scottk/OpenCellular
1
0
Fork 0
mirror of https://github.com/Telecominfraproject/OpenCellular.git synced 2025-11-24 02:05:01 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
dc8ec103c0d0d2a4e930153a4b19c43b51d74b5d
OpenCellular/firmware/include/gpt_misc.h
Furquan Shaikh f620c0d656 cgptlib: Add functions to cgptlib API 
Following changes are done to the cgptlib API in order to allow backend
component of fastboot to perform erase and write operations on
partitions and manipulate GPT entries:
GptFindNthEntry - Returns the nth entry in GPT that matches provided
GUID.
GptGetEntrySizeLba - Returns size of a partition in lba.
GptGetEntrySizeBytes - Returns size of a partition in bytes.
GptUpdateKernelWithEntry - Given kernel entry is updated using the
provided update_type. GptUpdateKernelEntry calls this function with
entry for current_kernel.

Add flags GPT_UPDATE_ENTRY_RESET and GPT_UPDATE_ENTRY_INVALID for
calls to GptUpdateKernelEntry. These operations are used by write
image and erase partition respectively.

BUG=chrome-os-partner:35861
BRANCH=None
TEST=Compiles successfully and all the newly added functions work as expected.

Change-Id: I82c87e4c97de2d207e80209dbd4922b4bcd5880a
Signed-off-by: Furquan Shaikh <furquan@google.com>
Reviewed-on: https://chromium-review.googlesource.com/240268
Trybot-Ready: Furquan Shaikh <furquan@chromium.org>
Tested-by: Furquan Shaikh <furquan@chromium.org>
Reviewed-by: Randall Spangler <rspangler@chromium.org>
Reviewed-by: Aaron Durbin <adurbin@chromium.org>
Commit-Queue: Furquan Shaikh <furquan@chromium.org>
2015-01-24 01:46:02 +00:00

200 lines
6.3 KiB
C
Raw Blame History

/* Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#ifndef VBOOT_REFERENCE_CGPT_MISC_H_
#define VBOOT_REFERENCE_CGPT_MISC_H_
#include "gpt.h"
#include "vboot_api.h"
enum {
GPT_SUCCESS = 0,
GPT_ERROR_NO_VALID_KERNEL,
GPT_ERROR_INVALID_HEADERS,
GPT_ERROR_INVALID_ENTRIES,
GPT_ERROR_INVALID_SECTOR_SIZE,
GPT_ERROR_INVALID_SECTOR_NUMBER,
GPT_ERROR_INVALID_UPDATE_TYPE,
GPT_ERROR_CRC_CORRUPTED,
GPT_ERROR_OUT_OF_REGION,
GPT_ERROR_START_LBA_OVERLAP,
GPT_ERROR_END_LBA_OVERLAP,
GPT_ERROR_DUP_GUID,
GPT_ERROR_INVALID_FLASH_GEOMETRY,
GPT_ERROR_NO_SUCH_ENTRY,
/* Number of errors */
GPT_ERROR_COUNT
};
/* Bit masks for GptData.modified field. */
#define GPT_MODIFIED_HEADER1 0x01
#define GPT_MODIFIED_HEADER2 0x02
#define GPT_MODIFIED_ENTRIES1 0x04
#define GPT_MODIFIED_ENTRIES2 0x08
/*
* The 'update_type' of GptUpdateKernelEntry(). We expose TRY and BAD only
* because those are what verified boot needs. For more precise control on GPT
* attribute bits, please refer to gpt_internal.h.
*/
enum {
/*
* System will be trying to boot the currently selected kernel
* partition. Update its try count if necessary.
*/
GPT_UPDATE_ENTRY_TRY = 1,
/*
* The currently selected kernel partition failed validation. Mark
* entry as invalid.
*/
GPT_UPDATE_ENTRY_BAD = 2,
/*
* Used for fastboot mode. When an image is written to kernel partition,
* its GPT entry is marked with S1,P1,T15.
*/
GPT_UPDATE_ENTRY_RESET = 3,
/*
* Used for fastboot mode. When an image is written to kernel partition,
* its GPT entry is marked with S0,P0,T0.
*/
GPT_UPDATE_ENTRY_INVALID = 4,
};
/* If this bit is 1, the GPT is stored in another from the streaming data */
#define GPT_FLAG_EXTERNAL 0x1
/*
* A note about stored_on_device and gpt_drive_sectors:
*
* This code is used by both the "cgpt" utility and depthcharge/vboot. ATM,
* depthcharge does not have logic to properly setup stored_on_device and
* gpt_drive_sectors, but it does do a memset(gpt, 0, sizeof(GptData)). And so,
* GPT_STORED_ON_DEVICE should be 0 to make stored_on_device compatible with
* present behavior. At the same time, in vboot_kernel:LoadKernel(), and
* cgpt_common:GptLoad(), we need to have simple shims to set gpt_drive_sectors
* to drive_sectors.
*
* TODO(namnguyen): Remove those shims when the firmware can set these fields.
*/
typedef struct {
/* Fill in the following fields before calling GptInit() */
/* GPT primary header, from sector 1 of disk (size: 512 bytes) */
uint8_t *primary_header;
/* GPT secondary header, from last sector of disk (size: 512 bytes) */
uint8_t *secondary_header;
/* Primary GPT table, follows primary header (size: 16 KB) */
uint8_t *primary_entries;
/* Secondary GPT table, precedes secondary header (size: 16 KB) */
uint8_t *secondary_entries;
/* Size of a LBA sector, in bytes */
uint32_t sector_bytes;
/* Size of drive (that the partitions are on) in LBA sectors */
uint64_t streaming_drive_sectors;
/* Size of the device that holds the GPT structures, 512-byte sectors */
uint64_t gpt_drive_sectors;
/* Flags */
uint32_t flags;
/* Outputs */
/* Which inputs have been modified? GPT_MODIFIED_* */
uint8_t modified;
/*
* The current chromeos kernel index in partition table. -1 means not
* found on drive. Note that GPT partition numbers are traditionally
* 1-based, but we're using a zero-based index here.
*/
int current_kernel;
/* Internal variables */
uint32_t valid_headers, valid_entries;
int current_priority;
} GptData;
/**
* Initializes the GPT data structure's internal state.
*
* The following fields must be filled before calling this function:
*
* primary_header
* secondary_header
* primary_entries
* secondary_entries
* sector_bytes
* drive_sectors
* stored_on_device
* gpt_device_sectors
*
* On return the modified field may be set, if the GPT data has been modified
* and should be written to disk.
*
* Returns GPT_SUCCESS if successful, non-zero if error:
* GPT_ERROR_INVALID_HEADERS, both partition table headers are invalid, enters
* recovery mode,
* GPT_ERROR_INVALID_ENTRIES, both partition table entries are invalid, enters
* recovery mode,
* GPT_ERROR_INVALID_SECTOR_SIZE, size of a sector is not supported,
* GPT_ERROR_INVALID_SECTOR_NUMBER, number of sectors in drive is invalid (too
* small) */
int GptInit(GptData *gpt);
/**
* Return the nth instance of parition entry matching the partition type guid
* from the gpt table. Instance value starts from 0. If the entry is not found,
* it returns NULL.
*/
GptEntry *GptFindNthEntry(GptData *gpt, const Guid *guid, unsigned int n);
/**
* Allocate and read GPT data from the drive. The sector_bytes and
* drive_sectors fields should be filled on input. The primary and secondary
* header and entries are filled on output.
*
* Returns 0 if successful, 1 if error.
*/
int AllocAndReadGptData(VbExDiskHandle_t disk_handle, GptData *gptdata);
/**
* Write any changes for the GPT data back to the drive, then free the buffers.
*/
int WriteAndFreeGptData(VbExDiskHandle_t disk_handle, GptData *gptdata);
/**
* Return 1 if the entry is unused, 0 if it is used.
*/
int IsUnusedEntry(const GptEntry *e);
/**
* Return size(in lba) of a partition represented by given GPT entry.
*/
size_t GptGetEntrySizeLba(const GptEntry *e);
/**
* Return size(in bytes) of a partition represented by given GPT entry.
*/
size_t GptGetEntrySizeBytes(const GptData *gpt, const GptEntry *e);
/**
* Updates the kernel entry with the specified index, using the specified type
* of update (GPT_UPDATE_ENTRY_*).
*
* On return the modified field may be set, if the GPT data has been modified
* and should be written to disk.
*
* Returns GPT_SUCCESS if successful, else
* GPT_ERROR_INVALID_UPDATE_TYPE, invalid 'update_type' is given.
*/
int GptUpdateKernelWithEntry(GptData *gpt, GptEntry *e, uint32_t update_type);
/**
* Updates the kernel entry identified by current_kernel field. If
* current_kernel is not set it returns an error.
*
* Returns GPT_SUCCESS if successful, else
* GPT_ERROR_INVALID_UPDATE_TYPE, invalid 'update_type' is given.
*/
int GptUpdateKernelEntry(GptData *gpt, uint32_t update_type);
#endif /* VBOOT_REFERENCE_CGPT_MISC_H_ */
Reference in New Issue View Git Blame Copy Permalink