175 lines
7.9 KiB
C
175 lines
7.9 KiB
C
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/*
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* partitioned_file.h, read and write binary file "partitions" described by FMAP
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*
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* Copyright (C) 2015 Google, Inc.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; version 2 of the License.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA, 02110-1301 USA
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*/
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#ifndef PARITITONED_FILE_H_
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#define PARITITONED_FILE_H_
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#include "common.h"
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#include "flashmap/fmap.h"
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#include <stdbool.h>
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#include <stddef.h>
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typedef struct partitioned_file partitioned_file_t;
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/** @return Whether the specific existing file should be opened in flat mode. */
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typedef bool (*partitioned_file_flat_decider_t)(struct buffer *buffer);
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/** Pass to partitioned_file_reopen() to force opening as a partitioned file. */
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#define partitioned_file_open_as_partitioned NULL
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/** Pass to partitioned_file_reopen() to force opening as a flat file. */
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extern const partitioned_file_flat_decider_t partitioned_file_open_as_flat;
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/**
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* Create a new filesystem-backed flat buffer.
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* This backwards-compatibility function creates a new in-memory buffer and
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* backing binary file of the specified size. Although the file won't actually
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* have multiple regions, it'll still be possible to access and manipulate it
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* using this module; this is accomplished by requesting the special region
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* whose name matches SECTION_NAME_PRIMARY_CBFS, which maps to the whole file.
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* Note that the caller will be responsible for calling partitioned_file_close()
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* on the returned object, and that this function will overwrite any existing
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* file with the given name without warning.
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*
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* @param filename Name of the backing file
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* @param image_size Size of the image
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* @return Caller-owned partitioned file, or NULL on error
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*/
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partitioned_file_t *partitioned_file_create_flat(const char *filename,
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size_t image_size);
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/**
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* Create a new filesystem-backed partitioned buffer.
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* This creates a new in-memory buffer and backing binary file. Both are
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* segmented into regions according to the provided flashmap's sections, and the
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* flashmap itself is automatically copied into the region named
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* SECTION_NAME_FMAP: a section with this name must already exist in the FMAP.
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* After calling this function, it is safe for the caller to clean up flashmap
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* at any time. The partitioned_file_t returned from this function is separately
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* owned by the caller, and must later be passed to partitioned_file_close().
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* Note that this function will overwrite any existing file with the given name
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* without warning.
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*
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* @param filename Name of the backing file
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* @param flashmap Buffer containing an FMAP file layout
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* @return Caller-owned partitioned file, or NULL on error
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*/
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partitioned_file_t *partitioned_file_create(const char *filename,
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struct buffer *flashmap);
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/**
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* Read a file back in from the disk.
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* An in-memory buffer is created and populated with the file's contents. If
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* flat_override is NULL and the image contains an FMAP, it will be opened as a
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* full partitioned file; otherwise, it will be opened as a flat file as if it
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* had been created by partitioned_file_create_flat(). This selection behavior
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* is extensible: if a flat_override function is provided, it is invoked before
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* searching for an FMAP, and has the option of explicitly instructing the
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* module to open the image as a flat file based on its contents.
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* The partitioned_file_t returned from this function is separately owned by the
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* caller, and must later be passed to partitioned_file_close();
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*
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* @param filename Name of the file to read in
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* @param flat_override Callback that can decide to open it as flat, or NULL
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* @return Caller-owned partitioned file, or NULL on error
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*/
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partitioned_file_t *partitioned_file_reopen(const char *filename,
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partitioned_file_flat_decider_t flat_override);
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/**
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* Write a buffer's contents to its original region within a segmented file.
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* This function should only be called on buffers originally retrieved by a call
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* to partitioned_file_read_region() on the same partitioned file object. The
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* contents of this buffer are copied back to the same region of the buffer and
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* backing file that the region occupied before.
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*
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* @param file Partitioned file to which to write the data
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* @param buffer Modified buffer obtained from partitioned_file_read_region()
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* @return Whether the operation was successful
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*/
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bool partitioned_file_write_region(partitioned_file_t *file,
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const struct buffer *buffer);
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/**
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* Obtain one particular region of a segmented file.
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* The result is owned by the partitioned_file_t and shared among every caller
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* of this function. Thus, it is an error to buffer_delete() it; instead, clean
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* up the entire partitioned_file_t once it's no longer needed with a single
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* call to partitioned_file_close().
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* Note that, if the buffer obtained from this function is modified, the changes
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* will be reflected in any buffers handed out---whether earlier or later---for
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* any region inclusive of the altered location(s). However, the backing file
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* will not be updated until someone calls partitioned_file_write_region() on a
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* buffer that includes the alterations.
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*
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* @param dest Empty destination buffer for the data
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* @param file Partitioned file from which to read the data
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* @param region Name of the desired FMAP region
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* @return Whether the copy was performed successfully
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*/
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bool partitioned_file_read_region(struct buffer *dest,
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const partitioned_file_t *file, const char *region);
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/** @param file Partitioned file to flush and cleanup */
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void partitioned_file_close(partitioned_file_t *file);
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/** @return Whether the file is partitioned (i.e. not flat). */
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bool partitioned_file_is_partitioned(const partitioned_file_t *file);
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/** @return Whether the specified region begins with the magic bytes. */
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bool partitioned_file_region_check_magic(const partitioned_file_t *file,
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const char *region, const char *magic, size_t magic_len);
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/** @return Whether the specified region exists and contains nested regions. */
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bool partitioned_file_region_contains_nested(const partitioned_file_t *file,
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const char *region);
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/** @return An immutable reference to the FMAP, or NULL for flat images. */
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const struct fmap *partitioned_file_get_fmap(const partitioned_file_t *file);
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/** @return Whether to include area in the running count. */
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typedef bool (*partitioned_file_fmap_selector_t)
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(const struct fmap_area *area, const void *arg);
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/**
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* Count the number of FMAP entries fulfilling a certain criterion.
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* The result is always 0 if run on a flat (non-partitioned) image.
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*
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* @param file File on whose FMAP entries the operation should be run
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* @param callback Decider answering whether each individual region should count
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* @param arg Additional information to furnish to the decider on each call
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* @return The number of FMAP sections with that property
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*/
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unsigned partitioned_file_fmap_count(const partitioned_file_t *file,
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partitioned_file_fmap_selector_t callback, const void *arg);
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/** Selector that counts every single FMAP section. */
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extern const partitioned_file_fmap_selector_t partitioned_file_fmap_select_all;
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/** Selector that counts FMAP sections that are descendants of fmap_area arg. */
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extern const partitioned_file_fmap_selector_t
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partitioned_file_fmap_select_children_of;
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/** Selector that counts FMAP sections that contain the fmap_area arg. */
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extern const partitioned_file_fmap_selector_t
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partitioned_file_fmap_select_parents_of;
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#endif
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