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sortix--sortix/ext/filesystem.cpp

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/*******************************************************************************
Copyright(C) Jonas 'Sortie' Termansen 2013, 2014, 2015.
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This program is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the Free
Software Foundation, either version 3 of the License, or (at your option)
any later version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along with
this program. If not, see <http://www.gnu.org/licenses/>.
filesystem.cpp
Filesystem.
*******************************************************************************/
#include <sys/types.h>
#include <assert.h>
#include <errno.h>
#include <stddef.h>
#include <stdint.h>
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#include <string.h>
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#include <time.h>
#include "ext-constants.h"
#include "ext-structs.h"
#include "block.h"
#include "blockgroup.h"
#include "device.h"
#include "filesystem.h"
#include "inode.h"
#include "util.h"
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Filesystem::Filesystem(Device* device, const char* mount_path)
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{
uint64_t sb_offset = 1024;
uint32_t sb_block_id = sb_offset / device->block_size;
this->sb_block = device->GetBlock(sb_block_id);
assert(sb_block); // TODO: This can fail.
this->sb = (struct ext_superblock*)
(sb_block->block_data + sb_offset % device->block_size);
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this->device = device;
this->block_groups = NULL;
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this->mount_path = mount_path;
this->block_size = device->block_size;
this->inode_size = this->sb->s_inode_size;
this->num_blocks = this->sb->s_blocks_count;
this->num_groups = divup(this->sb->s_blocks_count, this->sb->s_blocks_per_group);
this->num_inodes = this->sb->s_inodes_count;
this->mru_inode = NULL;
this->lru_inode = NULL;
this->dirty_inode = NULL;
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for ( size_t i = 0; i < INODE_HASH_LENGTH; i++ )
this->hash_inodes[i] = NULL;
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struct timespec now_realtime, now_monotonic;
clock_gettime(CLOCK_REALTIME, &now_realtime);
clock_gettime(CLOCK_MONOTONIC, &now_monotonic);
this->mtime_realtime = now_realtime.tv_sec;
this->mtime_monotonic = now_monotonic.tv_sec;
this->dirty = false;
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if ( device->write )
{
BeginWrite();
sb->s_mtime = mtime_realtime;
sb->s_mnt_count++;
sb->s_state = EXT2_ERROR_FS;
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// TODO: Remove this temporarily compatibility when this driver is moved
// into the kernel and the the FUSE frontend is removed.
#ifdef __GLIBC__
strncpy(sb->s_last_mounted, mount_path, sizeof(sb->s_last_mounted));
#else
strlcpy(sb->s_last_mounted, mount_path, sizeof(sb->s_last_mounted));
#endif
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FinishWrite();
Sync();
}
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}
Filesystem::~Filesystem()
{
Sync();
while ( mru_inode )
delete mru_inode;
for ( size_t i = 0; i < num_groups; i++ )
delete block_groups[i];
delete[] block_groups;
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if ( device->write )
{
BeginWrite();
sb->s_state = EXT2_VALID_FS;
FinishWrite();
Sync();
}
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sb_block->Unref();
}
void Filesystem::BeginWrite()
{
sb_block->BeginWrite();
}
void Filesystem::FinishWrite()
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{
dirty = true;
sb_block->FinishWrite();
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}
void Filesystem::Sync()
{
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while ( dirty_inode )
dirty_inode->Sync();
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// TODO: This can be made faster by maintaining a linked list of dirty block
// groups.
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for ( size_t i = 0; i < num_groups; i++ )
if ( block_groups && block_groups[i] )
block_groups[i]->Sync();
if ( dirty )
{
// The correct real-time might not have been known when the filesystem
// was mounted (perhaps during early system boot), so find out what time
// it is now, how long ago we were mounted, and subtract to get the
// correct mount time.
struct timespec now_realtime, now_monotonic;
clock_gettime(CLOCK_REALTIME, &now_realtime);
clock_gettime(CLOCK_MONOTONIC, &now_monotonic);
time_t since_boot = now_monotonic.tv_sec - mtime_monotonic;
mtime_realtime = now_realtime.tv_sec - since_boot;
sb->s_wtime = now_realtime.tv_sec;
sb->s_mtime = mtime_realtime;
sb_block->Sync();
dirty = false;
}
device->Sync();
}
BlockGroup* Filesystem::GetBlockGroup(uint32_t group_id)
{
assert(group_id < num_groups);
if ( block_groups[group_id] )
return block_groups[group_id]->Refer(), block_groups[group_id];
size_t group_size = sizeof(ext_blockgrpdesc);
uint32_t first_block_id = sb->s_first_data_block + 1 /* superblock */;
uint32_t block_id = first_block_id + (group_id * group_size) / block_size;
uint32_t offset = (group_id * group_size) % block_size;
Block* block = device->GetBlock(block_id);
if ( !block )
return (BlockGroup*) NULL;
BlockGroup* group = new BlockGroup(this, group_id);
if ( !group ) // TODO: Use operator new nothrow!
return block->Unref(), (BlockGroup*) NULL;
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group->data_block = block;
uint8_t* buf = group->data_block->block_data + offset;
group->data = (struct ext_blockgrpdesc*) buf;
return block_groups[group_id] = group;
}
Inode* Filesystem::GetInode(uint32_t inode_id)
{
if ( !inode_id || num_inodes <= inode_id )
return errno = EBADF, (Inode*) NULL;
if ( !inode_id )
return errno = EBADF, (Inode*) NULL;
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size_t bin = inode_id % INODE_HASH_LENGTH;
for ( Inode* iter = hash_inodes[bin]; iter; iter = iter->next_hashed )
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if ( iter->inode_id == inode_id )
return iter->Refer(), iter;
uint32_t group_id = (inode_id-1) / sb->s_inodes_per_group;
uint32_t tabel_index = (inode_id-1) % sb->s_inodes_per_group;
assert(group_id < num_groups);
BlockGroup* group = GetBlockGroup(group_id);
if ( !group )
return (Inode*) NULL;
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uint32_t tabel_block = group->data->bg_inode_table;
group->Unref();
uint32_t block_id = tabel_block + (tabel_index * inode_size) / block_size;
uint32_t offset = (tabel_index * inode_size) % block_size;
Block* block = device->GetBlock(block_id);
if ( !block )
return (Inode*) NULL;
Inode* inode = new Inode(this, inode_id);
if ( !inode )
return block->Unref(), (Inode*) NULL;
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inode->data_block = block;
uint8_t* buf = inode->data_block->block_data + offset;
inode->data = (struct ext_inode*) buf;
inode->Prelink();
return inode;
}
uint32_t Filesystem::AllocateBlock(BlockGroup* preferred)
{
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if ( !device->write )
return errno = EROFS, 0;
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if ( !sb->s_free_blocks_count )
return errno = ENOSPC, 0;
if ( preferred )
if ( uint32_t block_id = preferred->AllocateBlock() )
return block_id;
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// TODO: This can be made faster by maintaining a linked list of block
// groups that definitely have free blocks.
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for ( uint32_t group_id = 0; group_id < num_groups; group_id++ )
if ( uint32_t block_id = GetBlockGroup(group_id)->AllocateBlock() )
return block_id;
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// TODO: This case should only be fit in the event of corruption. We should
// rebuild all these values upon filesystem mount instead so we know
// this can't happen. That also allows us to make the linked list
// requested above.
BeginWrite();
sb->s_free_blocks_count = 0;
FinishWrite();
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return errno = ENOSPC, 0;
}
uint32_t Filesystem::AllocateInode(BlockGroup* preferred)
{
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if ( !device->write )
return errno = EROFS, 0;
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if ( !sb->s_free_inodes_count )
return errno = ENOSPC, 0;
if ( preferred )
if ( uint32_t inode_id = preferred->AllocateInode() )
return inode_id;
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// TODO: This can be made faster by maintaining a linked list of block
// groups that definitely have free inodes.
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for ( uint32_t group_id = 0; group_id < num_groups; group_id++ )
if ( uint32_t inode_id = GetBlockGroup(group_id)->AllocateInode() )
return inode_id;
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// TODO: This case should only be fit in the event of corruption. We should
// rebuild all these values upon filesystem mount instead so we know
// this can't happen. That also allows us to make the linked list
// requested above.
BeginWrite();
sb->s_free_inodes_count = 0;
FinishWrite();
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return errno = ENOSPC, 0;
}
void Filesystem::FreeBlock(uint32_t block_id)
{
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assert(device->write);
assert(block_id);
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assert(block_id < num_blocks);
uint32_t group_id = (block_id - sb->s_first_data_block) / sb->s_blocks_per_group;
assert(group_id < num_groups);
BlockGroup* group = GetBlockGroup(group_id);
if ( !group )
return;
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group->FreeBlock(block_id);
group->Unref();
}
void Filesystem::FreeInode(uint32_t inode_id)
{
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assert(device->write);
assert(inode_id);
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assert(inode_id < num_inodes);
uint32_t group_id = (inode_id-1) / sb->s_inodes_per_group;
assert(group_id < num_groups);
BlockGroup* group = GetBlockGroup(group_id);
if ( !group )
return;
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group->FreeInode(inode_id);
group->Unref();
}