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|
use crate::disk::block::{
Block, DataBlock, DoubleIndirectBlock, IndirectBlock, TripleIndirectBlock,
};
use crate::disk::inode::{Inode, DIRECT_NUMBER};
use crate::memory::cached_block::{convert, CachedBlock};
use crate::{AyaFS, INODE_PER_BLOCK};
use libc::c_int;
use log::debug;
impl AyaFS {
/// 为 Inode 分配新 block, 返回 block 的编号和它在 inode 内的编号
pub(crate) fn allocate_block_for(&mut self, inode: &mut Inode) -> Option<(u32, usize)> {
// 先看这个 inode 的 direct block 有没有空闲
for (index_within_direct, index) in inode.direct.iter_mut().enumerate() {
if !self.data_bitmap.query(*index as usize) {
let block_index = self.data_bitmap.allocate().unwrap() as u32;
// println!("allocating {} for direct", block_index);
*index = block_index;
inode.n_blocks += 1;
// 初始化这个 block
self.init_block(block_index as usize);
// 当调用 get_inode_mut 拿出 &mut Inode 的时候对应的 block 在 cache 里已经脏了
return Some((block_index, index_within_direct));
}
}
// direct block 全部分配完了, 先检查 indirect block 有没有分配, 没有就分配一个
if !self.data_bitmap.query(inode.single_indirect as usize) {
inode.single_indirect = self
.data_bitmap
.allocate()
.expect("No free space for new block") as u32;
self.init_block(inode.single_indirect as usize);
// println!("allocating {} for indirect", inode.single_indirect);
}
// 在 indirect block 里尝试分配
if let Some((block_index, index_within_indirect)) =
self.allocate_in_indirect(inode.single_indirect)
{
// println!("allocating {} in indirect", block_index);
inode.n_blocks += 1;
let index_within_block = DIRECT_NUMBER + index_within_indirect;
return Some((block_index, index_within_block));
}
// direct & indirect block 全部分配完了, 先检查 double indirect block 有没有分配, 没有就分配一个
if !self.data_bitmap.query(inode.double_indirect as usize) {
inode.double_indirect = self
.data_bitmap
.allocate()
.expect("No free space for new block") as u32;
self.init_block(inode.double_indirect as usize);
// println!("allocating {} for double indirect", inode.double_indirect);
}
// 在 double indirect block 里尝试分配
if let Some((block_index, index_within_double)) =
self.alloc_in_double_indirect(inode.double_indirect)
{
// println!("allocating {} in double indirect", block_index);
inode.n_blocks += 1;
let index_within_block = DIRECT_NUMBER + INODE_PER_BLOCK + index_within_double;
return Some((block_index, index_within_block));
}
// direct, indirect & double indirect block 全部分配完了, 先检查 triple indirect block 有没有分配, 没有就分配一个
if !self.data_bitmap.query(inode.triple_indirect as usize) {
inode.triple_indirect = self
.data_bitmap
.allocate()
.expect("No free space for new block") as u32;
self.init_block(inode.triple_indirect as usize);
// println!("allocating {} for triple indirect", inode.triple_indirect);
}
// 在 double indirect block 里尝试分配
if let Some((block_index, index_within_triple)) =
self.alloc_in_triple_indirect(inode.triple_indirect)
{
// println!("allocating {} in triple indirect", block_index);
inode.n_blocks += 1;
let index_within_block = DIRECT_NUMBER
+ INODE_PER_BLOCK
+ INODE_PER_BLOCK * INODE_PER_BLOCK
+ index_within_triple;
return Some((block_index, index_within_block));
}
None
}
fn allocate_in_indirect(&mut self, indirect_entry: u32) -> Option<(u32, usize)> {
// 取出 single indirect block, 尝试在里面分配
let indirect_entry = indirect_entry as usize;
// println!("finding indirect block with number {}, bitmap says {}", indirect_entry, self.data_bitmap.query(indirect_entry));
if let Some(block) = self
.get_block(indirect_entry)
.map(convert::<DataBlock, IndirectBlock>)
{
// println!("found indirect block with number {}", indirect_entry);
let mut indirect_block = block.clone();
for (index_within_indirect, entry) in
indirect_block.block.entries.iter_mut().enumerate()
{
if self.data_bitmap.query(*entry as usize) == false {
indirect_block.dirty = true; // 把这个块标记为 dirty
let block_index = self.data_bitmap.allocate().expect("No free space") as u32;
self.init_block(block_index as usize);
*entry = block_index;
self.update_block(indirect_block);
return Some((block_index, index_within_indirect));
}
}
}
None
}
fn alloc_in_double_indirect(&mut self, double_indirect_entry: u32) -> Option<(u32, usize)> {
let double_indirect_entry = double_indirect_entry as usize;
if let Some(block) = self
.get_block(double_indirect_entry)
.map(convert::<DataBlock, DoubleIndirectBlock>)
{
let mut double_indirect_block = block.clone();
let mut double_indirect_modified = false;
for (index_within_double_indirect, indirect_entry) in
double_indirect_block.block.indirect.iter_mut().enumerate()
{
if self.data_bitmap.query(*indirect_entry as usize) == false {
double_indirect_block.dirty = true;
double_indirect_modified = true;
let indirect_index = self.data_bitmap.allocate().expect("No free space");
*indirect_entry = indirect_index as u32;
self.init_block(indirect_index);
}
if let Some((block_index, index_within_indirect)) =
self.allocate_in_indirect(*indirect_entry)
{
if double_indirect_modified {
self.update_block(double_indirect_block);
}
let index_within_double =
index_within_double_indirect * INODE_PER_BLOCK + index_within_indirect;
return Some((block_index, index_within_double));
}
}
}
None
}
fn alloc_in_triple_indirect(&mut self, triple_indirect_entry: u32) -> Option<(u32, usize)> {
let triple_indirect_entry = triple_indirect_entry as usize;
if let Some(block) = self
.get_block(triple_indirect_entry)
.map(convert::<DataBlock, TripleIndirectBlock>)
{
let mut triple_indirect_block = block.clone();
let mut triple_indirect_modified = false;
for (index_within_triple_indirect, double_indirect_entry) in triple_indirect_block
.block
.double_indirect
.iter_mut()
.enumerate()
{
if self.data_bitmap.query(*double_indirect_entry as usize) == false {
triple_indirect_block.dirty = true;
triple_indirect_modified = true;
let double_indirect_index = self.data_bitmap.allocate().expect("No free space");
*double_indirect_entry = double_indirect_index as u32;
self.init_block(double_indirect_index)
}
if let Some((block_index, index_within_double_indirect)) =
self.alloc_in_double_indirect(*double_indirect_entry)
{
if triple_indirect_modified {
self.update_block(triple_indirect_block);
}
let index_within_triple =
index_within_triple_indirect * INODE_PER_BLOCK * INODE_PER_BLOCK
+ index_within_double_indirect;
return Some((block_index, index_within_triple));
}
}
}
None
}
}
impl AyaFS {
pub(crate) fn deallocate_all_blocks_for(&mut self, inode: &Inode) -> Result<(), c_int> {
// 遍历 direct block 并删除
for block_index in inode.direct {
self.data_bitmap.deallocate(block_index as usize);
}
// 遍历 indirect block 并删除
if self.data_bitmap.query(inode.single_indirect as usize) {
let indirect = self
.get_block::<IndirectBlock>(inode.single_indirect as usize)
.unwrap();
for block_index in indirect.block.entries {
self.data_bitmap.deallocate(block_index as usize);
}
self.data_bitmap.deallocate(inode.single_indirect as usize);
}
// 遍历 double indirect block 并删除
if self.data_bitmap.query(inode.double_indirect as usize) {
let double_indirect = self
.get_block::<DoubleIndirectBlock>(inode.double_indirect as usize)
.unwrap();
for indirect_block_index in double_indirect.block.indirect {
if let Some(indirect) =
self.get_block::<IndirectBlock>(indirect_block_index as usize)
{
for block_index in indirect.block.entries {
self.data_bitmap.deallocate(block_index as usize);
}
self.data_bitmap.deallocate(indirect_block_index as usize);
}
}
self.data_bitmap.deallocate(inode.double_indirect as usize);
}
// 遍历 triple indirect block 并删除
if self.data_bitmap.query(inode.triple_indirect as usize) {
let triple_indirect = self
.get_block::<TripleIndirectBlock>(inode.triple_indirect as usize)
.unwrap();
for double_indirect_block_index in triple_indirect.block.double_indirect {
if let Some(double_indirect) =
self.get_block::<DoubleIndirectBlock>(double_indirect_block_index as usize)
{
for indirect_block_index in double_indirect.block.indirect {
if let Some(indirect) =
self.get_block::<IndirectBlock>(indirect_block_index as usize)
{
for block_index in indirect.block.entries {
self.data_bitmap.deallocate(block_index as usize);
}
self.data_bitmap.deallocate(indirect_block_index as usize);
}
}
self.data_bitmap
.deallocate(double_indirect_block_index as usize);
}
}
self.data_bitmap.deallocate(inode.triple_indirect as usize);
}
Ok(())
}
/// 从 inode 中删去最后一个 block
pub(crate) fn deallocate_block_for(&mut self, inode: &mut Inode) -> Option<u32> {
// 如果 triple indirect 块存在, 则尝试从中销毁一个块
if self.data_bitmap.query(inode.triple_indirect as usize) {
if let Some(block_index) = self.deallocate_from_triple_indirect(inode.triple_indirect) {
inode.n_blocks -= 1;
return Some(block_index); // 销毁成功, 直接返回
} else {
// 销毁失败, 说明 triple indirect 空了, 把它也销毁.
self.data_bitmap.deallocate(inode.triple_indirect as usize);
inode.triple_indirect = 0; // 这个地方理论上应该不用?
}
}
// 如果 double indirect 块存在, 则从其中销毁
if self.data_bitmap.query(inode.double_indirect as usize) {
if let Some(block_index) = self.deallocate_from_double_indirect(inode.double_indirect) {
inode.n_blocks -= 1;
return Some(block_index);
} else {
self.data_bitmap.deallocate(inode.double_indirect as usize);
inode.double_indirect = 0; // 这个地方理论上应该不用?
}
}
// 如果 indirect 块存在, 则从其中销毁
if self.data_bitmap.query(inode.single_indirect as usize) {
if let Some(block_index) = self.deallocate_from_indirect(inode.single_indirect) {
inode.n_blocks -= 1;
return Some(block_index);
} else {
self.data_bitmap.deallocate(inode.single_indirect as usize);
inode.single_indirect = 0; // 这个地方理论上应该不用?
}
}
// 都没有,直接从 direct 块中销毁
for entry in inode.direct.iter_mut().rev() {
if self.data_bitmap.query(*entry as usize) {
let index = std::mem::replace(entry, 0); // let index = *entry; *entry = 0;
inode.n_blocks -= 1;
self.data_bitmap.deallocate(index as usize);
return Some(index);
}
}
None
}
fn deallocate_from_triple_indirect(&mut self, triple_indirect_entry: u32) -> Option<u32> {
let triple_indirect_entry = triple_indirect_entry as usize;
if let Some(triple_indirect_block) = self
.get_block(triple_indirect_entry)
.map(convert::<DataBlock, TripleIndirectBlock>)
{
let mut triple_indirect_block = triple_indirect_block.clone();
let mut block_modified = false;
for double_indirect_entry in
triple_indirect_block.block.double_indirect.iter_mut().rev()
{
// 如果这个位置的 double indirect 存在
if self.data_bitmap.query(*double_indirect_entry as usize) {
// 尝试从中销毁一个块
if let Some(block_index) =
self.deallocate_from_double_indirect(*double_indirect_entry)
{
if block_modified {
self.update_block(triple_indirect_block);
}
return Some(block_index); // 成功则直接返回
} else {
// 失败则把这个 double indirect 销毁
let double_indirect_entry_to_deallocate =
std::mem::replace(double_indirect_entry, 0);
self.data_bitmap
.deallocate(double_indirect_entry_to_deallocate as usize);
triple_indirect_block.dirty = true;
block_modified = true;
}
}
}
if block_modified {
self.update_block(triple_indirect_block);
}
}
None
}
fn deallocate_from_double_indirect(&mut self, double_indirect_entry: u32) -> Option<u32> {
let double_indirect_entry = double_indirect_entry as usize;
if let Some(double_indirect_block) = self
.get_block(double_indirect_entry)
.map(convert::<DataBlock, DoubleIndirectBlock>)
{
let mut double_indirect_block = double_indirect_block.clone();
let mut block_modified = false;
for indirect_entry in double_indirect_block.block.indirect.iter_mut().rev() {
// 如果这个位置的 indirect 存在
if self.data_bitmap.query(*indirect_entry as usize) {
// 尝试从中销毁一个块
if let Some(block_index) = self.deallocate_from_indirect(*indirect_entry) {
if block_modified {
self.update_block(double_indirect_block);
}
return Some(block_index); // 成功则直接返回
} else {
// 失败则把这个 indirect 销毁
let indirect_entry_to_deallocate = std::mem::replace(indirect_entry, 0);
self.data_bitmap
.deallocate(indirect_entry_to_deallocate as usize);
double_indirect_block.dirty = true;
block_modified = true;
}
}
}
if block_modified {
self.update_block(double_indirect_block);
}
}
None
}
fn deallocate_from_indirect(&mut self, indirect_entry: u32) -> Option<u32> {
let indirect_entry = indirect_entry as usize;
if let Some(indirect_block) = self
.get_block(indirect_entry)
.map(convert::<DataBlock, IndirectBlock>)
{
let mut indirect_block = indirect_block.clone();
// 遍历 indirect block 里的每个 block
for entry in indirect_block.block.entries.iter_mut().rev() {
// 如果这个 block 存在, 销毁它
if self.data_bitmap.query(*entry as usize) {
let entry_to_deallocate = std::mem::replace(entry, 0);
self.data_bitmap.deallocate(entry_to_deallocate as usize);
indirect_block.dirty = true;
self.update_block(indirect_block);
return Some(entry_to_deallocate);
}
}
}
None
}
}
impl AyaFS {
pub(crate) fn get_block_index(
&mut self,
inode: &Inode,
mut block_index_within_inode: usize,
) -> Option<usize> {
debug!(
"get_block_index(block_index_within_inode: {})",
block_index_within_inode
);
// direct block
if block_index_within_inode < DIRECT_NUMBER {
let block_index = inode.direct[block_index_within_inode] as usize;
debug!(" get_block_index -> direct");
return if self.data_bitmap.query(block_index) {
debug!(" get_block_index -> direct -> ✓");
Some(block_index)
} else {
debug!(" get_block_index -> direct -> ×");
None
};
} else {
block_index_within_inode -= DIRECT_NUMBER;
}
// indirect block
let indirect_number = 1024;
if block_index_within_inode < indirect_number {
return if let Some(indirect_block) =
self.get_block::<IndirectBlock>(inode.single_indirect as usize)
{
debug!(" get_block_index -> indirect");
let block_index = indirect_block.block.entries[block_index_within_inode] as usize;
if self.data_bitmap.query(block_index) {
debug!(" get_block_index -> indirect -> direct -> ✓");
Some(block_index)
} else {
debug!(" get_block_index -> indirect -> direct -> ×");
None
}
} else {
debug!(" get_block_index -> indirect -> ×");
None
};
} else {
block_index_within_inode -= indirect_number;
}
// double indirect block
let double_indirect_number = 1024 * 1024;
if block_index_within_inode < double_indirect_number {
if let Some(double_indirect_block) =
self.get_block::<DoubleIndirectBlock>(inode.double_indirect as usize)
{
// 取出 double indirect block
let indirect_block_index = double_indirect_block.block.indirect
[block_index_within_inode / INODE_PER_BLOCK]
as usize;
// 要找的 entry 在 double indirect block 中的第几个 indirect block
if let Some(indirect_block) = self.get_block::<IndirectBlock>(indirect_block_index)
{
let block_index = indirect_block.block.entries
[block_index_within_inode % INODE_PER_BLOCK]
as usize;
// 拿到 DirectoryBlock 的 index
return if self.data_bitmap.query(block_index) {
Some(block_index)
} else {
None
};
}
}
return None;
} else {
block_index_within_inode -= double_indirect_number;
}
// triple indirect block
if let Some(triple_indirect_block) =
self.get_block::<TripleIndirectBlock>(inode.triple_indirect as usize)
{
// 取出 triple indirect block
let double_indirect_block_index = triple_indirect_block.block.double_indirect
[block_index_within_inode / (INODE_PER_BLOCK * INODE_PER_BLOCK)]
as usize;
// 要找的 entry 在 triple indirect block 中的第几个 double indirect block
if let Some(double_indirect_block) =
self.get_block::<DoubleIndirectBlock>(double_indirect_block_index)
{
// 取出 double indirect block
let indirect_block_index = double_indirect_block.block.indirect
[block_index_within_inode % (INODE_PER_BLOCK * INODE_PER_BLOCK)
/ INODE_PER_BLOCK] as usize;
// 要找的 entry 在 double indirect block 中的第几个 indirect block
if let Some(indirect_block) = self.get_block::<IndirectBlock>(indirect_block_index)
{
let block_index = indirect_block.block.entries
[block_index_within_inode % INODE_PER_BLOCK]
as usize;
// DirectoryBlock 的 index
return if self.data_bitmap.query(block_index) {
Some(block_index)
} else {
None
};
}
}
}
None
}
pub(crate) fn access_block<T: Block>(
&mut self,
inode: &Inode,
block_index_within_inode: usize,
) -> Option<&CachedBlock<T>> {
self.get_block_index(inode, block_index_within_inode)
.map(|block_index| {
self.get_block::<T>(block_index).unwrap() // 可以 unwrap 吧这里 ??
})
}
pub(crate) fn access_block_mut<T: Block>(
&mut self,
inode: &Inode,
block_index_within_inode: usize,
) -> Option<&mut CachedBlock<T>> {
self.get_block_index(inode, block_index_within_inode)
.map(|block_index| {
debug!(
"access_block_mut(index: {}) found",
block_index_within_inode
);
self.get_block_mut::<T>(block_index).unwrap() // 可以 unwrap 吧这里 ??
})
}
}
|
