這篇主要是為了 lab locks 中的 “Buffer cache” 這一題,要我們先了解 bcache 的一些原理與應用,主要的參考資料是 xv6 book 8.1 ~ 8.3 與 bcache 相關的程式碼
kernel/main.c
void
main()
{
if(cpuid() == 0){
consoleinit();
printfinit();
printf("\n");
printf("xv6 kernel is booting\n");
printf("\n");
kinit(); // physical page allocator
kvminit(); // create kernel page table
kvminithart(); // turn on paging
procinit(); // process table
trapinit(); // trap vectors
trapinithart(); // install kernel trap vector
plicinit(); // set up interrupt controller
plicinithart(); // ask PLIC for device interrupts
binit(); // buffer cache <- 這裡進入 bcache 的初始化過程
iinit(); // inode table
fileinit(); // file table
virtio_disk_init(); // emulated hard disk
userinit(); // first user process
__sync_synchronize();
started = 1;
} else {
while(started == 0)
;
__sync_synchronize();
printf("hart %d starting\n", cpuid());
kvminithart(); // turn on paging
trapinithart(); // install kernel trap vector
plicinithart(); // ask PLIC for device interrupts
}
scheduler();
}
kernel/bio.c: binit()
struct {
struct spinlock lock;
struct buf buf[NBUF];
// Linked list of all buffers, through prev/next.
// Sorted by how recently the buffer was used.
// head.next is most recent, head.prev is least.
struct buf head;
} bcache;
void
binit(void)
{
struct buf *b;
initlock(&bcache.lock, "bcache");
// Create linked list of buffers
bcache.head.prev = &bcache.head;
bcache.head.next = &bcache.head;
for(b = bcache.buf; b < bcache.buf+NBUF; b++){
b->next = bcache.head.next;
b->prev = &bcache.head;
initsleeplock(&b->lock, "buffer");
bcache.head.next->prev = b;
bcache.head.next = b;
}
}
- 在
binit()之後,就不會直接使用bcache.buf這個 array,而是使用由head開頭的這個環狀 linked-list
bread() 與 bwrite()
// Return a locked buf with the contents of the indicated block.
struct buf*
bread(uint dev, uint blockno)
{
struct buf *b;
b = bget(dev, blockno);
if(!b->valid) {
virtio_disk_rw(b, 0);
b->valid = 1;
}
return b;
}
如果 bget() 可以拿到 buf 就直接回傳,如果不行,則使用 virtio_disk_rw()
// Write b's contents to disk. Must be locked.
void
bwrite(struct buf *b)
{
if(!holdingsleep(&b->lock))
panic("bwrite");
virtio_disk_rw(b, 1);
}
要先拿到 b->lock 才可以透過 virtio_disk_rw() 進行寫入
bget()
static struct buf*
bget(uint dev, uint blockno)
{
struct buf *b;
acquire(&bcache.lock);
// Is the block already cached?
for(b = bcache.head.next; b != &bcache.head; b = b->next){
if(b->dev == dev && b->blockno == blockno){
b->refcnt++;
release(&bcache.lock);
acquiresleep(&b->lock);
return b;
}
}
// Not cached.
// Recycle the least recently used (LRU) unused buffer.
for(b = bcache.head.prev; b != &bcache.head; b = b->prev){
if(b->refcnt == 0) {
b->dev = dev;
b->blockno = blockno;
b->valid = 0;
b->refcnt = 1;
release(&bcache.lock);
acquiresleep(&b->lock);
return b;
}
}
panic("bget: no buffers");
}
如果 bcache 中有 buf 就回傳這個 buf,沒有的話就依據 least recently used (LRU) 的原則替代掉一個 buf
- 比較常用的會被放到
head->next的方向,head->prev的方向則是比較少被用到的
brelse()
// Release a locked buffer.
// Move to the head of the most-recently-used list.
void
brelse(struct buf *b)
{
if(!holdingsleep(&b->lock))
panic("brelse");
releasesleep(&b->lock);
acquire(&bcache.lock);
b->refcnt--;
if (b->refcnt == 0) {
// no one is waiting for it.
b->next->prev = b->prev;
b->prev->next = b->next;
b->next = bcache.head.next;
b->prev = &bcache.head;
bcache.head.next->prev = b;
bcache.head.next = b;
}
release(&bcache.lock);
}