If not set, scratch is
not mapped in first-stage init, and scratch images are removed later
during startup.

Bug: 297923468
Test: adb remount -R, touch file in out/, sync, flashall
Change-Id: I9cc411a1632101b5fc043193b38db8ffb9c20e7f
2023-12-14 16:00:27 -08:00

155 lines
4.7 KiB
C++

//
// Copyright (C) 2020 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.
//
#pragma once
#include <string>
#include "super_flash_helper.h"
#include "util.h"
struct FlashingPlan;
struct Image;
using ImageEntry = std::pair<const Image*, std::string>;
class FlashTask;
class RebootTask;
class UpdateSuperTask;
class OptimizedFlashSuperTask;
class WipeTask;
class ResizeTask;
class Task {
public:
Task() = default;
virtual void Run() = 0;
virtual std::string ToString() const = 0;
virtual FlashTask* AsFlashTask() { return nullptr; }
virtual RebootTask* AsRebootTask() { return nullptr; }
virtual UpdateSuperTask* AsUpdateSuperTask() { return nullptr; }
virtual OptimizedFlashSuperTask* AsOptimizedFlashSuperTask() { return nullptr; }
virtual WipeTask* AsWipeTask() { return nullptr; }
virtual ResizeTask* AsResizeTask() { return nullptr; }
virtual ~Task() = default;
};
class FlashTask : public Task {
public:
FlashTask(const std::string& slot, const std::string& pname, const std::string& fname,
const bool apply_vbmeta, const FlashingPlan* fp);
virtual FlashTask* AsFlashTask() override { return this; }
static bool IsDynamicPartition(const ImageSource* source, const FlashTask* task);
void Run() override;
std::string ToString() const override;
std::string GetPartition() const { return pname_; }
std::string GetImageName() const { return fname_; }
std::string GetSlot() const { return slot_; }
std::string GetPartitionAndSlot() const;
private:
const std::string pname_;
const std::string fname_;
const std::string slot_;
const bool apply_vbmeta_;
const FlashingPlan* fp_;
};
class RebootTask : public Task {
public:
RebootTask(const FlashingPlan* fp);
RebootTask(const FlashingPlan* fp, const std::string& reboot_target);
virtual RebootTask* AsRebootTask() override { return this; }
void Run() override;
std::string ToString() const override;
std::string GetTarget() const { return reboot_target_; };
private:
const std::string reboot_target_ = "";
const FlashingPlan* fp_;
};
class OptimizedFlashSuperTask : public Task {
public:
OptimizedFlashSuperTask(const std::string& super_name, std::unique_ptr<SuperFlashHelper> helper,
SparsePtr sparse_layout, uint64_t super_size, const FlashingPlan* fp);
virtual OptimizedFlashSuperTask* AsOptimizedFlashSuperTask() override { return this; }
static std::unique_ptr<OptimizedFlashSuperTask> Initialize(
const FlashingPlan* fp, std::vector<std::unique_ptr<Task>>& tasks);
static bool CanOptimize(const ImageSource* source,
const std::vector<std::unique_ptr<Task>>& tasks);
void Run() override;
std::string ToString() const override;
private:
const std::string super_name_;
std::unique_ptr<SuperFlashHelper> helper_;
SparsePtr sparse_layout_;
uint64_t super_size_;
const FlashingPlan* fp_;
};
class UpdateSuperTask : public Task {
public:
UpdateSuperTask(const FlashingPlan* fp);
virtual UpdateSuperTask* AsUpdateSuperTask() override { return this; }
void Run() override;
std::string ToString() const override;
private:
const FlashingPlan* fp_;
};
class ResizeTask : public Task {
public:
ResizeTask(const FlashingPlan* fp, const std::string& pname, const std::string& size,
const std::string& slot);
void Run() override;
std::string ToString() const override;
virtual ResizeTask* AsResizeTask() override { return this; }
private:
const FlashingPlan* fp_;
const std::string pname_;
const std::string size_;
const std::string slot_;
};
class DeleteTask : public Task {
public:
DeleteTask(const FlashingPlan* fp, const std::string& pname);
void Run() override;
std::string ToString() const override;
private:
const FlashingPlan* fp_;
const std::string pname_;
};
class WipeTask : public Task {
public:
WipeTask(const FlashingPlan* fp, const std::string& pname);
virtual WipeTask* AsWipeTask() override { return this; }
void Run() override;
std::string ToString() const override;
private:
const FlashingPlan* fp_;
const std::string pname_;
};