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https://github.com/CloverHackyColor/CloverBootloader.git
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286 lines
8.5 KiB
C
286 lines
8.5 KiB
C
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/** @file
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Implementation of routines that deal with ext2/3 block maps.
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Copyright (c) 2022 Pedro Falcato All rights reserved.
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SPDX-License-Identifier: BSD-2-Clause-Patent
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**/
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#include <Ext4Dxe.h>
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// Note: The largest path we can take uses up 4 indices
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#define EXT4_MAX_BLOCK_PATH 4
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typedef enum ext4_logical_block_type {
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EXT4_TYPE_DIRECT_BLOCK = 0,
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EXT4_TYPE_SINGLY_BLOCK,
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EXT4_TYPE_DOUBLY_BLOCK,
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EXT4_TYPE_TREBLY_BLOCK,
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EXT4_TYPE_BAD_BLOCK
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} EXT4_LOGICAL_BLOCK_TYPE;
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/**
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@brief Detect the type of path the logical block will follow
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@param[in] LogicalBlock The logical block
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@param[in] Partition Pointer to an EXT4_PARTITION
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@return The type of path the logical block will need to follow
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*/
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STATIC
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EXT4_LOGICAL_BLOCK_TYPE
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Ext4DetectBlockType (
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IN UINT32 LogicalBlock,
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IN CONST EXT4_PARTITION *Partition
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)
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{
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UINT32 Entries;
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UINT32 MinSinglyBlock;
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UINT32 MinDoublyBlock;
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UINT32 MinTreblyBlock;
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UINT32 MinQuadBlock;
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Entries = (Partition->BlockSize / sizeof (UINT32));
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MinSinglyBlock = EXT4_DBLOCKS;
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MinDoublyBlock = Entries + MinSinglyBlock;
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MinTreblyBlock = Entries * Entries + MinDoublyBlock;
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MinQuadBlock = Entries * Entries * Entries + MinTreblyBlock; // Doesn't actually exist
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if (LogicalBlock < MinSinglyBlock) {
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return EXT4_TYPE_DIRECT_BLOCK;
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} else if ((LogicalBlock >= MinSinglyBlock) && (LogicalBlock < MinDoublyBlock)) {
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return EXT4_TYPE_SINGLY_BLOCK;
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} else if ((LogicalBlock >= MinDoublyBlock) && (LogicalBlock < MinTreblyBlock)) {
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return EXT4_TYPE_DOUBLY_BLOCK;
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} else if (((LogicalBlock >= MinTreblyBlock) && (LogicalBlock < MinQuadBlock))) {
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return EXT4_TYPE_TREBLY_BLOCK;
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} else {
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return EXT4_TYPE_BAD_BLOCK;
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}
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}
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/**
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@brief Get a block's path in indices
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@param[in] Partition Pointer to an EXT4_PARTITION
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@param[in] LogicalBlock Logical block
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@param[out] BlockPath Pointer to an array of EXT4_MAX_BLOCK_PATH elements, where the
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indices we'll need to read are inserted.
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@return The number of path elements that are required (and were inserted in BlockPath)
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*/
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UINTN
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Ext4GetBlockPath (
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IN CONST EXT4_PARTITION *Partition,
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IN UINT32 LogicalBlock,
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OUT EXT2_BLOCK_NR BlockPath[EXT4_MAX_BLOCK_PATH]
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)
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{
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// The logic behind the block map is very much like a page table
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// Let's think of blocks with 512 entries (exactly like a page table on x64).
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// On doubly indirect block paths, we subtract the min doubly blocks from the logical block.
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// The top 9 bits of the result are the index inside the dind block, the bottom 9 bits are the
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// index inside the ind block. Since Entries is always a power of 2, entries - 1 will give us
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// a mask of the BlockMapBits.
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// Note that all this math could be done with ands and shifts (similar implementations exist
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// in a bunch of other places), but I'm doing it a simplified way with divs and modulus,
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// since it's not going to be a bottleneck anyway.
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UINT32 Entries;
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UINT32 EntriesEntries;
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UINT32 MinSinglyBlock;
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UINT32 MinDoublyBlock;
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UINT32 MinTreblyBlock;
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EXT4_LOGICAL_BLOCK_TYPE Type;
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Entries = (Partition->BlockSize / sizeof (UINT32));
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EntriesEntries = Entries * Entries;
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MinSinglyBlock = EXT4_DBLOCKS;
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MinDoublyBlock = Entries + MinSinglyBlock;
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MinTreblyBlock = EntriesEntries + MinDoublyBlock;
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Type = Ext4DetectBlockType (LogicalBlock, Partition);
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switch (Type) {
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case EXT4_TYPE_DIRECT_BLOCK:
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BlockPath[0] = LogicalBlock;
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break;
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case EXT4_TYPE_SINGLY_BLOCK:
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BlockPath[0] = EXT4_IND_BLOCK;
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BlockPath[1] = LogicalBlock - EXT4_DBLOCKS;
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break;
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case EXT4_TYPE_DOUBLY_BLOCK:
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BlockPath[0] = EXT4_DIND_BLOCK;
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LogicalBlock -= MinDoublyBlock;
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BlockPath[1] = LogicalBlock / Entries;
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BlockPath[2] = LogicalBlock % Entries;
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break;
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case EXT4_TYPE_TREBLY_BLOCK:
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BlockPath[0] = EXT4_DIND_BLOCK;
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LogicalBlock -= MinTreblyBlock;
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BlockPath[1] = LogicalBlock / EntriesEntries;
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BlockPath[2] = (LogicalBlock % EntriesEntries) / Entries;
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BlockPath[3] = (LogicalBlock % EntriesEntries) % Entries;
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break;
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default:
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// EXT4_TYPE_BAD_BLOCK
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break;
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}
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return Type + 1;
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}
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/**
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@brief Get an extent from a block map
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Note: Also parses file holes and creates uninitialized extents from them.
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@param[in] Buffer Buffer of block pointers
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@param[in] IndEntries Number of entries in this block pointer table
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@param[in] StartIndex The start index from which we want to find a contiguous extent
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@param[out] Extent Pointer to the resulting EXT4_EXTENT
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*/
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VOID
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Ext4GetExtentInBlockMap (
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IN CONST UINT32 *Buffer,
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IN CONST UINT32 IndEntries,
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IN UINT32 StartIndex,
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OUT EXT4_EXTENT *Extent
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)
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{
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UINT32 Index;
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UINT32 FirstBlock;
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UINT32 LastBlock;
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UINT16 Count;
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Count = 1;
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LastBlock = Buffer[StartIndex];
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FirstBlock = LastBlock;
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if (FirstBlock == EXT4_BLOCK_FILE_HOLE) {
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// File hole, let's see how many blocks this hole spans
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Extent->ee_start_hi = 0;
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Extent->ee_start_lo = 0;
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for (Index = StartIndex + 1; Index < IndEntries; Index++) {
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if (Count == EXT4_EXTENT_MAX_INITIALIZED - 1) {
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// We've reached the max size of an uninit extent, break
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break;
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}
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if (Buffer[Index] == EXT4_BLOCK_FILE_HOLE) {
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Count++;
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} else {
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break;
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}
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}
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// We mark the extent as uninitialized, although there's a difference between uninit
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// extents and file holes.
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Extent->ee_len = EXT4_EXTENT_MAX_INITIALIZED + Count;
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return;
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}
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for (Index = StartIndex + 1; Index < IndEntries; Index++) {
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if (Count == EXT4_EXTENT_MAX_INITIALIZED) {
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// We've reached the max size of an extent, break
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break;
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}
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if ((Buffer[Index] == LastBlock + 1) && (Buffer[Index] != EXT4_BLOCK_FILE_HOLE)) {
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Count++;
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} else {
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break;
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}
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LastBlock = Buffer[Index];
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}
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Extent->ee_start_lo = FirstBlock;
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Extent->ee_start_hi = 0;
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Extent->ee_len = Count;
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}
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/**
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Retrieves an extent from an EXT2/3 inode (with a blockmap).
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@param[in] Partition Pointer to the opened EXT4 partition.
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@param[in] File Pointer to the opened file.
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@param[in] LogicalBlock Block number which the returned extent must cover.
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@param[out] Extent Pointer to the output buffer, where the extent will be copied to.
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@retval EFI_SUCCESS Retrieval was successful.
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@retval EFI_NO_MAPPING Block has no mapping.
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**/
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EFI_STATUS
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Ext4GetBlocks (
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IN EXT4_PARTITION *Partition,
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IN EXT4_FILE *File,
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IN EXT2_BLOCK_NR LogicalBlock,
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OUT EXT4_EXTENT *Extent
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)
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{
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EXT4_INODE *Inode;
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EXT2_BLOCK_NR BlockPath[EXT4_MAX_BLOCK_PATH];
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UINTN BlockPathLength;
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UINTN Index;
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UINT32 *Buffer;
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EFI_STATUS Status;
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UINT32 Block;
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UINT32 BlockIndex;
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Inode = File->Inode;
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BlockPathLength = Ext4GetBlockPath (Partition, LogicalBlock, BlockPath);
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if (BlockPathLength - 1 == EXT4_TYPE_BAD_BLOCK) {
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// Bad logical block (out of range)
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return EFI_NO_MAPPING;
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}
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Extent->ee_block = LogicalBlock;
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if (BlockPathLength == 1) {
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// Fast path for blocks 0 - 12 that skips allocations
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Ext4GetExtentInBlockMap (Inode->i_data, EXT4_DBLOCKS, BlockPath[0], Extent);
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return EFI_SUCCESS;
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}
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Buffer = AllocatePool (Partition->BlockSize);
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if (Buffer == NULL) {
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return EFI_OUT_OF_RESOURCES;
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}
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// Note the BlockPathLength - 1 so we don't end up reading the final block
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for (Index = 0; Index < BlockPathLength - 1; Index++) {
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BlockIndex = BlockPath[Index];
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if (Index == 0) {
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Block = Inode->i_data[BlockIndex];
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} else {
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Block = Buffer[BlockIndex];
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}
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if (Block == EXT4_BLOCK_FILE_HOLE) {
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FreePool (Buffer);
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return EFI_NO_MAPPING;
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}
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Status = Ext4ReadBlocks (Partition, Buffer, 1, Block);
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if (EFI_ERROR (Status)) {
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FreePool (Buffer);
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return Status;
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}
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}
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Ext4GetExtentInBlockMap (
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Buffer,
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Partition->BlockSize / sizeof (UINT32),
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BlockPath[BlockPathLength - 1],
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Extent
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);
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FreePool (Buffer);
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return EFI_SUCCESS;
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}
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