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Message-id: <000101cf7013$f646ac30$e2d40490$%yang@samsung.com>
Date: Thu, 15 May 2014 16:00:47 +0800
From: Weijie Yang <weijie.yang@...sung.com>
To: 'Minchan Kim' <minchan@...nel.org>
Cc: 'Andrew Morton' <akpm@...ux-foundation.org>,
'Nitin Gupta' <ngupta@...are.org>,
'Sergey Senozhatsky' <sergey.senozhatsky@...il.com>,
'Bob Liu' <bob.liu@...cle.com>,
'Dan Streetman' <ddstreet@...e.org>,
'Weijie Yang' <weijie.yang.kh@...il.com>,
'Heesub Shin' <heesub.shin@...sung.com>,
'Davidlohr Bueso' <davidlohr@...com>,
'Joonsoo Kim' <js1304@...il.com>,
'linux-kernel' <linux-kernel@...r.kernel.org>,
'Linux-MM' <linux-mm@...ck.org>
Subject: [PATCH v2] zram: remove global tb_lock with fine grain lock
Currently, we use a rwlock tb_lock to protect concurrent access to
the whole zram meta table. However, according to the actual access model,
there is only a small chance for upper user to access the same table[index],
so the current lock granularity is too big.
The idea of optimization is to change the lock granularity from whole
meta table to per table entry (table -> table[index]), so that we can
protect concurrent access to the same table[index], meanwhile allow
the maximum concurrency.
With this in mind, several kinds of locks which could be used as a
per-entry lock were tested and compared:
Test environment:
x86-64 Intel Core2 Q8400, system memory 4GB, Ubuntu 12.04,
kernel v3.15.0-rc3 as base, zram with 4 max_comp_streams LZO.
iozone test:
iozone -t 4 -R -r 16K -s 200M -I +Z
(1GB zram with ext4 filesystem, take the average of 10 tests, KB/s)
Test base CAS spinlock rwlock bit_spinlock
-------------------------------------------------------------------
Initial write 1381094 1425435 1422860 1423075 1421521
Rewrite 1529479 1641199 1668762 1672855 1654910
Read 8468009 11324979 11305569 11117273 10997202
Re-read 8467476 11260914 11248059 11145336 10906486
Reverse Read 6821393 8106334 8282174 8279195 8109186
Stride read 7191093 8994306 9153982 8961224 9004434
Random read 7156353 8957932 9167098 8980465 8940476
Mixed workload 4172747 5680814 5927825 5489578 5972253
Random write 1483044 1605588 1594329 1600453 1596010
Pwrite 1276644 1303108 1311612 1314228 1300960
Pread 4324337 4632869 4618386 4457870 4500166
To enhance the possibility of access the same table[index] concurrently,
set zram a small disksize(10MB) and let threads run with large loop count.
fio test:
fio --bs=32k --randrepeat=1 --randseed=100 --refill_buffers
--scramble_buffers=1 --direct=1 --loops=3000 --numjobs=4
--filename=/dev/zram0 --name=seq-write --rw=write --stonewall
--name=seq-read --rw=read --stonewall --name=seq-readwrite
--rw=rw --stonewall --name=rand-readwrite --rw=randrw --stonewall
(10MB zram raw block device, take the average of 10 tests, KB/s)
Test base CAS spinlock rwlock bit_spinlock
-------------------------------------------------------------
seq-write 933789 999357 1003298 995961 1001958
seq-read 5634130 6577930 6380861 6243912 6230006
seq-rw 1405687 1638117 1640256 1633903 1634459
rand-rw 1386119 1614664 1617211 1609267 1612471
All the optimization methods show a higher performance than the base,
however, it is hard to say which method is the most appropriate.
On the other hand, zram is mostly used on small embedded system, so we
don't want to increase any memory footprint.
This patch pick the bit_spinlock method, pack object size and page_flag
into an unsigned long table.value, so as to not increase any memory
overhead on both 32-bit and 64-bit system.
On the third hand, even though different kinds of locks have different
performances, we can ignore this difference, because:
if zram is used as zram swapfile, the swap subsystem can prevent concurrent
access to the same swapslot;
if zram is used as zram-blk for set up filesystem on it, the upper filesystem
and the page cache also prevent concurrent access of the same block mostly.
So we can ignore the different performances among locks.
Changes since v1: https://lkml.org/lkml/2014/5/5/1
- replace CAS method with bit_spinlock method
- rename zram_test_flag() to zram_test_zero()
- add some comments
- change the patch subject
Signed-off-by: Weijie Yang <weijie.yang@...sung.com>
---
drivers/block/zram/zram_drv.c | 84 +++++++++++++++++++++++------------------
drivers/block/zram/zram_drv.h | 22 ++++++++---
2 files changed, 63 insertions(+), 43 deletions(-)
diff --git a/drivers/block/zram/zram_drv.c b/drivers/block/zram/zram_drv.c
index 9849b52..81f2b3e 100644
--- a/drivers/block/zram/zram_drv.c
+++ b/drivers/block/zram/zram_drv.c
@@ -179,23 +179,32 @@ static ssize_t comp_algorithm_store(struct device *dev,
return len;
}
-/* flag operations needs meta->tb_lock */
-static int zram_test_flag(struct zram_meta *meta, u32 index,
- enum zram_pageflags flag)
+static int zram_test_zero(struct zram_meta *meta, u32 index)
{
- return meta->table[index].flags & BIT(flag);
+ return meta->table[index].value & BIT(ZRAM_ZERO);
}
-static void zram_set_flag(struct zram_meta *meta, u32 index,
- enum zram_pageflags flag)
+static void zram_set_zero(struct zram_meta *meta, u32 index)
{
- meta->table[index].flags |= BIT(flag);
+ meta->table[index].value |= BIT(ZRAM_ZERO);
}
-static void zram_clear_flag(struct zram_meta *meta, u32 index,
- enum zram_pageflags flag)
+static void zram_clear_zero(struct zram_meta *meta, u32 index)
{
- meta->table[index].flags &= ~BIT(flag);
+ meta->table[index].value &= ~BIT(ZRAM_ZERO);
+}
+
+static int zram_get_obj_size(struct zram_meta *meta, u32 index)
+{
+ return meta->table[index].value & (BIT(ZRAM_FLAG_SHIFT) - 1);
+}
+
+static void zram_set_obj_size(struct zram_meta *meta,
+ u32 index, int size)
+{
+ meta->table[index].value = (unsigned long)size |
+ ((meta->table[index].value >> ZRAM_FLAG_SHIFT)
+ << ZRAM_FLAG_SHIFT );
}
static inline int is_partial_io(struct bio_vec *bvec)
@@ -255,7 +264,6 @@ static struct zram_meta *zram_meta_alloc(u64 disksize)
goto free_table;
}
- rwlock_init(&meta->tb_lock);
return meta;
free_table:
@@ -304,19 +312,19 @@ static void handle_zero_page(struct bio_vec *bvec)
flush_dcache_page(page);
}
-/* NOTE: caller should hold meta->tb_lock with write-side */
static void zram_free_page(struct zram *zram, size_t index)
{
struct zram_meta *meta = zram->meta;
unsigned long handle = meta->table[index].handle;
+ int size;
if (unlikely(!handle)) {
/*
* No memory is allocated for zero filled pages.
* Simply clear zero page flag.
*/
- if (zram_test_flag(meta, index, ZRAM_ZERO)) {
- zram_clear_flag(meta, index, ZRAM_ZERO);
+ if (zram_test_zero(meta, index)) {
+ zram_clear_zero(meta, index);
atomic64_dec(&zram->stats.zero_pages);
}
return;
@@ -324,27 +332,28 @@ static void zram_free_page(struct zram *zram, size_t index)
zs_free(meta->mem_pool, handle);
- atomic64_sub(meta->table[index].size, &zram->stats.compr_data_size);
+ size = zram_get_obj_size(meta, index);
+ atomic64_sub(size, &zram->stats.compr_data_size);
atomic64_dec(&zram->stats.pages_stored);
meta->table[index].handle = 0;
- meta->table[index].size = 0;
+ zram_set_obj_size(meta, index, 0);
}
static int zram_decompress_page(struct zram *zram, char *mem, u32 index)
{
- int ret = 0;
unsigned char *cmem;
struct zram_meta *meta = zram->meta;
unsigned long handle;
- u16 size;
+ int size;
+ int ret = 0;
- read_lock(&meta->tb_lock);
+ bit_spin_lock(ZRAM_ACCESS, &meta->table[index].value);
handle = meta->table[index].handle;
- size = meta->table[index].size;
+ size = zram_get_obj_size(meta, index);
- if (!handle || zram_test_flag(meta, index, ZRAM_ZERO)) {
- read_unlock(&meta->tb_lock);
+ if (!handle || zram_test_zero(meta, index)) {
+ bit_spin_unlock(ZRAM_ACCESS, &meta->table[index].value);
clear_page(mem);
return 0;
}
@@ -355,7 +364,7 @@ static int zram_decompress_page(struct zram *zram, char *mem, u32 index)
else
ret = zcomp_decompress(zram->comp, cmem, size, mem);
zs_unmap_object(meta->mem_pool, handle);
- read_unlock(&meta->tb_lock);
+ bit_spin_unlock(ZRAM_ACCESS, &meta->table[index].value);
/* Should NEVER happen. Return bio error if it does. */
if (unlikely(ret)) {
@@ -376,14 +385,14 @@ static int zram_bvec_read(struct zram *zram, struct bio_vec *bvec,
struct zram_meta *meta = zram->meta;
page = bvec->bv_page;
- read_lock(&meta->tb_lock);
+ bit_spin_lock(ZRAM_ACCESS, &meta->table[index].value);
if (unlikely(!meta->table[index].handle) ||
- zram_test_flag(meta, index, ZRAM_ZERO)) {
- read_unlock(&meta->tb_lock);
+ zram_test_zero(meta, index)) {
+ bit_spin_unlock(ZRAM_ACCESS, &meta->table[index].value);
handle_zero_page(bvec);
return 0;
}
- read_unlock(&meta->tb_lock);
+ bit_spin_unlock(ZRAM_ACCESS, &meta->table[index].value);
if (is_partial_io(bvec))
/* Use a temporary buffer to decompress the page */
@@ -461,10 +470,10 @@ static int zram_bvec_write(struct zram *zram, struct bio_vec *bvec, u32 index,
if (page_zero_filled(uncmem)) {
kunmap_atomic(user_mem);
/* Free memory associated with this sector now. */
- write_lock(&zram->meta->tb_lock);
+ bit_spin_lock(ZRAM_ACCESS, &meta->table[index].value);
zram_free_page(zram, index);
- zram_set_flag(meta, index, ZRAM_ZERO);
- write_unlock(&zram->meta->tb_lock);
+ zram_set_zero(meta, index);
+ bit_spin_unlock(ZRAM_ACCESS, &meta->table[index].value);
atomic64_inc(&zram->stats.zero_pages);
ret = 0;
@@ -514,12 +523,12 @@ static int zram_bvec_write(struct zram *zram, struct bio_vec *bvec, u32 index,
* Free memory associated with this sector
* before overwriting unused sectors.
*/
- write_lock(&zram->meta->tb_lock);
+ bit_spin_lock(ZRAM_ACCESS, &meta->table[index].value);
zram_free_page(zram, index);
meta->table[index].handle = handle;
- meta->table[index].size = clen;
- write_unlock(&zram->meta->tb_lock);
+ zram_set_obj_size(meta, index, clen);
+ bit_spin_unlock(ZRAM_ACCESS, &meta->table[index].value);
/* Update stats */
atomic64_add(clen, &zram->stats.compr_data_size);
@@ -560,6 +569,7 @@ static void zram_bio_discard(struct zram *zram, u32 index,
int offset, struct bio *bio)
{
size_t n = bio->bi_iter.bi_size;
+ struct zram_meta *meta = zram->meta;
/*
* zram manages data in physical block size units. Because logical block
@@ -584,9 +594,9 @@ static void zram_bio_discard(struct zram *zram, u32 index,
* Discard request can be large so the lock hold times could be
* lengthy. So take the lock once per page.
*/
- write_lock(&zram->meta->tb_lock);
+ bit_spin_lock(ZRAM_ACCESS, &meta->table[index].value);
zram_free_page(zram, index);
- write_unlock(&zram->meta->tb_lock);
+ bit_spin_unlock(ZRAM_ACCESS, &meta->table[index].value);
index++;
n -= PAGE_SIZE;
}
@@ -804,9 +814,9 @@ static void zram_slot_free_notify(struct block_device *bdev,
zram = bdev->bd_disk->private_data;
meta = zram->meta;
- write_lock(&meta->tb_lock);
+ bit_spin_lock(ZRAM_ACCESS, &meta->table[index].value);
zram_free_page(zram, index);
- write_unlock(&meta->tb_lock);
+ bit_spin_unlock(ZRAM_ACCESS, &meta->table[index].value);
atomic64_inc(&zram->stats.notify_free);
}
diff --git a/drivers/block/zram/zram_drv.h b/drivers/block/zram/zram_drv.h
index 7f21c14..caf620e 100644
--- a/drivers/block/zram/zram_drv.h
+++ b/drivers/block/zram/zram_drv.h
@@ -51,10 +51,22 @@ static const size_t max_zpage_size = PAGE_SIZE / 4 * 3;
#define ZRAM_SECTOR_PER_LOGICAL_BLOCK \
(1 << (ZRAM_LOGICAL_BLOCK_SHIFT - SECTOR_SHIFT))
-/* Flags for zram pages (table[page_no].flags) */
+/*
+ * The lower ZRAM_FLAG_SHIFT bits of table.value is for
+ * object size (excluding header), the higher bits is for
+ * zram_pageflags. By this means, it won't increase any
+ * memory overhead on both 32-bit and 64-bit system.
+ * zram is mostly used on small embedded system, so we
+ * don't want to increase memory footprint. That is why
+ * we pack size and flag into table.value.
+ */
+#define ZRAM_FLAG_SHIFT 24
+
+/* Flags for zram pages (table[page_no].value) */
enum zram_pageflags {
/* Page consists entirely of zeros */
- ZRAM_ZERO,
+ ZRAM_ZERO = ZRAM_FLAG_SHIFT + 1,
+ ZRAM_ACCESS, /* page in now accessed */
__NR_ZRAM_PAGEFLAGS,
};
@@ -64,9 +76,8 @@ enum zram_pageflags {
/* Allocated for each disk page */
struct table {
unsigned long handle;
- u16 size; /* object size (excluding header) */
- u8 flags;
-} __aligned(4);
+ unsigned long value;
+};
struct zram_stats {
atomic64_t compr_data_size; /* compressed size of pages stored */
@@ -81,7 +92,6 @@ struct zram_stats {
};
struct zram_meta {
- rwlock_t tb_lock; /* protect table */
struct table *table;
struct zs_pool *mem_pool;
};
--
1.7.10.4
--
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