224 lines
6.1 KiB
C
224 lines
6.1 KiB
C
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#include "devices/block.h"
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#include <list.h>
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#include <string.h>
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#include <stdio.h>
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#include "devices/ide.h"
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#include "threads/malloc.h"
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/* A block device. */
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struct block
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{
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struct list_elem list_elem; /* Element in all_blocks. */
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char name[16]; /* Block device name. */
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enum block_type type; /* Type of block device. */
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block_sector_t size; /* Size in sectors. */
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const struct block_operations *ops; /* Driver operations. */
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void *aux; /* Extra data owned by driver. */
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unsigned long long read_cnt; /* Number of sectors read. */
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unsigned long long write_cnt; /* Number of sectors written. */
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};
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/* List of all block devices. */
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static struct list all_blocks = LIST_INITIALIZER (all_blocks);
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/* The block block assigned to each Pintos role. */
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static struct block *block_by_role[BLOCK_ROLE_CNT];
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static struct block *list_elem_to_block (struct list_elem *);
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/* Returns a human-readable name for the given block device
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TYPE. */
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const char *
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block_type_name (enum block_type type)
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{
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static const char *block_type_names[BLOCK_CNT] =
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{
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"kernel",
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"filesys",
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"scratch",
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"swap",
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"raw",
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"foreign",
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};
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ASSERT (type < BLOCK_CNT);
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return block_type_names[type];
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}
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/* Returns the block device fulfilling the given ROLE, or a null
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pointer if no block device has been assigned that role. */
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struct block *
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block_get_role (enum block_type role)
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{
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ASSERT (role < BLOCK_ROLE_CNT);
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return block_by_role[role];
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}
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/* Assigns BLOCK the given ROLE. */
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void
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block_set_role (enum block_type role, struct block *block)
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{
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ASSERT (role < BLOCK_ROLE_CNT);
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block_by_role[role] = block;
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}
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/* Returns the first block device in kernel probe order, or a
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null pointer if no block devices are registered. */
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struct block *
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block_first (void)
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{
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return list_elem_to_block (list_begin (&all_blocks));
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}
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/* Returns the block device following BLOCK in kernel probe
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order, or a null pointer if BLOCK is the last block device. */
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struct block *
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block_next (struct block *block)
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{
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return list_elem_to_block (list_next (&block->list_elem));
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}
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/* Returns the block device with the given NAME, or a null
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pointer if no block device has that name. */
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struct block *
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block_get_by_name (const char *name)
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{
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struct list_elem *e;
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for (e = list_begin (&all_blocks); e != list_end (&all_blocks);
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e = list_next (e))
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{
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struct block *block = list_entry (e, struct block, list_elem);
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if (!strcmp (name, block->name))
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return block;
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}
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return NULL;
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}
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/* Verifies that SECTOR is a valid offset within BLOCK.
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Panics if not. */
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static void
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check_sector (struct block *block, block_sector_t sector)
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{
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if (sector >= block->size)
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{
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/* We do not use ASSERT because we want to panic here
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regardless of whether NDEBUG is defined. */
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PANIC ("Access past end of device %s (sector=%"PRDSNu", "
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"size=%"PRDSNu")\n", block_name (block), sector, block->size);
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}
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}
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/* Reads sector SECTOR from BLOCK into BUFFER, which must
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have room for BLOCK_SECTOR_SIZE bytes.
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Internally synchronizes accesses to block devices, so external
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per-block device locking is unneeded. */
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void
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block_read (struct block *block, block_sector_t sector, void *buffer)
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{
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check_sector (block, sector);
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block->ops->read (block->aux, sector, buffer);
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block->read_cnt++;
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}
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/* Write sector SECTOR to BLOCK from BUFFER, which must contain
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BLOCK_SECTOR_SIZE bytes. Returns after the block device has
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acknowledged receiving the data.
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Internally synchronizes accesses to block devices, so external
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per-block device locking is unneeded. */
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void
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block_write (struct block *block, block_sector_t sector, const void *buffer)
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{
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check_sector (block, sector);
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ASSERT (block->type != BLOCK_FOREIGN);
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block->ops->write (block->aux, sector, buffer);
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block->write_cnt++;
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}
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/* Returns the number of sectors in BLOCK. */
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block_sector_t
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block_size (struct block *block)
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{
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return block->size;
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}
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/* Returns BLOCK's name (e.g. "hda"). */
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const char *
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block_name (struct block *block)
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{
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return block->name;
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}
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/* Returns BLOCK's type. */
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enum block_type
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block_type (struct block *block)
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{
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return block->type;
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}
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/* Prints statistics for each block device used for a Pintos role. */
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void
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block_print_stats (void)
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{
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int i;
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for (i = 0; i < BLOCK_CNT; i++)
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{
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struct block *block = block_by_role[i];
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if (block != NULL)
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{
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printf ("%s (%s): %llu reads, %llu writes\n",
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block->name, block_type_name (block->type),
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block->read_cnt, block->write_cnt);
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}
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}
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}
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/* Registers a new block device with the given NAME. If
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EXTRA_INFO is non-null, it is printed as part of a user
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message. The block device's SIZE in sectors and its TYPE must
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be provided, as well as the it operation functions OPS, which
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will be passed AUX in each function call. */
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struct block *
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block_register (const char *name, enum block_type type,
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const char *extra_info, block_sector_t size,
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const struct block_operations *ops, void *aux)
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{
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struct block *block = malloc (sizeof *block);
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if (block == NULL)
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PANIC ("Failed to allocate memory for block device descriptor");
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list_push_back (&all_blocks, &block->list_elem);
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strlcpy (block->name, name, sizeof block->name);
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block->type = type;
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block->size = size;
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block->ops = ops;
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block->aux = aux;
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block->read_cnt = 0;
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block->write_cnt = 0;
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printf ("%s: %'"PRDSNu" sectors (", block->name, block->size);
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print_human_readable_size ((uint64_t) block->size * BLOCK_SECTOR_SIZE);
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printf (")");
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if (extra_info != NULL)
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printf (", %s", extra_info);
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printf ("\n");
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return block;
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}
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/* Returns the block device corresponding to LIST_ELEM, or a null
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pointer if LIST_ELEM is the list end of all_blocks. */
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static struct block *
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list_elem_to_block (struct list_elem *list_elem)
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{
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return (list_elem != list_end (&all_blocks)
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? list_entry (list_elem, struct block, list_elem)
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: NULL);
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}
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